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M&czoz© --c )o 152- 7374 SW �u e 4 J r Product Data OFFICE COPY Carrie WeatherMaker® Single Packaged Rooftop 3 to 6 Nominal Tons bluets 0 technology m -- l - .� J�„�..- _ v II i%% i}aoi 48/50FC'"04,05,06,07 48FC:Single-Package Gas Heating Electric Cooling Rooftop Units 50FC: Electric Cooling Rooftop Units with Optional Electric Heat with Puron®Refrigerant(R-410A) ©Carrier Corporation 2019 Form 48/50FC-4-7-02PD Features/Benefits Camel"; The New Carrier With "no-strip" screw collars, handled makes it easy to adjust to unexpected WeatherMaker® rooftop units access panels, and more, the unit is job-site complications. Lighter units (RTU) with EcoBlueTM easy to install, easy to maintain, and make for easy replace. Simple, fast Technology were designed easy to use. Your new 3 to 6 ton plug-in connections to the standard by customers for customers Carrier WeatherMaker rooftop unit integrated unit control board (UCB). and integrate new technology (RTU) provides optimum comfort and Clearly labeled connections points to t rn g value added control from a packaged rooftop. reduce installation time. Also, a large p Value-added features include: control box provides room to work and benefits never seen in this room to mount Carrier accessory type of equipment before. • optional Humidi-Mizer® adaptive controls. dehumidification system for New major design features include: improved part load humidity Easy to maintain • Patent pending, industry's first effi- performance With the new EcoBlue Vane Axial fan dent indoor fan system using Vane • Puron®refrigerant(R-410A) system and direct drive ECM motor, Axial fan with electric commutated • single point gas and electrical there is no longer a need to adjust belts variable speed motor connections or pulleys as in past designs. This frees • Reliable fixed speed scroll compres- • optional fully integrated SystemVum up maintenance and installation time. sor on 3-5 ton sizes and 2 stage controls Easy access handles by Carrier provide scroll technology on 6 ton sizes • RTU Open controller for BACnetl, quick and easy access to all normally • Upgraded unit control board with LonWorks2, Modbus3 and Johnson serviced components. Our "no-strip" intuitive indoor fan adjustment Controls N2 screw system has superior holding • Reliable copper tube/aluminum fin • 3 to 5 ton models use fixed refriger- power and guides screws into position condenser coil with 5/16-in. tubing ant metering devices and 6 ton while preventing the screw from strip- to help reduce refrigerant charge models use a TXV ping the unit's metal. versus prior designs • Scroll compressors with internal Sloped, corrosion resistant composite • New outdoor fan system with rug- line-break overload protection drain pan sheds water;and won't rust. ged—lightweight high impact com- • Units come with an easy access posite fan blade tool-less filter door. Filter track tilts Easy to use 48/50FC WeatherMaker® units up to out for filter removal and replace- The newly re-designed Unit Control 6 tons are specifically designed to fit on ment. All filters are the same size in Board by Carrier puts all connections Carrier roof curbs that were installed each unit and troubleshooting points in one con- back to 1989, which makes replace- Installation ease venient place. Most low voltage con ment easyand eliminates the need for nections are made to the same board All WeatherMaker er units are field-con- and make it easy to access it. Setting curb adapters or changing utility vertible to horizontal airflow, which up the fan is simple by an intuitive connections. — switch and rotary dial arrangement. Single-stage units deliver SEERs up to 1. BACnet is a registered trademark of Carrier rooftops have high and low 14.0. IEERs up to 15.2.All models are ASHRAE(American Society of Heating,Re- pressure switches, a filter drier, and capable of either vertical or horizontal frigerating and Air-Conditioning Engineers). 2-in. filters standard. airflow. 2. LonWorks is a registered trademark of Echelon Corporation. The Carrier rooftop unit (RTU) was 3. Modbus is a registered trademark of designed by customers for customers. Schneider Electric. Table of contents Page Features/Benefits 2 Model Number Nomenclature 4 Capacity Ratings 6 Physical Data 10 Options and Accessories 15 Base Unit Dimensions 20 Accessory Dimensions 26 Performance Data 27 Fan Data 40 Electrical Data 97 Typical Wiring Diagrams 119 Sequence of Operation 131 Application Data 134 Guide Specifications 136 2 Carrie EcoBluen"Technology units are compatible with conventional Field convertible airflow Direct drive EcoBlue Technology thermostat controls, SystemVum con All WeatherMaker 3 to 6 ton units are indoor fan system uses Vane Axial fan trots and Carrier RTU Open multi pro field-convertible to horizontal airflow, design and electrically commutated tocol controller. which makes it easy to adjust to unex- motors. Operating efficiency and petted job site. This new Vane Axial design over past flexibility Comfort control belt drive systems has 75%fewer mov- The 48/50FC rooftops meet ASHRAE Carrier's patented Humidi-MiZer® ing parts, uses up to 40% less energy (American Society of Heating, Refriger- adaptive dehumidification system is an and has no fan belts, blower bearings ating, and Air-Conditioning Engineers) all-inclusive factory-installed option on and shaft. 90.1-2016, IECCI (International Energy gas heating/electric cooling and elec- Streamlined control and Conservation Code) IECC 2018 mini- tric cooling/electric heat models. This integration mum efficiency requirements. system provides reliable, flexible opera Carrier controllers make connecting tion to meet indoor part load sensible WeatherMaker® rooftops into existing 1. IECC is a registered trademark of the Inter- and latent requirements. building automation systems easy. The national Code Council,Inc. 0 High Efficiency Outdoor Fan WeatherMaker Vane Axial Indoor Fan -Non-corrosive blade with ecobluc"technology -Direct drive ECM -Balanced blade Slow ramp up Unit controls -Efficient airflow collar -Phase loss protection -Base unit controller No belts or pulleys Switch/dial fan setting Large terminal connections Arlo. '1---SystemVu option ! 4116-1 Large Display _--- -�r� r s. Quick LED status ar" at iVu®,CCN,BACnet q'•_tl i kl RTU Open option "� r k�r�.,� Heating Multi-protocol controller _ -Gas Heating = Induced draft heat exchanger - '^�` - ! - _' ,�..;4?' Multiple sizes available -" ''a df t, ; Efficient dimpled gas design U 'Y -' `v"" '" -Electric Heating '"" ' Multiple sizes available ,�pq ._�. I Single point power Efficient Coils i _- -`"` rc ""t -Round tube/plate fin ',,,)" -Copper/Aluminum -Special coating available \ -New 5/16-in.condenser tube Compression Cabinet Design -Humidi-MiZer5 system available -Fully hermitic scroll Internally protected -Heavy gage base rails -Single stage(3 to 5 tons) -Large handled access panels -Two-stage(6 tons) -Tool-less filter access door -Replacement"original"fit design 3 Model number nomenclature Carrier 48FC MODEL NUMBER NOMENCLATURE Position: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Example: 4 8 F C D A 0 4 A 2 A 5 - 0 A 0 A 0 Unit Heat Type Packaging&Seismic Compliance 48-Gas Heat Packaged Rooftop 0 = Standard 1 = LTL Model Series-WeatherMaker° FC-14.0 SEER Standard Efficiency,sizes 04-06 Electrical Options 15.0 IEER Standard Efficiency,size 07 A= None C= Non-Fused Disconnect Heat Size D=Thru-The-Base Connections D = Low Gas Heat F= Non-Fused Disconnect and E = Medium Gas Heat Thru-The-Base Connections F = High Gas Heat L = Low NOx-Low Gas Heat' Service Options S = Low Heat w/Stainless Steel Exchanger 0 = None R= Medium Heat w/Stainless Steel Exchanger 1 = Unpowered Convenience Outlet T = High Heat w/Stainless Steel Exchanger 2 = Powered Convenience Outlet (Low NOx models include Stainless Steel HX) 3 = Hinged Panels 4 = Hinged Panels and Refrig.Systems Options Unpowered Convenience Outlet A = Standard One Stage Cooling Models' 5 = Hinged Panels and B = Standard One Stage Cooling Models Powered Convenience Outlet with Humidi-MiZer®system'' M= Single Circuit,Two Stage Cooling 3 Intake f Exhaust Options N = Single Circuit,Two Stage Cooling with A= None Humidi-MiZer system' B= Temperature Economizer w/Barometric Relief F = Enthalpy Economizer w/Barometric Relief Cooling Tons K= Two-Position Damper' 04 =3 tons U= Temperature Ultra Low Leak Economizer OS =4 tons w/Barometric Relief 06 = 5 tons W= Enthalpy Ultra Low Leak Economizer 07 =6 tons w/Barometric Relief Sensor Options Base Unit Controls 0= Electro-mechanical Controls-can be used with A= None field-installed W7212 EconoMi$ero IV B= Return Air(RA)Smoke Detector (Non-Fault Detection and Diagnostic) C= Supply Air(SA)Smoke Detector D= RA+SA Smoke Detector 2 = RTU Open Multi-Protocol Controller E= CO2 Sensor 3= SystemVu°'Controls F= RA Smoke Detector and CO,Sensor 6 = Electra-mechanical Controls-can be used with W7220 G= SA Smoke Detector and CO2 Sensor EconoMi$er X(with Fault Detection and Diagnostic) H= RA+SA Smoke Detector and CO,Sensor J = Condensate Overflow Switch Design Revision K= Condensate Overflow Switch and RA Smoke Detector - = Factory Design Revision L = Condensate Overflow Switch and RA and SA Smoke Detectors M= Condensate Overflow Switch and SA Smoke Detector Voltage 1 = 575/3/60 Indoor Fan Options 3 = 208-230/1/60' 1 = Direct Drive-EcoBlue-Standard Static 5 = 208-230/3/60 2 = Direct Drive-EcoBlue-Medium Static 6 = 460/3/60 3 = Direct Drive-EcoBlue-High Static 'Size 04/05/06 models only Coil Options-(Outdoor-Indoor-Hail Guard) 'Size 07 models only A= Al/Cu-Al/Cu 'Units with Humidi-MiZer System include Low Ambient controller B= Precoat Al/Cu-Al/Cu C= E-coat Al/Cu-Al/Cu Note:On single phase(-3 voltage code)models,the D= E-coat AI/Cu-E-coat Al/Cu following are not available as a factory-Installed option: E= Cu/Cu-Al/Cu - Humidi-MiZer System F = Cu/Cu-Cu/Cu - Two-Position Damper M= Al/Cu-AI/Cu—Louvered Hail Guard - Coated Coils or Cu Fin Coils N= Precoat Al/Cu-Al/Cu—Louvered Hail Guard - Louvered Hail Guards P= E-coat Al/Cu-Al/Cu—Louvered Hail Guard - Economizer or 2-Position Damper O= E-coat Al/Cu-E-coat Al/Cu—Louvered Hail Guard - Powered 115 Volt Convenience Outlet R= Cu/Cu-Al/Cu—Louvered Hail Guard S= Cu/Cu-Cu/Cu—Louvered Hail Guard 4 Carrier 50FC MODEL NUMBER NOMENCLATURE Position: 1 2 3 4 5 6 7 6 9 10 11 12 13 14 15 16 17 18 Example: 5 0 F C - A 0 4 A 2 A 5 - 0 A 0 A 0 Unit Heat Type Packaging&Seismic Compliance 50-Electric Heat Packaged Rooftop 0 = Standard 1 = LTL Model Series-WeatherMaker® FC-14.0 SEER Standard Efficiency,sizes 04-06 Electrical Options 15.2 IEER Standard Efficiency,size 07 A= None C= Non-Fused Disconnect Heat Size D=Thru-The-Base Connections F = Non-Fused Disconnect and - = No heat Thru-The-Base Connections Refrig.Systems Options 0 A = Standard One Stage Cooling Models' Noneo Options = B = Standard One Stage Cooling Models 0= with Humidi-MiZer®system'' 2 = Unpowered ConveConvnience Outletence Outlet M= Single Circuit,Two Stage Cooling'' 2 = Hoovered Convenience N = Single Circuit,Two Stage Cooling with 3 = Hinged Panels 4 = Hinged Panels and Humidi-MiZer system= Unpowered Convenience Outlet 5 = Hinged Panels and Cooling Tons Powered Convenience Outlet 04 =3 tons 05 =4 tons Intake/Exhaust Options 06 =5 tons A= None 07 =6 tons B= Temperature Economizer w/Barometric Relief F= Enthalpy Economizer w/Barometric Relief Sensor Options K= Two-Position Damper' A= None U= Temperature Ultra Low Leak Economizer B= Return Air(RA)Smoke Detector w/Barometric Relief C= Supply Air(SA)Smoke Detector W= Enthalpy Ultra Low Leak Economizer D= RA+SA Smoke Detector w/Barometric Relief E= COz Sensor F= RA Smoke Detector and CO:Sensor Base Unit Controls G= SA Smoke Detector and CO2 Sensor 0 = Eleclro-mechanical Controls-can be used with H= RA+SA Smoke Detector and CO,Sensor IV J = Condensate Overflow Switch (Non-Fault au field-installed Detection n and Diagnostic)EconoMino K= Condensate Overflow Switch and RA Smoke Detector (Non Open t and ntr L= Condensate Overflow Switch and RA and SA Smoke Detectors 2 = RTU Open Multi-Protocol Controller 6 = Sy T Controls 6 = Electro-m M= Condensate Overflow Switch and SA Smoke Detector c^lro-mechanical Controls-can be used with W7220 EconoMizer X(with Fault Detection and Diagnostic) Indoor Fan Options 1 = Direct Drive-EcoBlue-Standard Static 2 = Direct Drive-EcoBlue-Medium Static - = Factorya Re Designon 3 = Direct Drive-EcoBlue-High Static - = Revision Coil Options-(Outdoor-Indoor-Hail Guard) Voltage 1 = 575/3/60 A= Al/Cu-AVCu 3 = 208-230/ /60 B= Precoat Al/Cu-AVCu 5 0/ C= E-coat Al/Cu-AVCu 5 = 460/330/3/60 6 = 460/3/60 D= E-coat Al/Cu-E-coat AVCu E= Cu/Cu-Al/Cu F= Cu/Cu-Cu/Cu 'Size 04/05/06 models only M= Al/Cu-Al/Cu—Louvered Hail Guard 1 Size 07 models only N= Precoat Al/Cu-Al/Cu—Louvered Hail Guard 3 Units with Humidi-MiZer System include Low Ambient controller P= E-caat Al/Cu-Al/Cu—Louvered Hail Guard Q= E-coat Al/Cu-E-coat Al/Cu—Louvered Hail Guard Note:On single phase(-3 voltage code)models,the R= Cu/Cu-Al/Cu—Louvered Hail Guard following are not available as a factory-installed option: S= Cu/Cu-Cu/Cu—Louvered Hail Guard - Humidi-MiZer System - Two-Position Damper - Coated Coils or Cu Fin Coils - Louvered Hail Guards - Economizer or 2-Position Damper - Powered 115 Volt Convenience Outlet 5 Capacity ratings (Carrier 48FC AHRI RATINGS NOMINAL NET COOLING IEER WITH COOLING TOTAL POWER 2-SPEED 48FC UNIT STAGES CAPACITY CAPACITY (kW) SEER EER INDOOR FAN (TONS) (MBH) MOTOR 48FC*A04 1 3 34.5 3.0 14.0 11.5 N/A 48FC*A05 1 4 47.0 4.1 14.0 11.6 N/A 48FC*A06 1 5 58.5 5.3 14.0 11.0 N/A 48FC*M07 2 6 70.0 6.4 N/A 11.0 15.0 LEGEND AHRI - Air-Conditioning,Heating and Refrigeration Institute EER - Energy Efficiency Ratio IEER - Integrated Energy Efficiency Ratio SEER - Integrated Energy Efficiency Ratio C us NOTES: 1. Rated in accordance with AHRI Standards 210/240 (04-06 size) and 340/360(07 size). a LIMP CERTIFIED. tuu■M� CERTIFIED,. 2. Rating are based on: Cooling Standard: 80°F (27°C) db, 67°F (19°C) wb indoor air ww°'"d"*"°'"°`a ww.ahrla rectarxar9 temperature and 95°F(35°C)db outdoor air temperature. U LtarySmaliAC L t ry Large AC IEER Standard:A measure that expresses cooling part-load EER AHRI a 1 rd2 ozaa ' AHRI Standard 340/360 C,It,X°n°=p"eSnnb t,1t%CWn,N1"'" t.=7,,Iff°'tly�a*a""°°°le°°- efficiency for commercial unitary air-conditioning and heat pump equipment on the basis of weighted operation at various load capacities. 3. All 48FC units comply with ASHRAE 90.1-2016(American Society A jp AL P of Heating, Refrigerating, and Air-Conditioning Engineers) and All.mai CERTIFIED. A•ma CERTIFIED DOE-2018(Department of Energy) Energy Standard for minimum c www.ahriaireclnry.ma (,` www.ahtlaireci°ry.arg SEER and EER requirements. Unitary Small AC unitary Large AC 4. 48FC units comply with US Energy Policy Act(2005).To evaluate AHRI Standard 210/240 AHRI Standard 340/360 code compliance requirements,refer to state and local codes. M °n *a,m °w�„A„"w„s°' wnz°"°.a =„+."„*r°,°°,°sa=m lalnle"�.vAa,A4r SIhN°o,i@PXPo. 50FC AHRI RATINGS NOMINAL NET COOLING IEER WITH COOLING TOTAL POWER ' 2-SPEED 50FC UNIT STAGES CAPACITY CAPACITY SEER EER (TONS) (MBH) (kW) INDOOR FAN MOTOR 5OFC*A04 1 3 . 34.4 2.9 14.0 11.7 N/A 50FC*A05 1 4 47.0 4.0 14.0 11.8 N/A SOFC*A06 1 5 58.5 5.2 14.0 11.2 N/A 5OFC*M07 2 6 70.0 6.3 N/A 11.2 15.2 LEGEND AHRI - Air-Conditioning,Heating and Refrigeration Institute EER - Energy Efficiency Ratio IEER - Integrated Energy Efficiency Ratio li n US SEER - Integrated Energy Efficiency Ratio a7 NOTES: 1. Rated in accordance with AHRI Standards 210/240 (04-06 size) and 340/360(07 size). so CERTIFIED, ranAI �� CERTIFIED.,2. Rating are based on: www.atrdherlary.°rg www.ahridirect°ry.°rg Cooling Standard: 80°F (27°C) db, 67°F (19°C) wb indoor air temperature and 95°F(35°C)db outdoor air temperature. ufiitarvsmmiAC Unitary large AC IEER Standard:A measure that expresses cooling part-load EER AHRl stanaaN 2,az4o AHRI6e tlad34wa0 efficiency for commercial unitary air-conditioning and heat pump =4.=.""'-''"191"'''''"" na+.°r'.'°'"""°"`" °m equipment on the basis of weighted operation at various load capacities. 3. All 50FC units comply with ASHRAE 90.1-2016(American Society of Heating, Refrigerating, and Air-Conditioning Engineers) and .ui.. CERTIFIED, "NA"al CERTIFIED. DOE-2018(Department of Energy) Energy Standard for minimum c www.ahrfairenmry.°rg c www.ahriducmary.erg SEER and EER requirements. Unitary Small AC Unitary Large u 4. 50FC units comply with US Energy Policy Act(2005).To evaluate AHRI Standard 21W240 AHRI Standard 340/360 code compliance requirements,refer to state and local codes. ;eaa,r..=°=n.„°°w°m<"w '"'''`mu r.-m w°°e°.n„„°°"m°°°°=„ew,l°n, 6 (Carrier-) SOUND RATINGS TABLE 48/50FC UNIT COOLING OUTDOOR SOUND(dB)AT 60 Hz STAGES A-WEIGHTED 63 125 250 500 1000 2000 4000 8000 A04 1 79 85.6 84.7 80.5 76.0 72.4 68.0 62.8 59.3 A05 1 79 85.6 84,7 80.5 76.0 72.4 68.0 62.8 59.3 A06 1 79 85.6 84.7 80.5 76.0 72.4 68.0 62.8 59.3 M07 2 79 85.6 84.7 80.5 76.0 72.4 68.0 62.8 59.3 LEGEND dB - Decibel NOTES: 1. Outdoor sound data is measured in accordance with AHRI. 3. A-weighted sound ratings filter out very high and very low frequen- 2. Measurements are expressed in terms of sound power. Do not cies,to better approximate the response of"average"human ear. compare these values to sound pressure values because sound A-weighted measurements for Carrier units are taken in accor- pressure depends on specific environmental factors which nor- dance with AHRI. mally do not match individual applications. Sound power values are independent of the environment and therefore more accurate. 7 Capacity ratings (cont) (Carrie MINIMUM-MAXIMUM AIRFLOW RATINGS(CFM)—NATURAL GAS AND PROPANE COOLING HEATING* UNIT HEAT VOLTAGE MINIMUM MINIMUM MINIMUM LEVEL 2-SPEED 2-SPEED MAXIMUM MINIMUM MAXIMUM AIRFLOW AIRFLOW AIRFLOW AIRFLOW CFM AIRFLOW AIRFLOW CFM CFM CFM (LOW SPEED) (HIGH SPEED) LOW 890 1950 48FC**04 MED 1 PHASE 900 N/A N/A 1500 800 1520 HIGH N/A N/A LOW 890 2440 48FC'*05 MED 1 PHASE 1200 N/A N/A 2000 1050 2280 HIGH 1220 2170 LOW 890 3250 48FC**06 MED 1 PHASE 1500 N/A N/A 2500 1050 2730 HIGH 1220 2790 LOW 910 2010 48FC**04 MED 3 PHASE 900 N/A N/A 1500 960 1160 HIGH N/A N/A LOW 910 2010 48FC**05 MED 3 PHASE 1200 N/A N/A 2000 1250 2330 HIGH 1390 2220 LOW 910 2510 48FC**06 MED 3 PHASE 1500 N/A N/A 2500 1250 2720 HIGH 1390 2780 LOW 910 3350 48FC**07 MED 3 PHASE 1800 1200 1800 3000 1250 3260 HIGH 1390 3170 * Heating rating values are identical for aluminum heat exchangers and stainless steel heat exchangers. MINIMUM-MAXIMUM AIRFLOW RATINGS (CFM)-COOLING UNITS AND ACCESSORY ELECTRIC HEAT COOLING ELECTRIC HEAT* UNIT MINIMUM MINIMUM MINIMUM 2-SPEED AIRFLOW 2-SPEED MAXIMUM MINIMUM MAXIMUM AIRFLOW CFM (LOW SPEED) AIRFLOW AIRFLOW CFM AIRFLOW CFM AIRFLOW CFM (HIGH SPEED) 50FC**04 900 N/A N/A 1500 900 1500 50FC**05 1200 N/A N/A 2000 1200 2000 50FC**06 1500 N/A N/A 2500 1500 2500 50FC**07 1800 1200 1800 3000 1800 3000 * Electric heat modules are available as field-installed accessories for 50FC units. 8 Carrier umiea*uhn°wme: HEAT RATING TABLE—NATURAL GAS AND PROPANE AUSS HEAT EXCHANGER TEMPERATURE THERMAL AFUE 48FC UNIT GAS HEAT INPUT/OUTPUT INPUT/OUTPUT RISE(°F) EFFICIENCY(%) EFFICIENCY(%) STAGE 1 (MBH) STAGE 2(MBH) LOW —/— 65/53 25-55 81 81 04 MED —I— 90/73 45-85 82 81 HIGH —I— — — — — LOW —1— 65/53 20-55 81 81 Single 05 MED —/— 90/73 30-65 82 81 Phase HIGH —/— 130/106 45-80 81 81 LOW —1— 65/53 15-55 81 81 06 MED —/— 90/73 25-65 82 81 HIGH —/— 130/106 35-80 81 81 LOW —/— 67/54 25-55 81 N/A 04 MED 82/65 110/93 50-85 80 N/A HIGH — — — — — LOW —/— 67/54 25-55 81 N/A 05 MED —/— 110/88 35-65 80 N/A Three HIGH 120/96 150/120 50-80 80 N/A Phase LOW —/— 67/54 20-55 81 N/A 06 MED —/— 110/88 30-65 80 N/A HIGH 120/96 150/120 40-80 80 N/A LOW —/— 67/54 15-55 81 N/A 07 MED —/— 110/88 25-65 80 N/A HIGH 120/96 150/120 30-80 80 N/A HEAT RATING TABLE-LOW NO, LOW NOx HEAT EXCHANGER TEMP RISE THERMAL UNIT GAS HEAT INPUT/OUTPUT INPUT/OUTPUT (°F) EFFICIENCY(%) AFUE(%) STAGE1 (MBH) STAGE2(MBH) 04 LOW — 60/49 20-50 82.0 81.3 SINGLE 05 LOW — 60/49 20-50 82.0 81.3 PHASE 06 LOW — 60/49 15-50 82.0 81.3 04 LOW — 60/49 20-50 82.0 81.3 THREE 05 LOW — 60/49 20-50 82.0 81.3 PHASE 06 LOW — 60/49 15-50 82.0 81.3 LEGEND AFUE — Annual Fuel Utilization Efficiency MBH — Btuh in thousands 9 Physical data Carrie) L 48/50FC 3 TO 4 TON PHYSICAL DATA 48/50FC UNIT 48/50FC*A04 48/50FC*B04 48/50FC*A05 48/50FC*B05 NOMINAL TONS 3 4 BASE UNIT OPERATING WT(lb)48FC/50FC* 482/437 543/498 REFRIGERATION SYSTEM No.Circuits/No.Compressors/Type 1 /1/Scroll Puron®(R-410A)charge A/B(Ibs-oz) 4-6 — 9-14 — Humidi-MiZer®Puron(R-410A)charge A/B(Ibs-oz) — 7.6 — 14-6 Metering device Acutrol Humidi-MiZer metering device — I TXV-Acutrol I — I TXV-Acutrol High-Pressure Trip/Reset(psig) 630/505 Low-Pressure Trip/Reset(psig) 54/117 I 27/44 I 54/117 I 27/44 EVAPORATOR COIL Material(Tube/Fin) Cu/AI Coil Type 3/8-in. RTPF Rows/FPI 2/15 I 3/15 Total Face Area(ft2) 5.5 I Condensate Drain Connection Size 3/4-in. CONDENSER COIL Material Cu/AI Coil Type 5/16-in. RTPF Rows/FPI 1/18 2/18 Total Face Area(ft2) 11.7 15.9 HUMIDI-MIZER COIL Material — Cu/AI — Cu/AI Coil Type — 3/8-in. RTPF 3/8-in. RTPF Rows/FPI — 1/17 — 2/17 Total Face Area(It2) — 4.1 — 4.1 EVAPORATOR FAN AND MOTOR Standard Static 1 Phase Motor Qty/Drive Type 1/Direct — 1/Direct — Max Cant BHP 0.44 — 0.72 — RPM Range 189-1890 — 190-1900 Fan Oty/Type 1Nane Axial — 1Nane Axial — Fan Diameter(in.) 16.6 — 16.6 — Medium Static 1 Phase Motor Oty/Drive Type 1/Direct 1/Direct Max Cont BHP 0.71 — 1.06 — RPM Range 219-2190 — 217-2170 — Fan Oty/Type 1Nane Axial — 1Nane Axial — Fan Diameter(in.) 16.6 — 16.6 — High Static 1 Phase Motor Qty/Drive Type 1/Direct 1/Direct Max Cant BHP 1.07 — 1.53 — RPM Range 249-2490 — 246-2460 — Fan Oty/Type 1Nane Axial — 1Nane Axial — Fan Diameter(in.) 16.6 — 16.6 — Standard Static 3 Phase Motor Qty/Drive Type 1/Direct Max Cont BHP 0.44 0.72 RPM Range 189-1890 190-1900 Fan Qty/Type 1Nane Axial Fan Diameter(in.) 16.6 Medium Static 3 Phase Motor Qty/Drive Type 1/Direct Max Cont BHP 0.71 1.06 RPM Range 219-2190 217-2170 Fan Oty/Type 1Nane Axial Fan Diameter(in.) 16.6 10 (Carrie 48/50FC 3 TO 4 TON PHYSICAL DATA (cont) 48/50FC UNIT 48/50FCA04 48/50FC*B04 48/50FC*A05 I 48/50FC*B05 High Static 3 Phase Motor Oty/Drive Type 1/Direct Max Cont BHP 1.07 1.96 RPM Range 249-2490 266-2660 Fan Qty/Type 1Nane Axial Fan Diameter(in.) 16.6 CONDENSER FAN AND MOTOR Qty/Motor Drive Type 1 /Direct Motor HP/RPM 1/4/1100 1/4/1100 1/4/1100 1/4/1100 Fan Diameter(in.) 23 FILTERS RA Filter Qty/Size(in.) 2/16x25x2 OA Inlet Screen Qty/Size(in.) 1 /20x24x1 Base unit operating weight does not include weight of options. 11 Physical data (cont) Carrier 1$,Ws nanweyk, 48/50FC 5 TO 6 TON PHYSICAL DATA 48/50FC UNIT 48/50FC'A06 I 48/5OFC'D06 48/50FC*M07 I 48/50FC'N07 NOMINAL TONS 5 6 BASE UNIT OPERATING WT(lb)48FC/50FC` 556/511 607/562 REFRIGERATION SYSTEM No.Circuits/No.Compressors/Type 1/1/Scroll 1/1/2-Stage Scroll Puron5(R-410A)charge AB(lbs-oz) 8-9 I — 10-3 — Humidi-MiZere Puron(R-410A)charge NB(Ibs-oz) — 15-0 — 20.8 Metering device Acutrol TXV Humidi-MiZer metering device — I TXV-Acutrol — I TXV High-Pressure Trip/Reset(psig) 630/505 Low-Pressure Trip/Reset(psig) 54/117 I 27/44 I 54/117 I 27/44 EVAPORATOR COIL Material(Tube/Fin) Cu/Al Coil Type 3/8-in.RTPF Rows/FPI 4/15 Total Face Area(ft2) 5.5 7.3 Condensate Drain Connection Size 3/4-in. CONDENSER COIL Material Cu/AI Coil Type sAB-in.RTPF Rows/FPI 2/18 Total Face Area(ft2) 15.9 15.0 HUMIDI-MIZER COIL Material — Cu/AI — Cu/AI Coil Type — 3/8-in.RTPF — 2/8-in.RTPF Rows/FPI — 2/17 — 2/17 Total Face Area(ft2) — 4.1 — 5.5 EVAPORATOR FAN AND MOTOR Standard Static 1 Phase Motor Oty/Drive Type 1/Direct — Max Cont BHP 1.06 — RPM Range 215-2150 — Fan Qty/Type 1Nane Axial — Fan Diameter(in.) 16.6 — Medium Static 1 Phase Motor Qty/Drive Type 1/Direct — Max Cont BHP 1.44 — RPM Range 239-2390 — Fan Qty/Type 1Nane Axial — Fan Diameter(in.) 16.6 — Standard Static 3 Phase Motor Qty/Drive Type 1/Direct Max Cont BHP 1.06 1.31 RPM Range 215-2150 230-2300 Fan Qty/Type 1/Vane Axial Fan Diameter(in.) 16.6 Medium Static 3 Phase Motor Qty/Drive Type 1/Direct Max Cont BHP 1.44 1.76 RPM Range 239-2390 253-2530 Fan Qty/Type 1Nane Axial Fan Diameter(in.) 16.6 High Static 3 Phase Motor Qty/Drive Type 1/Direct Max Cont BHP 2.43 RPM Range 284-2836 Fan Oty/Type 1Nane Axial Fan Diameter(in.) 16.6 CONDENSER FAN AND MOTOR Qty/Motor Drive Type 1/Direct Motor HP/RPM Vol 1100 I 'l4/1100 I1/4/1100 1/4/1100 Fan Diameter(in.) 23 FILTERS RA Filter Qty/Size(in.) 2/16x25x2 I 4/16x16x2 OA Inlet Screen Qty/Size(in.) 1/20x24x1 12 farrier 48FC 3 TO 5 TON GAS HEAT DATA- 1 PHASE UNITS 48FC UNIT 48FC"04 I 48FC"05 48FC"06 GAS CONNECTION No.of Gas Valves 1 Natural Gas Supply Line Pressure(in.wg)/(psig) 4-13/0.18-0.47 Liquid Propane Supply Line Pressure(in.wgy(psig) 11-13/0.40-0.47 HEAT ANTICIPATOR SETTING(AMPS) First Stage 0.14 Second Stage 0.14 NATURAL GAS HEAT LOW No.of Stages/No.of Burners(total) 1/2 Connection Size V2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 25-55 I 20-55 I 15-55 MEDIUM No.of Stages I No.of Burners(total) 1/3 Connection Size V2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 45-85 I 30-65 I 25-65 HIGH No.of Stages!No.of Burners(total) — 1/3 Connection Size — 1/2-in.NPT Rollout Switch Opens/Closes(°F) — 195/115 Temperature Rise(°F) — 45-80 I 35-80 LIQUID PROPANE HEAT LOW No.of Stages/No.of Burners(total) 1/2 Connection Size '/z-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 25-55 I 20-55 I 15-55 MEDIUM No.of Stages/No.of Burners(total) 1/3 Connection Size VZ-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 45-85 I 30-65 I 25-65 HIGH No.of Stages/No.of Burners(total) - 1/3 Connection Size — Vz-in.NPT Rollout Switch Opens/Closes(°F) — 195/115 Temperature Rise(°F) — 45-80 35-80 LOW NOx GAS HEAT LOW No.of Stages/No.of Burners(total) 1/2 Connection Size V2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 20-50 I 15-50 LEGEND BHP — Break Horsepower *Base unit operating weight does not include weight of options. FPI — Fins Per Inch OA — Outdoor Air RA — Return Air 13 Physical data (cont) Carrier 48FC 3 TO 6 TON GAS HEAT DATA—3 PHASE UNITS 48FC UNIT 48FC'•04 I 48FC""05 48FC•'06 I 48FC""07 GAS CONNECTION No.of Gas Valves 1 Natural Gas Supply Line Pressure(in.wg)/(psig) 4-13/0.18-0.47 Liquid Propane Supply Line Pressure(in.wg)/(psig) 11-13/0.40-0.47 HEAT ANTICIPATOR SETTING(AMPS) First Stage 0.14 Second Stage 0.14 NATURAL GAS HEAT LOW No.of Stages/No.of Burners(total) 1/2 Connection Size V2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 25-56 I 20-55 I 15-55 MEDIUM No.of Stages/No.of Burners(total) 2/3 I 1/3 Connection Size 'I2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 50-85 I 35-65 I 30-65 I 25-65 HIGH No.of Stages/No.of Burners(total) — 2/3 Connection Size — 1/2-in.NPT Rollout Switch Opens/Closes(°F) — 195/115 Temperature Rise(°F) — 50-80 I 40-80 I 35-80 LIQUID PROPANE HEAT LOW No.of Stages/No.of Burners(total) 1/2 Connection Size /2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 25-55 I 20-55 I 15-55 MEDIUM No.of Stages/No.of Burners(total) 2/3 I 1/3 Connection Size 1/2-in.NPT Rollout Switch Opens/Closes(°F) 195/115 Temperature Rise(°F) 50-85 I 35-65 I 30-65 I 25-65 HIGH No.of Stages/No.of Burners(total) — 2/3 Connection Size — 1/2-in.NPT Rollout Switch Opens/Closes(°F) — 195/115 Temperature Rise(°F) — 50-80 I 40-80 I 35-80 LOW NOx GAS HEAT LOW No.of Stages/No.of Burners(total) 1/2 — Connection Size '/2-in.NPT — Rollout Switch Opens/Closes(°F) 195/115 — Temperature Rise(°F) 20-50 I 15-50 - 14 Options and accessories `mar) UMW kclnalogies ITEM OPTION* ACCESSORYt ITEM OPTION* ACCESSORY-I GAS HEAT(48FC units only) ECONOMIZERS AND OUTDOOR AIR DAMPERS Low, Medium or High Gas Heat— X EconoMi$era IV for electro-mechanical Aluminized Heat Exchanger controls-Non FDD(Standard air leak X X Low, Medium or High Gas Heat— damper models)',3• X Stainless Steel Heat Exchanger EconoMi$er2 for DDC controls(Stan- Propane Conversion Kit X dard and Ultra Low Leak air damper X X High Altitude Conversion Kit X models) Flue Discharge Deflector X EconoMi$er X for with -mechanical 9 controls,complies with FDD(Stan- X X Flue Shield X dard and Ultra Low Leak damper ELECTRIC HEAT(50FC units only) models)'a,s Electric Resistance Heaters X Motorized 2-position outdoor-air X X damper' Single Point Kits X Manual outdoor-air damper(25%and X CABINET 50%) Thru-the-Base electrical or gas-line ' x X Barometric reliefs X X connections Power exhaust-prop design X Hinged Access Panels X ECONOMIZER SENSORS AND IAO DEVICES MERV-8 Filters X Single dry bulb temperature sensorsfi X X COIL OPTIONS Differential dry bulb temperature Cu/Cu indoor and/or outdoor coils' X sensors6 X Pre-coated outdoor coils' X Single enthalpy sensors6 X X Premium, E-coated outdoor coils X Differential enthalpy sensors6 X HUMIDITY CONTROL CO2 sensor(wall,duct,or unit X X Humidi-MiZer®Adaptive X mounted)6 Dehumidification System' INDOOR MOTOR AND DRIVE CONDENSER PROTECTION Multiple motor and drive packages X Condenser coil hail guard(louvered X X LOW AMBIENT CONTROL deign)' Winter start kit7 X CONTROLS Low Ambient controller to-20°F Thermostats,temperature sensors, X (-29°C)7 X and subbases POWER OPTIONS SystemVu°''DDC communicating X Convenience outlet(powered)' X controller RTU Open Multi-Protocol controller X Convenience outlet(unpowered) X Smoke detector(supply and/or Non-fused disconnects X X return air) ROOF CURBS Horn Strobe Annunciator2 X Roof curb 14-in.(356 mm) X Time Guard II compressor delay X Roof curb 24-in.(610 mm) X control circuit Factory-installed option. Phase Monitor X X Condensate Overflow switch X X t Field-installed accessory. NOTES: 1. Not available on single phase(-3 voltage code)models.Use field- installed accessory where available. 2. Requires a field-supplied 24V transformer for each application. See price pages for details. 3. FDD(Fault Detection and Diagnostic)capability per California Title 24 section 120.2. 4. Models with SystemVu and RTU Open DDC controls comply with California Title 24 Fault Detection and Diagnostic(FDD). 5. Included with economizer. 6. Sensors used to optimize economizer performance. 7. See application data for assistance. 8. Non-fused disconnect switch cannot be used when unit electrical rating exceeds: 208-230/1/60 and 208-230/3/60=80 amps(FLA). 480/3/60 and 575/3/60=80 amps(FLA). Carrier RTUBuilder automatically selects the amp limitations. 9. Available as a factory-installed option for 04-06 models only. 15 Options and accessories (cont) (Carri _ IP Factory-installed options Sub-cooling mode will operate to satisfy part load type Economizer(dry-bulb or enthalpy) conditions when the space requires combined sensible and a higher proportion of latent load control. Hot Gas Reheat Economizers save money. They bring in fresh, outside air mode will operate when outdoor temperatures diminish for ventilation; and provide cool, outside air to cool your and the need for latent capacity is required for sole humid- building.This is the preferred method of low-ambient cool- ity control Hot Gas Reheat mode will provide neutral air ing. When coupled to CO2 sensors, economizers can pro- for maximum dehumidification operation. vide even more savings by coupling the ventilation air to only that amount required. NOTE: Humidi-MiZer system includes Low Ambient Economizers are available, installed and tested by the fac controller. tory, with either enthalpy or dry-bulb temperature inputs. Thru-the-base connections Additional sensors are available as accessories to optimize Thru-the-base connections, available as a factory option, the economizers. Economizers include a powered exhaust are necessary to ensure proper connection and seal when system to help equalize building pressures. routing wire and piping through the rooftop's basepan and Economizers include gravity controlled barometric relief curb. These couplings eliminate roof penetration and that helps equalize building pressure and ambient air pres- should be considered for gas lines, main power lines, as sures. This can be a cost effective solution to prevent build- well as control power. ing pressurization. Economizers are available in Ultra Low Hinged arrPss panels Leak and standard low leak versions. Economizers can be Allows access to unit's major components with specifically factory-installed or easily field-installed. designed hinged access g g panels. Panels are filter, control Unit mounted CO2 sensor box access indoor fan motor access. The CO2 sensor works with the economizer to intake only Cu/Cu(indoor) coils the correct amount of outside air for ventilation. As occu- Copper fins and copper tubes are mechanically bonded to pants fill your building, the CO2 sensor detects their pres- copper tubes and copper tube sheets. A polymer strip pre- ence through increasing CO2 levels, and opens the vents coil assembly from contacting the sheet metal coil economizer appropriately. When the occupants leave, the pan to minimize potential for galvanic corrosion between CO2 levels decrease, and the sensor appropriately closes coil and pan. the economizer. This intelligent control of the ventilation air, called demand controlled ventilation (DCV), reduces E-coated (outdoor and indoor) coils the overall load on the rooftop, saving money. It is also A flexible epoxy polymer coating uniformly applied to all available as a field-installed accessory. coil surface areas without material bridging between fins. Smoke detector (supply and/or return air) Coating process shall ensure complete coil encapsulation Trust the experts. Smoke detectors make your application of tubes,fins and headers. safer and your job easier. Carrier smoke detectors immedi- Pre-coated outdoor coils ately shut down the rooftop unit when smoke is detected. A durable epoxy-phenolic coating to provide protection in They are available, installed by the factory, for supply air, mildly corrosive coastal environments. The coating mini- return air, or both. mizes galvanic action between dissimilar metals. Coating is Optional Humidi-MiZer® adaptive dehumidification applied to the aluminum fin stock prior to the fin stamping system process to create an inert barrier between the aluminum fin and copper tube. Carrier's Humidi-MiZer adaptive dehumidification system is an all-inclusive factory-installed option that can be Condenser coil hail guard ordered with any WeatherMaker® 48/50FC04-07 roof- Sleek, louvered panels protect the condenser coil from hail top unit, with the exception of single phase voltage (208- damage, foreign objects, and incidental contact. 230/1/60)units. Single enthalpy sensor This system expands the envelope of operation of Carrier's Prevents the wheel from rotating if the outside air condi- WeatherMaker rooftop products to provide unprecedented tions are acceptable for free cooling. Both exhaust and flexibility to meet year round comfort conditions. supply blowers will remain on. The Humidi-MiZer adaptive dehumidification system has a Stainless steel heat exchanger(48FC units only) unique dual operational mode setting. The Humidi-MiZer system provides greater dehumidification of the occupied The stainless steel heat exchanger option provides the space by two modes of dehumidification operations in tubular heat exchanger be made out of a minimum addition to its normal design cooling mode. 20 gage type 409 stainless steel for applications where the The WeatherMaker 48/50FC04-07 rooftop coupled with mixed air to the heat exchanger is expected to drop below the Humidi-MiZer system is capable of operating in normal 45°F(7°C). Stainless steel may be specified on applications design cooling mode, sub-cooling mode, and hot gas where the presence of airborne contaminants require its reheat mode. Normal design cooling mode is when the use (applications such as paper mills) or in area with very unit will operate under its normal sequence of operation by high outdoor humidity that may result in severe condensa- cycling compressors to maintain comfort conditions. tion in the heat exchanger during cooling operation. 16 Carrier Convenience outlet (powered or un-powered) • Full range of diagnosis: Reduce service and/or installation costs by including a con- Read refrigerant pressures without the need of gages venience outlet in your specification. Carrier will install this Sensor faults service feature at our factory. Provides a convenient, Compressor reverse rotation 15 amp, 115v GFCI receptacle with "Wet in Use" cover. Economizer diagnostics that meet California Title 24 The "powered" option allows the installer to power the requirements outlet from the line side of the disconnect or load side as • Quick data transfer via USB port: required by code. The "unpowered" option is to be pow- Unit configuration uploading/downloading ered from a separate 115/120v power source. Data logging The unpowered convenience outlet is available as a • Software upgrades 15 amp factory-installed option or a 20 amp field-installed Built in capacity for: accessory. i-Vu open systems BACnet systems Non-fused disconnect CCN systems This OSHA-compliant, factory-installed, safety switch • Configuration and alarm point capability: allows a service technician to locally secure power to the Contain over 100 alarm codes rooftop. When selecting a factory-installed non-fused dis- Contain over 260 status, troubleshooting, diagnostic connect, note they are sized for the unit as ordered from and maintenance points the factory. The sizing of these do not accommodate field- Contain over 270 control configuration setpoints installed items such as power exhaust devices, etc. If field RTU Open, multi-protocol controller installing electric heat with factory installed non fused dis Connect the rooftop to an existing BAS (building automa- connect switch, a single point kit may or may not be tion system) without needing complicated translators or required. adapter modules using the RTU Open controller. The RTU SystemVuTm controller Open controller speaks the 4 most common building auto- Carrier's SystemVu controller is an optional factory- mation system languages(BACnet, Modbus,Johnson Con- installed and tested controller. trols N2, and LonWorks). Use this controller when you This controller takes on a whole new approach to provide have an existing BAS. Besides the 4 protocols, it also corn an intuitive, intelligent controller that not only monitors municates with a Carrier Open system(i-Vu and VVT®). and controls the unit, but also provides linkage to multiple Condensate overflow switch building automation systems. This sensor and related controller monitors the condensate Each SystemVu controller makes it easy to set up, service, level in the drain pan and shuts down compression opera- troubleshoot, gain historical data, generate reports and tion when overflow conditions occur. It includes: provide comfort only Carrier is noted for. • Indicator light - solid red (more than 10 seconds on Key features include: water contact - compressors disabled), blinking red • Easy to read back lit four line text screen for superior (sensor disconnected) visibility. • 10-second delay to break - eliminates nuisance trips • Quick operational condition LEDs of: Run, Alert, and from splashing or waves in pan (sensor needs Fault. 10 seconds of constant water contact before tripping) • • Simple navigation with large keypad buttons of: Naviga Disables the compressor(s) operation when condensate lion arrows, Test, Back, Enter and Menu. plug is detected, but still allows fans to run for • Capable of being controlled with a conventional ther- mostat, space sensor or build automation system. Power exhaust with barometric relief • Service capabilities include: Superior internal building pressure control. This field- Auto run test installed accessory may eliminate the need for costly,exter- Manual run test nal pressure control fans. Component run hours and starts Commissioning reports Data logging 17 Options and accessories (cont) (arr` w;ae r«.nnaofIes Field-installed accessories resistant frame. Filter media is securely fasted inside the fil- Filter maintenance indicator ter frame on all four sides. When the optional factory-installed filter maintenance indi- Phase monitor protection cator is used, a factory-installed differential pressure switch The Phase Monitor Control will monitor the sequence of measures pressure drop across the outside air filter and three phase electrical system to provide a phase reversal activates a field-supplied dry contact indicator when the protection; and monitor the three phase voltage inputs to pressure differential exceeds the adjustable switch setpoint. provide a phase loss protection for the three phase device. Condenser coil hail guard It will work on either a Delta or Wye power connection. Sleek, louvered panels protect the condenser coil from hail Winter start kit damage, foreign objects, and incidental contact. This can The winter start kit by Carrier extends the low ambient be purchased as a factory-installed option or as a field- limit of your rooftop to 25°F (-4°C). The kit bypasses the installed accessory. low pressure switch, preventing nuisance tripping of the Differential enthalpy sensor low pressure switch. Other low ambient precautions may The differential enthalpy sensor is comprised of an outdoor still be prudent. and return air enthalpy sensors to provide differential Low ambient controller enthalpy control. The sensor allows the unit to determine if The low ambient controller is a head pressure controller kit outside air is suitable for free cooling. that is designed to maintain the unit's condenser head Wall or duct mounted CO2 sensor pressure during periods of low ambient cooling operation. This device should be used as an alternative to economizer The IAQ sensor shall be available in duct or wall mount. wenre The sensor provides demand ventilation indoor air quality freercoolingeit d. The lowomiz iet usage is controller not a either cycle (IAQ)control. ate or desired. The low ambient will cycle the outdoor fan motors or operate them at reduced speed Propane conversion kit (48FC units only) to maintain the unit operation, depending on the model. Convert your gas heat rooftop from standard natural gas This controller allows cooling operation down to -20°F operation to Propane using this field-installed kit. (-29°C)ambient conditions. High altitude conversion kit(48FC units only) Roof curb(14-in./356 mm or 24-in./610 mm) High altitudes have less oxygen, which affects the fuel/air Full perimeter roof curb with exhaust capability provides mixture in heat exchangers. In order to maintain a proper separate air streams for energy recovery from the exhaust fuel/air mixture, heat exchangers operating in altitudes air without supply air contamination. above 2000 ft (610 m) require different orifices. To select Filter status indicator accessory the correct burner orifices or determine the heat capacity Monitors static pressure across supply and exhaust filters for a high altitude application, use either the selection soft- and provides indication when filters become clogged. ware, or the unit's service manual. High altitudes have less oxygen, which means heat exchangers need less fuel. The Power exhaust new gas orifices in this field-installed kit make the neces- Superior internal building pressure control. This field- sary adjustment for high altitude applications. They restore installed accessory may eliminate the need for costly, exter- the optimal fuel to air mixture and maintain healthy corn- nal pressure control fans. bustion on altitudes above 2000 ft(610 m). Manual OA Damper NOTE: Typical natural gas heating value ranges from 975 Manual outdoor air dampers are an economical way to to 1050 Btu/ft3 at sea level nationally. The heating value bring in ventilation air. The dampers are available in 25% goes down approximately 1.7% per every thousand feet and 50%versions. elevation. Standard factory orifices can typically be used up NOTE: See application tip "ROOFTOP-18-01" prior to to 2000 ft (610 m) elevation without any operationaliisP of this damper on 07 size models. issues. Flue discharge deflector(48FC units only) Motorized 2-Position Damper The flue discharge deflector is a useful accessory when flue The Carrier 2-position, motorized outdoor air damper gas recirculation is a concern. By venting the flue discharge admits up to 100% outside air. Using reliable, gear driven upwards, the deflector minimizes the chance for a neigh- technology, the 2-position damper opens to allow boring unit to intake the flue exhaust. ventilation air and closes when the rooftop stops, stopping unwanted infiltration. MERV-8 return air filters NOTE: See application tip "ROOFTOP-18-01" prior to This factory option upgrades the return air filters from use of this damper on 07 size models. standard unit filters to high efficiency MERV-8 filters. Non- woven MERV-8 filter media with high strength, moisture- 18 (C Carrier Electric Heaters Time Guard II control circuit Carrier offers a full-line of field-installed accessory heaters. This accessory protects your compressor by preventing The heaters are very easy to use, install and are all pre- short-cycling in the event of some other failure, prevents engineered and certified. the compressor from restarting for 30 seconds after stop- ping. Not required with SystemVum controller, RTU Open controller,or authorized commercial thermostats. OPTIONS AND ACCESSORY WEIGHTS 48/50FC UNIT WEIGHT OPTION/ACCESSORY NAME 04 05 06 07 lb kg lb kg lb kg lb kg Humidi-MiZer®System* 15 7 15 7 15 7 24 11 Power Exhaust-vertical 51 23 51 23 51 23 51 23 Power Exhaust-horizontal 39 18 39 18 39 18 39 18 EconoMl$er®(X,IV or 2) 35 16 35 16 35 16 35 16 2-Position Damper 39 18 39 18 39 18 58 26 Manual Damper 12 5 12 5 12 5 18 8 Medium Gas Heat(48FC units only) 9 4 9 4 9 4 15 7 High Gas Heat(48FC units only) 63 29 63 29 63 29 Hail Guard(louvered) 13 6 13 6 13 6 17 8 Cu/Cu Condenser Coil 37 17 74 34 74 34 95 43 Cu/Cu Condenser and Evaporator Coils 75 34 112 51 112 51 165 75 Roof Curb(14-in.curb) 95 43 95 43 95 43 95 43 Roof Curb(24-in.curb) 150 68 150 68 150 68 150 68 CO2 sensor 2 1 2 1 2 1 2 1 Flue Discharge Deflector 7 3 7 3 7 3 7 3 Optional Indoor Motor/Drive 10 5 10 5 10 5 15 7 Low Ambient Controller 9 4 9 4 9 4 9 4 Winter Start Kit 5 2 5 2 5 2 5 2 Return Air Smoke Detector 7 3 7 3 7 3 7 3 Supply Air Smoke Detector 7 3 7 3 7 3 7 3 Fan Filter Switch 2 1 2 1 2 1 2 1 Non-Fused Disconnect 15 7 15 7 15 7 15 7 Powered Convenience Outlet 36 16 36 16 36 16 36 16 Unpowered Convenience Outlet 4 2 4 2 4 2 4 2 Enthalpy Sensor 2 1 2 1 2 1 2 1 Differential Enthalpy Sensor 3 1 3 1 3 1 3 1 LEGEND — Not Available * For Humidi-MiZer system,add Low Ambient controller weight. NOTE: Where multiple variations are available, the heaviest combina- tion is listed. 19 N O co 1M' 48FC**04-07 BASE UNIT DIMENSIONS n) CR al \MIS MAW IRIS AMITE Of un CLIMATE COMO MMWliirw ar nnF n++nil w M'Olors C MOTES: 'Carrier I wcwan Al.IS MCIxMO UPON rn rows CONDITION UKs Kr xwenml Pur rtlfa+mr w UNIT J A TM TN C/ATOM MILL NOT BE DISCLOSED w UM ACCLPTAKL Of COl11Ki. 1.DIMENSIONS ARE IN INCHES, DIMENSIONS 18FC++01 33 31B I°SIB yo.nu r.�eM..nrlwr MrmAAmnr. IN 1 1 ARE IN MILLIMETERS. [8111 11121 2. CENTER OF GRAVITY 18FC++05 33 3/B II 1/B CONNECTION SIZES �* [B171 [3111 33-3/8 A 13l8. 1351 DIA FIELD POWER SUPPLY HOLE �+ I8FC••01 33 II 1 UB [8181 3. DIRECTION Of AIR FLOW [B171 [3771 8 2' 150] DIA POWER SUPPLY KNOCKOUT 18FC••07 11 3/A IA S/B 32-1/8 C 13/1. 1511 DIA GAUGE ACCESS PLUG A. ALL VIEW DRAWN USING 3RD ANGLE [10511 IIiL I8171 ' ECONOMIZER HOOD ' NNNOWM IOPIIOxALI 16 S 718' 1221 DIA FIELD CONTROL WIRING HOLE - I4011 E 301•-11 APT CONDENSATE DRAIN 25-5I8 F 112•-11 NPI GAS CONNECTION REIURB AIR I G 2 Ilt' lEO DIA POWER SUPPLY KNOCK-OUT CD .� / �—\ ] + I ♦ IHHU-I XE-BASF CHART T 9�1�y •C • / 10-1J8 THESE INPTN REQUIRED FOR USE �I�ll"�� W\�` 12111 AIRURX CRBHOLES R°A00, 009E00 �• /� lllh��l�lll l� THREADED WIRE REO'D HOLE O :I'!I' \� I CONDUIT12 SIZE USE SIZES 2MARA 2.21 �L I Y 1/2' 124VV 1/8. 122.21 11-1AB \� I- 29-1/2 y 11120.91 Y E ALL _ Ill°] Y 3/4* POWER 1-1/8•L28.61 CONDENSATE 11-//A 24 1009A001 1/2•fPT GAS 1-1/8'[28.61 2 +DRAIN OPENING 115f] SUPPLY FOR'THIN-THE-BASEPAN•FACTORY OPTION. I IN BASEPAN AIR 26-518 SUPPLY FITTINGS FOR ONLY Y, 3,d Z ARE PROVIDED 11 tl2 1 [fi 15] AIR • 1008,001 PROVIDES 3/1•FPT IXRU CURB [3691 12-1/2 11-1/2 SEE THRU THEE l``A P FLANGE S FITTING. [3161 Q971 BASE CHART 10-1/8 _—2Y 23.3/4 I 3-1/4— — 6-I/1 12561 16031 E� [811 - 11581 11011 Hoop — 13071 K —2Y 25 ` 18-3/8— 16351 14661 22 1-5/8 TOP [1181 E SATE 10-116 LECNICAL CONDENSATE _DRAIN [2151 [251 DISCONNECT _ LOCATION I CONDENSER II ,B,G OPTIONAL CONTROL B01 ����-7 ILTER FACTORY ACCESS25-JII COIL INSTALLED PAM[L INpppA BLOYFR11-31Bf653111111DISCONNECTIIACCE55 PAxEL SUPPLY AIA RETUR OWIIALLED • I { II® AIR __� CONVENIENCE , II 3 I " 1411-118I.OUTLET , • , AIA AI I 19-Ili / 13021 • [5391 III OUTSIDE -- • II 6-1 138114 u911 - E - O • - J �`]`� [I68] n00 F^�rl N • Oex -�W1i = l HANDLE5-NI — 6-3/R 7 5.3/1 1-3/1 I6-518 8-3/8 [116] 11611 117T1 11461 5-3/4 1951 [II861 30-1/B I2111 26-7/8 ❑661 [6821 • 11-3I8 31BAROMETRIC LEFT [18891 IT861 RELIEF FRONT SUPPLY FLOW AIR RETURN RIGHT AIR ITC CLASSIFICATION SHEET DATE SUPERCEOES 48FC 04-07 SINGLE PACKAGE ELECTRICAL REV U.S. ECCN:NSR 1 OF 3 04/02/19 10/25/18 COOLING WITH GAS HEAT 48TC003003 C �A1 I `% 48FC**04-07 BASE UNIT DIMENSIONS (cont) .mli LKG NT II 1C MMnn a n[nlntt.[a[[tt[aertala a[na Mo[ni a[0[u[rn STD. UNIT CORNER CORNER CORNER CORNER „."-________Carrier.„',I i[Nnn AND IS NA[n1b Ira Irt F[PAFn[nlITION OC[I nt[DnT11n[fni r[4fq[44[F a C.G. HEIGHT G H.,...•W.. nu trt Yarzns nu n1 a nNsn[D a Nrt1 ggrurt[a wINK!. UNIT WEIGHT• EIGHT[A1 WEIGHT El WEIGHT(CT EIGHT ED1 Mai nnrFN MM. LDS. KG. LDS. KG. L05. KG. LDS. KG. LOS. KG. K Y I 481004 482 219 113 51 116 53 128 58 125 57 31 5/0 19561 24 9n6 16241 18 114(4641 48Fp+05 543 246 138 63 133 60 133 60 -138 63 36 1/2 19271 23 3/8 15941 18 14511 48F006 556 252 142_ 64 136 62 136 62 142 61 36 1/2 19271 23 3/8 15941 18 (4511_ 48FC••07 607 275 162 19 152 69 141 84 151 68 36 19141 22 1/2 15721 19 3l8(4927 I STANDARD UNIT WEIGHT IS WITH LOW GAS HEAT AND WITHOUT PACKAGING. 1 FOR OTHER OPTIONS AND ACCESSORIES. REFER TO THE PRODUCT DATA CATALOG. — — —R12 1/2 WITH ECONOMIZER[318] — — — — — — — — — BACK \ [ • ' , CORNER A ECONOMIZER '' ECONOMIZER HOOD CORNER B OPTIONAL DOOR (OPTIONAL) ' WING 10. f1' a I111111uI1, RIGHT j Y Nlllll\llK;,�f/ ;N �m iy� l TrIlF,- 4/ll 11! • • IL—W"---....-------"—. CORNER D a " CORNER C LEFT z TOP I (18961 FRONT � I l� NOTES: IIa 1. FOR ALL MINIMUM CLEARANCES LOCAL CODES OR JURISDICTIONS MAT PREVAIL. Z CLEARANCE SERVICE WITH SERVICE WRN OPERATING O I SURFACE CODYIUCTIVE BARRIER NONCONDUCTIVE BARRIER CLEARANCE 1FRiOO �� F--1. '.I. .� O�y. FRONT 48 (1219mm7 36 1911mm1 18 [ASimm7 D�.ff v/' LEFT 48 [1219mm] /2 [1061mm] 18 U57mm3 FRONT RACK W/01000 18 I1219mm] 42 I1061mm] 18 (457mm] BACK W/HOOD 36 I914mm] 36 (914mm) 18 (457mm] RIGHT 36 (914mm1 36 (914mm1 18 (457mm] TOP 72 (1829T46I 12 I1829nI 12 I18294m] 1 ❑C CLASSIFICATION SHEET DATE SUPEHCEDES 48FC 04-07 SINGLE PACKAGE ELECTRICAL REY I U.S. ECCN:NSR 2 OF 3 04/02/19 10/25/18 COOLING WITH GAS HEAT 48TC003091 C f/ I Y { l U N 48FCT004-07 BASE UNIT DIMENSIONS (cont) 2) CD ' ' iY11 WLdEYt IS IYF MYF111 d Ytt LLIYTI.Ld1Yl1 IYYlilid Of IYLSL dd11K5 d dCd'Y15 C CQ7.1'Aff,1 SFCYY111 AYO I!MLIYF113 Sld IYF F111[31 LdOlild KK!Iql COYill lYtt Idl I[SfdYIYtF d llll 1XF Id1LY15 RILL 101 A[IIYL6[Y d 13[Y SfLE11XYf Y[dSYC I, G u nwiwspu. IllrKUT nlllt.IdYR. 71-118 11805.31 (INSIDE THE us(RAIL a SSW) I YYYYYIY • (I�'��Iulllll 111 a) \\ 11.111 =/W O ONSIDE II NE BASE AA IL SI X1 L/1 ji 444-.4-0, 4-4.4 japre, [511 04•••4., 01 \ 2A 1-3I4 �k,' 01. INSIDE 9AS ERAIL DIMENSIONS MI O /IkC BOTTOM 2z i1e18 R 111 1.318 EL 1 3-I14 1361 MI MI 2S 314 3-T,8 01 DETAIL C 1991 TYP 4 PLCS as - - L CONTROL BO% INDOOR BLOWER FILTER ACCESS PANEL CORP. CONDENSER • ACCESS PANES - ACCESS PANEL I TOOL-ICSSI - ACCESS COIL \ PANEL O ® I. INDOOR COIL E. kill III _• SEE DERAIL C, ACCESS PANEL I. _ 1j !no i i r— t�i - i 'C ? ) obi i [t-ro' i' i ) NISI i I i Fri i 1 � i BACK LEFT 1 3-11. 59-3I6 4.' -182.DI ❑S09.01 zale 2-3/8 7-118 TYP CURB FRONT 1180 WIDTH TIC CLASSIFICATION SHEET DATE SDPERCEDES 48FC 04.07 SINGLE PACAAGE ELECTRICAL REV U.5, ECCN:NSA 3 OF 3 04102019 10/25/18 COOLING WITH GAS HEAT 48TC003093 C A 50FC**04-07 BASE UNIT DIMENSIONS NOTES: / rnt wltl[n If IxE PwP[wr a mC a WTE.IIIN=s rw Di rYESE emlws w IRYL[nL Carrier t/EtwITY wD 16 MLIYfAEU YM In EIPwY L01Al1gL tal wl Witlnll PxAI PnXdxxLE a 1. DIMENSIONS ARE IN INCHES,DIMENSIONS UNIT J X �i lxxl TUG WLIFn3 W11L wl IE nxLww w uXW KFEPIANEa tw1AXt. IN 1 I ARE IN MILLIMETERS. SOFC..0/ 33 3/0 10 510 CU MUS r WOW wines t6a[n. 2 CENTER OF GRAVITY IB131 [1321 50F0w05 33 318 yap CONNECTION SIZES 1B111 [3111 A 1 3/8' [35]DIA FIELD POWER SUPPLY HOLE 3. DIRECTION OF AIR FLOW 501[•+06 33 3IB 11 116 33-3/8 [8/11 13331 1018] B 2' [511 DIA POWER SUPPLY KNOCKOUT 4.-I *.1 ALL VIEW DRAWN USING 3RD ANGLE 54FCA4I 11 3IB IB 5/B C 1 all' 1/11 DIA GAUGE ACCESS PLUG [10511 111t1 12-1/1 I ECONOMIZER H000 Y • D 1/8' [ti!DIA FIELD CONTROL WIRING HOLE 18171 [OPTIONAL/ E 3/11-14 NP1 CONDENSATE DRAIN 25-5/8 [4571 6 2 1/2' [64]DIA POWER SUPPLY KNOCK-OUT URN1 RETURN AIR A • .t THRU-THF.RASE CHANT //—� `- I I THESE HOLES REQUIRED FOR USE • [EBHOLESOREUI.D0FOR0 /�% -- \o THREADED ■IRE REO'D HOLE 10 • 1 \�\\\\ 10-7/6 RETURN CONSUIT SIZE USE SIZES INA1.I �(8li4® M"`�') . 2A] AIR N 1/2' 115V 1/P 122-21 ~ : 'VlllNlla oplr. HORIZONTAL // 1 CONFIGURATION X 1R' 218 1/B' 122.21 \"� ! • I I A 111' POWER 1 110' l26.61 • \\ �% • • E • ALI. Z.• 1009A001 TIP FPT GA5 I I1g' L20.61 11-118 • I COxDExSAIE FOR'THRU-THE-DASEPAN'FACTORY OPTION. [u 2t] \ � y pRAIX OPF KING FITTINGS FOR ONLY!,Y,A Z ARE PROVIDED IN RASEPAN 17-314 �j, 11511 39-1 It SUPPLY SELECT EITHER 311'0R 1/2' I I SUPPLY 26-51g IWB] AIA A'3 _ FOR POWER, DEPENDING ON WIRE SIZE �'l AIR 1675] HOAI20x1A1 11-1/2 12-1 I2 [2171 II 9.14N s x Z CONFIGURATION TOWA001 PROVIDES 311'FPT THIS CURB FLANGE I FITTING. [3691 [31 Al my] SEE SEC/NT II - BASE CHART N • ii 3-1/1 I0-1/8 2K 23-3/4 [81 I 6-Ill [2561 1603] 2%25 131771E 11581 II 26151 TOP `„_1g-J/R 14661 "� 2N 1-SIB ' E SID. 10-NIB [110] CONDENSATE 12151 1 IFCTPICAI DRAIN 125] DISCONNECT 1 J %COA310X s CONDENSER I CONTROL B0K INDOOR BLOWER COILOPTIONALPANEL ACCfSS OPt10XAL .B.G /ACTORY 11-J/8 16531 ORCR HINSTALLED [tl1] COFIDI�R_DODSTAFACLLEY SUPPLYAEI➢Rx IXSTALLEO AIR CONVENIENCE AIR OUTLET • 11-7/6 13021 2111/ 19-I/2 All (4141 t5391 ■rii •ii ■ n601 `!Iiii O Ijf_ I ��I ' 1)17 I 06 ���■■_ rnro 5-3/4 IMO 6-3/8 7 1 BAROMETRIC 16-5/8 HANDLE HANDLE [1461 [1611 11771 5-3/1 RELIEF 111861 11-3I8 26-3/6 NIA] FLOW LEFT 118891 f6621 31 FRONT 17861 SUPPLY VEH VEA RETURN ■V VERTICAL VERTICAL CONFIGURATION CONFIGURATION RIGHT ITC CLASSIFICATION SHEET DATE SUPERCEDES ODIC 0/-07 SINGLE PACKAGE ELECTRICAL REV U.S. ECCN:NSR I OF 3 04/D2/19 10/25/18 COOLING WITH ELECTRIC HEAT /8T000309/ C / A \ { KO N W . . W N IP 50FC**04-07 BASE UNIT DIMENSIONS(cont) N CD ,/ 7Yll WCIRR I<IN[PIv1An S lac COWL<WW1 ewnllla a MU MINE a[IXOYnI carnet +SUYIILI ue IS YRI i i 28[IPRS[<O m"" KKL 1%m[af111Y1[PIII IZt..Y[[a STD. UNIT COAXER CORNEA CORNER IGRN[R C.G. HEIGHT /IIAI 17 WNrttt[nu wl e[NlttLana us[e K<FAR[a toal. UNIT WE16MKN 165.WEIG GI LBSWEI.XI 0. LIT. G. WEIGHT G. Y�„d,ey.,mx9ur SWIM<artrt. Z LOS. 19 LBS. KG.SILIII A TOO R6. LBS. R6. Y Y Z 50FC++05 498 226 ITS 52 124 II I04 52 125 51 36 SIB 19021 22 93/8 15681 18 1/4 14641 50FC++05 III 226 139 62 1247 56 114 52 120 51 35 1/2 19021 22 3/8 15681 18 1/4 14641 /l• 50FC++07 562 255 139 63 I21 68 121 58 143 85 35 1I2 19021 22 3/8 15121 18 1/4 14951 i,—„— .--..—.. SOFC++Oi 562 255 154 ID 131 62 1t1 58 143 85 35 [8891 22 112[5121 19 1l2[4951 r �7I BACK A +STANDARD UNIT WEIGHT IS WITHOUT ELECTRIC HEAT AND WITXCOl PACKAGING. WITH ECONOMIZER Cle FOR OTHER OPTIONS AND ACCESSORIES- REFER 10 THE PRODUCT DATA CATALOG. BACK -A 11B • A i K 111 • WITHOUT 1968] CORNER A CORNER B ECONOMIZER ECONOMIZER HOOD /A r -- _— —_ • IOPIT0NALI CD- 0 SKINS AL DOOR � SWING iI`III 11111111����\ I \ O OY • • i :611 /��� ,.. i • N 1�`4 JI///' .•.., • —i LEFT — RIGHT i-- `.0 CORNEA D -� CORNER C Z TOP 4 O FRONT NOTE: 1. FOR ALL MINIMUM CLEARANCES LOCAL CODES OR JURISDICTIORS MAT PREVAIL. _ CLEARANCE IM SERVICE WITH SERVICE WITH OPERATING SURFACE CONDUCTIVE BARRIER NONCONDUCTIVE BARRIER CLEARANCE e FRONT 48 1121904n1 36 [914mm1 18 [457mm1 + — LEFT 48 [1219mm1 42 11067Wml 18 C45741011 BACK W/0HOOD 48 [1219mm] 42 11067mm1 18 [4510401 FRONT BACK W/MOOD 36 1914mm1 36 [914mm1 18 [457mm1 RIGHT 36 I914mm1 36 1914mm] 18 [4571N01 TOP 12 11829mo1 72 [18290Go,] 72 [182910m] TIC CLASSIFICATION SHEET DATE SOMERCEDES 50FC 04-07 SINGLE PACKAGE ELECTRICAL AEA CODLING Y17N ELECTRIC HEAT 48TC003094 C U.S. ECCN:NSR 2 OF 3 04/02/19 10/25/18 ��� A a. 50FC *04-07 BASE UNIT DIMENSIONS (cont) .lxu rn Is nE PsaLns u al awn ant$rmlS 2 THEN nmsss v.c.ns --. . ... Y O OF COMMWN W RILLrWTI EPDI in DIMMED 0*S E➢ImuG NLs l0r wrsinns l CE TIEET, X W OW OF nmo COMM BE LIN4W[L OR W[4 nCanR[IX(pnlLl. m• • 71-1/8 118081 (INSIDE THE BASE RAIL L SNIRTI Y O (1L�i�,'1)�19._ *. ,__ _........„" 11-111 ' -- : \ 0 TINS IDE TEE I11 BASE AA IL SI r 1-111 C: '''P' \ �� / i�Ile 21 1.3T0 _ 1461 ^ f INSIDE DASEAAIL DIMENSIONS `�J i ) - ef BOTTOM - 2A 1 LX 1-3/B 1251 2Y 1-1/8 136] 1181 2X 3/1 3-114 3-118— OBI1821 199] DETAIL C TYP 4 PLCS I FILTER ACCESS PANEL CONTROL BOA INDOOR FLOWER 1100.iE551 I CONDENSER ACCESS PANEL ACCESS PANEL CONDENSER CONE • COIL COIL • ACCESS PANEL 0 INDOOR COIL • ACCESS PANEL0 rid - ,. SEE DETAIL C • 1 © II_, it e l 2A 1-118 ® /• 61 t3oo 1 1 r---i' ("M- 1 ' ) odd ■r.=�aa •i •1■ 1 1 _i 1 1 1 i(p 1 BACK LEFT I \. ! 3-1/1 59 3/8 — 2-3/8 182.01 11509.0] 161 51 1-Ill 11P FRONT 11B0.11 CURB WIDTH IIC CLASSIFICATION SHEET DATE SUPERCEDES 50FC 04-01 SINGLE PACKAGE ELECTRICAL REV O.S. ECCN:NSA 3 OF 3 04/02/19 10125/1R COOLING WITH ELECTRIC HEAT IBiC00309d C A 0 1 N OI D ROOF CURB DIMENSIONS-48/50FC 04-07 n CD ROOF CURB NOTES. CONNECT(A PNG.ALL. GPS CONNECTION TYPE G45 FITTNG POWER WIRING CONTROL WIRING ACCESSORY CONVENIENCE ACCESSORY5 A I.ROOFCURB ACCESSORY ISS4 I PPE]]DISASSEMBLED. FITTING FITTING OUTLET WIRING CONNECTOR 2.INSULATED PANELS 25 A[1'1 THN.POLYURETHANE FOAM.4 9 5 11-141 R DENSITY. CRRFCURBWIADI 14• 3.DIMENSIONS IN I lane IN MILLIFIETERG CRBTMFWRWI ADI THRU THE CURB 34'(191 NPT O 13561 4.ROOFCUR6:18 GAGE STEEL yd'1191 NPT tl2(12II NPT NY(12II NPT 5.ATTACH DUCTWORK TO CURB.(FLANGES OF DUCT REST ON CURB) CRRFCURBOOSADI 107 6.SERVCE CLEARANCE 4 FEET ON EACH SIDE CRBTMPWRO03A➢I THRU THE BOTTOM Mr[1771 NPT i.�Tf DIRECTION OF AIR FLOW. 8.CONNECTOR PACKAGE CRBTMPWR0O1501 IS FORTHRU-THE-CURB GAS TYPE PACKAGE CRBTMPWR003A01 IS FOR THRU-THEAMOM TYPE GAS CONNECTIONS N451 al ® `-1 CO' B• 12547 11 3I41.29651 WIDE [I37.71 [303.81 INSULATED DECK PANELS II CD 11 qx 0 7 D5��1 a cos.(2151 WIDE INSULATED DECK PANEL I O I y4 I -41111116., 1'A-12/16' - I -EE NOTE 92 �� SEL110N E-E GAS SERVICE PLATE (42I IN9OF 696' ` SCALE 0250 ]-18' (1M01 70.87. THRU THE CURB I (61] [1800.21 DRILL HOLE A2SSEMBLY ABIEMBLY(IF ���`I` flEOUIREO) (SEE NOTE R0) RETURN OPENING :i; r , 0I/3.4'(4651 / }- 2184' } E pa.71 - J 3219'1 OPENING i 13�4' 1 �[44.5) • I41/ J 1-2041' — -4003' CASK NIT "An \I� (5183) 176.2] (SUPPLIED WITH CURB) d 1+ —1978' NL(FIELD SUPPLIED) gi.y6• 136"1 4O'69• DUC I,// YPICAL(6)SIDES fI W3.5 (FIELD SUPPLIED) 7/I6' / 11II 3'.13116' OUNTER FLASHING ry44 61 .., (FIELD SUPPLIED) /`— I \ SEE VIEW'B" \ OWING FELT (FIELD SUPPLIED) CERTIFIED DRAWING ANT STRIP /1q (FIELO SUPPLIED) DRA'MNGRELE]9EIFVEL. PRODUCTION 11Ts51 dia . \T` 'OOFlNG MATERIAL UNLESS oTVEmvIu SPECIFIED FIEL D SUPPLIED) \ %ryL` ( MFRD ANGLE a DINENDLE 810 E6EsOM 1 les I 1 �\ E \\\�� DCT GEC 2OEC 30EC s!1G'v \ MATERIAL AUTIDNMATASN NUMBER TITLE AIR 44% AT i ` •IGID INSULATION • 1801728 CURB ASY,ROOF OIy/ su R eel (FIELD SUPPLIED) • ENGIEMANG MANUFACTURING FMENTM - - - VIE 0 WINGNMKR WM OVERALL DIM.s-791e'WAS 5-7 Ire:18GA TQRS.V.002 uuFIER SNE«w 48TC400427 B 4 A MATERIAL IVA 16 GA.',NAIL FIELDSUPPUED WAS 0M12(13 HNC - - 1067898 ENGINEERINGMEIM . MC 0NITI11- DeTnRAwINcsxMETsnTs WITH CURB WFFAGE FAAFN UUFUMOI MODEL [INTERNAL USE 6SLY1 _ RZUMON REV RENNCN RECORD GATE BY CM. SIPS ECN NC. - NPORCH SCALE/ oISTHNC �� A ‘.... \� Performance data (-Carrier') 48/50FC"*04 SINGLE STAGE COOLING CAPACITIES AMBIENT TEMPERATURE(F) 85 95 105 115 48/50FC"04 EAT(db) EAT(db) EAT(db) EAT(db) 75 80 85 75 80 85 75 80 85 75 80 85 TC 28.6 28.6 32.5 27.0 27.0 30.7 25.2 25.2 28.6 23.2 23.2 26.4 58 SHC 24.7 28.6 32.5 23.3 27.0 30.7 21.7 25.2 28.6 20.0 23.2 26.4 TC 31.1 31.1 31.1 28.9 28.9 29.8 26.3 26.3 28.6 23.6 23.6 27.2 62 SHC 22.4 26.6 30.9 21.3 25.6 29.8 20.2 24.4 28.6 18.8 23.0 27.2 900 EAT TC 35.2 35.2 35.2 33.0 33.0 33.0 30.4 30.4 30.4 27.5 27.5 27.5 Cfm (wb) 67 SHC 18.7 23.0 27.2 17.8 22.0 26.3 16.7 20.9 25.2 15.5 19.8 24.0 TC 38.9 38.9 38.9 37.2 37.2 37.2 34.8 34.8 34.8 31.9 31.9 31.9 72 SHC 14.7 19.0 23.3 14.0 18.3 22.6 13.1 17.3 21.6 12.0 16.3 20.5 TC - 41.5 41.5 - 40.0 40.0 - 38.0 38.0 - 35.4 35.4 76 SHC - 15.6 20.5 - 15.1 20.0 - 14.3 19.1 - 13.3 17.8 TC 30.5 30.5 34.7 28.8 28.8 32.7 26.9 26.9 30.6 24.8 24.8 28.2 58 SHC 26.4 30.5 34.7 24.8 28.8 32.7 23.2 26.9 30.6 21.4 24.8 28.2 TC 32.4 32.4 33.9 30.0 30.0 32.7 27.4 27.4 31.3 24.8 24.8 29.3 62 SHC 24.2 29.1 33.9 23.1 27.9 32.7 21.8 26.6 31.3 20.2 24.8 29.3 1050 EAT TC 36.5 36.5 36.5 34.2 34.2 34.2 31.5 31.5 31.5 28.5 28.5 28.5 Cfm (wb) 67 SHC 19.8 24.6 29.4 19.0 23.8 28.7 17.9 22.7 27.6 16.7 21.5 26.4 TC 40.0 40.0 40.0 38.3 38.3 38.3 35.9 35.9 35.9 33.0 33.0 33.0 72 SHC 15.1 19.9 24.7 14.5 19.3 24.1 13.6 18.5 23.3 12.5 17.4 22.3 TC - 42.5 42.5 - 40.9 40.9 - 39.0 39.0 - - - 76 SHC - 16.3 22.0 - 15.7 21.4 - 14.9 20.2 - - - TC 32.1 32.1 36.5 30.3 30.3 34.4 28.3 28.3 32.2 26.1 26.1 29.7 58 SHC 27.8 32.1 36.5 26.2 30.3 34.4 24.4 28.3 32.2 22.5 26.1 29.7 TC 33.3 33.3 36.6 30.9 30.9 35.3 28.4 28.4 33.5 26.1 26.1 30.9 62 SHC 25.8 31.2 36.6 24.6 29.9 35.3 23.2 28.4 33.5 21.3 26.1 30.9 1200 EAT TC 37.4 37.4 37.4 35.1 35.1 35.1 32.4 32.4 32.4 29.2 29.2 29.2 Cfm (wb) 67 SHC 20.7 25.9 31.2 20.0 25.4 30.8 18.9 24.4 29.8 17.7 23.1 28.6 72 TC 40.7 40.7 40.7 39.0 39.0 39.0 36.7 36.7 36.7 33.8 33.8 33.8 SHC 15.4 20.6 25.9 14.8 20.1 25.4 14.0 19.4 24.8 12.9 18.4 23.8 TC - 43.2 43.2 - 41.5 41.5 - 39.7 39.7 - 76 SHC - 16.7 23.0 - 16.0 22.1 - 15.3 21.2 - TC 33.5 33.5 38.1 31.6 31.6 35.9 29.5 29.5 33.5 27.2 27.2 30.9 58 SHC 28.9 33.5 38.1 27.3 31.6 35.9 25.4 29.5 33.5 23.4 27.2 30.9 TC 34.1 34.1 38.9 31.7 31.7 37.5 29.5 29.5 34.9 27.2 27.2 32.2 62 SHC 27.1 33.0 38.9 25.9 31.7 37.5 24.1 29.5 34.9 22.2 27.2 32.2 1350 EAT TC 38.0 38.0 38.0 35.8 35.8 35.8 33.0 33.0 33.0 29.8 29.8 30.6 Cfm (wb) 67 SHC 21.4 27.1 32.8 20.8 26.8 32.7 19.8 25.9 31.9 18.6 24.6 30.6 TC 41.2 41.2 41.2 39.5 39.5 39.5 37.3 37.3 37.3 34.3 34.3 34.3 72 SHC 15.6 21.3 26.9 15.0 20.7 26.5 14.3 20.2 26.1 13.2 19.2 25.3 TC - 43.7 43.7 - 41.9 41.9 - 40.0 40.0 - - - 76 SHC - 17.0 23.6 - 16.3 22.7 - 15.6 21.9 - - - 58 TC 34.5 34.5 39.2 32.7 32.7 37.1 30.5 30.5 34.6 28.1 28.1 31.9 SHC 29.8 34.5 39.2 28.2 32.7 37.1 26.3 30.5 34.6 24.2 28.1 31.9 TC 35.1 35.1 39.1 32.7 32.7 38.7 30.5 30.5 36.1 28.1 28.1 33.3 62 SHC 27.4 33.3 39.1 26.7 32.7 38.7 24.9 30.5 36.1 22.9 28.1 33.3 1500 EAT TC 38.4 38.4 38.4 36.3 36.3 36.3 33.4 33.4 33.8 30.1 30.1 32.5 Cfm (wb) 67 SHC 22.1 28.2 34.3 21.6 28.0 34.4 20.6 27.2 33.8 19.4 26.0 32.5 TC 41.6 41.6 41.6 39.8 39.8 39.8 37.7 37.7 37.7 34.7 34.7 34.7 72 SHC 15.7 21.8 27.8 15.1 21.3 27.4 14.4 20.8 27.2 13.5 20.0 26.5 TC - 44.0 44.0 - 42.2 42.2 - 40.2 40.2 - - - 76 SHC - 17.2 24.1 - 16.5 23.3 - 15.8 22.5 - - - LEGEND NOTE:See minimum-maximum airflow ratings on page 8. - - Do Not Operate Cfm - Cubic Feet Per Minute(Supply Air) EAT(db)- Entering Air Temperature(dry bulb) EAT(wb)- Entering Air Temperature(wet bulb) SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 27 Performance data (cont) ,Carrier 48/50FC*B04-UNIT WITH HUMIDI-MIZER®SYSTEM IN SUBCOOLING MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-SCFM/BF TEMP(F) 900/0.01 I 1200/0.02 I 1500/0.04 AIR ENTERING Air EnteringEvaporator Ewb(F) (Edb) P ( ) 72 67 62 72 67 62 72 67 62 TC 29.90 31.00 30.90 29.80 32.50 33.30 33.80 30.90 26.70 75 SHC 14.70 19.40 25.50 24.30 19.80 14.90 13.60 17.70 21.20 kW 2.51 2.49 2.42 2.82 2.74 2.68 3.09 3.01 2.88 TC 31.90 27.50 22.70 18.10 23.10 28.40 23.80 18.30 13.20 65 SHC 10.70 14.20 17.40 13.00 10.00 6.90 2.60 5.50 8.40 kW 3.36 3.23 3.06 3.62 3.41 3.24 3.79 3.58 3.39 TC 30.30 31.00 30.90 29.80 32.50 33.30 33.80 30.90 26.70 95 SHC 14.80 19.40 25.50 24.30 19.80 14.90 13.60 17.70 21.20 kW 2.53 2.49 2.41 2.82 2.74 2.68 3.09 3.01 2.88 TC 31.90 27.50 22.70 18.10 23.10 28.40 23.80 18.30 13.20 105 SHC 10.70 14.20 17.40 13.00 10.00 6.90 2.60 5.50 8.40 kW 3.36 3.23 3.06 3.62 3.41 3.24 3.79 3.58 3.39 TC 30.30 31.00 30.90 29.80 32.50 33.30 33.80 30.90 26.70 115 SHC 14.80 19.40 25.50 24.30 19.80 14.90 13.60 17.70 21.20 kW 2.53 2.49 2.41 2.82 2.74 2.68 3.09 3.01 2.88 TC 31.90 27.50 22.70 18.10 23.10 28.40 23.80 18.30 13.2 125 SHC 10.70 14.20 17.40 0.00 10.00 6.90 2.60 5.50 8.40 kW 3.36 3.23 3.06 3.62 3.41 3.24 3.79 3.58 3.39 48/50FC*B04-UNIT WITH HUMIDI-MIZER SYSTEM IN HOT GAS REHEAT MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-Ewb(F) 75 Dry Bulb 75 Dry Bulb 75 Dry Bulb TEMP R ENTERING 62.5 Wet Bulb 64 Wet Bulb 65.3 Wet Bulb AI CONDENSER(Edb) (50%Relative) (56%Relative) (60%Relative) Air Entering Evaporator-Cfm 900 1200 1500 900 1200 1500 900 1200 1500 TC 9.81 10.50 10.92 10.83 11.58 12.00 11.78 12.50 12.96 80 SHC 1.41 3.09 4.87 0.60 1.98 3.47 -0.05 1.04 2.25 kW 1.92 1.93 1.94 1.96 1.98 2.00 2.00 2.01 2.02 TC 11.71 12.51 13.04 12.67 13.38 13.86 13.44 13.91 14.32 75 SHC 3.10 4.87 6.70 2.30 3.67 5.03 1.62 2.51 3.51 kW 1.87 1.88 1.88 1.89 1.90 1.91 1.91 1.92 1.93 TC 13.37 14.10 14.41 13.94 14.53 14.90 14.42 14.95 15.10 70 SHC 4.71 6.28 7.52 3.72 4.86 5.88 2.97 4.07 4.47 kW 1.78 1.80 1.82 1.81 1.83 1.84 1.82 1.82 1.86 TC 13.95 14.80 14.62 14.47 15.22 15.53 14.66 14.63 15.46 60 SHC 6.20 8.05 7.61 5.67 6.67 7.88 5.03 5.55 6.30 kW 1.66 1.62 1.70 1.67 1.69 1.68 1.69 1.70 1.71 TC 14.26 14.87 15.78 14.65 15.78 16.21 15.01 16.16 16.58 50 SHC 5.12 6.39 8.04 3.83 5.37 6.38 2.72 4.09 4.93 kW 1.98 2.03 1.94 2.01 1.94 1.97 2.03 1.96 1.99 TC 14.16 15.50 15.88 15.28 16.24 16.28 15.62 16.60 17.01 40 SHC 5.04 6.99 8.14 4.43 5.81 6.44 3.31 4.51 5.34 kW 2.07 1.95 1.99 1.93 1.91 2.02 1.96 1.94 1.97 LEGEND Edb - Entering Dry Bulb Ewb - Entering Wet Bulb kW - Compressor Power Input SCFM/BF- Standard Cubic Feet per Minute/Bypass Factor SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 28 ;Carrier 48/50FC**05 SINGLE STAGE COOLING CAPACITIES AMBIENT TEMPERATURE(F) 85 95 105 115 48/SOFC'"05 EAT(db) EAT(db) EAT(db) EAT(db) 75 80 85 75 80 85 75 80 85 75 80 85 58 TC 40.5 40.5 44.8 37.5 37.5 43.0 34.5 34.5 39.6 30.9 30.9 35.7 SHC 34.0 39.4 44.8 32.1 37.5 43.0 29.4 34.5 39.6 26.2 30.9 35.7 TC 43.9 43.9 43.9 40.4 40.4 41.0 36.4 36.4 38.7 31.9 31.9 36.2 62 SHC 31.1 37.1 43.1 29.0 35.0 41.0 26.7 32.7 38.7 24.2 30.2 36.2 1200 EAT TC 49.3 49.3 49.3 46.1 46.1 46.1 42.3 42.3 42.3 37.8 37.8 37.8 Cfm (wb) 67 SHC 25.7 31.5 37.4 23.9 29.8 35.6 21.8 27.7 33.6 19.4 25.4 31.4 72 TC 54.7 54.7 54.7 51.5 51.5 51.5 48.0 48.0 48.0 44.0 44.0 44.0 SHC 20.3 25.8 31.2 18.5 24.1 29.7 16.6 22.2 27.9 14.5 20.2 25.9 TC - 58.5 58.5 - 55.7 55.7 - 52.3 52.3 - 48.4 48.4 76 SHC - 21.2 27.8 - 19.4 26.0 - 17.5 24.1 - 15.8 22.4 TC 43.0 43.0 49.0 40.1 40.1 45.9 37.0 37.0 42.4 33.3 33.3 38.4 58 SHC 37.0 43.0 49.0 34.4 40.1 45.9 31.5 37.0 42.4 28.2 33.3 38.4 TC 45.3 45.3 47.5 41.8 41.8 45.3 37.9 37.9 43.0 33.5 33.5 39.7 62 SHC 33.6 40.6 47.5 31.5 38.4 45.3 29.2 36.1 43.0 26.4 33.0 39.7 1400 EAT TC 50.9 50.9 50.9 47.5 47.5 47.5 43.7 43.7 43.7 39.2 39.2 39.2 Cfm (wb) 67 SHC 27.2 34.0 40.7 25.4 32.2 39.0 23.3 30.2 37.1 21.1 28.0 34.9 TC 56.0 56.0 56.0 52.9 52.9 52.9 49.2 49.2 49.2 45.2 45.2 45.2 72 SHC 20.8 27.1 33.5 19.0 25.5 32.1 17.1 23.7 30.3 15.0 21.7 28.4 TC - 59.8 59.8 - 56.8 56.8 - 53.3 53.3 - 49.3 49.3 76 SHC - 21.5 29.2 - 20.0 27.7 - 18.3 24.3 - 16.5 22.7 TC 45.2 45.2 51.5 42.2 42.2 48.3 39.0 39.0 44.7 35.2 35.2 40.6 58 SHC 38.8 45.2 51.5 36.2 42.2 48.3 33.2 39.0 44.7 29.9 35.2 40.6 TC 46.4 46.4 51.4 42.8 42.8 49.0 39.2 39.2 46.0 35.3 35.3 42.4 62 SHC 35.8 43.6 51.4 33.6 41.3 49.0 31.0 38.5 46.0 28.1 35.3 42.4 1600 EAT TC 51.9 51.9 51.9 48.4 48.4 48.4 44.6 44.6 44.6 40.0 40.0 40.0 Ctm (wb) 67 SHC 28.5 36.1 43.6 26.6 34.3 42.0 24.7 32.5 40.2 22.4 30.2 38.0 TC 56.8 56.8 56.8 53.7 53.7 53.7 50.0 50.0 50.0 45.8 45.8 45.8 72 SHC 21.0 28.2 35.3 19.3 26.7 34.0 17.4 24.9 32.4 15.4 22.9 30.5 TC - 60.4 60.4 - 57.4 57.4 - 53.9 53.9 - - - 76 SHC - 22.0 27.8 - 20.5 27.1 - 18.8 25.8 - - - 58 TC 46.8 46.8 53.4 43.9 43.9 50.2 40.5 40.5 46.5 36.8 36.8 42.4 SHC 40.2 46.8 53.4 37.6 43.9 50.2 34.6 40.5 46.5 31.2 36.8 42.4 TC 47.3 47.3 54.6 45.5 45.5 48.6 41.0 41.0 47.7 36.8 36.8 44.3 62 SHC 37.6 46.1 54.6 33.9 41.3 48.6 32.2 39.9 47.7 29.3 36.8 44.3 1800 EAT TC 52.5 52.5 52.5 49.0 49.0 49.0 45.1 45.1 45.1 40.5 40.5 40.9 Cfm (wb) 67 SHC 29.5 37.8 46.2 27.7 36.2 44.7 25.8 34.4 43.0 23.5 32.2 40.9 TC 57.3 57.3 57.3 54.1 54.1 54.1 50.4 50.4 50.4 46.2 46.2 46.2 72 SHC 21.2 29.0 36.9 19.5 27.6 35.7 17.6 25.8 34.1 15.5 23.9 32.3 TC - 60.7 60.7 - 57.8 57.8 - 54.2 54.2 - - - 76 SHC - 22.2 29.5 - 20.7 28.2 - 19.0 26.9 - - - TC 48.0 48.0 54.8 45.1 45.1 51.6 41.8 41.8 47.9 38.0 38.0 43.7 58 SHC 41.3 48.0 54.8 38.6 45.1 51.6 35.6 41.8 47.9 32.2 38.0 43.7 TC 48.5 48.5 56.1 46.6 46.6 49.4 41.8 41.8 50.0 38.0 38.0 45.7 62 SHC 38.6 47.3 56.1 34.5 42.0 49.4 33.5 41.8 50.0 30.2 38.0 45.7 2000 EAT TC 52.7 52.7 52.7 49.2 49.2 49.2 45.3 45.3 45.6 40.7 40.7 43.7 Cim (wb) 67 SHC 30.3 39.4 48.5 28.6 37.9 47.2 26.7 36.1 45.6 24.5 34.1 43.7 TC 57.5 57.5 57.5 54.3 54.3 54.3 50.6 50.6 50.6 46.3 46.3 46.3 72 SHC 21.1 29.6 38.2 19.4 28.3 37.1 17.6 26.6 35.6 15.6 24.8 33.9 76 TC - 60.7 60.7 - 57.8 57.8 - - - - - - SHC - 22.3 30.4 - 20.8 29.1 - - - - LEGEND NOTE:See minimum-maximum airflow ratings on page 8. Do Not Operate Cfm - Cubic Feet Per Minute(Supply Air) EAT(db)- Entering Air Temperature(dry bulb) EAT(wb)- Entering Air Temperature(wet bulb) SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 29 Performance data (cont) (Carr`r 4,u.iten urnnniogies 48/50FC*B05 -UNIT WITH HUMIDI-MIZER®SYSTEM IN SUBCOOLING MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-SCFM/BF TEMP(F) 1200/0.04 I 1600/0.07 I 2000/0.10 AIR ENTERING CONDENSER(Edb) Air Entering Evaporator-Ewb(F) 72 67 62 72 67 62 72 67 62 TC 49.7 44.9 40.6 52.9 47.8 43.5 54.8 49.8 0.0 75 SHC 20.8 26.2 31.6 24.0 30.9 37.9 26.8 35.2 0.0 kW 2.50 2.47 2.44 2.46 2.48 2.51 2.53 2.50 0.00 TC 46.5 42.0 37.9 49.1 44.7 40.6 51.2 46.5 42.6 65 SHC 17.8 23.5 29.2 20.5 28.0 35.2 23.5 32.1 40.5 kW 2.81 2.78 2.76 2.78 2.80 2.82 2.84 2.81 2.79 TC 43.1 38.9 35.1 45.8 41.5 37.6 47.5 43.1 39.4 95 SHC 14.6 20.6 26.5 17.5 25.0 32.4 20.1 28.9 37.5 kW 3.16 3.14 3.12 3.13 3.15 3.18 3.19 3.16 3.14 TC 39.3 35.3 32.0 41.8 37.7 34.2 43.4 39.1 35.9 105 SHC 11.1 17.3 23.7 13.8 21.5 29.3 16.3 25.3 34.3 kW 3.56 3.54 3.52 3.54 3.55 3.58 3.59 3.56 3.55 TC 35.3 31.8 28.6 37.4 33.7 30.5 39.1 35.3 32.2 115 SHC 7.5 14.1 20.6 9.7 17.8 25.9 12.3 21.8 30.8 kW 4.02 4.01 4.00 4.00 4.01 4.03 4.04 4.03 4.01 TC 31.2 27.9 24.9 33.2 29.8 26.8 34.5 31.0 28.3 125 SHC 3.7 10.5 17.3 5.9 14.3 22.5 8.1 17.9 27.1 kW 4.54 4.53 4.53 4.53 4.54 4.54 4.55 4.54 4.54 48/50FC*B05 -UNIT WITH HUMIDI-MIZER SYSTEM IN HOT GAS REHEAT MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-Ewb(F) TEMP 75 Dry Bulb 75 Dry Bulb 75 Dry Bulb AIR ENTERING (50%Relative) (56%Relative) (60%Relative) CONDENSER(Edb) Air Entering Evaporator-Cfm 1200 1600 2000 1200 1600 2000 1200 1600 2000 TC 10.55 10.36 10.16 11.65 11.44 11.20 12.56 12.35 12.04 80 SHC -1.90 -1.24 -0.52 -3.80 -3.40 -2.95 -5.39 -5.19 -4.97 kW 3.15 3.16 3.16 3.19 3.20 3.20 3.22 3.23 3.23 IC 12.91 12.76 12.57 13.89 13.76 13.47 14.64 14.56 14.25 75 SHC 0.35 0.98 1.63 -1.54 -1.09 -0.76 -3.12 -2.80 -2.65 kW 3.04 3.05 3.06 3.07 3.08 3.09 3.10 3.12 3.12 TC 15.12 14.94 14.82 15.98 15.88 15.60 16.69 16.50 16.13 70 SHC 2.51 3.04 3.60 0.68 1.11 1.36 -0.78 -0.55 -0.50 kW 2.92 2.93 2.95 2.96 2.97 2.98 2.98 2.99 3.00 TC 18.97 18.79 18.53 19.24 19.18 18.82 19.83 19.58 21.59 60 SHC 6.49 6.91 7.10 4.77 5.17 5.26 3.72 3.89 4.75 kW 3.17 3.23 3.15 3.21 3.26 3.18 3.23 3.12 3.10 TC 17.53 13.35 13.30 13.45 13.58 13.53 13.67 13.79 13.74 50 SHC 9.21 8.03 7.71 7.82 7.54 7.16 7.44 7.10 6.68 kW 3.01 3.07 3.11 3.04 3.10 3.15 3.07 3.14 3.18 TC 17.53 13.35 13.30 13.45 13.58 13.53 13.67 13.79 13.74 40 SHC 9.21 8.03 7.71 7.82 7.54 7.16 7.44 7.10 6.68 kW 3.39 3.32 3.24 3.14 3.23 3.15 3.18 3.27 3.08 LEGEND Edb - Entering Dry Bulb Ewb - Entering Wet Bulb kW - Compressor Power Input SCFM/BF- Standard Cubic Feet per Minute/Bypass Factor SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 30 farrier) i1 011 le iaaNala!lea 48/50FC""06 SINGLE STAGE COOLING CAPACITIES AMBIENT TEMPERATURE(F) 48/50FC'•06 85 95 105 115 EAT(db) EAT(db) EAT(db) EAT(db) 75 80 85 75 80 85 75 80 85 75 80 85 58 TC 52.2 52.2 58.7 49.3 49.3 55.4 46.0 46.0 51.7 42.5 42.5 47.7 SHC 45.7 52.2 58.7 43.2 49.3 55.4 40.3 46.0 51.7 37.2 42.5 47.7 62 TC 55.2 55.2 56.6 51.3 51.3 54.6 47.1 47.1 52.4 42.6 42.6 49.7 SHC 41.9 49.2 56.6 40.0 47.3 54.6 37.9 45.2 52.4 35.5 42.6 49.7 1500 EAT TC 61.0 61.0 61.0 57.5 57.5 57.5 53.2 53.2 53.2 48.4 48.4 48.4 Cfm (wb) 67 SHC 34.7 41.9 49.1 33.3 40.6 46.0 31.5 38.9 46.2 29.5 36.8 44.2 72 TC 64.4 64.4 64.4 62.9 62.9 62.9 59.4 59.4 59.4 55.1 55.1 55.1 SHC 26.4 33.4 40.5 25.8 33.1 40.3 24.5 31.8 39.1 22.8 30.2 37.6 TC - 66.0 66.0 - 65.1 65.1 - 63.0 63.0 - 59.5 59.5 76 SHC - 26.9 35.1 - 26.5 34.8 - 25.8 34.0 - 24.4 32.4 58 TC 54.8 54.8 61.7 51.6 51.6 58.1 48.2 48.2 54.3 44.5 44.5 50.1 SHC 47.9 54.8 61.7 45.1 51.6 58.1 42.1 48.2 54.3 38.9 44.5 50.1 62 TC 56.5 56.5 60.9 52.7 52.7 59.0 48.4 48.4 56.5 44.6 44.6 52.1 SHC 44.3 52.6 60.9 42.4 50.7 59.0 40.2 48.4 56.5 37.0 44.6 52.1 1750 EAT TC 62.0 62.0 62.0 58.7 58.7 58.7 544 54.4 54.4 49.4 49.4 49.4 Cfm (wb) 67 SHC 35.7 43.7 51.7 34.6 42.9 51.2 32.9 41.3 49.7 30.9 39.3 47.8 72 TC 64.6 64.6 64.6 63.4 63.4 63.4 60.3 60.3 60.3 56.1 56.1 56.1 SHC 26.2 33.8 41.5 25.8 33.8 41.8 24.6 32.9 41.1 23.1 31.4 39.8 TC - 65.9 65.9 - 64.8 64.8 - 63.3 63.3 - 59.9 59.9 76 SHC - 27.2 36.8 - 26.7 36.3 - 26.0 35.1 - 24.7 33.5 58 TC 56.6 56.6 63.8 53.5 53.5 60.3 49.9 49.9 56.3 46.1 46.1 52.0 SHC 49.4 56.6 63.8 46.7 53.5 60.3 43.6 49.9 56.3 40.2 46.1 52.0 TC 57.5 57.5 64.5 53.7 53.7 62.9 50.0 50.0 58.5 46.1 46.1 54.0 62 SHC 46.2 55.3 64.5 44.5 53.7 62.9 41.4 50.0 58.5 38.2 46.1 54.0 2000 EAT TC 62.1 62.1 62.1 59.3 59.3 59.3 55.0 55.0 55.0 50.0 50.0 51.0 Cfm (wb) 67 SHC 36.0 44.6 53.3 35.5 44.7 53.9 34.0 43.4 52.8 32.1 41.6 51.0 72 TC 64.3 64.3 64.3 63.4 63.4 63.4 60.6 60.6 60.6 56.5 56.5 56.5 SHC 25.7 34.0 42.2 25.4 34.1 42.7 24.5 33.6 42.6 23.1 32.3 41.6 TC - 65.6 65.6 - 64.1 64.1 - 63.1 63.1 - 59.9 59.9 76 SHC - 27.0 37.5 - 26.4 36.5 - 25.8 35.6 - 24.6 34.3 58 TC 57.7 57.7 65.2 54.7 54.7 61.8 51.2 51.2 57.8 47.2 47.2 53.3 SHC 50.2 57.7 65.2 47.6 54.7 61.8 44.5 51.2 57.8 41.0 47.2 53.3 62 TC 57.9 57.9 67.9 54.8 54.8 64.3 51.2 51.2 60.1 47.2 47.2 55.4 SHC 47.9 57.9 67.9 45.3 54.8 64.3 42.3 51.2 60.1 39.0 47.2 55.4 2250 EAT TC 61.7 61.7 61.7 59.5 59.5 59.5 55.2 55.2 55.5 50.2 50.2 53.9 Cfm (wb) 67 SHC 36.0 45.1 54.3 36.1 46.2 56.2 34.8 45.1 55.5 33.0 43.5 53.9 72 TC 63.9 63.9 63.9 62.9 62.9 62.9 60.5 60.5 60.5 56.5 56.5 56.5 SHC 25.1 33.8 42.5 24.9 34.0 43.2 24.2 33.9 43.6 22.8 32.9 43.0 76 TC - 65.0 65.0 - 63.5 63.5 - 62.6 62.6 - 59.5 59.5 SHC - 26.5 37.3 - 25.9 36.4 - 25.4 35.8 - 24.4 34.6 58 TC 58.2 58.2 65.9 55.4 55.4 62.7 51.9 51.9 58.8 47.9 47.9 54.3 SHC 50.6 58.2 65.9 48.1 55.4 62.7 45.1 51.9 58.8 41.6 47.9 54.3 62 TC 58.2 58.2 68.5 56.4 56.4 59.5 51.9 51.9 61.1 47.9 47.9 56.4 SHC 48.0 58.2 68.5 42.8 51.1 59.5 42.8 51.9 61.1 39.4 47.9 56.4 2500 EAT TC 61.1 61.1 61.1 59.2 59.2 59.2 55.1 ' 55.1 57.7 50.1 50.1 56.3 Cfm (w5) 67 SHC 35.8 45.5 55.2 36.4 47.2 57.9 35.3 46.5 57.7 33.6 44.9 56.3 72 TC 63.1 63.1 63.1 62.0 62.0 62.0 60.0 60.0 60.0 56.1 56.1 56.1 SHC 24.3 33.4 42.5 24.0 33.6 43.2 23.5 33.9 44.3 22.3 33.1 43.9 TC - 64.1 64.1 - 62.7 62.7 - 61.8 61.8 - 58.8 58.8 76 SHC - 25.8 36.9 - 25.2 36.1 - 24.8 35.7 - 23.8 34.7 LEGEND NOTE:See minimum-maximum airflow ratings on page 8. - - Do Not Operate Cfm - Cubic Feet Per Minute(Supply Air) EAT(db)- Entering Air Temperature(dry bulb) EAT(wb)- Entering Air Temperature(wet bulb) SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 31 Performance data (cont) ;carrier; C.umtm rtcmomv 48/50FC*B06 - UNIT WITH HUMIDI-MIZERe SYSTEM IN SUBCOOLING MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-SCFM/BF TEMP(F) 1500/0.01 I 2000/0.02 I 2500/0.03 AIR ENTERING CONDENSER(Edb) Air Entering Evaporator-Ewb(F) 72 67 62 72 67 62 72 67 62 TC 65.6 59.0 53.7 69.6 63.1 57.4 72.0 65.6 60.4 75 SHC 25.3 33.5 42.2 29.9 40.9 51.6 34.3 47.6 60.0 kW 3.11 3.06 3.03 3.05 3.09 3.16 3.16 3.11 3.07 TC 61.1 55.4 50.2 65.0 58.9 53.7 66.8 61.0 56.4 85 SHC 21.1 30.0 38.8 25.6 36.9 48.0 29.3 43.3 56.0 kW 3.47 3.43 3.39 3.42 3.46 3.51 3.52 3.48 3.44 TC 56.7 51.2 46.4 60.1 54.5 49.8 62.2 56.5 52.1 95 SHC 16.9 26.1 35.2 21.0 32.7 44.2 25.0 39.1 52.1 kW 3.89 3.85 3.80 3.83 3.88 3.93 3.95 3.90 3.86 IC 51.8 46.6 42.0 54.3 49.0 44.4 56.9 51.1 46.9 105 SHC 12.3 21.7 31.1 15.5 27.5 39.3 20.0 34.0 46.9 kW 4.36 4.31 4.26 4.29 4.33 4.38 4.42 4.36 4.32 TC 46.5 41.9 37.8 49.1 44.3 40.2 50.8 46.2 42.5 115 SHC 7.3 17.3 27.2 10.7 23.2 35.4 14.4 29.4 42.5 kW 4.88 4.83 4.78 4.81 4.86 4.91 4.93 4.88 4.84 TC 40.8 36.7 33.1 43.1 38.9 35.1 44.9 40.5 37.3 125 SHC 2.0 12.5 22.8 5.2 18.2 30.5 8.9 24.2 37.3 kW 5.44 5,39 5.35 5.37 5.42 5.47 5.49 5.44 5.40 48/50FC*B06-UNIT WITH HUMIDI-MIZER SYSTEM IN HOT GAS REHEAT MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-Ewb(F) 75 75 Dr TEMP(F) 62.5 W BBulb 64 Wulb 75 et Bullb b 65.3 WetBulb Bulb AIR ENTERING (50%Relative) (56%Relative) (60%Relative) CONDENSER(Edb) Alr Entering Evaporator-Cfm 1500 2000 2500 1500 2000 2500 1500 2000 2500 TC 13.19 12.95 12.70 14.56 14.30 14.00 15.70 15.44 15.05 80 SHC -2.38 -1.55 -0.65 -4.75 -4.25 -3.69 -6.74 -6.49 -6.21 kW 3.15 3.16 3.16 3.19 3.20 3.20 3.22 3.23 3.23 TC 16.14 15.95 15.71 17.36 17.20 16.84 18.30 18.20 17.81 75 SHC 0.44 1.23 2.03 -1.92 -1.36 -0.96 -3.90 -3.50 -3.31 kW 3.04 3.05 3.06 3.07 3.08 3.09 3.10 3.12 3.12 TC 18.90 18.68 18.52 19.97 19.85 19.50 20.86 20.62 20.17 70 SHC 3.13 3.80 4.51 0.85 1.39 1.70 -0,97 -0.69 -0.63 kW 2.92 2.93 2.95 2.96 2.97 2.98 2.98 2.99 3.00 TC 23.71 23.48 23.16 24.05 23.98 23.52 24.79 24.47 26.99 60 SHC 8.11 8.63 8.88 5.97 6.46 6.58 4.65 4.87 5.94 kW 3.17 3.23 3.15 3.21 3.26 3.18 3.23 3.12 3.10 TC 21.91 16.69 16.62 16.81 16.98 16.92 17,08 17.24 17.17 50 SHC 11.51 10.04 9.64 9.77 9.43 8.95 9.30 6.88 8.35 kW 3.01 3.07 3.11 3.04 3.10 3.15 3.07 3.14 3.18 TC 21.91 16.69 16.62 16.81 16.98 16.92 17.08 17,24 17.17 40 SHC 11.51 10.04 9.84 9.77 9.43 8.95 9.30 8.88 8.35 kW 3.39 3.32 3.24 3.14 3.23 3.15 3.18 3.27 3.08 LEGEND Edb - Entering Dry Bulb Ewb - Entering Wet Bulb kW - Compressor Power Input SCFM/BF- Standard Cubic Feet per Minute/Bypass Factor SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 32 Carrier 48/50FC**07 HIGH STAGE COOLING CAPACITIES AMBIENT TEMPERATURE(F) 48/50FC"07 85 95 105 115 EAT(db) EAT(db) EAT(db) EAT(db) 75 80 85 75 80 85 75 80 85 75 80 85 58 TC 63.8 63.8 72.2 61.1 61.1 69.1 58.1 58.1 65.8 54.9 54.9 62.3 SHC 55.5 63.8 72.2 53.0 61.1 69.1 50.4 58.1 65.8 47.6 54.9 62.3 62 TC 67.2 67.2 68.3 63.7 63.7 66.4 60.0 60.0 64.4 56.2 56.2 62.3 SHC 49.9 59.1 68.3 48.1 57.3 66.4 46.1 55.3 64.4 44.1 53.2 62.3 1800 EAT TC 73.2 73.2 73.2 69.5 69.5 ' 69.5 65.5 65.5 65.5 61.4 61.4 61.4 Cfm (wb) 67 SHC 40.8 50.0 59.2 39.0 48.2 57.4 ' 37.1 46.3 55.6 35.2 44.4 53.6 72 TC 79.7 79.7 79.7 75.7 75.7 75.7 71.5 71.5 71.5 67.1 67.1 67.1 SHC 31.4 40.7 50.0 29.7 39.0 48.3 27.9 37.2 46.4 26.1 35.3 44.5 76 TC - 85.3 85.3 - 81.0 81.0 - 76.6 76.6 - 72.0 72.0 SHC - 33.3 43.1 - 31.6 41.3 - 29.6 39.5 - 28 37.6 58 TC 67.1 67.1 75.9 64.1 64.1 72.5 60.9 60.9 69.0 57.6 57.6 65.2 SHC 58.3 67.1 75.9 55.7 64.1 72.5 52.8 60.9 69.0 49.9 57.6 65.2 62 TC 69.0 69.0 74.7 65.4 65.4 72.6 61.6 61.6 70.4 57.7 57.7 68 SHC 53.6 64.1 74.7 51.7 62.2 72.6 49.6 60.0 70.4 47.4 57.7 68 2100 EAT TC 75.0 75.0 75.0 71.2 71.2 71.2 67.0 67.0 67.0 62.7 62.7 62.7 Cfm (wb) 67 SHC 43.2 53.8 64.4 41.4 52.0 62.6 39.5 50.1 60.7 37.6 48.2 58.7 72 TC 81.6 81.6 81.6 77.5 77.5 77.5 73.1 73.1 73.1 68.5 68.5 68.5 SHC 32.5 43.2 53.8 30.7 41.4 52.0 28.9 39.5 50.1 27.1 37.6 48.2 TC - 87.2 87.2 - 82.8 82.8 - 78.2 78.2 - 73.5 73.5 76 SHC - 34.6 45.7 - 32.9 43.9 - 31.1 42.0 - 29.2 40.1 58 IC 69.7 69.7 78.8 66.6 66.6 75.3 63.2 63.2 71.6 59.7 59.7 67.6 SHC 60.6 69.7 78.8 57.8 66.6 75.3 54.9 63.2 71.6 51.7 59.7 67.6 62 TC 70.5 70.5 80.4 66.9 66.9 78.0 63.3 63.3 74.4 59.7 59.7 70.3 SHC 57.0 68.7 80.4 54.9 66.5 78.0 52.1 63.3 74.4 49.1 59.7 70.3 2400 EAT TC 76.4 76.4 76.4 72.4 72.4 72.4 68.2 68.2 68.2 63.8 63.8 63.8 Cfm (wb) 67 SHC 45.5 57.5 69.4 43.7 55.6 67.5 41.8 53.7 65.6 39.8 51.7 63.6 72 TC 83.1 83.1 83.1 78.8 78.8 78.8 74.2 74.2 74.2 69.6 69.6 69.6 SHC 33.5 45.5 57.4 31.7 43.6 55.6 29.8 41.8 53.7 28.0 39.9 51.7 TC - 88.8 88.8 - 84.2 84.2 - 79.5 79.5 - 74.6 74.6 76 SHC - 35.9 48.2 - 34.1 46.4 - 32.3 44.5 - 30.4 42.5 58 TC 71.9 71.9 81.3 68.7 68.7 77.7 65.1 65.1 73.7 61.5 61.5 69.7 SHC 62.5 71.9 81.3 59.6 68.7 77.7 56.5 65.1 73.7 53.3 61.5 69.7 62 TC 72.0 72.0 84.5 68.7 68.7 80.7 65.2 65.2 76.6 61.5 61.5 72.4 SHC 59.5 72.0 84.5 56.7 68.7 80.7 53.7 65.2 76.6 50.6 61.5 72.4 2700 EAT TC 77.5 77.5 77.5 73.4 73.4 73.4 69.0 69.0 70.3 64.5 64.5 68.3 Cfm (wb) 67 SHC 47.7 61.0 74.2 45.9 59.1 72.3 43.9 57.1 70.3 41.9 55.1 68.3 72 TC 84.2 84.2 84.2 79.8 79.8 79.8 75.2 75.2 75.2 70.4 70,4 70.4 SHC 34.4 47.6 60.9 32.6 45.8 59.0 30.7 43.9 57.1 28.8 42.0 55.1 76 TC - 90.0 90.0 - 85.3 85.3 - 80.5 80.5 - 75.5 75.5 SHC - 37.0 50.6 - 35.2 48.7 - 33.4 46.8 - 31.5 44.8 58 TC 73.8 73.8 83.4 70.4 70.4 79.6 66.8 66.8 75.6 63.0 63.0 71.3 SHC 64.2 73.8 83.4 61.2 70.4 79.6 58.0 66.8 75.6 54.6 63.0 71.3 62 TC 73.8 73.8 86.6 70.4 70.4 82.7 66.8 66.8 78.5 63.0 63.0 74.1 SHC 61.0 73.8 86.6 58.2 70.4 82.7 55.1 66.8 78.5 51.9 63.0 74.1 3000 EAT TC 78.4 78.4 78.9 74.2 74.2 76.9 69.7 69.7 74.8 65.2 65.2 72.6 Cfm (wb) 67 SHC 49.8 64.3 78.9 47.9 62.4 76.9 46.0 60.4 74.8 43.9 58.3 72.6 72 TC 85.1 85.1 85.1 80.6 80.6 80.6 75.9 75.9 75.9 71.1 71.1 71.1 SHC 35.2 49.7 64.3 33.4 47.9 62.4 31.5 46.0 60.4 29.7 44.0 58.4 76 TC - 91.0 91.0 - 86.2 86.2 - 81.3 81.3 - 76.3 76.3 SHC - 38.1 52.9 - 36.3 51.0 - 34.5 49.0 - 32.5 47.0 LEGEND NOTE:See minimum-maximum airflow ratings on page 8. - - Do Not Operate Cim - Cubic Feet Per Minute(Supply Air) EAT(db)- Entering Air Temperature(dry bulb) EAT(wb)- Entering Air Temperature(wet bulb) SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 33 Performance data (cont) Carrier 48/50FC"07 LOW STAGE COOLING CAPACITIES AMBIENT TEMPERATURE(F) 48/50FC"07 85 95 105 115 EAT(db) EAT(db) EAT(db) EAT(db) 75 80 85 75 80 85 75 80 85 75 80 85 58 TC 44.2 44.2 50.4 41.6 41.6 47.5 38.8 38.8 44.4 35.7 35.7 41.0 SHC 38.0 44.2 50.4 35.7 41.6 47.5 33.1 38.8 44.4 30.3 35.7 41.0 TC 47.6 47.6 47.6 44.3 44.3 45.1 40.8 40.8 43.0 37.0 37.0 40.7 62 SHC 34.0 40.5 47.0 32.0 38.5 45.1 29.9 ' 36.5 43.0 27.7 34.2 40.7 1200 EAT TC 53.1 53.1 53.1 49.7 49.7 49.7 45.9 45.9 45.9 41.9 41.9 41.9 Cfm (wb) 67 SHC 28.1 34.7 41.2 26.2 32.7 39.2 24.1 30.6 37.2 21.9 28.5 35.0 TC 59.0 59.0 59.0 55.4 55A 55.4 51.5 51.5 51.5 47.2 47.2 47.2 72 SHC 22.1 28,6 35.2 20.2 26.7 33.3 18.1 24.7 31.2 16.0 22.6 29.1 TC - 64.2 64.2 - 60.4 60.4 - 56.3 56.3 - 51.8 51.8 76 SHC - 23.7 30.3 - 21.8 28.4 - 19.8 26.4 - 17.8 24.4 58 TC 47.4 47.4 53.9 44.6 44.6 50.9 41.6 41.6 47.6 38.3 38.3 43.9 SHC 40.8 47.4 53.9 38.3 44.6 50.9 35.6 41.6 47.6 32.6 38.3 43.9 62 TC 49.5 49.5 ' 52,3 46.1 46.1 50.3 42.4 42.4 48.1 38.5 38.5 45.7 SHC 37.2 44.8 52.3 35.2 42.7 50.3 33.0 40.6 48.1 30.7 38.2 45.7 1400 EAT TC 55.0 55.0 55.0 51.5 51.5 51.5 47.5 47.5 47.5 43.3 43.3 43.3 Cfm (wb) 67 SHC 30.2 37.8 45.4 28.3 35.8 43.4 26.1 33.7 41.3 23.9 31.5 39.1 72 TC 61.1 61.1 61.1 57.3 57.3 57.3 53.1 53,1 53.1 48.7 48.7 48.7 SHC 23.1 30.8 38.4 21.2 28.8 36.4 19.1 26.7 34.3 16.9 24.6 32.2 76 TC - 66.4 66.4 - 62.4 62.4 - 58.1 58.1 - 53.4 53.4 SHC - 25.0 32.7 - 23.1 30.8 - 21.1 28.8 - 18.9 26.6 58 TC 50.0 50.0 56.8 47.1 47.1 53.6 43.9 43.9 50.1 40.4 40.4 46.3 SHC 43.1 50.0 56.8 40.5 47.1 53.6 37.6 43.9 50.1 34.5 40.4 46.3 TC 51.0 51.0 57.3 47.5 47.5 55.2 43.9 43.9 52.3 40.5 40.5 48.4 62 SHC 40.2 48.8 57.3 38.1 46.6 55.2 35.6 43.9 52.3 32.6 40.5 48.4 1600 EAT TC 56.5 56.5 56.5 52.8 52.8 52.8 48.7 48.7 48.7 44.3 44.3 44.3 Cfm (wb) 67 SHC 32.2 40.9 49.5 30.2 38.8 47.5 28.1 36.7 45.3 25.8 34.5 43.1 72 TC 62.6 62.6 62.6 58.7 58.7 58.7 54.4 54.4 54.4 49.8 49.8 49.8 SHC 24.1 32.7 41.4 22.1 30.7 39.4 20.0 28.6 37,3 17.8 26.5 35.1 76 TC - 68.0 68.0 - 63.9 63.9 - 59.5 59.5 - 54.7 54,7 SHC - 26.2 35 - 24.2 33.0 - 22.2 30.9 - 20.0 28.8 58 TC 52.2 52.2 59.3 49.2 49.2 56.0 45.8 45.8 52.3 42.2 42.2 48.4 SHC 45.1 52.2 59.3 42.4 49.2 56.0 39.3 45.8 52.3 36.1 42.2 48.4 62 TC 52.3 52.3 61.8 49.2 49.2 58.3 45.9 45.9 54.5 42.3 42.3 50.4 SHC 42.8 52.3 61.8 40.2 49.2 58.3 37.2 45.9 54.5 34.1 42.3 50.4 1800 EAT TC 57.6 57.6 57.6 53.8 53.8 53.8 49.6 49.6 49.6 45.2 45.2 47.0 Cfm (wb) 67 SHC 34.1 43.8 53.5 32.1 41.8 51.4 29.9 39.6 49.3 27.6 37.3 47.0 72 TC 63.8 63.8 63.8 59.8 59.8 59.8 55.4 55.4 55.4 50.7 50.7 50.7 SHC 24.9 34.6 44.4 22.9 32.6 42.3 20.8 30.5 40.2 18.6 28.3 38.0 76 TC - 69.4 69.4 - 65.2 65.2 - 60.6 60.6 - - - SHC - 27.3 37.1 - 25.3 35.1 - 23.2 33.0 - - - TC 54.1 54.1 61.5 51.0 51.0 58.0 47.5 47.5 54.2 43.8 43.8 50.1 58 SHC 46.8 54.1 61.5 43.9 51.0 58.0 40.8 47.5 54.2 37.4 43.8 50.1 TC 54.2 54.2 64.0 51.0 51.0 60.4 47.6 47.6 56.5 43.8 43.8 52.2 62 SHC 44.4 54.2 64.0 41.7 51.0 60.4 38.6 47.6 56.5 35.4 43.8 52.2 2000 EAT TC 58.6 58.6 58.6 54.7 54.7 55.3 50.4 50.4 53.0 45.9 45.9 50.7 Cfm (wb) 67 SHC 35.9 46.6 57.3 33.8 44.6 55.3 31.7 42.3 53.0 29.4 40.0 50.7 72 TC 64.8 64.8 64.8 60.7 60.7 60.7 56.1 56.1 56.1 51.4 51.4 51.4 SHC 25.7 36.5 47.2 23.7 34.4 45.2 21.5 32.3 43.0 19.3 30.0 40.8 TC - 70.5 70.5 - 66.2 66.2 - - - - - - 76 SHC - 28.3 39.2 - 26.3 37.1 - - - - - - LEGEND NOTE:See minimum-maximum airflow ratings on page 8. - - Do Not Operate Cfm - Cubic Feet Per Minute(Supply Air) EAT(db)- Entering Air Temperature(dry bulb) EAT(wb)- Entering Air Temperature(wet bulb) SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 34 Carrier 48/50FC*N07 -UNIT WITH HUMIDI-MIZER®SYSTEM IN SUBCOOLING MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-SCFM/BF TEMP(F) 1800/0.06 2400/0.08 I 3000/0.10 AIR ENTERING CONDENSER(Edb) Air Entering Evaporator-Ewb(F) 72 67 62 72 67 62 72 87 62 TC 73.7 66.6 60.2 78.4 71.0 64.4 81.3 73.7 67.4 75 SHC 32.8 40.5 48.3 37.8 47.8 57.7 42.1 54.3 65.7 kW 4.05 4.01 3.97 4.00 4.04 4.08 4.09 4.05 4.02 TC 69.5 62.8 56.8 73.8 67.0 60.7 76.8 69.6 63.6 85 SHC 28.8 36.9 45.0 33.4 43.9 54.2 37.7 50.4 62.0 kW 4.46 4.43 4.39 4.42 4.45 4.48 4.51 4.47 4.43 TC 65.1 58.8 53.0 69.3 62.7 56.8 71.9 65.1 59.5 95 SHC 24.7 33.1 41.5 29.1 39.9 50.5 33.2 46.1 58.1 kW 4.92 4.89 4.86 4.88 4.91 4.95 4.96 4.92 4.90 TC 60.4 54.4 49.0 64.2 58.0 52.5 66.7 60.3 55.0 105 SHC 20.3 29.1 37.9 24.4 35.6 46.6 28.3 41.8 53.9 kW 5.43 5.40 5.37 5.39 5.42 5.45 5.47 5.43 5.41 TC 55.3 49.7 44.7 58.8 53.1 47.9 61.0 55.1 50.1 115 SHC 15.7 24.9 34.0 19.5 31.2 42.5 23.2 37.1 50.0 kW 5.99 5.96 5.93 5.95 5.98 6.01 6.02 5.99 5.97 TC 49.8 44.7 40.1 53.0 47.6 43.0 55.0 49.5 45.0 125 SHC 10.7 20.5 30.0 14.3 26.4 38.1 17.8 32.1 45.0 kW 6.59 6.57 6.55 6.56 6.59 6.61 6.62 6.60 6.58 48/50FC*N07 -UNIT WITH HUMIDI-MIZER SYSTEM IN HOT GAS REHEAT MODE-COOLING CAPACITIES AIR ENTERING EVAPORATOR-Ewb(F) 75 Dry Bulb 75 Dry Bulb 75 Dry Bulb TEMP (F) 62.5 Wet Bulb 64 Wet Bulb 65.3 Wet Bulb AIR ENTERING (50%Relative) (56%Relative) (60%Relative) CONDENSER(Edb) Air Entering Evaporator-Cfm 1800 2400 3000 1800 2400 3000 1800 2400 3000 TC 14.02 15.01 15.61 14.70 15.71 16.33 15.30 16.34 16.97 80 SHC -0.84 1.73 4.56 -2.95 -0.90 1.45 -4.78 -3.17 -1.24 kW 4.15 4.16 4.17 4.17 4.18 4.18 4.18 4.19 4.20 TC 15.10 16.17 16.79 15.82 16.89 17.52 16.45 17.54 18.19 75 SHC 0.25 2.88 5.72 -1.81 0.29 2.64 -3.59 -1.95 -0.02 kW 3.96 3.97 3.98 3.98 3.99 4.00 4.00 4.01 4.01 TC 15.37 16.68 17.44 16.19 17.39 18.18 17.08 18.37 19.28 70 SHC 0.50 3.39 6.36 -1.44 0.78 3.30 -2.94 -1.07 1.12 kW 3.97 3.93 3.91 3.96 3.95 3.93 3.92 3.89 3.87 TC 16.00 16.95 17.50 16.64 17.59 18.16 18.27 18.17 19.09 60 SHC 1.11 3.63 6.39 -1.04 0.94 3.23 -1.92 -1.39 0.84 kW 3.95 3.99 4.01 3.99 4.02 4.04 4.09 4.05 4.01 TC 16.10 16.93 17.42 16.68 17.50 18.57 17.19 18.60 19.12 50 SHC 1.18 3.58 6.29 -1.05 0.83 3.63 -2.98 -0.98 0.84 kW 4.03 4.08 4.11 4.07 4.12 4.05 4.12 4.06 4.09 TC 16.83 17.62 18.25 17.38 18.17 18.61 17.86 19.42 19.92 40 SHC 1.89 4.25 5.84 -0.36 1.47 3.65 -2.32 -0.17 1.62 kW 3.96 4.02 4.08 4.01 4.08 4.11 4.06 4.00 4.03 LEGEND Ewb - Entering wet bulb kW - compressor Power Input SCFM/BF- Standard Cubic Feet per Minute/Bypass Factor SHC - Sensible Heat Capacity(1000 Btuh)Gross TC - Total Capacity(1000 Btuh)Gross 35 Performance data (cont) Carrier ouuitS reemela*s PRESSURE DROPS FOR ELECTRIC AND GAS HEATING UNITS PRESSURE DROP FOR ELECTRIC HEAT PRESSURE DROP FOR ELECTRIC HEAT 3 TO 5 TON UNITS- 1 STAGE HEAT 4 TO 6 TON UNITS - 1 AND 2 STAGE HEAT Pressure Drop For eectrie Heat,3 Tan Units Pressure Drop For Electric Heat,4 to 6 Ton Units 006 0.30 V005 3 0.25 ________ 2 c �i�9. 8.004 a 0.20 a 0.03 E 0.15 rif •/ • a 002 n 0.10 a CO 0.01 a 0.05 000 0.00 800 900 1000 1100 1200 1300 1400 1500 1600 1000 1500 2000 2500 3000 3500 Unit Airflow(CFI4 Unit Airflow(CFM) 1 Stage Electra Heat 1 Stage Electric Heat - -2 Stage Electric Heat SINGLE PHASE GAS HEAT STAGES UNIT SIZE HEAT SIZE 1 Phase Low Med High 04 1 1 - 05 1 1 1 06 1 1 1 THREE PHASE GAS HEAT STAGES UNIT SIZE HEAT SIZE 3 Phase Low Med High 04 1 2 - 05 1 1 2 06 1 1 2 07 1 1 2 GAS HEAT STATIC PRESSURE DEDUCTIONS-3 TON UNITS CFM 900 1000 1100 1200 1300 1400 1500 i Low Gas Heat 0.01 0.01 0.02 0.03 0.03 0.04 0.04 Deduction GAS HEAT STATIC PRESSURE DEDUCTIONS-4 TO 6 TON UNITS CFM 1200 1500 1800 2100 2400 2700 3000 Medium Gas 0.01 0.05 0.08 0.12 0.15 0.18 0.20 Heat Deduction Low Gas Heat 0.03 0.10 0.17 0.23 0.29 0.36 0.42 Deduction 36 Carrier FIELD-INSTALLED ACCESSORY ELECTRIC HEATER DATA 50FC UNIT SIZE VOLTAGE HEATER MODEL NUMBER* NUMBER OF STAGES CRHEATER323A00 1 CRHEATER324A00 1 208/230 CRHEATER325A00 1 CRHEATER326A00 1 CRHEATER327A00 2 04 CRHEATER328A00 1 CRHEATER333A00 1 460 CRHEATER334A00 1 CRHEATER335A00 1 CRHEATER336A00 1 575 CRHEATER339A00 1 CRHEATER340A00 1 CRHEATER323A00 1 CRHEATER324A00 1 CRHEATER325A00 1 CRHEATER326A00 1 208/230 CRHEATER327A00 2 CRHEATER328A00 1 CRHEATER329A00 2 05 CRHEATER330AOOt 2 CRHEATER331A00" 2 CRHEATER333A00 1 460 CRHEATER335A00 1 CRHEATER336A00 1 CRHEATER337A00 2 575 CRHEATER339A00 1 CRHEATER340A00 1 CRHEATER324A00 1 CRHEATER325A00 1 CRHEATER326A00 1 208/230 CRHEATER327A00 2 CRHEATER328A00 1 CRHEATER329A00 2 CRHEATER331A00 2 06,07 CRHEATER332A00 2 CRHEATER333A00 1 CRHEATER335A00 1 460 CRHEATER336A00 1 CRHEATER337A00 2 CRHEATER338A00 2 575 CRHEATER340A00 1 CRHEATER341A00 2 *Check heater nameplate for model number. tDo not use with size 05 horizontal supply duct configuration units. *'Do not use with size 05 vertical supply duct configuration units. USE OF CRHEATER330A00 FOR 50FC UNITS(WITH OR WITHOUT NON-FUSED DISCONNECT) DUCT CONFIGURATION 50FC UNIT SIZE 04 05 06 07 Vertical Supply Not available Not available Not available Horizontal Supply Not available Not available Not available Not available USE OF CRHEATER331A00 FOR 50FC UNITS(WITH OR WITHOUT NON-FUSED DISCONNECT) DUCT CONFIGURATION 50FC UNIT SIZE 04 05 06 07 Vertical Supply Not available Nol available Horizontal Supply Not available Available Available Available 37 Performance data (cont) Carrier ECONOMIZER BAROMETRIC RELIEF AND STATIC PRESSURE HORIZONTAL ECONOMIZER BAROMETRIC RELIEF VERTICAL ECONOMIZER BAROMETRIC RELIEF Horizontal Economizer Barometric Relief Flow Vertical Economizer Barometric Relief Flow 1500 2000 g ! 1500 u 1000 LI 3 O lib 1000 M m a e 500 a G 500 0 . 0 0 0.05 0.1 0.15 02 0.25 0.3 0 0.05 0.1 0.15 0.2 0.25 0.3 Return Duct Static Pressure fin.wg) Return Duct Static Pressure(in.wg) HORIZONTAL ECONOMIZER DAMPER LEAKAGE VERTICAL ECONOMIZER DAMPER LEAKAGE Horizontal Economizer Barometric Relief Flow Vertical Economizer Barometric Relief Flow 30 25 E u. U 25 U 20 `m a 20 £ E 5 O x 15 G Q 10 a 0 u c 5 i 5 u !j 0 0 0 0.1 0.2 0.3 0.4 0.5 0.8 0 0.1 0.2 0.3 0.4 0.5 0.6 Static Pressure Delta(in.wg) Static Pressure Delta(in.wg) 38 Carrier HUMIDI-MIZER® COIL PRESSURE DROPS Dehumidification Coil Pressure Drop,3 Ton Units 0.08 a d 0.06 EL e E 0.04 u O.02 0.00 - 800 900 1000 1100 1200 1300 1400 1500 1800 Unit air flow(CFM) Dehumidification Coil Pressure Drop,4 and 5 Ton Units 0.30 0.25 / o. 0.20 0 0.15 0.10 a s 0.05 0.00 1100 1300 1800 1700 1900 2100 2300 2500 2700 Unit Airflow(CFM) Dehumidification Coil Pressure Drop,6 Ton Units 0.25 0.20 m 0.15 0.10 o` 0.05 to 0.00 900 1200 1500 1800 2100 2400 2700 3000 3300 Unit Airflow(CFM) MERV-8 filters pressure drop NOTE: For factory-installed MERV-8 filters, no additional pressure drop adjustments are necessary. The standard fan tables accommodate usage. 39 Fan data rCarrier GENERAL FAN PERFORMANCE NOTES 1. Interpolation is permissible. Do not extrapolate. 2. External static pressure is the static pressure difference between the return duct and the supply duct plus the static pressure caused by any FlOPs or accessories. 3. Tabular data accounts for pressure loss due to clean filters, unit casing, wet coils, and highest gas heat exchanger (when gas heat unit). 4. Factory options and accessories may effect static pressure losses. Gas heat unit fan tables assume highest gas heat models; for fan selections with low or medium heat models, the user must deduct low and medium heat static pres- sures. Selection software is available, through your salesperson, to help you select the best motor/drive combination for your application. 5. The fan performance tables offer motor/drive recommendations. In cases when two motor/drive combinations would work, Carrier recommends the lower horsepower option. 6. For information on the electrical properties of Carrier motors, please see the Electrical information section of this book. 7. For more information on the performance limits of Carrier motors, see the application data section of this book. 8. The EPACT (Energy Policy Act of 1992) regulates energy requirements for specific types of indoor fan motors. Motors regulated by EPACT include any general purpose, T-frame (three-digit, 143 and larger), single-speed, foot mounted, polyphase, squirrel cage induction motors of NEMA(National Electrical Manufacturers Association)design A and B, manufactured for use in the United States. Ranging from 1 to 200 Hp, these continuous-duty motors operate on 230 and 460 volt, 60 Hz power. If a motor does not fit into these specifications, the motor does not have to be replaced by an EPACT compliant energy-efficient motor.Variable-speed motors are exempt from EPACT compliance requirements. 40 Carrier Opota414:- 48FCEA04 SINGLE PHASE-3 TON VERTICAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1112 0.10 1341 0.17 ' ""`=1530 0.25 1696 0.34 1845 0.44 975 ':z 162 0.11 1385 0.19 1571 0.27 1733 0.36 1881 0 46 1050 1213 0.12 1431 0.20 1613 0.29 1772 0.39 1917 0.49 1125 i1265 0.14 1477 0.22 1656 0.32 1813 0,41 1956 0.52 1200 1319 0.16 1525 0.25 1700 0.34 1855 0.44 1996 0.55 1275 "!'"1374 0.18 1573 0.27 1746 0.37 1898 0.48 2037 0.59 1350 1430 0.20 1623 0.30 1792 0.40 1942 0.51 2079 0.63 1425 1487 0.23 1674 0.33 1839 0.43 .;r 1500 1545 0.26 1725 0.36 1887 0.47 21 ') 11:' :1., AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 . 't 0.54 2111 0,1ii. 2231 0.77 2344 0.90 2452 1.03 975 %a 6 0.57 zi47',',%.c-;- "' _®" 2262 ait ;0.81 2375 0.93 2482 1.06 1050 2051 0.60 -= 2177 0.72 2294 0.84 2406 0.97 - - 1125 2088 0.63 ' 2211 0.75 23280.88 2438 1.01 - - 1200 ! , 2248 0.79 2363 'all 0.92 2472 1.05 - - 1275 2285 0.83 2399 I: 3 0.96 - - - - 1350 2205 0.75 2324 0.87 2437 "<. ',.. 1.01 - - - - 1425 2247 0.79 2364 0.92 2475 1.06 - - - - 1500 2289 0.84 2405 0.97 - - - - - - Standard Static 1112-1890 RPM,0.44 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. Medium Static 1112-2190 RPM,0.71 Max BHP High Static 1112-2490 RPM, 1.07 Max BHP 48FCEA04 SINGLE PHASE-STANDARD STATIC-3 TON VERTICAL SUPPLY(RPM- VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 2 5.9 1341 1 1530 ' 1696 9.0 1845 9.8 975 1162 6.1 1385 7.3 1571 8.3 1733 9.2 1050 1213 6.4 1431 7.6 1613 8.5 1772 9.4 1125 1265 6.7 1477 7.8 1656 8.8 1813 9.6 1200 1319 7.0 1525 8.1 1700 9.0 1855 9.8 1275 1374 7.3 1573 8.3 1746 9.2 - 1350 1430 7.6 1623 8.6 1792 9.5 1425 1487 7.9 1674 8.9 1839 9.7 1500 1545 8.2 1725 9.1 - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - 975 - - - - - 1050 - - - - - - 1125 - - - - - 1200 - - 1275 - - 1350 - - - 1425 - - - - - - 1500 - - - - - - Standard Static 1112-1890 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 41 Fan data (cont) (Carri 48FCEA04 SINGLE PHASE-MEDIUM STATIC- 3 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1112 5.1 1341 6.1 1530 ' 7TO' ' 1696' "'''7.7 ' 1645" ' 8.4 975 1162 5.3 1385 6.3 1571 7.2 1733 7.9 1881 8.6 1050 1213 5.5 1431 6.5 1613 74 1772 8.1 1917 8.8 1125 1265 5.8 1477 6.7 1656 7.6 1813 8.3 1956 8.9 1200 1319 6.0 1525 7.0 1700 7.8 1855 8.5 1996 9.1 1275 1374 6.3 1573 7.2 1746 8.0 1898 8.7 2037 9.3 1350 1430 6.5 1623 7.4 1792 8.2 1942 8.9 2079 9.5 1425 1487 6.8 1674 7.6 1839 8.4 1987 9.1 2122 9.7 1500 1545 7.1 1725 7.9 1887 8.6 2032 9.3 2165 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1983 9.1 2111 9.6 - - - - - - 975 2016 9.2 2143 9.8 - - - - 1050 2051 9.4 - - - - 1125 2088 9.5 1200 2126 9.7 - - 1275 2165 9.9 - - - - - - - 1350 - 1425 - 1500 - - - - - - - L Medium Static 1112-2190 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCEA04 SINGLE PHASE-HIGH STATIC- 3 TON VERTICAL SUPPLY (PRM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 975 1050 1125 1Y,1 1200 1v': r: 1275 13;' 1350 1433,. 1425 1487 1500 1545 ::' AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1983 8.0 . -, 2111 8.5 ;lig 2231mr 9.0 ` 2344 91? 975 2016 8.1 =Alt 2143 8.6 illt.226441E, 9.1 jllrt2375 9 1050 2051 8.2 `'in 2177 1125 2088 8.4 Mr 2211 8.9 +jug 232 . 1 43 ;1 9 :1 1200 2126 8.5 ,`' °<'2248 9.0 :" 236 ^v-' ' ,d 9.9 :'" - - 1275 2165 8.7 ,f 'j 2285 9.2 `1 `239. 9 ;+ - - - - 1350 2205 8.9 r, 2324 9.3 alir 243 - - - - 1425 2247 9.0 2364 9.5 IiIr 247E ,, . ° •:, 1500 2289 9.2 2405 9.7 - - - - NOTE: Fan tables include highest gas heat. Utilize static pressure ®High Static 1112-2490 RPM deduction tables for lower gas heat capacities. 42 Carried Cu�i. I*g 48FCEA04 THREE PHASE-3 TON VERTICAL SUPPLY(RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1112 0.10 1341 0.17 1530 0.25 1696 0.34 1845 0.44 975 1162 0.11 1385 0.19 1571 0.27 1733 0.36 1881 0.46 1050 1213 0.12 1431 0.20 1613 029 1772 0.39 1917 0.49 1125 1265 0.14 1477 0.22 1656 0.32 1813 0.41 1956 0.52 ',.. 1200 1319 0.16 1525 0.25 1700 0.34 1855 0.44 1996 0.55 '.. 1275 1374 0.18 1573 0.27 1746 0.37 1898 0.48 2037 0.59 1350 1430 0.20 1623 0.30 1792 0.40 1942 0.51 2079 0.63 1425 1487 0.23 1674 0.33 1839 0.43 1987 0.55 2122 0.67 1500 1545 0.26 1725 0.36 1887 0.47 2032 0.58 2165 0.71 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1983 1.. 2231 0.77 2344 0.90 2452 103 «;.,.... 975 2016 r `' 2262 0.81 2375 0.93 2482 106 ' 1050 2051 0.60 =1 2177 0.72 2294 0.84 2406 0.97 - - 1125 2088 0 63 ill 2211 0.75 2328 0.88 2438 1.01 - 1200 2126,,,,„ t• ,t. 2248 0.79 2363 0.92 2472 105' 1275 `�"'- 2285 0.83 2399 0.96 - - - - 1350 2205 0.75 2324 0.87 2437 1.01 - - 1425 2247 ij, 0.79 2364 0.92 2475 1.06 - - - - 1500 2289 � ' 0.84 2405 0.97 y Standard Static 1112-1890 RPM,0.44 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. Medium Static 1112-2190 RPM,0.71 Max BHP High Static 1112-2490 RPM, 1.07 Max BHP 48FCEA04 THREE PHASE-STANDARD STATIC-3 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 OA 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1112 5.9 1341 7.1 1530 8.1 1696 9.0 1845 9.8 975 1162 6.1 1385 7.3 1571 8.3 1733 9.2 1050 1213 6.4 1431 7.6 1613 8.5 1772 9.4 1125 1265 6.7 1477 7.8 1656 8.8 1813 9.6 1200 1319 7,0 1525 8.1 1700 9.0 1855 9.8 1275 1374 7.3 1573 8.3 1746 9.2 1350 1430 7.6 1623 8.6 1792 9.5 - - 1425 1487 7.9 1674 8.9 1839 9.7 - - - - 1500 1545 8.2 1725 9.1 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - - - - - 975 - - - - 1050 - - - - - - - 1125 - - 1200 - - - - - - - 1275 - - - 1350 - - - - - - 1425 - - - - - - - 1500 - - - - - - �`" 'Standard Static 1112-1890 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure l.24 , deduction tables for lower gas heat capacities. 43 Fan data (cont) (Carrie; C.United raMologla 48FCEA04 THREE PHASE-MEDIUM STATIC-3 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1112 5.1 1341 6.1 1530 7.0 1696 7.7 1845 8.4 975 1162 5.3 1385 6.3 1571 7.2 1733 7.9 1881 8.6 1050 1213 5.5 1431 6.5 1613 7.4 1772 8.1 1917 8.8 1125 1265 5.8 1477 6.7 1656 7.6 1813 8.3 1956 8.9 1200 1319 6.0 1525 7.0 1700 7.8 1855 8.5 1996 9.1 1275 1374 6.3 1573 7.2 1746 8.0 1898 8.7 2037 9.3 1350 1430 6.5 1623 7.4 1792 8.2 1942 8.9 2079 9.5 1425 1487 6.8 1674 7.6 1839 8.4 1987 9.1 2122 9,7 1500 1545 7.1 1725 7.9 1887 8.6 2032 9.3 2165 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1983 9.1 2111 9.6 - 975 2016 9.2 2143 9.8 1050 2051 9.4 - - - - - - 1125 2088 9.5 1200 2126 9.7 1275 2165 9.9 1350 - - - - - - 1425 - - 1500 - - - - - - - - - - a ?�,. ' Medium Static 1112-2190 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure ` deduction tables for lower gas heat capacities. 48FCEA04 THREE PHASE-HIGH STATIC- 3 TON VERTICAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 975 1 1050 1125 ' ' ,;;;.. 1200 1 j; 1275 13)' 1350 1 1425 1;r,, 11 1500 15,4 .:... AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1983 _ < $.0 `2111 ,i,8.5 :5. , 975 2016 8.1 "sr 2143 1.6 " - 1 1050 2051 J 8.2 n. 2177 ''-ligrr 7 ? 1125 2088 11,8.4 sr 2211 8.9 ., 1200 2126 41118.5 ' l 2248 9.0 `. 1275 2165 qiip lir 2285 .2 - 1350 2205 "' 8 9 a 2324 9.3 - - - - 1425 2247 9.0 2364 9.5 , ,4,,iirim s - - - - 1500 2289 9.2... 2405 9.7., - - - - - - High Static 1112-2490 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 44 Carrier 48FCFA05 SINGLE PHASE-4 TON VERTICAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1262 0.21 1452 0.33 1614 0.45 1757 0.58 1888 0.72 1300 1333 0.25 1516 0.37 1674 0.50 1813 0.63 1942 0.78 1400 1405 0.29 1583 0.42 1735 0.55 1872 0.70 1997 0.84 1500 1478 0.34 1650 0.48 1798 0.62 1932 0.76 2)54 0.9,. „, 1600 1552 0.40 1718 0.54 1863 0.68 1993 0.84 f y"" 1700 v 627 0.46 1787 0 60 1928 0.76 v'9,7 0 ;ra. ' 217 7.i.09 1800 1704 0 52 1857 0 68 1995 0.84 1, 2236 1.18 1900 '°1781 0.60 ash a+r 0.93 n' 216 1.10 2299 1.28 2000 1859 0.68 2252 1.21 2363 1.39 ,. AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 0.87 : ' 2236 1.19 2341 1.37 2442 1.55 1300 e• ' 0.93 1'. 2174 1.09 2281 1.26 2384 1.44 - - 1400 2114 1.00 ... 2224 1.17 2329 1.34 2429 1.52 - - 1500 >'r `"4 --4' e4 2277 1.25 2379 1.43 - - 1600 '2226 1.17 2331 1.34 2432 1.52 1700 2284 1.26 2388 1.44 - - - - - - 1800 2344 1.36 2446 1.55 - - - - - - 1900 2405 1.47 - - - - - - 2000 - - - - - - - - Standard Static 1262-1900 RPM,0.72 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. - Medium Static 1262-2170 RPM, 1.06 Max BHP High Static 1262-2460 RPM,1.53 Max BHP 48FCFA05 SINGLE PHASE-STANDARD STATIC- 4 TON VERTICAL SUPPLY (RPM- VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 f2g2 6.6 1452 „6 1614 8.5 1757 9.2 1888 9 1300 1333 7.0 1516 8.0 1674 8.8 1813 9.5 - - 1400 1405 7.4 1583 8.3 1735 9.1 1872 9.9 1500 1478 7.8 1650 8.7 1798 9.5 1600 1552 8.2 1718 9.0 1863 9.8 1700 1627 8.6 1787 9.4 - - - - - 1800 1704 9.0 1857 9.8 - - - - - - 1900 1781 9.4 - - - - - - -2000 1859 9.8 ..i - - - - - -- AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 - - - - - 1300 - - - - 1400 1500 - 1600 - - - - - - - - - - 1700 - - - - - - - - - - 1800 - - - - - - 1900 - - - 2000 - - - - - - - - ®Standard Static 1262-1900 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 45 Fan data (cont) Cca e omhe Teenntlogles 48FCFA05 SINGLE PHASE-MEDIUM STATIC-4 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1300 1333 6.1 1516 7.0 1674 7.7 1813 8.4 1942 8.9 1400 1405 6.5 1583 7.3 1735 8.0 1872 8.6 1997 9.2 1500 1478 6.8 1650 7.6 1798 8.3 1932 8.9 2054 9.5 1600 1552 7.2 1718 7.9 1863 8.6 1993 9.2 2114 9.7 1700 1627 7.5 1787 8.2 1928 8.9 2057 9.5 1800 1704 7.9 1857 8.6 1995 9.2 2121 9.8 1900 1781 8.2 1929 8.9 2063 9.5 - - 2000 1859 8.6 2001, 9.2 2,132 9.8 - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 2011 9.3 2126 :8 . - - - - - - 1300 2061 9.5 - - - 1400 2 1 9.7 1500 as.__ 10.0 - - - - - - 1600 - - - - - - - - - - 1700 - - - - - - - - - - 1800 - - - 1900 - - - - - - - - 2000 - - - - - - - - - - Medium Static 1262-2170 RPM NOTE: Fan tables include highest gas heat, Utilize static pressure deduction tables for lower gas heat capacities. 48FCFA05 SINGLE PHASE-HIGH STATIC-4 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1262 5.1 1452 5.9 1614 6.6 1757 7.1 1888 77 .t 1300 1333 4165.4 1516 6.2 jiiii, 1674 jaii, 6.8 1813 . ." 7.4 1942AriL 7.9 y,' 1400 1405 .7 "r 1583 6.4 ' -1735' 7.1 1872 7.6 1997 � 8.1 , 1500 1478 6.0 1650 6.7 j 1798 7.3 1932 ` 7.9 2054 8.3 ', 1600 1552 jII 6.3 it 1718 7.0 .1 :1863 . 7.6 1993 ain? 8.1 2114 ' 8.6- 1700 1627 111W.6.6 Wk.j_,..1787 7.3 .in 1928 ... 7.8 2057 8.4 2174 l' 8.8 1800 1704 :6.9 ri`1857 7.5 " t 1995, _ 8.1 2121 '1 8.6 2236 9.1 1900 1781 0.7.2 ;. 1929 7.8 l 2063 1: 8.4 2185 8.9 2299 h 9 3 2000 1859 " 7.6 ' 2001 8.1 ' ''.'^` 2132 """ 8.7 2252 " 9.2 2363 9 6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 2011 ..8.2 2126 8.6 2236 9.1 2341 9.5 2442 9.9 1300 2061 j :.8 4 iiik`; 2174 8.8 2281 9.3 2384 9.7 - - 1400 2114 `j 8 6 2224 9.0 2329 9.5 2429 9.9 - - 1500 2169 ir 8.8 2277 9.3 2379 97 - - - - 1600 2226 I.;9 0 'ME e.2331 9.5 2432 9.9 - - - - 1700 2284 '.9 3 r:'2388 9.7 - - - - - - 1800 6. 2344 ,'.9.5 2446 9.9 - - - - - - 1900 P' 2405 g:r79,8 - - - - - - - - 2000 - - - - - High Static 1262-2460 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 46 farrier 48FCFA05 THREE PHASE-4 TON VERTICAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1262 0.21 1453 0.33 1614 0.45 1757 0.58 1888 0.72 1300 1333 0.25 1517 0.37 1674 0.50 1814 0.63 1942 0.78 1400 1405 0.29 1583 0.42 1736 0.56 1872 0.70 1998 0.85 1500 1478 0.34 1650 0.48 1799 0.62 1932 1600 1553 0.40 1718 0.54 1863 0.68 1994. 0.84 l 1700 1628 0.46 1787 0.60 1929 0.76 "" ' -_ �-; t x 2174 1.09 1800 1704 0.52 1858 0.68 1995 0.84 il, il.; 2236 1.18 1900 1781 0.60 1929 0.76 2063 0.93 ' 2186 "'1.10 " 2299 1.28 2000 1859 0.68 2001 0.85 2132 1.02 2252 1.21 2363 139 : AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 g; 2236 1.19 2341 1.37 2442 1 55 %I,; 1300 6eve' o,;'c' 2174 1,09 2281 1.26 2383 1,44 2482 162 )„ 1400 2114 1 00 , 2224 1.17 2329 1.3411ft 2429 1.52 2526 1.71 ' 108 r 2277 1.25 2379 1.43 ;. 2478 1.61 2572 180 1600 .':,2226 if _ a, 2332 1.34 2432 1.52A 2528 1.71 2621 1 91 1700 ".:2284 ' 1.26 2388 1.44 2487 1 63111E 2581 1.82 �. 1800 r2344 lir 1.36 2446 1.55 2543 1.74 2636 1.94 - - 1900 2405 1,47 2505 1.66 2600 1.8 - - 2000 " ' 2467 1.59 2566 1.79 2659 1.99 - - - - Standard Static 1262-1900 RPM,0.72 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. Medium Static 1262-2170 RPM, 1.06 Max BHP High Static 1262-2660 RPM,1.92 Max BHP 48FCFA05 THREE PHASE-STANDARD STATIC-4 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1262 "-6.6 1453 7.6 1614 8.5 1757 9.2 1888 9.9 1300 1333 7.0 1517 8.0 1674 8.8 1814 9.5 1400 1405 7.4 1583 8.3 1736 9.1 1872 9.9 1500 1478 7.8 1650 8.7 1799 9.5 1600 1553 8.2 1718 9.0 1863 9.8 1700 1628 8.6 1787 9.4 - - 1800 1704 9.0 1858 9.8 1900 1781 9.4 2000 1859 9.8 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1300 1400 - - - - - - 1500 - - - - - - - - - - 1600 - - - - - - - - - 1700 - - - - 1800 1900 - - - 2000 - - - - - ' e Standard Static 1262-1900 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure ''-= r -- deduction tables for lower gas heat capacities. 47 Fan data (cont) Carrie 48FCFA05 THREE PHASE-MEDIUM STATIC - 4 TON VERTICAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1262 5.8 1453 6.7 .-:4=�� Y=• "- -, 8.1 - " '1888 8.7 1300 1333 6.1 1517 7.0 1674 7.7 1814 8.4 1942 8.9 1400 1405 6.5 1583 7.3 1736 8.0 1872 8.6 1998 9.2 1500 1478 6.8 1650 7.6 1799 8.3 1932 1600 1553 7.2 1718 7.9 1863 8.6 1994 9 2 :: ,,,, 1700 1628 7.5 1787 8.2 1929 8.9 2057 9.5 - - 1800 1704 7.9 1858 8.6 1995 9.2 2121 9.8 - - 1900 1781 8.2 1929 8.9 2063 9.5 - - - 2000 ,2_1859 ,, 8.6 2001 ££9'2:a. .,2.1.82. .p .8" , - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 - - - - - - 1300 ' aaia .. - - - - 1400 2114 : - - - - -1500 2169 +°x - - - - - - 1600 - - - - 1700 - - - - - 1800 - - - - - - - - 1900 - - - - - - - - 2000 - - - - - - - Medium Static 1262-2170 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heal capacities. 48FCFA05 THREE PHASE - HIGH STATIC-4 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1262 4.7 1453 5.5 161411, 6.1 1757 lir? 6.6 1888 7.1 1300 F 1333 5 0 , 1517 5.7 1674: 6.3 1814'; 6.8 1942 7.3 1400 1405 5 3 1583 6.0 1736 6.5 1872 7.0 1998 7.5 1500 1478 5.6 1650 6.2 1799 6.8 1932iff. 7.3 2055 7.7 1600 : 1553 5.8 1718 6.5 18631 7.0 199411111 7.5 2114 7.9 1700 ". : 1628 6.1 1787 6.7 1929. ;. 7.3 2057 7.7 2174 8.2 1800 1704 6.4 1858 7,0 1995 7.5 2121 r'II 8.0 2236 8.4 1900 1781 6.7 1929 7.3 2063 7.8 2186 ' 8.2 2299 8.6 2000 1859 7.0 2001 7.5 2132 8.0 2252 "7"-'' 8.5 2363 8.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 2011 ; 7.6 2126 8.0 2236 8.4 2341 8.8 2442 9.2 1300 2061 1117.7 2174 8.2 2281 8.6 2383 9.0 2482 9.3 1400 2114 , 97.9 2224 8.4 2329 8.8 2429 9.1 2526 9.5 1500 2169 x 8.2 2277 8.6 2379 8.9 2478 9.3 2572 9.7 1600 2226 :i l8.4 2332 8.8 ;;2432 9.1 2528 9.5 2621 9.9 1700 2284 :8.6 2388 9.0 it 2487 9.3 2581 9.7 - - 1800 2344 3: ,8.8 2446 9.2 "`. 2543 9.6 2636 9.9 - - 1900 2405 ': ^.9.0 2505 9-4 ' 2600 9.8 2000 2467 i 9.3 2566 9.6 2659 10.0 - - - High Static 1262-2660 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48 �Ca rr eer 4,Ung.anchnaInEe 48FCFA06 SINGLE PHASE- 5 TON VERTICAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1478 0.34 1650 0.48 1799 0.62 1932 0.76 2055 0.92 1625 1571 0.41 1735 0.55 1879 0.70 2009 0.86 2129 1.02 1750 1666 0.49 1822 0.64 1962 0.80 2088 0.96 2205 1.13 1875 1761 0.58 1910 0.74 2046 0.91 2169 1.08 2283 1.26 2000 1859 0.68 2001 0.85 2132 1.02 2252 1.21 2363 1.39 2125 1957 0.79 2093 0.97 2218 1.15 2335 1.34 2250 2056 0.92 2185 1.10 2307 1.30 2375 2155 1.06 2279 1.25 - - 2500 2256 1.21 2374 1.41 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2169 1.08 2277 _ 1.43 - - - - 1625 2240 1.19 2345 '; - - - - - 1750 2314 1.31 - - - - 1875 2389 1.44 2000 - - - - 2125 - - - - - - - 2250 - - - - - 2375 - - - - - - - 2500 - NOTE: Fan tables include highest gas heat. Utilize static pressure _Standard Static 1478-2150 RPM, 1.06 Max BHP deduction tables for lower gas heat capacities. MEI Medium Static 1478-2390 RPM, 1.44 Max BHP 48FCFA06 SINGLE PHASE-STANDARD STATIC- 5 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1478 6.9 1650 7.7 "�1799 8.4 1932''" ` "` 9.0 2055 9.6 1625 1571 7.3 1735 8.1 1879 8.7 2009 9.3 2129 9.9 1750 1666 7.7 1822 8.5 1962 9.1 2088 9.7 1875 1761 8.2 1910 8.9 2046 9.5 2000 1859 8.6 2001 9.3 2132 9.9 - - 2125 ;y•x.„7 9.1 2093 9.7 - - - - - - 2250 9.6 - - - - - - - - 2375 - - - - - - - 2500 - - - - - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 - - - - - - - - 1625 - - - - - - - 1750 - - - - - - - - 1875 - - - - - 2000 - - - - - - 2125 - - - - - 2250 - - 2375 - - - - - 2500 - - - - - - - - Standard Static 1478-2150 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 49 Fan data (cont) (Carri �biear.nm�: 48FCFA06 SINGLE PHASE-MEDIUM STATIC - 5 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1478 6:2 1650 "6.9" 1799:- 7.5" l932 8:1 2055"" ' 8.6 1625 1571 6.6 1735 7.3 1879 7.9 2009 8.4 2129 8.9 1750 1666 7.0 1822 7.6 1962 8.2 2088 8.7 2205 9.2 1875 1761 7.4 1910 8.0 2046 8.6 2169 9.1 2283 9.6 2000 1859 7.8 2001 8.4 2132 8.9 2252 9.4 2363 9.9 2125 1957 8.2 2093 8.8 2218 9,3 2335 9.8 -2250 2056 8.6 2185 9.1 2307 9.7 - 2375 2155 9.0 2279 9.5 - 2500 2256 9.4 2374 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2169 9.1 2277 9.5 2379 10.0 - - - - - 1625 2240 9.4 2345 9.8 - - - - - - 1750 2314 9.7 - - - - 1875 2389 10.0 2000 2125 2250 2375 - - - - - - - - 2500 Medium Static 1478-2390 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 50 j 48FCFA06 THREE PHASE-5 TON VERTICAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1478 0.34 1650 0.48 1798 0.62 1932 0.76 2055 0.92 1625 1571 0.41 1735 0.55 1879 0.70 2009 0.86 2129 1.02 1750 1665 0.49 1822 0.64 1962 0.80 2088 0,96 2205 1.13 1875 1762 0.58 1911 0.74 2046 0.91 2169 1.08 1 2 , 2000 1859 0.68 2001 0.85 2132 1.02 2252 1.21 .' $ 2125 1957 0.79 2093 2250 2055 0.92 2185 1.10 ,2 'I, 2420 1.50 2527 1.70 2375 145 2507 1,66 2610 1.88 2500 2256 .d74 2487 1.62 2594 1.84 2695 2.07 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2277 1.25 ''1 2477 1.61 2572 1.80 1625 1.55 2541 1.74 2633 1.93 1750 2314 1.31 2417 1.49 2514 1.68 2608 1.88 2698 2.08 t 1875 --.4 "l° '°'4. 2490 1.63 2586 1.83 2677 2.03 2766 2.24 � 2000 2467.11ff 1.59 2565 1.78 2659 1.99 2749 2.20 2836 2.41 2125 2546 1.74 2643 1.95 2734 2.16 2823 2.38 - - 2250 2627kjiff 1.91 2721 2.13 2812 2.35 - - - - 2375 27081 2.10 2801 2.32 - - - - - - 2500 2791 2.30 - - - - - - - - .,Standard Static 1478-2150 RPM, 1.06 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure IIIIIMIIIIdeduction tables for lower gas heat capacities. Medium Static 1478-2390 RPM, 1.44 Max BHP High Static 1478-2836 RPM,2.43 Max BHP 48FCFA06 THREE PHASE-STANDARD STATIC - 5 TON VERTICAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1478 6.9 1650 " T.7 1798 8.4 1932 9.0 2055 9.6 1625 1571 7.3 1735 8.1 1879 8.7 2009 9.3 2129 9.9 1750 1665 7.7 1822 8.5 1962 9.1 2088 9.7 1875 1762 8.2 1911 8.9 2046 9.5 2000 1859 8.6 2001 9.3 2132 9.9 2125 1957 9.1 2093 9.7 - - - - 2250 2055 9.6 - - - - - - - - 2375 - - - - - - - - 2500 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 - - - - - - - 1625 - - - - - - - 1750 - - - - 1875 - - - - - - - 2000 - - - - - - - - - - 2125 - - - - - - - - - - 2250 - - - - - - - - - - 2375 - - - - - - -2500 Standard Static 1478-2150 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 51 Fan data (cont) (arrie 0 mcrce rzeim.wp® 48FCFA06 THREE PHASE-MEDIUM STATIC-5 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1478 .1 4..,'' 4 '=6.2`-' 1650 ' ,".6.r7” ,,,,,1798 .... ,1:5 .-_, .. -1932.'� , ,,, `8'1 2055' -0.. ..'8.6'i 1625 1571 6.6 1735 7.3 1879 7.9 2009 8.4 2129 8.9 1750 1665 7.0 1822 7.6 1962 8.2 2088 8.7 2205 9.2 1875 1762 7.4 1911 8.0 2046 8.6 2169 9.1 2283 9.6 2000 1859 7.8 2001 8.4 2132 8.9 2252 9.4 2363 9.9 2125 1957 8.2 2093 8.8 2219 9.3 2335 9.8 2250 2055 8.6 2185 9.1 2307 9.7 2375 2156 9.0 2279 9.5 2500 2256 9.4 2374 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2169 9.1 2277 9.5 2379 10.0 - 1625 2240 9.4 2345 9.8 - - - - - - 1750 2314 9.7 - - - - - - 1875 2389 10.0 - 2000 2125 2250 2375 2500 - - - - - - - Medium Static 1478-2390 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCFA06 THREE PHASE-HIGH STATIC- 5 TON VERTICAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1478 ?. 1625 1750 1875 2000 2125 _ .. 2250 2375 2500 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 4 2477 8.7 ,, `.w 1625 7@ 541 9.0 2633 ' 1750 . 9 " , 2608 9.2 2698 '° 1875 9.1 2677 9,4 2766 2000 ' 9.4 2749 9-7 2836 - 2125 't, .; 9.6 2823 10.0 2250 . 7 'r- 2375 2708 - - - - - 2500 2791 `xi' - - - - - - - - High Static 1478-2836 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 52 ,-Carriers tr umtmkcnnomsi., 48FCFM07 THREE PHASE-6 TON VERTICAL SUPPLY(RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 1596 0.43 1749 0.56 18 '144''4' 4 0:7t44,4,ttlb-1.•,+,14)mmuff6`' 2131 1.02 1950 1704 0.52 1847 0.67 1981 0.82 2104 0.98 2217 1.15 2100 1814 0.63 1948 0.78 2075 0.94 2194 1.12 2305 1.29 2250 1924 0.75 2050 0.91 2172 1.08 2286 2400 2037 0.89 2155 1.06 2270 1.24 2381 1.43 ',. 2550 2150 1.05 2261 122 181 2700 2265 1 23 2368 1.40 e r '' 2574 1.$� �7 2.02 '' 2850 237 1.1 'mE r ' '� ' 2576 1.81 2674 2.bb 7� 6 2 24 3000 24• le 2587 1,83 2681 2.04 2775 2.26 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 2239 9 2340 1.35 2436 153 a 2615• 1.89 1950 2323 2 2422 1.50 (2 !.. . .: 2605 �' 1.87 2691 2.06 2100 2408 1.47 - 2505 1.66 2597 , 1.851p 2685 2.04 2770 2.25 - - 2400 2584 1.82 2677 1111 2.03 2766 2.24 - - - - 2550 2674 2.02 2766 t z 2.2A.,,-'1 - - - - - - 2700 2766 2.24 - - - - - - - - 2850 - - - - - - - - - - 3000 - - - - - - - - - - Standard Static 1596-2300 RPM,1.31 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. -Medium Static 1596-2530 RPM,1.76 Max BHP High Static 1596-2836 RPM,2.43 Max BHP 48FCFM07 THREE PHASE-STANDARD STATIC- 6 TON VERTICAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1596 6.9 1749 7.6 1889 8.2 2015 8.8 2131 9.3 1950 1704 7.4 1847 8.0 1981 8.6 2104 9.1 2217 9.6 2100 =1814 7.9 1948 8.5 2075 9.0 2194 9.5 2250 1925 8.4 2050 8.9 2172 9.4 2286 9.9 2400 2037 8.9 2154 9.4 2270 9.9 - 2550 2150 9.3 2261 9.8 - - - - - - 2700 2265 9.8 - - - - - - - - 2850 - - - - 3000 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2239 9.7 - - - - - - - - 1950 - - - - - - 2100 2250 2400 - - - 2550 - - - - - - - - - - 2700 - 2850 - - - - - 3000 Standard Static 1596-2300 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 53 Fan data (cont) Carrier 48FCFM07 THREE PHASE -MEDIUM STATIC-6 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1596 6.3 1749 6.9 1889 7.5 2015 8.0 2131 8.4 1950 1704 6.7 1847 7.3 1981 7.8 2104 8.3 2217 8.8 2100 1814 72 1948 7.7 2075 8.2 2194 8.7 2305 9.1 2250 1925 7.6 2050 8.1 2172 8.6 2286 9.0 2394 9.5 2400 2037 8.1 2154 8.5 2270 9.0 2381 9.4 2485 9.8 2550 2150 8.5 2261 8.9 2370i 9.4 ..? ,; ., 9.8 - - 2700 2265 9.0 2368 9.4 247 9.8 - - 2850 2379 9.4 2477 n - 3000 2495 9.9 - - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2239 8.8 2340 9.2 243;, - - 1950 sw 2323 9.2 2422 % ",.6 ... r',�r. - - - - 2100 ', 2408 9.5 2505 - 2250 a�r< 9 9 - - - - - - 2400 - - - - - - - - - 2550 - - - - - - - - - - 2700 - - - - - 2850 - - - - 3000 - - Medium Static 1596-2530 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCFM07 THREE PHASE-HIGH STATIC-6 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1596 1111.5.6 1749 6.2 1889 6.7 2015 7.1 2131 7.5 1950 1704 it6.0 .. 1847 6.5 imit; 1981 7.0 2104 7.4 2217 7.8 2100 1814 F rill '111 1948 6.9 Iff 2075 7.3 2194 7.7 2305 8.1 2250 1925 'fit 6.8 jig 2050 7.2 if„2172 7.7 2286 8.1 2394 8.4 2400 2037 iff 7.2 1111__ 2154 7.6 2270 8.0 2381 8.4 2485 8.8 2550 2150 I..7.6 . 2261 8.0 2370 8.4 2477 , 8.7 2578 9.1 2700 2265 .8 0 ' 2368 8.3 2472 8.7 2574; 9.1 2672 9.4 '2850 2379 A 3 8 4 ' 2477 - 8.7 1111 2576 9.1 2674` ti 9.4 2768 9.8 3000 2495 8.8 2587 ' 9.1 ' ' 2681 9.5 2775 '''.4 9.8 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2239 :7.9 2340 8.3 2436 8.6 2527 8.9 2615 9.2 1950 2323 Ili 8.2 2422 8.5 2516 8.9 2605 9.2 2691 9.5 2100 2408 8.5 2505 8.8 2597 9.2 2685 9.5 2770 9.8 2250 2495 - 111 8.8 2590 9.1 2681 9.5 2767 9.8 - - 2400 2584 ,1is 9.1 2677 9.4 2766 9.8 - - - - 2550 2674 [;9.4 2766 9.8 - - - - - - 2700 2766 ;' ry 9.8 - - - - - - - - 2850 - - - - - - - 3000 - - - High Static 1596-2836 RPM NOTE: Fan tables include highest gas heal. Utilize static pressure deduction tables for lower gas heal capacities. 54 h 48FCEA04 SINGLE PHASE- 3 TON HORIZONTAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 079 0.09- `"' ' 1315 0.16 1510 0.24 ' -1`679 0.33 1830 0.43 975 1126 0.10 1355 0.17 1546 0.26 1713 0.35 1863 0.45 1050 1175 0.11 1396 0.19 1584 0.28 1749 0.37 1897 0.48 1125 1226 0.13 1438 0.21 1622 0.30 1785 0.40 1932 0.50 1200 1278 0.15 1482 0.23 1662 0.32 1822 0.42 1968 0.53 1275 1331 0.16 1528 0.25 1703 0.34 1861 0.45 2004 0.56 1350 1386 0.19 1575 0.27 1746 0.37 1900 0.48 2042 0.59 1425 1441 0.21 1623 0.30 1789 0.40 1500 1498. 0.23 1672 0.33 1834 0.43 1982 f .,6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1968 p 2096 0.:1 2215 0.76 2328 0.88 2434 1.00 975 2000 u -s..«,o • 2 .;,,,As: 2246 0.79 2358 0.91 2464 1.04 1050 2033 0.59 2277 0.82 2389 0.95 - - 1125 2067 0.61 2192 `: 0.73 2309 0.86 2420 0.99 - - 1200 2101 0.65 25` ' 0.77 2342 0.89 2452 1.03 - - 1275 2136 0.68 , ' 2260Ir; 'a 0.80 2376 0.93 2485 1.07 - - 1350 -� '1 2295 .u;:.0.84 2410 • 0.97 - - 1425 22091111 0.75 2330 0.88 2445 1 ''. 1.02 - - - - 1500 t 2247 ., 0.79 2367 0.92 2480 '- . 1,06 - - - - Standard Static 1079-1890 RPM,0.44 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. Medium Static 1079-2190 RPM,0.71 Max BHP High Static 1079-2490 RPM,1.07 Max BHP 48FCEA04 SINGLE PHASE-STANDARD STATIC-3 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1079 57 1315 7.0 1510 11t1Ir 8.0 ,679 8.9 1830 9.7 975 1126 6.0 1355 7.2 1546 8.2 1713 9.1 1050 1175 6.2 1396 7.4 1584 8.4 1749 9.3 1125 1226 6.5 1438 7.6 1622 8.6 1785 9.4 1200 1278 6.8 1482 7.8 1662 8.8 1822 9.6 1275 1331 7.0 1528 8.1 1703 9.0 1350 " 1386 7.3 1575 8.3 1746 9.2 - - - 1425 ,..-"'.1441 7.6 1623 8.6 1789 9.5 - - - 1500 1498 7.9 1672 8.8 1834 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - - - - - - 975 - - - - -- - - - - 1050 - - - - - - - - 1125 - - - - - - - - 1200 - - - - - - - 1275 - - - 1350 - - 1425 - - - 1500 - - - - Standard Static 1079-1890 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 55 Fan data (cont) caYr`er 4 Iloilo"tbomeiw 48FCEA04 SINGLE PHASE-MEDIUM STATIC -3 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 h._... . ' , 1315 6.0 „,,, .>, ,1'5fd '6 ''''-"`1679"""'' :'77 1830 8.4 975 1126 5.1 1355 6.2 1546 7.1 1713 7.8 1863 8.5 1050 1175 5.4 1396 6.4 1584 7.2 1749 8.0 1897 8.7 1125 1226 5.6 1438 6.6 1622 7.4 1785 8.2 1932 8.8 1200 1278 5.8 1482 6.8 1662 7.6 1822 8.3 1968 9.0 1275 1331 6.1 1528 7.0 1703 7.8 1861 8.5 2004 9.2 1350 1386 6.3 1575 7.2 1746 8.0 1900 8.7 2042 9.3 1425 1441 6.6 1623 7.4 1789 8.2 1941 8.9 2080 9.5 1500 1498 6.8 1672 7.6 1834 8.4 1982 9.1 2119 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1968 9.0 2096 9.6 975 iiiL 2000 9.1 2127 9.7 - - - - - 1050 F.'" 2033 9.3 2159 9.9 - - - - - - 1125 2067 9.4 - - - - - - - 1200 2101 9.6 - - - - - - - 1275 ' :t 2136 9.8 - - - - - - - 1350 . 4.... 9.9 - - - - - - - 1425 - - - - - - - 1500 - - - - Medium Static 1079-2190 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCEA04 SINGLE PHASE-HIGH STATIC-3 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1079 4.3 1315 5.3 151011" 61 1679 6.7 1830 7.3 975 1126 4 5 jilk 1355 5.4 Ilt 1546E=,it 6.2 1713 6.9 1863 7.5 1050 1175 4.7 iii 1396 5.6 lit 1584 6.4 Et1749 7.0 1897 7.6 1125 12 m26 ; `;:4.9 1438 5 8 111622. 6.5 1111785 7.2 1932 7.8 1200 1278 ria.51 ''" 1482 6.0 1662,t;. 6.7 si1822 7.3 1968 7.9 1275 1331 V 5.3 1528 6.1 111 17031111 6.8 ,' 1861 7.5 2004 8.0 1350 1386 sig5.6 1la 1575 6.3 174611 7.0 1111900 7.6 2042 8.2 1425 1441 ip 58 irt 1623 6.5 1789u 7.2 ag1941 7.8 2080 8.4 1500 1498 " 6.0 1672 6.7 1834 ' 1982 8.0 2119 8.5 AVAILABLE EXTERNAL STATIC PRESSURE(In.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1968 7.9 111` 2096 8.4 2215 8.9 2328 9.3 2434 9.8 975 2000 8.0 Or 2127 8.5 si 2246 9.0 a2358 9.5 2464 9.9 1050 2033 8.2 3111ci 2159 8.7 ME 2277 91 112389 9.6 - - 1125 2067 8.3 II 2192 8.8 `2309 9.3 iii 2420 9.7 - - 1200 2101 8.4 Iff.." 2225 8.9 `2342 9.4 2452 9.8 - - 1275 2136 8.6 ir 2260 9.1 s,2376 9.5 1.12485 10.0 - - 1350 2172 8.7 7ir. 2295 9.2 2410 9.7 - - 1425 2209 8.9 2330 9.4 2445 9.8 - - 1500 2247 9.0 2367 9.5 2480 10.0 - - -High Static 1079-2490 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 56 �rrier i` UlnledrWnalagltl 48FCEA04 THREE PHASE- 3 TON HORIZONTAL SUPPLY (RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in,wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1079 0.09 1315 0.16 1510 ''''"0.24 1679 0.33 1830 0.43 975 1126 0.10 1355 0.17 1546 0.26 1713 0.35 1863 0.45 1050 1175 0.11 1396 0.19 1584 0.28 1749 0.37 1897 0.48 1125 1226 0.13 1438 0.21 1622 0.30 1785 0.40 1932 0.50 1200 1278 0.15 1482 0.23 1662 0.32 1822 0.42 1968 0.53 1275 1331 0.16 1528 0.25 1703 0.34 1861 0.45 2004 0.56 1350 1386 0.19 1575 0.27 1746 0.37 1900 0.48 2042 0.59 1425 1441 0.21 1623 0.30 1789 0.40 1941 0.51 2080 0.63 1500 1498 0.23 1672 0.33 1834 0.43 19,82 0.54 2119 0.66 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1968 0.53 2096 0.64 ''`" 2215 i 0.76 2328 0.88 2434 1.00 975 2000 0.56 2127 0.67 r 2246 0.79 2358 0.91 2464 1.04 1050 2033 0.59 2159 0.70 2277 ' 0.82 2389 0.95 - - 1125 2067 0.61 ,N• 2192 `' 0.73 ` 2309 iv 0.86 2420 0.99 - - 1200 2101 0 65,,E 2225 0.77 2342 0.89 2452 1.03 - - 1275 2136 0 v" 2260x AIL0.80 2376 =tIIIi0.93 2485 1.07 - - 1350 y,.2172 °FF' 2295` s 0.84 2410 ill 0.97 - - 1425 2.2cair0.75 23301 0,88 2445 1.02 - - 1500 2247 0.79 2367 "Pir 0.92 2480 n1 1.06 - - „ Standard Static 1079-1890 RPM,0.44 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. Medium Static 1079-2190 RPM,0.71 Max BHP High Static 1079-2490 RPM,1.07 Max BHP 48FCEA04 THREE PHASE-STANDARD STATIC- 3 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1079 5.7 1315 7.0 1510 8.0 1679 8.9 l y;.,. ' 975 1126 6.0 1355 7.2 1546 8.2 1713 9.1 - - 1050 1175 6.2 1396 7.4 1584 8.4 1749 9.3 - - 1125 1226 6.5 1438 7.6 1622 8.6 1785 9.4 1200 1278 6.8 1482 7.8 1662 8.8 1822 9.6 1275 1331 7.0 1528 8.1 1703 9.0 - 1350 1386 7.3 1575 8.3 1746 9.2 - - - 1425 1441 7.6 1623 8.6 1789 9.5 - - - - 1500 1498 7.9 1672 8.8 1834 9.7 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - - - - - - - 975 - - - - - - 1050 - - - 1125 - - - - 1200 - - - - - - - - - - 1275 - - - - 1350 - - - - - 1425 - - - - - 1500 - - - - - - Standard Static 1079-1890 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 57 Fan data (cont) (Carrier Go.mauom.* 48FCEA04 THREE PHASE-MEDIUM STATIC-3 TON HORIZONTAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 >`-107 ..-. .,, ,:..#' ?'rcf3`y`5" ..x T5..w-.,. "r,Kf3f0- 5.9 '-'1679'-- -' -k/PA-r"' 1630 8.4 975 1126 5.1 1355 6.2 1546 7.1 1713 7.8 1863 8.5 1050 1175 5.4 1396 6.4 1584 7.2 1749 8.0 1897 8.7 1125 1226 5.6 1438 6.6 1622 7.4 1785 8.2 1932 8.8 1200 1278 5.8 1482 6.8 1662 7.6 1822 8.3 1968 9.0 1275 1331 6.1 1528 7.0 1703 7.8 1861 8.5 2004 9.2 1350 1386 6.3 1575 7.2 1746 8.0 1900 8.7 2042 9,3 1425 1441 6.6 1623 7.4 1789 8.2 1941 8.9 2080 9.5 1500 1498 6.8 ,,, 1672 7.6 1834 8.4 1982 9.1 2119. , 9,7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1968 . t - - - - - 975 2000 9. � "� - - - - - 1050 2033 9.3 ,215.9 9.9 - - - - - - 1125 2067 9.4 - - - - 1200 2101 9.6 - - 1275 2136 9.8 - 1350 .,s.n-... . .,..., ,} - - - - 1425 - - - - - - - - - 1500 - - - - - Medium Static 1079-2190 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCEA04 THREE PHASE-HIGH STATIC-3 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(In.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 tti 1079 4.3 (lit 1315 5.3 1510 6.1 1679 6.7 1830 7.3 975 11`' 1126 4.5 1355 5.4 1546 _ 6.2 1713 6.9 1863 „7.5 1050 ,( 1175 1 4.7 it 1396 5.6 1584 6.4 1749 7.0 1897 <7.6 1125 f, 1226 1.4.9 INF 1438 5.8 Alit,-1622111r" 6.5 11161785 ithi 7.2 1932 :r r 7.8 1200 1278 Mr5.1 ',EF 1482 6.0 11116621M 6.7 'II .822 F; 7.3 1968 7.9 1275 1331 5.3 1528 6 1 ; �1703 6.8 t�1861 7.5 2004 ? 8.0 1350 t 1386 " ' 5.6 r 1575 63 1746 ;..'. 7.0 '1900 •.;, 7.6 2042 ce 8.2 1425 ' 1441 5.8 tar. 1623 1623 6.5 1789 MP 7.2 1941 7.8 2080 a"8.4 1500 1498 6.0 Jr1672 6.7 ly' 1834 ' 7.4 1982 - '" 8.0 2119 8.5 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1968 ?1117.9 2096 8.4 2215 8.9 2328 9.3 2434 9.8 975 2000 "Mg 8.0 : 2127 8.5 2246 9.0 2358 9.5 2464 9.9 1050 2033 111 8.2 2159 8.7 2277 9.1 2389 9.6 - - 1125 2067 8 3 111,`2192 8.8 2309 9.3 2420 9.7 - - 1200 2101 41118.4 al 2225 8.9 2342 9.4 2452 9.8 - - 1275 2136 '86 ' 2260 9.1 2376 9.5 2485 10.0 - - 1350 2172 8.7 2295 9.2 2410 9.7 1425 2209 8.9 2330 9.4 2445 9.8 - - - - 1500 2247 9.0 2367 9.5 2480 10.0 - - - - High Static 1079-2490 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 58 Carrier 48FCFA05 SINGLE PHASE-4 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1217 0.19 1411 0.30 1576 0.42 '1722 0.55 1855 0.68 1300 1283 0.23 1470 0.34 1631 0.46 1774 0.60 1904 0.74 1400 1351 0.26 1531 0.38 1688 0.51 1827 0.65 1955 0.80 1500 1420 0.31 1593 0.43 1746 0.57 1883 0.71 2008 0.86 1600 1491 0.35 1657 0.48 1805 0.63 1939 0.78 2062 0.93 1700 1563 0.41 1722 0.54 1866 0.69 1997 1800 1635 0.46 1789 0.61 1928 0.76 2056 0.92 `:.2174 1.09 1900 1709 0.53 1856 0.68 1991 0 84,,,="»•"` �=� # ' .�" ".`_.."'+ '_' 2232 1.18 2000 1784 0.60 1925 0.76 2056 0.94*.. 2178 1.10 2291 1.28 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1979 0.83 2204 1.15 2308 1.32 2409 1.50 1300 2025 0.89 2246 1.21 2349 1.39 2447 1.57 1400 2074 0.95 2185 1.11 2291 1.28 2391 1.46 - - 1500 '' 2234 v 1.19 2338 1.36 2436 1.54 - - 1600 :2176 t ' 1.10 2284 11.27 2386 1.45 - - - 1700 2230 1.18 2336' 1.36 2436 1.54 - - 1800 ` 2285 ,. 1.27 2389 „r" 1.45 1900 ,2341 1.36 2444 1.55 - - - - - 2000 , "''2398 1.46 - - - - - - - s�''. Standard Static 1217-1990 RPM,0.72 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. r. ,1 Medium Static 1217-2170 RPM, 1.06 Max BHP High Static 1217-2460 RPM.. 1.53 Max BHP 48FCFA05 SINGLE PHASE- STANDARD STATIC -4 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1217 6.4 1411 7.4 1576 8.3 1722 9.1 1855 9.8 1300 1283 6.8 1470 7.7 1631 8.6 1774 9.3 1400 1351 7.1 1531 8.1 1688 8.9 1827 9.6 1500 1420 7.5 1593 8.4 1746 9.2 1883 9.9 1600 1491 7.8 1657 8.7 1805 9.5 1700 1563 8.2 1722 9.1 1866 9.8 - 1800 1635 8.6 1789 9.4 - - 1900 1709 9.0 1856 9.8 2000 1784 9.4 - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 - - - 1300 - - 1400 - - - - - - - - 1500 - - - - - - - 1600 - - - - - - - 1700 - - - - 1800 - - - - - 1900 - - - - - - - 2000 - - - - - - - ' Standard Static 1217-1990 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure F l deduction tables for lower gas heat capacities. 59 Fan data (cont) carrier 48FCFA05 SINGLE PHASE-MEDIUM STATIC-4 TON HORIZONTAL SUPPLY (RPM- VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1300 1283 5.9 1470 6.8 1631 7.5 1774 8.2 1904 8.8 1400 1351 6.2 1531 7.1 1688 7.8 1827 8.4 1955 9.0 1500 1420 6.5 1593 7.3 1746 8.0 1883 8.7 2008 9.3 1600 1491 6.9 1657 7.6 1805 8.3 1939 8.9 2062 9.5 1700 1563 7.2 1722 7.9 1866 8.6 1997 9.2 y;A118 9.8 1800 1635 7.5 1789 8.2 1928 8.9 2056 9.5 1900 1709 9.2 2 9.8E - - 2000 1784 8 2 19 055 t 9.5 - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 F. 19 . 1 2094 _) - - - - - - 1300 = 20 ' 9.3 2138 - - - - - - 1400 2074 9.6,,,„, , - - - - - 1500 2124 - - - - - - - 1600 - - - - - - - - - 1700 - - - - - - - 1800 - - - - 1900 - - - - - - - 2000 - - - - Medium Static 1217-2170 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCFA05 SINGLE PHASE-HIGH STATIC -4 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1217 4.9 ' a`.1411 5.7 at,1576 6.4 1722 7.0 1855 7.5 1300 1283 Ak.,5.2 ill;: 1470 6.0 1631 6.6 1774 7.2 1904 7.7 1400 1351 lig 5.5 1531 6.2 III1688 6.9 1827 7.4 1955 7.9 1500 1420 1111 5.8 , 's 1593 6.5 1746 7.1 `t.1883 7.7 2008 8.2 1600 1491 .111'8.1 ;it'.1657 6.7 i 1805 7.3 Mr'1939 7.9 2062 8.4 1700 1563 1111i6.4 . 1722 7.0 " „�:1866 7.6 1997 8.1 2118 8.6 1800 1635 "in6.6 ,- 1789 7.3 .p `1928 7.8 2056 8.4 2174 8.8 1900 1709 .6.9 � 1856 7 5 oir 1991 8.1 2116 8.6 2232 9.1 2000 1784 ''"' 7.3 -1- 1925 7.8 7 2056 8.4 2178 8.9 2291 9.3 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1979 1118.0 2094 8.5 2204 9.0 2308 9.4 2409 9.8 1300 2025 gitR8.2 2138 8.7 2246 9.1 2349 9.5 2447 9.9 1400 2074 at 8.4 2185 8.9 2291 9.3 2391 9.7 - - 1500 2124 fp?8.6 2234 9.1 2338 9.5 2436 9.9 - - 1600 2176 8.8 2284 9.3 2386 9.7 - - - - 1700 2230 9.1 2336 9.5 2436 9.9 - - - - 1800 2285 9.3 2389 9.7 - - - - - - 1900 2341 9.5 2444 9.9 - - 2000 2398 9.7 - - - - - - - - ®High Static 1217-2460 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 60 rearriej 48FCFA05 THREE PHASE-4 TON HORIZONTAL SUPPLY(RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1216 0.19 1411 " 0.30 1576 0.42 1722 0.55 1855 0.68 1300 1282 0.23 1470 0.34 1631 0.46 1773 0.60 1904 0.74 1400 1351 0.26 1531 0.38 1688 0.51 1827 0.65 1955 0.80 1500 1420 0.31 1593 0.43 1746 0.57 1882 0.71 2008 0.86 1600 1491 0.35 1657 0.48 1806 0.63 1940 0.78 2062 0.93 1700 1563 0.41 1722 0.54 1866 0.69 1997 1800 1636 0.47 1788 0.61 1928 0.76 2056 0.92 ti? 2175 1.09 s.° 1900 1710 0.53 1856 0.68 1991 z, t° =fks�.-2o-satfi: vt4ri taer, 2233 1.18 ' 2000 1784 0.60 1924 0.76 2055 „a a 2178 1.10 2292 1.28 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1978 i' 2204 1.15 2308 1.32 2409 1.50 1300 = 2246 1.21 2349 1.39 2447 1.57 1400 2073 0.95 2185 Ask 1.11 2291 lill 1.28 2392 1.46 2488 1.64 1500 - '; 2233 nu 1.19 2337 1.36 2437 1.54 2532 1.73 1600 ,, 21767 1.10 2284 ' 1.27 2386 <t1.45 2483 1.63 2577 1.82 1700 223011F °1.18 2336 1,36 2436 IMF 1.54 2532 1.73 2624 1.92 1800 228 1 1.27 2389M. 1.45 2488 `at 1.64 2582 1.83 - - 1900 2341 1.36 2443 11.55 2541 51.74 2634 1.94 - - 2000 2399 1.46 2499 ' `' 1.66 2595 '-1.85 - - - - Standard Static 1216-1900 RPM,0.72 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure m-- deduction tables for lower gas heat capacities. Medium Static 1216-2170 RPM, 1.06 Max BHP High Static 1216-2660 RPM,1.96 Max BHP 48FCFA05 THREE PHASE-STANDARD STATIC-4 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1216 6.4 1411 7.4 1576 8.3 1722 9.1 1855 9.8 1300 1282 6.7 1470 7.7 1631 8.6 1773 9.3 1400 1351 7.1 1531 8.1 1688 8.9 1827 9.6 1500 1420 7.5 1593 8.4 1746 9.2 1882 9.9 -- 1600 1491 7.8 1657 8.7 1806 9.5 1700 1563 8.2 1722 9.1 1866 9.8 1800 1636 8.6 1788 9.4 - 1900 1710 9.0 1856 9.8 - - - 2000 1784 9.4 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 - - - - - - - - - - 1300 1400 - - - - - 1500 - 1600 - - - - - 1700 - - - - 1800 1900 2000 ' Standard Static 1216-1900 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure -- *� - deduction tables for lower gas heat capacities. 61 Fan data (cont) ('r`) 48FCFA05 THREE PHASE-MEDIUM STATIC -4 TON HORIZONTAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1216 5.6 1411 1300 1282 5.9 1470 6.8 1631 7.5 1773 8.2 1904 8.8 1400 1351 6.2 1531 7.1 1688 7.8 1827 8.4 1955 9.0 1500 1420 6.5 1593 7.3 1746 8.0 1882 8.7 2008 9.3 1600 1491 6.9 1657 7.6 1806 8.3 1940 8.9 2062 9.5 1700 1563 7.2 1722 7.9 1866 8.6 1997 9.2 2118 9.8 1800 1636 7.5 1788 8.2 1928 8.9 2056 9.5 1900 1710 7.9 1856 8.6 1991 9.2 2116 9.8 - 2000 1784 8.2 1924 8.9 2055 9.5 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1978 Ti. - - - 1300 2025 ^-r - 1400 202 9 Q 1� - - - - - - 1500 .v.:» , -j`s' ' ,'r' - - - 1600 - - - - - - - - - - 1700 - - - - - - 1800 - - 1900 - - - - - - - - - - 2000 Medium Static 1216-2170 RPM, NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCFA05 THREE PHASE-HIGH STATIC-4 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(In.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1216 Ai 4.6 I, `:" 1411 5.3 1576 5.9 1111722 6.5 1855 7.0 1300 1282 elaih4.8 mg 1470 Spy ,,.1631 6.1 1111773 6.7 1904 7.2 1400 1351 e111 5.1 111 1531 !1688 6.3 1111827 6.9 1955 7.3 1500 1420 .11 5.3 `. 1593 6.0"'a '1746 6.6 1882 7.1 2008 7.5 1600 1491 5.6 -r 1657 6.2 1806 6.8 ' 940 7.3 2062 7.8 1700 1563 ;,is 5.9 1722 6.5 . 186 ` 7.0 11997 7.5 2118 8.0 1800 1636 "' `" 6.2 1788 6.7 192 7.2 '11"2056 7.7 2175 8.2 1900 1710 6.4 1856 7.0 gr 199 imp7.5 2116 8.0 2233 8.4 2000 1784 6.7 1924 7.2 '7". 2055 - 7.7 2178 8.2 2292 8.6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1978 7.4 2094 7.9i2204 8.3 2308 8.7 2409 9.1 1300 2025 7.6 2139 8.0 1.2246 8.4 2349 8.8 2447 9.2 1400 2073 7.8 2185 8.2 .:2291 8.6 2392 9.0 2488 9.4 1500 2124 8.0 2233 8.4 11F<'2337 8.8 2437 9.2 2532 9.5 1600 2176 8.2 2284 8.6 2386 9.0 2483 9.3 2577 9.7 1700 2230 8.4 2336 8.8 2436 9.2 2532 9.5 2624 9.9 1800 2285 8.6 2389 9.0 2488 9.4 2582 9.7 1900 2341 8.8 2443 9.2 2541 9.6 2634 9.9 2000 2399 9.0 2499 9.4 2595 9.8 - - - - High Static 1216-2660 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 62 Carrier 48FCFAO6 SINGLE PHASE-5 TON HORIZONTAL SUPPLY(RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1420 0.31 1593 0.43 1746 0.57 1883 0.71 2008 0.86 1625 1509 0.37 1673 0.50 1820 0.64 1954 0.79 2076 0.95 1750 1599 0.43 1755 0.57 1897 0.73 2026 0.88 2146 1.05 1875 1691 0.51 1839 0.66 1975 0.82 2101 0.98 2218 1.16 2000 1784 0.60 1925 0.76 2056 0.92 2178 1.10 2291 1.28 2125 1878 0.70 2011 0.86 2138 1.04 2255 1.22 2367 1.41 2250 71974 0.81 2100 0.98 2221 1.16 2335 1.35 2375 �tn',a S}.,mx,{wm 9 s-,' 1"`" 189 ear ' 't,='fir. a ,�.;-5•;O5 - 2500 1'80, - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2124 1.02 2234 1.19 - - - - 1625 2190 1.12 2297 1.29 - - - - - - 1750 2257 1.22 2362 1.40 - 1875 2327 1.34 - - - - - 2000 - 2125 - - - - - - - 2250 - - - - 2375 - - - - - - - - 2500 - - - - NOTE Fan tables include highest gas heat. Utilize static pressure "" w Standard Static 1420-2150 RPM,1.06 Max BHP deduction tables for lower gas heat capacities. Medium Static 1420-2390 RPM,1.44 Max BHP 48FCFA06 SINGLE PHASE-STANDARD STATIC-5 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1420 6.6 1593 7.4 1746 8.1 1883 8.8 2008 9.3 1625 1509 7.0 1673 7.8 1820 8.5 1954 9.1 2076 9.7 1750 1599 7.4 1755 8.2 1897 8.8 2026 9.4 2146 10.0 1875 1691 7.9 1839 8.6 1975 9.2 2101 9.8 2000 1784 8.3 1925 9.0 2056 9.6 2125 1878 8.7 2011 9.4 2138 9.9 - 2250 1974 9.2 2100 9.8 - 2375 2070 9.6 - - - - - - - 2500 - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2124 9.9 - - - - - - - - 1625 - - - - - - - - - - 1750 - 1875 - 2000 - - - - - - - - 2125 - - - - - - - - 2250 - - - - - - - 2375 - - - 2500 - - - - - - - - - - Standard Static 1420-2150 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 63 Fan data (cont) �Carrl� C 48FCFA06 SINGLE PHASE-MEDIUM STATIC- 5 TON HORIZONTAL SUPPLY (RPM- VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 ' 40 570- SW' J- ,1,413 7`-':; «, v. „ , v ' .x j x ';''"'-'`19- " ,, 8 , ,, . .. 1625 1509 6.3 1673 7.0 1820 7.6 1954 8.2 2076 87 1750 1599 6.7 1755 7.3 1897 7.9 2026 8.5 2146 9.0 1875 1691 7.1 1839 7.7 1975 8.3 2101 8.8 2218 9.3 2000 1784 7.5 1925 8.1 2056 8.6 2178 9.1 2291 9,6 2125 1878 7.9 2011 8.4 2138 8.9 ;;;; 9.4 2367 9,9 2250 1974 8.3 2100 8.8 2221 9.3i t.9.8 2375 2070 8.7 218 - 2500 2166 9.1 228tk +''- - - - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1` , 1625 b 8.7 , - - - - 1750 �2257 94 � �� 236y t. - - 1875 2327 9.7 - - - - - 2000 - - - - - - 2125 - - - - - - - - 2250 - - - - - 2375 - - - - 2500 - - - - - - - - :,u Medium Static 1420-2390 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 64 Carrie 48FCFA06 THREE PHASE-5 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1420 0.31 1593 0.43 1746 0.57 "` 1883 0.71 2008 ' 0.86 1625 1509 0.37 1673 0.50 1820 0.64 1954 0.79 2076 0.95 1750 1599 0.43 1755 0.57 1897 0.73 2026 0.88 2146 1.05 1875 1691 0.51 1839 0.66 1976 0.82 2102 0.99 2218 1.16 2000 1784 0.60 1924 0.76 2056 0.92 2178 1.10 2291 1.28 2125 1879 0.70 2011 0.86 2137 1.03 2256 1.22 2367 1.41 2250 1974 0.81 2099 0.98 2221 1.16 2335 1.35 2375 2070 0.94 2189 1.11 2305 1.30 2500 2166 1.08 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2124 1.0-)='; 2436 1.54 2532 1.73 1625 2190 1.12- ` .a _% . ;' ;t 2398 1.47 2495 1.65 2589 1.85 1750 . _.2257 jy 122 2362. Y., 1..4g .,x," 2462 1.59 2557 1.78 2648 1.97 1875 " -`•'•' ""`'' '"�� ' 2430"` 1:5 " 2528 1.72 2621 1.91 2710 2.11 2000 2398 1.46 2499 1.66 2595 1.85 2687 2.06 2775 2.27 2125 2471 1.60 2570 1.80 2665 2.01 2755 2.22 2250 2546 1.75 2643 1.96 2735 2.17 2824 2.39 2375 2622 1.91 2717 2.12 2807 2.34 - - - - 2500 2699 2.08 2792 2.30 - - - - Standard Static 1420-2150 RPM, 1.06 Max BHP NOTE: Fan tables include highest gas heat. Utilize static pressure ' ' �•` deduction tables for lower gas heat capacities. Medium Static 1420-2390 RPM, 1,44 Max BHP High Static 1420-2836 RPM,2.43 Max BHP 48FCFA06 THREE PHASE-STANDARD STATIC-5 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1420 6.6 1593 7.4 1746 8.1 1883 8.8 2008 9.3 1625 1509 7.0 1673 7.8 1820 8.5 1954 9.1 2076 9.7 1750 1599 7.4 1755 8.2 1897 8.8 2026 9.4 2146 10.0 1875 1691 7.9 1839 8.6 1976 9.2 2102 9.8 - - 2000 1784 8.3 1924 8.9 2056 9.6 2125 1878 8.7 2011 9.4 2137 9.9 2250 1974 9.2 2099 9.8 2375 2070 9.6 - - - - - 2500 - - - - - - - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 ,,,,i 2124 9.9 „g' - - - - - - - - 1625 - - - - - - - - - - 1750 1875 - - - - - - - - - - 2000 2125 2250 - - - - - - - - - - 2375 - - - - - - - - - - 2500 - - - ,t714Till Standard Static 1420-2150 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 65 Fan data (cont) .Carrie �,uueuteamaisu�es 48FCFA06 THREE PHASE-MEDIUM STATIC-5 TON HORIZONTAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 % i`r'42b w..,-',.� 5:9--" ' 1593 .,::' 6:7 '-'' .--YT46 .--„`„a,u7.3.'' 1883 7.9 2008 8.4 1625 1509 6.3 1673 7.0 1820 7.6 1954 8.2 2076 8.7 1750 1599 6.7 1755 7.3 1897 7.9 2026 8.5 2146 9.0 1875 1691 7.1 1839 7.7 1976 8.3 2102 8.8 2218 9.3 2000 � 1784 7.5 1924 8.1 2056 8.6 2178 9.1 2291 9.6 2125 ; 1878 7.9 2011 8.4 2137 8.9 .."r, 256 =4 2367 9.9, 2250 , 1974 8.3 2099 8.8 2221 9.3 4. 4335 - 2375 .' 2070 87 . ' "= 2189 9.2 2305 '"_," - - - - 2500 . 2166 9.1: 2280„„; , 9.5 - - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2124 8.9 2 3. 4:3 sy 1625 2190 9.2 229 `-;�-xa ?•.6 - -1750 2257 9.4 2362 99 - - - - - 1875 7 9.7 - - - 2000 - -- - 2125 - -----2250 - 2375 - - - - - - - - - 2500 - - - - - Medium Static 1420-2390 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 48FCFA06 THREE PHASE- HIGH STATIC-5 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1420 ill'5.0 1593 5.6 1746 6.2 1883 6.6 2008 7.1 1625 1509 ," '5.3 1673 59 1820 6.4 1954 6.9 2076 7.3 1750 1599 '5.6 1755 6 2 MI, 1897 6.7 2026 7.1 2146 it 7.6 1875 1691 it. 6.0 1839 6.5 '1976 7.0 2102> 7.4 2218 7.8 2000 1784 �6.3 1924 6.8 ; ..2056 7.2 2178„i111" 7.7 2291 ' ' 8.1 2125 1878 =°6.6 2011 7.1 2137 7.5 2256d 8.0 2367 8.3 2250 1974 111 7.0 2099 7.4 ' "' 2221 7.8 2335 8.2 2444 8.6 2375 2070 7.3 2189 7.7 2305 8.1 2416 8.5 2522 8.9 2500 2166 '""' 7.6 2280 8.0 2391 8.4 2499 8.8 2601 9.2 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2124 7.5 2233 7.9 s "2337 8.2 2436111 8.6 2532 8.9 1625 2190 7.7 = . 2296 8.1 ;' 2398 8.5 2495 8.8 2589 9.1 1750 2257 8.0 2362 8.3 sMr 2462 8.7 2557 9.0 2648 9.3 1875 2327 8.2 la2430 8.6 111 252EMP 8.9 2621 it 9.2 2710 9.6 2000 2398 8.5 it 2499 8.8 It 2595 9.2 2687 9.5 2775 9.8 2125 2471 8.7 '24 2570 9.1 Mr°2665 9.4 2755 9.7 - - 2250 2546 9.0 ':it 2643 9.3 2735 9.6 2824 10.0 - - 2375 2622 9.2 lir 2717 9.6 2807 9.9 - - 2500 2699 9.5 2792 9.8 - - - - - - High Static 1420-2836 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 66 (Carrie 48FCFM07 THREE PHASE-6 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 1537 0.38 1685 0.51 1824 ! 0.64 1953 0.79 - 2071 0.94 1950 1641 0.47 1778 0.59 1911 0.74 2035 . 0.89 2150 1.05 2100 1748 0.56 1874 0.69 2000 0.84 2119 1.00 2231 1.17 2250 1855 0.67 1973 0.81 2091 0.96 2206 1.13 2314 1.31 2400 1964 0.80 2074 0.94 2185 1.10 2294 1.27 2399 1.45 2550 2074 0.94 2176 1.08 2281 2700 2185 1.10 2281 1.25 2379 1.42 '#::'' 2575 1.80 ' . 2850 2296 1.27 2386 1:43 it_ k .'r Y 2573 ' '1.79 2666 1 99 3000 2408 1.47 2493 1.63 ;1 2581 1.81 2670 2.00 2759 2.21 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 2182 1.10 2285 1.26 2382 1 43 2564 1.78 1950 2258 1.21 2359 1.39 4455 1.56 2547 1.74 2634 1.93 2100 2337 1.34 2436 1.52 .30._„ 171 2620 1.90 2706 2.09 2250 2417 2780 2.26 2400 :, 499 1 64 2594 1.84 2685 2.04 :. 2771 ; 4 2.24 - - 2550 2583 1.81 2676 2.02 2765 2 2 ' ' - - - 2700 2669 2.00 2759 2.21 - - - - - 2850 2757 2.20 - - - - - - - 3000 - - - - - Standard Static 1537-2300 RPM, 1.31 Max BHP NOTE Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. Medium Static 1537-2530 RPM, 1.76 Max BHP High Static 1537-2836 RPM,2.43 Max BHP 48FCEM07 THREE PHASE-STANDARD STATIC -6 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1537 6.7 1685 7.3 1824 7.9 :19'53`. 8.5 2071 9.0 1950 1641 7.1 1778 7.7 1911 8.3 2035 8.8 2150 9.3 2100 1748 7.6 1874 8.1 2000 8.7 2119 9.2 2231 9.7 2250 1855 8.1 1973 8.6 2091 9.1 2206 9.6 2400 1964 8.5 2074 9.0 2185 9.5 2294 10.0 2550 2074 9.0 2176 9.5 2281 9.9 2700 2185 9.5 2281 9.9 2850 2296 10.0 - 3000 - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2182 9.5 2285 9.9 - - - - - - 1950 2258 9.8 - - - - - 2100 - - - 2250 - - - - - - - 2400 - - - - - - - - - - 2550 - - - - - - - - - - 2700 - - - - - - - - 2850 - - 3000 - - - - - - Standard Static 1537-2300 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 67 Fan data (cont) Earri J 4SFCEM07 THREE PHASE-MEDIUM STATIC- 6 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1537- _ `6:1.'1"' 1685"r . ,;67 , I 111".18 h1'; 7.2=,. 1953 7.7 ' " 2071 8.2 1950 1641 6.5 1778 7.0 1911 7.6 2035 8.0 2150 8.5 2100 1748 6.9 1874 7.4 2000 7.9 2119 8.4 2231 8.8 2250 1855 7.3 1973 7.8 2091 8.3 2206 8.7 2314 9.1 2400 1964 7.8 2074 8.2 2185 8.6 2294 9.1 2399 9.5 2550 2074 8.2 2176 8.6 2281 9.0 2385 9.4 2486 9.8 2700 2185 8.6 2281 9.0 2379 9.4 2478 9.8 2850 2296 9.1 2386 9.4 2479 9.8 3000 2408 9.5 2493 9.9 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2182 8.6 2285 9.0 2382 9.4 2476 9.8 1950 2258 8.9 2359 9.3 2455 9.7 - - - 2100 2337 9.2 2436 9.6 2530_._. 10.0 - - 2250 2417 9.6 2514 9.9 - '-....... - - 2400 2499 2550 - - - - - - 2700 - - - - - - 2850 - - - - 3000 - - - - ttli Medium Static 1537-2530 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure -- deduction tables for lower gas heat capacities. 48FCEM07 THREE PHASE-HIGH STATIC-6 TON HORIZONTAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1537 ill5.4 1685 5.9 1824 w.... 6.4 /1953 6.9 2071 `. .rt 7.3 1950 1641 ,`5.8 1778 6.3 1' 191 0 6.7 11C2035 7.2 2150 mi 7.6 2100 ... 1748 MI..z ;6.2 1874 6.6 200( 7.1 W2119 7.5 2231 7.9 2250 1,i_ 1855 fi '6.5 1973 7.0 a 209,JIM AM 7.4lit 206mmg. ;it 7.8 2314mg 8.2 2400 1964 IF6.9 2074 7.3 g Mr 218 7.7 ,111112294 8.1 2399 8.5 2550 • 2074 �> =7.3 2176 7.7 � 228 _ 8.0 385` 8.4 2486 ,n 8.8 2700 2185 MI:7.7 2281 8.0 237 8.4 2478M8.7 2575 9.1 2850 2296 ' r'8.1 2386 8.4 2479 f` 8.7 2573 9.1 2666 . 9.4 3000 2408 8.5 2493 8.8 2581 9.1 2670 9.4 2759 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2182 7.7 2285 8.1 2382 8.4 2476 8.7 2564 9.0 1950 2258 ;v 8.0 , 2359 8.3 2455 8.7 2547 9.0 2634 9.3 , 2100 2337 " 8.2 A > 2436 8.6 2530 8.9 2620 9.2 2706 9.5 2250 2417 i 8.5 " 2514 8.9 2606 9.2 2695 9.5 2780 9.8 2400 2499 8.8 ` 2594 9.1 2685 9.5 2771 9,8 - - 2550 2583 i ,9.1 3 <`' 2676 9.4 2765 9.7 - - - - 2700 2669 air 9.4 jr, 2759 9.7 - - - 2850 2757 ) ,i 9.7 1 - 3000 - - - - - - High Static 1537-2836 RPM NOTE: Fan tables include highest gas heat. Utilize static pressure deduction tables for lower gas heat capacities. 68 ( Carrt,,:4 , 50FC-A04 SINGLE PHASE-3 TON VERTICAL SUPPLY (RPM -BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1040 0.08 1307 0.16 1526 0.25 1705 0.35 :"1859 =``0.45 975 1082 0.09 1336 0.17 1554 0.26 1736 0.36 1892 0.47 1050 1127 0.10 1366 0.18 1582 0.28 1766 0.38 1925 0.50 1125 1175 0.11 1398 0.19 1609 0.29 1795 0.40 1956 0.52 1200 1225 0.13 1434 0.21 1638 0.31 1822 0.42 1984 0.54 1275 1277 0.15 1472 0.22 1667 0.32 1849 0.44 2012 0.57 1350 1330 0.16 1514 0.24 1699 0.34 1878 0.46 2040 0.59 1425 1385 0.19 1557 0.26 1734 0.36 1906 0.48 2068 0.62 1500 1440 0.21 1603 0.29 1771 0.39 1937 0.51 2095 . 0.64 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1991 0.66 2234 0.78 2342 0.89 2444 1.02 975 2031 .. .sue a s e„a +kf 2272 0.82 2380 0.94 2482 1.06 1050 2065 0.61 2192'(y • 0.73 2309 0.86 2418 0.98 •1125 2098 0.64 4 '"2226 :IL 0.77 2345 0.90 2454 1.03 1200 2129 , 0.67, a 2259:; :'.0.80 2379 z.0.94 2490 1.07 - - 1275 �.... ' "" r: ?" 2291". '.:0.84 2412 �, ^ 0.98 - - - - 1350 ^' 187 0.73 2321` , 0.87 2444 ,`:1.02 _ - - - - 1425 '''; 3T.' .2350 Illtf, 0.90 2474 1.05 - - - 1500 2378 " 0.94 - - - - - 7:, Standard Static 1040-1890 RPM,0.44 Max BHP ' Medium Static 1040-2190 RPM,0.71 Max BHP High Static 1040-2490 RPM, 1.07 Max BHP 50FC-A04 SINGLE PHASE -STANDARD STATIC - 3 TON VERTICAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1040 5.5 1307 6.9 1526 8.1 1705 9.0 - - 975 1082 5.7 1336 7.1 1554 8.2 1736 9.2 - - 1050 1127 6.0 1366 7.2 1582 8.4 1766 9.3 1125 1175 6.2 1398 7.4 1609 8.5 1795 9.5 1200 1225 6.5 1434 7.6 1638 8.7 1822 9.6 1275 1277 6.8 1472 7.8 1667 8.8 1849 9.8 - - 1350 1330 7.0 1514 8.0 1699 9.0 - - 1425 1385 7.3 1557 8.2 1734 9.2 - - 1500 1440 7.6 1603 8.5 1771 9.4 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - - - - - 975 - - - 1050 - - - - - 1125 - - - 1200 - - - - - - - - - - 1275 - - - - - 1350 - - - - - - 1425 - - - - - - - - - 1500 - - - - - - - Standard Static 1040-1890 RPM 69 Fan data (cont) (Carrie 50FC-A04 SINGLE PHASE-MEDIUM STATIC - 3 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1040"•' 4.7 1307 ` 6;0' 19526 70 ' 1705 7.8 1859" '' .5'" 975 1082 4.9 1336 6.1 1554 7.1 1736 7.9 1892 8.6 1050 1127 5.1 1366 6.2 1582 7.2 1766 8.1 1925 8.8 1125 1175 5.4 1398 6.4 1609 7.3 1795 8.2 1956 8.9 1200 1225 5.6 1434 6.5 1638 7,5 1822 8.3 1984 9.1 1275 1277 5.8 1472 6.7 1667 7.6 1849 8.4 2012 9.2 1350 1330 6.1 1514 6.9 1699 7.8 1878 8.6 2040 9.3 1425 1385 6.3 1557 7.1 1734 7.9 1906 8.7 2068 9.4 1500 1440 6.6 1603 7.3 1771 8.1 1937 8.8 2095 9.6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1995 9.1 2119 9.7 975 2031 9.3 2156 9.8 1050 2065 9.4 1125 2098 9.6 - - - - 1200 2129 9.7 - - - - 1275 2159 9.9 1350 2187 10.0 1425 - - -1500 U G , Medium Static 1040-2190 RPM 50FC-A04 SINGLE PHASE-HIGH STATIC-3 TON VERTICAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1040 4,2 1307 5.2 1526 6.1 1705 6. 1859 `<7.5 975 1082 4.3 1336 5.4 1554, L 6.2 1736 7.. 1892 , r'7.6 1050 1127 4.5 1366 5.5 aik-isviit) 6.4 1766 7.14111 1925 7.7 1125 1175 4.7 1398 5.6 fir. 16091Ir 6.5 111795 7.21111 1956 tIL 7.9 1200 1225 4.9 1434 5.8 .. 16381116.6 1822 7. 1984 8.0 1275 1277 5.1 ,iiik.: 1472 5.9 'jali 166 7 6.7 1E1849 7.411111 2012 11111 8.1 1350 1330 5.3 la;1514 6.1 $111 16991. 6.8 `#878 7. 2040 :`�8.2 1425 1385 56 lilt 1557 6.3 173 7.0 ;1E1906 7.1 `; 2068 "% ' 8.3 1500 1440 5.8 a �.," 1603 6.4 " �'1771' " 7.1 1937 7. 2095 f 8.4 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1995 8.0 2119 8.5 Mi 223. 9.0 2342 9.4 2444 9.8 975 2031 8.2 Atik.z.2156 8.7 lig227glin 9.1 2380 9.6 2482 10.0 1050 2065 8.3 11111`: 2192 8.8 Ili 2309111 9.3 2418 9.7 - - 1125 i. 2098 8.4 Ili 2226 8.9 ' 2345111 9.4 2454 9.9 1200 2129 8.6I 2259 9.1 Zit 2379 :. 9.6 2490 10.0 - 1275 t: 2159 8.7 41111 2291 9.2 1241 . 9.7 - -1. - - 1350 2187 8.8 Is 2321 9.3 lit 12444""' 9.8 - - - - 1425 r. 2215 8.9 tir 2350 9.4 lirr 2474 9.9 - - - - 1500 2242 9.0 _ 2378 9.6 - - - - - - 77- High Static 1040-2490 RPM 70 ,Caarri 50FC-A04 THREE PHASE- 3 TON VERTICAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1040 0.08 1307 0.16 1526 0.25 1705 0.35 1 9 -.*°0745" 975 1082 0.09 1336 0.17 1554 0.26 1736 0.36 1892 0.47 1050 1127 0.10 1366 0.18 1582 0.28 1766 0.38 1925 0.50 1125 1175 0.11 1398 0.19 1609 0.29 1795 0.40 1956 0.52 1200 1225 0.13 1434 0.21 1638 0.31 1822 0.42 1984 0.54 1275 1277 0.15 1472 0.22 1667 0.32 1849 0.44 2012 0.57 1350 1330 0.16 1514 0.24 1699 0.34 1878 0.46 2040 0.59 1425 1385 0.19 1557 0.26 1734 0.36 1906 -4 ' 0.48 2068 0.62 1500 1440 0.21 1603 0.29 1771 0.39 1937 ' 51 2095 0.64 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1995 a 2234 0.78 2342 0.89 2444 1.02 975 2031 s • 2272 0.82 2380 0.94 2482 1.06 1050 2065 0.61 2192 1 0.73 2309 0.86 2418 0.98 - - 1125 2098 0.64 2226!;; ;). 0.77 2345 0.90 2454 1.03 - - 1200 2129 0.67 : 2259'�i 3.; 0.80 2379 0.94 2490 1.07 - - 1275 2412 0.98 1350 ,F2187 0.73 2321 :Mr 0.87 2444 1.02 - - - - 1425 2215 0.76 112350',I. 0.90 2474 1.05 - - - - 1500 2242 0.78 2378+'= 0.94 - - - - - - Standard Static 1040-1890 RPM,0.44 Max BHP - Medium Static 1040-2190 RPM,0.71 Max BHP High Static 1040-2490 RPM,1.07 Max BHP 50FC-A04 THREE PHASE-STANDARD STATIC-3 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1041(.;,...,.,,415 'Y 6.9 1526975 1082 5.7 1336 7.1 1554 8.2 1736 9.2 --- -- 1050 1127 6.0 1366 7.2 1582 8.4 1766 9,3 1125 1175 6.2 1398 7.4 1609 8.5 1795 9.5 - - 1200 1225 6.5 1434 7.6 1638 8.7 1822 9.6 - - 1275 1277 6.8 1472 7.8 1667 8.8 1849 9.8 - - 1350 - ,,1330 7.0 1514 8.0 1699 9.0 - - - - 1425 1385 7.3 1557 8.2 1734 9.2 - -- - 1500 w' 1440 7.6 1603 8.5 1771 9.4 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 975 1050 - - - - - - - - - - 1125 - - - - - - - - - - 1200 1275 - - - 1350 - - - - - - - 1425 - - - - - - - - - - 1500 - - - - - - - - - - Standard Static 1040-1890 RPM 71 Fan data (cont) Cam I9ntlid RmflaIG l s 50FC-A04 THREE PHASE-MEDIUM STATIC- 3 TON VERTICAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1040 4.7 1307 6:6- 1526 "``"7°t ra r"I'.05 7.8 1859 8.5 975 1082 4.9 1336 6.1 1554 7.1 1736 7.9 1892 8.6 1050 1127 5.1 1366 6.2 1582 7.2 1766 8.1 1925 8.8 1125 1175 5.4 1398 6.4 1609 7.3 1795 8.2 1956 8.9 1200 1225 5.6 1434 6.5 1638 7.5 1822 8.3 1984 9.1 1275 1277 5.8 1472 6.7 1667 7.6 1849 8.4 2012 9.2 1350 1330 6.1 1514 6.9 1699 7.8 1878 8.6 2040 9.3 1425 1385 6.3 1557 7.1 1734 7.9 1906 8.7 2068 9.4 1500 1440 6.6 1603 7.3 1771 8.1 1937 8.8 2095 9.6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1995 9.1 2119 9.7 - - - - 975 2031 9.3 2156 9.8 - - 1050 2065 9.4 - 1125 2098 9.6 - - - - - 1200 2129 9.7 - - - - 1275 2159 9.9 - - - - 1350 2187 10.0 - - 1425 - - - - 1500 - - - - Medium Static 1040-2190 RPM 50FC-A04 THREE PHASE-HIGH STATIC -3 TON VERTICAL SUPPLY(RPM- VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1040 4.2 1307 5.2 1526 6.1 1705 6.8 1859 7.5 975 1082 4.3 ci dit.'•, 1336 5.4 1554 6.2 1736 y,�� 7.0 1892 . 7.6 1050 s 1127 4 5 1366 5.5 1582 6.4 11766 , 71 al 1925 1111 7.7 1125 1175 I 4.7 1398 5.6 1609 6.5 1E1795 III 7.21111 1956 7 9 1200 . 1225 Ito 9 ;1434 5.8 1638 6.6 1111822 >Ali 7.3 1984 8.0 1275 1277 ) 51 mi 1472 5.9 1667 dik n 6.7 1111849 a 7. e 2012 8.1 1350 j; 1330 'my. :' 1514 6.1 1699 6.8 I878 , 7. j 2040 `, 8.2 1425 1385 5 6 ): 1557 6.3 1734f� 7.0 1906 7. 2068 IS, 8.3 1500 "k 1440 5.8 -IV 1603 6.4 1771 I 7.1 1937 7 2095 8.4 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1995 8.0 2119 8.5 `° r''2234 9.0 2342 9.4 2444 9.8 975 2031 8.2 2156 8.7 jr,`2272 9.1 2380 9.6 2482 10.0 1050 2065 8.3 2192 8.8 jigg 2309 9.3 2418 9.7 - - 1125 2098 8.4 2226 8.9 al3.2345 9.4 2454 9.9 - - 1200 2129 8.6 , i,,:E,:. 2259 9.1 lig2379 9.6 2490 10.0 - - 1275 2159 8.7 AII.2291 9.2 - 2412 9.7 - - - - 1350 2187 8.8 al2321 9.3 "�' 2444 9.8 - - - - 1425 2215 8.9 lors. 2350 9.4 2474 9.9 - - - - 1500 2242 9.0 2378 9.6 - - - High Static 1040-2490 RPM 72 Carrie j 50FC-A05 SINGLE PHASE-4 TON VERTICAL SUPPLY (RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1120 0.15 1327 0.25 '7506''' "0 7r-'-'" ''''' f667 0.50 1814 0.65 1300 1178 0.18 1375 0.28 1549 0.40 1705 0.54 1849 0.69 1400 1238 0.21 1424 0.31 1593 0.44 1745 0.57 1886 0.73 1500 1300 0.24 1476 0.35 1639 0.47 1788 0.62 1925 0.77 1600 1365 0.27 1530 0.39 1688 0.52 1832 0.66 1966 0.82 1700 1430 0.31 1586 0.43 1737 0.56 1878 0.71 2009 0.87 1800 1497 0.36 1644 0.48 1789 0.61 1925 .. 0.76 2053 0.93 1900 1565 0.41 1703 0.53 1842 0.67 1974 0.82 2099 0.99 2000 1633 0.46 1764 0.59 1897 0.73 2025 , 0.89, 2146 1.05 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1950 0.81 2077 0.97 2195 1.15 2307 1.33 2411 1.52 1300 1983 0.85 2108 102H 2225 1.19 2336 1.38 2442 1.58 1400 2017 0.89 2140 1.e.:1' 2256 lig-1.24 2367 1.43 - - 1500 2053 0.93 '1,'.. .„-4111 2289 Mr 1.29 2399 1.49 - - 1600 2092 0.98 " 10 1.16 2323 -1.35 2431 1.55 1700 i!. 71W. 2248 ini, 1.22 2359 iir1.41 - - - 1800 ,=2173 illp 1.10 2288Illir 1.28 2397 lir 1.47 - - - - 1900 ' 2217 ill" 1.16 2329.:IIFa 1.35 2436 1.54 - - - - 2000 , ^"2262 1.23 2372 ' .w„! 1.42 - - - - - - Standard Static 1120-1900 RPM,0.72 Max BHP ®Medium Static 1120-2170 RPM, 1.06 Max BHP High Static 1120-2460 RPM,1.53 Max BHP 50FC-A05 SINGLE PHASE-STANDARD STATIC-4 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 , ' ,a'' 5.9 1327 .. ., 1 '`',„ ,,,--$4 8.8 1814 9.5 1300 1178 6.2 1375 7.2 1549 8.2 1705'" 9.0 1849 9.7 1400 1238 6.5 1424 7.5 1593 8.4 1745 9.2 1886 9.9 1500 1300 6.8 1476 7.8 1639 8.6 1788 9.4 1600 1365 7.2 1530 8.1 1688 8.9 1832 9.6 1700 1430 7.5 1586 8.3 1737 9.1 1878 9.9 - 1800 1497 7.9 1644 8.7 1789 9.4 - 1900 1565 8.2 1703 9.0 1842 9.7 2000 1633 8.6 1764 9.3 1897 10.0 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 - - - - - - - - 1300 - - - - - - 1400 - - - - - - - - 1500 1600 - - - - - - - 1700 1800 - - - - - - - - - - 1900 - - - - - - - 2000 - - - - - - - - - - Standard Static 1120-1900 RPM 73 Fan data (cont) Carrie) 4 biearzeewepe 50FC-A05 SINGLE PHASE -MEDIUM STATIC-4 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1120 5.2 1327 6.1' 1506 6 9` 1667 7 7' 1814` 8.4 1300 1178 5.4 1375 6.3 1549 7.1 1705 7.9 1849 8.5 1400 1238 5.7 1424 6.6 1593 7.3 1745 8.0 1886 8.7 1500 1300 6.0 1476 6.8 1639 7.6 1788 8.2 1925 8.9 1600 1365 6.3 1530 7.1 1688 7.8 1832 8,4 1966 9.1 1700 1430 6.6 1586 7.3 1737 8.0 1878 8.7 2009 9.3 1800 1497 6.9 1644 7.6 1789 8.2 1925 8.9 2053 9.5 1900 1565 7.2 1703 7.8 1842 8.5 1974 9.1 2099 9.7 2000 1633 7.5 1764 8.1 1897, 8.7 2025 9.3 2146 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1950 9.0 2077 9.6 1300 1983 9.1 2108 9.7 1400 2017 9.3 2140 9.9 - - - - - - 1500 2053 9.5 - - 1600 2092 9.6 - - - - - - 1700 2132 9.8 1800 1900 2000 - - Medium Static 1120-2170 RPM 50FC-A05 SINGLE PHASE-HIGH STATIC-4 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1120 4.6 = ; 1327 5.4 1506 6.1 1667 6.8 1814 7.4 1300 1178 4.8 i.. 1375 5.6 1549 6.3 1705 6.9 1849 7.5 1400 1238 5.0 ; 1424 5.8 1593 6.5 1745 7.1 1886 7.7 1500 1300 " i..5.3 ,,: ::' 1476 6.0 1639 6.7 1788 7.3 1925 7.8 1600 1365 111.5.5 .`m 1530 6.2 1688 6.9 1832 7.4 1966 8.0 1700 1430 5.8 Y 1586 6.4 1737 7.1 1878 7.6 2009 8.2 1800 1497 la<6.1 IN 1644 6.7 1789 7.3 1925 7.8 2053 8.3 1900 1565 ? g 6.4 .% 1703 6.9 1842 7.5 1974 8.0 2099 8.5 2000 1633 '"_... 6.6.:`- ',, 1764 7.2 1897 7.7 2025 8.2 2146 8.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1950 7.9 'W . `'2077 8.4 2195 8.9 2307 9.4 2411 9.8 1300 1983 8.1 2108 8.6 2225 9.0 2336 9.5 2442 9.9 1400 2017 8.2 2140 8.7 2256 9.2 2367 9.6 - - 1500 2053 8.3 2174 8.8 ak 2289 9.3 2399 9.8 - 1600 2092 8.5 2210 9 0 Si 2323 9.4 2431 9.9 - - 1700 2132 8.7 2248 9.1 it 2359 9.6 - - - - 1800 2173 8.8 2288 9 3 '� 2397 9.7 - - - - 1900 2217 9.0 2329 9.5 111,= 2436 9.9 - 2000 2262 9.2 2372 9.6 High Static 1120-2460 RPM 74 --- _r)'- 50FC-A05 THREE PHASE-4 TON VERTICAL SUPPLY(RPM -BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1115 0.15 1332 0.26 1513 0.37 1665 0.50 1801 0.63 1300 1174 0.17 1376 0.28 1557 0.41 1709 0.54 1843 0.67 1400 1236 0.20 1422 0.31 1601 0.44 1754 0.58 1887 0.72 1500 1300 0.24 1471 0.34 1644 0.48 1798 0.62 1932 0.77 1600 1366 0.27 1524 0.38 1688 0.51 1841 0.67 1976 0.82 1700 1433 0.31 1579 0.42 1734 0.56 1884 0.71 2020 0.88 1800 1501 0.36 1637 0.47 1783 0.60 1928 0.76 2063 0.93 1900 1570 0.41 1698 0.52 1834 0.66 1973 0.82 2106 0.99 2000 1640 0.47 1761 0.58 1888 0.71 2020 0.88 2150 1.06 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1931 0.78 2061 0.95 2200 1. 2 .3 4 .1 1. 1300 1967 0.82 2087 0.98 2207 u 1.16 =' 2332 1.37 2471 1.62 1400 2009 0.87 2123 1.03 a=` 2234 SE, 1.2 2345 1.38 2460 1.60 1500 2052 0.93 8 6`..' ;"i:(f5``' 2271 >1.2 F�. 2375 1.43 Act 2478 1.63 1600 2097 0.99 2208 '11,, 1.15 2312 +'1.32 2412 150%11' 2510 1.69 1700 2141 = '' 2252 ':1.22 2356 ". 1.39,. 2454 158 ar, .2548 1.76 1800 1.11 2297t11111 1.29 2400 all 1.47 2497 1.66 IF 2590 1.85 1900 41 silIF 1.36 2445 1 5 ` 2542 1.75 2634 1.94 2000 y- m I ,232385 --. 1.44 2489 „- 1 64 VIN 2586 1.84 ' ' - • Standard Static 1115-1900 RPM,0.72 Max BHP Medium Static 1115-2170 RPM, 1.06 Max BHP High Static 1115-2660 RPM. 1.96 Max BHP 50FC-A05 THREE PHASE-STANDARD STATIC-4 TON VERTICAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1115 5.9 1332 7.0 1513 8.0 1665 8.8 1801 9.5 1300 1174 6.2 1376 7.2 1557 8.2 1709 9.0 1843 9.7 1400 1236 6.5 1422 7.5 1601 8.4 1754 9.2 1887 9.9 1500 1300 6.8 1471 7.7 1644 8.7 1798 9.5 1600 1366 7.2 1524 8.0 1688 8.9 1841 9.7 1700 1433 7.5 1579 8.3 1734 9.1 1884 9.9 1800 1501 7.9 1637 8.6 1783 9.4 1900 1570 8.3 1698 8.9 1834 9.7 2000 1640 8.6 1761 9.3 1888 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1300 - - - - - - - - - - 1400 - - - - - - - - - - 1500 1600 - - - - - - - 1700 1800 - - - - - - - - - - 1900 - - - - - 2000 - ,% 414;y..1 Standard Static 1115-1900 RPM 75 Fan data (cont) (Carrier 0........4.0., 50FC-A05 THREE PHASE-MEDIUM STATIC- 4 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1115 5.1 1332` 64 1513 " '"" 7.0 ' 1665"" 7.7 1801 "` 8.3 1300 1174 5.4 1376 6.3 1557 7.2 1709 7.9 1843 8.5 1400 1236 5.7 1422 6.6 1601 7.4 1754 8.1 1887 8.7 1500 1300 6.0 1471 6.8 1644 7.6 1798 8.3 1932 8.9 1600 1366 6.3 1524 7.0 1688 7.8 1841 8.5 1976 9.1 1700 1433 6.6 1579 7.3 1734 8.0 1884 8.7 2020 9.3 1800 1501 6.9 1637 7.5 1783 8.2 1928 8.9 2063 9.5 1900 1570 7.2 1698 7.8 1834 8.5 1973 9.1 2106 9.7 2000 1640 7.6 . 1761 8.1 1888 8.7 .,,2020 9.3 2150 9.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1931 8.9 2061 9.5 - - -1300 1967 9.1 2087 9.6 1400 2009 9.3 2123 9.8 - - - - - 1500 2052 9.5 - - - - - 1600 2097 9.7 - - - - - - 1700 2141 9.9 -- - - - - - 1800 - - - - 1900 - - 2000 - - - - - - Medium Static 1115-2170 RPM 50FC-A05 THREE PHASE- HIGH STATIC-4 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1115 g 4.2 1332 5.0 1513 5.7 1665 6.3 1801 6.8 1300 1174 ' 4.4 1376 5.2 46, 1557 5.9 1709 .''" 6.4 1843 6.9 1400 1236 -: '4 6 r ..1422 5.3 ;lop;.1601 6.0 1754-MI 6.6 1887 7.1 1500 1300 4.9 1471 5.5 lir-1644 6.2 1798. 6.8 1932 7.3 1600 1366 llir 5.1 At 1524 5 7 al 1688 6.3 1849iii 6.9 1976 7.4 1700 1433 ' 5.4 = 1579 5.9 1734 6.5 1884' - 7.1 2020 7.6 1800 1501 Illit'5 6 ;Air 1637 6 2 1111,1783 6.7 1928 lit 7.2 2063 7.8 1900 1570 •6 9 ` 1698 6.4 ' 1834 6.9 1973' 7.4 2106 7.9 2000 1640 '' 6.2 ""I'''' . 1761 6.6 1888 7.1 2020`AK„ 7.6 2150 8.1 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1931 7.3Mr 2061 7.7 2200 8.3 2363 8.9 2617 iir 9.8 1300 1967 7.4 illt2087 7.8 2207 8.3 2332 8.8 2471AK 9.31111 1400 2009 7.6'ilir':. 2123 8.0 2234 8.4 2345 8.8 24601lir 9.21111 1500 2052 7.7 S xr 2164 8.1 2271 8.5 2375 8.9 2478 1 9. 1600 2097 diiii. 7.9 Illt_:2208 8.3 2312 8.7 2412 9.1 2510 ill, 9. 1700 2141 8.0 'ME 2252 8.5 2356 8.9 2454 9.2 2548 at 9.6.. 1800 2185 ',Iit 82 `� 2297 8.6 2400 9.0 2497 9.4 2590 11111' 9.7.1111 1900 2229 lir. 8.4 1.1Fr 2341 8.8 2445 9.2 2542 9.6 2634. P �9.,9p; 2000 2272 8.5 2385 9.0 2489 9.4 2586 9.7 High Static 1115-2660 RPM 76 !Carrier :"United reennon,00es 50FC-A06 SINGLE PHASE- 5 TON VERTICAL SUPPLY(RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1301 0.24 1476 0.35 1639 0.47 ''1788 0.62 ' 1925 0.77 1625 1381 0.28 1545 0.40 1700 0.53 1843 0.67 1976 0.83 1750 1463 0.34 1615 0.45 1763 0.59 1901 0.74 2031 0.90 1875 1548 0.40 1688 0.51 1828 0.65 1962 0.81 2087 0.97 2000 1633 0.46 1764 0.59 1897 0.73 2025 0.89 2146 1.05 2125 1720 0.54 1842 0.67 1967 0.81 2090 0.97 2208 1.15 2250 1808 0.63 1922 0.75 2040 0.90 2157 1.07 2271 1.24 2375 1897 0.72 2003 0.85 2115 1.00 2227 1.17 2336 1.35 2500 1987 0.83 2086 0.96 2191 1.11 2298- 1.28 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2053 0.93 2174 1.11 2289 1.29 - - - 1625 2101 1.00 2220 1.18 2332 1.36 1750 2152 1.07 2268 1.25 2378 1.44 - - - 1875 2206 1.15 2318 1.33 - - - - - - 2000 2262 1.23 2372 1.42 - - - - - - 2125 2320 1.33 - - - - - - 2250 2380 1.43 - - - 2375 - - 2500 - - - - - - - - - Standard Static 1301-2150 RPM, 1.06 Max BHP Medium Static 1301-2390 RPM, 1.44 Max BHP 50FC-A06 SINGLE PHASE-STANDARD STATIC-5 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1301 6.1 1476 6.9 1639 7.6 1788 8.3 1925':,- 9.0 1625 1381 6.4 1545 7.2 1700 7.9 1843 8.6 1976 9,2 1750 1463 6.8 1615 7.5 1763 8.2 1901 8.8 2031 9.4 1875 1548 7.2 1688 7.9 1828 8.5 1962 9.1 2087 9.7 2000 1633 7.6 1764 8,2 1897 8.8 2025 9.4 2146 10.0 2125 1720 8.0 1842 8.6 1967 9.1 2090 9.7 - 2250 1808 8.4 1922 8.9 2040 9.5 2375 1897 8.8 2003 9.3 2115 9.8 2500 1987 9.2 2086 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2053 9.5 - - - 1625 2101 9.8 - - - - 1750 - - 1875 - - - - - - - - - - 2000 - - - - - - - - - - 2125 - - - - 2250 - - - - - - 2375 - - - - - - - - - - 2500 - - - - - - - - - - Standard Static 1301-2150 RPM 77 Fan data (cont) Carrier Ynit O r«nn.my1e. 50FC-A06 SINGLE PHASE-MEDIUM STATIC-3 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1301 5.4 1476 6.2 _ 1639' 6 9 ' - '-1788 '7 5 '1925 "'8 1 1625 1381 5.8 1545 6.5 1700 7.1 1843 7.7 1976 8.3 1750 1463 6.1 1615 6.8 1763 7.4 1901 8.0 2031 8.5 1875 1548 6.5 1688 7.1 1828 7.6 1962 8.2 2087 8.7 2000 1633 6.8 1764 7.4 1897 7.9 2025 8.5 2146 9.0 2125 1720 7.2 1842 7.7 1967 8.2 2090 8.7 2208 9.2 2250 1808 7.6 1922 8.0 2040 8.5 2157 9.0 2271 9.5 2375 1897 7.9 2003 8.4 2115 8.8 2227 9.3 2336 9.8 2500 1987 8.3 2086 8.7 2191. 9.2„ 2298, 9.6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2053 8.6 2174 9.1 2289 9.6 ,,. - - 1625 2101 8.8 2220 9.3 2332 9.8 - - - - 1750 2152 9.0 2268 9.5 2378 9.9 .., - 1875 2206 9.2 2318 9.7 - - - 2000 2262 9.5 2372 9.9 - - - - - 2125 2320 9.7 - 2250 2380 10.0 - - - - 2375 - - - - - - 2500 - - - - - Medium Static 1301-2390 RPM 78 0.m1h0NOnIeafee 50FC-A06 THREE PHASE-5 TON VERTICAL SUPPLY(RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1301 ." N : 1477"''"''""'"""(}'i35 1639 0.47 1788 0.62 1925 0.77 1625 1381 0.28 1545 0.40 1700 0.53 1843 0.67 1977 0.83 1750 1463 0.34 1615 0.45 1763 0.59 1902 0.74 2031 0.90 1875 1548 0.40 1688 0.51 1829 0.65 1962 0.81 2088 0.97 2000 1633 0.46 1764 0.59 1897 0.73 2025 0.89 2147 1.06 2125 1720 0.54 1842 0.67 1968 0.81 2090 0.97 2208 1.15 2250 1809 0.63 1922 0.75 2040 0.90 2158 1.07 2271 1.24 2375 1897 0.72 2003 0.85 2115 1.00 2227 1.17 2336 1.35 2500 1987 0.83 2086 0.96 2192 1.12 2299 1.29 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2053 0.93 ` 2174 '1.11 2289 1.29 gs'' 2398 1.49 2502 1.69 1625 2102 1.00 2220 1.18 23 j„;, ,1 „,,6 , 2439 ,1.56 2542 1.77 1750 2153 1.07 2268 1.25 23 ;! 2483 ,)" ,.°1.64" ._.2584 1 85 1875 2206 1.15 -ts 1.3 -' ''2426 4 4 1 53 „ 2529 1 73'' 2628 1.94 2000 2262 1,23 .' .. 2477 .;1.621. 1 2578 ar1.83 air 2675 2 04 ' ,` 2125 2320 1.33 2427 t52 2530 " 1.72 2629 .[1.93;lir 2724 215 ?.' 2250 ,,,,2380 1 43. s7' 2485 ' 1.63 2585 1.83 2682 yI f2.05 _2775 2 27 ,t. 2375 2443 y 1.55- 2544 1.75 2642 1.96 2737 ]'illt2.17 2828 2.40i' 2500 2506 1.67 2605 1,87 2701. 2.09 2794 "'3 ,.2.31 - - Standard Static 1301-2150 RPM, 1.06 Max BHP Medium Static 1301-2390 RPM, 1.44 Max BHP High Static 1301-2836 RPM:2.43 Max BHP 50FC-A06 THREE PHASE-STANDARD STATIC- 5 TON VERTICAL SUPPLY (RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1301 6.1 1477 6.9 1639 7.6 1788 8.3 1925 9.0 1625 1381 6.4 1545 7.2 1700 7.9 1843 8.6 1977 9.2 1750 1463 6.8 1615 7.5 1763 8.2 1902 8.8 2031 9.4 1875 1548 7.2 1688 7.9 1829 8.5 1962 9.1 2088 9.7 2000 1633 7.6 1764 8.2 1897 8.8 2025 9.4 2147 10.0 2125 1720 8.0 1842 8.6 1968 9.2 2090 9.7 2250 1809 8.4 1922 8.9 2040 9.5 2375 1897 8.8 2003 9.3 2115 9.8 - - - - 2500 1987 9.2 2086 9.7 - - - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2053 9.5 - - - - - - - - 1625 2102 9.8 - - - - - - - - 1750 1875 - - - - 2000 - - - - - - 2125 - - - - - - - - - - 2250 - 2375 - - - - - - - - - - 2500 - - - - r ,r t; ,<!1 Standard Static 1301-2150 RPM 79 Fan data (cont) ��a ' 4.IMMO Taehnabgles 50FC-A06 THREE PHASE-MEDIUM STATIC- 5 TON VERTICAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1501 "' "5.4- "1477 ' 6.2 1639 69 1788 7.5` ' 1925 "` 8.1 1625 1381 5.8 1545 6.5 1700 7.1 1843 7.7 1977 8.3 1750 1463 6.1 1615 6.8 1763 7.4 1902 8.0 2031 8.5 1875 1548 6.5 1688 7.1 1829 7.7 1962 8.2 2088 8.7 2000 1633 6.8 1764 7.4 1897 7.9 2025 8.5 2147 9.0 2125 1720 7.2 1842 7.7 1968 8.2 2090 8.7 2208 9.2 2250 1809 7.6 1922 8.0 2040 8.5 2158 9.0 2271 9.5 2375 1897 7.9 2003 8.4 2115 8.8 2227 9.3 2336 9.8 2500 1987 8.3 2086 8.7 2192 9.2 2299 9.6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2053 8.6 2174 9.1 2289 9.6 1625 2102 8.8 2220 9.3 2332 9.8 - - 1750 2153 9.0 2268 9.5 2378 _9.9 - - 1875 2206 9.2 2319 9.7 - - - - - 2000 2262 9.5 2372 9.9 2125 2320 9.7 2250 2380 10.0 2375 - - - - - - 2500 - - - - - - p-*'` " Medium Static 1301-2390 RPM 50FC-A06 THREE PHASE-HIGH STATIC- 5 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1301 4.6 1477 5.2 1631. 5.8 1788 6.3 1925 III 6.8 1625 1381 a.:..4.9 . 1545 5.4 ;170 6.0 1843 6.5 1977 -' . 7.0 1750 1463 5.2 1615 5.7 , 176" 6.2 1902 6.7 2031 lir 7.2 1875 1548 Mr 5.5 ir: 1688 6.0 timi82aggi 6.4 1962 6.9 2088 ila 7.4 2000 1633 INE 5.8 r', 1764 6.2 1897 6.7 2025 7.1 2147 ! 7.6 2125 1720 6.1 a', rat=,..1842 6.5 196 6.9 2090 7.4 2208 7.8 2250 1809 .,1 6.4 r` 19226.8 204 7.2 2158 7.6 2271 `-8.0 2375 1897 ill 6.7 2003 7.1 2115 7.5 2227 7.9 2336 1 8.2 2500 1987''' sitb 2086 7.4 2192 7.7 2299 8.1 2403 8.5 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2053 7.2 2174 7.7 2289'' " 8.1 ' 2398 x 8.5 25021 8.8 1625 2102 '_7.4 2220 7.8 2332 8.2 2439=- > 8.6 2542 9.0 1750 2153 `. i7.6 d. . 2268 8.0 2378 8.4 2483f -; 8.8 2584 9.1 1875 2206 7.8 "....2319 8.2 2426 8.6 2529!' '" 8.9 2628 9.3 2000 2262 mg 8.0 t 2372 8.4 2477 8.7 2578 ; 9.1 2675 : 9,4 2125 2320 ,all 8.2 111.- 2427 8.6 2530 8.9 2629, 9.3 2724 ,jot�. 9.6 2250 2380 8.4 3 2485 8.8 2585 9.1 2682'<' 'I 9.5 2775 9.8 2375 2443 yr 8.6 my- 2544 9.0 2642 9.3 2737 Ilirt 9.7 2828 1`Irl 10.0 2500 2506 '8.8 2605 9.2 2701 9.5 2794 9.9 - - High Static 1301-2836 RPM 80 Carrier umlw nanmu,in 50FC-M07 THREE PHASE- 6 TON VERTICAL SUPPLY (RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 1423 0.30 1550 0.39 "'"1682 0.50 1820 0.64 1955' 0.79 1950 1521 0.37 1638 0.46 1758 0.57 1883 0.70 2011 0.86 2100 1620 0.45 1730 0.54 1839 0.65 1953 0.78 2071 0.93 2250 1720 0.53 1824 0.64 1924 0.75 2029 0.88 2137 1.02 2400 1820 0.63 1919 0.74 2013 0.85 2109 0.98 2209 1.13 2550 1921 0.74 2016 0.86 2105 0.98 2194 1.11 2286 1.25 2700 2022 0.86 2113 0.99 2198 1.11 2282 1.24 2368 1.39 2850 2123 1.00 2212 1.13 2293 1.26 2373 1.40 2453 1.54 3000 2225 1,15 2311 1.29 2389 1.42 2465 1.56 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 2079 0.95 2192 1.11 2296 1.28 2393 145„; ` 1950 2133 1.02 2247 1.19 2353 1.37 2451 1.55 •• 2543 1.73 .t 2100 2189 1.10 2301 1.28 2408 1.47 2507 1.66 2601 1 85 ii 2250 2248 1.19 2357 1.37 2462 1.57 `" - 2656 1 97tr 2400 2312 1.30 2416 1.48 2517 4,67 2616 '1 11.88 2711 2.09 2550 2381 1.41 I "-'. °k '' 2576'7 I '1. °6 " 2672 mrc2.00 2765 221 - 2700 2456. .1 '2545 -' 1.73 2638 -sr 192 ...." 2730 .>2.13 2821 2.35 1, 2850 "253.111,- 1.70 2619 1.86 2705 3iiiii 2.07 2793 2.28 - - 3000 °:2618'!! 1.87 2696 2.05 2777 -'.2.24 - - - - Standard Static 1423-2300 RPM, 1.31 Max BHP Medium Static 1423-2530 RPM, 1.76 Max BHP High Static 1423-2836 RPM,2.43 Max BHP 50FC-M07 THREE PHASE-STANDARD STATIC- 6 TON VERTICAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1423 6.2 1550 6.7 1682 7.3 1820 7.9 1955 8.5 1950 1521 6.6 1638 7.1 1758 7.6 1883 8.2 2011 8.7 2100 1620 7.0 1730 7.5 1839 8.0 1953 8.5 2071 9.0 2250 1720 7.5 1824 7.9 1924 8.4 2029 8.8 2137 9.3 2400 1820 7.9 1919 8.3 2013 8.8 2109 92 2209 9.6 2550 1921 8.4 2016 8,8 2105 9.2 2194 9.5 2286 9.9 2700 2022 8.8 2113 9.2 2198 9.6 2282 9.9 2850 2123 92 2212 9.6 2293 10.0 3000 2225 9.7 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2079 9 0 2192 9.5 2296 10.0 - - - 1950 2133 9.3 2247 9.8 2100 2189 9.5 - - - 2250 2248 9.8 - - - - - - 2400 - - - - - - - 2550 - - - - - 2700 - - - 2850 - - - 3000 - - - - - ittneitt= Standard Static 1423-2300 RPM 81 Fan data (cont) Carrier omkm Inman o 50FC-M07 THREE PHASE-MEDIUM STATIC- 6 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1423 5.6 1550 6.1 1682 6.6 1820 7.2 1955 7.7 1950 1521 6.0 1638 6.5 1758 6.9 1883 7.4 2011 7.9 2100 1620 6.4 1730 6.8 1839 7.3 1953 7.7 2071 8.2 2250 1720 6.8 1824 7.2 1924 7.6 2029 8.0 2137 8.4 2400 1820 7.2 1919 7.6 2013 8.0 2109 8.3 2209 8.7 2550 1921 7.6 2016 8.0 2105 8.3 2194 8.7 2286 9.0 2700 2022 8.0 2113 8.4 2198 8.7 2282 9.0 2368 9.4 2850 2123 8.4 2212 8.7 2293 9.1 2373 9.4 2453 9.7 3000 2225 8.8 2311 9.1 2389 9.4 2465 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2079 8.2 2192 8.7 2296 9.1 2393 9.5 2485 9.8 1950 2133 8.4 2247 8.9 2353 9.3 2451 9.7 2100 2189 8.7 2301 9.1 2408 9.5 2507 9.9 2250 2248 8.9 2357 9.3 2462 9.7 2400 2312 9.1 2416 9.5 2517 9.9 2550 2381 9.4 2479 9.8 ---- 2700 .2456... 9.7 - - - - - - 2850 - - 3000 - - - " z Medium Static 1423-2530 RPM 50FC-M07 THREE PHASE-HIGH STATIC-6 TON VERTICAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1423 5.0 1550 5.5 1682 5.9 1820 6.4 1955 6.9 1950 1521 5.4 Al_ 1638 5.8 1758 6.2 1883 6.6 2011 7.1 2100 1620 5.7 1 1730 6.1 1839 6.5 1953 11 , 6.9 2071 7.3 2250 1720 % 16.1 _ 1824 6.4 mjimiL1924 6.8 2029 At, 7.2 2137 7.5 2400 E. 1820 %'.1116.4 1111 1919 6.8 rig-2013 7.1 2109-. 7.4 2209 7.8 2550 [ 1921 : 8.8 ':2016 7.1 2105 7.4 2194 7,7 2286 8.1 2700 1.- 2022 `sr7.1 ig 2113 7.5 lir2198 7.8 2282 8.(111.( 2368 8.3 2850 2123 7.5 = 2212 7.8 " 2293 8.1 2373 8.J 2453 8.6 3000 2225 7.8 .i 2311 8.1 `' -2389 8.4 2465 8.7' '" 2541 9.0 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2079 1.7.3 irr 2192 7.7 22 . 8.1 2393, ' 8.4 2485 8.8 1950 , 2133 7.5 2247 7.9 2353111 8.3 imili,2451 lir 8.6 2543 9.0 2100 L 2189 711r 7.7 2301 8.1 24 µ 8.5 507. 8.8 2601 9.2 2250 il 2248 7.9 Sli 2357 8.3 246 8.7 62 9.0 2656 9.4 2400 r. ' 2312 i.,,.8.2 tir,,. 2416 8.5 251710.1 8.9 r11112616tiir 9.2 2711 9.6 2550 L 2381 a038.4 it 2479 8.7 257611r 9.1 1112672 ,- 9.4 2765 9.7 2700 3 2456 8.7 Itr 2546 9.0 26381 ' 9.3 1E2730 " 9.6 2821 9.9 2850 I' 2535 8.9 „ 2619 9.2 2705 9.5 793 9.8 - - 3000 2618 9.2 ; 2696 9.5 2777 9.8111MINIIIIIIII= - - High Static 1423-2836 RPM 82 :- 50FC-A04 SINGLE PHASE- 3 TON HORIZONTAL SUPPLY(RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1017 0.07 1284 0.15 1501 0.24 1684 0.33 1843 0.44 975 1055 0.08 1311 0.16 1527 0.25 1711 0.35 1871 0.46 1050 1096 0.09 1340 0.17 1553 0.26 1737 0.36 1899 0.48 1125 1140 0.10 1371 0.18 1580 0.27 1763 0.38 1925 0.50 1200 1186 0.12 1404 0.19 1608 0.29 1789 0.40 1951 0.52 1275 1236 0.13 1440 0.21 1637 0.31 1816 0.42 1977 0.54 1350 1286 0.15 1477 0.22 1666 0.32 1843 0,44 2004 0.56 1425 1338 0.17 1517 0.24 1698 0.34 1871 0.46 2030 0,58 1500 1391 0.19 1559 0.26 1733 0.36 1900 0.48 2057 0.61 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1984 0.54 2231 0.77 2342 0.89 2446 1.02 975 2014 0.57 2264 0.81 2376 0.93 2481 1.06 1050 2043 0.59 .2174 0.72 2295 0.84 2408 0.97 - - 1125 2071 0.62 x 2203 0.74 2325 0.88 2439 1.01 - 1200 2098 0.64 2231 0.77 2354 0.91 2469 1.05 1275 2124 0.67 -22258 0.80 2382 0.94 - - - - 1350 2 ,i...., e •• ,.. ; 285 0.83 2410 0.97 - - 1425 r2176 0.72 '`. 2311 0.86 2436 1.01 - - - - 1500 ' 2202 0.74 ,. -`„+337,_,,. :.._... 0.89 2462 1.04 - - Standard Static 1017-1890 RPM,0.44 Max BHP Medium Static 1017-2190 RPM,0.71 Max BHP High Static 1017-2490 RPM,1.07 Max BHP 50FC-A04 SINGLE PHASE-STANDARD STATIC-3 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1017 5.4 1284 6.8 1501 7.9 1684 8.9 1843 9.8 975 1055 5.6 1311 6.9 1527 8.1 1711 9.1 1050 1096 5.8 1340 7.1 1553 8.2 1737 9.2 1125 1140 6.0 1371 7.3 1580 8.4 1763 9.3 1200 1186 6.3 1404 7.4 1608 8.5 1789 9.5 1275 1236 6.5 1440 7.6 1637 8.7 1816 9.6 1350 1286 6.8 1477 7.8 1666 8.8 1843 9.8 1425 1338 7.1 1517 8.0 1698 9.0 1500 1391 7.4 1559 8.2 1733 9.2 - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - - - - - 975 - 1050 - - - - - - - 1125 - - - 1200 1275 - - - - - - 1350 - - - - - - - - - 1425 - - - - - - - - - - 1500 - - - ` 4,5 Standard Static 1017-1890 RPM 83 Fan data (cont) Carri 6 bMN WNW*" 50FC-A04 SINGLE PHASE-MEDIUM STATIC-3 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 '2017""` '4.6'- 1284 5.9 1501' '6 9'" 1684 7.7 1843 8.4 975 1055 4.8 1311 6.0 1527 7.0 1711 7.8 1871 8.5 1050 1096 5.0 1340 6.1 1553 7.1 1737 7.9 1899 8.7 1125 1140 5.2 1371 6.3 1580 7.2 1763 8.1 1925 8.8 1200 1186 5.4 1404 6.4 1608 7.3 1789 8.2 1951 8.9 1275 1236 5.6 1440 6.6 1637 7.5 1816 8.3 1977 9.0 1350 1286 5.9 1477 6.7 1666 7.6 1843 8.4 2004 9.2 1425 1338 6.1 1517 6.9 1698 7.8 1871 8.5 2030 9.3 1500 1391 6.4 1559 7.1 1733 7.9 1900 8.7 2057 9.4 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1984 9.1 2113 9.6 - - - - 975 2014 9.2 2144 9.8 - - - - - 1050 2043 9.3 - - - - 1125 2071 9.5 - - - - - - 1200 2098 9.6 - - 1275 2124 9.7 - 1350 2150 9.8 - - - - - 1425 - - - - - - - 1500 - - - - - - leizistal Medium Static 1017-2190 RPM 50FC-A04 SINGLE PHASE-HIGH STATIC - 3 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1017 4.1 :,ifilL.1284 5.2 1501 6.0 7 1684� " ,, 6.8 1843 7.4 975 1055 4.2 1311 5.3 1527 6.1711 AIL 6.9 1871 7.5 1050 1096 4,4 1340 5.4 1553 6.2 6737 lir 7.0 1899 7.6 1125 1140 4.6 it, 1371 5.5 1580 6.3 Mr11763' 7.1 1925 7.7 1200 1186 4.8 1404 5.6 irk 1608 6.5 1789 7.2 1951 7.8 1275 1236 5.0 Mr' 1440 5.8 1637 6.6 1816 7.3 1977 7.9 1350 1286 5.2 : _.._1477 5.9 -`liri 1666 6.7 1843 7.4 2004 8.0 1425 1338 5.4 '' 1517 6.1 " 1 1698 6.8 1871 7.5 2030 8.2 1500 1391 5.6 1559 6.3 1733 7.0 1900 7.6 2057 8.3 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1984 8.0 2113 8.5 2231 9.0 2342 9.4 2446 9.8 975i', 2014 8.1 ,; 2144 8.6 2264 9.1 2376 9.5 2481 10.0 1050 . '.. 2043 I 8.2 Ali 2174 8.7 2295 9.2 2408 9.7 - - 1125 ,; 2071 1at 8.3 1 r 2203 8.8 2325 9.3 2439 9.8 - - 1200 i 2098 ? ,8.4 `f(, `2231 9.0 2354 9.5 2469 9.9 - - 1275 "- 2124 i `8.5 2258 9.1 2382 9.6 - - - - 1350 2150 18.6 2285 9.2 2410 9.7 - - - - 1425 2176 1118.7 2311 9.3 2436 9.8 - - - 1500 2202 8.8 2337 9.4 2462 9.9 - - - - High Static 1017-2490 RPM 84 ,� /YiiXC, , 50FC-A04 THREE PHASE-3 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 1017 0.07 1284 0.15 1501 0 24 -1684 0.33 1843 0.44 975 1055 0.08 1311 0.16 1527 0.25 1711 0.35 1871 0.46 1050 1096 0.09 1340 0.17 1553 0.26 1737 0.36 1899 0.48 1125 1140 0.10 1371 0.18 1580 0.27 1763 0.38 1925 0.50 1200 1186 0.12 1404 0.19 1608 0.29 1789 0.40 1951 0.52 1275 1236 0.13 1440 0.21 1637 0.31 1816 0.42 1977 0.54 1350 1286 0.15 1477 0.22 1666 0.32 1843 0.44 2004 . 0.56 1425 1338 0.17 1517 0.24 1698 0.34 1500 1391 0.19 1559 0.26 1733 0.36 1 d, ",2057 s,. AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 900 ;2' 113 2231 0.77 2342 0.89 2446 1.02 975 2264 0.81 2376 0.93 2481 1.06 1050 2043 0.59 .. 2174 0.72 2295 0.84 2408 0.97 - - 1125 2071 0.62 2203 m" 0.74 2325 0.88 2439 1.01 - - 1200 2098 0 64 31 : 0.77 2354 0.91 2469 1.05 - - 1275 2124 0.67 2258 :'`` 0.80 2382 0.94 1350 e ,.A..9 2285 0.83 2410 0.97 - - - - 1425 2176 0.72 2311 0.86 2436 1.01 1500 2202 0.74 2337 0.89 2462 1.04 - - Standard Static 1017-1890 RPM,0.44 Max BHP Medium Static 1017-2190 RPM,0.71 Max BHP High Static 1017-2490 RPM,1.07 Max BHP 50FC-A04 THREE PHASE-STANDARD STATIC-3 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1017 5.4 1284 8.9 1843 9.8 "-+ 975 1055 5.6 1311 6.9 1527 8.1 1711 9.1 - 1050 1096 5.8 1340 7.1 1553 8.2 1737 9.2 1125 1140 6.0 1371 7.3 1580 8.4 1763 9.3 1200 1186 6.3 1404 7.4 1608 8.5 1789 9.5 - - 1275 1236 6.5 1440 7.6 1637 8.7 1816 9.6 1350 1286 6.8 1477 7.8 1666 8.8 1843 9.8 1425 1338 7.1 1517 8.0 1698 9.0 1500 1391 7.4 1559 8.2 1733 9.2 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 - - - - - 975 - - 1050 - - 1125 - - - - - - - - - 1200 - - - - - - - 1275 - - - - - - 1350 - 1425 - 1500 - Standard Static 1017-1890 RPM 85 Fan data (cont) 50FC-A04 THREE PHASE-MEDIUM STATIC-3 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1017 4.6 1284 5.9 1501 z t 975 1055 4.8 1311 6.0 1527 7.0 1711 7.8 1871 8.5 1050 1096 5.0 1340 6.1 1553 7.1 1737 7.9 1899 8.7 1125 1140 5.2 1371 6.3 1580 7.2 1763 8.1 1925 8.8 1200 1186 5.4 1404 6.4 1608 7.3 1789 8.2 1951 8.9 1275 1236 5.6 1440 6.6 1637 7.5 1816 8.3 1977 9.0 1350 1286 5.9 1477 6.7 1666 7.6 1843 8.4 2004 9.2 1425 1338 6.1 1517 6.9 1698 -- •r- "1871 1500 1391 6.4 1559 7.1 1733 '00 _ 8.7 . � 9.4. AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1984 9.1 2113 .,...9,6 - - -975 2014 9.2 2144 �:: - - - - - - 1050 2043 9.3 - - - - - - - 1125 2071 9.5 - - - - - - 1200 2098 9.6 - - - - - - 1275 2124 9.7 1350 - s 9.8 - - - - - 1425 - - -- - - - - - 1500 - - - - - - Medium Static 1017-2190 RPM 50FC-A04 THREE PHASE-HIGH STATIC-3 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 i)j 1017 4.1 1284 5.2 1501 6.0 1684 6.8 1843 7.4 975 1055 -4.2 1311 5.3 1527 6.1 1711 6.9 1871 7.5 1050 1096 4.4 1340 5.4 1553 6.2 1737 7.0 1899 7.6 1125 " 1140 1 14.6 1371 5.5 1580 6.3 .1763 7.1 1925 7.7 1200 ' 1186 4.8 1404 5.6 1608 6.5 1789 7.2 1951 7.8 1275 1236 5.0 1440 5.8 1637 6.6 .' 1816 7.3 1977 7.9 1350 1286 5.2 1477 5.9 1666 6.7 843 7.4 2004 8.0 1425 1338 5.4 1517 6.1 1698 6.8 mi871 7.5 2030 8.2 1500 1391 5.6 1559 6.3 1733 7.0 ' -'1900 7.6 2057 8.3 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 900 1984 8.0 2113 8.5 INF 2231 9.0 2342 9.4 2446 9.8 975 2014 Illi8.1 y .2144 8.6 =lig 2264 9.1 2376 9.5 2481 10.0 1050 2043 ?flill'8,2 lir :2174 8.7 2295 9.2 2408 9,7 1125 2071 8.3 2203 8.8 € ;2325 9.3 2439 9.8 - - 1200 2098 8.4 At 2231 9.0 Mr 2354 9.5 2469 9.9 - - 1275 2124 ar.8.5 "', 2258 9.1 2382 9.6 - - - - 1350 2150 .lit 8.6 '", ' 2285 9.2 "`"'2410 9.7 - - - - 1425 2176 ir'.8.7 agr 2311 9.3 2436 9.8 - - - - 1500 2202 8.8 2337 11119.4 2462 9.9 - - - - High Static 1017-2490 RPM 86 Carrie 50FC-A05 SINGLE PHASE-4 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1092 0.14 1306 0.24 1497 0.35 1667 ' 0.49 1819 0.64 1300 1148 0.16 1348 0,26 1533 0.38 1700 0.52 1851 0.67 1400 1207 0.18 1394 0.28 1571 0.41 1734 0.55 1882 0.70 1500 1267 0.21 1442 0.31 1612 0.44 1770 0.58 1916 0.73 1600 1329 024 1493 0.35 1655 0.47 1808 0.61 1951 0.77 1700 1393 0.28 1546 0.38 1700 0.51 1848 0.65 1988 0.81 1800 1458 0.32 1602 0.42 1748 0.55 1890 0.70 2026 0.86 1900 1523 0.36 1659 0.47 1797 0.60 1934 0.75 2066 0.91 2000 1590 0.41 1719 0.52 1849 0.65 1980 0.80 2108 0.96 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1958 0.79 2089 0.96 2211 1.14 2327 1.33 2438 1.53 1300 1988 0.83 2117 1.00 2238 1.18 2352 1.37 - 1400 2020 0.86 2146 1.03 2266 .' 1.22 2379 1.41 - - 1500 2051 0.90 Al 2296 1.26 2408 1.46 - - 1600 2084 0.94 1.12 2327 lir-1.31 2438 1.51 - - 1700 2119 0.99 x' 1.17 2358 . 11.36 - 1800 2154 1.03 11.22 2391 .4 1.41 - 1900 - i., 1.27 2424 i 1 1.47 - - - - 2000 2459 -, t 4.1.53 - - - - Standard Static 1092-1900 RPM,0.72 Max BHP Medium Static 1092-2170 RPM, 1.06 Max BHP High Static 1092-2460 RPM, 1.53 Max BHP 50FC-A05 SINGLE PHASE-STANDARD STATIC-4 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 - RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1092 5.7 1306 6.9 1497 7.9 1667 8.8 1819 9.67 1300 1148 6.0 1348 7.1 1533 8.1 1700 8.9 1851 9.7 1400 1207 6.4 1394 7.3 1571 8.3 1734 9.1 1882 9.9 1500 1267 6.7 1442 7.6 1612 8.5 1770 9.3 1600 1329 7.0 1493 7.9 1655 8"7 1808 9.5 1700 1393 7.3 1546 8.1 1700 8.9 1848 9.7 1800 1458 7.7 1602 8.4 1748 9.2 1890 9.9 1900 1523 8.0 1659 8.7 1797 9.5 2000 1590 8.4 1719 9.0 1849 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 - - 1300 1400 - - - 1500 - - - - - - - - - - 1600 1700 1800 1900 - - - 2000 - - - - - - - Standard Static 1092-1900 RPM 87 Fan data (cont) Carrie) 50FC-A05 SINGLE PHASE-MEDIUM STATIC-4 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1092 5.0 1306 "6.0 1497 l'*„ - .f'fi667 ''''' -7i ' 7' -1819' '''''' '''''''e 8.4' 1300 1148 5.3 1348 6.2 1533 7.1 1700 - 7.8 1851 8.5 1400 1207 5.6 1394 6.4 1571 7.2 1734 8.0 1882 8.7 1500 1267 5.8 1442 6.6 1612 7.4 1770 8.2 1916 8.8 1600 1329 6.1 1493 6.9 1655 7.6 1808 8.3 1951 9.0 1700 1393 6.4 1546 7.1 1700 7.8 1848 8.5 1988 9.2 1800 1458 6.7 1602 7.4 1748 8.1 1890 8.7 2026 9.3 1900 1523 7.0 1659 7.6 1797 8.3 1934 8.9 2066 9.5 2000 1590 7.3 1719 7.9 1849 8.5 1980 9.1 2108 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1959 9.0 2089 9.6 - - - - - - 1300 1988 9.2 2117 9.8 - - - - - - 1400 2020 9.3 2146 9.9 1500 2051 9.5 - - - - 1600 2084 9.6 1700 2119 9.8 1800 2154 9.9 - - - - - 1900 - - - - 2000 Medium Static 1092-2170 RPM 50FC-A05 SINGLE PHASE -HIGH STATIC-4 TON HORIZONTAL SUPPLY(RPM- VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1092 4.4 1306 5.3 1497 6.1 1667 6.8 1819 7.4 1300 1148 4.7 1348 5.5 153 6.2 1700 .`„Aiii. 6.9,zi1851 `-k 7.5 1400 1207 4.9 1394 5.7 .157 6.4 jai734 ig 7.` S 1882 fig, 7.7 1500 1267 5.2 1442 5.9 AILa1612 .. 6.6 1E1770:y 7.4111 1916 -7.8 1600 1329 5.4 1493 61 '( r 165.511E 6.7 '.gri808 Elf 7.3E1 1951 .Et 7.9 1700 1393 5.7 1546 63 Et..17001E 6.9 sig1848'E 1' 7.5 1988 `1111 8.1 1800 1458 5.9 1602 6.5 t 17481 ( 7.1 11111890 7.72E 2026 gri 8.2 1900 1523 6.2 1659 67 s7 179; 7.3 �934% 7: 2066 '„ 8.4 2000 1590 6.5 1719 7.0 ' '" 1849-41Pr 7.5 -IF-1980 ' '- 8.0'' ` 2108 'FrF"'' 8.6 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1959 8.0 2089 8.5 1a 22111.1 9.0 2327 9.5 2438 9.9 1300 .: 1988 8.1 f 2117 8.6 >k ^2238�'. 9.1 2352 9.6 - - 1400 , '. 2020 SE8.2 `; ;:.2146 8.7 ;F .2266 9.2 2379 9.7 - - 1500 7 2051 ,3.3 t 2177 8.8 Ai.22961 9.3 2408 9.8 - - 1600 2084 "' 8.5 jig2209 9.0 ' " 2327 9.5 2438 9.9 - - 1700 2119 8.6 p 2242 9.1 2358,' 9.6 - - - - 1800 2154 8.8 2276 9.3 2391 9.7 1900 2191 8.9 2311 9.4 2424 9.9 - - - - 2000 2230 9.1 2347 9.5 2459 10.0 - - - - High Static 1092-2460 RPM 88 �arri 50FC-A05 THREE PHASE-4 TON HORIZONTAL SUPPLY(RPM-BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1093 0.14 1306 0.24 1497 0.35 1667 0.49 1819 0.64 1300 1148 0.16 1348 0.26 1533 0.38 1700 0.52 1850 0.67 1400 1206 0.18 1393 0.28 1571 0.41 1734 0.55 1883 0.70 1500 1266 0.21 1442 0.31 1612 0.44 1770 0.58 1916 0.73 1600 1329 0.24 1493 0.35 1655 0.47 1808 0.61 1951 0.77 1700 1393 0.28 1546 0.38 1700 0.51 1848 0.65 1988 0.81 1800 1458 0.32 1602 0.42 1747 0.55 1890 0.70 2026 0.86 1900 1523 0.36 1659 0.47 1797 0.60 1934 0.75 2066 0.91 2000 1590 0.41 1718 0.52 1849 0.65 1980 0.80 2108 0.96 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1200 1959 0.79 2089 0.96 ' 2211 1.14 2327 1.33 2438 153 1300 1988 0.83 1.00 2238 1.18 2352 1.37 2462 1.57 1400 2019 0.86 , 1.03 .-1. 2266 1.22 2379 1.41 2487 1.61 ;,,? 1500 2052 0.90 2177. „."G3" 2296 1.26 2408 i.46 2515 1.66 . 1600 2084 0 94 .q' 2209 III 1.12 2327 1.31 2438 11111.51 2544 1.71 ` , 1700 2119 0. ' 2242 AL 1.17 2358 1.36 2469 larti.56 2574 1.77 1800 2154 2276 1.22 2391 1.41 2500 "# 1.61 2605 1.83 1900 '-:"} 1.08 2311 1.27 2424 1.47 2533 " .... 1.68 2636 1.89 2000 ? ,,4 1.14 2347 1.33 2459 1.53 2566 1.74 - - r '," k " Standard Static 1093-1900 RPM,0.72 Max BHP Medium Static 1093-2170 RPM. 1.06 Max BHP High Static 1093-2660 RPM,1.96 Max BHP 50FC-A05 THREE PHASE-STANDARD STATIC-4 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1093 5.8 1306 6.9 1497 7.9 1667 8.8 1819 9.6 1300 1148 6.0 1348 7.1 1533 8.1 1700 8.9 1850 9.7 1400 1206 6.3 1393 7.3 1571 8.3 1734 9.1 1883 9.9 1500 1266 6.7 1442 7.6 1612 8.5 1770 9.3 1600 1329 7.0 1493 7.9 1655 8.7 1808 9.5 1700 1393 7.3 1546 8.1 1700 8.9 1848 9.7 1800 1458 7.7 1602 8.4 1747 9.2 1890 9.9 1900 1523 8.0 1659 8.7 1797 9.5 2000 1590 8.4 1718 9.0 1849 9.7 - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1300 - - 1400 - - - - - - - - - - 1500 1600 1700 1800 - - 1900 - - - 2000 - - - , Standard Static 1093-1900 RPM 89 ) Fan data (cont) (Carrier =1 50FC-M05 THREE PHASE-MEDIUM STATIC- 4 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1093 S 0 1306 6.0 1497 6.9 T 1667 1300 1148 5.3 1348 6.2 1533 7.1 1700 7.8 1850 8.5 1400 1206 5.6 1393 6.4 1571 7.2 1734 8.0 1883 8.7 1500 1266 5.8 1442 6.6 1612 7 4 1770 8.2 1916 8.8 1600 1329 5.1 1493 6.9 1655 7.6 1808 8.3 1951 9.0 1700 1393 6.4 1546 7.1 1700 7.8 1848 8.5 1988 9.2 1800 1458 6 7 1602 7.4 1747 8.1 1890 8.7 2026 9.3 1900 1523 7.0 1659 7.6 1797 8.3 1934 8.9 2066 9.5 2000 1590 7.3 1718 7.9 1849 8.5 1980 9.1 2108 9.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1959 9.0 2089 9.6 - - 1300 1988 9.2 2117 9.8 - 1400 2019 9.3 2146 9.9 1500 2052 9.5 1600 2084 9.6 1700 2119 9.8 1800 2154 9.9 - - 1900 - - - 2000 - - M.: Medium Static 1093-2170 RPM 50FC-M05 THREE PHASE- HIGH STATIC-4 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 1093 91114.1 1306 4.9 1497 5.6 1667 6.3 1819 6.8 1300 1148 1114.3 1348 5.1 1533 5.8 1700 6.4 ....,.L 1850 7.0 1400 1206 1.4.5 1111 1393 5.2 1571 5.9 1734 6.5' 1 1883 Illi: 7.1 1500 1266 1E4.8 '111 1442 5.4 1612 6.1 1770 6.7111 1916 7.2 . ' 1600 1329 1.5.0 It- 1493 5.6 1655 6.2 1808 6.811F 1951 7.3 .... 1700 1393 1115.2 It 1546 5.8 1700 6.4 1848 6.9 1988 7.5 . - n 1800 1458 .115.5 n; 1602 6.0 1747 6.6 1890 7.1 2026 7.6 1900 1523 1115.7 /111 1659 6.2 1797 6.8 1934 7.3 2066 7.8 2000 1590 1116.0 1111 1718 6.5 1849 7.0 1980 7.4 2108 7.9 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1200 ,f, 1959 7.4 2089 7.9 2211 8.3 2327 ar 8.7 2438 9.2 ...... 1300 4 1988 7.5 liii. 2117 8.0 1111 2238 8.4 2352 -isi 8.8 2462 9.3 .,, . 1400 '''' 2019 7.6 111 2146 8.1 ir 2266 8.5 2379 111 8.9 2487 9.3 n., _,... 1500 ,.3 2052 4111,7.7 lir 2177 8.2 la 2296 8.6 2408 •,: 9 1 3111: • 2515 9.5 1600 ,.. 2084 11117.8 All 2209 8.3 11112327 8.7 2438 fir 9.2 2544 9 6 .. 1700 ; 2119 Iff8.0 int 2242 8.4 ir 2358 8.9 2469 111: 9.3 .., 2574 9.7 1800 2154 11118.1 nu 2276 8.6 " 2391 9.0 2500 11 9.4 2605 9.8 1900 2191 1118.2 94, 2311 8.7 2424 9.1 2533 lir 9 5 2636 9 9 2000 2230 - 8.4 2347 8.8 2459 9.2 2566 9.6 - - - ,.. High Static 1093-2660 RPM 90 Co goo ro 50FC-A06 SINGLE PHASE-5 TON HORIZONTAL SUPPLY(RPM - BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1267 0.21 1442 0.31 1612 0.44 1770 0.58 1916 0.73 1625 1345 0.25 1506 0.35 1666 0.48 1818 0.62 1960 0.78 1750 1425 0.30 1574 0.40 1723 0.53 1869 0.68 2006 0.84 1875 1507 0.35 1644 0.46 1785 0.59 1923 0.73 2056 0.90 2000 1590 0.41 1718 0.52 1849 0.65 1980 0.80 2108 0.96 2125 1674 0.48 1794 0.59 1917 0.72 2041 0.87 2163 1.04 2250 1759 0.56 1872 0.67 1987 0.80 2104 0,95 2221 1.12 2375 1845 0.64 1951 0.76 2060 D 89 "�'"' i :; ;� 'z .•m,.^tm�r asap-21 2500 1932 0.74 2032 0.86 2135 0 99 ->",„ ,2 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 2051 0.90 2177 1.08 '2296 1.26 1625 2093 0.95 2217 1.13 2334 1.32 - - - 1750 2136 1.01 2259 1.19 2374 1.38 - - 1875 2182 1.07 2302 1.26 - - - 2000 2230 1.14 2347 1.33 - - - - - 2125 2281 1.22 - - - - - - - 2250 2334 . .. + - - - - - 2375 239®' - - - - - - 2500 - - ,. - - - - - - - Standard Static 1267-2150 RPM,1.06 Max BHP =1; Medium Static 1267-2390 RPM,1.44 Max BHP 50FC-A06 SINGLE PHASE-STANDARD STATIC-5 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1267 5.9 1442 6.7 1612 7.5 1770 8.2 1916 8.9 1625 1345 6.3 1506 7.0 1666 7.7 1818 8.5 1960 9.1 1750 1425 6.6 1574 7.3 1723 8.0 1869 8.7 2006 9.3 1875 1507 7.0 1644 7.6 1785 8.3 1923 8.9 2056 9.6 2000 1590 7.4 1719 8.0 1849 8.6 1980 9.2 2108 9.8 2125 1674 7.8 1794 8.3 1917 8.9 2041 9.5 - - 2250 1760 8.2 1872 8.7 1987 9.2 2104 9.8 2375 1845 8.6 1951 9.1 2060 9.6 2500 1932 9.0 2032 9.5 2135 9.9 - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2051 9.5 1625 2093 9.7 - 1750 2136 9.9 - 1875 - - - - 2000 - - - - - - 2125 - - 2250 - - - 2375 - - 2500 - - - - - - Standard Static 1267-2150 RPM 91 Fan data (cont) Carrie' 50FC-A06 SINGLE PHASE-MEDIUM STATIC- 5 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1267 5.3 1442 6.0 1612 /6.7 1770 � 7:4 '" 1916 8.0 1625 1345 5.6 1506 6.3 1666 7.0 1818 7.6 1960 8.2 1750 1425 6.0 1574 6.6 1723 7.2 1869 7.8 2006 8.4 1875 1507 6.3 1644 6.9 1785 7.5 1923 8.0 2056 8.6 2000 1590 6.7 1719 7.2 1849 7.7 1980 8.3 2108 8.8 2125 1674 7.0 1794 7.5 1917 8.0 2041 8.5 2163 9.1 2250 1760 7.4 1872 7.8 1987 8.3 2104 8.8 2221 9.3 2375 1845 7.7 1951 8.2 2060 8.6 2171 9.1 2281 9.5 2500 1932 8,1 2032 8.5 2135 8.9 2239 9.4 2345 9.8 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2051 8.6 2177 9.1 2296 9.6 - - -1625 2093 8.8 2217 9.3 2334 9.8. - - - 1750 2136 8.9 2259 9.5 2374 9.9 - - - - 1875 2182 9.1 2302 9.6 - - - 2000 2230 9.3 2347 9.8 - - - - - - 2125 2281 9.5 - - - 2250 2334 9.8 - - - 2375 - - - - - - - - - - 2500 - - - - Medium Static 1267-2390 RPM 92 ' Ca`_r r 4 new mnmmeks 50FC-A06 THREE PHASE-5 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1500 1267 0.21 1442 0.31 1612 044 1770 0.58 1916 0.73 1625 1345 0.25 1506 0.35 1666 0.48 1818 0.62 1960 0.78 1750 1425 0.30 1574 0.40 1723 0.53 1869 0.68 2006 0.84 1875 1507 0.35 1644 0.46 1785 0.59 1923 0.73 2056 0.90 2000 1590 0.41 1718 0,52 1849 0.65 1980 0.80 2108 0.96 2125 1674 0.48 1794 0.59 1917 0.72 2041 0.87 2163 1.04 2250 1759 0.56 1872 0.67 1987 0.80 2104 0.95 2221 1.12 2375 1845 0.64 1951 0.76 2060 0.89 2171 1.05 2281 1.21 2500 1932 0.74 2032 0.86 2135 0.99 2239 1.15 2345 1.32 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM I BHP RPM BHP 1500 2051 0.90 2177 1.08 2296 1.2 2408 1.46 2515 166 ,,' 1625 2093 0.95 2217 1.13 2334 °` 2445 1.52 2551 1.72 r, 1750 2136 1.01 2259 1.19 2374 t 2484 1.59 2589 1.80 ; 1875 2182 1.07 2302 1.26 `""`2 1.45 2524 1.66 2628 1.87 '...' 2000 2230 1.14 2347 , 133 %` 2459 a` = ,1.53 2566 1.74 2669 1.96 2125 2281 1.22 �' 235 f 4T 2505 1.61„ 2610 ie.1.83 2711 2 05 2250 23 :; 1,30 .,' 2445 1.50 2552 -mar2655 192 2754 2.14 -_, 2375 _ 2391 1.40 2497 Ailki 1.59 2601 iii 1.80 ? 2702 . 2.02 2800 2.25 2500 2449 1.50 2552-lir"1.70 2653 "� t 1.91 2751 ' ;2.13 - - iMiiiit Standard Static 1267-2150 RPM,1.06 Max BHP Medium Static 1267-2390 RPM, 1.44 Max BHP High Static 1267-2836 RPM,2.43 Max BHP 50FC-A06 THREE PHASE-STANDARD STATIC-5 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1267 5.9 1442 6.7 1612 7.5 1770 8.2 1916 8.9 1625 1345 6.3 1506 7.0 1666 7.7 1818 8.5 1960 9.1 1750 1425 6.6 1574 7.3 1723 8.0 1869 8.7 2006 9.3 1875 1507 7.0 1644 7.6 1785 8.3 1923 8.9 2056 9.6 2000 1590 7.4 1719 8.0 1849 8.6 1980 9.2 2108 9.8 2125 1674 7.8 1794 8.3 1917 8.9 2041 9.5 2250 1760 8.2 1872 8.7 1987 9.2 2104 9.8 2375 1845 8.6 1951 9.1 2060 9.6 - - 2500 1932 9.0 2032 9.5 2135 9.9 - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2051 9.5 - - - - - 1625 2093 9.7 - - - - 1750 2136 9.9 - - - - 1875 - - - 2000 - - - - - 2125 - - - - 2250 - - - - - 2375 - - - - - - - - - 2500 - - - - - - Standard Static 1267-2150 RPM 93 Fan data (cont) Carrie 50FC-A06 THREE PHASE-MEDIUM STATIC- 5 TON HORIZONTAL SUPPLY(RPM -VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 -"'`1267 5.3 1442 6.0 1612 1625 1345 5.6 1506 6.3 1666 7.0 1818 7.6 1960 82 1750 1425 6.0 1574 6.6 1723 7.2 1869 7.8 2006 8.4 1875 1507 6.3 1644 6.9 1785 7.5 1923 8.0 2056 8.6 2000 1590 6.7 1719 7.2 1849 7.7 1980 8.3 2108 8.8 2125 1674 7.0 1794 7.5 1917 8.0 2041 8.5 2163 9.1 2250 1760 7.4 1872 7.8 1987 8.3 2104 8.8 2221 9.3 2375 1845 7.7 1951 8.2 2060 8.6 2171 9.1 2281 9.5 2500 1932 8.1 2032 8.5 2135 8.9 2239 9.4 2345 9.8 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 2051 8.6 2177 9.1 2296 9.6 - - 1625 2093 8.8 2217 9.3 2334 9.8 1750 2136 8.9 2259 9.5 2374 9.9 - - - 1875 2182 9.1 2302 9.6 - - - 2000 2230 9.3 2347 , 9.8 2125 2281 9.5 - - - - - - 2250 2334 9.8 - - - 2375 - - 2500 - - Medium Static 1267-2390 RPM 50FC-A06 THREE PHASE-HIGH STATIC- 5 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 1267 4.5 1442 5.1 1612 5.7 1770 6.2 1916 6.8 1625 _ 1345 4.7 1506 5.3 1666 5.9 1818 6 4 1960 6.9 1750 1425 5.0 1574 5.6 a1111723 6.1 1869 1111 6. ._ 2006 7.1 1875 1507 5.3 s 1644 5.8 1785 6.3 1923 6. 1 2056 7.2 2000 1590 5.6 jut 1719 6.1 1849 6.5 1980 ` 7. r""' 2108 7.4 2125 f 1674 5.9 ler1794 6.3 1917 6.8 2041 it 7.21.1 2163 7.6 2250 fi 1760 6.2 ,mill 1872 6.6 1987 7.0 2104 111 7.41111`, 2221 7.8 •2375 ;'- 1845 6.5 `I. 1951 6.9 -gri2060 7.3 2171 IKE 7.771K : 2281 8.0 2500 1932 6.8 liri..2032 7.2 2135 7.5 2239 ` 7.9 ler '2345 8.3 -- - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1500 i 2051 1117.2 7111 7.7 229.6 8.1 2408 8.5 2515 .8.9 1625 1`. 2093 s 7.4 , "'2217 7.8 233 M1 8.2 2445 8.6 2551 9.0 1750 " 2136 ; 75 =a 2259 8.0 237A ! 8.4 2484 8.8 2589 ,9.1 1875 I 2182 i 7.7 2302 8.1 241, 8.5 2524 8. ', 2628 9.3 2000 2230 .9 2347 8.3 245 8.7 2566 9 2669 9.4 2125 r 2281 1118.0 2395 8.4 25051. 8.8 2610 9.211 2711 9.6 2250 . 2334 18.2 2445 8.6 25521111 9.0 2655 2375 2391 lip 8.4 2498 8.8 2602 '; 9.2 2702 9.5 2800 9.9 2500 k. 2449 "8.6 2552 9.0 2653 '- 9.4 2752 9.7 - - High Static 1267-2836 RPM 94 (Carrie 50FC-M07 THREE PHASE-6 TON HORIZONTAL SUPPLY(RPM- BHP) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 1379 0.27 1512 0.35 ':51650 0.46 1786 . 0.58 1918 0.72 1950 1473 0.32 1594 0.41 1721 0.52 1848 0.64 1973 0.78 2100 1569 0.39 1680 0.48 1796 0.59 1915 0.71 2032 0.85 2250 1666 0.47 1769 0.56 1876 0.67 1986 0.79 2096 0.93 2400 1764 0.55 1860 0.65 1959 0.76 2061 0.88 2165 1.02 2550 1863 0.65 1952 0.75 2045 0.86 2140 0.99 2237 1.13 2700 1963 0.76 2047 0.86 2133 0.97 2222 1.10 2313 1.24 2850 2063 0.88 2142 0.99 2223 1.10 2307 1.23 2393 1.37 3000 2163 1.01 2238 1.12 2315 1.24 2394 1.37 2474 1.52 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1800 2044 0.87 2163 1.03 2276 1.20 2383 1.38 24:.' 57 7r 1950 2094 0.93 2210 1.10 2320 1.27 2426 1.45 . 2100 2148 1.00 2260 1.17 2367 1.34 2471 1.53 ,x2570 1.72 >'I 2250 2206 1.08 2313 1.25 2417 143 iit'�' _°-; ,i y j 2616 1.81 2400 2268 1.18 2371 1.34 2471 1.52 .: 2569 1.71 '. 2664 1.90 ',.: 2550 2335 1.28 2432 1.45 2528 1 62 2622 11111.81 IR" 2715 2.01 2700 2405 1.40 2497 1.56 2680 girt93 fInt 2769 2.13 2850 2479 1.53 • 2740 a 2.06 ii.M. 2826 2.26 3000 2804 Mr 2.21 '' - - Standard Static 1379-2300 RPM, 1.31 Max BHP Medium Static 1379-2530 RPM, 1.76 Max BHP High Static 1379-2836 RPM,2.43 Max BHP 50FC-M07 THREE PHASE-STANDARD STATIC-6 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1379 6.0 1512 6.6 1650 7.2 1786 7.8 1918 8.3 1950 1473 6.4 1594 6.9 1721 7.5 1848 8.0 1973 8.6 2100 1569 6.8 1680 7.3 1796 7.8 1915 8.3 2032 8.8 2250 1666 7.2 1769 7.7 1876 8.2 1986 8.6 2096 9.1 2400 1764 7.7 1860 8.1 1959 8.5 2061 9.0 2165 9.4 2550 1863 8.1 1952 8.5 2045 8.9 2140 9.3 2237 9.7 2700 1963 8.5 2047 8.9 2133 9.3 2222 9.7 2850 2063 9.0 2142 9.3 2223 9.7 3000 2163 9.4 2238 9.7 - - - - AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2044 8.9 2163 9.4 2276 9.9 - 1950 2094 9.1 2210 9.6 2100 2148 9.3 2260 9.8 - 2250 2206 9.6 2400 2268 9.9 2550 2700 2850 - - - 3000 - - - - - Standard Static 1379-2300 RPM 95 Fan data (cont) Carrier) Py eoa.o*.m.... 50FC-M07 THREE PHASE-MEDIUM STATIC-6 TON HORIZONTAL SUPPLY (RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1379 `'5.5' 1512 6.0 1650 6.5 1786 7.1 1918 7.6 1950 1473 5.8 1594 6.3 1721 6.8 1848 7.3 1973 7.8 2100 1569 6.2 1680 6.6 1796 7.1 1915 7.6 2032 8.0 2250 1666 6.6 1769 7.0 1876 7.4 1986 7,8 2096 8.3 2400 1764 7.0 1860 7.4 1959 7.7 2061 8.1 2165 8.6 2550 1863 7.4 1952 7.7 2045 8.1 2140 8.5 2237 8.8 2700 1963 7.8 2047 8.1 2133 8.4 2222 8.8 2313 9.1 2850 2063 8.2 2142 8.5 2223 8.8 2307 9.1 2393 9.5 3000 2163 8.5 2238 8.8 2315 9.2 2394 9.5 2474 9.8 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2044 8.1 2163 8.5 2276 9.0 2383 9.4 2486 9.8 1950 2094 8.3 2210 8.7 2320 9.2 2426 9.6 2527 10.0 2100 2148 8.5 2260 8.9 2367 9.4 2471 9.8 2250 2206 8.7 2313 9.1 2417 9.6 2518 10.0 2400 2268 9.0 2371 9.4 2471 9.8 2550 2335 9.2 2432 9.6 2528 10.0 2700 2405 9.5 2497 9.9 - - - - 2850 2479 9.8 - - - - - 3000 - - - - - - - - - - Medium Static 1379-2530 RPM 50FC-M07 THREE PHASE-HIGH STATIC-6 TON HORIZONTAL SUPPLY(RPM-VDC) AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 0.2 0.4 0.6 0.8 1.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 1379 4.9 1512 5.3 1650 5.8 1786 6.3 1918 6.8 1950 1473 =,.5.2 --,,. 1594 5.6 1721 , 6.1 1848 - 6.5 1973 ,,. ....7.0 2100 1569 11E5.5 1 1680 5.9 =179° i 6.3 1915 jig 6.8 2032 3 7.2 2250 1666 5,9 y 1769 62 Vil1876111t. 6.6 1986api. 7.0 2096 - 7.4 2400 1764 16 2 " 1860 6.6 1959.E 6.9 2061 y 7.3 2165 7.6 2550 1863 1516.6 1952 6 9 "'Illr.20 e. 7.2 2140 7.5 2237 ;' `<7.9 2700 1963 56.9 s 2047 7.2 213 7,5 2222 sr 7.8 2313 At 8.2 2850 2063 7.3 2142 7.6 =Ar 22231111 7.8 2307 I. 8.1 2393 111 8.4 3000 2163 7.6 2238 7.9 Mr;23+ :• 6.2. 2394 ` 8.4 2474 "1,15 8.7 AVAILABLE EXTERNAL STATIC PRESSURE(in.wg) CFM 1.2 1.4 1.6 1.8 2.0 RPM Vdc RPM Vdc RPM Vdc RPM Vdc RPM Vdc 1800 2044 illr7.2 lir 2163 7.6 '2276 8.0 2383 8.4 2486 �t 8.8 1950 2094 fi 7.4 ; !. 2210 7.8 =' a 2320 8.2 55: ..426 8. 2527 to 8.9 2100 2148 11117.6 AB 2260 8.0 %ar 2367 8.3 1E2471 8.7INE 2570 illt 9.1 2250 2206 7.8 ` 2313 8.2 y. 2417 8.5 '�518 8. 2616 =� 9.2 2400 2268 8.0 z`>2371 8.4 ;2471 8.7 2569 9.1 : 2664 "' 9.4 2550 2335 )8.2 ,4 , 2432 8.6 ,::_lir 2528 8.9 622 9. 2715 9.6 2700 2405 1 8.5 " 2497 8.8 2589 9.1 2680 9.. " 2769 9.8 2850 2479 lirr 8.7 2566 9.0 2654 9.4 iFy2740 9.7 2826 10.0 3000 2556 .mm.... 9.0 2639 9.3 2722 9.6 m_�2804 9.9 ._`.: - - -High Static 1379-2836 RPM 96 Electrical data Carrier Legend and Notes NOTES: for Electrical Data Tables on pages 98 to 1. In compliance with NEC requirements for multi-motor and combi- ApplicableP S nation load equipment (refer to NEC Articles 430 and 440), the 118 overcurrent protective device for the unit shall be fuse or HACR LEGEND breaker.Canadian units may be fuse or circuit breaker. 2. For 208/230 v units, where one value is show it is the same for BRKR —Circuit Breaker either 208 or 230 volts. C.O. —Convenience Outlet 3. Unbalanced 3-Phase Supply Voltage Never operate a motor where a phase imbalance in supply voltage FLA —Full Load Amps is greater than 2%.Use the following formula to determine the per- IFM —Indoor Fan Motor centage of voltage imbalance. LRA —Locked Rotor Amps %Voltage Imbalance: MCA —Minimum Circuit Amps =100 x max voltage deviation from average voltage P.E. —Power Exhaust average voltage PWRD C.O. —Powered Convenience Outlet RLA —Rated Load Amps Example:Supply voltage is 230-3-60 UNPWR C.O.—Unpowered Convenience Outlet A B c AB=224 v BC=231 v n�o*oR AC=226 v Average Voltage = (224+231 +226) 6813 _ 227 Determine maximum deviation from average voltage. (AB)227-224=3 v (BC)231-227=4 v (AC)227-226=1 v Maximum deviation is 4 v. Determine percent of voltage imbalance. %Voltage Imbalance =100x 227 =1.78% This amount of phase imbalance is satisfactory as it is below the maximum allowable 2%. IMPORTANT:If the supply voltage phase imbalance is more than 2%, contact your local electric utility company immediately. NOTE:Check all factory and field electrical connections for tightness. 97 Electrical data (cont) carrier; 48/50FC' 04-07 COOLING ELECTRICAL DATA UNIT COMPRESSOR OFM(EA) IFM COMBUSTION POWER 48/50FC VOLTAGE FAN MOTOR EXHAUST UNIT V-Ph-Hz RANGE EFFCY KIT FLA MIN MAX RLA LRA WATTS FLA TYPE AT FULL FLA FLA LOAD OTY (EA KIT) STD 83% 3.0 208-1-60 187 253 15.4 84 275 1.5 MED 84% 4.5 0.48 1 1.9 HIGH 89% 6.1 STD 83% 3.0 230-1-60 187 253 15.4 84 275 1.5 MED 84% 4.5 0.48 1 1.9 HIGH 89% 6.1 STD 83% 3.0 208-3-60 187 253 10.4 73 275 1.5 MED 84% 4.5 0.48 1 1.9 HIGH 89% 6.1 *'04 STD 83% 3.0 230-3-60 187 253 10.4 73 275 1.5 MED 84% 4.5 0.48 1 1.9 HIGH 89% 6.1 STD 85% 0.8 460-3-60 414 506 5.8 38 275 0.8 MED 85% 1.2 0.25 1 1,0 HIGH 84% 1.5 STD 84% 0.8 575-3-60 518 633 3.8 37 275 0.6 MED 84% 1.1 0.24 1 1.9 HIGH 85% 1.5 STD 84% 4.5 208-1-60 187 253 19.6 130 275 1.5 MED 88% 6.1 0.48 1 1.9 HIGH 84% 8.8 STD 84% 4.5 230-1-60 187 253 19.6 130 275 1.5 MED 88% 6.1 0.48 1 1.9 HIGH 84% 8.8 STD 84% 4.5 208-3-60 187 253 13.7 83 275 1.5 MED 88% 6.1 0.48 1 1.9 HIGH 85% 5.1 "05 STD 84% 4.5 230-3-60 187 253 13.7 83 275 1.5 MED 88% 6.1 0.48 1 1.9 HIGH 85% 5.1 STD 85% 1.2 460-3-60 414 506 6.2 41 275 0.8 MED 86% 1.5 0.25 1 1.0 HIGH 88% 2.4 STD 84% 1.1 575-3-60 518 633 4.8 33 275 0.6 MED 85% 1.5 0.24 1 1.9 HIGH 88% 2.2 208-1-60 187 253 24.4 144 275 1.5 STD 85% 6.4 0.48 1 1.9 MED 84% 8.6 230-1-60 187 253 24.4 144 275 1.5 STD 85% 6.4 0.48 1 1.9 MED 84% 8.6 STD 85% 6.4 208-3-60 187 253 16.0 110 275 1.5 MED 84% 8.6 0.48 1 1.9 HIGH 84% 6.4 STD 85% 6.4 "06 230-3-60 187 253 16.0 110 275 1.5 MED 84% 8.6 0.48 1 1.9 HIGH 84% 6.4 STD 86% 1.5 460-3-60 414 506 7.8 52 275 0.8 MED 86% 1.9 0.25 1 1.0 HIGH 88% 2.9 STD 84% 1.5 575-3-60 518 633 5.7 39 275 0.6 MED 85% 1.8 0.24 1 1.9 HIGH 87% 2.5 98 �arrie� 4 UYhdreanowalas 48/50FC**04-07 COOLING ELECTRICAL DATA (cont) UNIT COMPRESSOR OFM(EA) IFM COMBUSTION POWER 48lSOFC VOLTAGE FAN MOTOR EXHAUST UNIT V-Ph-Hz RANGE EFFCY KIT FLA MIN MAX RLA LRA WATTS FLA TYPE AT FULL FLA FLA LOAD OTY (EA KIT) STD 84% 7.8 208-3-60 187 253 17.5 136 275 1.5 MED 88% 4.5 0.48 1 1.9 HIGH 84% 6.4 STD 84% 7.8 230-3-60 187 253 17.5 136 275 1.5 MED 88% 4.5 0.48 1 1.9 HIGH 84% 6.4 "07 STD 85% 1.8 460-3-60 414 506 8.4 66 275 0.8 MED 88% 2.2 0.25 1 1.0 HIGH 88% 2.9 STD 85% 1.7 575-3-60 518 633 6.3 55 275 0.6 MED 88% 2.0 0.24 1 1.9 HIGH 87% 2.5 99 Electrical data (cont) �arrie� +r united helwnluyes 48FC*'04-07 MCA MOCP ELECTRICAL DATA NO CONVENIENCE OUTLET OR UNPOWERED CONVENIENCE OUTLET 48FC NOM. NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT SIZE V-PH-Hz IFM TYPE FUSE OR DISCONNECT SIZE FUSE OR DISCONNECT SIZE MCA HACR FLA LRA MCA HACR FLA LRA BREAKER BREAKER STD 24 30 23 92 26 30 25 94 208/230-1-60 MED 26 30 25 94 28 40 27 96 HIGH 27 40 26 97 29 40 29 99 STD 18 25 17 81 20 25 19 83 208/230-3-60 MED 19 25 19 83 21 30 21 85 04 HIGH 21 30 21 86 23 30 23 88 STD 9 15 9 41 10 15 10 42 460-3-60 MED 10 15 9 42 11 15 10 43 HIGH 10 15 9 42 11 15 10 43 STD 7 15 6 40 9 15 8 42 575-3-60 MED 7 15 6 41 9 15 9 43 HIGH 7 15 7 41 9 15 9 43 STD 31 50 29 140 33 50 32 142 208/230-1-60 MED 33 50 31 143 34 50 33 145 HIGH 35 50 34 146 37 50 37 148 STD 24 30 23 93 25 30 25 95 208/230-3-60 MED 25 30 24 96 27 40 27 98 05 HIGH 24 30 23 94 26 30 26 96 STD 10 15 9 45 11 15 11 46 460-3-60 MED 11 15 10 45 12 15 11 46 HIGH 11 15 11 46 12 15 12 47 STD 8 15 7 37 10 15 10 39 575-3-60 MED 9 15 8 37 10 15 10 39 HIGH 9 15 9 38 11 15 11 40 208/230-1-60 STD 39 60 37 157 41 60 39 159 MED 41 60 40 160 43 60 42 162 STD 28 40 27 123 30 45 30 125 208/230-3-60 MED 31 45 30 126 32 45 32 128 HIGH 28 40 27 123 30 45 30 125 **06 STD 13 15 12 56 14 20 13 57 460-3-60 MED 13 20 12 57 14 20 13 58 HIGH 14 20 13 58 15 20 14 59 STD 10 15 9 43 12 15 11 45 575-3-60 MED 10 15 9 43 12 15 12 45 HIGH 11 15 10 45 13 15 12 47 STD 32 45 31 151 34 50 33 153 208/230-3-60 MED 28 45 27 146 30 45 29 148 HIGH 30 45 29 149 32 45 31 151 STD 14 20 13 71 15 20 14 72 **07 460-3-60 MED 14 20 13 71 15 20 14 72 HIGH 15 20 14 72 16 20 15 73 STD 11 15 10 59 13 15 12 61 575-3-60 MED 11 15 10 60 13 15 12 62 HIGH 11 15 11 61 13 15 13 63 100 Carrier 48FC"04-07 MCA MOCP ELECTRICAL DATA(cont) w/POWERED CONVENIENCE OUTLET 48FC NOM. NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT SIZE V-PH-Hz IFM TYPE FUSE OR DISCONNECT SIZE FUSE OR DISCONNECT SIZE MCA HACK FLA LRA MCA HACR FLA LRA BREAKER BREAKER STD 23 30 23 86 25 30 25 88 208/230-3-60 MED 24 30 24 88 26 30 27 90 HIGH 26 30 26 91 28 30 28 93 STD 12 15 11 43 13 15 12 44 "04 460-3-60 MED 12 15 12 44 13 15 13 45 HIGH 12 15 12 44 13 15 13 45 STD 8 15 8 42 10 15 10 44 575-3-60 MED 9 15 8 43 11 15 10 45 HIGH 9 15 9 43 11 15 11 45 STD 28 40 28 98 30 40 30 100 208/230-3-60 MED 30 40 30 101 32 45 32 103 HIGH 29 40 29 99 31 40 31 101 STD 12 15 12 47 13 15 13 48 "05 460-3-60 MED 13 15 12 47 14 15 13 48 HIGH 14 15 13 48 15 20 14 49 STD 10 15 9 39 12 15 12 41 575-3-60 MED 10 15 10 39 12 15 12 41 HIGH 11 15 11 40 13 15 13 42 STD 33 45 33 128 35 50 35 130 208/230-3-60 MED 35 50 36 131 37 50 38 133 HIGH 33 45 33 128 35 50 35 130 STD 15 20 14 58 16 20 15 59 "06 460-3-60 MED 15 20 15 59 16 20 16 60 HIGH 16 20 16 60 17 20 17 61 STD 11 15 11 45 13 15 13 47 575-3-60 MED 12 15 11 45 14 15 13 47 HIGH 12 15 12 47 14 20 14 49 STD 36 50 36 156 38 50 39 158 208/230-3-60 MED 33 50 33 151 35 50 35 153 HIGH 35 50 35 154 37 50 37 156 STD 16 20 15 73 17 20 16 74 **07 460-3-60 MED 16 20 16 73 17 25 17 74 HIGH 17 20 16 74 18 25 18 75 STD 12 15 12 61 14 20 14 63 575-3-60 MED 13 15 12 62 15 20 14 64 HIGH 13 15 13 63 15 20 15 65 roi Electrical data (cont) Carrier) ___ 50FC"04 MCA MOCP ELECTRICAL DATA ELECTRIC HEATER NO CONVENIENCE OUTLET or UNPOWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT - IFM CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE SIZE VPh-Ph-Hz TYPE ***ADO (kW) FLA MCA OR MCA OR HACR FLA LRA HACR FLA LRA BRKR BRKR NONE 24 30 23 92 26 30 25 94 323A 3.3/4.4 15.9/18.3 24/27 30/30 23/24 92/92 26/29 30/30 25/27 94/94 STD 324A 4.9/6.5 23.5/27.1 34/38 35/40 30/35 92/92 36/40 40/45 33/37 94/94 325A 6.5/8.7 31.4/36.3 43/50 45/50 40/45 92/92 46/52 50/60 42/47 94/94 326A 7.9/10.5 37.9/43.8 52/59 60/60 47/54 92/92 54/61 60/70 49/56 94/94 327A 9.8/13.0 46.9/54.2 63/72 70/80 57/66 92/92 65/74 70/80 60/68 94/94 NONE - - 26 30 25 94 28 40 27 96 323A 3.3/4.4 15.9/18.3 26/29 30/30 25/26 94/94 28/31 40/40 27/28 96/96 208/230-1-60 MED 324A 4.9/6.5 23.5/27.1 35/40 40/40 32/36 94/94 38/42 40/45 34/39 96/96 325A 6.5/8.7 31.4/36.3 45/51 45/60 41/47 94/94 48/54 50/60 43/49 96/96 326A 7.9/10.5 37.9/43.8 53/61 60/70 49/56 94/94 56/63 60/70 51/58 96/96 327A 9.8/13.0 46.9/54.2 65/74 70/80 59/68 94/94 67/76 70/80 61/70 96/96 NONE 27 40 26 97 29 40 29 99 323A 3.3/4.4 15.9/18.3 28/31 40/40 26/28 97/97 30/33 40/40 29/30 99/99 HIGH 324A 4.9/6.5 23.5/27.1 37/42 40/45 34/38 97/97 40/44 40/45 36/40 99/99 325A 6.5/8.7 31.4/35.3 47/53 50/60 43/49 97/97 50/56 50/60 45/51 99/99 326A 7.9/10.5 37.9/43.8 55/63 60/70 51/57 97/97 58/65 60/70 53/60 99/99 327A 9.8/13.0 46.9/54.2 67/76 70/80 61/69 97/97 69/78 70/80 63/72 99/99 NONE - - 18 25 17 81 20 25 19 83 323A 3.3/4.4 9.2/10.6 18/18 25/25 17/17 81/81 20/20 25/25 19/19 83/83 STD 324A 4.9/6.5 13.6/15.6 21/24 25/25 19/21 81/81 24/26 25/30 21/24 83/83 325A 6.5/8.7 18.1/20.9 27/30 30/30 24/27 81/81 29/33 30/35 26/30 83/83 326A 7.9/10.5 21.9/25.3 32/36 35/40 29/33 81/81 34/38 35/40 31/35 83/83 328A 12.0/16.0 33.4/38.5 46/52 50/60 42/48 81/81 48/55 50/60 44/50 83/83 NONE - - 19 25 19 83 21 30 21 85 323A 3.3/4.4 9.2/10.6 19/19 25/25 19/19 83/83 21/22 30/30 21/21 85/85 208/230-3-60 MED 324A 4.9/6.5 13.6/15.6 23/26 25/30 21/23 83/83 25/28 30/30 23/25 85/85 325A 6.5/8.7 18.1/20.9 29/32 30/35 26/29 83/83 31/35 35/35 28/31 85/85 326A 7.9/10.5 21.9/25.3 33/38 35/40 30/34 83/83 36/40 40/40 33/36 85/85 ..04 328A 12.0/16.0 33.4/38.5 48/54 50/60 44/49 83/83 50/57 50/60 46/52 85/85 NONE 21 30 21 86 23 30 23 88 323A 3.3/4.4 9.2/10.6 21/21 30/30 21/21 86/86 23/24 30/30 23/23 88/88 HIGH 324A 4.9/6.5 13.6/15.6 25/28- 30/30 23/25 86/86 27/30 30/30 25/27 88/88 325A 6.5/8.7 18.1/20.9 31/34 35/35 28/31 86/86 33/37 35/40 30/33 88/88 326A 7.9/10.5 21.9/25.3 35/40 35/40 32/36 86/86 38/42 40/45 34/38 88/88 328A 12.0/16.0 33.4/38.5 50/56 50/60 45/51 86/86 52/59 60/60 48/53 88/88 NONE - - 9 15 9 41 10 15 10 42 333A 6.0 7.2 10 15 9 41 12 15 10 42 STD 334A 8.8 10.6 15 15 13 41 16 20 14 42 335A 11.5 13.8 19 20 17 41 20 20 18 42 336A 14.0 16.8 22 25 20 41 24 25 21 42 NONE - - 10 15 9 42 11 15 10 43 333A 6.0 7.2 11 15 10 42 12 15 11 43 460-3-60 MED 334A 8.8 10.6 15 15 14 42 16 20 15 43 335A 11.5 13.8 19 20 17 42 20 25 18 43 336A 14.0 16.8 23 25 21 42 24 25 22 43 NONE 10 15 9 42 11 15 10 43 333A 6.0 7.2 11 15 10 42 13 15 11 43 HIGH 334A 8.8 10.6 16 20 14 42 17 20 15 43 335A 11.5 13.8 20 20 18 42 21 25 19 43 336A 14.0 16.8 23 25 21 42 25 25 22 43 NONE 7 15 6 40 9 15 8 42 STD 339A 10.0 9.6 13 15 12 40 16 20 14 42 340A 15.0 14.4 19 20 17 40 22 25- 20 42 NONE 7 15 6 41 9 15 9 43 575-3-60 MED 339A 10.0 9.6 14 15 12 41 16 20 14 43 340A 15.0 14.4 20 20 18 41 22 25 20 43 NONE - - 7 15 7 41 9 15 9 43 HIGH 339A 10.0 9.6 14 15 13 41 17 20 15 43 340A 15.0 14.4 20 20 18 41 23 25 20 43 102 Carrier 50FC"04 MCA MOCP ELECTRICAL DATA(cont) ELECTRIC HEATER w/POWERED CONVENIENCE OUTLET SOFC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT - IFM CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE SIZE VPh-Ph-Hi TYPE *.*A00 (kW) FLA MCA OR MCA OR HACR FLA LRA HACR FLA LRA BRKR BRKR NONE - - 23 30 23 86 25 30 25 88 323A 3.3/4.4 9.2/10.6 23/23 30/30 23/23 86/86 25/26 30/30 25/25 88/88 STD 324A 4.9/6.5 13.6/15.6 27/30 30/30 25/27 86/86 30/32 30/35 27/29 88/88 325A 6.5/8.7 18.1/20.9 33/36 35/40 30/33 86/86 35/39 35/40 32/35 88/88 326A 7.9/10.5 21.9/25.3 38/42 40/45 34/38 86/86 40/44 40/45 36/40 88/88 328A 12.0/16.0 33.4/38.5 52/58 60/60 47/53 86/86 54/61 60/70 50/55 88/88 NONE - - 24 30 24 88 26 30 27 90 323A 3.3/4.4 9.2/10.6 24/25 30/30 24/24 88/88 26/28 30/30 27/27 90/90 208/230-3-60 MED 324A 4.9/6.5 13.6/15.6 29/32 30/35 26/29 88/88 31/34 35/35 29/31 90/90 325A 6.5/8.7 18.1/20.9 35/38 35/40 32/35 88/88 37/41 40/45 34/37 90/90 326A 7.9/10.5 21.9/25.3 39/44 40/45 36/40 88/88 42/46 45/50 38/42 90/90 • 328A 12.0/16.0 33.4/38.5 54/60 60/60 49/55 88/88 56/63 60/70 51/57 90/90 NONE - - 26 30 26 91 28 30 28 93 323A 3.3/4.4 9.2/10.6 26/27 30/30 26/26 91/91 28/30 30/30 28/28 93/93 HIGH 324A 4.9/6.5 13.6/15.6 31/34 35/35 28/30 91/91 33/36 35/40 30/33 93/93 325A 6.5/8.7 18.1;20.9 37/40 40/40 33/37 91/91 39/43 40/45 36/39 93/93 326A 7.9/10.5 21.9/25.3 41/46 45/50 38/42 91/91 44/48 45/50 40/44 93/93 328A 12.0/16.0 33.4/38.5 56/62 60/70 51/57 91/91 58/65 60/70 53/59 ' 93/93 NONE - - 12 15 11 43 13 15 12 44 333A 6.0 7.2 13 15 12 43 14 15 13 44 **04 STD 334A 8.8 10.6 17 20 16 43 19 20 17 44 335A 11.5 13.8 21 25 19 43 23 25 20 44 336A 14.0 16.8 25 25 23 43 26 30 24 44 NONE - - 12 15 12 44 13 15 13 45 333A 6.0 7.2 14 15 12 44 15 15 13 45 460-3-60 MED 334A 8.8 10.6 18 20 16 44 19 20 17 45 335A 11.5 13.8 22 25 20 44 23 25 21 45 336A 14.0 16.8 26 30 23 44 27 30 24 45 NONE 12 15 12 44 13 15 13 45 333A 6.0 7.2 '4 15 13 44 15 15 14 45 HIGH 334A 8.8 10.6 18 20 16 44 20 20 18 45 335A 11.5 13.8 22 25 20 44 24 25 21 45 336A 14.0 16.8 26 30 24 44 27 30 25 45 NONE 8 15 8 42 10 15 10 44 STD 339A 10.0 9.6 16 20 14 42 18 20 16 44 340A 15.0 14.4 22 25 19 42 24 25 22 44 NONE 9 15 8 43 11 15 10 45 575-3-60 MED 339A 10.0 9.6 16 20 14 43 18 20 16 45 340A 15.0 14.4 22 25 20 43 24 25 22 45 NONE 9 15 9 43 11 15 11 45 HIGH 339A 10.0 9.6 16 20 15 43 19 20 17 45 340A 15.0 14.4 22 25 20 43 25 25 22 45 103 Electrical data (cont) Carrier 4,%enlhe taenalagia 50FC**05 MCA MOCP ELECTRICAL DATA ELECTRIC HEATER NO CONVENIENCE OUTLET or UNPOWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT NONI. IFM CRHEATER NOM FLA FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE V-Ph-Hz TYPE OR - OR SIZE "'A00 (kW) MCA HACRR FLA LRA MCA HACRR FLA LRA BRK NONE — — 31 50 29 140 33 50 32 142 323A 3.3/4.4 15.9/18.3 31/31 50/50 29/29 140/140 33/33 50/50 32/32 142/142 325A 6.5/8.7 31.4/36.3 45/51 50/60 41/47 140/140 48/54 50/60 43/49 142/142 STD 327A 9.8/13.0 46.9/54.2 65/74 70/80 59/68 140/140 67/76 70/80 61/70 142/142 329A 13.1/17.4 62.8/72.5 85/97 90/100 77/89 140/140 87/99 90/100 80/91 142/142 330A* 14.4/19.2 69.3/80.0 93/106 100/110 85/97 140/140 95/108 100/110 87/99 142/142 331Af 15.8/21.0 75.8/87.5 101/115 110/125 92/106 140/140 103/118 110/125 95/108 142/142 NONE — — 33 50 31 143 34 50 _ 33 145 323A 3.3/4.4 15.9/18.3 33/33 50/50 31/31 143/143 34/34 50/50 33/33 145/145 325A 6.5/8.7 31.4/36.3 47/53 50/60 43/49 143/143 50/56 50/60 45/51 145/145 208/230-1-60 MED 327A 9.8/13.0 46.9/54.2 67/76 70/80 61/69 143/143 69/78 70/80 _ 63/72 145/145 329A 13.1/17.4 62.8/72.5 87/99 90/100 79/90 143/143 89/101 90/110 81/93 145/145 330A' 14.4/19.2 69.3/80.0 95/108 100/110 87/99 143/143 97/110 100/125 89/101 145/145 331At 15.8/21.0 75.8/87.5 103/117 110/125 94/108 143/143 105/120 110/125 96/110 145/145 NONE — — 35 50 34 146 37 50 37 148 323A 3.3/4.4 15.9/18.3 35/35 50/50 34/34 146/146 37/37 50/50 37/37 148/148 325A 6.5/8.7 31.4/36.3 51/57 60/60 46/52 146/146 53/59 60/60 48/54 148/148 HIGH 327A 9.8/13.0 46.9/54.2 70/79 70/80 64/72 146/146 72/82 80/90 66/75 148/148 329A 13.1/17.4 62.8/72.5 90/102 90/110 82/93 146/146 92/104 100/110 85/96 148/148 330A' 14.4/19.2 69.3/80.0 98/111 100/125 90/102 146/146 100/114 110/125 92/104 148/148 331At 15.8/21.0 75.8/87.5 106/121 110/125 97/111 146/146 109/123 1101125 99/113 148/148 NONE 24 30 23 93 25 30 25 95 324A 4.9/6.5 13.6/15.6 24/26 30/30 23/23 93/93 25/28 30/30 25/25 95/95 STD 325A 6.5/8.7 18.1/20.9 29/32 30/35 26/29 93/93 31/35 35/35 28/31 95/95 328A 12.0/16.0 33.4/38.5 48/54 50/60 44/49 93/93 50/57 50/60 46/52 95/95 330A' 14.4/19.2 40.0/46.2 56/64 60/70 51/58 93/93 58/66 60/70 53/60 95/95 "05 _ _ 331At 15.8/21.0 43.8/50.5 61/69 70/70 56/63 93/93 63/72 70/80 58/65 95/95 NONE 25 30 24 96 27 40 27 98 324A 4.9/6.5 13.6/15.6 25/28 30/30 24/25 96/96 27/30 40/40 27/27 98/98 208/230-3-60 MED 325A 6.5/8.7 18.1/20.9 31/34 35/35 28/31 96/96 33/37 40/40 30/33 98/98 328A 12.0/16.0 33.4/38.5 50/56 50/60 45/51 96/96 52/59 60/60 48/53 98/98 330A' 14.4/19.2 40.0/46.2 58/66 60/70 53/60 96/96 60/68 60/70 55/62 98/98 331 At 15.8/21.0 43.8/50.5 63/71 70/80 57/65 96/96 65/74 70/80 60/67 98/98 NONE — — 24 30 23 94 26 30 26 96 324A 4.9/6.5 13.6/15.6 24/26 30/30 23/24 94/94 26/29 30/30 26/26 96/96 HIGH 325A 6.5/8.7 18.1/20.9 29/33 30/35 27/30 94/94 32/35 35/35 29/32 96/96 328A 12.0/16.0 33.4/38.5 49/55 50/60 44/50 94/94 51/57 60/60 46/52 96/96 330A' 14.4/19.2 40.0/46.2 57/65 60/70 52/59 94/94 59/67 60/70 54/61 96/96 331At 15.8/21.0 - 43.8/50.5 62/70 70/70 56/64 94/94 64/72 70/80 58/66 96/96 NONE — — 10 15 9 45 11 15 11 46 333A 6.0 7.2 11 15 10 45 12 15 11 46 STD 335A 11.5 13.8 19 20 17 45 20 25 18 46 336A 14.0 16.8 23 25 21 45 24 25 22 46 337A 21.5 - 25.9 34 35 31 45 36 40 32 46 NONE 11 15 10 45 12 15 11 46 333A 6.0 7.2 11 15 10 45 13 15 11 46 460-3-60 MED 335A 11.5 13.8 20 20 18 45 21 25 19 46 336A 14.0 16.8 23 25 21 45 25 25 22 46 337A 21.5 25.9 35 35 32 45 36 40 33 46 NONE — — 11 15 11 46 12 15 12 47 333A 6.0 7.2 12 15 11 46 14 15 12 47 HIGH 335A 11.5 13.8 21 25 19 46 22 25 20 47 336A 14.0 16.8 24 25 22 46 26 30 23 47 337A 21.5 25.9 36 40 33 46 37 40 34 47 104 (Carrie 50FC**05 MCA MOCP ELECTRICAL DATA (cont) ELECTRIC HEATER NO CONVENIENCE OUTLET or UNPOWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT M. IFP7 CRHEATER NOM FLA FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE SIZE V-Ph-Hz TYPE "'A00 kW ( ) MCA HACR FLA LRA MCA HACR FLA LRA BRKR BRKR NONE — — 8 15 7 37 10 15 10 39 STD 339A 10.0 9.6 14 15 12 37 16 20 14 39 340A 15.0 14.4 20 20 18 37 22 25 20 39 NONE — — 9 15 8 37 10 15 10 39 "05 575-3-60 MED 339A 10.0 9.6 14 15 13 37 17 20 15 39 (cont) 340A 15.0 14.4 20 20 18 37 23 25 20 39 NONE 9 15 9 38 11 15 11 40 HIGH 339A 10-0 9.6 15 15 14 38 18 20 16 40 340A 15.0 14.4 21 25 19 38 24 25 21 40 `Do not use with size 05 horizontal duct configuration units. tDo not use with size 05 vertical duct configuration units. 105 Electrical data (cont) Carrie? 50FC**05 MCA MOCP ELECTRICAL DATA(cont) ELECTRIC HEATER w/POWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT NOM. IFM kW CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE SIZE V-Ph-Hz TYPE "'ADDDD FLA OR OR ( ) MCA HACR FLA LRA MCA HACK FLA LRA BRKR BRKR NONE - - 28 40 28 98 30 40 30 100 324A 4.9/6.5 13.6/15.6 29/32 40/40 28/29 98/98 31/34 40/40 30/31 100/100 STD 325A 6.5/8.7 18.1/20.9 35/38 40/40 32/35 98/98 37/41 40/45 34/37 100/100 328A 12.0/16.0 33.4/38.5 54/60 60/60 49/55 98/98 56/63 60/70 51/57 100/100 330A' 14.4/19.2 40.0/46.2 62/70 70/70 57/64 98/98 64/72 70/80 59/66 100/100 331At 15.8/21.0 43.8/50.5 67/75 70/80 61/89 98/98 69/78 70/80 63/71 100/100 NONE 30 40 30 101 32 45 32 103 324A 4.9/6.5 13.6/15.6 31/34 40/40 30/30 101/101 33/38 45/45 32/33 103/103 208/230-3-60 MED 325A 6.5/8.7 18.1/20.9 37/40 40/40 33/37 101/101 39/43 45/45 36/39 103i103 328A 12.0/16.0 33.4/38.5 56/82 60/70 51/57 101/101 58/65 60/70 53/59 103/103 330A* 14.4/19.2 40.0/46.2 64/72 70/80 59/66 101/101 66/74 70/80 81/88 103/103 331At 15.8/21.0 43.8/50.5 69/77 70/60 63/71 101/101 71/80 80/80 65/73 103/103 NONE - - 29 40 29 99 31 40 31 101 324A 4.9/6.5 13.6/15.6 30/32 40/40 29/29 99/99 32/35 40/40 31/32 101/101 HIGH 325A 6.5/8.7 18.1/20.9 35/39 40/40 32/35 99/99 38/41 40/45 34/38 101/101 328A 12.0/16.0 33.4/38.5 55/61 60/70 50/56 99i99 57/63 60/70 52/56 101/101 330A* 14.4/19.2 40.0/46.2 63/71 70/80 57/65 99/99 65/73 70/80 60/67 101/101 331At 15.8121.0 43.8/50.5 68/76 70/80 62/69 99/99 70/78 70/80 64/72 101/101 NONE - - 12 15 12 47 13 15 13 48 333A 6.0 7.2 14 15 12 47 15 15 13 48 "05 STD 335A 11.5 13.8 22 25 20 47 23 25 21 48 336A 14.0 16.8 26 30 23 47 27 30 24 48 337A 21.5 25.9 37 40 34 47 38 40 35 48 NONE - - 13 15 12 47 14 15 13 48 333A 6.0 7.2 14 15 13 47 15 15 14 48 460-3-60 MED 335A 11.5 13.8 22 25 20 47 24 25 21 48 336A 14.0 16.8 26 30 24 47 27 30 25 48 337A 21.5 25.9 37 40 34 47 39 40 35 48 NONE 14 15 13 48 15 20 14 49 333A 6.0 7.2 15 15 14 48 16 20 15 49 HIGH 335A 11.5 13.8 23 25 21 48 25 25 22 49 336A 14.0 16.8 27 30 25 48 28 30 26 49 337A 21.5 25.9 39 40 35 48 40 40 36 49 NONE - - 10 15 9 39 12 15 12 41 STD 339A 10.0 9.6 16 20 14 39 18 20 16 41 340A 15.0 14.4 22 25 20 39 24 25 22 41 NONE 10 15 10 39 12 15 12 41 575-3-60 MED 339A 10.0 9.6 16 20 15 39 19 20 17 41 340A 15.0 14.4 22 25 20 39 25 25 22 41 NONE - - 11 15 11 40 13 15 13 42 HIGH 339A 10.0 9.6 17 20 16 40 20 20 18 42 340A 15.0 14.4 23 25 21 40 26 30 23 42 'Do not use with size 05 horizontal duct configuration units. tDo not use with size 05 vertical duct configuration units. 106 !Ca i r 50FC*=06 MCA MOCP ELECTRICAL DATA ELECTRIC HEATER NO CONVENIENCE OUTLET or UNPOWER ED CONVENIENCE OUTLET 5CFC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT NOM. IFM CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE V-Ph-Hz TYPE FLA OR OR SIZE "`A00 (kW) MCA HACR FLA LRA MCA HACR FLA LRA BRKR BRKR NONE - - 39 60 37 157 41 60 39 159 324A 4.9/6.5 23.5/27.1 39/42 60/60 37/39 157/157 ' 41/45 60/60 39/41 159/159 STD 325A 6.5/8.7 31.4/36.3 48/54 60/60 43/49 157/157 50/56 60/60 46/51 159/159 327A 9.8/13.0 46.9/54.2 67/76 70/80 61/70 157/157 69/79 70/80 63/72 159/159 329A 13.1/17.4 62.8/72.5 87/99 90/100 80/91 157/157 89/101 90/110 82/93 159/159 208/230-1-60 331A 15.8/21.0 75.8/87.5 103/118 110/125 95/108 157/157 106/120 110/125 97/110 159/159 NONE - - 41 60 40 160 43 60 42 162 324A 4.9/6.5 23.5/27.1 41/45 60/60 40/41 160/160 43/47 60/60 42/43 162/162 MED 325A 6.5/8.7 31.4/36.3 50/57 60/60 46/52 160/160 53/59 60/60 48/54 162/162 327A 9.8/13.0 46.9/54.2 70/79 70/80 64/72 160/160 72/81 80/90 66/74 162/162 329A 13.1/17.4 62.8/72.5 90/102 90/110 82/93 160/160 92/104 100/110 84/95 162/162 331A 15.8/21.0 75.8/87.5 106/121 110/125 97/111 160/160 108/123 110/125 99/113 162/162 NONE 28 40 27 123 30 45 30 125 324A 4.9/6.5 13.6/15.6 28/28 40/40 27/27 123/123 30/30 45/45 30/30 125/125 STD 326A 7.9/10.5 21.9/25.3 36/40 40/40 33/36 123/123 38/42 45/45 35/39 125/125 328A 12.0/16.0 33.4/38.5 50/57 50/60 46/52 123/123 53/59 60/60 48/54 125/125 331A 15.8/21.0 43.8/50.5 63/72 70/80 58/65 123/123 66/74 70/80 60/68 125/125 332A 18.4/24.5 51.1/58.9 72/82 80/90 66/75 123/123 75/84 80/90 68/77 125/125 NONE 31 45 30 126 32 45 32 128 324A 4.9/6.5 13.6/15.6 31/31 45/45 30/30 126/126 32/33 45/45 32/32 128/128 208l230-3-60 MED 326A 7.9/10.5 21.9/25.3 39/43 45/45 35/39 126/126 41/45 45/45 37/41 128/128 328A 12.0/16.0 33.4/38.5 53/59 60/60 48/54 126/126 55/62 60/70 50/56 128/128 331A 15.8/21.0 43.8/50.5 66/74 70/80 60/68 126/126 68/77 70/80 62/70 128/128 332A 18.4/24.5 51.1/58.9 75/85 80/90 69/78 126/126 77/67 80/90 71/80 128/128 NONE - - 28 40 27 123 30 45 30 125 324A 4.9/6.5 13.6/15.6 28/28 40/40 27/27 123/123 30/30 45/45 30/30 125/125 HIGH 326A 7.9/10.5 21.9/25.3 36/40 40/40 33/36 123/123 38/42 45/45 35/39 125/125 328A 12.0/16.0 33.4/38.5 50/57 50/60 46/52 123/123 53/59 60/60 48/54 125/125 "06 331A 15.8/21.0 43.8/50.5 63f72 70/80 58/65 123/123 66/74 70/80 60/68 125/125 332A 18A/24.5 51.1/58.9 72/82 80/90 66/75 123/123 75/84 80/90 68/77 125/125 NONE - - 13 15 12 56 14 20 13 57 333A 6.0 7.2 13 15 12 56 14 20 13 57 STD 335A 11.5 13.8 20 20 18 56 21 25 19 57 336A 14.0 16.8 23 25 21 56 25 25 22 57 337A 21.5 25.9 35 35 32 56 36 40 33 57 338A 24.0 28.9 38 40 35 56 40 40 36 57 NONE - - 13 20 12 57 14 20 13 58 333A 6.0 7.2 13 20 12 57 14 20 13 58 460-3-60 MED 335A 11.5 13.8 20 20 18 57 21 25 19 58 336A 14.0 16.8 24 25 22 57 25 25 23 58 337A 21.5 25.9 35 35 32 57 36 40 33 58 338A 24.0 28.9 39 40 35 57 40 40 37 58 NONE - - 14 20 13 58 15 20 14 59 333A 6.0 7.2 14 20 13 58 15 20 14 59 HIGH 335A 11.5 13.8 21 25 19 58 23 25 20 59 336A 14.0 16.8 25 25 23 58 26 30 24 59 337A 21.5 25.9 36 40 33 58 38 40 34 59 338A 24.0 28.9 40 40 37 58 41 45 38 59 NONE - - 10 15 9 43 12 15 11 45 STD 340A 15.0 14.4 20 20 18 43 23 25 20 45 341A 25.0 24.1 32 35 29 43 35 35 32 45 NONE - - 10 15 9 43 12 15 12 45 575-3-60 MED 340A 15.0 14.4 21 25 19 43 23 25 21 45 341A 25.0 24.1 33 35 30 43 35 35 32 45 NONE - - 11 15 10 45 13 15 12 47 HIGH 340A 15.0 14.4 22 25 19 45 24 25 22 47 341A 25.0 24.1 34 35 31 45 36 40 33 47 107 Electrical data (cont) 'rtei_ 50FC**06 MCA MOCP ELECTRICAL DATA(cont) ELECTRIC HEATER w/POWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT NOM. M CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE V-Ph-Hz TYPE FLA OR OR SIZE •••A00 (kW) MCA HACR FLA LRA MCA HACR FLA LRA BRKR BRKR NONE - - 33 45 33 128 35 50 35 130 324A 4.9/6.5 13.6/15.6 33/34 45/45 33/33 128/128 35/36 50/50 35/35 130/130 STD 326A 7.9/10.5 21.9/25.3 42/46 45/50 38/42 128/128 44/48 50/50 40/44 130/130 328A 12.0/16.0 33.4/38.5 56/63 60/70 51/57 128/128 59/65 6070 53/59 130/130 331A 15.8/21.0 43.8/50.5 69/78 70/80 63/71 128/128 72/80 80/80 65/73 130/130 332A 18.4/24.5 51.1/58.9 78/88 80/90 72/81 128/128 81/90 90/100 74/83 130/130 NONE - - 35 50 36 131 37 50 38 133 324A 4.9/6.5 13.6/15.6 35/37 50/50 36/36 131/131 37/39 50/50 38/38 133/133 208/230-3-60 MED 326A 7.9/10.5 21.9/25.3 45/49 50/50 41/45 131/131 47/51 50/60 43/47 133/133 328A 12.0/16.0 33.4/38.5 59/65 60/70 54/60 131/131 61/68 70/70 56/62 133/133 331A 15.8/21.0 43.8/50.5 72/80 80/80 66/73 131/131 74/83 80/90 68/76 133/133 332A 18.4/24.5 51.1/58.9 81/91 90/100 74/83 131/131 83/93 90/100 76/85 133/133 NONE - - 33 45 33 128 35 50 35 130 324A 4.9/6.5 13.6/15.6 33/34 45/45 33/33 ' 128/128 35/36 50/50 35/35 130/130 HIGH 326A 7.9/10.5 21.9/25.3 42/46 45/50 38/42 128/128 44/48 50/50 40/44 130/130 328A 12.0/16.0 33.4/38.5 56/63 60/70 51/57 128/128 59/65 60/70 53/59 130/130 331A 15.8/21.0 43.8/50.5 69/78 70/80 63R1 128/128 72/80 80/80 65/73 130/130 332A 18.4/24.5 51.1/58.9 78/88 80/90 72/81 128/128 81/90 90/100 74/83 130/130 NONE 15 20 14 58 16 20 15 59 333A 6.0 7.2 15 20 14 58 16 20 15 59 STD 335A 11.5 13.8 22 25 20 58 24 25 21 59 336A 14.0 16.8 26 30 24 58 27 30 25 59 **06 337A 21.5 25.9 37 40 34 58 39 40 35 59 338A 24.0 28.9 41 45 37 58 42 45 39 59 NONE 15 20 15 59 16 20 16 60 333A 6.0 7.2 15 20 15 59 16 20 16 60 460-3-60 MED 335A 11.5 13.8 23 25 21 59 24 25 22 60 336A 14.0 16.8 27 30 24 59 28 30 25 60 337A 21.5 25.9 38 40 35 59 39 40 36 60 338A 24.0 28.9 42 45 38 59 43 45 39 60 NONE - - 16 20 16 60 17 20 17 61 333A 6.0 7.2 16 20 16 60 17 20 17 61 HIGH 335A 11.5 13.8 24 25 22 60 25 25 23 - 61 336A 14.0 16.8 28 30 25 60 29 30 26 61 337A 21.5 25.9 39 40 36 60 40 45 37 61 338A 24.0 28.9 43 45 39 60 44 45 40 61 NONE - - 11 15 11 45 13 15 13 47 STD 340A 15.0 14.4 22 25 20 45 25 25 22 47 341A 25.0 24.1 35 35 31 45 37 40 34 47 NONE - - 12 15 11 45 14 15 13 47 575-3-60 MED 340A 15.0 14.4 23 25 21 45 25 25 23 47 341A 25.0 24.1 35 35 32 45 37 40 34 47 NONE - - 12 15 12 47 14 20 14 49 HIGH 340A 15.0 14.4 24 25 21 47 26 30 24 49 341A 25.0 24.1 36 40 33 47 38 40 35 49 108 Carrier United Rehrolegln 50FC"07 MCA MOCP ELECTRICAL DATA ELECTRIC HEATER NO CONVENIENCE OUTLET or UNPOWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT NON IFM CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE V-Ph-Hz TYPE FLA OR OR SIZE "'A00 (kW) MCA HACK FLA LRA MCA HACR FLA LRA BRKR BRKR NONE - - 32 45 31 151 34 50 33 153 324A 4.9/6.5 13.6/15.6 32/32 45/45 31/31 151/151 34/34 50/50 33/33 153/153 STD 326A 7.9/10.5 21.9/25.3 38/42 45/45 34/38 151/151 40/44 50/50 36/40 153/153 328A 12.0/16.0 33.4/38.5 52/58 60/60 47/53 151/151 54/61 60/70 50/55 153/153 331A 15.8/21.0 43.8/50.5 65/73 70/80 59/67 151/151 67/76 70/80 62/69 153/153 332A 18.4/24.5 51.1/58.9 74/84 80/90 68/77 151/151 76/86 80/90 70/79 153/153 NONE - - 28 45 27 146 30 45 29 148 324A 4.9/6.5 13.6/15.6 28/28 45/45 27/27 146/146 30/30 45/45 29/29 148/148 208/230-3fi0 MED 326A ' 7.9/10.5 21.9/25.3 33/38 45/45 30/34 146/146 36/40 45/45 33/36 148/148 328A 12.0/16.0 33.4/38.5 48/54 50/60 44/49 146/146 50/57 50/60 46/52 148/148 331A 15.8/21.0 43.8/50.5 61/69 70/70 56/63 146/146 ' 63/72 70/80 58/65 148/148 332A 18.4/24.5 51.1/58.9 70/80 70/80 64/73 146/146 72/82 80/90 66/75 148/148 NONE 30 45 29 149 32 45 31 151 324A 4.9/6.5 13.6/15.6 30/30 45/45 29/29 149/149 32/32 45/45 31/31 151/151 HIGH 326A 7.9/10.5 21.9/25.3 36/40 45/45 33/36 149/149 38/42 45/45 35/39 151/151 328A 12.0/16.0 33.4/38.5 50/57 50/60 46/52 149/149 53/59 60/60 48/54 151/151 331A 15.8/21.0 43.8/50.5 63R2 70/80 58/65 149/149 66/74 70/80 60/68 151/151 332A 18.4/24.5 51.1/58.9 72/82 80/90 66/75 149/149 75/84 80/90 68/77 151/151 NONE 14 20 13 71 15 20 14 72 333A 6.0 7.2 14 20 13 71 15 20 14 72 STD 335A 11.5 13.8 20 20 18 71 21 25 19 72 336A 14.0 16.8 24 25 21 71 25 25 23 72 "'07 337A 21.5 25.9 35 35 32 71 36 40 33 72 338A 24.0 28.9 39 40 35 71 40 40 36 72 NONE 14 20 13 71 15 20 14 72 333A 6.0 7.2 14 20 13 71 15 20 14 72 460-3-60 MED 335A 11.5 13.8 20 25 18 71 22 25 20 72 336A 14.0 16.8 24 25 22 71 25 30 23 72 337A 21.5 25.9 36 40 32 71 37 40 33 72 338A 24.0 28.9 39 40 36 71 41 45 37 72 NONE - - 15 20 14 72 16 20 15 73 333A 6.0 7.2 15 20 14 72 16 20 15 73 HIGH 335A 11.5 13.8 21 25 19 72 23 25 20 73 336A 14.0 16.8 25 25 23 72 26 30 24 73 337A 21.5 25.9 36 40 33 72 38 40 34 73 338A 24.0 28.9 40 40 37 72 41 45 38 73 NONE - - 11 15 10 59 13 15 12 61 STD 340A 15.0 14.4 21 25 19 59 23 25 21 61 341A 25.0 24.1 33 35 30 59 35 35 32 61 NONE - - 11 15 10 60 13 15 12 62 575-3-60 MED 340A 15.0 14.4 21 25 19 60 23 25 21 62 341A 25.0 24.1 33 35 30 60 35 40 32 62 NONE - - 11 15 11 61 13 15 13 63 HIGH 340A 15.0 14.4 22 25 19 61 24 25 22 63 341A 25.0 24.1 34 35 31 61 36 40 33 63 109 Electrical data (cont) (Carrier) 0 Units,mennwgk, 50FC"07 MCA MOCP ELECTRICAL DATA(cont) ELECTRIC HEATER w/POWERED CONVENIENCE OUTLET 50FC NO POWER EXHAUST w/POWER EXHAUST(powered from unit) UNIT IFM CRHEATER NOM FUSE DISCONNECT SIZE FUSE DISCONNECT SIZE SIZE V-Ph-Hz TYPE «+A00 (kW) FLA MCA OR MCA OR HACR FLA LRA HACR FLA LRA BRKR BRKR NONE - - 36 50 36 156 38 50 39 158 324A 4.9/6.5 13.6/15.6 36/36 50/50 36/36 156/156 38/38 50/50 39/39 158/158 STD 326A 7.9/10.5 21.9/25.3 44/48 50/50 40/44 156/156 46/50 50/50 42/46 158/158 328A 12.0/16.0 33.4/38.5 58/64 60/70 53/59 156/156 60/67 60/70 55/61 158/158 331A 15.8/21.0 43.8/50.5 71/79 80/80 65/73 156/156 73/82 80/90 67/75 158/158 332A 18.4/24.5 51.1/56.9 80/90 80/90 73/82 156/156 82/92 90/100 75/84 158/158 NONE - - 33 50 33 151 35 50 35 153 324A 4.9/6.5 13.6/15.6 33/33 50/50 33/33 151/151 35/35 50/50 35/35 153/153 208/230-3-60 MED 326A 7.9/10.5 21.9/25.3 39/44 50/50 36/40 151/151 42/46 50/50 38/42 153/153 328A 12.0/16.0 33.4/38.5 54/60 60/60 49/55 151/151 56/63 60/70 51/57 153/153 331A 15.8/21.0 43.8/50.5 67/75 70/80 61/69 151/151 69/78 70/80 63/71 153/153 332A 18.4/24.5 51.1/58.9 76/86 80/90 69/78 151/151 78/88 80/90 72/81 153/153 NONE 35 50 35 154 37 50 37 156 324A 4.9/6.5 13.6/15.6 - 35/35 50/50 35/35 154/154 37/37 50/50 37/37 156/156 HIGH 326A 7.9/10.5 21.9/25.3 42/46 50/50 38/42 154/154 44/48 50/50 40/44 156/156 328A 12.0/16.0 33.4/38.5 56/63 60/70 51/57 154/154 59/65 60/70 53/59 156/156 331A 15.8/21.0 43.8/50.5 69/78 70/80 63/71 154/154 72/80 80/80 65/73 156/156 332A 18.4/24.5 51.1/58.9 78/88 80/90 72/81 154/154 81/90 90/100 74/83 156/156 NONE 16 20 15 73 17 20 16 74 333A 6.0 7.2 16 20 15 73 17 20 16 74 STD 335A 11.5 13.8 23 25 20 73 24 25 22 74 336A 14.0 16.8 26 30 24 73 28 30 25 74 "07 337A 21.5 25.9 38 40 34 73 39 40 36 74 338A 24.0 28.9 42 45 38 73 43 45 39 74 NONE - - 16 20 16 73 17 25 17 74 333A 6.0 7.2 16 20 16 73 17 25 17 74 460-3-60 MED 335A 11.5 13.8 23 25 21 73 24 25 22 74 336A 14.0 16.8 27 30 24 73 28 30 26 74 337A 21.5 25.9 38 40 35 73 40 40 36 74 33BA 24.0 28.9 42 45 38 73 43 45 39 74 NONE - - 17 20 16 74 18 25 18 75 333A 6.0 7.2 17 20 16 74 18 25 18 75 335A 11.5 13.8 24 25 22 74 25 25 23 75 HIGH 336A 14.0 16.8 28 30 25 74 29 30 26 75 337A 21.5 25.9 39 40 36 74 40 45 37 75 338A 24.0 28.9 43 45 39 74 44 45 40 75 NONE - - 12 15 12 61 14 20 14 63 STD 340A 15.0 14.4 23 25 20 61 25 25 23 63 341A 25.0 24.1 35 35 32 61 37 40 34 63 NONE - - 12 15 12 61 14 20 14 63 575-3-60 MED 340A 15.0 14.4 23 25 20 61 25 25 23 63 341A 25.0 24.1 35 35 32 61 37 40 34 63 NONE 13 15 13 63 15 20 15 65 HIGH 340A 15.0 14.4 24 25 21 63 26 30 24 65 341A 25.0 24.1 36 40 33 63 38 40 35 65 110 (Carrier ) 50FC''04 ELECTRIC HEAT DATA-WITHOUT NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. w/PWRD C.O. SIZE NO P.E. w/P.E. NO P.E w/P.E. (pwrd fr/unit) (pwrd Tr/unit) CRH EATER323A00 4.4 3.3/4.0 11.3/13.8 - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - STD CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 - 037 - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 040 - - CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - 208/230-1-60 MED CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 040 040 CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 - - CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 - - - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - HIGH CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 040 040 CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 - - - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - STD CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 - - - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 - - CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - 208/230-3-60 MED CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 - - - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 - - "04 CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - HIGH CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 - - - - CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER333A00 6.0 5.5 18.8 - - - CRHEATER334A00 8.8 8.1 27.6 STD CRHEATER335A00 11.5 10.6 36.0 - - - - CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER334A00 8.8 8.1 27.6 - - - - 460-3-60 MED CRHEATER335A00 11.5 10.6 36.0 - - CRHEATER336A00 14.0 12.9 43.9 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER334A00 8.8 8.1 27.6 - - - - HIGH CRHEATER335A00 11.5 10.6 36.0 - - CRHEATER336A00 14.0 12.9 43.9 - - CRHEATER339A00 10.0 9.2 31.3 - - STD CRHEATER340A00 15.0 13.8 47.0 - - CRHEATER339A00 10.0 9.2 31.3 - - - - 575-3.60 MED CRHEATER340A00 15.0 13.8 47.0 - - CRHEATER339A00 10.0 9.2 31.3 HIGH CRHEATER340A00 15.0 13.8 47.0 - - - - 111 Electrical data (cont) Carrie> 50FC**04 ELECTRIC HEAT DATA-WITH NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. w/PWRD C.O. SIZE NO P.E. w/P.E. NO P.E w/P.E. (pwrd it/unit) (pwrd fr/unit) CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 STD CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 040 - - CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 - - CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 208/230-1-60 MED CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 040 040 - - CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 - - CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 - - HIGH CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 040 040 - - CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 037 037 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 STD CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 037 037 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 208/230-3-60 MED CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 037 037 "`04 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 037 037 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 HIGH CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER334A00 8.8 8.1 27.6 - STD CRHEATER335A00 11.5 10.6 36.0 - - - - CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER334A00 8.8 8.1 27.6 460-3-60 MED CRHEATER335A00 11.5 10.6 36.0 CRHEATER336A00 14.0 12.9 43.9 CRHEATER333A00 6.0 5.5 18.8 CRHEATER334A00 8.8 8.1 27.6 - - - - HIGH CRHEATER335A00 11.5 10.6 36.0 CRHEATER336A00 14.0 12.9 43.9 CRHEATER339A00 10.0 9.2 31.3 STD CRHEATER340A00 15.0 13.8 47.0 - - - - CRHEATER339A00 10.0 9.2 31.3 - - - - 575-3-60 MED CRHEATER340A00 15.0 13.8 47.0 - - CRHEATER339A00 10.0 9.2 31.3 HIGH CRHEATER340A00 15.0 13.8 47.0 112 ( C Carrier) Ci Umieeueenweµe SOFC'O5 ELECTRIC HEAT DATA-WITHOUT NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. w/PWRD C.O. SIZE /P.E. NO P.E. (pwrd fr/unit) NO P.E (pwrd fr/unit) CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - CRH FATE R327A00 13.0 9.8/11.9 33.3/40.7 040 040 - - STD CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 040 040 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 - - CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - CRH FATE R327A00 13.0 9.8/11.9 33.3/40.7 040 040 - - 208/230-1-60 MED CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 040 040 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 HIGH CRHEATER329ADO 17.4 13.1/16.0 44.6/54.5 040 040 - - CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 040 040 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 - - - - STD CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 038 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 "05 208/230-3-60 MED CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 038 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 - - - - HIGH CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 038 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER333A00 6.0 5.5 18.8 - - CRHEATER335A00 11.5 10.6 36.0 - - - - STD - CRHEATER336A00 14.0 12.9 43.9 - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRH EATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - 460-3-60 MED - CRHEATER336A00 14.0 12.9 43.9 CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 CRHEATER335A00 11.5 10.6 36.0 - - - - HIGH CRHEATER336A00 14.0 12.9 43.9 - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER339A00 10.0 9.2 31.3 STD CRHEATER340A00 15.0 13.8 47.0 - - CRHEATER339A00 10.0 9.2 31.3 - 575-3-60 MED CRHEATER340A00 15.0 13.8 47.0 - CRHEATER339A00 10.0 9.2 31.3 - HIGH CRHEATER340A00 15.0 13.8 47.0 - 113 Electrical data (cont) (Carrier ®mteurzmnetaylee 50FC**05 ELECTRIC HEAT DATA-WITH NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXAOD 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. w/PWRD C.O. SIZE /P.E. NO P.E. (pwrd fr/unit) NO P.E (pwrd fr/unit) CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 STD CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 - - CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 040 040 - - CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 - - CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - 208/230-1-60 MED CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 - - CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 040 040 - - CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 - - CRHEATER323A00 4.4 3.3/4.0 11.3/13.8 037 037 - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - HIGH CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 040 040 - - CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 - - CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 037 037 STD CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 038 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER324A00 6.5 4.9/8.0 16.7/20.4 037 037 037 037 CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 037 037 **OS 208/230-3-60 MED CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 038 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 037 037 HIGH CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER330A00 19.2 14.4/17.6 49.2/60.2 038 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER333A00 6.0 5.5 18.8 - - CRHEATER335A00 11.5 10.6 36.0 - - - - STD CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 CRHEATER335A00 11.5 10.6 36.0 - - 460-3-60 MED CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - HIGH CRHEATER335A00 11.5 10.6 36.0 - CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 STD CRHEATER339A00 10.0 9.2 31.3 - - CRHEATER340A00 15.0 13.8 47.0 - - - - CRHEATER339A00 10.0 9.2 31.3 575-3-60 MED CRHEATER340A00 15.0 13.8 47.0 - - HIGH CRHEATER339A00 10.0 9.2 31.3 - - - - CRHEATER340A00 15.0 13.8 47.0 - 114 Carrier" 5OFC"*06 ELECTRIC HEAT DATA-WITHOUT NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. w/PWRD C.O. SIZE NO P.E. (pwrd fr/unit) NO P. (pwrd fr/unit) CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - STD CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 208/230-1-60 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - MED CRHEATER327AD0 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 - - - - STD CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 208/230-3-60 MED CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRH EATER324A00 6.5 4.9/6.0 16.7/20.4 - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 HIGH CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER333A00 6.0 5.5 18.8 - CRHEATER335A00 11.5 10.6 36.0 - 5TD CR H EATER336A00 14.0 12.9 43.9 - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - 460-3-60 MED CR H EATER336A00 14.0 12.9 43.9 - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - HIGH CRHEATER336A00 14.0 12.9 43.9 CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 - - STD CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 CRHEATER340AOD 15.0 13.8 47.0 575-3-60 MED CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 - HIGH CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 115 Electrical data (cont) %arri Omtmrtcmongk. 50FC**06 ELECTRIC HEAT DATA-WITH NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. w/PWRD C.O. SIZE NO P.E. (pwrd fr/u NO PE (pwrd fr/unIt) CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - STD CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 208/230-1-60 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 - - CRHEATER325A00 8.7 6.5/8.0 22.3/27.3 037 037 - - MED CRHEATER327A00 13.0 9.8/11.9 33.3/40.7 040 040 - - CRHEATER329A00 17.4 13.1/16.0 44.6/54.5 040 040 - - CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 040 040 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 STD CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 208/230-3-60 MED CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8,76.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 15.7/20.4 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 HIGH CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 "06 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - STD CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - 460-3-60 MED CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - HIGH CRHEATER338A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 STD CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 - 575-3-60 MED CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 HIGH CRHEATER340A00 15.0 13.8 47.0 CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 116 \Carrie 50FC**07 ELECTRIC HEAT DATA-WITHOUT NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 SOFC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT V-Ph-Hz TYPE PART NUMBER (kW) (kW) OUTPUT(MBH) C.O. W/PWRD C.O. SIZE NO P.E. (pwrd fr/unit) NO P. (pwrd fr/unit) CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 - - - - STD CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER324ADO 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER326ADO 10.5 7.9/9.6 26.9/32.9 - - - - 208/230-3-60 MED CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 - - - - CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 - - - - HIGH CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER333A00 6.0 5.5 18.8 CRHEATER335A00 11.5 10.6 36.0 - - - - STD CRHEATER336A00 14.0 12.9 43.9 - - - - "07 CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - CRHEATER335A00 11.5 10.6 36.0 460-3-60 MED CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 CRHEATER335A00 11.5 10.6 36.0 - - - - HIGH CRHEATER336A00 14.0 12.9 43.9 CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 - - - - STD CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 575-3-60 MED CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 - - - - HIGH CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 117 Electrical data (cont) -Carrie 50FC"07 ELECTRIC HEAT DATA-WITH NON-FUSED DISCONNECT SINGLE POINT OR JUNCTION PART NUMBER CRSINGLEXXXA00 50FC NOM. IFM ELECTRIC HEATER NOM APPLICATION APPLICATION NO C.O.OR UNPOWERED UNIT z TYPE PART NUMBER (kW) w/PWRD C.O. V-Ph-Hz (kW) OUTPUT(MBH) C.O. NO P.E. w/P.E. NO P.E w/P.E. (pwrd fr/unit) (pwrd fr/unit) CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 STD CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 038 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8f76.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 208/230-3-60 MED CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 037 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER324A00 6.5 4.9/6.0 16.7/20.4 037 037 037 037 CRHEATER326A00 10.5 7.9/9.6 26.9/32.9 037 037 037 037 HIGH CRHEATER328A00 16.0 12.0/14.7 41.0/50.1 037 037 038 038 CRHEATER331A00 21.0 15.8/19.3 53.8/65.8 038 038 038 038 CRHEATER332A00 24.5 18.4/22.5 62.8/76.8 038 038 038 038 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - STD CRHEATER336A00 14.0 12.9 43.9 "07 CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER33BADO 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - 460-3-60 MED CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337AD0 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 CRHEATER333A00 6.0 5.5 18.8 - - - - CRHEATER335A00 11.5 10.6 36.0 - - - - HIGH CRHEATER336A00 14.0 12.9 43.9 - - - - CRHEATER337A00 21.5 19.7 67.4 037 037 037 037 CRHEATER338A00 24.0 22.0 75.2 037 037 037 037 STD CRHEATER340A00 15.0 13.8 47.0 CRHEATER341 A00 25.0 23.0 78.3 037 037 037 037 CRHEATER340A00 15.0 13.8 47.0 - - - - 575-3-60 MED CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 HIGH CRHEATER340A00 15.0 13.8 47.0 - - • CRHEATER341A00 25.0 23.0 78.3 037 037 037 037 118 I< TYPICAL CONTROL WIRING DIAGRAM—48FC 04-06 208-230/3/60 UNIT 1.3 WITH ELECTRO-MECHANICAL CONTROL AND W7212 ECONOMIZER a Iwwa •® IGC W1 a rr1 �'u'.�prye, u uvn,ale unmu FI =• ,Me JI oox„ { " M, (yu �I IM . =r.l_ ' p .a CD,,,,,a I�rm oe.,a... 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(arri- TYPICAL 48FC 04-07 POWER WIRING DIAGRAM, 208-230/3/60 UNIT SHOWN -ILK I MAXIMUM WIRE FIOP� SIZE /d AWG ELK .wCCHi BLKJCOMP FIELD.DISCONNECT SEE NOTE 3 TB cc ••n NI BLN- - — - BLK -BLK 11 21 BLX ILK I1 POWER I I YEL— ® TEL TEL it •e..• YEL- - ® YEL TEL SUPPLYIiiiiiiiii , BLU /2 ••_•IM BLU- - W J FIDPCCY B L U I REHEAT/LOW ANB ' • I' SEE NOTE 3 ' III���-AIL . LI L1 HPC •EQUIP OR I ARELFACTORIRES -'-' EOUIP I IBOOV 230V L2. Mt AZ I BLK ILK • • WIRES WITH E(,J LLL(TTTFFF,JJJ -`TnFJ OFM J HACR/DISCONNECT FLOPS - 1 C BLK 0.•BLE T B K ) ® YEL— YEL _ CAP 1 ® ;9LIF— O TEL QI )1-O—BRN FIELD ELK FIOP� PMR - O YEL SUPPLY I IACCYI I --— — ixr CONVENIENCE J PLT PL1 GP CONVEX IEXCE F -OUTLET I BLK I BLK I . L J TEL 2 YEL M IFM • DEL s I BLU BLU BLA f FTf AN/YEL GRN/YEL TEL GRN/TEL• S.I 5 ' _ ALA I 3 PH MIA..—..— /}/ L -6 6 J FLOP REHEAT SEE NOTE 5 ®' 421 € • r PL1 PL1 ------ RAN 2 I T TO 24V[RED 0 I T TON24V -AEI MI eln aLK .SCHEMATIC -BAN GAX/YEL 1)7 I•I SCHEMATICI —BRN GRN/TEL YEL Z YEL N IFM • L„—„—„---J ` f717 �GRM/TEL I GAN/TEL I • GAN/TEL 5.15 ' TEL /ft _. 6 •6_••_.. 1 PH MTR YAC POWER 208/230V-3-60 ELK I c OT4CAP 3 BRN J 3-6TON Ti �P ILK o I RD NOTES ALLY ACCESSORY I [IN I. IF NAY OF THE ORIGINAL WIRE FURNISHED MUST BE REPLACED. AUX AUXILIARY XGRH HOT GA5 REHEAT IT ART BE REPLACED WITH TYPE N•C WIRE OR ITS Xt. AWG AMERICAN WIRE GAGE HPC HEAD PRESSURE CONTROL PER POWER EXHAUST RELAY 2.COMPRESSOR AND FAN MOTORSWI ARE THERMALLY111 PR ITSEEU BA BUILDING AUTOMATION NETWORK HPS HIGH PRESSURE SWITCH PH PHASE 3. USE COPPER CONDUCTOR ONLY. LL LOXT AG TOR,COMP RESS OR HR HEATER RELAY PL PLUG ASSEMBLY K. DO ROT DISCONNECT POWER PLUG OR SIGNAL SIRE WHILE UNDER C COMMON HUM HUMI DI STAT POT POTENT SOME TER LOAD. CAP CAPACITOR IAO INDOOR AIR QUALITY SENSORS PMR PHASE MONITOR RELAY 5.ON 208/230V UNITS, TRAN IS WIRED FOR 230V. IF UNIT IS TO BE CB CIRCUIT BREAKER ION INDUCED DRAFT MOTOR PS PRESSURE SWITCH RUN 1/2 208V POWER SUPPLY. DISCONNECT ILK WIRE LCH CRANKCASE HEATER DMA INDUCED DRAFT RELAY PWH PULSE WIDTH MODULATION RUNV TAP AND CONNECT TO Env TAP. CCHR CRANKCASE HEATER RELAY IFM INDOOR FAN MOTOR OT OUADRUPLE TERMINAL CCHTS CRANKCASE HEATER TEMP SWITCH UPC INDOOR FAN MOTOR CONTROL R THERMOSTAT POWER CLO COMPRESSOR LOCKOUT IFO INDOOR FAN ON SIGNAL RAT RETURN AIR TEMP. SEX CLV CENTRIFUGALLING LIQUID VALVE IL INTEGRATED GAS CONTROL TIDY DISCHARGEAT VALVELEGEND CMB MOTORBLOWER IGNITOR RELATIVEHUMIDITY COGS CONDENSATE OVERFLOW SWITCH IRE INDOOR RELATIVE HUMIDITY RLV REHEAT LIQUID VALVE MARKED WIRE COM SIGNAL COMMON JMP JUMPER RNET LOCAL ACCESS NETWORK X TERMINAL (MARKED) COUP COMPRESSOR MOTOR IT LINE 1 RS ROLLOUT SWITCH DEC DIRECT DIGITAL CONTROL LA LOW AMBIENT LOCKOUT RVS REVERSING VALVE SOLENOID O TERMINAL (UNMARKED, DFB DEFROST BOARD LAN LOW AMBIENT RELAY SAT SUPPLY AIR TEMP SENSOR OFT DEFROST THERMOSTAT LAS LOW AMBIENT SWITCH SDP SYSTEM DISCHARGE PRESSURE 0 TERMINAL BLOCK EHR ELECTRIC NEAT RELAY LDR COMPRESSOR LOADER SPIN SPACE RELATIVE HUMIDITY • SPLICE EXTH ENTHALPY LEN LOCAL EQUIPMENT NETWORK OPT SPACE TEMPERATURE SENSOR EQUIP EQUIPMENT LOC LOSS OF CHARGE SPTO SPACE TEMPERATURE OFFSET ERR ENERGY RECOVERY VENTILATOR LOOP PER CURRENT LOOP POWER SSP SYSTEM SUCTION PRESSURE TEI SPLICE (NARKED] ESL EMTHALPY SENSOR-LOW LPS LOW PRESSURE SWITCH STD STANDARD FACTORY WIRING FB FUSE BLOCX L5 LIMIT SWITCH SW SWITCH FIDP FACTORY INSTALLED OPTION LSN LIMIT SWITCH INANUAL RESETS TB TERMINAL BLOCK FIELD CONTROL WIRING FPI FREEZE PROTECTION THERMOSTAT LTLS LOW TEMP LOCKOUT TDR TIME DELAY RELAY iS FLAME SWITCH IRA MAIN BASE BOARD TRAN TRANSFORMER -----FIELD POWER WIRING NET FAN HOUSING TEMP SENSOR NOV METAL OXIDE VARISTOR UCB UNIT CONTROL BOARD FU FUSE NTR ROTOR WI ITT STAGE OF HEATING CALL CIRCUIT BOARD TRACE G THERMOSTAT FAN CALL 0A0 OUTDOOR AIR QUALITY 112 tnd STAGE OF HEATING CALL ORIGNDI GROUND OAT OUTDOOR AIR TEMP. SEX 11 IAt STAGE OF COOLING CALL --- ACCESSORY OR OPTIONAL GV GAS VALVE OEN OUTDOOR FAN MOTOR T2 2nd STAGE OF COOLING CALL M[RING HACR HEATING.AIR.CONDITIONING. OFR OUTDOOR FAN RELAY REFRIGERATION BREARER OL OVERLOAD IBTC002991 I- 123 Ca____ ) Typical wiring diagrams (cont) Ijy....nnMNMv TYPICAL 48FC 04-07 POWER WIRING DIAGRAM, 460-575/3/60 UNIT SHOWN MAXIMUM WIRE BLX I HOP I SIZE 4 AWG - BLNPonCHti1 —BLK J COMP FIELD,DISCONNECT SEE NOTE 3 BLX CC � ••-•• BLX— — — — M M Do( - 11 1 BLK BLK T7 POWER( I YEL-�� TEL TEL T3 •• •.U TEL— — rammi® TEL EL SUPPLY I BLU T2 • BlU— 7 - W, BLU ACCT/FIOP [1CR— 7 •SEE NOTE 3 AENEA TILOW AMB EQUIP ; LI LI HPC H1 HY ' _• I FOUR GR L1,L2,U WIRES ---- OR L2 MIR2 , ' i , ARE FACTORY 460Y230V WIRES WITH O I X n III I — J RACK/DISCONNECT FLOPS 1—"1 ..—�. .I 0 BLX VVV YHL ® I YEL— `� `P o �75Y UNIT ACCYIFIOP' I P® • BLu- 0 1 REHEAT/LOW AMA FIELD B I FLOW ACCYI SUIPLvyxi ROW-POWERED: I FLOP I CONVENIENCE_ l— J GR- • WiLEI I ILK BLK —..J J TEL— TEL OEM BLE S 1 l BLN SEE NOTE 5 ® m — TEL iD a ERN 1 REM 0 TEL 'U © ALLYE�)ICOP 1 BRN IS 24Y BLN BQ{ S TEL OT SCHEMATIC BAN I PLY PLI GRN/YEL STSy UNIT !f] ILK BLX 1 BLK TEL TEL N IFM IHOP REHEAT ® T'"1 en( —I 1—GRN//TEL 1 ANIYEL• TRAN 2 GAVEL 6.1 6 3 PH YAC POWER 460/575V-3-60 I TO 24V RED toI YEL-0 �—YEL I —BRN 3 6 TON Ti ;SCHEMATIC —BAN GAX/YEL BLK Q CAP 3 I_. _.._.t J I TEL NOTES , 46OV.UNIT BLK BLK—C BLK I. IF AMY OF THE ORIGINAL WIRE FURNISHED MUST WE IDN REPLACED. IT MUSE REPLACEDDW11H TYPE Dd C HACK HEATING. AIR-CONDITIONING. WIRE OR ITS EQUIVALENT NT ACC). ACCESSORY REFRIGERATION BREAKER OL OVERLOAD E.COMPRESSOR AND FAN MOTORS ARE THERMALLY AUX AUXILLARY HGRN HOT GAS REHEAT PER POWER EXHAUST RELAY PROTECTED. AWG AMERICAN WIRE GAGE HPC HEAD PRESSURE CONTROL PH PHASE J. USE COPPER CONDUCTOR ONLY. BA BUILDING AUTOMATION NETWORK FPS HIGH PRESSURE SWITCH PL PLUG ASSEMBLY 1. DO NOT DISCONNECT POWER PLUG OR SIGNAL WIRE CC CONTACTOR,COMPRESSOR HR HEATER RELAY POT POTENTIOMETER WHILE UNDER LOAD. C COMMON HUM HUMIDISTAT PMR PHASE MONITOR RELAY INDOOR AM INDOOR 5. TRANSFORMER IS DEDICATED BASED ON UNIT VOLTAGE. CAP CAPACITOR C AIR QUALITY SENSORS PS PRESSURE SWITCH TAPS ONLY SHOWN 10 SIMPLIFY SCHEMATIC. CB CACUIT BREAKER IDN INDUCED DRAFT MOTOR PWM PULSE WIDTH MODULATION CCH CRANKCASE HEATER IDMR INDUCED DRAFT RELAY AT QUADRUPLE TERMINA CCHR CRANKCASE HEATER RELAY IFM INDOOR FAN MOTOR R THERMOSTAT POWER LEGEND CCHTS CRANKCASE NEATER TEMP SWITCH IFMC INDOOR FAN MOTOR CONTROL RAT RETURN AIR TEMP. SEN CLO COMPRESSOR LOCKOUT DIFOOE INDOOR FAN ON SIGNAL ODE REHEAT DISCHARGE VALVE _� MARKED WIRE C COOLING LIQUID VALVE IOC INTEGRATED GAS CONTROL RH RELATIVE HUMIDITY 1 TERMINAL [MARRED, CMBHB CENTRIFUGAL MOTOR BLOWER I IGNITOR RLV REHEAT LIQUID VALVE CO CONDENSATE OVE RFLON SWITCH TRH INDOOR RELATIVE HUMIDITY RNET LOCAL ACCESS NETWORK 0 TERMINAL (UNMARKED, CON SIGNAL COMMON JMP JUMPER RS ROLLOUT SWITCH COMP COMPRESSOR MOTOR L1 LINE 1 RVS REVERSING VALVE SOLENOID 03 TERMINAL BLOCK DDC DIRECT DIADEM. CONTROL LA LOW AMBIENT LOCKOUT SAT SUPPLY AIR TEMP SENSOR DEB DEFROST BOARD LAA LOW AMBIENT RELAY SDP SYSTEM DISCHARGE PRESSURE • SPLICE DFT DEFROST THERMOSTAT LAS LOW AMBIENT SWITCH SPRH SPACE RELATIVE HUMIDITY ERR ELECTRIC HEAT RELAY LDR COMPRESSOR LOADER SPT SPACE TEMPERATURE SENSOR 011 SPLICE (MARKED INTO ET LEN LOCAL EQUIPMENT MEDIUMSP TO SPACE TEMPERA SURE OFFSET EQUIP EQUIPMENT LOC LOSS OF CHARGE SSP SYSTEM SUCTION PRESSURE FACTORY WIRING LOOP POOR CURRENT LOOP POWER STD STANDARD ERE FXERGT RECOVERY VENTILATOR LPSLOW PRESSURE SWITCH SW SWITCH - — - FIELD CONTROL WIRING ESL EXTHALPT SENSOR-LOW LS LIMA SWITCH TB TERMINAL BLOCK FB FUSE BLOCK--—-- FIELD POWER WIRING FLOP FACTORY INSTALLED OPTION ESN LIMIT SWITCR(MANUAL RESTER TDR TIME DELAY RELAY LTLO LOW TEMP LOCWDUT TRAM TRANSFORMER THERMOSTAT FAT FREEZE PROTECTION THERMOSTAT MN MAIN BASE MOAIDMMR UCB UNIT CONTROL BOARD CIRCUIT BOARD TRACE FS FLAME SWITCHMOV METRE OXIDE VARISTOR WI III STAGE OF HEATING CALL EST FAN HOSING TEMP SENSOR MTR MOTOR WE End STAGE OF HEATING CALL ACCESSORY ORTUSK OAR OUTDOOR AIR QUALITY VI IOU STAGE OFCOOLING CALL 0 OPTIONAL WIRING THERMOSTAT FAN CALL OAT OUTDOOR AIR TEW SEX Et End STAGE OF COOLING CALL GRI GXOR GROUND OEM OUTDOOR FAN MOTOR GV GAS VALVE OER OUTDOOR FAN RELAY 4BTC 002992I - 124 TYPICAL CONTROL WIRING DIAGRAM—50FC 04-06 208-230/3/60 UNIT WITH ELECTRO-MECHANICAL CONTROL AND W7212 ECONOMIZER ' rr VISA —VIII U A A n:L•utu.nf K il . xrsu� lido rK(� [ ] _"�_ • ' o R 1,;tjy�Q,_.:Odva. ar @WALL..X' �i t- • I .'ewe„m.. -- '.hrr71 Lll _. � a{Ea I I�•*,*i� eowv .— I L'J•;• I•.��-'(ecu . �f;Ti-mz °LP °T I ,nk<nL ...L[ LIaJ L •• • tt aI .....�e..h. 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YSYA7TY . r.r.6'.1;Y` . __� L_.EIIm ".a_'_I - ion°'WWI nn. v sows I nl.. c n 6n nr _I .A....11 .0 SOT PAC CONTROL 460r515 L TON n MsmrwrzolA Q� J �Carrle TYPICAL 50FC 04-07 POWER WiRING DIAGRAM, 208-230/3/60 UNIT SHOWN ELK MAXIMUM WIRE CC 1 1 FIELD�5C0NNE� SINGLE SEES NOTE A3O TB CC 1 ' BLN�/J��BLX COMP •• •ter •:BLX ' - - - GB Ca In -BLK 11 _H 2—f X\fBLX BLX Tf POWER POINT UKION J TEL i7 YELYEL TEL iJ ••- • TEL - - 414 at SUPPLY' REFERENCE •• TELMN 1 J BLU i2 ••ml. . BLU - - .W. I FIOP/ACCY SEE NOTE 3 — BLU BLU I REHEAT XAC ANB I BLN • EQUIP GR • L1,L2,13 WIRES ___ fff����EQUIP 16DY230V OC LU MIRK DLN •1.•M® I ARE FACTORY GR I OFM l WIRES WITH FLOPS ' 0 BLK �I HOPDISCONNECT CT I I TEL- {--1 BLK --- m ALE W -. BLN PNR TEL ^TP/ I 0 TEL YEL O )1-0 CAP —BAN L•'"�®I I GRUMP I r -- I® I GAUP I I PLT PIT• •-- I fi : .. I dP OR TEL BLKYEL T 1 BLKYEL • _._BLN.. •-•I01• BLK -',BLN,. • •.) SIR RRN 7FM BLK BLU BLU "'TEL"' _- 0I' TEL . ---}YEL- • •I TEL SEE NOTE 5 ®' m f IGAN/YEL 1 GRNIYEL GRNIYEL' S• 5 — '" "BLU" -'L 0l5 BLU I .,__ULO ' •. TEAM 1 YEL 3 PH MTA I. ®' BLU TO 24V -RED 0 L- .. _ ..—.._ . I FU3 • OR SINGLE POINT KIT SCHEMATIC —BAN GAN/YEL •PIT PLi• ••—••—I CONNECTION BOX r " BLK—4 FU 1)3—ILK- I I 1 I ILK ELK I TEL—PMFUP9D—YELL •ELECTRIC. BLN _-, YEL 1 Z TEL AD ARP HEATERS• FLOP REHEAT ®�'. �� (3 C IfN BLU�Q N �BLU� I I SEE NOTE 5 ••••• ••••• . /-1-6RN/YEL (�GRNIYEL • • w AMP • • • TRAM 2 I GR EL' 5,15 I 1 PH MTA SINGLE POINT KIT ( TO 24V RED NM 0 L L — — CONNECTION BOX J •J I SCHEMATIC BRN GRNIYEL: -- PAC POWER 208/230V-3-60H l t' •• � "' "" MOB MAIN BASE BOARD 3 6 TON T FIELD X TIOP HNOVER METAL OXIDE VARISTOR EUPPLY_wHF NON POWERED. MIR ROTOR CONVENIENCE. GAO OUTDOOR AIR DUALITY -UR- . OUTLET OAT OUTDOOR AIR TEMP SEN NOTES I OFM OUTDOOR FAN MOTOR I. IF ANI OF THE ORIGINAL WIRE FURNISHED MUST BE REPLACED. �' " J OFR OUTDOOR FAX RELAY IT MUST BE REPLACED WITH TAPE 90-C WIRE OR ITS EQUIVALENT. OL OVERLOAD 2.COMPRESSOR AND FAN MOTORS ME THERMALLY PROTECTED. PER POWER EXHAUST RELAY 3. USE COPPER CONDUCTOR ONLY. PH PHASE 4. DO NOI DISCONNECT POWER PLUG OR SIGNAL WIRE WHILE UNDER PE PLUG ASSEMBL LOAD POT POTENTIOMETER S.ON 2E8N23DV UNITS. MAN IS WIRED FOR 2309• IFUNIT IS TO BE ACCY ACCESSORY G THERMOSTAT FAX CALL PRO PHASE MONITOR RELAY RUN WITH 2DDV POWER SUPPLY,DISCONNECT BLX WIRE FROM ANG AMERICAN WIRE GAGE MONDt GROUND PS PRESSURE SWITCH 230V TAP AND CONNECT TO 208V TAP. BAS BUILDING AUTOMATION NETWORK HACK HEATING, AIR-CONDITIONING, PIN PULSE WIDTH MODULATION CC CO R,COMPAESSOR REFRIGERATION BREAKER OT QUADRUPLE TERMINAL LEGEND C COMMONMMON HR HEATER RELAY R THERMOSTAT POWER CAP CAPACITOR HARE HOT GAS REHEAT RAT RETURN AIR TEMP. SEN CB CIRCUIT BREAKER HPC HEAD PRESSURE CONTROL RDV REHEAT DISCHARGE VALVE —0-MARKED WIRE CCH CRANKCASE HEATER HPS HIGH PRESSURE SWITCH RH RELATIVE HUMIDITY CCHR CRANKCASE HEATER RELAY HUM HUMIDISTAT REV REHEAT LIQUID VALVE C) TERMINAL TERMINAL (MARKED] CCHTS CRANKCASE HEATER TEMP SWITCH IAO INDOOR AIR QUALITY SENSORS RNET LOCAL ACCESS NETWORK O TERMINAL (UXMARNEDI CLO COMPRESSOR LOCKOUT IFM INDOOR FAN MOTOR RVS REVERSING VALVE SOLENOID CLV COOLING LIQUID VALVE IFMC INDOOR FAN MOTOR CONTROL SAT SUPPLY AIR TEMP SENSOR © TERMINAL BLOCK COPS CONDENSATE OVERFLOW SWITCH IFO INDOOR FAN ON SIGNAL SDP SYSTEM DISCHARGE PRESSURE COM SIGNAL COMMON IRH INDOOR RELATIVE HUMIDITY SPRH SPACE RELATIVE HUMIDITY • SPLICE COMP COMPRESSOR MOTOR JMP JUMPER SPT SPACE TEMPERATURE SENSOR ON SPLICE (MARKED] DEC DIRECT DIGITAL CONTROL L1 LINE 1 SPTO SPACE TEMPERATURE OFFSET DEB DEFROST BOARD LA LOW AMBIENT LOCKOUT ESP SYSTEM SUCTION PRESSURE PET DEFROST THERMOSTAT EAR LOW AMBIENT RELAY SW SWITCH FACTORY WIRING EHR ELECTRIC HEAT RELAY LAS LOW AMBIENT SWITCH TB TERMINAL BLOCK ENIH ENTHALPI LDR COMPRESSOR LOADER TOR TIME DELAY RELAY - — FIELD CONTROL WIRING FRY ENERGY RECOVERY VENTILATOR LEN LOCAL LOUT PMENT NETWORK TRAM TRANSFORMER ESL EXTHALPY SENSOR -LOW LOC LOSS OF CHARGE UCH UNIT CONTROL BOARD ----- FIELD POWER WIRING FU FUSE BLOCS LOOP PWR CURRENT LOOP POWER Ni TEA STAGE OF HEATING CALL FIG( FACTORY INSTALLED OPTION IPS LOW PRESSURE SWITCH II2 Slid STAGE OF HEALING CALL CIRCUIT BOARD TRACEOPT FREEZE PROTECTION THERMOSTAT ES LIMIT SWITCH TiT1 TAt STAGE OF COOLING CALL _ ' WIRING ACCESSORY OR OPTIONAL OTT FAX HOUSING TEMP SENSOR FU FUSE L3M LIMIT SWITCH (MANUAL RESET( LILO LOW TEMP LOCKOUT TI Slid STAGE OF COOLING CALL 148TC0D2994 I-I 129 Typical wiring diagrams (cont) mar"e� i United FevnmmRe. TYPICAL 50FC 04-07 POWER WIRING DIAGRAM, 460-575/3/60 UNIT SHOWN BLK ACCY MAXIMUM WIRE CCH1 FIOP� I- SIZE N4 AWG ELK Tor BL COMP FIELD,DISCO NEC . SINGLE SEE NOTE 3 TE ELK CC BIN •• •El • BLK - - - m fD' _ t 21 BLK ELK POWERI I I POINT I ELK ELK i1 YEL- -1 ® YEL BLK_l TEL T3 •• ■ ■ TEL-- - - - YEL TEL SUPPLY �REFEREXCE I YELNil I BLU T2 ••� LE BLU / ® �: BLU I ACC YIFIOP I-BL 'SEE ROTE 3 • • •_., DLU W REHEAT/LOW OAK . • I •QUIP OR I _._. EQUIP ; HPC xl x N xl i LI•L2•13 WIRES GA f— I LI 230V L2 NTA2 ARE FACTORY ; 0 ,ELK WIRES WITH ( � 4 Q A EtWWD I— JHACR/FIOPSD[SCONNECi ) I ® I BLu ---1 - , TEL • ACC rY i l o 1D Q .55 F L V UNIT ACCY/FIOP, P REHEAT/LOW AM �.�.�pl EQ r 1 lthl E UIP—.._..l r-�0QUIP '• '• I TEL OFM • -.kill- OR BLK --r_DLN" • •I� E. ELK I • I' 1 ELK BLK --I- YEL" • *WE. TEL i --i.YEL-1 ® ®i ) BLK EL Mill } BLP' • •ml• BW TRAM I ' TEL -•t .._.,DL B••—•° BLu TO 24V -RED O TEL TCL'T ),COP 1 BRN • • OMAI OR L SCORN ECTIONINGLE TBO%TJ SCHEMATICS —BRN GRN/YEL TEL Oi LK PL1 PL1 `BLX ��0�,,,,,,.,�� BLK /717— •• �YEL ihrwrimm•I0 YELL I .ELECTRIC: BEL 1 ELK F • HEATERS "—--\.—'" -BLU •I BLU-. • 1 K 2 I I FIOP REHEAT ®ED ®L BLU j3 BLU C IFN GRN/YEL i I GRN/YEl SINGLE POINT KITI 1RAN 2• ' GAK/DEL 5,1 5 L CONNECTION BOK L..I !SCH.SCHEMATIC -RED MD OD OGAN/TEL I /42 S S PAC POWER 460/575V-3-60 FIELD BLN MBA MAIN BASE BOARD SUPPLY FIW NOV METAL OXIDE VARISTOR 3 6 TON T 1 SUPPLY-wit: NON-POYE MIR MOTOR . . CONOVUENIENCE -GR- NCE BAD OUTDOOR AIR DUALITY NOTES t J DAT OUTDOOR AIR TEMP SEX 1. IF ANT OF THE ORIGINAL WIRE FUAMSSHED MUST BE REPLACED. OFM OUTDOOR FAN MOTOR IT MUST BE REPLACED WITH TYPE 9G C WIRE OR ITS EQUIVALENT. OFR OUTDOOR FAN RELAY 2.COMPRESSOR AND FAN MOTORS ARE THERMALLY PROTECTED. W OVERLOAD 3.USE COPPER CONDUCTOR ONLY. PER POWER EXHAUST RELAY 1. DO NOT DISCONNECT POWER PLUG OR SIGNAL WIRE WHILE UNDER LOAD PL PLUG ASSEMBLY S. TRANSFORMER IS DEDICATED BASED ON UNIT VOLTAGE. ACCY ACCESSORY G THERMOSTAT FAN CALL POT POTENTIOMETER TAPS ONLY SHOHM TO SIMPLIFY SCHEMATIC. AWG AMERICAN WIRE GAGE GR(GAD, GROUND PMR PRASE MONITOR RELAY IRAS BUILDING AUTOMATION NETWORK HACR HEATING, AIR•CONDITIONING. PS PRESSURE SWITCH CC CONTACTOR.COMP RE550R REFRIGERATION BREAKER PWM PULSE WIDTH MODULATION C COMMON HR HEATER RELAY OT QUADRUPLE TERMINAL LEGEND CAP CAPACITOR HORN HOT GAS REHEAT R THERMOSTAT POWER CB CIRCUIT BREAKER HPC HEAD PRESSURE CONTROL RAT RETURN AIR TEMP. SEN n MARRED WIRE CCH CRANKCASE HEATER VHS HIGH PRESSURE SWITCH RDV REHEAT DISCHARGE VALVE CCHR CRANKCASE HEATER RELAY HUM HUMIDISTAT RH RELATIVE HUMIDITY @ TERMINAL (NARKED) CCHTS CRANKCASE HEATER TEMP SWITCH IA0 INDOOR AIR DUALITY SENSORS ALA REHEAT LIQUID VALVE O TERMINAL (UNMARKED) CLO COMPRESSOR LOCKOUT IN INDOOR FAN MOTOR ANET LOCAL ACCESS NETWORK CLV COOLING LIQUID VALVE IFMC INDOOR FAN MOTOR CONTROL RVS REVERSING VALVE SOLENOID 0 TERMINAL BLOCx COFS CONDENSATE OVERFLOW SWITCH IFO INDOOR FAN ON SIGNAL SAT SUPPLY AIR TEMP SENSOR COM SIONAL COMMON IRH INDOOR RELATIVE HUMIDITY SDP SYSTEM DISCHARGE PRESSURE • SPLICE COMP COMPRESSOR MOTOR JMP JUMPER OPEN SPACE RELATIVE HUMIDITY DEC DIRECT DIGITAL CONTROL LI LINE 1 SPT SPACE TEMPERATURE SENSOR OD SPLICE I MARKED) DEB DEFROST BOARD LA LOW AMBIENT LOCKOUT SPED SPACE TEMPERATURE OFFSET OFT DEFROST THERMOSTAT LAR LOW AMBIENT RELAY SSP SYSTEM SUCTION PRESSURE FACTORY WIRING EHR ELECTRIC HEAT RELAY LAS LOW AMBIENT SWITCH SW SWITCH ENIN ENTHALPT LOU COMPRESSOR LOADER TB TERMINAL BLOCK - — -FIELD CONTROL WIRING ERA ENERGY RECOVERY VENTILATOR LEN LOCAL EQUIPMENT NETWORK TDR TIME DELAY RELAY ESL ENTHALPY SENSOR-LOW LOC LOSS OF CHARGE TRAM TRANSFORMER -----FIELD POWER WIRING FB FUSE BLOCK LOOP PAR CURRENT LOOP POWER UCB UNIT CONTROL BOARD FIOP FACTORY INSTALLED OPTION LPS LOW PRESSURE SWITCH WI ICI STAGE OF HEATING CALL CIRCUIT BOARD TRACE FEE FREEZE PROTECTION THERMOSTAT LS LIMIT SWITCH WE End STAGE OF HEATING CALL ____ ACCESSOET OR OPTIONAL POT FAN HOUSING TEMP SENSOR LSAT LIMIT SWITCH !MANUAL RESET! II bl STAGE OF COOLING CALL WIRING FU FUSE LSAT LOW TEMP LOCKOUT Y1 End STAGE DV COOLING CALM 48TC002995 I - 130 Sequence of operation -Carrie) General heating is locked out. To reset the control, break 24 V The sequence below describes the sequence of operation power to the thermostat. for an electro-mechanical unit with and without a factory- When ignition occurs,the IGC board will continue to moni- installed EconoMi$er® IV (W7212 controller) and X tor the condition of the roll-out switch, the limit switches, (W7220 controller). For information regarding a direct dig- the flue gas pressure switch, as well as the flame sensor. ital controller, see the start-up, operations, and trouble- 45 seconds after ignition occurs, assuming the unit is con- shooting manual for the applicable controller. trolled through a room thermostat set for fan auto, the Electro-Mechanical Units with No Economizer indoor-fan motor will energize (and the outdoor-air damp- ers will open to their minimum position). If, for some rea- Cooling(single stage units) son, the over-temperature limit opens prior to the start of When the thermostat calls for cooling, terminals G and Yl the indoor fan blower, the unit will shorten the 45 second are energized. The indoor fan will run at the user set fan delay to 5 seconds less than the time from initiation of heat speed and the compressor contactor (CC) is energized to when the limit tripped. Gas will not be interrupted to the causing the compressor and outdoor fan to run. burners and heating will continue. Once the fan-on delay When the thermostat removes the call for Yl, the com- has been modified, it will not change back to 45 seconds pressor contactor will de-energize shutting down the until power is reset to the control. On units with 2 stages of compressor and the outdoor fan. When the thermostat heat, when additional heat is required, W2 closes and initi- removes the call for G,the indoor fan will turn off after the ates power to the second stage of the main gas valve. specific unit fan off delay. When the thermostat is satisfied, W1 and W2 open and Cooling (two stage units) the gas valve closes, interrupting the flow of gas to the main burners. If the unit is controlled through a room ther- When the thermostat calls for cooling,terminals G and Yl mostat set for fan auto, the indoor-fan motor will continue are energized. The indoor fan will run at the low fan speed to operate for an additional 45 seconds then stop. A LED and the compressor contactor (CC) is energized causing indicator is provided on the IGC to monitor operation. the compressor and outdoor fan to run.The low indoor fan Electric Heating(50FC units) speed is 66%of the user set fan speed and the compressor will run at partial capacity. NOTE: 50FC units are sold as cooling only. If electric heat- If additional cooling is needed, the thermostat will add the ers are required, use only factory approved heaters. They call for Y2. This will increase the indoor fan speed to the will operate as follows. user set fan speed and energize the compressor loader for Units have either 1 or 2 stages of electric heat. When the full compressor capacity. The outdoor fan is the same thermostat calls for heating, power is applied to G and the speed for Yl and Y2. W1 terminals at the unit. The unit control will energize the When the thermostat removes the call for Y2 but leaves indoor fan contactor and the first stage of electric heat. On the Yl,the indoor fan will reduce speed to 66%of the user units with two stage heating, when additional heating is set fan speed, the compressor loader will turn off, and the required, the second stage of electric heat(if equipped)will outdoor fan will remain on. When the thermostat removes be energized when power is applied at the W2 terminal on the call for Y1 the compressor contactor will de-energize the unit. shutting down the compressor and the outdoor fan. When IMPORTANT: The thermostat must be configured for the thermostat removes the call for G, the indoor fan will Electric Heat so it will energize G with the W1 call. turn off after the specific unit fan off delay. NOTE: Per ASHRAE 90.1-2016 and IECC-2018 stan- Electro-mechanical Units with Factory-Installed dards, during the first stage of cooling operation the Unit EconoMi$er Control Board (UCB) will adjust the fan motor speed to When free cooling is not available, the compressors will be provide 66%of the total cfm established for the unit. controlled by the zone thermostat. When free cooling is Gas Healing(48FC units) available, the outdoor-air damper is modulated by the NOTE: WeatherMaker® units have either 1 or 2 stages of EconoMi$er IV and X control to provide a 50°F(10°C) to gas heat. 55°F (13°C) mixed-air temperature into the zone. As the When the thermostat calls for heating, power is sent to W mixed air temperature fluctuates above 55°F (13°C) or on the Integrated Gas Controller(IGC)board.An LED(light below 50°F (10°C) dampers will be modulated (open or emitting diode) on the IGC board turns on and remains on close) to bring the mixed-air temperature back within con- during normal operation. A check is made to ensure that the trol. If mechanical cooling is utilized with free cooling, the roll out switch and limit switch are closed. If the check was outdoor-air damper will maintain its current position at the successful, the induced-draft motor is energized, and when time the compressor is started. If the increase in cooling its speed is by gas capacity causes the mixed-air temperature to drop below psatisfactory, as proven the flue pressure 45°F (7°C), then the outdoor-air damper position will be switch, the ignition activation period begins. The burners decreased to the minimum position. If the mixed-air tern- will ignite within 5 seconds. If the burners do not light,there perature continues to fall, the outdoor-air damper will is a 22 second delay before another 5 second attempt. This close. Control returns to normal once the mixed-air tern- sequence is repeated for 15 minutes or until the burners perature rises above 48°F (9°C). The power exhaust fans light. If, after the 15 minutes, the burners still have not lit, 131 C Sequence of operation (cont) (arrie' will be energized and de-energized, if installed, as the out- stay at the Economizer Minimum Position while the evapo- door-air damper opens and closes. rator fan is operating. The outdoor-air damper is closed If field-installed accessory CO2 sensors are connected to when the indoor fan is not operating. Refer to Service and the EconoMi$er IV and X control, a demand controlled Maintenance Manual for further details. ventilation strategy will begin to operate. As the CO2 level Optional Humidi-MiZere dehumidification in the zone increases above the CO2 set-point, the mini- system mum position of the damper will be increased proportion- Units with the factory equipped Humidi-MiZer system ally. As the CO2 level decreases because of the increase in option are capable of providing multiple modes of fresh air, the outdoor-air damper will be proportionally improved dehumidification as a variation of the normal closed. For EconoMi$er IV and X operation, there must be cooling cycle. The Humidi-MiZer system option includes a thermostat call for the fan(G). If the unit is occupied and additional valves in the liquid line and discharge line of the fan is on, the damper will operate at minimum posi- each refrigerant circuit, a small reheat condenser coil tion. Otherwise,the damper will be closed. downstream of the evaporator, and variable-speed control When the EconoMi$er IV and X control is in the occupied of some or all outdoor fans. Operation of the revised refrig- mode and a call for cooling exists (Y1 on the thermostat), erant circuit for each mode is described below. the control will first check for indoor fan operation. If the The Humidi-MiZer system provides three sub-modes of fan is not on, then cooling will not be activated. If the fan is operation: Cool, Reheatl,and Reheat2. on, then the control will open the EconoMi$er IV and X Cool mode — Provides a normal ratio of Sensible and damper to the minimum position. Latent Cooling effect from the evaporator coil. On the initial power to the EconoMi$er®IV and X control, it will take the damper up to 21/2 minutes before it begins Reheatl — Provides increased Latent Cooling while to position itself. After the initial power-up, further slightly reducing the Sensible Cooling effect. changes in damper position can take up to 30 seconds to Reheat2 — Provides normal Latent Cooling but with null initiate. Damper movement from full closed to full open(or or minimum Sensible Cooling effect delivered to the space. vice versa)will take between 11/2 and 21/2 minutes. If free The Reheatl and Reheat2 modes are available when the cooling can be used as determined from the appropriate unit is not in a Heating mode and when the Low Ambient changeover command (switch, dry bulb, enthalpy curve, Lockout switch is closed. differential dry bulb, or differential enthalpy), then the con- trol will modulate the dampers open to maintain the mixed- Refer to the following figures for single stage and 2 stage air temperature set-point at 50°F(10°C) to 55°F(13°C). If piping flow diagrams. there is a further demand for cooling(cooling second stage RTU Open controller (factory option) —Y2 is energized), then the control will bring on compres- For details on operating 48/50FC units equipped with the sor stage 1 to maintain the mixed-air temperature set- factory-installed RTU Open controller option, refer to Fac- point. The EconoMi$er IV and X damper will be open at tory Installed RTU Open Multi-Protocol Controller Con- maximum position. trols,Start-Up,Operation and Troubleshooting manual. 2-Speed Note: The EconoMi$er IV and X controller will SystemVum controller (factory option) adjust the damper position as the Indoor Fan Speed For details on operating 48/50FC units equipped with the changes,per its configured values. factory-installed SystemVu controller option, refer to Heating FC/GC Series Single Package Rooftop Units with Sys- The sequence of operation for the heating is the same as temVu Controller Controls, Start-Up,Operation and Trou- an electro-mechanical unit with no economizer. The only bleshooting manual. difference is how the economizer acts. The economizer will 132 �arrie NORMAL COOLING MODE—HUMIDI-MIZER® NORMAL COOLING MODE—HUMIDI-MIZER® SYSTEM WITH SINGLE STAGE COOLING SYSTEM WITH 2 STAGE COOLING 4 RDV ALV INDOOR SUPPLY VALVE INDOOR LEAVING VALVE AIR AIR REHEAT MODE IP *III METERING „ REV "V DEVICE(TXV) VALVE ® Ill CONDENSER COIL HUMIDIN¢E COIV CONDENSER COIL PO HUMIDI-MIZER COIL 5^� D /^\ LJ J O. OUTDOOR AIR a . {^� 1110 OUTDOOR AIR �< IIIJJJ VALVE pPALVE VALVE CLV ^ DWIVALVE T PP 1, COMPRESSOR COMPRESSOR II EVAPORATOR COIL ' /� EVAPORATOR COIL INI�,�LI-CLOSED VALVE -1 - N=CLOSED VALVE 5 ? ycL=OPEN VALVE LJ =OREN VALVE LLLJJJ INDOOR ENTERING INDOOR RETURN AIR AIR SUBCOOUNG MODE(REHEAT 1)—HUMIDI-MIZER SUBCOOLING MODE(REHEAT 1)—HUMIDI-MIZER SYSTEM WITH SINGLE STAGE COOLING SYSTEM WITH 2 STAGE COOLING 4 RDV INDOOR LEAVING NEV 4 DOOR S UP=LY VALVE AIR VALVE AIR . 04 REHEATETERINGMODE METERING DEVICE(TXV) " GLJ? CONDENSER COIL HUMIDI-MIZER COIL e).•-• 111111.. CONDENSER COIL FIP11 -IXF-111H HUMIOIMIZERCOIL 1 . IRLV 4 4 VALVE 4V WTW AIR ,. �. IXTTDWRAIa Ow ill CLV O V VALVE EXPALSION VALVE V VALVE COMPRESSORVROmnNESSCN+ ITAVI 4 EVAPORATOR COIL I N=CLOSED VALVE 44111 EVAPORATOR COIL F-F I� I�=OPEN VALVE INDOOR ENTERING ^=CLOSED VALVE Q AIR >1-OPEN VALVE INDOOR RETURN AIR HOT GAS REHEAT MODE(REHEAT2)— HOT GAS REHEAT MODE (REHEAT2) — HUMIDI-MIZER SYSTEM WITH SINGLE STAGE HUMIDI-MIZER SYSTEM WITH 2 STAGE COOLING COOLING RDV INDOOR SUPPLY VALVE AIR RDV INDOOR LEAVING 4 Q �� VALVE AIRmommen PIP VA it REHEAT MODE V V- I METERING CONDENSER COIL �� xumlpiAfZER COILDEVICE(TXV) REV ® Q VALVE CONDENSER COIL ` HUMIDI-MIZER COIL . OUTDOOR AIR CLV VALVE EXPANSION VALVE ..' OUTDOOR AIR „ Ili PaE55on MOD CLV 4 VALVE . CIliOMPRESSOR EVAPORATOR COIL . 1 EVAPORATOR COIL 0411=CLOSED VALVE 0.4=CLOSED VALVE =OPEN VALVE INDOOR RETURN =OPEN VALVE AIR INDOOR ENTERING AIR 133 Application data Carrier' Minimum operating ambient temperature minimum CFM values published on page 8 and the maxi- (cooling) mum value is the LOWER of the cooling and heating mini- In mechanical cooling mode,your Carrier rooftop unit can mum values published on page 8. safely operate down to an outdoor ambient temperature of Heating-to-cooling changeover 40°F (4°C). It is possible to provide cooling at lower out- Your unit will automatically change from heating to cooling door ambient temperatures by using less outside air,econo- mode when using a thermostat with an auto-changeover mizers,and/or accessory low ambient kits. feature. Maximum operating ambient temperature (cooling) Airflow The maximum operating ambient temperature for cooling All units are draw-though in cooling mode and blow- mode is 115°F (46°C). While cooling operation above through in heating mode. 115°F (46°C) may be possible, it could cause either a reduction in performance, reliability, or a protective action Outdoor air application strategies by the unit's internal safety devices. Economizers reduce operating expenses and compressor Multiple motor and drive packages run time by providing a free source of cooling and a means of ventilation to match application changing needs. In fact, Some applications need larger horsepower motors, some they should be considered for most applications.Also,con- need more airflow, and some need both. Regardless of the sider the various economizer control methods and their case, your Carrier expert has a factory installed combination benefits, as well as sensors required to accomplish your to meet your application. A wide selection of motors are application goals. Please contact your local Carrier repre- available, factory installed,to handle nearly any application. sentative for assistance. Stainless steel heat exchanger(48FC units only) Motor limits, break horsepower(BHP) The stainless steel heat exchanger option provides the Due to internal design of Carrier units, the air path, and tubular heat exchanger be made out of a minimum specially designed motors, the full horsepower (maximum 20 gage type 409 stainless steel for applications where the continuous BHP) band, as listed in the Fan Performance mixed air to the heat exchanger is expected to drop below tables, can be used with the utmost confidence.There is no 45°F(7°C). Stainless steel may be specified on applications need for extra safety factors, as Carrier motors are where the presence of airborne contaminants require its designed and rigorously tested to use the entire, listed BHP use (applications such as paper mills) or in area with very range without either nuisance tripping or premature motor high outdoor humidity that may result in severe condensa- failure. tion in the heat exchanger during cooling operation. Propane heating (48FC units only) Minimum mixed air temperature (heating) (48FC Propane has different physical qualities than natural gas. units only) As a result, propane requires different fuel to air mixture. Using the factory settings, the minimum temperatures for To optimize the fuel/air mixture for propane, Carrier sells the mixed air (the combined temperature of the warm different burner orifices in an easy to install accessory kit. return air and the cold outdoor air) entering the dimpled, To select the correct burner orifices or determine the heat gas heat exchangers are shown in the following table. capacity for a propane application, use either the selection MINIMUM TEMPERATURE FOR MIXED AIR software,or the unit's service manual. TEMPERATURE High altitude heating ALUMINIZED STAINLESS STEEL High altitudes have less oxygen, which affects the fuel/air 50°F(10°C)Continuous 40°F(4°C)Continuous mixture in heat exchangers. In order to maintain a proper 45°F(7°C)Intermittent 35°F(2°C)Intermittent fuel/air mixture, heat exchangers operating in altitudes Operating at lower mixed-air temperatures may be possi- above 2000 ft (610 m) require different orifices. To select ble, if a field-supplied, outdoor air thermostat initiates both the correct burner orifices or determine the heat capacity heat stages when the temperature is less than the mini- for a high altitude application, use either the selection soft- mum temperatures listed above. Please contact your local ware, or the unit's service manual. Carrier representative for assistance. High altitudes have less oxygen, which means heat Minimum and maximum airflow (heating and exchangers need less fuel.The new gas orifices in this field cooling) installed kit make the necessary adjustment for high alti- tude applications. They restore the optimal fuel to air mix- To maintain safe and reliable operation of your rooftop, ture and maintain healthy combustion on altitudes above operate within the heating airflow limits during heating 2000 ft(610 m). mode and cooling airflow limits during cooling mode. Oper- ating above the max may cause blow off, undesired airflow NOTE: Typical natural gas heating value ranges from 975 noise, or airflow related problems with the rooftop unit. to 1050 Btu/ft3 at sea level nationally. The heating value Operating below the min may cause problems with coil goes down approximately 1.7% per every thousand feet freeze-up and unsafe heating operation. Heating and cool- elevation. Standard factory orifices can typically be used up ing limitations differ when evaluating operating CFM, the to 2000 ft (610 m) elevation without any operational minimum value is the HIGHER of the cooling and heating issues. 134 Carrier Sizing a rooftop promotes efficiency; reduces utility bills; extends equipment Bigger is not necessarily better. While an air conditioner life, and maintains even, comfortable temperatures. Please needs to have enough capacity to meet the design loads, it contact your local Carrier representative for assistance. does not need excess capacity. In fact, excess capacity typ- Low ambient applications ically results in very poor part load performance and The optional Carrier economizer can adequately cool your humidity control. space by bringing in fresh,cool outside air. In fact,when so Using higher design temperatures than ASHRAE recom- equipped,accessory low-ambient kit may not be necessary. mends for your location, adding "safety factors" to the cal- In low ambient conditions, unless the outdoor air is exces- culated load, are all signs of oversizing air conditioners. sively humid or contaminated, economizer-based "free Oversizing the air conditioner leads to poor humidity con- cooling" is the preferred less costly and energy conscious trol, reduced efficiency, higher utility bills, larger indoor method. In low ambient applications where outside air temperature swings, excessive noise, and increased wear might not be desired (such as contaminated or excessively and tear on the air conditioner. humid outdoor environments), your Carrier rooftop can Rather than oversizing an air conditioner, engineers should operate to ambient temperatures down to -20°F (-29°C) "right-size" or even slightly "under-size" air conditioners. using the recommended accessory low ambient controller. Correctly sizing an air conditioner controls humidity better; 135 Guide specifications Carrier Voile!Technologies Note about this specification: recording and reporting capabilities. Controller This specification is in the"Masterformat"as published by the Construc- shall also provide diagnostics and alarms of tion Specification Institute. Please feel free to copy this specification abnormal unit operation through the controller. directly into your building spec. Controller shall have an intuitive user display and be able to be used in a standalone opera- tion or via building automation system (BAS). Puron 2. Quick Unit Status LEDs of: Run — meaning all systems are go, ALERT—that indicates there is currently a non-critical issue with the unit, like Gas Heat/Electric Cooling Packaged Rooftop filters need to be replaced and FAULT — that HVAC Guide Specifications indicates the unit has a critical issue and will Size Range: 3 to 6 Nominal Tons possibly shut down. Carrier Model Number: 48FC*04-07 3. Six large navigation keys for easy access. Navi- gation keys shall consist of: TEST, BACK, Part 1 —(23 06 80) Schedules for Decentralized ENTER, and MENU along with UP and DOWN HVAC Equipment arrows. 1.01 (23 06 80.13) Decentralized Unitary HVAC Equip- 4. Full back lit user display with 4 line by 30 char- ment Schedule acter text capabilities. Display menu shall be A. (23 06 80.13.A.)Rooftop unit(RTU)schedule: designed to provide guided major menus and 1. Schedule is per the project specification sub menus main menus provided below: requirements. a. Shutdown Unit Part 2 — (23 07 16) HVAC equipment insulation b. Run Status 2.01 (23 07 16.13)Decentralized, Rooftop Units: c. Settings A. (23 07 16.13.A.)Evaporator fan compartment: d. Alerts/Faults 1. Interior cabinet surfaces shall be insulated with e. Service a minimum 1/2-in. thick, minimum 11/2-lb den- f. Inputs sity, flexible fiberglass insulation bonded with a g. Outputs phenolic binder, neoprene coated on the air side. h. USB 2. Insulation and adhesive shall meet NFPA 90A 5. The capability for standalone operation with requirements for flame spread and smoke conventional thermostat/sensor or use with generation. building automation systems (BAS) of Carrier B. (23 07 16.13.B.)Gas Heat Compartment: i-Vu®, BACnet and Carrier Comfort Network® (CCN) systems. No special modules or boards 1. Aluminum foil-faced fiberglass insulation shall are required for these capabilities. Has the be used. capability to work with Equipment Touchm and 2. Insulation and adhesive shall meet NFPA 90A System Touch devices and ZS Sensors. requirements for flame spread and smoke 6. The ability to read refrigerant pressures at dis- generation. play or via BAS network of; Discharge Pressure Part 3—(23 09 13) Instrumentation and control and Suction Pressure. The need for traditional devices for HVAC refrigerant gages is not required. 3.01 (23 09 13.23)Sensors and Transmitters 7. USB Data Port for flash drive interaction. This A. (23 09 13.23.A.)Thermostats will allow the transfer of data for uploads, 1. Thermostat must downloads, perform software upgrades, back- up and restore data and file transfer data such a. energize both "W" and "G" when calling for as component number of starts and run hours. heat. 8. Reverse Rotation Protection of compressors if b. have capability to energize 1 or 2 stages of field three phase wiring is misapplied. cooling, and 2 different stages of heating. 9. Provide Service Capabilities of: c. include capability for occupancy scheduling. a. Auto run test Part 4— (23 09 23) Direct Digital Control system b. Manual run test for HVAC c. Component run hours and starts 4.01 (23 09 23.13)Decentralized, Rooftop Units: d. Commissioning reports A. (23 09 23.13.A.) SystemVuTM intelligent integrated Direct Digital Control (DDC)shall provide: e. Data logging 1. Integrated unit operation for comfort cooling, f. Alarm history heating ventilation as well as all monitoring, 136 .,Carrier`; 10. Economizer control and diagnostics. Set up 4. Shall include built-in protocol for BACneti economizer operation, receive feedback from (MS/TP and PTP modes), Modbus2 (RTU and actuator. Also meets the most recent California ASCII), Johnson N2 and LonWorks3. Lon- Title 24, ASHRAE 90.1 and IECC Fault Detec- Works Echelon processor required for all Lon tion and Diagnostic(FDD) requirements. applications shall be contained in separate com- 11. Unit cooling operation down to 40°F(4°C). munication board. 12. Controller shall have easy access connections 5. Shall allow access of up to 62 network variables around the controller perimeter area and con- (SNVT). Shall be compatible with all open sist of Mate-N-Lok, terminal block and RJ style controllers. modular jack connections. 6. Baud rate controller shall be selectable using a 13. 365 day real time clock, 20 holiday schedules dipswitch. along with occupied and unoccupied 7. Shall have an LED display independently show- scheduling. ing the status of serial communication, running, 14. Auto-Recognition for easy installation and corn- errors, power, all digital outputs, and all analog missioning of devices like economizers, space inputs. sensors etc. 8. Shall accept the following inputs: space tern- 15. A 5°F temperature difference between cooling perature, setpoint adjustment, outdoor air tern- and heating set points to meet the latest perature, indoor air quality, outdoor air quality, ASHRAE 90.1 Energy Standard. compressor lock-out, fire shutdown, enthalpy 16. Contain return air sensor, supply air sensor and switch, and fan status/filter status/humidity/ outdoor air sensor to help monitor and provide remote occupancy. data for the unit comfort operation, diagnostic 9. Shall provide the following outputs: econo- and alarms. mizer, fan, cooling stage 1, cooling stage 2, 17. Use of Carrier's field accessory hand-held Navi heat stage 1, heat stage 2, exhaust, reversing gatormi display, Equipment Touch and System valve high fan speed. Touch devices. 10. Shall have built-in surge protection circuitry 18. Units with the factory-installed Humidi-MiZer® through solid-state polyswitches. Polyswitches system option are capable of providing multiple shall be used on incoming power and network modes of improved dehumidification as a varia connections. Polyswitchescondtionwill return to normal tion of the normal cooling cycle. when the "trip" condition clears. mini- 19. Supply Air Tempering control operates the gas 11. Shall have a battery back-up capable of a or electric heat to maintain a minimum supply mum of 10ring hours of data and time clock air temperature during conditions where very retention during power outages. cold outdoor air causes the supply air tempera- 12. Shall have built-in support for Carrier techni- ture to fall below the configured Supply Air cian tool. Tempering Setpoint.This occurs during periods 13. Shall include an RS-485 protocol communica- where DCV is active and increasing the amount tion port, an access port for connection of of outdoor air or in cases where the system is either a computer or a Carrier technician tool, operating at very low airflow and the calculated an RS-485 port for network communication to economizer position has increased to maintain intelligent space sensors and displays, and a a constant ventilation rate. port to connect an optional LonWorks commu- 20. Demand limiting in SystemVuTM is achieved nications card. through set point expansion. The systems heat- 14. Software upgrades will be accomplished by ing and cooling set points are expanded in either local or remote download. No software steps or levels. The degree to which the set upgrades through chip replacements are points may be expanded is defined by the allowed. 6 demand level offsets and the 2 commanded Part 5 - (23 09 33)Electric and Electronic Control demand limit levels. System for HVAC 21. 3-year limited part warranty. 5.01 (23 09 33.13)Decentralized, Rooftop Units: B. (23 09 23.13.B.) RTU Open Protocol, Direct A. (23 09 33.13.A.)General: Digital Controller: 1. Shall be complete with self-contained low-volt- 1. Shall be ASHRAE 62 compliant. age control circuit protected by a resettable 2. Shall accept 18 - 30VAC, 50- 60Hz, and con- sumer 15VA or less power. 3. Shall have an operating temperature range 1. BACnet is a registered trademark of ASHRAE(American Society of Heating,Refrigerating and Air-Conditioning Engineers). from -40°F (-40°C) to 130°F (54°C), 10% to 2. Modbus is a registered trademark of Schneider Electric. 90%RH (non-condensing). 3. LonWorks is a registered trademark of Echelon Corporation. 137 Guide specifications (cont) Carrie 4 un eaeammayu.. circuit breaker on the 24-v transformer side. 3. Filters shall be accessible through an access Transformer shall have 75VA capability. panel with "no-tool" removal as described in 2. Shall utilize color-coded wiring. the unit cabinet section of this specification 3. Shall include a Unit Control Board to cone (23 81 19.13.G). niently and safely provide connection points for Part 8 -(23 81 19) Self-Contained Air vital control functions such as: smoke detectors, Conditioners phase monitor,gas controller,economizer,ther- 8.01 (23 81 19.13) Small-Capacity Self-Contained Air mostat, DDC control options, and low and high Conditioners: pressure switches. Controller shall also provide A. (23 81 19.13.A.)General: an intuitive means to adjust the indoor fan 1. Outdoor, rooftop mounted, electrically con- speed through a simple switch and pot adjust trolled, heating and cooling unit utilizing a fully ment design. hermetic scroll compressor(s) for cooling duty 4. The heat exchanger shall be controlled by an and gas combustion for heating duty. integrated gas controller (IGC) microprocessor. 2. Factory assembled, single-piece heating and See heat exchanger section of this cooling rooftop unit. Contained within the unit specification. enclosure shall be all factory wiring, piping, 5. Unit shall include a minimum of one 8-pin controls, and special features required prior to screw terminal connection board for connec- field start-up. tion of control wiring. 3. Unit shall use Puron® (R-410A) refrigerant. B. (23 09 33.13.B.) Safeties: 4. Unit shall be installed in accordance with the 1. Compressor over-temperature, over-current. manufacturer's instructions. High internal pressure differential. 5. Unit must be selected and installed in compli- 2. Low pressure switch. ance with local, state, and federal codes. a. Low pressure switch shall use different color B. (23 81 19.13.B.) Quality Assurance: wire than the high pressure switch. The pur 1. Unit meets ASHRAE 90.1 minimum efficiency pose is to assist the installer and service technician to correctly wire and or trouble requirements. shoot the rooftop unit. 2. Unit shall be rated in accordance with AHRI 3. High pressure switch. Standards 210/240 (04-06 sizes) or 340/360 a. High pressure switch shall use different color (07 size). wire than the low pressure switch. The pur 3. Unit shall be designed to conform to pose is to assist the installer and service ASHRAE 15. technician to correctly wire and or trouble- 4. Unit shall be UL-tested and certified in accor- shoot the rooftop unit. dance with ANSI Z21.47 Standards and UL- 4. Automatic reset, motor thermal overload listed and certified under Canadian standards as protector. a total package for safety requirements. 5. Heating section shall be provided with the fol- lowing minimum protections: requirements for flame spread and smoke a. High temperature limit switches. generation. 6. Unit casing shall be capable of withstanding b. Induced draft motor speed sensor. 500 hour salt spray exposure per ASTM B117 c. Flame rollout switch. (scribed specimen). d. Flame proving controls. 7. Unit shall be designed in accordance with ISO Part 6-(23 09 93) Sequence of Operations for 9001, and shall be manufactured in a facility HVAC Controls registered by ISO 9001:2015. 6.01 (23 09 93.13)Decentralized, Rooftop Units: 8. Roof curb shall be designed to conform to A. (23 09 93.13.A.) INSERT SEQUENCE OF NRCA Standards. OPERATION 9. Unit shall be subjected to a completely auto- matedPart 7 - (23 40 13) Panel Air Filters run test on the assembly line. The data for each unit will be stored at the factory, and 7.01 (23 40 13.13)Decentralized, Rooftop Units: must be available upon request. A. (23 40 13.13.A.) Standard filter section: 10. Unit shall be designed in accordance with UL 1. Shall consist of factory installed, low velocity, Standard 1995, including tested to withstand disposable 2-in. thick fiberglass filters of corn- rain. mercially available sizes. 11. Unit shall be constructed to prevent intrusion of 2. Unit shall use only one filter size. Multiple sizes snow and tested to prevent snow intrusion into are not acceptable. the control box up to 40 mph. 138 Carrier 12. Unit shake tested to assurance level 1, ASTM connections (factory-installed or field-installed), D4169 to ensure shipping reliability. standard. C. (23 81 19.13.C.)Delivery, Storage, and Handling: 5. Base Rail: 1. Unit shall be stored and handled per manufac- a. Unit shall have base rails on a minimum of turer's recommendations. 2 sides. 2. Lifted by crane requires either shipping top b. Holes shall be provided in the base rails for panel or spreader bars. rigging shackles to facilitate maneuvering 3. Unit shall only be stored or positioned in the and overhead rigging. upright position. c. Holes shall be provided in the base rail for D. (23 81 19.13.D.) Project Conditions: moving the rooftop by fork truck. 1. As specified in the contract. d. Base rail shall be a minimum of 16 gage thickness. E. (23 81 19.13.E.)Operating Characteristics: 1. Unit shall be capable of starting and running at 6. Condensate pan and connections: 115°F (46°C) ambient outdoor temperature, a. Shall be a sloped condensate drain pan meeting maximum load criteria of AHRI Stan- made of a corrosion resistant material. dard 210/240 or 340/360 at ±10%voltage. b. Shall comply with ASHRAE Standard 62. 2. Compressor with standard controls shall be c. Shall use a 3/4-in. 14 NPT drain connection, capable of operation down to 40°F(4°C),ambi- possible either through the bottom or side of ent outdoor temperatures. Accessory winter the drain pan. Connection shall be made per start kit is necessary if mechanically cooling at manufacturer's recommendations. ambient temperatures down to 25°F(-4°C). 7. Top panel: 3. Unit shall discharge supply air vertically or hori- a. Shall be a single piece top panel on all sizes. zontally as shown on contract drawings. 8. Gas Connections: 4. Unit shall be factory configured for vertical sup- ply and return configurations. a. All gas piping connecting to unit gas valve shall enter the unit cabinet at a single loca- 5. Unit shall be field convertible from vertical to tion on side of unit(horizontal plane). horizontal airflow on all models. No special kit required. b. Thru-the-base capability 6. Unit shall be capable of mixed operation: verti 1) Standard unit shall have a thru the base cal supply with horizontal return or horizontal gas line location using a raised, supply with vertical return. embossed portion of the unit basepan. 2) Optional, factory approved, water-tight F. (23 81 19.13.F.) Electrical Requirements: connection method must be used for 1. Main power supply voltage, phase, and thru-the-base gas connections. frequency must match those required by the 3) No basepan penetration, other than manufacturer. those authorized by the manufacturer, is G. (23 81 19.13.G.)Unit Cabinet: permitted. 1. Unit cabinet shall be constructed of galvanized 9. Electrical Connections: steel, and shall be bonderized and coated with a a. All unit power wiring shall enter unit cabinet prepainted baked enamel finish on all externally at a single, factory prepared, knockout exposed surfaces. location. 2. Unit cabinet exterior paint shall be: film thick- b. Thru-the-base capability. ness, (dry) 0.003 inches minimum, gloss (per 1) Standard unit shall have a thru-the-base ASTM D523, 60°F/16°C): 60, Hardness: electrical location(s) using a raised, H-2H Pencil hardness. embossed portion of the unit basepan. 3. Evaporator fan compartment interior cabinet 2) Optional, factory approved, water-tight insulation shall conform to AHRI Standards connection method must be used for 210/240 and or 340/360 minimum exterior thru-the-base electrical connections. sweat criteria. Interior surfaces shall be 3) No basepan penetration, other than insulated with a minimum 1/2-in. thick, 1 lb those authorized by the manufacturer, is density, flexible fiberglass insulation, neoprene permitted. coated on the air side. Aluminum foil-faced 10. Component access panels(standard): fiberglass insulation shall be used in the gas heat compartment. a. Cabinet panels shall be easily removable for 4. Base of unit shall have a minimum of four servicing. tool- locations for thru-the-base gas and electrical b. Unit shall have one factory installed, less, removable, filter access panel. 139 Guide specifications (cont) Carrier c. Panels covering control box, indoor fan, 4. Optional Stainless Steel Heat Exchanger indoor fan motor, gas components (where construction: applicable), and compressors shall have a. Use energy saving, direct-spark ignition molded composite handles. system. d. Handles shall be UV modified, composite. b. Use a redundant main gas valve. They shall be permanently attached, and recessed into the panel. c. Burners shall be of the in-shot type con- structed of aluminum-coated steel. e. Screws on the vertical portion of all gas remov d. Allpiping shall enter the unit cabinet at a able access panel shall engage into heat p p g resistant, molded composite collars. single location on side of unit (horizontal plane). f. Collars shall be removable and easily e. The optional stainless steel heat exchanger replaceable using manufacturer recom shall be of the tubular-section type, con- mended parts. structed of a minimum of 20-gage type 409 H. (23 81 19.13.H.) Gas Heat: stainless steel. 1. General: f. Type 409 stainless steel shall be used in heat a. Heat exchanger shall be an induced draft exchanger tubes and vestibule plate. design. Positive pressure heat exchanger g. Complete stainless steel heat exchanger designs shall not be allowed. allows for greater application flexibility. b. Shall incorporate a direct-spark ignition sys- 5. Optional Low NOx Heat Exchanger construction: tem and redundant main gas valve. a. Low NOx reduction shall be provided to c. Gas supply pressure at the inlet to the roof- reduce nitrous oxide emissions to meet Cali- top unit gas valve must match that required fornia's Air Quality Management District by the manufacturer. (SCAQMD) low-NOx emissions requirement 2. The heat exchanger shall be controlled by an of 40 nanograms per joule or less. integrated gas controller(IGC) microprocessor. b. Primary tubes and vestibule plates on low a. IGC board shall notify users of fault using an NOx units shall be 409 stainless steel. Other LED(light-emitting diode). components shall be aluminized steel. b. The LED shall be visible without removing 6. Induced draft combustion motor and blower the control box access panel. a. Shall be a direct-drive, single inlet, forward- c. IGC board shall contain algorithms that curved centrifugal type. modify evaporator fan operation to prevent b. Shall be made from steel with a corrosion future cycling on high temperature limit resistant finish. switch. c. Shall have permanently lubricated sealed d. Unit shall be equipped with anti-cycle pro- bearings. tection with one short cycle on unit flame d. Shall have inherent thermal overload rollout switch or 4 continuous short cycles on the high temperature limit switch. Fault protection. indication shall be made using an LED. e. Shall have an automatic reset feature. 3. Standard Heat Exchanger construction: I. (23 81 19.13.I.) Coils: a. Heat exchanger shall be of the tubular- 1. Standard Aluminum Fin-Copper Tube Coils: section type constructed of a minimum of a. Standard evaporator and condenser coils 20-gage steel coated with a nominal 1.2 mil shall have aluminum lanced plate fins aluminum-silicone alloy for corrosion mechanically bonded to seamless internally resistance. grooved copper tubes with all joints brazed. b. Burners shall be of the in-shot type con- b. Evaporator coils shall be leak tested to structed of aluminum-coated steel. 150 psig, pressure tested to 450 psig, and c. Burners shall incorporate orifices for rated qualified to UL 1995 burst test at 1775 psig. heat output up to 2000 ft(610 m)elevation. c. Condenser coils shall be leak tested to Additional accessory kits may be required for 150 psig, pressure tested to 650 psig, and applications above 2000 ft (610 m) eleva- qualified to UL 1995 burst test at 1980 psig. tion, depending on local gas supply 2. Optional Pre-coated aluminum-fin condenser conditions, coils (3 Phase Models Only): d. Each heat exchanger tube shall contain a. Shall have a durable epoxy-phenolic coating multiple dimples for increased heating to provide protection in mildly corrosive effectiveness. coastal environments. 140 Carrier t,tined hchnolouic5 b. Coating shall be applied to the aluminum fin h. Corrosion durability shall be confirmed stock prior to the fin stamping process to through testing to be no less than 1000 create an inert barrier between the alumi- hours salt spray per ASTM B117-90. num fin and copper tube. J. (23 81 19.13.J.) Refrigerant Components: c. Epoxy-phenolic barrier shall minimize gal- 1. Refrigerant circuit shall include the following vanic action between dissimilar metals. control, safety, and maintenance features: d. Corrosion durability of fin stock shall be con- a. Fixed orifice metering system on 04-06 firmed through testing to be no less than models and TXV on 07 size models shall 1000 hours salt spray per ASTM B117-90. include a multiple feed distribution system e. Corrosion durability of fin stock shall be con- that optimizes coil performance. firmed through testing to have no visible cor- b. Refrigerant filter drier- Solid core design. rosion after 48 hour immersion in a room c. Service gage connections on suction and dis- temperature solution of 5% salt, 1% acetic charge lines. acid. f. Fin stock coating shall pass 2000 hours of d. Pressure gage access through a specially the following: one week exposure in the pro- designed access port in the top panel of the uni hesion chamber followed by one week oft' accelerated ultraviolet light testing. Prohe- 2. There shall be gage line access port in the skin sion chamber: the solution shall contain of the rooftop, covered by a black, removable 3.5% sodium chloride and 0.35% ammo- plug. nium sulfate. The exposure cycle is one hour a. The plug shall be easy to remove and of salt fog application at ambient followed by replace. one hour drying at 95°F(35°C). b. When the plug is removed, the gage access 3. Optional Copper-fin evaporator and condenser port shall enable maintenance personnel to coils(3 Phase Models Only): route their pressure gage lines. a. Shall be constructed of copper fins mechani- c. This gage access port shall facilitate correct cally bonded to copper tubes and copper and accurate condenser pressure readings by tube sheets. enabling the reading with the compressor b. Galvanized steel tube sheets shall not be access panel on. acceptable. d. The plug shall be made of a leak proof, c. A polymer strip shall prevent coil assembly UV-resistant, composite material. from contacting the sheet metal coil pan to 3. Compressors: minimize potential for galvanic corrosion a. Unit shall use fully hermetic, scroll compres- between coil and pan. sor for each independent refrigeration 4. Optional E-coated aluminum-fin evaporator and circuit. condenser coils(3 Phase Models Only): b. Compressor motors shall be cooled by a. Shall have a flexible epoxy polymer coating refrigerant gas passing through motor uniformly applied to all coil surface areas windings. without material bridging between fins. c. Compressors shall be internally protected b. Coating process shall ensure complete coil from high discharge temperature conditions. encapsulation of tubes, fins and headers. d. Compressors shall be protected from an c. Color shall be high gloss black with gloss per over-temperature and over-amperage condi- ASTM D523-89. lions by an internal, motor overload device. d. Uniform dry film thickness from 0.8 to e. Compressor shall be factory mounted on 1.2 mil on all surface areas including fin rubber grommets. edges. f. Compressor motors shall have internal line e. Superior hardness characteristics of 2H per break thermal, current overload and high ASTM D3363-92A and cross-hatch adhe- pressure differential protection. sion of 4B-5B per ASTM D3359-93. g. Crankcase heaters shall not be required for f. Impact resistance shall be up to 160 in. lb normal operating range, unless required by (ASTM D2794-93). compressor manufacturer due to refrigerant g. Humidity and water immersion resistance charge limits. shall be up to minimum 1000 and h. Compressor on 04-06 models shall be of a 250 hours respectively (ASTM D2247-92 single stage cooling capacity design and 07 and ASTM D870-92). models shall be a two stage cooling capacity design. 141 � Guide specifications (cont) Carrier K. (23 81 19.13.K.)Filter Section: 3. Shall include an easily accessible unit Control 1. Filters access is specified in the unit cabinet sec- Board to conveniently and safely provide tion of this specification. connection points for vital control functions 2. Filters shall be held in place by a pivoting filter such as: smoke detectors, phase monitor, gas controller, economizer, thermostat, DDC con- tray, facilitating easy removal and installation. trol options, and low and high pressure 3. Shall consist of factory installed, low velocity, switches. Controller shall also provide an intui- throw-away 2-in. thick fiberglass filters. tive means to adjust the indoor fan speed 4. Filters shall be standard, commercially available through a simple switch and pot adjustment sizes. design. 5. Only one size filter per unit is allowed. M. (23 81 19.13.M.)Condenser Fans and Motors: L. (23 81 19.13.L.) Evaporator Fan and Motor with 1. Condenser fan motors: EcoBIueTM Technology: a. Shall be a totally enclosed motor. 1. Direct Drive Evaporator fan motor: b. Shall use permanently lubricated bearings. a. Shall be a ECM motor design. c. Shall have inherent thermal overload protec- b. Shall have permanently lubricated bearings. tion with an automatic reset feature. c. Shall have inherent automatic-reset thermal d. Shall use a shaft-down design on all sizes. overload protection. 2. Condenser Fans: d. Shall have slow ramp up to speed a. Shall be a direct-driven propeller type fan capabilities. constructed of high impact composite e. Shall require no fan/motor belts for opera- material. tion, adjustments and or initial fan speed set b. Shall have high impact composite blades up. completely formed into one piece without f. Fan DC voltage set up on Unit Control blade fasteners or connectors and shall be Board can eliminate the need of removal dynamically balanced. of blower access door, required on conven- N. (23 81 19.13.N.) Special Features Options and tional belt drive systems. Accessories: g. Shall be internally protected from electrical 1. Integrated EconoMi$er®IV, EconoMi$er2, and phase reversal and loss. EconoMi$er X low leak rate models. 2. Evaporator Fan: (EconoMi$er 2, IV and X are factory-installed a. Shall be easily set with dedicated selection on 04-06 models. EconoMi$er 2 and X are fac switch and adjustment pot on unit control tort'installed on 07 models. All are field board or through SystemVuTM controller. installed on all 3 and 1 phase models.) b. On sizes 04-06 single speed indoor fan a. Integrated, gear driven opposing modulating operation provided and on 07 size model blade design type capable of simultaneous with two stage cooling capacity control, the economizer and compressor operation. indoor fan speed is automatically controlled b. Independent modules for vertical or horizon- to meet the code-compliant 66% low fan tal return configuration shall be available. speed and 100%at full fan speed operation. Vertical return modules shall be available as c. Blower fan shall be a Vane Axial fan design a factory installed option. with 75% less moving parts than a conven- c. Damper blades shall be galvanized steel with tional belt drive system. composite gears. Plastic or composite blades d. Shall be constructed of a cast aluminum sta- intake or return shall not be acceptable. tor and high impact composite material on d. Shall include all hardware and controls to rotor and air inlet casing. provide free cooling with outdoor air when e. Shall be a patented/ pending design with a temperature and/or humidity are below corrosion resistant material and dynamically setpoints. balanced. e. Shall be equipped with gear driven dampers f. Shall have slow ramp up to speed for both the outdoor ventilation air and the capabilities to help reduce sound and com- air for positive air stream control. fort issues typically associated with single f. Standard leak rate shall be equipped with speed belt drive systems. dampers not to exceed 2% leakage at g. Shall be a slide out design with two screw 1 in. wg pressure differential. removal. 142 Carrier s) g. Economizer controller on EconoMi$er IV o. The economizer shall maintain minimum air- models shall be Honeywell W7212 that flow into the building during occupied period provides: and provide design ventilation rate for full 1) Combined minimum and DCV maxi- occupancy. mum damper position potentiometers p. Dampers shall be completely closed when with compressor staging relay. the unit is in the unoccupied mode. 2) Functions with solid-state analog q. Economizer controller shall accept a 2 to enthalpy or dry bulb changeover control 10 Vdc CO2 sensor input for IAQ/DCV sensing. control. In this mode, dampers shall modu- 3) LED indicators for: when free cooling is late the outdoor air damper to provide venti- available,when module is in DCV mode, lation based on the sensor input. when exhaust fan contact is closed. r. Compressor lockout temperature on W7220 h. Economizer controller on EconoMi$er X control is adjustable from—45°F to 80°F, set models shall be the Honeywell W7220 that at a factory default of 32°F. W7212 control provides: opens at 35°F (2°C) and closes at 50°F 1) 2-line LCD interface screen for setup, (10°C). configuration and troubleshooting. s. Actuator shall be direct coupled to econo- 2) On-board Fault Detection and Diagnos- mizer gear. No linkage arms or control rods tics (FDD) that senses and alerts when shall be acceptable. the economizer is not operating prop t. Economizer controller shall provide indica- erly, per California Title 24, ASHRAE 90.1 and IECC1. tions when in free cooling mode, in the DCV 3) Sensor failure loss of communication mode, or the exhaust fan contact is closed. identification. 2. Integrated EconoMi$er®2, and EconoMi$er X 4) Automatic sensor detection. Ultra Low Leak rate models. (Factory-installed 5) Capabilities for use with multiple-speed on 3 phase models only. Field-installed on all 3 or single speed indoor fan systems. and 1 phase models.) 6) Utilize digital sensors: Dry bulb and a. Integrated, gear driven opposing modulating Enthalpy. blade design type capable of simultaneous i. Economizer controller on EconoMi$er 2 economizer and compressor operation. models with RTU Open or SystemVuTM b. Independent modules for vertical or horizon- controls shall be a 4 to 20mA design con- tal return configuration shall be available. trolled directly by the controller. RTU Open Vertical return modules shall be available as and SystemVu meet California Title 24, a factory installed option. ASHRAE 90.1 and IECC Fault Detection c. Damper blades shall be galvanized steel with and Diagnostic (FDD)requirements. composite gears. Plastic or composite blades j. Shall be capable of introducing up to 100% on intake or return shall not be acceptable. outdoor air. d. Shall include all hardware and controls to k. Shall be equipped with a barometric relief provide free cooling with outdoor air when damper capable of relieving up to 100% temperature and/or humidity are below set- return air and contain seals that meet points. ASHRAE 90.1 requirements. e. Shall be equipped with gear driven dampers I. Shall be designed to close damper(s) during for both the outdoor ventilation air and the loss-of-power situations with spring return return air for positive air stream control. built into motor. f. Ultra Low Leak design meets California m.Dry bulb outdoor air temperature sensor Title 24 section 140.4 and ASHRAE 90.1 shall be provided as standard. Enthalpy sen- requirements for 4 cfm per sq.ft on the out- sor is also available on factory-installed econ- side air dampers and 10 cfm per sq. ft on omizers only. Outdoor air sensor setpoint the return dampers. shall be adjustable and shall range from 40°F g. Economizer controller on EconoMi$er X to 100°F (4°C to 38°C). Additional sensor models shall be the Honeywell W7220 that options shall be available as accessories. provides: n. The economizer controller shall also provide 1) 2-line LCD interface screen for setup, control of an accessory power exhaust unit configuration and troubleshooting. function. Factory set at 100%, with a range 2) On-board Fault Detection and Diagnos- of 0%to 100%. tics (FDD) that senses and alerts when the economizer is not operating 1. IECC is a registered trademark of the International Code Council, properly, per California Title 24, inc. ASHRAE 90.1 and IECC. 143 rier Guide specifications (cont) ��r 3) Sensor failure loss of communication 3. Two-Position Damper (Factory-installed on identification. 3-Phase 04-06 Models Only. Field-installed on 4) Automatic sensor detection. all 3 and 1 Phase Models): 5) Capabilities for use with multiple-speed a. Damper shall be a Two-Position Damper. indoor fan systems. Damper travel shall be from the full closed 6) Utilize digital sensors: Dry bulb and position to the field adjustable %-open Enthalpy. setpoint. h. Economizer controller on EconoMi$er 2 b. Damper shall include adjustable damper models with RTU Open or SystemVum con- travel from 25%to 100%(full open). trols shall be a 4-20mA design controlled c. Damper shall include single or dual blade, directly by the controller. RTU Open and gear driven dampers and actuator motor. SystemVu meet California Title 24, ASHRAE 90.1 and IECC Fault Detection d. Actuator shall be direct coupled to damper and Diagnostic(FDD) requirements. gear. No linkage arms or control rods shall i. Shall be capable of introducing up to 100% be acceptable. outdoor air. e. Damper will admit up to 100% outdoor air j. Shall be equipped with a barometric relief for applicable rooftop units. damper capable of relieving up to 100% f. Damper shall close upon indoor(evaporator) return air and contain seals that meet fan shutoff and/or loss of power. ASHRAE 90.1 requirements. g. The damper actuator shall plug into the k. Shall be designed to close damper(s) during rooftop unit's wiring harness plug. No hard loss-of-power situations with spring return wiring shall be required. built into motor. h. Outside air hood shall include aluminum I. Dry bulb outdoor air temperature sensor water entrainment filter. shall be provided as standard. Enthalpy sen- 4. Manual damper(Field-installed only): sor is also available on factory-installed econ- a. Manual damper package shall consist of omizers only. Outdoor air sensor setpoint damper, air inlet screen, and rain hood shall be adjustable and shall range from 40°F which can be preset to admit up to 25 or to 100°F (4°C to 38°C). Additional sensor 50%outdoor air for year round ventilation. options shall be available as accessories. 5. Humidi-MiZer®Adaptive Dehumidification Sys- m.The economizer controller shall also providetern(3 Phase Models Only): control of an accessory power exhaust unit function. Factory set at 100%, with a range a. The Humidi-MiZer Adaptive Dehumidifica- of 0%to 100%. tion System shall be factory installed and shall provide greater dehumidification of the n. The economizer shall maintain minimum air- occupied space by two modes of dehumidifi- flow into the building during occupied period cation operations in addition to its normal and provide design ventilation rate for full design cooling mode: occupancy. 1) Subcooling mode further sub cools the o. Dampers shall be completely closed when hot liquid refrigerant leaving the con- the unit is in the unoccupied mode. denser coil when both temperature and p. Economizer controller shall accept a 2 to humidity in the space are not satisfied. 10 vdc CO2 sensor input for IAQ/DCV con- 2) Hot gas reheat mode shall mix a portion trol. In this mode, dampers shall modulate of the hot gas from the discharge of the the outdoor air damper to provide ventila- compressor with the hot liquid refriger- tion based on the sensor input. ant leaving the condenser coil to create q. Compressor lockout temperature on W7220 a two-phase heat transfer in the system, control is adjustable from—45°F to 80°F, set resulting in a neutral leaving air tern- at a factory default of 32°F. W7212 control perature when only humidity in the opens at 35°F (2°C) and closes at 50°F space is not satisfied. (10°C). 3) Includes low ambient controller. r. Actuator shall be direct coupled to econo- 6. Low Ambient Control Package: mizer gear. No linkage arms or control rods a. Controller shall control coil head pressure by shall be acceptable. condenser fan speed modulation or con- s. Economizer controller shall provide indica- denser fan cycling and wind baffles. lions when in free cooling mode, in the DCV b. Shall consist of solid-state control and con- mode, or the exhaust fan contact is closed. denser coil temperature sensor to maintain condensing temperature between 90°F 144 Carrier (32°C)and 110°F(43°C)at outdoor ambient b. Factory-Installed Non-Powered convenience temperatures down to—20°F(-29°C). outlet. 7. Propane Conversion Kit: 1) Outlet shall be powered from a separate a. Package shall contain all the necessary hard- 115/120v power source. ware and instructions to convert a standard 2) A transformer shall not be included. natural gas unit for use with liquefied pro- 3) Outlet shall be factory-installed and pane, up to 2000 ft (610m)elevation. internally mounted with easily accessible b. Additional accessory kits may be required for l lb-v shall includefemal receptacle. recepta- applications above 2000 ft (610m) 4) duOudeet independent15 fuseam rGot ction. elevation. clef with protection. 5) Outlet shall be accessible from outside 8. Flue Shield: the unit. a. Flue shield shall provide protection from the 6) Outlet shall include a field installed "Wet hot sides of the gas flue hood, in Use" cover. 9. Condenser Coil Hail Guard Assembly (Factory- c. Field-Installed Non-Powered convenience installed on 3 Phase Models Only. Field- outlet. installed on all 3 and 1 Phase Models.) 1) Outlet shall be powered from a separate a. Shall protect against damage from hail. 115/120v power source. b. Shall be either hood style or louvered. 2) A transformer shall not be included. 3) Outlet shall be field-installed and inter- 10. Unit Mounted, Non Fused Disconnect Switch nally mounted with easily accessible (Available on units with MOCPs of 80 amps or 115-v female receptacle. less): 4) Outlet shall include 20 amp GFI recepta- a. Switch shall be factory installed, internally des. This kit provides a flexible installa- mounted. tion method which allows code b. National Electric Code (NEC) and UL compliance for height requirements of approved non-fused switch shall provide unit the GFCI outlet from the finished roof power shutoff. surface as well as the capability to relo- c. Shall be accessible from outside the unit. cate the outlet to a more convenient location. d. Shall provide local shutdown and lockout 5) Outlet shall be accessible from outside capability. the unit. e. Sized only for the unit as ordered from the 6) Outlet shall include a field installed "Wet factory. Does not accommodate field- in Use" cover. installed devices. 12. Flue Discharge Deflector: 11. Convenience Outlet: a. Flue discharge deflector shall direct unit a. Powered convenience outlet. exhaust vertically instead of horizontally. (3 Phase Models Only) b. Deflector shall be defined as a "natural draft" 1) Outlet shall be powered from main line device by the National Fuel and Gas (NFG) power to the rooftop unit. code. 2) Outlet shall be powered from line side or 13. Thru-the-Base Connectors: load side of disconnect by installing con a. Kits shall provide connectors to permit gas tractor, as required by code. If outlet is and electrical connections to be brought to powered from load side of disconnect, the unit through the unit basepan. unit electrical ratings shall be UL certi- fied and rated for additional outlet b. Minimum of four connection locations per amperage. unit. 3) Outlet shall be factory-installed and 14. Propeller Power Exhaust: internally mounted with easily accessible a. Power exhaust shall be used in conjunction 115-v female receptacle. with an integrated economizer. 4) Outlet shall include 15 amp GFI recepta- cles with independent fuse protection. b. Independent modules for vertical or horizon- s) Voltage required to operate convenience tal return configurations shall be available. outlet shall be provided by a factory c. Horizontal power exhaust is shall be installed step-down transformer. mounted in return ductwork. 6) Outlet shall be accessible from outside d. Power exhaust shall be controlled by econo- the unit. mizer controller operation. Exhaust fans 7) Outlet shall include a field installed "Wet shall be energized when dampers open past in Use" cover. the 0 to 100% adjustable setpoint on the economizer control. 145 Guide specifications (cont) Carrier,' .United iennnoingies 15. Roof Curbs(Vertical): 2) Two Form-C auxiliary alarm relays for a. Full perimeter roof curb with exhaust capa- interface with rooftop unit or other bility providing separate air streams for equipment. energy recovery from the exhaust air with- 3) One Form-C supervision (trouble) relay out supply air contamination. to control the operation of the Trouble LED on a remote test/reset station. b. Formed galvanized steel with wood nailer 4) Capable of direct connection to two strip and shall be capable of supporting individual detector modules. entire unit weight. 5) Can be wired to up to 14 other duct c. Permits installation and securing of ductwork smoke detectors for multiple fan shut- to curb prior to mounting unit on the curb. down applications. 16. High Altitude Gas Conversion Kit: 21. Winter Start Kit: a. Package shall contain all the necessary hard- a. Shall contain a bypass device around the low ware and instructions to convert a standard pressure switch. natural gas unit to operate from 2000 to b. Shall be required when mechanical cooling is 7000 ft(610 to 2134 m) elevation with nat- required down to 25°F(-4°C). ural gas or from 0 to 7000 ft (0 to 2134 m) elevation with liquefied propane. c. Shall not be required to operate on an econ- omizer when below an outdoor ambient of 17. Outdoor Air Enthalpy Sensor: 40°F(4°C). a. The outdoor air enthalpy sensor shall be 22. Time Guard: used to provide single enthalpy control. When used in conjunction with a return air a. Shall prevent compressor short-cycling by enthalpy sensor, the unit will provide differ- providing a 5-minute delay (±2 minutes) ential enthalpy control. The sensor allows before restarting a compressor after shut- the unit to determine if outside air is suitable down for any reason. for free cooling. b. One device shall be required per 18. Return Air Enthalpy Sensor: compressor. a. The return air enthalpy sensor shall be used 23. Hinged Access Panels: in conjunction with an outdoor air enthalpy a. Shall provide easy access through integrated sensor to provide differential enthalpy quarter turn latches. control. b. Shall be on major panels of: filter, control 19. Indoor Air Quality(CO2)Sensor: box, fan motor, and compressor. a. Shall be able to provide demand ventilation 24. Condensate overflow switch: indoor air quality(IAQ)control. a. This sensor and related controller monitors b. The IAQ sensor shall be available in duct the condensate level in the drain pan and mount, wall mount, or wall mount with LED shuts down compression operation when display. The setpoint shall have adjustment overflow conditions occur. It includes: capability. 1) Indicator light — solid red (more than 20. Smoke detectors(factory-installed only): 10 seconds on water contact-compres- a. Shall be a Four-Wire Controller and sors disabled), blinking red (sensor Detector. disconnected). 2) 10 second delay to break — eliminates b. Shall be environmental compensated withrom differential sensing for reliable, stable, and innuisance(sensor or needs 10 splashing so of wavesn- drift-free sensitivi in pan needs seconds con- . stant water contact before tripping). c. Shall use magnet-activated test/reset sensor 3) Disables the compressor(s) operation switches. when condensate plug is detected, but d. Shall have tool-less connection terminal still allows fans to run for Economizer. access. 25. MERV-8 Return Air filters: e. Shall have a recessed momentary switch for a. Factory option to upgrade standard unit fil- testing and resetting the detector. ters to MERV-8 filters. f. Controller shall include: 26. Phase Monitor Control: 1) One set of normally open alarm a. Shall monitor the sequence of three phase initiation contacts for connection to an electrical system to provide a phase reversal initiating device circuit on a fire alarm protection. control panel. b. Shall monitor the three phase voltage inputs to provide a phase loss protection for the three phase device. 146 arrier c. Will work on either a Delta or Wye power 1) Requires installation of a field-supplied connection. 24-v transformer suitable for 4.2 VA 27. Hom/Strobe Annunciator: (AC) or 3.0 VA (DC) per horn/strobe a. Provides an audible/visual signaling device accessory. 2) Requires for use with factory-installed option or field field-suppliedelectrical installed accessory smoke detectors. North American. ( box, 1-gang-ggang box, 22in. (51 mm)x 4-in. (102 mm). 3) Shall have a clear colored lens. 147 Guide specifications (cont) Carrier Owlep Technologies Note about this specification: recording and reporting capabilities. Controller This specification is in the"Masterformat"as published by the Construe- shall also provide diagnostics and alarms of tion Specification Institute. Please feel free to copy this specification abnormal unit operation through the controller. directly into your building spec. Controller shall have an intuitive user display and be able to be used in a standalone opera- tion or via building automation system(BAS). Puron 2. Quick Unit Status LEDs of: Run - meaning all systems are go, ALERT-that indicates there is currently a non-critical issue with the unit, like Cooling Only/Electric Heat Packaged Rooftop filters need to be replaced and FAULT - that HVAC Guide Specifications indicates the unit has a critical issue and will Size Range: 3 to 6 Nominal Tons possibly shut down. Carrier Model Number: 50FC*04-07 3. Six large navigation keys for easy access. Navi- gation keys shall consist of: TEST, BACK, Part 1 —(23 06 80) Schedules for Decentralized ENTER, and MENU along with UP and DOWN HVAC Equipment arrows. 1.01 (23 06 80.13) Decentralized Unitary HVAC Equip- 4. Full back lit user display with 4 line by 30 char- ment Schedule: acter text capabilities. Display menu shall be A. (23 06 80.13.A.) Rooftop unit (RTU)schedule: designed to provide guided major menus and 1. Schedule is per the project specification sub menus main menus provided below: requirements. a. Shutdown Unit Part 2 — (23 07 16) HVAC equipment insulation b. Run Status 2.01 (23 07 16.13)Decentralized, Rooftop Units: c. Settings A. (23 07 16.13.A.) Evaporator fan compartment: d. Alerts/Faults 1. Interior cabinet surfaces shall be insulated with e. Service a minimum 1/2-in. thick, minimum 11/2-lb f. Inputs density, flexible fiberglass insulation bonded g. Outputs with a phenolic binder, neoprene coated on the air side. h. USB 2. Insulation and adhesive shall meet NFPA 90A 5. The capability for standalone operation with requirements for flame spread and smoke conventional thermostat/sensor or use with generation. building automation systems (BAS) of Carrier B. (23 07 16.13.B.)Electric Heat Compartment: i-Vu®, BACnet and Carrier Comfort Network® (CCN) systems. No special modules or boards 1. Aluminum foil-faced fiberglass insulation shall are required for these capabilities. Has the be used. capability to work with Equipment Touchml and 2. Insulation and adhesive shall meet NFPA 90A System Touchm devices and ZS Sensors. requirements for flame spread and smoke 6. The ability to read refrigerant pressures at dis- generation. play or via BAS network of; Discharge Pressure Part 3— (23 09 13) Instrumentation and control and Suction Pressure. The need for traditional devices for HVAC refrigerant gages is not required. 3.01 (23 09 13.23)Sensors and Transmitters: 7. USB Data Port for flash drive interaction. This A. (23 09 13.23.A.)Thermostats: will allow the transfer of data for uploads, 1. Thermostat must downloads, perform software upgrades, back- up and restore data and file transfer data such a. energize both "W" and "G" when calling for as component number of starts and run hours. heat. 8. Reverse Rotation Protection of compressors if b. have capability to energize 1 or 2 stages of field three phase wiring is misapplied. cooling, and 2 different stages of heating. 9. Provide Service Capabilities of: c. include capability for occupancy scheduling. a. Auto run test Part 4— (23 09 23) Direct Digital Control system b. Manual run test for HVAC 4.01 (23 09 23.13)Decentralized, Rooftop Units: c. Component run hours and starts A. (23 09 23.13.A.) SystemVuTM intelligent integrated d. Commissioning reports Direct Digital Control(DDC)shall provide: e. Data logging 1. Integrated unit operation for comfort cooling, f. Alarm history heating ventilation as well as all monitoring, 148 Carrier 10. Economizer control and diagnostics. Set up 4. Shall include built-in protocol for BACneti economizer operation, receive feedback from (MS/TP and PTP modes), Modbus2 (RTU and actuator. Also meets the most recent California ASCII), Johnson N2 and LonWorks3. Lon- Title 24, ASHRAE 90.1 and IECC Fault Detec- Works Echelon processor required for all Lon tion and Diagnostic (FDD) requirements. applications shall be contained in separate com- 11. Unit cooling operation down to 40°F(4°C). munication board. 12. Controller shall have easy access connections 5. Shall allow access of up to 62 network variables around the controller perimeter area and con- (SNVT). Shall be compatible with all open sist of Mate-N-Lok, terminal block and RJ style controllers. modular jack connections. 6. Baud rate controller shall be selectable using a 13. 365 day real time clock, 20 holiday schedules dipswitch. along with occupied and unoccupied 7. Shall have an LED display independently show- scheduling. ing the status of serial communication, running, 14. Auto-Recognition for easy installation and com- errors, power, all digital outputs, and all analog missioning of devices like economizers, space inputs. sensors, etc. 8. Shall accept the following inputs: space tern- 15. A 5°F temperature difference between cooling perature, setpoint adjustment, outdoor air tern- and heating set points to meet the latest perature, indoor air quality, outdoor air quality, ASHRAE 90.1 Energy Standard. compressor lock-out, fire shutdown, enthalpy 16. Contain return air sensor, supply air sensor and switch, and fan status/filter status/humidity/ outdoor air sensor to help monitor and provide remote occupancy. data for the unit comfort operation, diagnostic 9. Shall provide the following outputs: econo- and alarms. mizer, fan, cooling stage 1, cooling stage 2, 17. Use of Carrier's field accessory hand-held Navi heat stage 1, heat stage 2, exhaust, reversing gatorr"' display, Equipment Touch and System valve/high fan speed. Touch devices. 10. Shall have built-in surge protection circuitry 18. Units with the factory installed Humidi MiZet® through solid-state polyswitches. Polyswitches system option are capable of providing multiplelysw shall be used on incoming power and network modes of improved dehumidification as a varia- connections. Po conditionches will return to normal clears. tion of the normal cooling cycle. when the "trip" mini- 19. Supply Air Tempering control operates the gas 11. Shall have a battery back-up capable of a or electric heat to maintain a minimum supply mum of 1 hours of data and time clock air temperature during conditions where very retention during power outages. cold outdoor air causes the supply air tempera- 12. Shall have built-in support for Carrier techni- ture to fall below the configured Supply Air cian tool. Tempering Setpoint.This occurs during periods 13. Shall include an RS-485 protocol communica- where DCV is active and increasing the amount tion port, an access port for connection of of outdoor air or in cases where the system is either a computer or a Carrier technician tool, operating at very low airflow and the calculated an RS-485 port for network communication to economizer position has increased to maintain intelligent space sensors and displays, and a a constant ventilation rate. port to connect an optional LonWorks commu- 20. Demand limiting in SystemVulm is achieved nications card. through set point expansion. The systems heat- 14. Software upgrades will be accomplished by ing and cooling set points are expanded in either local or remote download. No software steps or levels. The degree to which the set upgrades through chip replacements are points may be expanded is defined by the 6 allowed. demand level offsets and the 2 commanded Part 5 -(23 09 33) Electric and Electronic Control demand limit levels. System for HVAC 21. 3-year limited part warranty. 5.01 (23 09 33.13)Decentralized, Rooftop Units: B. (23 09 23.13.B.) RTU Open Protocol, Direct A. (23 09 33.13.A.)General: Digital Controller: 1. Shall be complete with self-contained low-volt- 1. Shall be ASHRAE 62 compliant. age control circuit protected by a resettable 2. Shall accept 18 - 30VAC, 50 - 60Hz, and con- sumer 15VA or less power. f. BACnet is a registered trademark of ASHRAE(American Society of 3. Shall have an operating temperature range Heating,Refrigerating and Air-Conditioning Engineers). from -40°F (-40°C) to 130°F (54°C), 10% to 2. Modbus is a registered trademark of Schneider Electric. 90%RH(non-condensing). 3. LonWorks is a registered trademark of Echelon Corporation. 149 Guide specifications (cont) tea e Y umlea ittnnnm Nes circuit breaker on the 24-v transformer side. Part 8 - (23 81 19) Self-Contained Air Transformer shall have 75VA capability. Conditioners 2. Shall utilize color-coded wiring. 8.01 (23 81 19.13) Small-Capacity Self-Contained Air 3. Shall include a Unit Control Board to conve- Conditioners: niently and safely provide connection points for A. (23 81 19.13.A.) General: vital control functions such as: smoke detectors, 1. Outdoor, rooftop mounted, electrically con- phase monitor, economizer, thermostat, DDC trolled, heating and cooling unit utilizing a fully control options, and low and high pressure hermetic scroll compressor(s) for cooling duty switches. Controller shall also provide an intui- and optional electric heat for heating duty. tive means to adjust the indoor fan speed 2. Factory assembled, single-piece heating and through a simple switch and pot adjustment cooling rooftop unit. Contained within the unit design. 4. Unit shall include a minimum of one 8-pin enclosure shall be all factory wiring, piping, P controls, and special features required prior to screw terminal connection board for connec- field start-up. tion of control wiring. 3. Unit shall use Puron®(R-410A) refrigerant. B. (23 09 33.13.B.)Safeties: 4. Unit shall be installed in accordance with the 1. Compressor over-temperature, over-current. manufacturer's instructions. High internal pressure differential. 5. Unit must be selected and installed in compli- 2. Low pressure switch. ance with local, state, and federal codes. a. Low pressure switch shall use different color B. (23 81 19.13.B.)Quality Assurance: wire than the high pressure switch. The pur 1. Unit meets ASHRAE 90.1 minimum efficiency pose is to assist the installer and service requirements. technician to correctly wire and or trouble- shoot the rooftop unit. 2. Unit shall be rated in accordance with AHRI 3. High pressure switch. Standards 210/240 (04-06 sizes) or 340/360 a. High pressure switch shall use different color (07 size). wire than the low pressure switch. The pur 3. Unit shall be designed to conform to pose is to assist the installer and service ASHRAE 15. technician to correctly wire and or trouble- 4. Unit shall be UL-tested and certified in accor- shoot the rooftop unit. dance with ANSI Z21.47 Standards and UL- 4. Automatic reset, motor thermal overload listed and certified under Canadian standards as protector. a total package for safety requirements. Part 6- (23 09 93) Sequence of Operations for 5. Insulation and adhesive shall meet NFPA 90A HVAC Controls requirements for flame spread and smoke generation. 6.01 (23 09 93.13) Decentralized, Rooftop Units: 6. Unit casing shall be capable of withstanding A. (23 09 93.13.A.) INSERT SEQUENCE OF 500 hour salt spray exposure per ASTM B117 OPERATION (scribed specimen). Part 7 -(23 40 13) Panel Air Filters 7. Unit shall be designed in accordance with ISO 7.01 (23 40 13.13)Decentralized, Rooftop Units: 9001, and shall be manufactured in a facility A. (23 40 13.13.A.)Standard filter section: registered by ISO 9001:2015. 1. Shall consist of factory installed, low velocity, 8. Roof curb shall be designed to conform to disposable 2-in. thick fiberglass filters of corn- NRCA Standards. mercially available sizes. 9. Unit shall be subjected to a completely auto- 2. Unit shall use only one filter size. Multiple sizes mated run test on the assembly line. The data are not acceptable. for each unit will be stored at the factory, and 3. Filters shall be accessible through an access must be available upon request. panel with "no-tool" removal as described in 10. Unit shall be designed in accordance with UL the unit cabinet section of this specification Standard 1995, including tested to withstand (23 81 19.13.G). rain. 11. Unit shall be constructed to prevent intrusion of snow and tested to prevent snow intrusion into the control box up to 40 mph. 12. Unit shake tested to assurance level 1, ASTM D4169 to ensure shipping reliability. 150 Carrier C. (23 81 19.13.C.) Delivery, Storage, and Handling: 5. Base Rail: 1. Unit shall be stored and handled per manufac- a. Unit shall have base rails on a minimum of turer's recommendations. 2 sides. 2. Lifted by crane requires either shipping top b. Holes shall be provided in the base rails for panel or spreader bars. rigging shackles to facilitate maneuvering 3. Unit shall only be stored or positioned in the and overhead rigging. upright position. c. Holes shall be provided in the base rail for D. (23 81 19.13.D.) Project Conditions: moving the rooftop by fork truck. 1. As specified in the contract. d. Base rail shall be a minimum of 16 gage E. (23 81 19.13.E.)Operating Characteristics: thickness. 1. Unit shall be capable of starting and running at 6. Condensate pan and connections: 115°F (46°C) ambient outdoor temperature, a. Shall be a sloped condensate drain pan meeting maximum load criteria of AHRI Stan- made of a corrosion resistant material. dard 210/240 or 340/360 at ±10%voltage. b. Shall comply with ASHRAE Standard 62. 2. Compressor with standard controls shall be c. Shall use a 3/4-in. 14 NPT drain connection, capable of operation down to 40°F(4°C),ambi- possible either through the bottom or side of ent outdoor temperatures. Accessory winter the drain pan. Connection shall be made per start kit is necessary if mechanically cooling at manufacturer's recommendations. ambient temperatures down to 25°F(-4°C). 7. Top panel: 3. Unit shall discharge supply air vertically or hori- a. Shall be a single piece top panel on all sizes. zontally as shown on contract drawings. 8. Electrical Connections: 4. Unit shall be factory configured for vertical sup a. All unit power wiring shall enter unit cabinet ply and return configurations. at a single, factory prepared, knockout 5. Unit shall be field convertible from vertical to location. horizontal airflow on all models. No special kit b. Thru the base capability. required. 6. Unit shall be capable of mixed operation: verti 1) Standard unit shall have a thru the base cal supply with horizontal return or horizontal electrical location(s) using a raised, supply with vertical return. embossed portion of the unit basepan. F. (23 81 19.13.F.)Electrical Requirements: 2) Optional, factory approved, water-tight 4 connection method must be used for 1. Main power supply voltage, phase, and thru-the-base electrical connections. frequency must match those required by the 3) No basepan penetration, other than manufacturer. those authorized by the manufacturer, is G. (23 81 19.13.G.)Unit Cabinet: permitted. 1. Unit cabinet shall be constructed of galvanized 9. Component access panels(standard): steel, and shall be bonderized and coated with a a. Cabinet panels shall be easily removable for prepainted baked enamel finish on all externally servicing. exposed surfaces. b. Unit shall have one factory installed, tool- 2. Unit cabinet exterior paint shall be: film thick- less, removable, filter access panel. ness, (dry) 0.003-in. minimum, gloss (per c. Panels covering control box, indoor fan, ASTM D523, 60°F/16°C): 60, Hardness: indoor fan motor, gas components (where H-2H Pencil hardness. applicable), and compressors shall have 3. Evaporator fan compartment interior cabinet molded composite handles. insulation shall conform to AHRI Standards d. Handles shall be UV modified, composite. 210/240 and or 340/360 minimum exterior They shall be permanently attached, and sweat criteria. Interior surfaces shall be insulated recessed into the panel. with a minimum r/z in. thick, 1 lb density, flexi e. Screws on the vertical portion of all remov- ble fiberglass insulation, neoprene coated on the able access panel shall engage into heat air side. Aluminum foil-faced fiberglass insulation resistant, molded composite collars. shall be used in the heat compartment. 4. Base of unit shall have a minimum of four f. Collars shall be removable and easily locations for thru-the-base gas and electrical replaceable using manufacturer recom connections (factory-installed or field-installed), mended parts. standard. 151 Guide specifications (cont) (Carrier r H. (23 81 19.13.H.)Coils: b. Coating process shall ensure complete coil 1. Standard Aluminum Fin-Copper Tube Coils: encapsulation of tubes, fins and headers. a. Standard evaporator and condenser coils c. Color shall be high gloss black with gloss per shall have aluminum lanced plate fins ASTM D523-89. mechanically bonded to seamless internally d. Uniform dry film thickness from 0.8 to grooved copper tubes with all joints brazed. 1.2 mil on all surface areas including fin b. Evaporator coils shall be leak tested to edges. 150 psig, pressure tested to 450 psig, and e. Superior hardness characteristics of 2H per qualified to UL 1995 burst test at 1775 psig. ASTM D3363-92A and cross-hatch adhe- c. Condenser coils shall be leak tested to sion of 4B-5B per ASTM D3359-93. 150 psig, pressure tested to 650 psig, and f. Impact resistance shall be up to 160 in.-lb qualified to UL 1995 burst test at 1980 psig. (ASTM D2794-93). 2. Optional Pre-coated aluminum-fin condenser g. Humidity and water immersion resistance coils(3 Phase Models Only): shall be up to minimum 1000 and a. Shall have a durable epoxy-phenolic coating 250 hours respectively (ASTM D2247-92 to provide protection in mildly corrosive and ASTM D870-92). coastal environments. h. Corrosion durability shall be confirmed b. Coating shall be applied to the aluminum fin through testing to be no less than stock prior to the fin stamping process to 1000 hours salt spray per ASTM B117-90. create an inert barrier between the alumi- I. (23 81 19.13.I.) Refrigerant Components: num fin and copper tube. 1. Refrigerant circuit shall include the following c. Epoxy-phenolic barrier shall minimize gal- control, safety, and maintenance features: vanic action between dissimilar metals. a. Fixed orifice metering system on 04-06 d. Corrosion durability of fin stock shall be con- models and TXV on 07 size models shall firmed through testing to be no less than include a multiple feed distribution system 1000 hours salt spray per ASTM B117-90. that optimizes coil performance. e. Corrosion durability of fin stock shall be con- b. Refrigerant filter drier-Solid core design. firmed through testing to have no visible cor- c. Service gage connections on suction and dis- rosion after 48 hour immersion in a room charge lines. temperature solution of 5% salt, 1% acetic d. Pressure gage access through a specially acid. designed access port in the top panel of the f. Fin stock coating shall pass 2000 hours of unit. the following: one week exposure in the pro 2. There shall be gage line access port in the skin of hesion chamber followed by one week of the rooftop, covered by a black,removable plug. accelerated ultraviolet light testing. Prohe- sion chamber: the solution shall contain a. The plug shall be easy to remove and 3.5% sodium chloride and 0.35% ammo- replace. nium sulfate. The exposure cycle is one hour b. When the plug is removed, the gage access of salt fog application at ambient followed by port shall enable maintenance personnel to one hour drying at 95°F(35°C). route their pressure gage lines. 3. Optional Copper-fin evaporator and condenser c. This gage access port shall facilitate correct coils(3 Phase Models Only): and accurate condenser pressure readings by a. Shall be constructed of copper fins mechani- enabling the reading with the compressor cally bonded to copper tubes and copper access panel on. tube sheets. d. The plug shall be made of a leak proof, b. Galvanized steel tube sheets shall not be UV-resistant, composite material. acceptable. 3. Compressors: c. A polymer strip shall prevent coil assembly a. Unit shall use fully hermetic, scroll compres- from contacting the sheet metal coil pan to sor for each independent refrigeration minimize potential for galvanic corrosion circuit, between coil and pan. b. Compressor motors shall be cooled by 4. Optional E-coated aluminum-fin evaporator and refrigerant gas passing through motor condenser coils (3 Phase Models Only): windings. a. Shall have a flexible epoxy polymer coating c. Compressors shall be internally protected uniformly applied to all coil surface areas from high discharge temperature conditions. without material bridging between fins. 152 :-Carrier d. Compressors shall be protected from an c. Blower fan shall be a Vane Axial fan design over-temperature and over-amperage condi- with 75% less moving parts than a conven- tions by an internal, motor overload device. tional belt drive system. e. Compressor shall be factory mounted on d. Shall be constructed of a cast aluminum sta- rubber grommets. tor and high impact composite material on f. Compressor motors shall have internal line rotor and air inlet casing. break thermal, current overload and high e. Shall be a patented /pending design with a pressure differential protection. corrosion resistant material and dynamically g. Crankcase heaters shall not be required for balanced. normal operating range, unless required by f. Shall have slow ramp up to speed compressor manufacturer due to refrigerant capabilities to help reduce sound and com- charge limits. fort issues typically associated with single h. Compressor on 04-06 models shall be of a speed belt drive systems. single stage cooling capacity design and g. Shall be a slide out design with two screw 07 models shall be a two stage cooling removal. capacity design. 3. Shall include an easily accessible unit Control J. (23 81 19.13.J.) Filter Section: Board to conveniently and safely provide con- 1. Filters access is specified in the unit cabinet sec- nection points for vital control functions such tion of this specification. as: smoke detectors, phase monitor, gas con- 2. Filters shall be held in place by a pivoting filter troller, economizer, thermostat, DDC control options, and low and high pressure switches. tray, facilitating easy removal and installation. Controller shall also provide an intuitive means 3. Shall consist of factory installed, low velocity, to adjust the indoor fan speed through a simple throw-away 2-in. thick fiberglass filters. switch and pot adjustment design. 4. Filters shall be standard, commercially available L. (23 81 19.13.L.)Condenser Fans and Motors: sizes. 1. Condenser fan motors: 5. Only one size filter per unit is allowed. a. Shall be a totally enclosed motor. K. (23 81 19.13.K.) Evaporator Fan and Motor with b. Shall use permanently lubricated bearings. EcoBlueul Technology: 1. Direct Drive Evaporator fan motor: c. Shall have inherent thermal overload protec- tion with an automatic reset feature. a. Shall be a ECM motor design. d. Shall use a shaft-down design on all sizes. b. Shall have permanently lubricated bearings. 2. Condenser Fans: c. Shall have inherent automatic reset thermal a. Shall be a direct-driven propeller type fan overload protection. constructed of high impact composite d. Shall have slow ramp up to speed material. capabilities. b. Shall have high impact composite blades e. Shall require no fan/motor belts for opera- completely formed into one piece without tion, adjustments and or initial fan speed set blade fasteners or connectors and shall be up. dynamically balanced. f. Fan DC voltage set up on Unit Control M. (23 81 19.13.M.) Special Features Options and Board can eliminate the need of removal Accessories: of blower access door, required on conven- 1. Integrated EconoMi$er® IV, EconoMi$er2, and tional belt drive systems. EconoMi$er X low leak rate models. g. Shall be internally protected from electrical (EconoMi$er 2, IV and X are factory-installed phase reversal and loss. on 04-06 models. EconoMi$er 2 and X are fac- 2. Evaporator Fan: tory-installed on 07 models. All are field- a. Shall be easily set with dedicated selection installed on all 3 and 1 phase models.) switch and adjustment pot on unit control a. Integrated, gear driven opposing modulating board or through SystemVum controller. blade design type capable of simultaneous b. On sizes 04-06 single speed indoor fan economizer and compressor operation. operation provided and on 07 size model b. Independent modules for vertical or horizon- with two stage cooling capacity control, the tal return configuration shall be available. indoor fan speed is automatically controlled Vertical return modules shall be available as to meet the code-compliant 66% low fan a factory installed option. speed and 100%at full fan speed operation. 153 Guide specifications (cont) (Carrier-) c. Damper blades shall be galvanized steel with 1. Shall be designed to close damper(s) during composite gears. Plastic or composite blades loss-of-power situations with spring return on intake or return shall not be acceptable. built into motor. d. Shall include all hardware and controls to m.Dry bulb outdoor air temperature sensor provide free cooling with outdoor air when shall be provided as standard. Enthalpy sen- temperature and/or humidity are below sor is also available on factory installed only. setpoints. Outdoor air sensor setpoint shall be adjust- e. Shall be equipped with gear driven dampers able and shall range from 40°F to 100°F for both the outdoor ventilation air and the (4°C to 38°C). Additional sensor options return air for positive air stream control. shall be available as accessories. f. Standard leak rate shall be equipped with n. The economizer controller shall also provide dampers not to exceed 2% leakage at control of an accessory power exhaust unit 1 in. wg pressure differential. function. Factory set at 100%, with a range g. Economizer controller on EconoMi$er IV of 0%to 100%. models shall be Honeywell W7212 that o. The economizer shall maintain minimum air- provides: flow into the building during occupied period 1) Combined minimum and DCV maxi and provide design ventilation rate for full mum damper position potentiometers occupancy. with compressor staging relay. p. Dampers shall be completely closed when 2) Functions with solid-state analog the unit is in the unoccupied mode. enthalpy or dry bulb changeover control q. Economizer controller shall accept a 2 to sensing. 10 vdc CO2 sensor input for IAQ/DCV con- 3) Contain LED indicates for: when free trol. In this mode, dampers shall modulate cooling is available, when module is in the outdoor air damper to provide ventila- DCV mode, when exhaust fan contact is tion based on the sensor input. closed. r. Compressor lockout temperature on W7220 h. Economizer controller on EconoMi$er X control is adjustable from—45°F to 80°F, set models shall be the Honeywell W7220 that at a factory default of 32°F. W7212 control provides: opens at 35°F (2°C) and closes at 50°F 1) 2-line LCD interface screen for setup, (10°C). configuration and troubleshooting. s. Actuator shall be direct coupled to econo- 2) On-board Fault Detection and Diagnos- mizer gear. No linkage arms or control rods tics (FDD) that senses and alerts when shall be acceptable. the economizer is not operating prop- t. Economizer controller shall provide indica- erly, per California Title 24, ASHRAE tions when in free cooling mode, in the DCV 90.1 and IECC'. mode, or the exhaust fan contact is closed. 3) Sensor failure loss of communication 2. Integrated EconoMi$ere2, and EconoMi$er X identification. 4) Automatic sensor detection. Ultra Low Leak rate models. (Factory-installed 5) Capabilities for use with multiple-speed on 3 phase models only. Field installed on all 3 or single speed indoor fan systems. and 1 phase models.) 6) Utilize digital sensors: Dry bulb and a. Integrated, gear driven opposing modulating Enthalpy. blade design type capable of simultaneous i. Economizer controller on EconoMi$er 2 economizer and compressor operation. models with RTU Open or SystemVuT" con- b. Independent modules for vertical or horizon- trols shall be a 4 to 20mA design controlled tal return configuration shall be available. directly by the controller. RTU Open and Vertical return modules shall be available as SystemVu meet California Title 24, a factory-installed option. ASHRAE 90.1 and IECC Fault Detection c. Damper blades shall be galvanized steel with and Diagnostic(FDD)requirements. composite gears. Plastic or composite blades j. Shall be capable of introducing up to 100% on intake or return shall not be acceptable. outdoor air. d. Shall include all hardware and controls to k. Shall be equipped with a barometric relief provide free cooling with outdoor air when damper capable of relieving up to 100% temperature and/or humidity are below set- return air and contain seals that meet points. ASHRAE 90.1 requirements. e. Shall be equipped with gear driven dampers for both the outdoor ventilation air and the 1. IECC is a registered trademark of the International Code Council, return air for positive air stream control. Inc. 154 Carrier 11Nhl R[M1iwloglee f. Ultra Low Leak design meets California the outdoor air damper to provide ventila- Title 24 section 140.4 and ASHRAE 90.1 tion based on the sensor input. requirements for 4 cfm per sq.ft. on the out- q. Compressor lockout temperature on W7220 side air dampers and 10 cfm per sq. ft. on control is adjustable from-45°F to 80°F, set the return dampers. at a factory default of 32°F. W7212 control g. Economizer controller on EconoMi$er X opens at 35°F (2°C) and closes at 50°F models shall be the Honeywell W7220 that (10°C). provides: r. Actuator shall be direct coupled to econo- 1) 2-line LCD interface screen for setup, mizer gear. No linkage arms or control rods configuration and troubleshooting. shall be acceptable. 2) On-board Fault Detection and Diagnos- s. Economizer controller shall provide indica- tics (FDD) that senses and alerts when tions when in free cooling mode, in the DCV the economizer is not operating prop- mode, or the exhaust fan contact is closed. erly, per California Title 24, ASHRAE 3. Two Position Damper (Factory installed on 90.1 and IECC. 3 Phase 04-06 Models Only. Field-installed on 3) Sensor failure loss of communication all 3 and 1 Phase Models) identification. 4) Automatic sensor detection. a. Damper shall be a Two-Position Damper. 5) Capabilities for use with multiple-speed Damper travel shall be from the full closed indoor fan systems. position to the field adjustable %-open 6) Utilize digital sensors: Dry bulb and setpoint. Enthalpy. b. Damper shall include adjustable damper h. Economizer controller on EconoMi$er 2 travel from 25%to 100%(full open). models with RTU Open or SystemVum con- c. Damper shall include single or dual blade, trols shall be a 4-20mA design controlled gear driven dampers and actuator motor. directly by the controller. RTU Open and d. Actuator shall be direct coupled to damper SystemVu meet California Title 24, gear. No linkage arms or control rods shall ASHRAE 90.1 and IECC Fault Detection be acceptable. and Diagnostic (FDD)requirements. i. Shall be capable of introducingto 100% e. Damper will admit up to 100% outdoor air p up for applicable rooftop units. outdoor air. f. Damper shall close upon indoor(evaporator) j. Shall be equipped with a barometric relief fan shutoff and/or loss of power. damper capable of relieving up to 100% return air and contain seals that meet g. The damper actuator shall plug into the ASHRAE 90.1 requirements. rooftop unit's wiring harness plug. No hard k. Shall be designed to close damper(s) during wiring shall be required. loss-of-power situations with spring return h. Outside air hood shall include aluminum built into motor. water entrainment filter. 1. Dry bulb outdoor air temperature sensor 4. Manual damper(field installed only): shall be provided as standard. Enthalpy sen- a. Manual damper package shall consist of sor is also available on factory installed only. damper, air inlet screen, and rain hood Outdoor air sensor setpoint shall be adjust- which can be preset to admit up to 25% or able and shall range from 40°F to 100°F 50%outdoor air for year round ventilation. (4°C to 38°C). Additional sensor options 5. Humidi-MiZer Adaptive Dehumidification Sys- shall be available as accessories. tern(3 Phase Models Only): m.The economizer controller shall also provide a. The Humidi-MiZer® Adaptive Dehumidifica- control of an accessory power exhaust unit tion System shall be factory installed and function. Factory set at 100%, with a range shall provide greater dehumidification of the of 0%to 100%. occupied space by two modes of dehumidifi- n. The economizer shall maintain minimum air- cation operations in addition to its normal flow into the building during occupied period design cooling mode: and provide design ventilation rate for full 1) Subcooling mode further sub cools the occupancy. hot liquid refrigerant leaving the con- o. Dampers shall be completely closed when denser coil when both temperature and the unit is in the unoccupied mode. humidity in the space are not satisfied. p. Economizer controller shall accept a 2 to 2) Hot gas reheat mode shall mix a portion 10 vdc CO2 sensor input for IAQ/DCV con of the hot gas from the discharge of the trol. In this mode, dampers shall modulate compressor with the hot liquid refriger- ant leaving the condenser coil to create 155 Guide specifications (cont) Carrier a two-phase heat transfer in the system, b. Factory-Installed Non-Powered convenience resulting in a neutral leaving air tern- outlet. perature when only humidity in the 1) Outlet shall be powered from a separate space is not satisfied. 115/120v power source. 3) Includes low ambient controller. 2) A transformer shall not be included. 6. Low Ambient Control Package: 3) Outlet shall be factory-installed and a. Controller shall control coil head pressure by internally mounted with easily accessible condenser fan speed modulation or con- 115-v female receptacle. denser fan cycling and wind baffles. 4) Outlet shall include 15 amp GFI recepta- b. Shall consist of solid-state control and con cles with independent fuse protection. d 5) Outlet shall be accessible from outside denser coil temperature sensor to maintain th condensing temperature between 90°F Oe unit. (32°C)and 110°F(43°C)at outdoor ambient 6) Useest s shall include a field installed "Wet temperatures down to—20°F(-29°C). in U " cover. 7. Condenser Coil Hail Guard Assembly (Factory- c. Field-Installed Non-Powered convenience outlet. installed on 3 Phase Models Only. Field- installed on all 3 and 1 Phase Models.) 1) Outlet shall be powered from a separate 115/120v a. Shall protect against damage from hail. powersource. 2) A transformer shall not b. be included. b. Shall be either hood style or louvered. 3) Outlet shall be field-installed and inter- 8. Unit-Mounted, Non-Fused Disconnect Switch nally mounted with easily accessible (Available on units with MOCPs of 80 amps or 115-v female receptacle. less): 4) Outlet shall include 20 amp GFI recepta- a. Switch shall be factory installed, internally cles. This kit provides a flexible installa mounted. lion method which allows code b. National Electric Code (NEC) and UL compliance for height requirements of approved non-fused switch shallprovide unit surfacer GFCIasoutlet from the bfinisheo roof 1 pP well as the capability to relo- power shutoff. cate the outlet to a more convenient c. Shall be accessible from outside the unit. location. d. Shall provide local shutdown and lockout 5) Outlet shall be accessible from outside capability. the unit. e. Sized only for the unit as ordered from the 6) Outlet shall include a field installed "Wet factory. Does not accommodate field- in Use" cover. installed devices. 10. Thru-the-Base Connectors: 9. Convenience Outlet: a. Kits shall provide connectors to permit gas a. Powered convenience outlet. and electrical connections to be brought to (3 Phase Models Only) the unit through the unit basepan. 1) Outlet shall be powered from main line b. Minimum of four connection locations per power to the rooftop unit. unit. 2) Outlet shall be powered from line side or 11. Propeller Power Exhaust: load side of disconnect by installing con- a. Power exhaust shall be used in conjunction tractor, as required by code. If outlet is with an integrated economizer. powered from load side of disconnect, b. Independent modules for vertical or horizon- unit electrical ratings shall be UL certi- tal return configurations shall be available. fied and rated for additional outlet amperage. c. Horizontal power exhaust is shall be 3) Outlet shall be factory-installed and mounted in return ductwork. internally mounted with easily accessible d. Power exhaust shall be controlled by econo- 115-v female receptacle. mizer controller operation. Exhaust fans 4) Outlet shall include 15 amp GFI recepta- shall be energized when dampers open past cies with independent fuse protection. the 0 to 100% adjustable setpoint on the 5) Voltage required to operate convenience economizer control. outlet shall be provided by a factory 12. Roof Curbs(Vertical): installed step-down transformer. a. Full perimeter roof curb with exhaust capa- 6) Outlet shall be accessible from outside bility providing separate air streams for the unit. energy recovery from the exhaust air with- 7) Outlet shall include a field installed "Wet out supply air contamination. in Use" cover. 156 arri b. Formed galvanized steel with wood nailer b. Shall be required when mechanical cooling is strip and shall be capable of supporting required down to 25°F(-4°C). entire unit weight. c. Shall not be required to operate on an econ- c. Permits installation and securing of ductwork omizer when below an outdoor ambient of to curb prior to mounting unit on the curb. 40°F(4°C). 13. Outdoor Air Enthalpy Sensor: 18. Time Guard: a. The outdoor air enthalpy sensor shall be a. Shall prevent compressor short-cycling by used to provide single enthalpy control. providing a 5 minute delay (±2 minutes) When used in conjunction with a return air before restarting a compressor after shut- enthalpy sensor, the unit will provide differ- down for any reason. ential enthalpy control. The sensor allows b. One device shall be required per the unit to determine if outside air is suitable compressor. for free cooling. 19. Hinged Access Panels: 14. Return Air Enthalpy Sensor: a. Shall provide easy access through integrated a. The return air enthalpy sensor shall be used quarter turn latches. in conjunction with an outdoor air enthalpy b. Shall be on major panels of: filter, control sensor to provide differential enthalpy box, fan motor, and compressor. control. 15. Indoor Air Quality (CO2)Sensor: 20. Condensate overflow switch: a. Shall be able to provide demand ventilation a. This sensor and related controller monitors indoor air quality(IAQ)control. the condensate level in the drain pan and shuts down compression operation when b. The IAQ sensor shall be available in duct overflow conditions occur. It includes: mount, wall mount, or wall mount with LED 1) Indicator light — solid red (more than display. The setpoint shall have adjustment 10 seconds on water contact capability. compressors disabled), blinking red (sen- 16. Smoke detectors(factory-installed only): sor disconnected). a. Shall be a four-wire controller and detector. 2) 10 second delay to break eliminates b. Shall be environmental compensated with nuisance trips from splashing or waves in differential sensing for reliable, stable, and pan (sensor needs 10 seconds of con- drift-free sensitivity. stant water contact before tripping). c. Shall use magnet activated test/reset sensor 3) Disables the compressor(s) operation switches. when condensate plug is detected, but still allows fans to run for Economizer. d. Shall have tool-less connection terminal 21. MERV-8 Return Air filters: access. e. Shall have a recessed momentary switch for a. Factory option to upgrade standard unit fil- testing and resetting the detector. ters to MERV-8 filters. f. Controller shall include: 22. Phase Monitor Control: 1) One set of normally open alarm initia- a. Shall monitor the sequence of three phase electrical system to provide a phase reversal tion contacts for connection to an initiat- protection. ing device circuit on a fire alarm control panel. b. Shall monitor the three phase voltage inputs 2) Two Form-C auxiliary alarm relays for to provide a phase loss protection for the interface with rooftop unit or other three phase device. equipment. c. Will work on either a Delta or Wye power 3) One Form-C supervision (trouble) relay connection. to control the operation of the Trouble 23. Hom/Strobe Annunciator: LED on a remote test/reset station. a. Provides an audible/visual signaling device 4) Capable of direct connection to two for use with factory-installed option or field individual detector modules. installed accessory smoke detectors. 5) Can be wired to up to 14 other duct smoke detectors for multiple fan shut- 1) Requires installation of a field-supplied down applications. 24-v transformer suitable for 4.2 VA 17. Winter Start Kit: (AC) or 3.0 VA (DC) per horn/strobe accessory. a. Shall contain a bypass device around the low 2) Requires field-supplied electrical box, pressure switch. North American 1-gang box, 2-in. (51 mm)x 4-in. (102 mm). 157 Guide specifications (cont) 3) Shall have a clear colored lens. 2) Heater assemblies are provided with 24. Electric Heat: integral fusing for protection of inter- nala. HeatingSection: heater circuits not exceeding 48 amps each. Auto reset thermo limit 1) Heater element open coil resistance controls, magnetic heater contactors wire, nickel-chrome alloy, 0.29 inches (24 v coil) and terminal block all inside diameter, strung through mounted in electric heater control box ceramic insulators mounted on metal (minimum 18 ga galvanized steel) frame. Coil ends are staked and welded attached to end of heater assembly. to terminal screw slots. Carrier Carrier Corporation•Syracuse,New York 13221 5-19 Manufacturer reserves the right to discontinue,or change at any time,specifications or designs without notice and without incurring obligations. Pg 158 Catalog No.04-52480064-01 Printed in U.S.A. Form 48/50FC-4-7-02PD Replaces:48/50FC-4-7-01 PD DIMENSIONAL DATA Figure 24.1 -Dimensional Drawings - Propeller Units (Model PDP) M -. "0---A C _ -.—N� —F—► y —DO ~ w I~—x—►I x 1 1 i ftIl!L 1 • . WNE 68 �3 EE f D p?ENP1G) ► L p7 N.DISTANCE TO WALL) Table 24.1 -Dimensions (inches) -PDP o Dimension Model Number Symbol PDP 150 PDP 175 PDP 200 PDP 250 PDP 300 PDP 350 PDP 400 A 21 23-1/2 25-5/8 25-5/8 28-5/8 33-5/8 40 B 35-1/4 35-1/4 40-1/4 40-1/4 40-1/4 40-1/4 40-1/4 C 22 22 25 25 25 25 25 D 18-9/16 21-1/16 23-3/16 23-3/16 26-3/16 31-3/16 37-1/2 E 20 20 24 24 24 24 24 F 12 12 13-1/2 13-1/2 14 - - G 6-9/16 6-9/16 7-1/2 7-1/2 7-1/2 7-1/2 7-1/2 H 17-3/8 19-7/8 22 22 25 30 36-3/8 J 5® 50 5® 6 6 6 6 K (Mounting 3/8-16 3/8-16 3/8-16 3/8-16 3/8-16 3/8-16 3/8-16 Holes)OO L 0 35-13/16 35-9/16 40-3/4 40-3/4 40-3/4 40-3/4 44-3/16 M 29-13/16 29-9/16 34-3/4 34-3/4 34-3/4 34-11/16 38-3/16 W - - - - - 5 5 X - - - - - 16 16 AA 8 8 9 9 9 9 9 BB 7-1/4 7-1/4 7-1/4 7-1/4 7-1/4 7-1/4 7-1/4 DD 2-3/4 2-3/4 3-3/8 3-3/8 3-3/8 3-3/8 6-13/16 EE 30-1/2 30-1/2 32-7/8 32-7/8 32-7/8 32-7/8 32-7/8 LL 31-1/8 31-1/8 34-7/8 34-7/8 36-1/4 35-1/2 40-1/2 Gas Connections p 1/2 1/2 1/2 3/4 3/4 3/4 3/4 Fan Diameter 16 18 20 20 22 22 24 Approx.Weight 168 175 239 239 269 338 418 O Do not use propeller units with duct work. Cr Vent connection is 5",connected to a factory supplied vent transition.For model sizes 150 and 175, the factory supplied transition is 4"(to the power exhauster outlet)to 5"(to the vent system).For model size 200,the factory supplied transition is 6"(to the power exhauster outlet)to 5"(to the vent system). ®PDP 150 through PDP 300-2 holes(and the level hanging adjustment feature).PDP 350 through PDP 400-4 holes.(Listed is the hole diameter and threads per inch to accept threaded rod). ®Dimension equals overall plus 6". p For natural gas;may vary depending on control availability. 24 6-580.14 GENERAL PERFORMANCE DATA Table 19.1 - Performance - Propeller (PDP) OO ®O Model Number PDP 150 PDP 176 PDP200 PDP 250 PDP 300 PDP 350 PDP 400 Btu/Hr.Input C% 150,000 175,000 200,000 250,000 300,000 350,000 400,000 Btu/Hr.Output(D 120,000 140,000 160,000 200,000 240,000 280,000 320,000 Entering Airflow(CFM) 2180 2550 2870 3700 4460 4870 5440 CFM Range - - - - - Air Temp.Rise(F) 51 51 52 50 50 53 54 Max.Mounting Hgt.(Ft.)L 16 17 15 19 21 20 19 Heat Throw(Ft.)© 55 59 51 67 74 70 69 @ Maximum Mgt.Height Motor Type Cl) PSC PSC PSC PSC PSC PSC PSC 115/60/1(PC01) 1/8 116 1/6 1/3 1/2 3/4 3/4 HP 230160/1(PCO2) I/O 1/8 1/6 1/3 1/2 3/4 314 208/60/1(PC03) N/A N/A N/A N/A N/A N/A NIA O Ratings shown are for elevations up to 2,000'.For elevations above 2,000',ratings should be reduced at the rate of 4% for each 1.000'above sea level(in Canada see rating plate.)Reduction of ratings requires use of a high altitude kit. /U Data taken at 551F air temperature rise.At 65'F ambient and unit fired at full-rated input.Mounting height as measured from bottom of unit,and without deflector hoods.For units equipped with deflector hoods,see page 23. 1)All motors used are produced, rated and tested by reputable manufacturers in accordance with NEMA standards and carry the standard warranty of both the motor manufacturer and Modine,All motors are totally enclosed and all single phase motors have built-in thermal overload protection. Blower (BDP) Models Model Number BDP150 BDP175 BDP200 BDP250 BDP300 BDP350 BDP400 Btu/Hr.Input 150,000 175,000 200,000 250,000 300,000 350,000 400,000 Btu/Hr.Output 123,000 143,500 164,000 205,000 246,000 287,000 328,000 Low Mid High Low Mid High Low Mid High Low Mid High Low Mid High Low Mid High Low Mid High CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM CFM Entering Airflow(CFM) 1587 2020 2778 1852 2357 3241 2116 2694 3704 2646 3367 4630 3175 4040 5556 3704 4714 6481 4233 5387 6584 Max Mounting Height.(Ft.) 10 14 23 10 15 24 9 12 22 12 17 27 13 18 30 13 19 30 13 19 25 Air Temp.Rise(F) 70 65 40 70 55 40 70 55 40 70 56 40 70 55 40 70 55 40 70 55 45 Heat Throw(Ft.) 34 49 80 37 52 85 33 48 77 41 59 96 45 85 105 46 67 107 46 66 89 @ Max Mounting Height. Heat Throw(Ft.) 45 71 120 49 76 128 43 68 115 57 87 145 64 97 160 66 99 164 66 99 136 @ 7'Minimum Mounting Height. *See pages on*..d 21 s,.....,.t.,.r:..f..rm2ticn 6-580.14 19