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Plans r a RECEIVED JUN 0 9 2021 Project:LifeWorks NW Tigard RTU Replacement CITY OF TIGARD OFFICE COPY ��,, s� BUILDING DIVISION Address:8770 SW Scoffins St,Tigard,OR 97223 ' , . s N CITY OP TIGARD, �� `'o Project#:70-2116 REVIEWED FOR CODE COMP 0i: -0. <of .•>srsr Drawing:Birds Eye View 'A ro�� 1 ' 1 rr lllrrr I OTC: .;_; 1 1 04) Q Notes: PcM1tt i _! a C. Address: .. : / a r S • • Like for like replacement. Suite • • RTU-7 is located 36'from edge of buildiSfp ( / Datet - . - / the parking lot. ) VALIDITY 0 ' MIT • RTU-6 is located 40'from edge of building on 4 • THE ISSUAN► OF A P ' IT the parking lot. BASED O ONSTRUCTI• CITY OF TIGARD DOC • NTS AND OTHER • Units will be placed on existing curbs. Approve b P nning DAT' HAIL NOT PREVENT Date: f0 CQet OFFICIAL FROM • O ONG THE CORRECTION Initials: ERRORS. OSSC 105.4 Replacement Equipment—Exterior Unit Equipment Schedule Heat Input Size Tag Description Manufacturer Model# V/PH/HZ SEER/EER (etuh) Cooling Capacity Weight Dims. 3 Ton Roof Top Unit(Single Packaged RTU-7 Carrier 48VL-E360603 208/230-1-60V 14 SEER/11.5 EER 60,000 34,800 349 lbs 48-3/16"x32-5/8"x51-3 4 AC and Gas Furnace System 3 Ton Roof Top Unit(Single Packaged RTU-6 Carrier 48VL-E360603 208/230-1-60V 14 SEER/11.5 EER 60,000 34,800 349 lbs 48-3/16"x32-5/8"x51-3 4" AC and Gas Furnace System OLD Equipment Schedule RTU-7 3 Ton Roof Top Unit(Single Packaged York D1NA0360606A 208/230-1-60 10 SEER 65,000 36,000 395 lbs 47-1/4"x49-1/8"x33-1/2" AC and Gas Furnace System) 3 Ton Roof Top Unit(Single Packaged York D1NA0360606A 208/230-1-60 10 SEER 65,000 36,000 395 lbs 47-1/4"x49-1/8"x33-1/2" RTU-6 AC and Gas Furnace System) 22 ` Break Room < Tigard Site Plan (ROOF) LWNW-00341© LWNW-00340g I l 8770 SW Scoff ns St. Tigard,OR 97224 Roof Access LWNW-00342 U LWNW-00339 RTU-1 RTU-2 RTU-3 LWNW-00335 LWNW-00336 LWNW-00337 0 LWNW-00338 " RTU 0 LWNW-00517 Lobby Heat Pump 3 LWNW-00334 Exhaust Fan q II 1 oouwv ggg Gymnasium _ 1 LWNW-00332 C-€. LWNW-00518 r I 2 LWNW-00333 Turtles 1 .,.J. RECEIVED *Old Equipment* JUN 0 9 2021 036-21232-002-B-I004 CITY OF TIGARJ Equipment Tag: RTU-6 & RTU-7 fl1NG olvis ON YORK Champion® Series SINGLE PACKAGE GAS/ELECTRIC �%� L iPAIR-COOLED AIR CONDITIONERS D1NA018 THRU 048 AND DHRU 60 1-1/2 THRU 5 NOMINAL TONS \ �� 10 SEER / 80/a AFUE DESCRIPTION These packaged cooling/heating air conditioners are de- Refrigerant charge,and component part numbers are verified signed for outdoor installation.Only utility and duct connec- via computers at installation.Vital run test statistics such as sys- tions are required at the point of Installation. tern pressure,motor currents,air velocity and temperature,unit vibration,and gas system safeties are monitored and recorded The gas-fired heaters have aluminized steel tubular heat by the system to insure unit performance. exchangers and hot surface to pilot ignition.They are avail- Equal size, side supply and return duct connections allows able in natural gas with field conversion to propane. easy hook-up of ducts to match low crawl spaces withouttran- sition pieces. STANDARD FEATURES and BENEFITS UTILITY CONNECTIONS MADE EASY - Gas and electric utility knockouts are provided through the bottom as well as OPERATING EFFICIENCY-All units provide high operating the side of the unit. Utility connections can be made quickly efficiencies and have a minimum AFUE of 80%and SEER of 10 and with a minimum amount of field labor.Afield supplied and or above.All efficiencies exceed legislated minimum levels. field installed electrical disconnect switch must be Installed. ON SITE FLEXIBILITY -All model sizes share a common, CONVERTIBLE AIRFLOW DESIGN-The bottom duct open- compact design cabinet with a single footprint. The installer ings are covered when they leave the factory ready to be used has the flexibility of setting one curb and placing the proper for a side supply/side return application.If a bottom supply/bot- tonnage unit on that curb after the internal load has been de- torn return application is desired, you simply remove the two termined.Field convertible duct connections from side shot to panels from the bottom of the unit and place them in the side down shot allows the installer to have greater flexibility and supply/side return duct openings. No panel cutting is required needs to carry less inventory. and no accessory panel is necessary.Convertible airflow design LOWER INSTALLATION COST-Installation time and costs allows maximum field flexibility and minimum inventory. are reduced by easy power and control wiring connections. CONDENSATE PAN-Anon-corrosive,long-lasting,water-tight The small base dimension means less space is required on pan Is positioned below the evaporator coil to collect and drain the ground or roof,plus,the installer can fit this unit between all condensate. Less collection of stagnate condensate will - the wheel wells of full size pick-up truck.All models are well build-up. The condensate pan conforms to ASHRAE 62-89 under 500 pounds. standards(Ventilation for Acceptable Indoor Air Quality). All units are completely wired, charged with R-22 and tested CONDENSATE DRAIN-The heavy duty,3/4 inch NPTI cop- - prior to shipment.Unique test stations using a new state of the per connection is more tolerable during Installation and is art computerized process system are used to insure product more quality. durable over time. The connection is rigidly mounted to as- sure proper fit and leak tight seal. FOR DISTRIBUTION USE ONLY-NOT TO BE USED AT POINT OF RETAIL SALE 1 036-21232-002-3-1004 STANDARD FEATURES and BENEFITS - continued DURABLE FINISH - With a heavy duty cabinet made of box is not located in the compressor compartment.The con- powder-painted,galvanized steel the neutral color blends into trols are mounted on a"Control-Tilt"control panel to allow the surrounding areas.The powered paint,provides a better paint access cover to be removed for trouble shooting and mainte- to steel bond,which resists corrosion and rust creep.The spe- nance without affecting the normal system operating pres- cial primer formulas and glossy earth tone finish insure less sures.Ali wiring internal to the unit is color/number coded. fading when exposed to sunlight and offers a more attractive on site appearance. This paint finish exceeds ASTM-B117 PROTECTED COMPRESSOR-Thecompreture. internallyisis standards for 1000 hour salt spray rating.The highest in the protected against high pressure and temperature.This is ac- standards compllshed by the simultaneous operation of high pressure relief valve and a temperature sensor which protect the com- FULL PERIMETER BASE RAILS - The easily removable pressor if undesirable operating conditions occur. base rails provide a solid foundation for the entire unit and EXCLUSIVE COIL DESIGN-Grooved copper tubes and en- protects the unit during shipment.The rails provide fork lift ac PP cess from all sides,and rigging holes are also provided so that hanced aluminum fin construction improves heat transfer for an overhead crane can be used to place the units on a roof. maximum efficiency and durability. On applications when the unit is placed on a pad,the base will HEAT EXCHANGERS - Are corrosion-resistant, aluminized- keep the unit off the pad to deter corrosion. On applications steel tubular construction Lion to provide long-life,trouble-free opera- where height Is limited,the 2%inch high base rails may be re- tion.The unique blow-thru design also assures that condensate moved on location. does not collect in humid areas when in the cooling cycle.This MORE ATTRACTIVE APPEARANCE-Asingle piece"Water adds to longer heat exchanger life and higher long term efficlen Shed"top cover containing a top discharge condenser fan ar- cles rangement requires less square footage on installation and "POST PURGE" INDUCED DRAFT COMBUSTION - Ex- provides a wider variety of installations.The one piece design hausts combustion products from the heat exchanger upon adds greater water integrity.Rounded corners with water drip completion of the heating cycle to prolong the heat exchanger edges add to the attractive appearance.The cabinet panels life. have a non-fibrous insulation that does not add insulation fi- bers into conditioned area. SELF DIAGNOSTIC FAN CONTROL MODULE-Due to this - self TOP DISCHARGE-The top discharge condenser fan does shootthesoe unic tsntrol, less on site time is required to trouble. not disrupt neighboring areas or does this dry-out vegetation surrounding the unit.The warm air from the top mounted fan is HOT SURFACE TO PILOT IGNITION-Provides faster heat de- blown up away from the structure and any landscaping.This livery.This ignition is highly reliable,durable and eliminates Hui lance lockouts.Also assures starts in damp conditions. allows compact location on multi-unit applications. CONDENSER COIL GRILLE-Amulti-piece totally enclosed, MULTI PORT IN-SHOT BURNERS-No field adjustment is rigidly mounted condenser coil grille provides protection from required to mix the air and gas. These burners are con objects and personal after installation and provides protection strutted of high-grade corrosion-resistant,aluminized-steel. during transit and installation. LOW MAINTENANCE - Long life, permanently lubricated condenser and evaporator fan motor bearings need no an- LOW OPERATING SOUND LEVEL-The upward airflow car- ries the normal operating noise up and away from the living nual maintenance adding greater reliability to the unit.Blower area.The rigid top panel effectively isolates any motor sound. assembly can be easily cleaned by the unique"Slip-Track" Isolator mounted compressor and the rippled fins of the con- slide out blower assembly. denser coil muffle the normal fan motor and compressoroper- SECURED SERVICE ACCESS PORTS-Protected,externally ating sounds.The unique formed base pan also aids in sound mounted,re-usable service access ports are provided on both alterations with it's "super-Structure" design. This design the high and low lines for ease of evacuating and charging the strategically places embossments in the pan for optimum system.No final field mounting required. strength and rigidity. EASY SERVICE ACCESS-A large,single panel covers the FAN SYSTEM-All models operate over a wide range of design electrical and gas controls makes servicing easy.The blower conditions with a 3-speed direct-drive fan motor. These units compartment has an additional large panel with a built-in han- easily match all types of applications and provides greater on die tab.Removing this panel will allow the blower assembly to site flexibility to match comfort requirement.Single phase mod- slide-out for easy removal for maintenance and ease of trou- els have the"Comfort-Match"system that allows different speed ble shooting. taps for heating or cooling operations. This allows maximum comfort conditions. REPLACEMENT PARTS-The installer has no need to carry an to re- SIMPLE CONTROL CIRCUIT•A low voltage printed circuit place any inventory he co of mponue ents parts for thearts or needs se units.All ial ar eas- board contains a diagnostic indicator light and a low voltage ily obtained from Source 1 or other part houses. terminal strip.An additional set of pin connectors is also pro- vided to simplify the field interface of external controls.Mate- SYSTEM INTEGRATION-Each unit has the internal ability to n-lock plug connectors are used.The electrical control integrate an electronic air cleaner or humidifier to work in con junction with the base unit. 2 Unitary Products Group 036-21232-002-8-1004 FIELD-INSTALLED ACCESSORIES LOW NOX KIT-Kit Includes all the necessary hardware and ANTI SHORT CYCLE TIMER -Automatically prevents the instructions to field convert units to reduce emissions to less compressor from restarting for 5 minutes after cycled off.Not than 40 nanogram per Joule. California requirement on sin- required if Thermostat 2ET07700224 and 2ET04700224 are gle phase models only. used. PROPANE CONVERSION KIT-Kit includes burner orifices, FILTER/FRAME KIT(Single Phase only)-Kit contains the gas valve conversion and installation instructions necessary necessary hardware to field install return air filters into the to field convert unit from natural gas to propane. base unit.Pre-cut filter racks and appropriate cleanable stan- dardHIGH ALTITUDE CONVERSION KIT (Natural Gas/Pro- size filters are shipped In one kit.The filter rack is suit- pane)-Kit includes all necessary labels and instructions nec- able for either single 1 or 2 filters.i horizontalf orter supcal d) This kit Is applica- essary to field alter units with natural gaslpropane. Burner available fSt dar phase models.srtical duct orifices must be obtained from Source 1 Parts.Propane Con- version lion only.Standard in all 3 Phase Kit must be obtained separately.. MOTORIZED FRESH AIR DAMPER - Designed for duct ECONOMIZER DOWN DISCHARGE/SUPPLY KIT-Modu- mounted side return and unit mounted down shot return50o appii- lating integrated economizer provides simultaneous opera- cations. Damper supplied). le of providing 0%thru includes of out- toting between the mechanical cooling and economizer doorscreenr( nlad Closes on power loss, hood operation. Independent blade design insures proper control and assembly. and less than 1% leak rate. Includes hood and mesh bird RECTANGLE TO ROUND ADAPTERS - Kit includes one screen filter Integrated into the hood,dry bulb sensor and re- supply and one return air rectangle to round duct adapter. lief damper.Separate field accessories of single enthalpy and Adapters are preformed and designed to fit over current duct dual enthalpy are also available.Kit also Includes capability to openings on the base unit.Transition is froml5°square to 14" relieve up to 25%air thru built-in barometric relief damper. round. SINGLE ENTHALPY SENSOR- Sensor replaces dry bulb ROOF CURBS-NRCA approved curbs provide proper fit to sensor standard in economizer kit.Provides improved econo- base unit for rooftop installations.Curbs are designed to be mizer operation by sensing the dry bulb temperature from out- assembled through hinge pins in each corner. Kit also pro- doors plus the enthalpy content of the outdoor air. vides seal strip to assure a water tight seal.8 and 14 inch high DUAL ENTHALPY SENSOR-Additional sensor to single en- roof curbs are available. thalpy sensor.Sensor senses both the return air temperature MANUAL OUTDOOR DAMPER-Provides 0%thru 50%out- dry bulb and humidity in conjunction with the single enthalpy door air capability (field adjustable). Designed for duct to determine the most economical mix.Single Enfhalpysen- mounted side return and unit mounted down shot return appli- sor also required. cations. Includes hood and screen assembly. UPGRADE SAFETY PACKAGE - Contains screw In type WALL THERMOSTAT-The units are designed to operate High pressure,Low Pressure/Loss of Charge switch,freeze with 24-volt electronic and electro-mechanical thermostats. protection switch and lockout relay.Switches are placed onto All units can operate with single stage heat/single stage cool existing scharder ports located in the unit by furnished adapt- thermostats-with or without the economizer. ers.When abnormal conditions are sensed through the pres- LOW AMBIENT KIT- Kit provides necessary hardware to sure switches, the unit will lock out preventing any further convert unit to operate in cooling cycle down to 0°F.Standard operation until reset or problem is corrected.Package agency unit operation 45"F. approved. HAIL GUARD KIT-Klt contains protected grilles made of ex- TRANSFORMER KIT-Kit provides necessary hardware to panded aluminum grilles with full perimeter 1y� inch frame. provide single phase tom 75 VAls from factory capability.furned 40 VA Sloped hoods are also Included to assure maximum protec transformer capability to 75 transformer tion. BURGLAR BAR KIT - Designed to work with listed roof curbs.These burglar bar kits deter entry through the base unit duct work. PRODUCT NOMENCLATURE 7 D 11 I N A 0 2 4 INI 0 3 6 0 6 PRODUCT CATEGORY I I VOLTAGE CODE D=Single Package 06=208/230-1-60 Air Conditioner 25=208/230-3-60 NOMINAL COOLING 46=460-3-60 PRODUCT GENERATION CAPACITY(MBH) 58=575-3-60 1 =1st Generation 018= 18,000 BTUH 2=2nd Generation 024=24,000 BTUH FACTORY NOMINAL GAS HEATING 030=30,000 BTUH INSTALLED OUTPUT CAPACITY PRODUCT IDENTIFIER 036=36,000 BTUH GAS HEAT 036=36,000 BTUH 065=65,000 BTUH - NA= 10 SEER 042=42,000 BTUH N=Natural Gas 056=56,000 BTUH 090=90,000 BTUH Gas Heat/Electric Cool 048=48,000 BTUH Heat Installed 072=72,000 BTUH 110= 110,000 BTUH 060=60,000 BTUH Unitary Products Group 3 - - 036-21232 002 B 1004 DIRECT DRIVE C MOTOENSER FAN BLOW-THRU DESIGN WITH �...��/ OR RELIABLE ALUMINIZED STEEL :�rJ' TUBULAR HEAT BXHANGERS F/ HIGHLY EFFICIENT ENHANCED COPPER iTUBH%UMINUM TIN EVAPORATOR COIL ��A.------- ..___-- / / HIGLYEFFICENT ENHANCED COPPER TU ALUMINUM FIN CONDESER COIL 11 I I�q LONG,LASTING POWDER PAINT �� yf PROTE II COIL GUARD nVE TOO E COLORNISH EARTH t Oorf REAR AND BOTTOMRETURN AIR AND - '• SOPENING UPPLY R DUCTtill, ` rtiii lOON EFFICIENCY �,I fir COMPRESSOR a ` ' riti%S'4 �� /, ` RIDGIDLY MOUNTED ��'F. �� . HOT SURFACE HEAVY GAUGEINii . - Y A-�� PILOT ASSEMBLY REMOVABLE BASE \�� O 0-4,' HIGH GRADE ALUMINIZED RAILS ``` /or IN-SHOT BURNERS 3-SPEED BLOWER MOTORT WITH ,/ LOW VOLTAGE TERMINAL SLIDE-OUT SLOWER V ASSEMBLY POWER VENTER SELF-DIAGNOSTIC CONTROLS WON MOTOR HIGH VOLTAGE 'COMFORT-MATCH*SPEED CONTROL _ TERMINAL BLOCK PHYSICAL DATA MODELS DNA 018 024 030 036 042 048 060 EVAPORATOR CENTRIFUGAL BLOWER(Dia.x Wd.in.) 10 X 8 10 X 8 10 X 8 11 x 10 11 x 10 12 x 11 12 x 11 BLOWER FAN MOTOR HP(Three Speed) A Y A 3: 3 1.0 1.0 ROWS DEEP 2 2 2 2 3 3 3 EVAPORATOR FINS PER INCH 14 13 13 15 13 13 13 COIL FACE AREA(Sq.Ft.) _ 225 3.5 3.5 3.5 3.5 4.5 4.5 PROPELLER DIA.(in.) 22 22 22 22 22 22 22 CONDENSER FAN MOTOR HP Y Y. y Y, Y. Y. A N NOM CFM TOTAL 1,800 2,200 2,400 2,400 2,400 3 000 3,000 ROWS DEEP 1 1 1 1 1 1 1 CONDENSER FINS PER INCH 13 13 16 20 20 20 20 COIL FACE AREA(Sq.Ft.) 8.3 8.3 11.7 11.7 11.7 14.8 14.8 CHARGE REFRIGERANT 22(lbs./oz_) 3/2 3/16 4/12 4/3 4)12 13/0 5/4 FILTER" FACE AREA(Sq_Ft.)/SIZE(NOMINAL) 2.6/20x20 2.6/20)(20 2.6/20x20 2.6/20x20 2.6/20x20 3.3/20x12 3.3/20x12 NATURAL GAS BURNER ORIFICE NO. 43 43 43 43 43 40 40 FURNACE (Drill size) SECTION PROPANE BURNER ORIFICE NO. 55 55 55 55 55 53 53(Drill size) GAS CONNECTION SIZE X2 NPTI A NPTI Y NPTI X NPTI X NPTI Xs NPTI Xr NPTI COMPRESSOR HERMETICALLY SEALED R R R R R S S TYPE (R=RECIPROCATING S=Scroll) =Three phase 010 thn1042 size units are supplied with one(1)fitter and on three phase 046 and 060 sire units two(2)Otters are supplied.Single phase units are shipped without Mere. See'FILTER/FRAME KIT'on page 3_ 4 Unitary Products Group 036-21232-002-B-1004 RATINGS - Cooling/Gas Heating NET COOLING GAS HEAT CAPACITY.1 SOUND MODEL RATING INPUT OUTPUT AFUE NUMBER TEMP' DNA MBH SEER (dbels) (MBH) (MBH) (%) OF BURNERS (a RISE F)Range 018N03606 17.9 10.0 76 45 36 89.. 2 - 25-55 024N03606 23.0 10-5 78 45 36 80.2 2 25-55 024N0560,_ 23.0 10.5 , 78 70 56 80.2 3 30-60 030N03606 29.0 10.5 78 45 36 80.2 2 25-55 030N05606 29.0 10.5 78 70 56 80.2 3 30-60 036N03606 34.8 10.0 82 45 36 80.4 2 25-55 036N03625 34.6 10.0 82 45 36 80.4 2 25-55 036N03646 34.8 10.0 82 45 36 80.4 2 25-55 036N03658 34.8 10.0 82 45 36 80.4 2 25-55 036N05606 34.8 10.0 82 70 56 80.2 3 25-55 036N05625 34.8 10.0 82 70 56 80.2 3 25-55 036N05646 34.8 10.0 82 70 56 80.2 3 25-55 036N05658 34.8 10.0 82 70 56 80.2 3 25-55 036N07206 34.8 10.0 82 90 72 80.1 4 30-60 036N07225 34.8 10.0 82 90 72 80.1 4 30-60 036N07246 34.8 10.0 82 90 72 80.1 4 30-60 036N07258 34.8 1011 82 90 72 80.1 4 39-60 042N03606 40.5 10.0 84 45 36 80.4 2 25-55 042N03625 40.5 10.0 84 45 36 80.4 2 25-55 - 042N03646 40.5 10.0 84 45 36 80.4 2 25-55 042N 3658 40 5 10 0 84 45 36 80 4 2 25-55 042N05606 40.5 10.0 84 70 56 80.2 3 25-55 042N05625 40.5 10.0 84 70 56 80.2 3 25-55 042N05646 40.5 10.0 84 70 56 80.2 3 25-55 042N05658 40.5 10.0 84 70 56 80.2 3 25-55 042N07206 40.5 10.0 84 90 72 80.1 4 30-60 042N07225 40.5 10.0 84 90 72 80.1 4 30-60 042N07246 40.5 10.0 84 90 72 80.1 4 30-60 042N07256 40.5 10.0 84 90 72 80.1 4 30-60 048N06506 46.5 10.0 82 80 64 80 3 25-55 048N06525 - 46.5 10.0 82 80 64 80 3 25-55 _048N06546 46.5 10.0 82 80 64 80 3 25-55 . _oaelsolse 46.5 10.0a.� Ba,.«.« B0 64 - - _ BO 3 25-55 048N09006 46.5 10.0 82 108 86 80 4 30-60 048N09025 46.5 10.0 _82 108 B6 80 4 30-60 048N09046 46.5 10.0 82 108 86 80 4 30-60 048N09058 46.5 10-0 82 108 86 80 - . 4_ . 30-60 048N11006 46.5 10.0 82 135 108 80 5 35-65 048N11025 46.5 10.0 82 135 108 80 5 35-65 048N11046 46.5 10.0 82 135 108 80 5 35-65 048N11058 46.5 10.0 82 135 108 80 5 35-65 060N06506 56.5 10.0 82 80 64 80 3 25-55 060N06525 56.5 10.0 82 80 64 80 3 25-55 060N06546 56.5 10.0 82 80 64 80 3 25-55 960'06556 56 5 109 62 _69 _04 BD 3 25 J5 060N09006 56.5 10.0 82 108 86 80 4 30-60 060N09025 56.5 10.0 82 108 66 80 4 30-60 060N09046 56.5 10.0 82 108 86 80 4 30-60 060N09056 56 5 10 0 82 108 86 8D 4 30-60 060N11006 56.5 10.0 82 135 108 80 5 35-65 060N11025 56.5 10.0 82 135 108 80 5 35-65 060N11046 56.5 10.0 82 135 108 80 5 35-65 060N11058 56.5 10.0 82 135 108 80 5 35-65 SEER= Seasonal Energy Efficiency Ratio-I h total cooling output in BTU's during a normal annual usage period for cooling divided by the total electric power input in watt-hours during the same pedod. AFUE= Annual Fuel Utilization Efficiency 'Certified in accordance with the Unitary Small Equipment certification program,which is based on ARI Standard 210240. R Rated in accordance with ARI Standard 270. Unitary Products Group 5 036-21232-002-B-1004 COOLING CAPACITIES - 1-1/2 TON (DNA018) Air On Evaporator Coil Temperature of Air on „ 450 CFM _ 525 CFM 600 CFM 1 675 CFM 750 CFM Condenser Coil WB°F 1 WB°F WBoF iWB°F Wt3°F 72 67 62 57 172 67 62 57 72 67 6 57 72 67 62 57 - 72 67 62 57 Net Cap. 17-4 16.6 15.3 15.3 18.3 17 4 16.1 16.0 19.116.819.6 18-7 17.2 17.2 20.1 19.2 17.7 17.6 MBH Total Power 1.78 1.77 1.72 1.75 j 1.81 1.80 175 1.78 1.85 1-84 1.79 1.82 1.86 1.86 1 80 1.84 Input -t 86 9.3 119 14.1 15.0111.0 13.8 15.5 15.9 6 12.3 15.5 17 2 17.2'11.9 15.2 n 7 85°F m 83 8.8 11.4 13.7 14.5110.0 12.8 15.2 15.6 :11.2 14.4 17.2 17.2.11.3 14.6 17.5 . oi Fol 80 8.3 11.0 13.2 14.11 9.0 11.9 14.3 15.2 110.2 13.4 16.1 17.0 10.7 14.1 16.9 17.6 u m °1 m 77 7.9 10.5 12.7 13.61 8.1 10.9 13.3 142 • ' 9.2 12.4 15.1 16.0 10.1 13.5 16.4 17.0 6 Lb74 7.4 10.0 12.3 13.1 7.1 9.9 12.3 13-3 • : 9.8 8.2 11.4 14.1 14.9 9.6 12.9 15.8 16.5 o 71 - 9.6 11.8 12.7I - 8.9 11.4_12.3 10.9 •' - 10.3 13.1 13.9 - 12.3 15.2 15.9 68 - 9.1 11.3 12.21 - 8.0 10.4 11 3 10.41 - 9.3 12012.9 - 11.8 14.6 15.3 Mt6Hp 16.7 15.5 14.5 14.517.5 16.3 153 15.2 • I160 18.9 17.6 16.4 16.4 19.3 18.1 16.8 16.8 Total Power 1.89 1.89 1.86 1 85 1.93 1.92.1-89I 1.88 .' • 1-98 1.97 1-94 1.93 1.99 1.98 1.95 1.94 Input KW a 86 10.7 13.2 14.5 14.5'11 7 14.5 15.3 15 166 116'1 12.1 15.3 16 4 16.4-11.5 14.9 16.8 16.8 95°F n 83 9.3 11.9 14.2 14.5 1 10.2 13.0 15.1 1 152' # ; '11 0 14.2 16-4 16,4 11.0 14.3 16.8 16.8 8.1. DI 80 8.0 10.6 12.9 13.11 8.7 11.5 14.114.3 ' 15.2 15.51 9.9 13.1 16.0 16.2 10.4 13.7 16.8 16.8 D 2m 77 6.6 9.2 11.5 11.81 7.2 10.0 12.6 12.9 7.8 r 9 13.6 13.9 8.8 12.0 14-9 15.1 9.8 13.1 16.2 16.2 c w 74 5.3 7.9 10.2 10.41 5.8 8.6 11.1 11.4 • 12.0 12.31 7.7 10.9 13.8 14.0 9.2 12.6 15.6 15.7 71 - 6.5 8.9 9.1 ' - 7.1 9.6 99.9 10.4 10.7 - 9.8 12.7 12.9 - 12.0 15.0 15.1 - 68 - 5.2 75 7.8 - 5.6 82 8.4 88 9.1 I - 8.7 11.6 11.8 - 11.414.5145 Net Cap. 15.6 14.2 13.4 13 3116.4 14.9 14.1 14.0 • 14.8 14.7117.7 16.0 15.2 15.1 18.2 16.5 15.6 15.5 MBH Total Power 2.03 2.00 1.98 1.98I2.06 2-03 2.01 2.01 2.09 2.06 2-04 2.04 2.11 2.08 2.06 2.062.13 2.10 2-07 207 Iptat KW 86 9.4 117 13.3 13.1 i110.2 12.8 14.0 13.9 14.8 14,7111.1 14.1 152115-1 11.1 14.3 156 15.5 105°F n 6^ 83 8.5 10.9 12.9 12.91 9.3 111.9 13.8 13.8,10.1 • 14.8147110.3 13.3 15.2 15.1 106 13.7 15.6 15.5 f .- or0 80 7.6 10.0 12.0 12.01 8.3 10.9 13.2 13.1 • I 11.9 14.3 14.2 9.5 12-5 14.9 14.9 10.0 13.1 156 15.5 m m c 77 6.7 9.1 11.2 11.11 7.4 10.0 122 12.2 8.0 10.8 13.2 13.2' 8.7 11.7 14.1 14.1 9.5 12.6 15.0 15.0 a� �Ol i n w 74 5.9 8.2 10.3 10.216.4 9.0 11.3 11.2 I : 12.2 12.1'17.9 10.9 13.3 13.3 8.9 12.0 14.5 14.4 rfj 71 - 7.4 9.4 9.4 - 8.1 10.3 10.2 11.2 11.11 - 10-1 12.5 12.5 - 11.513.913-9 68 - 6.5 8.6 8.51 - 71 93 93 101 101! - 93 117117 - 10.913.4133 Net Cap. 14.5 12.8 12-3 12.2,15.2 13.4 12.9 12.8 • 13.5 13.4I 16.5 14.5 14.0 13.8 17.0 15.0 14.4 14.3 MBH Total Power 2.16 2.11 2.10 2.10 2.19 2.14 2.13 2.13 2.162.1612.242.192.182-18.2-272.212.292.20 Input KW - , 4, 86 8.1 10.2 12.0 11.7 8.8 11.2 12-8 12.5 9.6 12.2 13.5 13.4110 2 12.9 14.0 13-8'10.7 13.6 14 4 14.3 115°F n 83 7.7 9.8 11.6 11.31 8.4 10.8 12.6 12.3 9.1 11.7 13.5 13.41 9.7 12.4 14 0 13.8 10.2 13.1 14.4 14.3 k= a� 80 112 I ' a 13.3 919.1 111,491114913.9`97 1124 143.49 111.73 n N to® 77 • ' I 10.8 10.51 9.9 I : 12.9 8.6 13-1 9.1 12D 13.9 13.7 - w 74 10.4 I I I 12.4 118.1 10.9 12.9 12.6 8.6 11.5 13.3 13.2 to 71 10.0 I 10.9 10.6 • : 11.9 1t51 - 10.4 12.3 12.1 - 10.9 12.8 12.7 68 : 9.6 • l io.5 lot11.4 I' - 9.9 11.8 11.6 - 10412.312-1 Net Cap. • 11.2 MBH 12.3 121,15.3 12.9 12.7 12.6 15.9 13.4 13.2 13.0 TInaUt KWP r I 2.23 2.22 2.27 2-38 2.30 2.30 2.31 2.41 2.33 2.33 2.34 10.8 10.31I 12.3 ' 9.2 11.7 12.7 12:6 10.3 113.2 13.0 125°F m g 83 • : : 10.3 I • I 12.3 19.0 11.5 12.7 1 .r. 9.8 13.2 13.0 n1 -50 80 10.4 98 I I . 12.4 618.8 11.3 12.8 12.3 9.3 113.213.0 --5 77 7.0 9.0 10.4 • : 1 I : 8.3 10.712.5 11.718.5 11.1 12.6 12.1 8.8 11.5 12.7 12.5 _ m 74 7.0 9.0 10.5 9.9 7.7 9.9 11.5 10.8 8.4 10.8 12.5 11.81 8.3 10.9 12-4 11.9. 8.2 10.9 12.2 12.0 71 - 9.1 10.6 9.91 - 10.0 11.6 10.9 - 10.9 12.6 11.91 - 10.6 12.2 11.7 - 10.4 11.7 11.5 68 - 9.2 10.6 10.0 - 101 11.7 11-0 - 11-0 12.7 12.0 - 10.4 11.9 11.4 - 9.9 11. a ' _ _Ti,eSe capacities we net capacities-indoor ran heal deducted. ALL SENSIBLE CAPACITY 6 Unitary Products Group • 036-21232-002-8-1004 COOLING CAPACITIES - 2 TON (DNA024) _ Air On Eva.•rator Coil Temperature of Air on 600 CFM 700 CFM 800 CFM 1 900 CFM 1 000 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 1 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Ca 24.1 22.5 20,9 21.3124.9 23.3 21.6 22.1 25.8 24.1 22.3 22.8 25.9 24.2 22-5 22.9 261 24.4 226 23.1 Total Power 2.28 2.25 2.21 2.21 i 2.31 2.28 224 224.2.34 2.31 2.27 2.27 2.44 2A1 2.37 2.37 253 2.51 2.46 i12.46 Input EN 86 12.916.519.720.41.15219.021.021.617.521622.322.81168212f' ' 16.2 207 22.6 23_1 85 OF ' 83 12.3 15.9 19.1 19.7113.9 17.8 20.7 21.3 15.5 196 22.3 22.8 15 5 19.8 u 3 ``15.5 19.9 22-6 23.1 1 80 117 15.3 18.5 19.1112.6 18.5 20.0 20.6 13.5 17.7 21 4 22.2114.1 18.4 220 22.6;14.7 19.2 22.6 23.1 moil m 77 11.1 14.6 17.9 18.5111.3 15.2 18.7 19.3.11.5 15.7 19.4 20.2112.7 170 20.6 21.3 13.9 18.4 21.8 22.3 74 10.414.017.317.9110.013917.418.1' 9.6 13.7 17.5 18.2'11.3 15.7 19.3 19.9 13.1 17.6 21.1 21.5 71 - 13.4 16.6 173 - 12.6 16.1 16.8 - 11.7 15.5 16.2, - 14.3 17.9 18.5 - 16.8 20.3 20.8 68 - 126 16.0 167 11 3 14 : 15.5 - 98 135 14,3' - 129 7.1, - 16.1 19.5 20.0 Net Cap MBH . 23.5 21.4 20,2 20.4 1 24.0 21.9 20.7 20.9 24.6 22.4 21.2 21.3 25.0 22.8 21.5 21.7 25.4 23.2 21.9 22.1 Total Power 1 L• Ai 2.41 2.38 2.33 2.33 2.45 2.42 2.37 2 37`2.50 2.46 2.40 2.41 2.59 2.56 2 50 2 50 2.69 2.66 260 2.60 :: ► 20.220.4i 19.8 • 209 21.2 1 • : ► • 22.1 95°F 19.9 20.0 17.8 20.5 20.6 19.1 I • ' 22,1 :► 11.4 14.7 18.1 18.2 15.819.519-5 13.1 16.9 20.9 091 : ► ' ► 21.9 22.1 GI cm • • 13.0 16.4 16.4110.3 13.9 17.5 17.5 1a9 14.8 ► ► 21 3 146 14.61 8.3 11.9 15.6 15.6 : : 12.7 16.6 16.6110.9 15.0 18.5 18.6 13.1 17.4 20.320.6 12.8 12.81 9.9 13.6 13.6 105 ► • • 19.6 19.7 • 110 1101 80 ,116 116 84 1: : 19.0 Nei Cap- 21.7 19.5 18.5 18.6122.3 20.1 19.0 19.1 22.9 20.6 195 19.6 23.2 20_9 f 1 201 MBH Total Power 2.47 2.45 •5 2.56 2.51 2.50 • 2.60 . .' • • 272 In•utKW--_ 19.13 19.9 4 19.8 20.1 20.1 T 86 ► 16.4 0' 17.$ : 19.2 6,15.3 19-5 105 0E a 2' 83 11.9 15.2 r 18.5 17.8 ' • 14.3 18.4 198 19.9'14.6 19.0 20.1 20.1 80 10.7 14.1 16.5 16.3111.6 15.3 16.5 19.3 19.1 13.2 17.4 19.7 19.6'139 183 20.1 20.1 um �5 77 12.9 i 14.0 • 15.1 : ► 12.1 16.3 : • 18.6 17.5 19.3 19.4 cm 74 8.4 11.7 14.2 14.0190 12.7 13.7 16.6 16.3111.116.2 17.6• 17.5 12.4 16.8 18.6 18.6 71 10.6 13.0 12.91 11.4 9 12.3 15.2 14.91 - 14.1 16.5 16.4 16.0 17.8 17.9 68 94 1 I 10,1 109 - 131 1 4 15.3 15317.017.1 Net Cap. 20.0 17.7 16.8 16.8 20.6 18.2 18.7 17.8 17.8121.4 19,0 18.0 18-0`21.7 19.2 18.2 18.2 MBH Total Power 2.69 2.64 2.60 2.58 2.75 2.70 266 263 2.80 2.75 2.71 2.68 2.89 2.83 2 79 276 2.92 2.87 2.84 Input_ 86 r�i® : i 17.2 113 9 18.1 180 180 19.0 18.2 18.2 115°F g 83 0 16.6 13.2 17.5 t 18.0 183 18.2 18.22- mo 80 10.0I�14914.5110�16415.9' • 16.0 17412516.8 180 17.8 132 17.6 18.2 18.2 om 77 9.5 12.8 14.4 14.0110.4 14-1 15.8 15.4 11.3 15.3 17.2 167111 9 16.1 173 17.1 12.4 16.8 17.5 17.5 .E 74 8.9 12.3 13.9 13.5', 9.8 13.5 15.2 14.8 10.7 14.7 16.5 161 11.2 15.4 16.7 16.4 511.7 16.1 16.8 16.7 in 71 - 11.8 13.312.91 - 12.9 14.6 14.2' - 14.0 15.9 15.4 - 14.7 16.0 15.7 - 15.4 16.0 16.0 68 - 11.2 12.8 12.4 - 12.314.013.6: - 13.4 15.3 14.8 - 14.015.315.0' - 14.6 15.315.3 Net Ca 18.2 15.8 15.1 15.0118.9 16.3 15.6 15.5 195 16.9 16.2 16.0119.6 17.0 16.3 16_2 19.8 17.1 16.4 16.3 Total Power 2.83 2.77 2.74 2.70 2.89 2.83 2.80 2.76 2.95 2.89 2.86 2.82 3.03 2.97 2.94 289 311 3.05 3.01 2.97 Input KN 86 9.1 12.5 13.9 13.2110.2 13.9 15.0 14.6 11.2 15-3 16.2 16:01,12.5 16.8 16.316.2r 13.8 18.3 16.4 16.3 125°F a' 83 9.2 12.613.212.610.314.014.714.3,11.315416.216,0''12.216.516.3I16.213.1 17.6 16.4 16.3 U2 �. 1,51 80 9.3 12.7 13.3 12.7110.4 14 1 14.8 142 11.4 15.5 16.2 15.6111.9 16.2 16.3115.9 12.4 16.9 16.4 16.3 'm-2 77 9.4 12.8 13.4 12.8110.5 14.2 14.9 14.3 11.5 15.6 16.2 15.7:11.6 15-9 16.1 15.6. 11.7 16.2 15.7 15.6 74 9.5 12.9 13.5 12.9110.6 14.3 15.0 14.4 11.6 15.7 16,2 15.8111.3 15.6 15.8 15.3 11.0 15.5 15.0 14.9 u 71 - 13.0 13.6 13.0 - 14.4 15.1 14.5 - 15.8 16.2 15.9 - 15.3 15.5 15.0, - 14.7 14.3 14.1 68 - 13.0 13.713.1', - 14.515.2146 - 159 162 160' - 15.0 15.2 14.7, - 140 13.6 134 =These capacities are net capacities-indoor fan heat deducted. ALL SENSIBLE CAPACITY Unitary Products Group 7 r 036-21232-002-6-1004 COOLING CAPACITIES - 2-1/2 TON (DNA030) Air On Evaporator Coil Temperature of Air on 750 CFM 875 CFM 1,000 CFM 1.125 CFM 1.250 CFM Condenser Coil WB°F WB°F WB°F 1 WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 1 72 67 62 57 72 67 62 57 Net Cap. 28.1 26.4 24.2 22.6 30.6 28.7 26.3 24.5 32.9 31.0 28.3 26.4 33.2 31.2 28.6 26.7 33.5 31.5 28.8 26.9 MBH Total Power 2.99 2.95 2.90 2.89 3.03 2.99 2.94 2.93 3.06 3.02 2.97 2.96 3.13 3.09 3.04 3.03 3.20 3.16 3-11 3.10 Input KW _ s^ 86 15.3 19.8 23.6 22.8 18.6 23.6 26.0 21.9 27.4 283 26.4 21.1 26.8 r 20.2 26.2 28.8 26.9 85°F m 6 83 14.5 19.0 22.8 21.9 17.0 21.9 25,6 24.2 19.4 24.9 28.3 26 4',19-3 25.1 41 . 19.3 25.2 28.8 26.9 r 1 80 13.7 18.2 22.1 21.2 15.3 20.3 24.6 23 6 16.9 22.4 27.2 26.1117.6 23.3 28.0 26.5 18.3 24.2 28,8 26.9 e,rn •i=m 77 13.017.421.320.413.718.723.022.014.520.024.723.615.921.626.324.817.323.327.825.9 c 74 12.2 16.7 20.5 19.6 12.1 17.1 21.4 20.4 12.0 17.5 22.2 21.1114.2 19.9 24.6 23.0 16.4 22.3 26.9 24.9 as 71 - 15.9 19.7 18.8 - 15.5 19.8 18.7 - 15.0 19.8 18.7'. - 18.2 22.8 21.3 - 21.3 25.9 24.0 68 - 15.1 190 18.1 - 13.8 18.1 17.1 - 12.6 17.3 16211 - 16.5 21 1 19.6 - 20.4 24.9 23.0 Net Cap. 26.8 25.0 22.3 21.4 29.2 27.3 24.3 23.4 31.7 29.6 26.4 25.4132.0 29.9 26.6 25.6 32.2 30.1 26.8 25.8 MBH Total Power 3.18 3.14 3.08 3.07 3.22 3.18 3.11 3.11 326 3.22 3.15 3.151 13.34 3.30 3.23 3.22 3.42 3.38 3.30 3.30 input KW 86 17,9 22 3 22.3 21.4�i 19.9 24.9 22.0 27.5 26.4 25.4 21.0 26.7 26.6 25.6 19.9 25_9 26.8 25.8 95°F o 0 83 15.6 201 22.3 21.4, 17.5 22.5 .7. . 19.3 24.9 26.4 25: 19.1 24.9 26.6 25.6`19.0 24.9 26.8 25.8 3 rn� 80 13.4 17.8 21.0 20.0 15.0 20.0 23.6 22.4 16.6 22.2 26.1 24.8117.3 23.1 16-5 25.3 18.0 24.0 26.8 25.8 A U� cT .a4 77 11.1 15.6 18.8 17.7 12.6 17.5 21.1 19.9 14.0 19.5 23.5 22.2115.5 21.2 24.6 23.5 17.0 23.0 25.8 24.8 -e m 74 8.9 13.4 16.5 15.5 10.1 15.1 16.7 17.5 11.3 16.8 20.8 19.5113.7 19.4 22.8 21.7 16.0 22.0 24.9 23.9 N 71 - 11.1 14.3 13.3 - 12.6 16.2 15.0 - 14.1 18.1 16-81 - 17.6 21.0 19.8 - 21.0 23.9 22.9 68 - 89 121 110 - 102 137, 12.6 - 115 15.4 141' - 15.8 192 180, - 20.1 22.9 21.9 - Net Cap. 25.4 23.0 20.6 20.1 27.7 25.0 22.5 21.9 30.0 27.1 24.4 23.8 1 30.4 27.4 24.7 24.0 30.7 27.8 25.0 24.3 MBH Total Power 2.94 3.31 3.23 3.24 2.98 3.36 3.28 3.29 3.03 3.41 3.33 3.36.10 3.49 3.41 3.42 3.17 3.57 3.48 3.49 Input KW T 86 15.9 20.0 20.6 201 17.7 22.3 22 5121.9 19.6 24.7 24.4 23.8,19.5 24.9 24.7 24.0. 19.5 25.1 25.0 24.3 105°F it, z 83 14.4 18.5 20.5.19.9 16.1 20.7 22 5E21.8 17.8 22.9 24.4 23.8118.2 23.5 24.7 24.0 18.6 24.1 25.0 24.3 861 En 80 13.0 17.1 19 6 18.8 14.5 19.1 21.9 21.0 16-1 21.2 24.3 23.3116.9 22.2 24.6 23.8 17.6 23.2 25.0 24.3 .9 -.3 77 11.5 15.6 18.1 17.3 12.9 17.5 20.3 19.5 14.4 19.5 22.5 21.6115.5 20.9'23.3 22.5 16.7 22.2 24.0 23.4 'is w m 74 10.1 14.2 16.6 15.9 11.3 15.9 18.7 17.9 12.6 17.7 20.8 19.8114.2 19.5 21.9 21.1 15.7 21.3 23.1 22.4 i 71 - .12.7 15.2 14.4 - 14.3 17.1 16.3 - 16.0 19.0 18.11 - 18.2 20.6 19.8 - 20.4 22.1 21.5 I 68 - ,11.3 137 13.0 - 12-7 155 14.7 - 142 173 1631 - 16.8 192 184 - 19.421.2 20.6 Net Cap 24.1 20.9 19.0 18.8 26.2 22.8 20.7 20.5 28.3 24.6 22.4 22.1 28.8 25.0 22.7 22.5 29.2 25.4 23.1 22.8 Total Power 2.70 3.47 3.38 3.40 2.75 3.53 3.44 3.47 2.80 3.60 3.50 3.532.86 3.68 3.58 3.61 2.92 3.76 3.66 3.69 Input _ 86 13.9 17.7 19,0 18 8.. 15.5 19.7 20,7 20 5 17.2 21.8 22.4 22.1 18.1 23.0 22.7 22.5 19.1 24.2 23.1 22.8 115°F o or 83 13.2 17.0 18.8 18.3 14.8 19.0 20.6 20.2 16.4 21.0 22.4 22.1' 17.3 22.2 22.7 22.5`18.2 23.3 23.1 22.8 `g`= mL 80 12.6 16.3 18.1 17.6 14.1 18.3 20.2 19.7 15.6 20.2 22.4 21.8116.4 21.3 22.7 22.3 17.3 22.4 23.1 22.8 t21 ' 77 11.9 15.7 17.4 16.9 13.3 17.5 19.5 19.0 14.8 19.4 21_6 21.0115.6 20.5 21.9 21.5 16.3 21.5 22.2 21.9 'E 74 11.2 15.0 16.7 16.3 12.6 16.8 18.8 18.2 13.9 13.6 20.8 20.2114.7 19.6 21.0 20.6 15.4 20.6 21_3 21.0 0 71 - 14.3 16.1 15.6 - 16.1 18.0 17.5 - 17.8 20.0 19.41 - 18.7 202 19.7 - 19.7 20.4 20.1 68, - 13.6 15.4 14.9 - ,15.3 17316.7 - 17.0 19.2 18.61 - 17.9 19.3 18.9 - 18.8 195 19.2 Net Cap- 22 7 18.9 17.4 17.5 24.7 20.5 18.9 19.0 26.6 22.2 20.4 20.5,127.2 22.6 20.8 20.9 27.7 23.1 21.3 21.4 MBH Total Power 2.45 3.63 3.53 3.57 2.51 3-71 3.60 3.64 2.56 3.79 3.68 3.72 1 2.62 3.87 3.76 3.80 2.68 3.96 3.84 3.89 Input KW _ 86 •11.915.317.417.513317.218.919.014719.020420.5116721.220820.9.18_923.421.321.4 125°F m '' 83 12.0 15.5 17.0,16.7 13.5 17.3 18.7 18.6 14.9 19.1 204 20.5118.3 20.8 20 620.9`17.8 22.5 21.3 21.4 _ 2 0 80.12.2 15.6 16.6 16.4 13.6 17.4 18.6 18.3 15.0 19.2,20.5 20.2 16.0 20.4 20.9,20.8 16.9 21.7 21.3 21.4 n m m 77 12.3 15.7 16.7 16.5 13.7 17.5 18.7 18.5 15.1 19.4 20.7 20.4'115.6 20.1 20.5 20.4 16.0 20.8 20.4 20.5 74 12.4 15.8 16.9 18.8 13.8 17.6 18.8 18.6 15.3 19.5 20.8 20.51 152 19.7 20.1 20.1 15.1 19.9 19.5 19.6 to 71 - 15.9 17.0 16.7 - 17.8 18.9 18.7 - 19.6 20.9 20.71 - 19.3 19.8 19.7 - 19.0 18.6 18.7 68 - 16.0 17.1 16.9 - 17.9 19.1 188 - 198 21.1 20.81 - ,90 19.4 19.3 - 18.1 17.7 178 =These capacities are net capacities-Indoor fan heat deducted. AU.SENSIBLE CAPACITY 8 Unitary Products Group 036-21232-002-3-1004 COOLING CAPACITIES - 3 TON (DNA436) Air On Evaporator Coil Temperature of Air on 900 CFM 1 050 CFM 1vte, CFM 1.350 CFMat 1 500 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap. 36.7 34.6 31.9 30.3 37.9 35.7 32.9 31.3 39.1 36.9 34.0 32.3 39.4 37.1 34.2 32.5 39.6 37.4 34.4 32.7 MBH Total Power 3.57 3.51 3.44 3.41 • 3.58 3.51 3.48 3.71 3.65 3.58 3.55 3.80 3.73 3.66 3.63 3.88 3.82 3.74 3.71 Inputl4N.a 86 19.8 25.2 29.9 6p`k r 28.7 32.0 31.3.26.1 32.1 34.0 32.3'24 8 31-0 34.2 32.5'23 5 29.9 34.4 32. .7 85°F oa g 83 18.9 24.3 29.0 29.7 r 26.7 31.5 31.0 23.1 29.2 34.0 32.3 22.8 29.0 34.2,32.522.4 28.8 34.4 32.7- ga 80 18.0 23A 28.1 28.819.124.829.830.520.126.231.532.320.727.032.432.5'21.327.733.332.7 .! -cm 77 17.1 22.4 27.2 27.9 17.1 22.8 27.8 28.6 17.2 23.2 28.5 29.3 18.7 24.9 30.4 30.5 20.2 26.6 32.2 31.6 c to 74 16.1,21.5 26.2 26.9 15.2 20.9 25.9 26-6 14.2 20.2 25.5 26.3 16.7 22.9 28.3 28.4 19.1 25.5 31.1 30.5 ET) - 71 - 20.6 25.3 26.0 - 18.9 23.9 247 - 17.3 22.6,23.4 - 20-9 26-3 26.4 - 24 4 30.0 29.4 68 - 19.7 24.4 25.1 - 17.0 22.0 22.7 - ,14.3 19.6 20.4 - 18.8 24.3 24.4 - 23.3 28.9 28 3 Net Cap. 36.9 34.1 31.4 31.2 37.3 34.5 31.8 31-5 37.7 34.9 32.1 31.9 38.3 35.5 32.6 32.4 39.0 36.1 33.2 32.9 MBH Total Power 3.77 3.73 3.64 3.61 3.86 3.81 3.72 3.69.3.95 3.90 3.81 3.77 4.03 3.98 3.88 3.85.4.11 4.06 3.96 3.93 I 86 23.8 29.2 25.1 30.8 .6'26.5 32.4 32.1,31.9 25.1 31.2 32.6i32.4r23.6 30.0 33.2 32.9 95°F a 2' 83,21.1 26.5 31.2. . . 22.2 27.8 31.7 S 23.3 29.2 32.1 31.9 22.9 29.0 326i32A_22.5 28.9 33.2 32.9 t"- co 0 80 18.4 23.8 28.5 29.3 19.2 24.9 29.8 30.6 20.0 28.0 31.1 31-9 20.7 26.9 32.1 32.4 21.4 27.8 33.2 32.9 a am 77 15.7 21.1 25.9 26.6 16.3 21.9.26.9 27.6 16.8 22.7 27.9 287 18.6 24.7 30.0 30.320.3 26.7 32.1 31.8 crn w 74 13.0 18.5 23.2 23.9 13-3 19.0 23.9 24.7 13.8 19.5 24.7 25.5 16.4 22.5 27.8 28.1;"19.2 25.6 31.0 30.7 a, 71 - 15.8 20.5 21.2 - 16.0,21.0 21.7 - 16.3 21.4 22.2 - 20.4 25.7 25.9' - 24.5 29.9 29.6 68 - 131 178 18.5 - 13.1 18.0 18.8 - 13.1 18.2 19.0 - 18.2 235 238 - 234 288 285 Net Cap. 34.9 32.6 30.7 29.6 35.3 32.9 31.0 29.9 35.6 33.2 31.3 30.2 36.1 33.6 31.7 30.6 36.5 34.0 32.1 30.9 MBH Total Power 4.00 3.93 3.84 3.83 4.09 4.01 3.93 3.91 4.18 4.10 4.01 3.99 4.26 4.18 4.09 4.07 4.34 4.26 4.17 4.15 Mout KW Z. 86 21.1 27.2 29.8 28.8,22.4 28.7,30.6 29.5 23.7 30.3 31.3 30.2 23 2,30 1,31 7t30.6-22.8 29.8 32.1 30.9 105°F , g 83 19.4 25.4 29.3 28.4 20.5 26.8 30.3 29.3 21.6 28.2 31.3 30.2 21.6 28.5 31.7'30.6`21.7 28.7 32.1 30.9 (3-= 0,161- 80 17.7 23.7 27.6 27.0 18.6 24.9 29.0 28.4 19.5 26.1 30.4 29.8 20.1 26.9 31.2 30.4 20.6 27.7 32.1 30.9 a� E5 77 15.9 21.9 25.8 25.3 16.6 23.0 27.1 26.5 17.4 24.0 28.3 27.7 18.5 25.3 29.7 28.8 19.6 26.6 31.0 29.8 ui w m 74 14.2 20.2 24.1 23.5 14.7 21.0 25.1 24.6 15.3 21.9 26.2 25.6 16.9 23.7 28.1 27.2 18.5 25.5 29.9 28.8 m 71 - 18.4 22.3 21.8 - 19.1.23.2 22.7 - 19.8 24.1 23.5 - 22.2 26.5 25.6 - 24.5 28.9 27.7 68 - 16.7 20.6 20.0 - 17.2 21.3 20.7 - 17.7 22.0 21.4 - 20.6 24.9 24.0 - 23.4 27 8 26.7 Net Cap. 33.0 31.0 30.0 28.0 33.3 31.3 30.3 28.2 33.5 31.6 30.6 28.5 33.8 31.8 30.8 28.7 34.0 32.0 31.0 28.9 MBH Total Power 4.24 4.13 4.05 4.04 4.32 4.22 4.13 4.12 4.41 4.30 4.22 4.21 4.50 4.38 4.30 4.29 4.58 4.47 4.38 4.37 Inout KW .. ._Z. 86 18.525.128.226.4,19.726.729.427.420.928.230628.5 214 289 308 28.7.21.9 29.6 31.0,28.9 115°F n t. 83 17.7 24.3 27.4 25.6y18.8 25.8 29.0 27.0 19.9,27.3 30.6 28.5 20.4 27.9 30.8 28.7'20.9 286 31.0 28.9 r0' ❑c^` 80 16.9 23.5 26.6 24.8 17.9 24.9 28.1 26.2 18.9 26.3 29.7 27.7 19.4 26.9 30.3 28.3'19.9 27.6 31.0,28.9 a g-g 77 16.1 22.7 25.8 24.0 17.0 24.0 27.2 25.4 17.9 25.3 28.7 26.7 18.4 25.9 29.3 27.3 18.8 26.6 30.0 27.9 'E us 74 15.3 21.9 24.9 23.2 16.1 23.1 26.4 24.5 17.0 24.3 27.8 25.k 17.4 24.9 28.3 26.3 17.8 25.5 28.9 26.8 di 71 - 21.1 24.1 22.4 - 22.2 25.5 23.6 - 23.4 26.8 24.8 - 23.9 27.3 25.3 - 24.5 27.9 25.8 68 - 20.3 23.3 21.6 - 21.3 24.6 22.7 - ,22.4 25.8 23.8 - 22.9 28.3 24.3 - 23.5 26.9 24.8 Net Cap. 31.0 29.4 29.3 26.4 31.2 29.7 29.6 26.6 31.4 29.9 29.8 26.8 31.5 29.9 29.8 26.8 31.5 30.0 29.9 26.9 MBH Total Power 4.47 4.33 4.26 4.26 4.55 4.42 4.34 4.34 4.64 4.50 4.42 4.42 4.73 4.59 4.51 4.51'.4.82 4.68 4.59 4.60 Mout KW , € 86 15.9 23.1 26.6 24.0 17.0 24.6 28.2 25.4 18.1 26.1 29.8 26.8 19.6 27,8 29.8 26.8,21.1 29.5 29.9 26.9 125°F ri, t5 a 83 16.0 23.2 25.4 22.8, 17.1 24.8 27.6,24.8 18.2 26.3 29.6 26.8 19.1 27.4 29,8 26.8 20.1 28.5 29.9 26.9 v= El_ 80 16.2 23.3 25.6 22.5 17.3 24.9 27.3 24.1 18.4 26.5 29.0 25.6 18.7 27.0 29.5 26.2 19.1 27.5 29.9 26.9 a m m 77 16.3 23.5 25.7 22.7 17.4 25.0 27.4,24.2 18.5 26.6 29.2 25.8 18.3 26-6 29.0 25.8 18.1 26.5 28.9 25.9 Y 74 16.4,23.6.25.8 22.8 17.6 25.2 27.6 24.4 18.7 26.8 29.3 25.9 17.9 26.1 28.6 25.4 17.1 25.5 27.9 24.9 co 71 - 23.7 26.0 22.9 - 25.3 27.7 24.5 - 26.9 29.5 26.1 - ,-25.7 28.2 25.0 - ,24.5 26.9 23.9 68 - 23.9 26.1 23.1 - 25.5 27.9 24.7 - 27.1 29.6 26.2 - 25.3,27.8 24.6 - 23.5 25.9 22.9 These capacities are net capacities-indoor fan heat deducted. ALL SENSIBLE CAPACITY Unitary Products Group 9 036-21232-002-8-1004 COOLING CAPACITIES - 3-1/2 TON (DNA042) Air On Evaporator Coil Temperature of Air on 1,050 CFM 1.225 CFM 1,400 CFM 1.575 CFM 1.750 CFM Condenser Coil WB°F WB°F VVI3°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap. 44.5 40.8 37.6 36.5 46.0 42.2 38.8 37.7 47.5 43.6 40.1 38.9 48.9 44 9 41-3 40.1 50.3 46.2 42.5 41.2 MBH TottalPow r 4.01 4.003.853.8514.164.154-004.004.314.31 4.15 4.15 4.36 4.35 4.19 4.19 4.40 4.39 4.23 4.23 86 23.6 29.7 35.1 35-9 27-6 34-2 37.6 37.4 31.6 38.6 40.1 38.9 31.0 38.5 41.3 1 40,1 30.5 38.4 42.5 412 85°F "FL g a 83 22.5 28.6 34.0 34.8 25-3 31.9 37.0 36.8 28.1 35.1 40.1 38.9 28.6 36.1 41.3l40.1'29.1 37.1 42.5 41.2 tri 80 21.427.532.933.723-029.635.436.224.631.737.938.81'26.233.740.2'40.027.835.742.5,41.2 og - m 77 20.326.431.832.620.727.333.134.021.228.234.435.323-831.337.837.626.434.341.139.9 c 74 19.2 25.4 30.7 31.5 18.5 25.1 30.831.717.724.730.931.821-428.935.335.225.033.039.738.5 rn 71 - 24.3 29.7 30.4 - 22.8 28.6,29.4 - 21.3 27.5 28.4 - 26.4 32.9 32.8 - 31.6 38.4 37.2 68 - 23.2 28.6 29.4 - 20.5 26.3 27.1 - 17.8 24.0 24.9 - 24 0 30.5 30 3 - 302 37.0 35.8 Net Cap- 41.5 38.0 34.6 35.0 43.2 39.6 36.0 36.4 44.9 41.1 37.3 37.8 46.1 42.2 38.3 388 47-2 43.2 39.3 39.8 MBH Total Power 4.24 4.22 4.07 4.10 4.40 4-38 4-22 4-25 4.56 4.54 4.38 4.40 4.62 4.60 4.43 4.46.4.68 4.66 4.49 4.52 In ut KW i" 86 26.5 32.7 34.6 35_0 29,0 35-7 36.0 36,4 31.4 38.7 37.3 37:5 30.3 38.0 38.3 38.8 29.2 37.3 39 3 39.8 95° - 83 23.4 29.6 33.8 34.1 25-5 32.3 35.6 36.0 27.6 34.9 37.3 37.6 27.7 35.4 38.3_38.8.27.8 35.9 -39.3 39.8 o 80 20.3 26.5,30.7 31.0 22.1 28.8 33.4 33.8 23.9 31-2 36-1 365 25.2 32.9 37.7 38.2 26.5 34.6.39_3 39.8 T m m 77 17.1 23.3 27.6 27.9 18.6 25.4 30.0 30.3 20.1 27.4 32.4 32.8 22.6 30.3 352 35.6 25-1 33.2,37.9 38.4 74 14.0 20.2 24.4 24.7 15.2 21.9 26.5 26.9 16.3 23.7 28.6,29.0 20.0 27.7 32.8 33.0 23.7 31.8 36.6 37.1 71 - 17.1 21.3 21.6 - 18.5 23.1 23.4 - 19.9 24.9 25.2 - 25.2 30.0 30.5 - 30.4 35.2 35-7 68 - 13.9 18 1 18 5 - 15 0 19.6 20.0 - 16.1 21.1 21 5 - 22.6 27 5 27 9 - 29 1 33 8 34-3 Net Cap. 38.7 34.7 32.2 33.0 40-3 36.1 33-5 34.3 41.8 37.5 34.8 35.6 42.8 38.4 35.6 36-5 43.8 39.2 36.5 37.3 MBH Total Power 4.51 4.44 4.34 4.34 4.67 4.59 4-49 4.49 4.82 4.74 4.63 4 64 4.90 4.82 4.71 4.71 4.98 4.90 4.78 4.79 In ut KW 86 23-6 29 4 31.7 31.8 25.7 32-0 33-3 33.7 27.8 34.6 34.8 35,6 28.0 35.1 F 28.1 35.7 36.5 37-3 105 1= o za 83 21.5 27-3 30.9 30.9 23.4 29.7 32-9 32.9 25.3 32.1 34.8 35.0 26.1 33.2 ', 26.8 34.4 36.5 37.3 80 19.525.328.928.821.227.531.431-322.929.733.833.824.231-335.235.525.533.036.537.3 Orni 5 77 17.5 23.3 26.8 26.8 18.9 25.2 29.1 29.1 20.4 27.2 31.4 31.4 22 3 29.5 33.3 33-7 24.1 31.7 35-1 36.0 '1203 74 15.421.224.824.716.723.026.926.818.024.828.928.920.427.631.431-822.830.433.834.6 .13 71 - 19.2 22.7 22.7 - 20.7 24.6 24.6 - 22.3 26.5 26.5 - 25-7 29.5 29.9 - 29.0 32-5 33.3 68 - 17.1 20.7 20.7 - 18.5 22.4 223 - 19 9 240 24 0 - 23 8.27.6 28 0 -..j7.7 31.1_3.2 0 Net Can 35-9 31.3 29.9 30.9 37.3 32.6 31.1 32.2 38.8 33.9 32.3 33.4 39.6 34.5 33.0 34.1 40.3 34.2 33.6 34.8 MBH Total Power 4-78 4.66 4.61 4.59 4.93 4.80 4.75 4.73 5.08 4.95 4.89 4.87 5.18 5.04 4.99 4.97 5.27 5.14 5.08 5.06 Input KW 86 20.6 26.0 28.9 28.5 22.4 28.2 30.6 31.0 24.2 30.4 32.3 33.4'25 6 32.3 33.O 34.1 27.1 34.1 33.6 34.8 115°F a O 83 19.7 25.1 28.0 27.6 21.4 27.2 30-1 29.9 23.0 29.3 32.3 32.2124A 31.0 33,0'33.5 25.8 32-8 33.6 34.8_ at co. 80 18.7 24.1 27.0 26.6 20.3 26.1 29.3 28.9 21.9 28.2 31.6 31.1123.2.29.8 32.6 32.9 24.5 31_5 33-6 34.8 ET - 77 17.8 23.2 26.1,25.71 19.3 25.1 28.2 27.8 20.7 27.0 30.4 30.0 22.0 28.6 31.4 31.7 23.2 30.2 32.3 33.5 is 74 16.9 22.2 25.1 24.8 182 24.0 27,2 29.8 19.6 25.9 29.3 28.8 20.8 27.4 30.1 30.5 21.9 28.9 31.0 32.2 row 71 21.3 24.2 23.8 - 23.0 262 25.7 - 24.7 28.1 27.7 - 262 28.9 29.3 - 27.6 29.7 30.9 68 - 20.3 23.2 22.9 - 22.0 25.1 24.7 - 23.6 27.0 26.5 - 25-0 27.7 28.1 - 26.4 28.5 29.6 Net Cap MBH - 33.0 2T9 27.5 28.9 34.4 29.1 28.7 30.1 35.8 30.3 29.8 31.3 36.3 30.7 30.3 31.7 36.9 31.2 30.7 32.2 Total Power 5.05 4-88 4.87 4.83 5.19 5.02 5.01 4.97 5.34 5.16 5.15 5.11 5.45 5.27 5.26 5.22 5.57 5.38 5.37 5.33 Input 86 17.7 22.6 26.1 25.3 19.1 24.5 27.9 28.2 20.6 26.3 29.8 31.2 23.3 29 4 30.3 31.7 26.0 32.5 30.7 32.2 125°F �' 83 17.8 22.8 25.0 24.3 19.3 24.6 27.4 26.9 20.7 26.5 29.8 29.5 22.7 28.8 30:31 30.8 24.8 31.2 30.7 32.2 Flu" 80 18.0 22.9 25.2 24.4 19.4 24.8 27.2 26.4 20.9 26.6 29.3 28.4 22.2 28.3 30.0 30.3 23.5 30.0 30.7 32.2 M m 77 18.1 23.1 25.3 24.6 19.6 24.9 27.4 26.6 21.1 26.8 29.4 28.6 21.7 27.8 29.5 29.8 22.3 28.7 29.5 31.0 t5 74 18.3 23.2,25.5 24.8 19.8 25.1 27.5 26.7 21.2 27.0 29.6 28.7 21.1 27.2 28.9 29.2 21.0 27.5 28.2 29.7 to 71 - 23.4 25.6 24.9' - 25.3 27.7 26.9 - 27.2 29.8 28.9 - 26.7 28.4 28.7 - 26.2 27.0 28.5 68 - 23.5 25.8 25.1 - 25.4 27.9 27.1 - 27.3 29 9_29.1 - 26.2 27.9 28.2 - 25.0 25.8 27.2 =These capacities are net capacities-indoor Ian heal deducted. ALL SENSIBLE CAPACITY 10 Unitary Products Group 036-21232-002-B-1004 COOLING CAPACITIES - 4 TON (DNA048) Air On Evaporator Coil Temperature of Air on 1,200 CFM 1,400 CFM 1 600 CFM 1,800 CFM 2 000 CFM Condenser Coil WB°F WB°F WB°F W13°F WB°F 72 67 62 57 72 1 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cato 48.5 45.0 41.0 41.6 49.9 46.3 42.2 42.8 51.3 47.6 43.4 44.0 52.4 48.7 44.4 44.9 53.5 49.7 45.3 45.9 Total Power 3.99 3.93 3.87 3.86 4.01 3.95 3.88 3.88 4.02 3.96 3.90 3.89 4.04 3.97 3.91 3.91 4.05 3.99 3.92 3.92 Input KW 86 28.9 36.8 41.0 41.6 31.9 40.5 42.2 42.8 34.9 44.1 43.4 44.0 i 38.0 46.9 44.4 449`41.0 49.7 45.3 45.9 85°F ID 83 25.5 33.4 40.3 41 2 27.8 36.4 41.9 42.6 30.2 39.4 43.4 44.0;32.7 42.5 44,4 449;35.1 45.6 45.3 45.9„ u e 80 220 30.0 36.9 37.8 23.8 32.4 39.8 40.9 25.6 34.8 42.8 43.9127.3 37.2 44.1 y44,9'29.1 39.6 45.3 45.9 ' 5 77 18.6 26.5 33.4 34.419.8 28.3 35.8 36.8 20.9 30.1 38.1 39.2122.0 31.9 38.7 39.61,23.1 33.6 39.4 40.00 •c til m 74 15.2 23.1,30.0 31.0 15.7 24.3 31.7 32.8 16.2 25.4 33.5 34.6 1 16.7 26.6 33.4 34.3 17.2 27.7 33.4 34.0 71 - 19.7 26.6 27.6 - 20.2 27.7 23.7 - 20.8 28.8 29.91 - 21.2 28.1 29.0 - 21.7,27.5,28.0 88 - 16 3 23.2 24.1 - 16.2,23.7 24,7 - 16.1 24.1 25.21 - 15.9 22.8 23.7 - 15.7 21.5 22.1 Net Cap. 43.5 41.9 36.3 36.9 46.1 44.4 38.6 39.1 48.8 47.0 40.8 41.4 48.6 46.8 40.6 41.2 48.3 46.5 40.4 40.9 MBH Total Power 4.44 4.34 4.32 4.32 4.44 4.34 4.32 4.32 4.43 4.33 4.31 4 47 4.37 4.37 4.35 4.35 4.50 4.41 4.38 4.39 !owl KW _ 86 27.235.636.336.930.740.11 4334.344.740.841.436.845.640.6141.239.246.540.440.9 g5°F g z 83 23.7 32.2 36-3 36.9r 26.7 36.1 39 i. >t 29.7 40.0 40.8,41.4 31.5,42.3 40.6 41.2 33.3 44.6 40.4 40.9 1V'" ow- 80 20.3 28.8 33.1 33.6 22.7 32.1 36.9 37.4 25.0 35.4 40.7 41.3 26.2 37.0 40.5 41.1 27.3 38.6 40.4 40.9 �o m m 77 16.9 25.3 29.7 30.2 18.6 28.0 32.9 33.4 20.3 30.7 36.1 36.6 20.8 31.7 35.2 35.8 21.3 327 34 4 35.0 c 74 13.5 21.9 26.3 26.7 14.6 24.0 28.8 29.3 15.7 26.0 31.4 32.0 15.5 26.4 29.9 30.5 15.4 26.7 28.4 29.0 71 - 18.5 22.8 23.3 - 19.9 24.8 25.3 - 21.4 26.7 27.3 - 21.1 24.6 25.2 - 20.8 22.5 23.0 68 - 15 1 19.4 19.5 - _15.9 20.7 21.3 - 16.7 22.1 22.6 - 15.7 19.3 19.9 - 14.8 16.5 17.1 Net Cap. 42.2 39.2 35.7 36.0 44.1 40.9 372 37.5 45.9 42.6 38.8 39.1 46.4 43.1 392 39.5 47.0 43.6 39.7 40.0 MBH Total Power 4.94 4.85 481 4.81 4.95 4.85 4.81 4.82 4.95 4.86 4.82 4.83 4.98 4.89 4.84 4.85 5.00 4.91 4.87 4.89 In utKW _ Z. 86 26.7 34.8 35.7 36_0 30.1,38.1_372,37 5;3371 41.5 38 8 39.1 36.1 42.5 39.2 39.5:38 8 43.6 39.7 40.0 105°F a 83 23.3 31.3 35.3 35.6 26.0 34.9 37.0 37.3 28.7 38.4 18.8 39.1 30.8 40.5 39.2 39.5 32.8 42.6 39.7 40.0 err 0,0 80 19.9 27.9 32.0 32.2 22.0 30.8 35.3 35.6 24.1 33.8 38.7 39.0 25.5 35.7 39.2 39.5 26.9 37.7 39.7 40.0 e, a cj 77 16.5 24.5 28.6 28.8 17.9 26.8 31.3 31.6 19.4 29.1 34.0 34.3 20.2 30.4 33.9 34.2 20.9 31.7 33 7 34 0 m 'm 74 13.0 21.1 25.1 25.4 13.9 22.8 27.2 27.5 14.7 24.4 29.4 29.7 14.8 25.1 28.6 28.9 14.9 25.8 27.8 28.1 71 - 17.7 21.7 22.0 - ,18.723.223.5: - 19.8 24.7 25.0 - 19.8 23.3 23.6 - 19.8 21.8 22 1 68 - 14.2 18.3 18.5 - 14.7 19.2 19.4 - 15.1 20.0 20 3 - 14.5 17 9 18.3 - 13.9 15.9 16.2 Net Cap. 41.0 36.5 35.0 35.1 42.0 37.3135.9 35.9 43.0 38.2 36.7 36.8 44.3 39.4 37.9 37.9 45.7 40.6 39.0 39.1 MBH Total Power Inou1KW 5.44 5.35 5.29 5,305.46 5.37 5.31 5.32 5.47 5.39 5.33 5.34 5.49 5.40 5.34 5.35 5.50 5.42 5.35 5.37 86 26.3 33.9 35.0 351 r29 4 36,1,35,9 35 9 32.5 38.2 3 7 36,8 35 4,39 4137 9 37.9 38.4 40.8 39.0 39.1 115°F n e 83 22.9 30.5 34.3 34.3 25.3 33.7 35.5 35.5 27.8 36.9 36.7 36.8 30.1 38.7 37.9 37.932.4 40.6 39.0 39.1 rn 80 19.5 27.1 30.8 30.9 21.3 29.6_33.7 33.6 23.1 32.1 36.7 36.7 24.8 34.9 37.8 37.9'26 4 36.8 39.0 39.1 ci) ffi" 77 16.0 23.7 27.4 27.5 17.2 25.6 29.7,29.8 18.5 27.5,32 0 32.0,19.5 29.2 32.5 32.6 20 5 30.8 33.1 33 1 74 12.6 20.6 24.0 24.0 13.2 21.5 25.7 257 13.8 22.9 27.3 27.4 14.2 23.9 27.2 27.3 14.5 24.9 27.1 27.2 71 - 16.8 20.6 20.6 - 17.5 21.6 21.7 - 18.2 22.7 22.7 18.5 21.9 22.0 - 18.9_21.1 21.2 co 68 - 13.4,17,2,17.2. - ,13.5 17.6 17.6 - 13.5 18.0 18.1 - 13.2 16.6 16.6 - 12.9 15.2 15.2 Net Cap. 39.7 33.7 34.3 34.2 39.9 33.6 34.5 34.3 40.1 33.9 34.7 34.5 42.2 35.8 36.5 36.3 r44.4 37.7 38.4 38.2 MBH Total Power 5.90 5.90 5.80 5.80 6.00 5.90 5.80 5.80 6.00 5.90 5.80 5.90 6.00 5.90 5.80 5.90 6.00 5.90 5.80 5.90 Input ICN }_a 86 25.9 33.1 34.3 34.2 28.7 34.0 34.5 34.3 31.5'35.0 34.7 34.5 34.7 36 4 38.5 36.3`37.9 37.7 38.4 38.2 125°F '' 83 22.4 29.7 33.2 33.0 24.7 32.5 34.0 33.8 26.9 35.3 34.7 34.5 29.4 37.0 38.5 36.3.32.0 38.7 38.4 38.2 o= Ena 80 19.0 262 29.7 29.5 20.6 28.4 32.2,32.0 22.2 30.6 34.6 34.4 24.1 33.2 36.5 36.3,26.0 35.9 38.4 38.2 1:1 '=m 77 15.6,22.8 26.8 26.1 16.6 24.4 28.1 27.9 17.5 25.9 30.0 29.8 18.8 27.9 31.2,31.0[20.0 29 9 32.4 32.2 w 74 12.2 19.4 22.9 22.7 12.5 20.3 24.1 23.9 12.9 21.3 25.3 25.1 13.5 22.6 25.9 25.7 14.1 23.9 26.4 26.2 71 - 16.0 19.4 19.31 - 16.3 20.0 19.9, - 16.6 20.6 20.4 - 17.3 20.5 204t - 18.0 20.5,20.3 68 - 12.616.6159 - 12.2 16.015.8 - 11.9 16.0 15.8 - 120 15.2 15.06. - 12.0 14.5 14.3 These capacities are net capacities-indoor tan heat deduced_ ALL SENSIBLE CAPACITY Unitary Products Group 11 036-21232-002-6-1004 COOLING CAPACITIES - 5 TON (DNA060) Air On Indoor Coil Temperature of Air on 1500 CFM 175 CFM 2000 CFM 2250 CFM 2500 CFM Outdoor Coil WB°F W8°F WB°F W8°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 82 57 Net Ca•p 60 3 56.2 52.0 51.1 62.4 58.1 53-8 52.9 64.4 60.0 55.5 54.6 65.4 60.9 56.4 55.5 66.5 61.8 57.3 56.3 MBH Total Power 5.67 5.58 5.48 5.50 5.80 5.71 5.61 5.63 5.93 5.83 5.73 5.75 6.11 6.01 5.91 5.93 6.30 6.20 6.09 6.11 Input KW 86 39.5 47.7 52.0 51.1 43.5 52.3 53.8 5211 47.5,56.9 55.5 54.6 50_9 59.4 ,54.3 61-8 57.3 56.3 85°F 83 35.2 43.4 50.6 50.9 38.4 47.2 53.1 52.7 41.6 51.0 55.5 54.6 44.3 54.1 sB4 46.9 57.2 57.3 56.3 "Ent 80 31.0 39.1 46.4 46.6 33.4 42.2 50.0 50.2 35.8 45.2 53.6 53.9 37.6 47.5 55.4 55.1 39.4 49.8 57.3 56.3 a 1 v- 77 26.7 34.8 42.1 42.3,28.3 37.1 44.9 45.2 30.0 39.4 47.8 48.1 31.0 40.9 48.8 48.5 32.0 42.3 49.8 48.9 w m 74 22.4 30.5 37.8 38.023.3 32.0 39.9 40.1 242 33.6 42.0 42.2 24.3 34.2 42.2 41.8 24.5 34.9 42.4 41.4 71 - 26.3 33.5 33.8 - 27.0 34.8 35.1 - 277 36.1 36.4 - 27.6 35.5 35.2 17.1 27.4 34.9 34.0 68 - 22.0 29.3 29 5 - 21.9 29.8 30.0 - 21.9 30.3 30.6 - 20.9 28.9 28.5 9.6 20.0 27.5 26.5 Net Can MBH 57.6 53.0 49.0 48.5 59.5 54 7 50.7 50.1 61.5 56.5 52.3 51.7 62.4 57.3 53.1 52.4 63.3 58.1 53.9 53.2 Total Power 6.14 6.11 5.96 6.01 6.30 6.27 6.11 6.16 6.45 6.42 6.26 6.32 6.62 6.59 6.43 6.49 6.80 6.76 6.60 6.65 In ut KW z 86 37.6 46.8 49.0 48.5.41.5 51.4 v,k 45.3 56.0 52.3 51_7 48.6 57.1 53.1 52.4 51.8 58.1 53.9 53.2 95°F a z 83 33.3 42.5 48.6 48.2 36.4 46.4 50.5 50.0 39.5 50.2 52.3 51..7 41.9 53.1 53.1 52.4 44.4 56.1 53.9 53.2 U Sao- 80 29.1 38.3 44.4 43.9 31.4 41.3 47.9 47.4 33.7 44.3 51.4 50.9 35.3 46.5 52_6152_1 36.9 48.6 53.9 53.2 6 a 77 24.8 34.0 40.1 39.7 26.3 36.2 42.8 42.4 27.8 38.5 45.5 45.1 28.7 39.8 46.0 45.4 29.5 41.2 46.4 45.7 w m 74 .20.5 29.7 35.8 35.4 21.3 31.2 37.8 37.3 22.0 32.7 39.7 39.2 22.0 33.2 39.3 38.8 22.0 33.7 38.9 38.3 71 - 25.4 31.5 31.1 - 26.1 32.7 32.3 - 26.8 33.9 33.4 - 26.6 32.7 32.1 - 26.3.31.5 30.8 68 - 21.2 27.2 26.8 - 21 1 27.6 27.2 - 21 0 28.0 27 6 - 19.9 26.0 25.5 - 18.8 24.0 23.4 Net Cap MBH 50.7 . 48.545.9 .53.0 48.8 45.0 42.7 55.0 468 44.3 57.1 52.5 576 53.1 49.0 46.4 58.2 53.6 49.5 46.9 Total Power 6.85 6.74 6.64 6.64 6.99 6.8816.78 6.78 7.14 7.03 6.93 6.92 7.34 7 22 7.12 7.12 7.54 7.42 7 31 7.31 In ut KW z^ 86 36.1,45.1 4510 42.7 39.9 48.7146 8 44.3 43.7 52.3 48 5 45.9 46.9 53.0+110,, '�50.1 53.6 49.5 46.9 105°F '° z' 83 31.8 40.8 44.8 42.6 34.9 44.6 46.7 44.2 37.9 48.4 48.5 45.9 i 40.3 50.5-49A 46&42.6 52.6 49.5 46.9 'a°'- a 80 27.6 36.5 41.5 39.4 29.8 39.5 44.9 42.6 32.1 42.5 48.3 45.8 33.6 44.6 48.9 46.3 35.2 46.6 49.5 46.9 C m S 77 23.3 32.2 37.2 35.1 24.8 34.5 39.8 37.5 26.3 36.7 42.4 40.0 27.0 37.9 42.2 39.7 27.7 39.2 42.0 39.4 ro 74 19.0 28.0 32.9 30.8 19.7 29.4 34.8 32.5 20.4 30.9 36.8 34.2 20.3 31.3 35.6 33.1 20.3 31.7 34.6 32.0 W 71 - 23.7 28.6 26.5 - 24.4 29.7 27.4 - 25.0 30.8 28.3 - 24.6 29.0 26.4 - 24.2 27.1 24.5 68 - 19.4 24.4 22.3 - 19.3246224 - 192249225 - 18.0223198 - 168197171 Net Cap 48.4 44.7 41.0 36.9 50.5 46.6 42.8 38.5 52.6 48.6 44.6 40.1 52.9 48.8 44.9 40.3 53.2 49.1 45.1 40.5 MBH Total Power 7.56 7 37 7 33 7.27 7.69 7 50 7.46 7.40 7.82 7.63 7.59 7.53 8.05 7.85 7.81 7.75 8.28 8.08 8.03 7.97 In ut KW _ 3 86 34.6 43.3 41.0 36.9 38.4 45.9 42.8 38.5 42.2 48.6 44.6 40.1 45 2 48.8 44.9 40.3 48-3 49.1 45.1 40.5 115°F a �' 83 30-3 39.1 41.0 38:9 33.3 42.8 42.8 38• 6 36.3 46.5 44.6 40.1 38.6 47.8 449 40;3 40.8 49.1 45.1 40.5 ca 0 80 26.1 34.8 38.6 34.8 28.3 37.7 41.9 37.8 30.5 40.7 45.2 40.7 31.9 42.6 45.1 40.8 33.4 44.6 45.1 40.5 12 ffi LU 77 21.8 30.5 34.3 30.5 23.2 32.7 38.8 32.7 24.7 34.9 39.3 34.9 25.3 36.0 38.5 34.0 25.9 37.1 37.7 33.1 di 74 17.5 26.2 30.0 26.3 18.2 27.6 31.8 27 7 18.8 29.0 33.5 29.1 18.7 29.4 31.9 27.4 18.5 29.7 30.2 25.6 71 - 22.0 25.8 22.0 - 22.6 26.7 22.6 - 23.2 27.7 23.2 - 22.7 25.2 20.7 - ,22.2 22.8 18.2 68 - 17.7 21.5 17.7 - 17.521.7,17.E - 17,4 21.8 17.4 - 16.1 18.6 14.1 , - 14.8 15.3 10.7 Net Cap MBH 43.8 40.5 37.1 31.1 46.0 42.6 38.9 32.7 48.2 44.6 40.7 34.3 48.2 44.8 40.8 34.2 48.2 44.6 40.8 34.2 Total Power 8.30 8.00 8.00 7.90 8.40 8.10 8.10 8.00 8.50 8 20 8.20 8.10 8.80 8.50 8.50 8.40 9.00 8.70 8.70 8.60 Input KW 86 33.1 41.6 37.1 31.1 36.8 43.2 38.111-W2'.;40.6 44.8 40.7 34.3,43.5 44.7 40.8 34.2 46.5 44,E 40.8 34.2 125°F m 83 28.8 37.3 37.3 31.2 31.8 41.0 39.0 32 34.7 44.7 40.7 34.3 36.9 45.2 40.8 342 39.1 45.6 40.8 34.2 0 E076. > 80 24.5 33.0 35.7 30.2 26.7 36.0 38.9 32.9 28.9 38.9 42.0 35.6 30.3 40.7 41.4'34.9 31.6 42.5 40.8 34.2 n, '°-5 77 20.3 28.8 31.4 26.0 21.7 30.9 33.8 27.9 23.1 33.1 36.2 29.8 23.6 34.1 34.8 28.3 24.2 35.1 33.3 26.8 c w to 74 16.0 24.5 27.1 21.7 16.6 25.9 28.8 22.8 17.2.27.2 30.4 24.0 17.0 27.4 28.1 21.6 16.7 27.6 25.9 19.3 to 71 - 20.2 22.9 17.4 - 20.8 23.7 17.8 - 21.4 24.6 18.2 - 20.8 21.5 15.0, - 20.2 18.4 11.9 68 - 15.9 18.6 13.1 - 15.8 18.7 12.7 - 15.6 187 123 - .14214.8 82 - 127 109 44 These capaalles are net capacities-indoor fan heat deducted. AU.SENSIBLE CAPACITY 12 Unitary Products Group 036-21232-002-B-1004 SIDE SUPPLY AIR BLOWER PERFORMANCE 208 volts EXTERNAL STATIC PRESSURE-IWG MODEL .10 .20 .30 40 .50 .60 , .70 .80 .90 , 1.00 1.10 NO. MOTOR CO U) (I) (I) fn cn 0) CO CO (0 CO DNA SPEED u '- u_ '- LL '- LL 1- a LL LL r- a I- r- LL I- u K U . U .g U .i U .t U . U . U .g V - 0 ., U g U HI 608 358 465 326 - - 018 MED 695 263 615 248 509 226 LOW 743 243 700 235 657 226,614 218 549 207 483; 195 HI 984 443 894 422 751 390 608 358 - - - - 024 MED 994 333 947 321 901 309 854 297 774 280 695 263 615 246 LOW 743 243 700 235 657 226 614 218 , HI - - - - 1238 504 1165 484 1075 463 964 443 894 422 751 390 030 MED 994 333 947 321 901 309 854 297 774 280 LOW , HI 1465 712 1390 685 1315 657 1204 623 1093 588 982 554 - - 036 MED 1432 650 1381 628 1330 605 1279 583 1210 556 1140 529 1071 502 977 477 LOW 1191 527 1149 510 1107 494 1065 477 1009 459 _952 - HI - - 1681 797 1610 768 1540 740 1465 712 1390 685 1315 657 1204 623 1093 588 - - - - 042 MED 1432 650 1381 628 1330 605 1279 583 1210 556 1140 529 LOW 1191 527 1149 510 1107 494 1065 477 - - - - - - - - - - - -HI 190810231832 982 1737 938 1656 889 1348 789 1252 754 - - - - 048,060 MED 1773 894 1726 869 1674 852 1613 832 1339 731 LOW - - - - 1672 841 1610 804 1542 773 - - - - - - - - - - - - NOTE Above data includes allowances for a dry evaporator coil.gas heat exchanger and no tillers.For additional pressure drops,refer to he'Additional Static Pressure Resistance"table. 230 460 and 575 volts EXTERNAL STATIC PRESSURE-IWG MODEL 10 0 .30 40 .50 80 9f_.._.__ 4$1_.. 1 10 NO MOTOR CO SPEED E 2 N I r m r › F F- a r W CO CO 2 /- DNA 6U66 66 018 MHEID OW Ililli!!!!!! LIIñI : - HI 024 OW Nil 906 migino 255 319 e f. 706 280 29 491 8091111111111111 - - 030 MED 1110 383 1055�999 9440 338 1865 319 7851019 537085 299 sill 514609 11111111111. - - LOW 998 372 906 813 HI 036 LOW ��605 1287663 MED 1483�1239 564 1167 537 1094 50 1022 566 11831903 460 1 075 534169 6 01 10-73 803- HI - _ 1705 847 1622 818 1535 786 1447 754 1360E11264 692'M1073111 042 MED 1610 735 1547 708 1483 682 1420 655 1341 625 1262 596 1183 1075 534 LOW 1384 625 1336 605 1287 584 1239 564 1167 537 1094 509 1220 845 - 048,060 MEDIIIIIIII ®PI 19HI 55 987;15 1870 947 17856 914 1690 '• ., 14000 773 111290 0 •... 1160 7605® - NOTE:Above data includes allowances for a dry evaporator coil,gas beat exchanger and no fitters.For additional pressure drops,refer to the`Additional Static Pressure Resistance"table. Unitary Products Group 13 036-21232-002-8-1004 BOTTOM SUPPLY AIR BLOWER PERFORMANCE 208 volts EXTERNAL STATIC PRESSURE-IWG MODEL ,10 .20 s .30 .40 .50 60 .70 .eo .90 1.00 1.10 NO. MOTOR m rn cn u) co co cn CO CO u> DNA SPEED LL k LL 2 LL K 2 r LL r LL r U r LL HI 547 322 419 293 - - 018 MED 625 237 554 221 458 203 LOW 669 219 630 211 591 204 553 196 494 186 435 176 _ HI 886 398 805 380 678 351 322 - - - 024 MED 895 300 853 289 811 278 769 267 697 252 625 237 554 221 LOW 669 219 630 211 591 204 553 196 HI - - - - 1115 454 1049 436 967 417 886 398 805 380 676 351 030 MED 895 300 853 289 811 278 769 267 697 252 LOW HI 1458 688 1377 663 1295 639 1147 600 999 561 - - - 036 MED 1482 628 1428 613 1374 599 1320 584 1242 556 1163 528 1085 500 961 474 LOW 1239 510 1184 496 1130 481 1075 467 998 448 922 428 HI - - 1687 763 1614 737 712 1458 688 1377 663 1295 639 1147 600 042 MED 1482 628 1428 613 1374 599 0 584 1242 556 1163 528 1085 500 LOW 1239 510 1184 496 1130 481 t 5 467 HI 1928 1032 1844 994 1636 923 1515 888 1441 849 048,060 MED 1805 837 1693 859 1580 819 1473 788 LOW - - - - 1725 850 1860 807 1557 776 1428 728 NOTE:Above data includes allowances for a dry evaporator coil,gas heat exchanger and no fillers-For additional pressure drops.refer to the'Additional Static Pressure Resistance'table. 230,460 and 575 volts EXTERNAL STATIC PRESSURE-IWG MODEL MOTOR . ^10 .20 -::;0 .40 .50 , .60 .70 y_.80 .90 120 1.10 Na Co to rn co co co 1 w co co co cn DNA SPEED 2 h 2 17 2 r 2 N 2 I- 2 I- 2 I— 2 1- 2 t- 2 1- HI 620 409 511 392 - 018 MED - - - - - - - - - - - - 635 252 529 231 423 - - LOW - - - - - - 649 230 586 217 523 204 460 191 - - - - - - - - HI 836 442 728 425 620 409 - - - - 024 MED - - - - 899 318 850 304 778 287 707 269 635 252 - - - - - - - - LOW 898 335 615 300 732 265 649 230 586 217 HI - - - - - - 1080 504 999 483 917 463 836 442 728 425 - - - - - - 030 MED 999 345 949 331 899 318 850 304 778 287 707 269 LOW 898 335 815 300 732 265, HI 1436 735 1345 705 1189 667 1032 628 - - - - 036 MED - - - - 1490 652 1422 625 1339 602 1257 578 1174 555 1049 526 953 497 - - - - LOW 1387 582 133Q 569 1274 555 1217 542 1148 520 1079 497 1010 475 - - - - - - - HI - - - - 1695 821 1618 796 1527 766 1436 735 1345 705 1189 667 - - - - - 042 MED 1625 707 1557 680 1490 652 1422 625 1339 602 1257 578 1174 555 - - - - - - - - LOW 1387 582 1330 569 1274 555 1217 542 1148 520 1079 497 HI - - - - - - 2068 1151 1985 1118 17581034 1625 992 1555 961 1408 914 1270 872 - - 048,060 MED - - - - - - 1928 998 1806 935 1680 889 1560 854 1448 816 1325 773 1214 735 - - LOW - - - - 1878 924 1786 875 1655 838 1525 786 1440 761 1336 717.1196 679 1097 646 - - NOTE:Above data includes allowances for a dry evaporator coil,gas heat exchanger and no filters.For additional pressure drops,refer to the'Adddwnal Static Pressure Resistance'table. 14 Unitary Products Group • 036-21232-002-13-1004 ADDITIONAL STATIC PRESSURE RESISTANCE 1-112 THRU 3-1/2 TON (DNA048 AND DNA060) RESISTANCE,IWG DESCRIPTION CFM 500 600 700 800 900 1,000 1,100 1,200 1,300 1,400 1,500 1,600 1,700 1,800 1,900 2,000 • Wet Evaporator coil .01 .01 .01 .02 .03 .04 .05 .06 .07 .08 .09 .09 - - - - Economizer .00 .00 .00 .01 .01 .01 .01 .02 .03 .04 .05 .06 - - - - Filter/Frame Kit .01 .02 .04 .06 .08 .10 .13 .16 17 .18 .19 .20 - - - - NOTE:1.Deduct these resistance values from the available external static pressure shown in the respective Blower Performance Table. 2.The pressure thru the economizer Is greater for 100%outdoor air Men for 100%return air If the resistance(lithe return air duct system is less then 0.25 IWG.the unit will deliver less CM during full economizer operation. 4 AND 5 TON (DNA048 AND DNA060) RESISTANCE,IWG DESCRIPTION CFM 500 600 700 800 900 1,000 1,100 1,200 1,300 1,400 1,500 1,600 1,700 1,800 1,900 2,000 Wet Evaporator coil - - - - - .03 .04 .05 .06 .07 .07 .08 .09 .09 Economizer - - - - - - - .02 .02 .03 .03 .04 .04 .04 .05 .05 Filter/Frame Kit - - - - - - .04 05 .05 .06 .07 .08 .09 .10 .11 NOTE:1.Deduct these resistance values from the available external static pressure shown in the respective Blower Performance Table. 2 The pressure Mu the economizer is greater for 100%outdoor air then for 100%return alr.lithe resistance of the return air duct system is less then 0.25 IWO.the unit wit deliver less CFM doing full economizer operation. Unitary Products Group 15 036-21232-002-8-1004 FIELD WIRING DIAGRAM THERMOSTAT UNIT TERMINAL STRIP NOTE: "=Minimum wire size of 18 AWG 0 _ss___ VI SHOULD BEHEAT I SETPA ATR 0.35 wire should be used for all field 0 © AMPS FOR ALL MODELS. installed 24 volt wire. PROGRAMABLE 0 M THERMOSTAT ONLY I24VOLTTRANSFORMER CONTROL WIRING O `0, CONTACTOR CONTACTOR FIELD-SUPPLIED (� A FIELD-SUPPLIED 0 0 DISCONNECT _ 4 A� Q DISCONNECT r - -I SNJGLE 1 ' r _` r ` -.--0°r70--r PRASE _ i I r- -i --r': r PHASE _ r- 4 i .,- „r PHASE GROUND REFER TO ELECTRICAL 4 `O Y GROUNDt- -I_�J-o-_L- POWER LUG DATA TABLES TO SIZE LUG REFER TO ELECTRICAL L SUPPLY THE DISCONNECT DATA TABLES TO SIZE THE DISCONNECT POWER WIRING ELECTRICAL DATA VOLTAGE SUPPLY MAX. LIMITATIONS.' COMPRESSOR COND. AIR MIN. MAX. HACK UNIT MODEL POWER FAN FUSE TRANSFORNIER DNA SUPPLY MOTOR, BLOWER CIRCUIT SIZE BREAKER POWER SIZE(VA) MIN. MAX. RLA LRA FLA MOTOR, AMP. AMPS2 SIZE, FACTOR FLA AMPS 018 208/230-1-60 187 253 9.0 48.0 1.1 2.2 14.5 20 20 .96 40 024 208/230-1-60 187 253 11-5 60.0 1.1 2.2 17.7 25 25 .96 40 030 208/230-1-60 187 253 14.7 73.0 1.1 2.2 . 21.7 30 30 .96 40 036 208/230-1-60 187 253 17.3 94.0 1.1 3.5 26.2 35 35 .96 40 042 208/230-1-60 187 253 20.5 120.0 1.1 3.5 30.2 40 40 .96 40 048 208/230-1-60 187 253 24.4 140.0 1.3 7.0 38.8 50 50 .96 40 060 208/230-1-60 187 253 28.9 1750 13 7.0 44.4 60 60 96 40 036 208/230-3-60 187 253 10.9 78.0 1.1 3-5 18.2 25 25 .96 75 042 208/230-3-60 187 253 14.1 110.0 1.1 3.5 22.2 30 30 .96 75 048 208/230-3-60 187 253 14.1 105 1.3 7.0 25.9 35 35 .96 75 060 208/230-3-60 187 253 15.5 125 1.3 7-0 29.5 40 40 96 75 036 460-3-00 414 504 5.8 40.0 0.6 1.8 9.6 15 15 .96 75 042 460-3-60 414 504 7.1 54.0 0.6 1.8 112 15 15 .96 75 048 460-3-60 414 504 7.1 55.0 0.7 3.5 13.1 20 20 .96 75 060 460-3-60 414 504 8.9 66 5 0.7 3.5 15 4 20 20 .96 75 036 575-3-60 518 630 4.5 32.0 0.4 1.5 7.5 15 15 .96 75 042 575-3-60 518 630 5.8 44.0 , 0.4 1.5 9.1 15 15 .96 75 048 575-3-60 518 630 5.7 45.0 0.6 2.8 10.5 15 15 .96 75 060 575-3-60 518 630 7.1 50.0 D§ 2.8 12.3 15 15 .96 75 Note;Electrical data based on 104°F outdoor air ambient temperature. =Rated in accordance with ARI Standard 110,utilization range`A°. '=Dual element,time delay type. 3=If economizer or motorized damper are to be used,75 VA is required.Refer to price pages far future details. 16 Unitary Products Group 036-21232-002-B-1004 UNIT DIMENSIONS UNIT DIMENSION SIZE VENT AIR OUTLET HOOD 018 THRU 042 33% 18% BLOWER 048 AND 060 41% 23% SERVICE ACCESS COMPARTMENT PANEL GAS SUPPLY 1 \DIA.HOLE /CONDENSER COIL (1¢"NPTI CONNECTION) UNIT CONDENSATE CONNECTION B 4.�"" ""'ill A (TRAP RECOMMENDED) I 23e 411! (OVERALL) HIGH VOLTAGE CONNT - II�` I . REFRIGERANT 1% DIA.KNOCKOUT 2% L \,_1 I �0'� CONNECTIONS HIGH VOLTAGE CONN. �,�. %"DIA.KNOCKOUT i . , COMBUSTION AIR GAS SUPPLY 1Y,°DIA KNOCKOUT 1% CI �5'` INLET LOUVERS 02"NPTI CONNECTION) 2% ( 11 FRONT 3Y 12% 49Ye LOW VOLTAGE CONN. 47Y (OVERALL) 13fi`DIA.KNOCKOUT x'/e"HOLE (OVERALL) GAS/ELECTRIC CONTROL 19Y SERVICE ACCESS HIGH VOLTAGE 40) 8% 1 COMPARTMENT PANEL CONN-1%2"DIA. FRONT KNOCKOUT 's' i GAS SUPPLY 1Ys°DIA.KNOCKOUT All dimensions are in inches.They are ` \�;*� (X�"NPTI CONNECTION) subject to change without notice.Certified l' ;�. l \ dimensions will be provided upon request. ---LOW VOLTAGE CONN. 'e DIA.KNOCKOUT '�" c SIDE SUPPLY Q i AIR OPENING / 14Ys 263; 1 6 28% REAR CONDENSER COIL `, 14Yz CONDENSATE BOTTOM SUPPLY 33'e SIDE RETURN DRAIN 3;°NPTI AIR OPENING ' ��I a AIR OPENING 1% t _.....,,/...-- '''CL j'illitrill 2:041111111110" .4-1. -1k., 14)2 3Y 15 15 /� 15 73', 4 28%t 372 1% - CLEARANCES BOTTOM RETURN M'n" m' AIR OPENING Front 'Units may be installed on combustble boors made from wood or dans A. • Back 0" 8 or C roof covering material. Left Side Fitter Access 24" ' Units must be nstalled outdoors-Overhanging structures or shrubs should not obstruct condenser air discharge outlet. Ri ht Side 12' NOTE: Below Unitt 0" A 1"dearance must be provided between any combustible material 36"(For Condenser and the supply air dudwon Above Unit2 Air Dischar a The products of combustion must not be allowed to accumulate within a confined space and recirculate. Unitary Products Group 17 036-21232-002-8-1004 TYPICAL APPLICATIONS TYPICAL SLAB ON GROUND INSTALLATION . . ,.., COMMS.NAIN flan SUPPLED TO MOOR 06C&OtCt SMITH UtJd(6TAT LOCATED TO REM CV MM0 r Ewe AN �IF14 , SUPPLY Mt �GT TOGAS 'Alkil `, 411114411101P 7 TYPICAL ROOF CURB INSTALLATION NANUAL GAS SHUT-OFT vat j;a,, t!o` v�1 i i 3' ems.,i� � i �� \\ iiGii �� SDrSCON 1, ZZ� y s >wTAfl $ ! ROOF CURB osuwr �\,- iyy� �' _ i/ INSTALLATIONROOF CURB Trx \ / REAR DUCT „n,,. ill INSTALLATION BOTTOM DUCT mnn Mmtnl �� \II � 'an,Muenuulll' u4 n To GAS 4y u =� CONTROL WRING 11 I, TO INDOOR THERMOSTAT t--I q HETUHN AIR +I, y' bUCT SUPPLY AIR �_ OUCT m. SLAB ON GROUND INSTALLATION FRONT CENTER OF GRAVITY OF UNIT UNIT SHIPPING OPERAT- OPERATING CORNER Dn WEIGHT WEIGHTS ECONI- ROOF SIZE WEIGHT (location,lbs.) MIZER CURB IC" (lbs.) (lbs.) A" TB" "C° °D^ (lbs.) (inch/lbs.) mat• 018 365 360 91 88 89 92 / / 024 365 360 91 88 89 924 /- / �47Y 030 395 390 98 95 96 99 49Ya 1H" 24 036 400 395 100 96 98 101 40 8"!70 25� \�� 14"175 042 415 410 104 100 101 105 048 475 470 119 115 116 120 060 480 475 120 116 117 122 18 Unitary Products Group 036-21232-002-B-1004 ROOF CURB DIMENSIONS (8" roof curb also available) 1 42% 17% 17Xn 45118 40% 43%< f 31 d `\\ OPENING FOR ,< - O RETURN AIR DUCT 22 / ` A.. OPENING FOR 1 SUPPLY AIR DUCT 011 14 4 1%, *16. - 4%S., 10. 11111100, FRONT irliossio. WOOD NAILER INSULATED PANELS RECOMMENDED DUCT SIZE SUPPLY AIR DUCT 17Y"x 21Xr" RETURN AIR DUCT 17Y"x 16Y" ROOF CURB APPLICATION NI'x 1"WIDE GASKETING FOR CURB FRAME 1" - — UNIT BASE RAIL AND ALL DUCT SUPPORT SURFACES ill, 41111 UNIT BASE ill, COUNTERFLASHING WOOD NAILER CANT STRIP 8"MIN.ABOVE FINISHED ROOF 14" _________________ Am/ NSULATION AND ROOFING MATERIAL CURB FRAME IIII■1♦�` INSULATION JIIIIIMMIIIINIIIII I " 1 ROOF DECK AND ROOFING MATERIAL Unitary Products Group 19 • 038-21232-002-8-1004 TYPICAL WIRING DIAGRAM (208/230-1-60 POWER SUPPLY) 1 R I B 1 C I 0 I E I a I G I « I -1 1 [ 1 L 1 ELEMENTARY ❑IAGRAM Tom. r -1 SEE am — — 1 ROC/1 E1 M1.2 DETAl. 1111_ In L2 T2 'A• R1-1 uL 2 •j, 121/� •1 DETAIL'A' \�1 _ • 3 .1I10 MOO OR301-WOO Mt�y-ayi�/ O 125i/9t Y - r — -I �\ 1Rh 3 V 1 ION•1 SOW" • �, ■ N WA 4 PIM7 0 ••1 me;°µ B I�"'. • • m .- I ti :.., ,.J OPTIONAL A-Cli SSUNES.�5 MrE 71 11 OPTIONAL CCH • LEANS . a ....9, •RP•m •va. •LR•cfficm•B>, 13 • Mill . S/P CONFIGURATION I 0c30 : la tait Al FT• - R BBiK 1>4 Wta 71(T'. '.VBLK z— Cl1,,SA L • °m°° Is BLK f 11M I 18 • • pi « S 17 D/P CONFIGURATION R ma Y •4C3 SEE ngEe 18 (1�C.�CvH�rO 8LK MUMWNW% I pm. 20000. 01° 1 BLK rB�RY_�� =ow 20 0r1 WRi 2001R 200A N YA - 21 11..11�JJ } al _ R9 • 'I' a a ! 8 3 MORO BO"SEn1R61 23 a1 WOOL Y SI a a 1MtplT1121 B ER°OB CWLPSI2142102, J SEC IR0032&AVER COOL.BFP 0E40 30 SEC 1< - + - •aIIRR . 2R� 0. IFLEM WISER,CAT PR BELAY. 30 SC - 207" CAS 1EO d ,BONER 4ERS Ow OS.Y:ESEE WON 1• ze Rrl lLwr I1 17 S1 1S W SEC 92 SEC 120 SEC {W SEC RECTORY • • • • • • • &.Ca SOLLIE CIOIWrES sRITOR ROOM TYPICAL WIRING DIAGRAM (208/230-3-60 POWER SUPPLY) E. « J t C ELEMENTARY DIAGRAM _ RLA 1eOM Olt* S . . _ MI-E 2 _ MOM) 'E 7 r !IDI - X1-1 llbr r1EBEISIAI Q 8' 3' • I Co1ova,-, •::. %set • • tom} a _ °I r e ______I"' � MAO I O�, M� IVr1WL NCESSO111O—SEE wR 71 P.O.* E � cm U 1� aOPnTel m3N! 95 awe( V 1 lIIIE l ii I A1 _ It A. E L. _ 89 • mbE ISLEm1£l• 2 Y 1 G 0 =" rE Be �� A - F.BS 19L a Rm 11 1- 6.. M : PIA IOW 15 TaRCw1uE LOOMS 0 aB 10,mR ti WrT SCR OEYIC!CBIR[Q.•IElACLO(tEB,i {)--1 j 3... 1Q C1�1� h CL6iF 1/ 1 j RS an 12 -- _ A•Y COB" 1, oi11122 w03 LS LO a uR B 0 0 1x31 _ 1R ICI$ 1 EEO, 20 Nn H3 010.0,,2 LS 150 8 IN 9 SFE fQIE B pNR ®' • ImM 19 RP 3R I1S -•__ ' - I !/r elIA WO OM/ '1+ m a S31 .11. °W[ 3/ME 1 E9u_E,E2 LdSI lIm laB 130 -! My( a j �9 VA II 31-TA---- p 8.. t317 9 _' 9' OMo KS Im to -_ -. MT— .6 WO 22 <TtE RS ZT1 12 hi II BE-RER I'S 13 ° 1K 9_ -E 1 i 3 ! eW1 MOW pLRs 55rrry9(: N .0BE R5 1 _II -. E1 IO/& q p 1 aI ell COBST105 CI PoS1PIlIAS, 3 SO - 00.0• LS Ili B 1R5 9 �I 1� 116S,SURER Cm 04 Sao, 3 25 I3S Z!0. IR __ %B•,E a-•211AR Ir 8L MOP A01fS Cm Cr/SLAY 30 0 SEC 5, IR=W 4/7INER«FI101O7.Y. 30 SC E wa wm 1S�60 iI -�-�-1 -9- /' m11�51�) a1WR 1PtR A:tFF eFtw 1T•H'iv.1. 1--^-1 m SEC 99 SEC Ids ffiC Im SAL _ £ICIRY $[i1B( 1111 • -• • -• • • - 0.ECt SRAARS 1Wtt11ES SEM.ROOM 20 Unitary Products Group O38-21232-002-B-1004 TYPICAL WIRING DIAGRAM (460-3-60 POWER SUPPLY) 1 I I 1 I t 1 B 1 I 1 0 1 9 I x I a I [ It I ELEMENTARY DIAGRAM Lanni lam 5032466: _ 10631 I 1 rneun¢•00 nLly s OC IlL9lI[ eml a matKGFR w cal, 256 116 x uarnsi., 1.®P KK¢Or.6 KYM: 6MS MIA Kern w.t IN 0837 SB IK 1936 1 0 ImSR LAH IEat IFF a0 [fBiiyl• I,I a MaSiWLr x14'� I mxp2 YIIH 16 SL 03 It tS 8 1p 36 INI� - 4�` c..N 300 B iE.1714 0 tan 2 a'�, •r/-v Je^,- Q A, - 606601616@S rind PBs1na 111K ar Q Kx Q1 FYf Y 9 4 100 � gf S 01100. one ��0 P0 t+mM1l-m. • :/ ?o• y1R1A _ -''YA}0- lO1 nil `•- �4 I -ll'!L—a®[0n..IfLFS1011BS-S&161E 11 .F 1Q L ie I➢ W n A* 2 71 Y II la L—.. FM (ice ¢�p��f 11 HP x4]� 610.TM nom 11 Sit L I___ �p L: t ti Kam 1s 0602l16 L 291t - xo 1H IN[t SfK RYI[E 01 *- fuzee20 •v xv- L41Ntl 4 3t 359 13 --- " 1 r1.770 HiefS [1Hp�'p1 K3 II oi1x� Ll NH H It; Y9 x nANt S.1 aW ll®1 IWldl •. J xbli 66.1 a=N tWTe t�6"1',,FO IIIKf I�• By,Kx LS 16 0 f p 0 ry KS 1% R ___ ___ 0 i _8 _ -- 2)212 xM I 062 n ma y1A , �L5I® ,1 1-D 9 I14 OY% 1STrt.1r ItI4(l�7 ImAw a•1. .X�f.a. Axl 0m2K m 0, --- __ d Lf Ile C Ib 9 t- fiLY az RS 5 IQ -. yX 2107 --•i310 r1•- I184F aOl ,, Li (Ti • 16 e 1 ]QI� pp ®0-M2 J /--��- by a. `li, 100 x --. /Y Ih/i n n n 1 l-rt1B-.�•-'• 71 u. p Ur•p LS 1)5 6 IK 9 '� 1 A 3 5 e L/ 90.y _ 25 /{0 tib It --. L P1 2fOr¢ SE 1S 7 1j 1Sx T Pu 2070 3• LeaI 27 ) i 45 1p_ ? 195 9 'epMl QJ3�S 2t111e ,� KV CAS aMS@ L•I vL346 a AIA 2164 xS 24002 14 ✓ r TYPICAL WIRING DIAGRAM (575-3-60 POWER SUPPLY) I I I r L 1 ELEMENTARY DIAGRAM 636 669 senors 1060 ❑INUi,t ELKF RDI 166 5 SEC II642 ll/n I _____-_.-I IOW 9LIN59 CM IN[AA'. SSEL npp 11N9 ��p¢1, 11OliR 66 tiit.DI I!Y 30 ECC ISG J 9 TE•6il.v e 1IP.3i K01(1 KIT 6 m.,: 30 SEC it Y IONV 116mR®.P6I7[r;��PEAT ffi ZY.[v tfpp Bgp[f. el-I • �• 1 -_. 0 ® IQK0 9ML[ x;;l�� 1 af:CORa 09 See G0 5Et ia0 SFC lea Set VS-3aq gr H WI 1 • K•IX YL.F9 moon Sri to.p¢ii1W 11e@ QU m FSN 1 �_.tr'Ivg1✓ iRYX IV✓HL iIQ �tp9 7Bl JL1 )pwrw elp1- «IIPI.L KCLS0tIE5-SEE tort]I f 6 10 121 Ms sr 1B F5 LP 1Rk 11 y L__t., 11I 1 L—'— ,� �s00n NEI I�®- 1LELK 666 12jL .-'�—I •• 0011 ®VK.S$,WE>I.N•a' Ir. ;Its 1S I -5"' 23P1-0 f ix ttr0@.5045 t1W6a15 0 dik IS LOi1PRFE1191n I¢L 6 L[[e[I W I SIZE�vt¢OM/ nese 4n 16 x HaE Iri 29B 12 __ __ • i9- 1 R.rJWF (9f,N KS m9QS LS NH B 110 9 110/0IC 5�•00 /) c 'nD 1) ]5 45 I' — -- • 3:.. ¢i.IL a,,.Ixl6 1 1I� „01 , �t tONxR IS o36H2 LS 1001 E 109 9 - .A. 1p1/0 • Tclj/004Lp1t AS IKI It --- --4 C• O. II e5 210 12 -- -- _ AI,_Ls ma a 13,M1 am. } Eat 3/—y J m KF Ie0 12 - .-- 1,Ixa i�W y , xx xx w 53 [. 110q IOeM19 ler • x1 1 LS tap H 130 9 9-' 'I1� ��i��`�)sl u 1060 YS I 10 -.. -. ..ems_ tr_^------ 11 036 F°Q^�— u .THE e5 61 10 /-'{�''�-�� ma __v I•-- —� 11 23 03694 13s 1� I] I45 9. /'1 h NI — CB _ 0A tv b x•nix L12S aln 05 I• 1H 0 • 1 i-3 3 0 ,$lL9 31 •W0 SOS4 W • K Iitim 1it x Se 5�1 93 as c43i.• &ll y7 1H 1x45 1002 12 `t---- -#- 309M19 91 eau 1_ 019 260 La 11 1009' C vKrt 64. O x 2164 N''W 2051R J � 1 m Unitary Products Group 21 036-21232-002-8-1004 TYPICAL WIRING DIAGRAM NOTES (See pages 20 and 21) 1. ALL FIELD WIRING TO BE ACCOMPLISHED FOLLOWING CITY, LOCAL ANO/OR NATIONAL CODES IN EFFECT AT TIME OF INSTALLATION OF THIS UNIT. 2. CAUTION: LABEL ALL WIRES PRIOR TO DISCONNECTION WHEN SERVICING CONTROLS. WIRING ERRORS CAN CAUSE IMPROPER AND DANGEROUS OPERATION. IF ANY OF THE WIRE AS SUPPLIED WITH THIS UNIT MUST BE REMOVED. IT MUST BE REPLACED WITH TYPE 105" C, 600V WIRE OR EQUIVALENT CLEARLY RENUMBERED FOR IDENTIFICATION. VERIFY PROPER OPERATION AFTER SERVICING. 3. MOTORS ARE INHERENTLY PROTECTED. 4. SEE UNIT NAMEPLATE FOR MAXIMUM FUSE SIZE AND MINIMUM CIRCUIT AMPACITY. 5. UNIT FACTORY WIRED FOR LOW OR MEDIUM SPEED INOODR BLOWER OPERATION. TO CHANGE MOTOR SPEED, CONNECT SPEED TAP WIRES FROM INDOOR BLOWER MOTOR PER DETAIL B. TAPE UNUSED SPEED TAP WIRES TO PREVENT SHORTING AND SECURE NEAR M2 CONTACTOR. 6. SELECT INDOOR BLOWER SPEED TO REMAIN WITHIN THE TEMPERATURE RISE RANGE ON THE NAMEPLATE IN HEATING AND TO OBTAIN APPROX 4G0 CFM/ION IN COOLING. 7. IF BOTH LR AND ASCT ARE PRESENT, WIRE B01/BL AND 805/BL ARE CONNECTED TO ASCT-3. IF LR ONLY IS PRESENT, WIRE B0I/BL AND 805/BL ARE CONNECTED TO MI COIL. IF ASCT ONLY IS PRESENT WIRE 202/Y IS CONNECTED TO ASCT-3. IF NEITHER LR OR ASCT ARE PRESENT, WIRE 202/Y IS CONNECTED TO MI COIL. E. SHUNT CONTACT ALSO USED WITH CRANKCASE HEATER. COPTIONAL) CAUTI❑N — OPEN ALL DISC❑NNECTS BEFORE SERVICING THIS UNIT TYPICAL WIRING DIAGRAM LEGEND (See pages 20 and 21) LCH CRANKCASE HEA)ER(OPTIONAL) Mi CONTACTOR, COMPRESSOR W. OUTDOOR FAN N2 CONTACTOR, INDOOR BLOWER MOTOR(230V COIL) T2 TRANSFORMER. 240 VOLT, SECONDARY II TRANSFORMER. 24 VOLT, SECONDARY RCl/RC2 COMPRESSOR START 6 DUIODUR FAN RW CAPACITOR RCI COMPRESSOR START CAPACITOR (ALTERNATE) RC2 OUTDOOR FAN RUN CAPACITOR(ALTERNATE) RC3 INDOOR FAN RUN CAPACITOR C8 CIRCUIT BREAKER, 3.0 AMP COMER COMPRESSOR HSP HOT SURFACE TO PILOT LS LIMIT SWITCH ALS AUXILARY LIMIT SWITCH PS PRESSURE SWITCH - MAKES a 1E3 IWC NOM ( .33 [WC MAX) RS ROLLOUT SWITCH HUM HUMIDIFIER RELAY OUTPUT ON CONTROL BOARD. 208/230-1-60, 18VA MAX EAC ELECTRONIC AIR CLEANER RELAY OUTPUT ON CONTROL BOARD. 208/230-1-60. 18VA MAX NP HIGH PRESSURE SWITCH (OPTIONAL ACCESSORY>- OPEN A 380 PSIG FS FREE2ESTAT SWITCH (OPTIONAL ACCESSORY) OPEN• 26'F LP LOW PRESSURE SWITCH (OPTIONAL. ACCESSORY; OPEN e 7 PSIS LR LOCK OUT RELAY IDEATIONAL ACCESSORY) ASCT ANTI-SHORT CYCLE TIMER (OPTIONAL ACCESSORY) 0 IDENTIFIED TERMINAL ON RUN CAPACITOR A ROOM THERMOSTAT 24V CONNECTIONS ❑ TEl ON CONTROL BOARD FACTORY WIRING AND DEVICES OPTIONAL WIRING ANO DEVICES FIELD WIRING CN1/PI SOCKET/PLUG CONNECTION. 24V. 6 PIN ON CONTROL BOARD S2/P2 SOCKET/PLUG CONNECTION. 24Y, 4 PIN ON GAS VALVE S3/P3 SOCKET/PLUG CONNECTION. 24Y. 4 PIN ON GAS VALVE S4/P4 SOCKET/ELUG CONNECTION. 230V. 2 PIN IN CONTROL BOX WIRING DIAGRAM DETAIL "A" WIRING DIAGRAM DETAIL "B" (208/230-1-60 POWER SUPPLY) See page 20 (460 &575-3-60 POWER SUPPLY)See page 21 l I l/R 1 FTLR 11Y/BR LE!d SEED KED SPEED HI SPEED (W;-,l l 1°�•�` b 8LK(HI)— DLK(HI) (C1 ELK(HI) IMI-TI) mom 0 .103/BR 6 I!' , fIQ'il Q' 1W(-T:) (3 {DLKiAII o �K/)fHT •.a DppL�K��//YtUITT 8 (OS/R,(WITH 4ir...,E Eill(MEDIE all IDCD all(HED c PACITxs mAY> a Ilp il) i Z �ELWYHi a MID IrDMfT a m FAN 0 0 ❑ o( MCFBIR., RED(LDY)H RED(Wd RED(LEW H DETAIL 'A' DIE -CEO,NIT WIRIMi 22 Undery Products Group 038-21232-002-B-1004 MECHANICAL SPECIFICATIONS GENERAL DESCRIPTION INDOOR(EVAPORATOR)FAN ASSEMBLY Units shall be factory assembled, single packaged, Electric 1. Fan shall be direct drive,multi-speed design.Job site se- Cooling/Gas Heating units,designed for outdoor mounted in- lotted(BHP)brake horse power shall not exceed the mo- stallation.Units shall have minimum SEER ratings of 10.0 and minimum AFUE ratings of 80%.They shall have built in,equal tors nameplate horse power rating. size, field convertible duct connections for down discharge supply/return or horizontal discharge supply/retum. 2. Fan wheel shall be double inlet type with forward-curved blades, dynamically balanced to operate smoothly The units shall be factory wired,piped,charged with R-22 re- throughout the entire range of operation. Airflow design frigerant and factory tested prior to shipment.All unit wiring shall be constant air volume. shall be both numbered and color coded. All units shall be manufactured in a facility certified to ISO 3. Bearings shall be sealed and permanently lubricated for 9001 standards,and the cooling performance shall be rated in longer life and no maintenance. accordance with DOE and ARI test procedures.The heating performance shall be rated to DOE and GAMA test proce- 4. Fan assembly shall be"Slip Track"(slide-out)design for dures. Units shall be CSA listed and classified to ANSI easy removal and cleaning. Z21.47/CAN/CSA 2.3 standards and UL 1995/CANICSA No. OUTDOOR 236-M90 conditions. (CONDENSER)FAN ASSEMBLY UNIT CABINET 1. The outdoor fan shall be of the direct-driven propeller type, discharge air vertically, have aluminum blades riv- 1. Unit cabinet shall be constructed of G90 galvanized steel, eted to corrosion resistant steel spider bracket and shalt with exterior surfaces coated with a non-chalking, Pow- be statically balanced for smooth operation. ered paint finish,certified at 1000 hour salt spray test per ASTM-B117 standards. 2. The outdoor fan motor shall be totally enclosed with per- manently lubricated bearings and internally protected 2. The unit top shall be a single piece"Water Shed"design, against overload conditions. with drip edges and no-seam corners to provide optimum " water integrity. REFRIGERANT COMPONENTS 3. Unit shall have a rigidly mounted condenser coil guard to 1. Compressors: provide protection from objects and personnel after instal- lation. A.Shall be fully hermetic type,direct drive,internally pro- tected with internal high-pressure relief and over tern- 4. Indoor blower section shall be Insulated with up to 3/4" perature protection. The hermetic motor shall be thick,aluminum,foil faced insulation,fastened to prevent suction gas cooled and have a voltage range of+or- insulation from entering the air stream. 10%of the unit nameplate voltage. 5. Cabinet panels shall be"large"size,easily removable for B.Shall have internal isolation and sound muffling to servicing and maintenance,with built-in lift handles. minimize vibration and noise, and be externally iso- lated on a dedicated,independent mounting. 6. Unit shall be built on a formed, "Super-Structure"design base pan, with embossments at critical points to add 2. Coils: strength, rigidity and aid in minimizing sound. A.Evaporator and condenser coils shall have aluminum 7. Full perimeter base rails shall be provided to assure reli- plate fins mechanically bonded to seamless internally- able transit of equipment,overhead rigging,fork truck ac- enhanced copper tubes with all joints brazed. cess and proper sealing on roof curb applications. Base rails shall be removable, when required, to lower unit B. Evaporator coil shall be of the direct expansion,blow- height. through design, while condenser coil shall be draw- 8. Fitters shall be furnished and be accessible through a re- through design. movable access door,sealed air tight. 3. Refrigerant Circuit and Refrigerant Safety Components 9. Units vertical discharge and return duct configuration shall include: shall be designed to fit between standard 24"O.C.beams without modification to building structure,duct work and A.Independent fixed orifice expansion devices. base unit. B.Filter/strainer to eliminate any foreign matter. 10.Condensate pan shall be internally sloped and conform to ASHARE 62-89 self-draining standards, with 3/4" NPTI " copper, ridged mount connection. Unitary Products Group 23 UNIT OPERATING CHARACTERISTICS Unit shall be capable of starting and running at 125°F outdoor temperature, exceeding maximum load criteria of ARI Stan- dard 210/240.The compressor,with standard controls,shall be capable of operation down to 45°F outdoor temperature. Ac- cessory low ambient kit shall be available for operation to 0°F. ELECTRICAL REQUIREMENTS All unit power wiring shall enter unit cabinet at a single factory provided location and be capable of side or bottom entry, to minimize roof penetrations and avoid unit field modifications. Separate side and bottom openings shall be provided for the control wiring. Adr Hl ERR0.FTIimC1F NC0aY 180 900 1 k Centred ley S• anen. e 4r$ I * . it JYORK4 Heating and Air Conditioning Unitary Products Group 5005 Interstate{hive North.Norman.Oklahoma 73069 sun;eri in channe vaihout notice. Printed in U.5 A 036-21232-002-B-1004 *New Equipment* RECEIVED Equipment Tag: RTU-6 & RTU-7 .JUN . 9 2021 48VL-C, 48VL-E CITY OF 'r IUARD BUILDING DIVISION ComfortTM14 SEER Single-Packaged Air Conditioner and Gas Furnace System with Puron® Carrie (R-410A) Refrigerant Single Phase 2-5 Nominal Tons (Sizes 24-60) turn to the expert%G Three Phase 3-5 Nominal Tons (Sizes 36-60) Product Data commercial requirements. Units are lightweight and install easily on a /-- 7 rooftop or at ground level.The high tech composite base eliminates rust �� problems associated with ground level applications. Innovative Unit Base Design On the inside a high-tech composite material will not rust and incorporates a sloped drain pan which improves drainage and helps \ 1i inhibit mold,algae and bacterial growth.On the outside metal base rails 01 provide added stability as well as easier handling and rigging. Convertible duct configuration Unit is designed for use in either downflow or horizontal applications. j•,.j Each unit is converted from horizontal to downflow and includes two `. O° horizontal duct covers. Downflow operation is provided in the field to allow vertical ductwork connections. The basepan seals on the bottom \\ O / openings to ensure a positive seal in the vertical airflow mode. 1 O O Efficient operation High-efficiency design oilers SEER (Seasonal - A170030 Energy Efficiency Ratios) of 14.0, 11.5 EER, and AFUE(Annual Fuel Fig.1—Unit 48VL Utilization Efficiency)ratings up to 81.0%. (Low NOx Model Available) Energy-saving,direct spark ignition saves gas by operating only when Single-Packaged Products with Energy-Saving Features and Puron1II the room thermostat calls for heating.Standard units are furnished with refrigerant. natural gas controls. A low-cost field installed kit for propane • 14.0 SEER conversion is available for all units. • 11.5 EER Low NOx units are designed for California installations and meet 40 • 81.0%AFUE(Single phase models) ng/J NOx emissions.Can be installed in air quality management districts • ECM Motor-Standard with a 40 ng/J NOx emissions requirement. • Direct Spark Ignition Durable,dependable components • Low Sound Levels Monoport inshot burners produce precise air-to-gas mixture, which • Dehumidification Feature provides for clean and efficient combustion.The large monoport on the • Dense Wire Condenser Coil Guard-Standard inshot(or injection type)burners seldom,if ever, requires cleaning.All • Cabinet air leakage of 2.0% or less at .5 in. W.C. when tested in gas furnace components are accessible in one compartment. accordance with ASHRAE standard 193. (Low leak FIOP models Turbo-tubularm heat exchangers are constructed of aluminized steel only.) for corrosion resistance and optimum heat transfer for improved efficiency.The tubular design permits hot gases to make multiple passes Features/Benefits across the path of the supply air. One-piece heating and cooling units with low sound levels, easy In addition, dimples located on the heat exchanger walls force the hot installation,low maintenance,and dependable performance. gases to stay in close contact with the walls,improving heat transfer. Puron is Carrier's unique refrigerant designed to be environmentally ECM Motor is standard on all models. balanced.Puron is an HFC refrigerant which does not contain chlorine Direct-drive PSC (Permanent Split Capacitor) condenser-fan that can harm the ozone layer. The most important advantage of Puron motors are designed to help reduce energy consumption and provide for refrigerant is that it has not been banned in future air conditioning cooing operation down to 40°F (4.4°C) outdoor temperature. systems as the traditional refrigerant R-22 has been.Puron refrigerant is Motormasterr II low ambient kit is available as a field-installed in service in millions of systems proving highly reliable and is accessory. non-ozone depleting. Thermostat controls Easy Installation Time Guard®II anti-short cycle protection circuitry.If a non-corporate Factory-assembled package is a compact, fully self-contained, thermostat without anti-short cycle protection is used the Time Guard II combination gas heating/electric cooling unit that is prewired,pre-piped, field-installed anti-short cycle kit is recommended. and pm-charged for minimum installation expense. These units are Refrigerant system is designed to provide dependability. Liquid filter available in a variety of standard and optional heating/ cooling size driers are used to promote clean,unrestricted operation.Each unit leaves combinations with voltage options to meet residential and light 48VL-C,48VL-E:Product Data the factory with a full refrigerant charge.Refrigerant service connections curb seal when the unit is roof mounted.A convenient 3/4-in. (19.05 make checking operating pressures easier. mm)wide perimeter flange makes frame mounting on a rooftop easy. High Pressure Switch provides added reliability for the compressor. Standard horizontal metal duct covers with insulation come with the Indoor and Outdoor coils are computer-designed for optimum heat unit\and cover the horizontal duct openings.These can be left in place if transfer and efficiency. The indoor coil is fabricated from copper tube the units are converted to downtlow. and aluminum fins and is located inside the unit for protection against Integrated Gas Control (IGC) board provides safe and efficient damage. The outdoor coil is internally mounted on the top tier of the control of heating and simplifies trouble-shooting through its built-in unit• diagnostic function. Low sound ratings ensure a quiet indoor and outdoor environment with Cabinets are constructed of heavyduty, phosphated, zinc-coated sound ratings as low as 72dBA. prepainted steel capable of withstanding 500 hours in salt spray.Interior Easy to service cabinets provide easy 3-panel accessibility to surfaces of the evaporator/heat exchanger compartment are insulated serviceable components during maintenance and installation. The with cleanable semi-rigid insulation board,which keeps the conditioned basepan with integrated drain pan provides easy ground level installation air from being affected by the outdoor ambient temperature and provides with mounting pad.A nesting feature ensures a positive basepan to roof improved indoor air quality.(Conforms to American Society of Heating, Refrigeration and Air Conditioning Engineers 62.2.) The sloped drain pan minimizes standing water in the drain.An external drain is provided. Table of Contents Features/Benefits 1 Electrical Data 39 Model Number Nomenclature 2 Connection Wiring Schematic 208/230-1-60 40 AHRI Capacities 3 Connection Wiring Schematic 208/230-3-60 42 Physical Data 4 Connection Wiring Schematic 460-3-60 44 Options and Accessories 6 Controls 46 Unit Dimensions 8 Guide Specifications 47 Performance Data 12 Application Data 38 Model Number Nomenclature 48VL - C 24 040 3 0 Options Type of Unit GP-Base unit with tin plated indoor 48VL- Single Packaged coil hairpins and stanless steel HX Alr Conditioner and Gas LX-Low cabinet air leakage,tin plated Furnace System indoor coil hairpins,and stainless stell HX. Low NOx Indicator TP-Base unit with tin plated indoor Standard coil hairpins(Single Phase Only) N-Low NOx See Price Page for full list of factory options. (Only used if ordering an option.) Major Series Minor Series Electrical Supply 3.208/230-1-60 5-208/230-3-60 Nominal Cooling Capacity 6-460-3-60 024-2.0 Tons Heat Input Size(Btuh) 030-2.5 Tons 040-40,000 036-3.0 Tons 060-60,000 042-3.5 Tons 090-90,000 048-4.0 Tons 115-115,000 060-5.0 Tons 130-127,000 or 130,000 CERTIFIED GAS-FIRED �,aar�aa�ero�.d US C ASHRAE C Cli)TM Ma,k lnaicelese ■�/�V` menWemurera U petlicipelion In the program Forvormc>bren of certlfieatbn for Inarvlaue� COMPLIANT aMldredaryerg. LISTED LISTED For California Residents: For installation in SCAQMD only:This furnace does not meet the SCAQMD Rule 1111 14ng/J NOx emission limit,and thus is subject to a mitigation fee of up to$450.This furnace is not eligible for the Clean Air Furnace Rebate Program:www.CleanAirFurnaceRebate.com. - Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 2 48VL-C,48VL-E:Product Data AHRI` Capacities Cooling Capacities and Efficiencies UNIT SIZE NOMINAL STANDARD COOLING EEO SEER** TONS CFM CAPACITYt 24 2 800 23000 11.5 14.0 30 2.5 1000 28600 11.5 14.0 36 3 1150 34800 11.5 14.0 42 3.5 1350 40000 11.5 14.0 48 4 1550 48000 11.5 14.0 60 5 1750 56000 11.5 14.0 •. Air Conditioning,Heating&Refrigeration Institute. t. Rated in accordance with U.S.Government DOE Department of Energy)test procedures and/or AHRI Standards 210/240. At"A"conditions-80_F(26.7°C)indoor dbl67°F(19.4°C)indoor wb&95°F(35°C)outdoor db. ••. Rated in accordance with AHRI Standard 270. Notes: 1. Ratings are net values,reflecting the effects of circulating fan heat. Ratings are based on: Cooling Standard:80°F(26.7°C)db,67°F wb(19.4°C)indoor entering-air temperature and 95°F db(35°C)outdoor entering-air temperature. 2. Before purchasing this appliance,read important energy cost and efficiency information available from your retailer. LEGEND dB-Sound Levels(decibels) db-Dry Bulb SEER-Seasonal Energy Efficiency Ratio wb-Wet Bulb COP-Coefficient of Performance Gas Heating Capacities and Efficiencies, Single Phase Models UNIT SIZE HEATING INPUT(Btuh) OUTPUT CAPACITY(Btuh) TEMPERATURE RISE AFUE(%) RANGE°F(°C) 24040 25-55 30040 40,000 33,000 (14-31) 81.0 24060 30�� 60,000 49,000 (� �) 81.0 3642060 36090 73,000 42090 90,000 74,000 35-65 81.0 48090 74,000 (19-36) 60090 74,000 48115 60115 115,000 94,000 (�� 3) 81.0 60130 127,000 104,000 (48130 19 36) 81.0 LEGEND AFUE-Armual Fuel Utilization Efficiency NOTE:Before purchasing this appliance,read important energy cost and efficiency information available from your retailer. Gas Heating Capacities and Efficiencies, Three Phase Models UNIT SIZE HEATING INPUT(Btuh) OUTPUT CAPACITY(Btuh) TEMPERATURE RISE AFUE(%) RANGE°F(IC) 36060 60,000 48,000 25-55 80.0 42060 47,000 (14-31) 78.5 36090 72,000 79.3 42090 73,000 35-65 80.4 46090 90,000 73,000 (19-36) 80.4 60090 73,000 80.4 5 115,000 93,000 4811 (� 3) 80.3 601160130 130,000 103,000 (48130 19�36) 78.9 LEGEND AFUE-Antral Fuel Utilization Efficiency NOTE:Before purchasing this appliance,read important energy cost and efficiency information available from your retailer. Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 3 . 48VL-C,48VL-E:Product Data A-Weighted Sound Power Level (dBA) UNIT SOUND TYPICAL OCTAVE BAND SPECTRUM(dBA without tone adjustment) SIZE RATING 125 250 500 1000 2000 4000 8000 24 73 54.3 61.3 55.2 54.8 57.1 53.6 43.1 - 30 72 61.1 57.3 60.2 61.0 57.5 53.7 47.1 36 74 58.7 62.8 65.7 67.8 63.7 58.9 51.7 42 74 54.4 59.0 61.2 62.1 58.9 53.5 46.7 48 73 57.1 57.8 60.5 62.7 58.2 56.4 50.7 60 76 64.4 59.7 59.6 60.6 59.8 55.5 47.8 NOTE:Tested in accordance with AHRI Standard 270-1995(not listed in AHRI). Physical Data UNIT SIZE 24040 24060 30040 30060 36080 36090 42060 42090 NOMINAL CAPACITY(ton) 2 2 2-1/2 2-1/2 3 3 3-1/2 3-1/2 SHIPPING WEIGHT lb. 329 329 361 361 390 390 455 455 SHIPPING WEIGHT(kg) 149 149 164 164 177 177 206 206 COMPRESSOR/QUANTITY Rotary/1 Scroll/1 REFRIGERANT(R-410A) Quantity lb. 5.3 5.3 6.4 6.4 8.2 8.2 6.2 6.2 Quantity(kg) 2.4 2.4 2.9 2.9 3.7 3.7 2.8 2.8 REFRIGERANT METERING DEVICE Orifice TXV Orifice ORIFICE ID in./mm .059/1.5 .059/1.5 .063/1.60 .063/1.60 N/A .073/1.85 .073/1.85 OUTDOOR COIL Rows...Fins/in. 1..21 1...21 1...21 1...21 1...21 1...21 1...21 1...21 Face Area(sq ft) 11.9 11.9 13.6 13.6 18.8 18.8 13.6 13.6 OUTDOOR FAN Nominal CFM 2500 2500 2700 2700 3200 3200 3600 3600 Diameter in. 24 24 24 24 24 24 26 26 Diameter(mm) 609.6 609.6 609.6 609.6 609.6 609.6 660.4 660.4 Motor Hp(Rpm) 1/10(810) 1/10(810) 1/10(810) 1/10(810) 1/5(810) 1/5(810) 1/5(810 1/5(810) INDOOR COIL Rows...Fins/in. 3...17 3...17 3...17 3...17 3...17 3...17 3...17 3...17 Face Area(sq ft) 3.7 3.7 3.7 3.7 3.7 3.7 4.7 4.7 INDOOR BLOWER Nominal Cooling Airflow(Cfm) 800 800 1000 1000 1150 1150 1350 1350 Size in. 10x10 10x10 10x10 10x10 11x10 11x10 11x10 11x10 Size(mm.) 254x254 254x254 254x254 254x254 279.4x254 279.4x254 279.4x254 279.4x254 Motor HP(RPM) 1/2(1050) 1/2(1050) 1/2(1050) 1/2(1050) 3/4(1000) 3/4(1000) 1/2(1050) 1/2(1050) FURNACE SECTION* Burner Orifice No.(Qty...Drill Size) 1 Phase Natural Gas(Factory Installed) 2...44 3...44 2...44 3...44 3...44 3...38 3...44 3...38 1 Phase Propane Gas 2...55 3...55 2...55 3...55 3...55 3...53 3...55 3...53 3 Phase Natural Gas(Factory Installed) 2...44 2...38 2...38 3...38 2...38 3...38 3 Phase Propane Gas 2...55 2...53 2...53 3...53 2...53 3...53 HIGH-PRESSURE SWITCH 650+/-15 (psig)Cut-out Reset(Auto) 420+/-25 LOSS-OF-CHARGE/LOW-PRESSURE SWITCH(Liquid Line)(psig)cut-out Reset 20+/-5 N/A (auto) 45+/-10 1 each 24x14x1 - RETURN-AIR FILTERStx 610x356x25 Throwaway Size in. 2 each 20x12x1 24x15x1 (mm) 508x305x25 610x406x25 -'. Based on altitude of 0 to 2000 ft(0-610 m). t. Required filter sizes shown are based on the larger of the AHRI(Air Conditioning Heating and Refrigeration Institute)rated cooling airflow or the heating airflow velocity of 300 to 350 R'minute for throwaway type.Air filter pressure drop for non-standard filters must not exceed 0.05 IN.WC t. If using accessory filter rack refer to the filter rack installation instructions for correct fdter sizes and quantity. Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 4 48VL-C,48VL-E!Product Data Physical Data UNIT SIZE 48090 48115 48130 60090 60115 60130 NOMINAL CAPACITY(ton) 4 4 4 5 5 5 SHIPPING WEIGHT lb 480 480 480 497 497 497 SHIPPING WEIGHT kg 218 218 218 225 225 225 COMPRESSOR/QUANTITY Scroll/1 REFRIGERANT(R-410A) Quantity lb 9.2 9.2 9.2 9.8 9.8 9.8 Quantity(kg.) 4.2 4.2 4.2 4.4 4.4 4.4 REFRIGERANT METERING DEVICE Orifice ORIFICE ID in./mm .080/2.03 .084/2.14 OUTDOOR COIL Rows...Fins/in. 1...21 1...21 1...21 1...21 1...21 1...21 Face Area(sq ft) 21.4 21.4 21.4 23.3 23.3 23.3 OUTDOOR FAN Nominal CFM 3600 3600 3600 4200 4200 4200 Diameter in. 26 26 26 26 26 26 Diameter(mm) 660.4 660.4 660.4 660.4 660.4 660.4 Motor Hp(Rpm) 1/5(810) 1/5(810) 1/5(810) 1/5(810) 1/5(810) 1/5(810) INDOOR COIL Rows...Fins/in. 3...17 3...17 3...17 3...17 3...17 3...17 Face Area(sq ft) 4.7 4.7 4.7 5.6 5.6 5.6 INDOOR BLOWER - Nominal Cooling Airflow(CFM) 1550 1550 1550 1750 1750 1750 Size in. 11x10 11x10 11x10 11x10 11x10 11x10 • Size(mm) 279.4x254 279.4x254 279.4x254 279.4x254 279.4x254 279.4x254 Motor HP(RPM) 1.0(1075) 1.0(1075) 1.0(1075) 1.0(1040) 1.0(1040) 1.0(1040) FURNACE SECTION Burner Orifice No.(Qty...Drill Size) 1 &3 Phase Natural Gas(Factory Installed) 3...38 3...33 3...31 3...38 3...33 3...31 1 &3 Phase Propane Gas 3...53 3...51 3...49 3...53 3...51 3...49 HIGH-PRESSURE SWITCH 650+/-15 (psig)Cut-out Reset(Auto) 420+1-25 LOSS-OF CHARGE/LOW-PRESSURE SWITCH(Liquid Line)(psig)cut-out Reset N/A (auto) 1 each 24x14x1 1 each 24x16x1 RETURN-AIR FILTERS 610x356x25 610x406x25 Throwaway)#in. 24x15x1 24x18x1 mm 610x406x25 610x457x25 *Based on altitude of0 to 200011(0-610 in). 1, Required filter sizes shown are based on the larger of the AHRI(Mr Conditioning Heating and Refrigeration Institute)rated cooling airflow or the heating airflow velocity of 300 to 350 ft/minute for throwaway type.Air filter pressure drop for non-standard filters must not exceed 0.08 IN.W.C. j. If using accessory filter rack refer to the filter rack installation instructions for correct filter sizes and quantity. Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 5 48VL-C,48VL-E:Product Data Options and Accessories FACTORY ! FIELD ITEM DESCRIPTION INSTALLED INSTALLED OPTION ACCESSORY Coil Options Base unit with tin plated indoor coil hairpins X Compressor Start Kit Compressor Start Kit assists compressor start-up by providing X additional starting torque on sing phase units only. Corporate Thermostats Thermostats provide control for the system heating and cooling X. functions. Crankcase Heater Crankcase Heater provides anti-floodback protection for X low-load cooling applications. Horizontal Economizer with solid state controls and barometric relief dampers includes filler racks and provide outdoor air X during cooling and reduce compressor operation. Economizer Vertical Economizer with solid state controls and barometric relief dampers includes filter racks and provide outdoor air X during cooling and reduce compressor operation. Filter Rack features easy installation,serviceability,and Filter Rack high-filtering performance for vertical or horizontal applications. X Includes 1-in.filter. Flat Roof Curb 14-in.(356 mm)Flat Roof Curb is available for roof mounted X applications. Flue Discharge Deflector Directs flue gas exhaust 90 degrees upward from current X discharge. Heat Exchanger Stainless Steel Heat Exchanger X High Altitude Propane Conversion Kit is for use at 2001 to 6000 High Altitude Propane Conversion Kit ft.(611-1829 m)above sea level.Kit consists of propane gas X orifices that compensate for gas heat operation at high altitude. Low Ambient Kit(Motormaster II Control)allows the use of Low Ambient Kit mechanical cooling down to outdoor temperatures as low as X 0°F(-18°C)when properly installed. Manual Outside Air Damper Manual Outside Air Damper includes hood and filter rack with X adjustable damper blade for up to 25%outdoor air. Natural to Propane Gas Conversion Kit Natural to Propane Gas Conversion Kit allows for conversion X from natural gas to propane gas(0-2000 ft)(0-610 m) Propane to Natural Gas Conversion Kit Propane to Natural Gas Conversion Kit allows for conversion X from propane to natural gas for altitudes of 0-2000 ft(0-610 m) Square-to-Round Duct Transition Kit Square-to-Round Duct Transition Kit enable 24-48 size units to X be fitted to 14 in.(356 mm)round ductwork. Automatically prevents the compressor from restarting for at Time Guard II least 4 minutes and 45 seconds after shutdown of the X compressor.Not required when a corporate programmable thermostat is applied or with a RTU-MP control. Louver Metal Outdoor Coil Grilles Louver Metal Outdoor Coil Grilles provide hail and vandalism X protection. Low Cabinet Air Leakage Cabinet air leakage of 2.0%or less at.5 in.W.C.when tested in X accordance with ASHRAE standard 193. Low Pressure Switch Kit This kit is designed for use when a low pressure control is X desired. '. "Refer to Price Page for application detail. Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 6 , • 48VL-C,48VL-E:Product Data ECONOMIZER HVAC Unit Compressor Cover Replacement Panel Shipped with Economizer COIL f � ..�,` NOTE:On units with base -1gi, rails this compressor ` =�', cover iHVAC un with the 6111111111111111111111111:1:111711"" HVAC und.i , FILTER IIIIIIIIIIReplacement Return 1111111111111 Chamth Economizer Shipped with Economizer ECONOMIZER I ot...... ...„„1--......"'Cji grill / Hood— Il CAULK BOTTOM CORNER _ OF ECONOMIZER SIDE VIEW ON EACH SIDE FILTER Vertical Economizer COIL A ECONOMIZER Filter Door ( �t Replacement ` � Panel I �I �'l Economizer � FLANGE ON BASE DETAIL ' IIII IIII Panel /�� Gmmmetfor I. Ih Wiring izer Wiring FILTER RACK < �%v ,n,, ,' BEND FLANGE AT 90-SCREW TO N. DIVIDER WITH I-IN.(25mm)SCREW �'�'� Horizontal Economizer TOP FILTER RACK 51 EVAPORATOR ��5f COIL ; .r�,,�f ,�;r� MANUAL OUTSIDE AIR DAMPER �40000 .-,=.,.-4r.--,.....„,..1.-4,-o: r- rrr !ram" r Jj rr �� REPLACEMENT rrr%r//r 0P �� "r�� rf�� PANEL t _. _._ 111 ,� rr �� r r^ MANUAL OUTSIDE �J fir"rrr�0 r� AIR HOOD r ��r rrrr rr rrr r i"��rrrri'-r0.am' �rr��r�irr�irr�� DAMPER P IOIllfluLø ' BLADE� rim ; i' KM FILTER i o o �� lit A09375 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 7 C 3 1 w h r a) o 3 a m n UNIT CHARACTERISTICS UNIT U. UNIT XEIGNT NM CENTER Of6RAY111 IX/W 0 O. l0 KG 'A' 3 1 2 c to O 4/ILI-INIE241010156011310 D081230-I-GO 304 Imo 43.314 IIII 22.13/16 5T1,1 153116 388./ 15 11016 398.5 0 3- 4/1/L[JN 0301040/06/11510 2001230-1-60 320 145.0 05-3/4 1162 22.13/16 519.4 15.5/16 388./ 15.13/16 /01.6 .= 0 y -.0 9.16/166..--21-9116 9-15/16 489L[-00E361080/09011310 2001230-1-60 349 158.0 51-3/4 1315 22-13I11 579.4 15-5/16 3G8.9 16.5/8 422.1 y CU A 1152.11 ISIT.tI [25L.11 IBYLI-INIC36106010901151610 20E1210-3-60,160-3-60 349 158.0 51-314 1615 22-13/16 519.4 15-5/16 388.6 16-5/8 422.3En C 3-1/16 r iL I 6 N 1-331 181.31 OU i112OW IS.f 120.111• C.8 Atl.b 1lI T2 B11N11M.. N.J WI 169.91 RETURN Ai- SUPPLt111 W 208036 0,0 21,1 64.0 19,0 15.0 43.6 02.0 W,8 _ 36 2684230/110 52.1 23.1 66.8 61.1 104.7 41.5 122.2 55.4 At OPTIONAL' � DPTIWA I: RF1WX ., SUPPLY 'i p��p (� oP n1XG '` 40 O EI�,1"A l� l/l l: _ 3-3116 MEM as TO ICE w� INCHES NMI WIDOW COILw�\\\�$ �I� �I61.�1 SIDE OP06)1 UNIT I2 1IS5.E] 0 Y' t. r 6 SIDE OPPOSITE l0UCi5 Ill E112.11 N L • �-�._ - LJ 1152.11 FLUE PANEL 3f Iff 1.1] O _ ` 16 MEMO OiaMI� 86 \\\ , 1 BETWEEN URIT6, POWER EXIAY SIDE 42 11066581M1 co lirUNIT AND 44660YNDED SURFACES.P01E0 ENTRY SIDE 36 1114.01 UNIT AND 81.001 0R CONCRETE MALLS AND OTHER 'c I0DOOR COIL MOOR COIL GROUNDED SURFACES.POWER ENTRY SIDE 42 11066.01 3 MP VIEIV WEED CIEMLYIE M OPERATIVE MO SIEWIC 10 INCHES 111111 MAP,COIL ACCESS SIDE 36 1914.01 w POWER EN1R1 510E 42 01066.61 '0 INCEPT FOR NEC REOMIIRENENTSI N UNIT TOP 48 11219.21 O SIDE OPPOSITE DUCTS 36 1111.01 co ri NCI PAIGL ti 1301.61. El w OINIYW DISTANCES:IF UNIT IS PLACED LESS THAN 12 1304.81 TRW WALL R 31-1I11 2518 11 SYSTEM:INN SIE IEY PERFORMANCE YAYBf CWPRWISED. 1198,51 166.11� f1193.81 --r 1-112 DIMENSIONS 09 11 ARC IX MN W I1114.��31[[ 1 IIIIII�IIII�1IIIIIIIII�IIIIIITIII �11 1- a..-- ° Y•J2 ' ACCESS it PANEL l18' R.6 A K. I t 1 A • O 1111111111111111111111111111111 ( III III m - IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII ., J [ i I A li 1DI E A 1 .I I111 F POWER ENTRY -. _ 111111111111111111111111111111111. 'I 11 e / a LI1. li 11 I v1 1 118 1/8.122.21 DIA. HOLE 1 . 'A• 11123.81 CONTROL ENTRY ' •. I . . / • m. RETURN I .0i I C _ [I it OPEM[M • • OPENING • n N 3-5/8 .2. • 1130.1 15-5/0 2 O Zr'' 112,11 14.6/16 L39f,93 __ 103I16 •62 F u3.61 Ill ■(I 1-316 • t CL '�(--1 �C''. •1 r •1 I• 1 t e� • _ I ,t [166.11 1o.o col 3 I I I r-� 1 0 0 0' Err 12-13,16 COMPRESSOR LOSER 1-13111- I L.._ 3I16 O [125.1] PANEL 'X' PANEL [112,21 I t1.61 111'112.11 N.P.1 3.1116-.. .- MB 0 2-1016-3/16 5L11 Il 1 6A5 ENTRY IB1.)1 O - 11.718 ...-21.518-n 9-218 +-- lIEEI.O3 1.13/16 Q DRAIN OUTLET [350.81 1649.31 1250.01 SETi/ne`liiilz K.P.T. LEFT SIDE VEW 110.61 d FRONT VIEW RIGHT SUE VEW REAR VIEW 0 0 . 344806-4 - IL 0 , . 1 N C < _ 3 4) P+ n o a A ELECTRICAL 1017 p. IOW IEIan IMIW CENTER OF MA5Ii1 18I111 = V 13.15/14 ,.� --, 13.15/14 -.- I)51.11 1351.OI YMIT CHARACTERISTICS LB Ni 'A• I T Z N n ay MYLI-IXlE/Z10M11M113)0 266I236-1.10 113 II7.1 1471E 1137 2243/16 Sif./ 18 I51.2 17-1n 135.0 p 1-7415 -.+ 13-1114 /841-1NEE/810111115113011310 108/230-1.10 111 111.1 52-)I1 1750 22-13/11 5ia./ 18 /57.2 114/1 //1.3 [4}.31 1311.51 /6NL1-/X1E6010101115I1301(3)0 20131230-1-/0 155 41.1 51-071 1311 22-13/14 571.4 18 151.E 17.571 444.7 a, P. 2.13/,0 IELMN ill- ISOLI-/MIC/21M010101151510 2081130.3-/0.//0-3-10 113 101.1 14-311 1137 22-13/11 57/.4 10 457.2 11.1/1 435.0 0.) v c 111.41 El Q 4511-IM)C1811f0111511301151i)0 2081230-3-10,140-3-/0 /M 111 O 12-311 1310 22-13/16 571.4 18 457.2 17-31e 441.3 N 18YLD/M1C601010111511301151610 2540230-3-60./11.464 455 211.1 51.3/1 1391 22.13/16 521.4 18 457.2 11.511 447.7 N A. 0973010.4 , Y A OPIIONAI 0 RETMy SUPPLY ,, I01E11E1610t LIIM AM ILA Iy11 101IA6[ - 15 i511a ' gE11Y5 :�""� ` OPENING '1' 't' 45 1401.81 1 11 2Z0�11Ij�00lib 62.0 31 $2Q 6{ 31.E 1231 3: 111.f 15.E ��/ �� 1 44 jMI�1lIM i5.3 716 11.1 39.1 131.1 3.f 15)J 61.1 15 • ///%� \, C. 44 IMII31/IM M.3 11.1 1L1 CI 131.5 III 10.3 12.2 l' ' I1N111;:;,0'Nsj{",l\lI llD\ .1 : a. dd1�IPi 111/l1i, II! Im=aewomt�.1Dm Ira[SIWI 'S' \\\\\\\\:��\ ' //�i,, TOatll oila MIT 11 I154.61 0 Mr00011 COIL • \\\ `?j%;//- 141.01 Sin PMOnE 1%n 111355.41 n _ c'`'- ,/ FLUEIMFAC(LRMIi III 1111.i1 a- .Y'::. < ., 1 •i• ., I 1 ,1 ` ! A6 N3BNm G17111� IKI[5 LWI ea N a T eE1Rn YX11s,r0*5 plat 53M u 11Na.el ,' ,}� = __a.....-. =_Csu C113 01 00)0 AM0 0M05M10E0 SMIACES P01E5 E1T1t 610E 31 1111.11 33 DIM AV BLOCK M COK1pE/kL5 NO 01101 ® F \ 61011061 SWAM,101E1 EMiSt 5101 IE IIIN.11 ier \\\`-W I�N�01BNIQ FOR On1®RO MOM INDOOR COIL 1000R COIL EOM.COIL 000711 SIR( 3611111111 3 TOP VIEW ascan i111FCIREMIM11M15) 0 1104.41 ip MIL TOP 411219.21 610( PMl1 1 iF BIKES 12 314.11 31,61. n0 49I5IK01 DISTANCES:IF MR Is 4305 Lp3 7104112 131.41 ill ESNI au 5151E0.TEEN 4I61(11 Cj I2.15116 47 41/2 noralslcL IA7110 LUIRMISEO. M 111M.61 2 111f3.81 ( 1111,31 Y1KN51a15 II II ME a a150,81 w ACCESS IC • 01 0 E11 I1 a I sfnill Iii IL I IN ellihilI 1..1111 111Il I'. 03 1-IIO•In.13 DIA.I. 1 II i t IBII Ii i 15II 1 P i 11 IJ11 Its I11 KIP I 1 PoRE111nT fO A 1111.101111111 IIA. II'.111/1IBII 1111111 II ysfBIM11 VI1tl I I1tI1 11BII 11 II II l V 01 Yg111111 Iv.1 I� .. I.'�18l IBII II I'.I1 f - 1-Ir. �111 . II I- Iill IJ I54III II II 11..I _ Tie'E22.11 Ole. IMAi - ./ . - O A• �I12i01 COyi1101.C1r15 ., 1IlrNifl - }If • 01IEE 1 14ll0\I_11-1I1UU1 12 - I112.71 ` IIy 11 31.0 6-5/0 •��- 'I V �• =� 1 1 1 ,0_•• 0 114.31 G� .ram. •Q. 0A,1 Sa MAIM MTLE7 CONIES LOILrR [1111,31_� KIP[12.TJ LP.t 3 --•3IP 111.1JM.2.T I2-15/10. �!-III1eL •1• PANEL 2.1/I6r OAS F112. 1/,al• 3-318 +�- +tl•Sn+ 0 S//t'Itt.tl DEEP Un.il lei.31 13M.11 U.1E0 G. 1/3.41 M.3416 152./1 w tli22./1�3�y 11221.01 1-13E11-� REFIT SIX VIEW -- 13-r18 -., 13-71e C LEFT SIDE •G51 YT 14./J IWfIT Va/. 13sz.n REAR ` ou.`I '__ O VEW feM •EM N 344802-4 - a • 48VL-C,48VL-E:Product Data ' \` % 6 ta.r.ab1 sw.crass wr Isn HVAC unx �' HVAC unx / '� �. ba�maera•�+sro.,,,.n. Hasa rm`ls basepan G C �� Anchor screw /� \\ �\wing Some Drool*R . 5 e P 1C et + - // \- unxarse Rail\ R"curn �_ `,..I.,/,E //� Hold Dorot8rsckel�.—®" r Ai F i/ Provided Met Curb Wood nailer' Flashing field `� supplied �jReonurb' / �\ Insulation - / Roofing material id euppled) field supplied E Gant strip D _ field supplied ✓J// `IV� L�� *Provided with IVY SMALL/COMMON CURB r -, SUPPLY SMALL BASE �B AIR UNIT /`may LARGE RETURN BASE F < ' AIR UNIT E D UNIT PLACEMENT ON COMMON CURB LARGE CURB SMALL OR LARGE BASE UNIT A180216 Accessory Dimensions UNIT CATALOG A B(small(common B(large base, C D E F G H SIZE NUMBER IN. base) IN.(mm)' IN. IN. IN. IN. IN.(mm) IN.(mm) (mm) IN.(mm)* (mm) (mm) (mm) (mm) Small e r CPRFCURB011800 14(356) 10(254) 32.4 30.6(778) Lar14(356) 16(406) (1214)47.8 ( ) 2.7(69) 46.1 (1170) Large CPRFCURB0131300 14(356) 14(356) (1116) 42.2(1072) •Part Number CPRCURB01 I1300 can be used on both small and large basepan units.The cross supports must be located based on whether the trait is a small basepan or a large basepan. NOTES: I. Roof curb must be set up for unit being installed. 2. Seal strip must be applied,as required,to unit being installed. 3. Roof curb is made of 16-gauge steel. 4. Attach ductwork to curb(flanges of duct rest on curb). 5. Insulated panels:1-in,(25.4 mm)thick fiberglass I lb.density Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 10 48VL-C,48VL-E:Product Data Selection Procedure (With Example) DETERMINE COOLING AND HEATING REQUIREMENTS AT SELECT HEATING CAPACITY OF UNIT TO PROVIDE DESIGN CONDITIONS: DESIGN CONDITION REQUIREMENT. Given: In the Heating Capacities and Efficiencies table, note that the single Required Cooling Capacity(TC) 34,000 Btuh phase unit 036090 will provide 73,000 Btuh with an input of 90,000 Sensible Heat Capacity(SHC) 25,000 Btuh Btuh. Required Heating Capacity 60,000 Btuh DETERMINE FAN SPEED AND POWER REQUIREMENTS AT DESIGN CONDITIONS. Condenser Entering Air Temperature 95°F(35°C) Before entering the air delivery tables,calculate the total static pressure Indoor-Air Temperature 80°F(26°C)edb 67°F(19°C)ewb required. From the given example, the Wet Coil Pressure Drop Table, Evaporator Air Quantity 1200 CFM and the Filter Pressure Drop Table: External Static Pressure 0.100 IN.W.C. External Static Pressure 0.100 IN.W.0 Electrical Characteristics 208-1-60 Filter 0.07 IN.W.0 SELECT UNIT BASED ON REQUIRED COOLING CAPACITY Wet Coil Pressure Drop 0.180 IN.W.0 Enter Net Cooling Capacities table at condenser entering temperature of Total Static Pressure 0.287 IN.W.0 95°F(35°C).Unit 036 at 1200 CFM and 67°F(19°C)ewb(entering wet Enter the table for Dry Coil Air Delivery—Horizontal and Downflow bulb)will provide a total capacity of 34,200 Btuh and a SHC of 27,400 Discharge. At.287 IN. W.C. ESP, the closest speed to 1200 CFM is Btuh.Calculate SHC correction,if required,using Note 4 under Cooling Med-Low(pink wire),which delivers 1213 CFM at.3 in ESP. Capacities tables. SELECT UNIT THAT CORRESPONDS TO POWER SOURCE AVAILABLE. The Electrical Data Table shows that the unit is designed to operate at 208-1-60. Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 1t Performance Data ;, 24 A 4J EVAPORATOR CONDENSER ENTERING AIR TEMPEREATURES°F(°C) g m AIR 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 125(51.7) v 00 3 Capacity MBtuh Capacity MBtuh Capacity tyMBtuh TotalCa Capacity tyMBtuh Capacity MBtuh TotalCapacity MBtuh 5. a.Total Total TotalTotal02 CFM EWB ,F(°C) Sys Sens# Sys Sens# Sys Sens# Sys Sens* SYs Sens# t3 Total Sens$ Kw** Total Kw** Total Kw"' Total KW°* Total KW** Total 2 57 23.62 23.62 1.55 21.90 21.90 1.75 20.07 20.07 1.95 17.88 17.88 2.14 15.87 15.87 2.38 14.01 14.01 2.64 2 (13.8) N 62 m (16.6) 24.47 21.38 1.56 22.45 20.24 1.75 20.32 19.02 1.96 17.92 17.92 2.14 15.90 15.90 2.38 14.03 14.03 2.64 4'a' S 700 (6�2) 24.99 17.43 1.56 22.88 16.39 1.76 20.71 15.32 1.96 18.05 14.06 2.15 15.56 12.87 2.36 13.28 11.77 2.61 n S. 67 m (19.4) 27.02 18.13 1.55 24.79 17.09 1.76 22.51 16.03 1.98 19.92 14.86 2.20 17.28 13.67 2.42 14.91 12.59 2.67 F..'.' 72 (22.2) 29.59 14.70 1.55 27.20 13.77 1.76 24.84 12.86 1.99 22.48 11.95 2.24 19.68 10.89 2.51 17.14 9.92 2.77 3 JO 57 n (13.8) 24.74 24.74 1.57 22.92 22.92 1.77 21.02 21.02 1.99 18.78 18.78 2.19 16.65 16.65 2.42 14.70 14.70 2.69 C n 6202 25.14 23.06 1.57 23.07 21.80 1.78 21.05 21.05 1.99 18.81 18.81 2.19 16.68 16.68 2.42 14.72 14.72 2.69 c (16.6) 0 0 800 (17 2) 25.59 18.60 1.57 23.43 17.53 1.77 21.18 16.43 1.99 18.51 15.14 2.18 15.93 13.90 2.39 13.61 12.73 2.64 0. m " 67 N (19.4) 27.63 19.36 1.56 25.32 18.28 1.77 23.00 17.20 2.00 20.41 16.03 2.24 17.67 14.78 2.45 15.25 13.64 2.71 . c (22 2) 30.16 15.42 1.56 27.69 14.48 1.77 25.27 13.55 2.01 22.88 12.64 2.26 20.12 11.62 2.53 17.47 10.60 2.80 c 0 6 (13 8) 25.69 25.69 1.58 23.77 23.77 1.79 21.80 21.80 2.01 19.55 19.55 2.23 17.32 17.32 2.46 15.29 15.29 2.73 c 0. 62 4 (16.6) 25.74 25.74 1.58 23.81 23.81 1.79 21.84 21.84 2.01 19.58 19.58 2.23 17.35 17.35 2.46 15.31 15.31 2.73 0 0 900 (s�2) 26.07 19.72 1.58 23.84 18.62 1.79 21.55 17.49 2.01 18.84 16.17 2.20 16.24 14.87 2.42 13.92 13.92 2.67 tr 67 ' r (19.4) 28.08 20.52 1.58 25.72 19.42 1.79 23.37 18.31 2.02 20.82 17.17 2.26 17.98 15.84 2.48 15.54 14.63 2.74 72 30.58 16.10 1.58 28.07 15.15 1.79 25.58 14.21 2.02 23.17 13.29 2.28 20.45 12.30 2.56 17.73 11.25 2.83 (22.2) ° • • i . u 1 1 • ' I A Performance Data 30 Size " A EVAPORATOR CONDENSER ENTERING AIR TEMPEREATURES*F(°C) g m AIR 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 3 Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total 2 o CFM EWB Sys Sens* Sys Sens# Sys Sens$ Sys Sens* Sys o o *FCC) Total Sens# Kw** Total Kw** Total Kyr** Total Kyy** Total Kw** a' c Z 57 (13.9) 27.39 27.39 1.98 26.29 26.29 2.20 25.01 25.01 2.44 23.52 23.52 2.69 21.57 21.57 2.94 • Z 62 28.22 26.10 1.99 26.84 25.48 2.20 25.28 24.73 2.45 23.38 23.38 2.68 21.59 21.59 2.94 is (16.7) 0 c 875 7 2) 28.70 21.18 1.99 27.33 20.58 2.20 25.77 19.89 2.45 23.74 19.00 2.69 21.18 17.90 2.93 ° a• as (19 4) 30.96 21.97 2.00 29.59 21.44 2.22 28.06 20.82 2.46 26.21 20.08 2.74 23.74 19.09 3.02 m T 71 a 33.22 18.60 2.02 31.86 18.10 2.24 30.33 17.53 2.48 28.62 16.90 2.76 26.55 16.13 3.08 ,c (21.7) 57 28.61 28.61 2.01 27.47 27,47 2.22 26.20 26.20 2.47 24.68 24.68 2.75 22.66 22.66 3.00 o (13.9) 8 (1s 7) 28.93 28.00 2.01 27.59 27.35 2.23 26.34 26.18 2.47 24.72 24.72 2.75 22.70 22.70 3.00 3.PI 1000 (6�2) 29.30 22.46 2.01 27.91 21.89 2.23 26.32 21.22 2.47 24.35 20.38 2.73 21.72 19.26 2.97 a. m 67 m 31.55 23.29 2.03 30.16 22.79 2.24 28.60 22.20 2.49 26.76 21.49 2.77 24.30 20.55 3.06 42 a (19.4) m 71 33.80 19.48 2.05 32.41 19.01 2.26 30.84 18.46 2.51 29.10 17.84 2.79 27.04 17.11 3.11 a (21.7) 9 57 29.58 29.58 2.03 28.44 28.44 2.25 27.15 27.15 2.50 25.62 25.62 2.78 23.61 23.61 3.06 f (13.9) ■ 62 29.56 29.56 2.03 28.82 27.88 2.25 27.19 27.19 2.50 25.66 25.66 2.78 23.65 23.65 3.06 * (16.7) g 1125 (67* 2) 29.76 23.65 2.04 28.33 23.11 2.25 26.76 22.46 2.50 24.80 21.66 2.77 22.16 20.54 3.01 o• of 67 (19.4) 31.99 24.51 2.05 30.58 24.06 2.27 29.00 23.49 2.51 27.19 22.82 2.79 24.77 21.94 3.11 a 71 34.23 20.29 2.07 32.81 19.85 2.29 31.24 19.31 2.54 29.45 18.71 2.82 27.39 18.01 3.13 (21.7) Performance Data m 36 Size p a EVAPORATOR CONDENSER ENTERING AIR TEMPEREATURES°F(°C) g en AIR 75(23.9) 85(29A) 95(35) 105(40.6) 115(46.1) 125(51.7) v E Capacity MBtuh Capacitya 3 p itY Total MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total v CFM FwC) Sys Sens$ Sys Sens$ Sys Sens$ Sys Sens$ Sys Sens$ Sys m c Total Sens$ Kw** Total KW** Total KW"* Total Kw** Total KW** Total KW** m a D 57 34.58 34.58 2.40 32.46 32.46 2.66 30.31 30.31 2.94 28.08 28.08 3.27 25.78 25.78 3.65 23.44 23.44 4.08 m (13.8) z N 62 36.10 31.44 2.41 33.65 29.92 2.67 31.16 28.38 2.95 28.62 26.75 3.27 26.05 25.03 3.65 23.48 23.48 4.08 (16.6) m. 1000 (6�2) 36.53 25.60 2.42 34.01 24.25 2.67 31.48 22.90 2.95 28.86 21.49 3.28 26.20 20.05 3.65 23.49 18.58 4.08 0 C, 67 39.44 26.70 2.43 36.74 25.34 2.69 34.00 23.95 2.97 31.20 22.53 3.30 28.34 21.07 3.67 25.45 19.58 4.09 co (19.4) K (22 2) 43.05 21.95 2.46 40.11 20.71 2.72 37.12 19.45 3.00 34.07 18.16 3.32 30.95 16.85 3.69 27.81 15.51 4.11 0 57 36.19 36.19 2.46 33.98 33.98 2.71 31.67 31.67 3.00 29.30 29.30 3.32 26.84 26.84 3.70 24.34 24.34 4.12 n (13.8) VA n A d (16.6) 37.15 33.84 2.46 34.60 32.19 2.72 32.03 30.46 3.00 29.42 29.41 3.32 26.90 26.90 3.70 24.38 24.38 4.12 0 0 d 63* 1150 (67 2) 37.52 27.28 2.47 34.89 25.86 2.72 32.23 24.43 3.01 29.50 22.95 3.33 26.72 21.43 3.70 23.92 19.88 4.12 n a <15 m 67 O (19.4) 40.47 28.51 2.48 37.67 27.07 2.74 34.80 25.60 3.03 31.88 24.11 3.35 28.91 22.56 3.72 25.90 20.99 4.14 0 N F 0 (22 2) 44.12 23.06 2.51 41.04 21.76 2.77 37.93 20.44 3.06 34.77 19.10 3.38 31.54 17.73 3.74 28.28 16.32 4.16 L 0 57 37.56 37.56 2.51 35.24 35.24 2.77 32.79 32.79 3.05 30.30 30.30 3.38 27.71 27.71 3.75 25.08 25.08 4.17 m (13.8) b a 62 38.06 35.99 2.51 35.47 34.14 2.77 32.84 32.84 3.05 30.34 30.34 3.38 27.75 27.75 3.75 25.12 25.12 4.17 F, (16.6) 0- c 63* 1300 2) 38.23 28.87 2.51 35.57 27.41 2.77 32.80 25.90 3.05 29.99 24.35 3.38 27.14 22.76 3.75 24.25 21.11 4.17 3- t 67 K 0 (19.4) 41.26 30.24 2.53 38.33 28.73 2.79 35.38 2720 3.08 32.36 25.62 3.40 29.31 24.01 3.76 26.22 22.34 4.18 ti 72 44.94 24.09 2.56 41.77 22.75 2.82 38.55 21.38 3.11 35.28 19.98 3.43 31.96 18.56 3.79 28.62 17.10 4.21 (22.2) . . I i 0 e . , * a . • I 1 ` A - Performance Data co 42 7 EVAPORATOR CONDENSER ENTERING AIR TEMPEREATURES°F CC) m v AIR 75(23.9) 85(29A) 95(35) 105(40.6) 115(46.1) 125(51.7) n 3 m9. c rn Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Totalr. E CFM *FCC) Sans# $ Sens# Sys Sens# Sys Sens$ �$ Sens# Sys Sens* �s A Total KW" Total KW" Total KW** Total KW" Total KW** Total KW" (13 8) 38.66 38.66 2.51 36.66 36.66 2.87 34.60 34.60 3.30 32.45 32.45 3.80 30.07 30.07 4.39 27.19 27.19 5.02 c (16.6) 40.29 35.16 2.54 37.87 33.90 2.90 35.39 32.59 3.32 32.82 31.18 3.82 30.12 30.12 4.39 27.24 27.24 5.03 a 7. 1175 (6.,2) 41.08 28.70 2.54 38.62 27.55 2.92 36.06 26.34 3.34 33.40 25.10 3.84 30.40 23.73 4.40 26.65 22.06 4.98 0 m (19 4) 44.34 29.79 2.59 41.80 28.66 2.97 39.16 27.52 3.42 36.41 26.33 3.95 33.45 25.06 4.57 29.97 23.59 5.21 CD 72 m (22 2) 48.52 24.17 2.66 45.92 23.18 3.05 43.20 22.16 3.52 40.37 21.10 4.06 37.44 20.00 4.70 34.27 18.84 5.44 c 57 40.50 40.50 2.58 38.39 38.39 2.95 36.24 36.24 3.40 34.01 34.01 3.92 31.54 31.54 4.51 28.67 28.67 5.17 A (13.8) -a (18 6) 41.38 37.85 2.59 38.93 36.52 2.96 36.44 36.11 3.41 34.06 34.06 3.92 31.59 31.59 4.52 28.72 28.72 5.17 U 1 63* °t 1350 (17 2) 42.06 30.61 2.60 39.52 29.42 2.97 36.90 28.24 3.41 34.16 26.96 3.92 31.10 25.56 4.49 27.35 23.86 5.08 0 3 (19 4) 45.33 31.78 2.64 42.72 30.67 3.03 40.00 29.50 3.48 37.18 28.29 4.01 34.18 27.02 4.64 30.76 25.56 5.32 a a (2222) 49.45 25.33 2.72 46.79 24.36 3.12 44.00 23.33 3.58 41.11 22.27 4.13 38.09 21.17 4.78 34.91 20.01 5.52 0 a 57 F (13.8) 41.99 41.99 2.63 39.82 39.82 3.02 37.59 37.59 3.47 35.28 35.28 4.01 32.78 32.78 4.63 29.92 29.92 5.31 S ,r. 62 42.32 40.26 2.64 39.90 39.90 3.02 37.64 37,64 3.47 35.33 35.33 4.01 32.82 32.82 4.64 29.97 29.97 5.31 o (16.6) n iD 1525 63* 42.81 32.42 2.65 40.22 31.23 3.02 37.53 30.01 3.47 34.76 28.74 3.99 31.66 27.29 4.56 27.97 25.57 5.17 w (17.2) a .67 f. 46.08 33.66 2.70 43.40 32.57 3.08 40.64 31.35 3.54 37.75 30.14 4.07 34.73 28.86 4.70 31.38 27.42 5.42 0- (19.4) 0 S 72 o (22 2) 50.14 26.41 2.78 47.44 25.44 3.18 44.60 24.44 3.64 41.64 23.37 4.20 38.57 22.27 4.85 35.35 21.11 5.59 Co to 0 Ct w Performance Data • r 48 Size a m EVAPORATOR CONDENSER ENTERING AIR TEMPEREATURES°F(°C) m AIR 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 125(51.7) i g, EWB Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total m P. Sys CFM ys Sys a 'F(°C) Total Sens$ KW Total Sens$ SKW"° Total Sens# KW'• Total Sens# KW" Total Sans#ys SYs Sys SKw. Total Sens# K1 Ti 2 (13 8) 45.45 45.45 3.10 42.83 42.83 3.46 40.16 40.16 3.89 37.26 37.26 4.36 33.52 33.52 4.82 29.80 29.80 5.37 62 47.27 42.17 3.13 44.15 40.29 3.49 41.03 38.39 3.91 37.61 36.29 4.36 33.57 33.57 4.83 29.84 29.84 5.37 .0 (16.6) s 1400 63t 48.20 34.32 3.13 45.02 32.66 3.50 41.76 30.98 3.92 38.24 29.20 4.38 33.54 26.93 4.82 28.81 24.65 5.33 (17.2) a 67 52.06 35.63 3.15 48.74 34.02 3.52 45.33 32.35 3.95 41.77 30.64 4.44 37.35 28.63 4.96 32.39 26.38 5.46 d (19.4) m 72 56.98 28.79 3.18 53.50 27.36 3.56 49.89 25.89 3.99 46.16 24.36 4.48 42.23 22.80 5.04 37.37 21.00 5.64 °� (22.2) 57 47.02 47.02 3.17 44.27 44.27 3.54 41.50 41.50 3.96 38.53 38.53 4.44 34.79 34.79 4.92 30.91 30.91 5.46 (13.8) PD 62 48.16 44.46 3.17 45.01 42.51 3.55 41.85 40.45 3.97 38.60 38.60 4.44 34.83 34.83 4.92 30.95 30.95 5.46 a (16.6) 1550 63* 0 49.02 35.96 3.18 45.75 34.27 3.55 42.41 32.55 3.98 38.87 30.75 4.45 34.15 28.45 4.89 29.32 26.09 5.40 0 m o (17.2) (19 4) 52.88 37.35 3.20 49.49 35.71 3.57 46.00 34.00 4.00 42.38 32.25 4.49 38.03 30.31 5.04 32.93 27.95 5.53 N 72 57.73 29.76 3.23 54.20 28.31 3.61 50.51 26.84 4.04 46.68 25.28 4.53 42.70 23.71 5.09 37.92 21.96 5.70 c (22.2) 57 49.14 49.14 3.25 46.25 46.25 3.63 43.34 43.34 4.06 40.29 40.29 4.55 36.55 36.55 5.07 32.46 32.46 5.60 a (13.8) 62 E, 49.49 47.88 3.25 46.34 46.34 3.63 43.39 43.39 4.06 40.34 40.34 4.55 36.60 36.60 5.07 32.49 32.49 5.61 r (16.6) 0 63* 1800 (67 2) 50.04 38.56 3.25 46.70 36.84 3.63 43.27 35.06 4.06 39.66 33.20 4.54 34.96 30.85 5.00 30.05 28.30 5.51 o' 67 53.94 40.13 3.28 50.43 38.42 3.65 46.85 36.63 4.08 43.16 34.80 4.57 38.95 32.92 5.12 33.66 30.41 5.65 (19.4) n 72 f 58.67 31.28 3.31 55.06 29.83 3.69 51.26 28.32 4.12 47.34 26.73 4.62 43.27 25.12 5.18 38.61 23.50 5.78 , (22.2) 0 0 c_ 0 Q a n mt a I _ • . I I MIL I • • Performance Data 60 Size 7 OD CONDENSER ENTERING AIR TEMPEREATURES°F(°C) c EVAPORATOR AIR 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 125(51.7) g. E 0- 5. EWB Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total o CFM FCC) Sens$ Sys Sens$ sys SYs. Sens* Sens# Sys Sens* Sys Sys ° Total KIN'" Total KW** Total KW" Total Kw. KW', Total Sens$ KW** Z (13 8) 57.04 57.04 3.68 53.71 53.71 4.20 50.37 50.37 4.81 46.94 46.94 5.51 42.94 42.94 6.27 38.22 38.22 7.08 m (16.6)62 58.59 49.98 3.70 54.72 48.26 4.22 50.83 46.41 4.82 47.02 47.02 5.51 43.00 43.00 6.28 38.29 38.29 7.08 m 1750 (1�2) 59.69 40.44 3.70 55.67 38.90 4.23 51.62 37.32 4.83 47.50 35.70 5.52 42.48 33.69 6.25 36.58 31.27 7.00 0 n 67 m 64.43 42.04 3.73 60.26 40.56 4.26 56.00 39.00 4.87 51.67 37.39 5.57 47.05 35.71 6.38 41.05 33.47 7.21 (19.4) sp 72 T 70.39 33.58 3.78 66.06 32.25 4.31 61.55 30.87 4.93 56.94 29.39 5.64 52.21 27.88 6.45 47.19 26.29 7.37 d (22.2) 57 59.44 59.44 3.78 55.93 55.93 4.31 52.41 52.41 4.92 48.83 48.83 5.62 44.92 44.92 6.44 39.97 39.97 7.26 (13.8) to 62 m (16.6) 60.04 53.50 3.78 56.07 56.07 4.31 52.48 52.48 4.92 48.90 48.90 5.62 44.98 44.98 6.44 40.04 40.04 7.26 I 2 J gi d 2000 63� 60.84 43.04 3.78 56.74 41.49 4.31 52.56 39.87 4.92 48.32 38.18 5.62 43.48 36.25 6.39 37.36 33.66 7.13 o (17.2) a (19 4) 65.61 44.79 3.81 61.36 43.29 4.34 56.95 41.68 4.96 52.51 40.02 5.66 47.83 38.30 6.47 41.86 36.09 7.35 a (22 2) 71.45 35.11 3.87 67.02 33.78 4.40 62.40 32.37 5.02 57.67 30.89 5.73 52.81 29.36 6.55 47.75 27.77 7.47 0 f. (138) 61.37 61.37 3.86 57.76 57.76 4.39 54.09 54.09 5.01 50.36 50.36 5.72 46.38 46.38 6.54 41.44 41.44 7.43 62 61.42 61.42 3.86 57.83 57.83 4.40 54.15 54.15 5.01 50.42 50.42 5.72 46.44 46.44 6.54 41.51 41.51 7.43 o (16.6) m 2250 (73 2) 61.75 45.60 3.86 57.57 43.99 4.39 53.29 42.29 5.00 48.99 40.55 5.71 44.27 38.64 6.52 38.08 35.80 7.26 f 67 66.46 47.42 3.89 62.10 45.93 4.43 57.67 44.25 5.04 53.13 42.53 5.75 48.44 40.74 6.56 42.58 38.56 7.48 0- (19.4) 0 72 O (22 2) 72.23 36.56 3.95 67.73 35.23 4.48 63.02 33.84 5.11 58.17 32.33 5.82 53.23 30.78 6.65 48.12 29.19 7.57 m' N O N I Performance Data "At 75°F(24°C)entering thy bulb-Tennessee Valley Authority(TVA)rating conditions;all others at 80°F dry bulb. $ Sensible capacities shown are based on 80°F(27°C)entering air at the indoor coil.For sensible capacities at other than n 80°F(27°C),deduct 835 Btuh(245 kW)per 1000 CFM(480 US)of indoor coil air for each degree below 80°F(27°C),or add ro 835 Btuh(245 kW)per 1000 CFM(480 L/S)of indoor coil air per degree above 80°F(27°C). **System KW is total of indoor and outdoor unit kilowatts. rn LEGEND 3 m BF—Bypass Factor c edb—Entering Dry--Bulb Ewb—Entering Wet--Bulb F. kW—Total Unit Power Input SHC—Sensible Heat Capacity(1000 Stub) mm, TC—Total Capacity(1000 Btuh)(net) rh—Relative Humidity `: COOLING NOTES: 1.Ratings are net;they account for the effects of the evaporator--fan motor power and heat. dfl 2.Direct interpolation is permissible.Do not extrapolate. o- 3.The following formulas may be used: 9db= edb- Sensible capacity(Btuh) n 1.10xCFM Wet-bulb temperature corresponding to enthalpy -vb= air leaving evaporator coil("Iwb) nIwb= ewb- total capacity(Btuh) (4.5 x CFM) G a Where:"ewb=Enthalpy of air entering evaporator coil 4.The SHC is based on 80°F(26.6°C)edb temperature of air enteringevaporator coil.Below 80°F(26.6°C) 2 edb,subtract(corr factor x cfm)from SHC. Above 80°F(26.6°C)edb,add(corr factor x cfm)to SHC. , Correction Factor=110 x(1+BF)x(edb---80). a 5.Integrated capacity is maximum(instantaneous)capacity less the effect of frost on the outdoor coil and the heat required to defrost it. 0 c 0 Ll F. 6 lCt O• • O • 1 • r I I t ' , A Gas Adjustment r Natural Gas Orifice Sizes and Manifold Pressure -Single Phase Models A ALTITUDE OF INSTALLATION(FT.ABOVE SEA LEVEL)U.S.A.' <- Nameplate Input 0 to 2000 2001 to 3000 3001 to 4000 4001 to 5000 5001 to 6000 Fri (BtWhr) (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) -0 'o d 40000 Orifice No.(Qty) 44(2) 45(2)t 48(2)t 48(2)t 48(2)t 2 cc Manifold Press.(in.W.C.) 3.2 3.2 3.8 3.5 3.2 c Orifice No.(Qty) 44(2) 45(2)t 48(2)t 48(2)1- 48(2)t A60000 Manifold Press.(in.W.C.) 3.2 3.2 3.8 3.5 3.2 A 90000 Orifice No.(Qty) 38(3) 41 (3)t 41 (3)t 42(3)t 42(3)t Manifold Press.(in.W.C.) 3.6 3.8 3.4 3.4 3.2 S 115000 Orifice No.(Qty) 33(3) 36(3)t 36(3)t 36(3)t 38(3)t O Manifold Press.(in.W.C.) 3.8 3.8 3.6 3.3 3.6 0- Orifice No.(Qty) 31 (3) 31 (3) 33(3)t 33(3)t 34(3)t 0 1127000 Manifold Press.(in.W.C.) 3.7 3.2 3.5 3.2 3.2 0 w *. In the U.S.A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level. o In Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be derated by 10%by an authorized gas conversion station or dealer. !! For Canadian Installations from 2000 to 4500 ft(610-1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). ai t- Orifices available through your distributor. ,< NOTE Orifice sizes and manifold pressure settings are based on natural gas with a heating value of 1025 Btu/113 and a specific gravity of 6_ Natural Gas Orifice Sizes and Manifold Pressure -Three Phase Models Input ALTITUDE OF INSTALLATION(FT.ABOVE SEA LEVEL)U.S.A.- ° e Nameplate eplate) 0 to 2000 2001 to 3000 3001 to 4000 4001 to 5000 5001 to 6000 c, (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) 0 Orifice No.(Qty) 44(2) 45(2)t 48(2)t 48(2)t 48(2)t M 40000 e. Manifold Press.(in.W.C.) 3.2 3.2 3.8 3.5 3.2 $ Orifice No.(Qty) 38(2) 41 (2)t 41 (2)1 42(2)t 42(2)t 0 60000 a Manifold Press.(in.W.C.) 3.6 3.8 3.4 3.4 3.2 at g 90000 Orifice No.(Qty) 38(3) 41 (3)t 41 (3)t 42(3)t 42(3)t Manifold Press.(in.W.C.) 3.6 3.8 3.4 3.4 3.2 o Orifice No.(Qty) 33(3) 36(3)t 36(3)t 36(3)t 38(3)t 115000 Manifold Press.(in.W.C.) 3.8 3.8 3.6 3.3 3.6 o a Orifice No.(Qty) 31(3) 31 (3) 33(3)t 33(3)t 34(3)t 130000 Manifold Press.(in.W.C.) 3.8 3.2 3.7 3.4 3.3 0- ,05, *. In the U.S.A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level. o In Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 in)above sea level must be derated by 10%by an authorized gas conversion station or dealer. ✓ For Canadian Installations from 2000 to 4500 ft(610.1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). m t. Orifices available through your distributor. o NOTE Orifice sizes and manifold pressure settings are based on natural gas with a heating value of 1025 Btu/ft3 and a specific gravity of.6. w Propane Gas Orifice Sizes and Manifold Pressure - Single Phase Models 03 Nameplate Input ALTITUDE OF INSTALLATION(Ft ABOVE SEA LEVEL)U.S.A. n (Btu/hr) 0 to 2000 2001 to 3000 3001 to 4000 4001 to 5000 5001 to 6000 co (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) IS 40000 Orifice No.(Qty) 55(2) 56(2) 56(2) 56(2) 56(2) v m Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 10.7 8 60000 Orifice No.(Qty) 55(3) 56(3) 56(3) 56(3) 54(3) o e, Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 11.7 91 90000 Orifice No.(Qty) 53(3) 54(3) 54(3) 54(3) 54(3) w Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 11.0 m 115000 Orifice No.(Qty) 51 (3) 52(3) 52(3) 53(3) 53(3) a Manifold Press.(in.W.C.) 10.0 11.0 10.6 11.0 11.0 a 127000 Orifice No.(Qty) 49(3) 50(3) 51 (3) 52(3) 52(3) to Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 11.0 0 • In the U.S.A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level. mIn Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be dented by 10%by an authorized gas conversion station or dealer. a For Canadian Installations from 2000 to 4500 ft(610-1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). m t. Use Kit No.CPLPCONV013'00(0-2000 ft[0-610 m]above sea level).Use Kit No.CPLPCONV014'00(2001-6000 ft[611-1829 m]above sea level). m Propane Gas Orifice Sizes and Manifold Pressure -Three Phase Models Nameplate Input ALTITUDE OF INSTALLATION(FT.ABOVE SEA LEVEL)U.S.A.T (Btu/hr)iIi 0 to 2000 2001 to 3000' 3001 to 4000 4001 to 5000 5001 to 6000 a (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) 1.3 o 2 40000 Orifice No.(Qty) 55(2) 56(2) 56(2) 56(2) 56(2) 0 Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 10.7 'a 60000 Orifice No.(Qty) 53(2) 54(2) 54(2) 54(2) 54(2) a Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 11.0 0. a 90000 Orifice No.(Qty) 53(3) 54(3) 54(3) 54(3) 54(3) a Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 11.0 115000 Orifice No.(Qty) 51(3) 52(3) 52(3) 53(3) 53(3) E Manifold Press.(in.W.C.) 10.0 11.0 10.6 11.0 11.0 130000 Orifice No.(Qty) 49(3) 50(3) 51 (3) 52(3) 52(3) Manifold Press.(in.W.C.) 10.0 11.0 11.0 11.0 11.0 o' •. In the U.S A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 11100 fl(305 m)above sea level. a ha Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be dented by 10%by an authorized gas conversion station or dealer. n For Canadian Installations from 2000 to 4500 ft(610-1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). a f. Use Kit No.CPLPCONV013"00(0-2000 ft[0-610 m]above sea level).Use Kit No.CPLPCONV014.00(2001-6000 ft[611-1829 m]above sea level). E 0 0 c 0 m o 0 0 I I I I a r I r . a High Altitude Compensation, Propane Gas - Single Phase Models Rated Heating Input(Btulhr),LP Gas at Installation Altitude Above Sea Level,U.S.A. h Nameplate Input(Btu/hr) 0 to 2000 ft 2001 to 3000 f 3001 to 4000 ft 4001 to 5000 ft 5001 to 6000 ft <. (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) r m 40000 38000 31700 31700 31700 31200 -o 60000 57000 47500 47500 47500 46900 8 i 90000 79000 68900 68900 68600 68600 ` 115000 103000 100400 98900 83000 63000 a g 127000 116000 115500 111800 101300 100400 •. In the U.S.A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level. u In Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be derated by 10%by an authorized gas conversion station or dealer. 1For Canadian Installations from 2000 to 4500 ft(610-1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). m High Altitude Compensation, Propane Gas -Three Phase Models 2. Rated Heating Input(Btu/hr),LP Gas at Installation Altitude Above Sea Level,U.S.A." Nameplate Input(Btu/hr) 0 to 2000 ft 2001 to 3000 ff 3001 to 4000 ft 4001 to 5000 ft 5001 to 6000 ft 6. n (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) ,. c 40000 38000 31700 31700 31700 31200 m 60000 57000 45900 45900 45800 45800 °1 90000 79000 68900 68900 68600 68600 ..<< 115000 103000 100400 98900 83000 83000 3 130000 116000 115500 111800 101300 100400 « •, In the U.S.A,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level nIn Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be derated by 10%by an authorized gas conversion station or dealer. g For Canadian Installations from 2000 to 4500 ft(610-1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). High Altitude Compensation, Natural Gas -Single Phase Models m Name late Rated Heating input(BU.S.A.ulhr),Natural Gas at Installation Altitude Above Sea Level,U.S.A..* p 0 to 2000 ft 2001 to 3000 ff 3001 to 4000 ft 4001 to 5000 ft 5001 to 6000 ft c Input(Btu/hr) (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) z 40000 40000 36000 34400 32800 31200 I 60000 60000 54000 51600 49200 46800 90000 90000 81000 77400 73800 70200 c 115000 115000 103500 98900 94300 89700 . 127000 127000 114300 109200 104100 99100 m '. In the U.S.A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level. ca In Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be demted by 10%by an authorized gas conversion station or dealer. 0 For Canadian Installations from 2000 to 4500 ft(610-1372 m),use U.S.A.column 2001 to 3000 ft(611 to 914 m). High Altitude Compensation, Natural Gas -Three Phase 0 Nameplate Rated Heating Input(Btu/hr),Natural Gas at Installation Altitude Above Sea Level,U.SA. r Input(Btu/hr) 0 to 2000 ft 2001 to 3000 ft" 3001 to 4000 ft 4001 to 5000 ft 5001 to 6000 ft (0-610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) 40000 40000 36000 34400 32800 31200 u 60000 60000 54000 51600 49200 46800 90000 90000 81000 77400 73800 70200 115000 115000 103500 98900 94300 89700 130000 130000 117000 111800 106600 101400 • In the U.S.A.,the input rating for altitudes above 2000 ft(610m)must be reduced by 4%for each 1000 ft(305 m)above sea level. In Canada,the input rating for altitudes from 2001 to 4500 ft(611 to 1372 m)above sea level must be derated by 10%by an authorized gas conversion station or dealer. For Canadian Installations from 2000 to 4500 ft(610-1372 m),me U.S.A.column 2001 to 3000 ft(611 to 914 m). Dry Coil Air Delivery' - Horizontal and Downflow Discharge Sizes 24-60 208/230VAC - 1 Phase r (in. Heating Rise Allowable ESP0 Unit Size Motor Speed Tap W.C.) °F(C) Functions 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 m CFM 654 552 454 338 x x x x x x Low1 Blue Alternate Heating BHP 0.09 0.10 0.10 0.11 x x x x x x r!i Gas Heat Rise(°F) 45 54 NA NA NA NA NA NA NA NA -Ti Gas Heat Rise(°C) 25 30 NA NA NA NA NA NA NA NA o. v CFM 840 759 677 600 505. 411 293 x x x SL 'h OE Heating BHP 0.14 0.15 0.16 0.16 0.17 0.17 0.18 x x x m Med-Lowt Pink Alternate Cooling Gas Heat Rise(°F) 35 39 44 50 NA NA NA NA NA NA B c Gas Heat Rise(°C) 20 22 24 28 NA NA NA NA NA NA A 24040 25-55 CFM 888 818 750 679 606 511 425 320 238 x 3a (14 31) Medium` Red Cooling BHP 0.18 0.18 0.19 0.19 0.20 0.20 0.21 0.21 0.22 x Alternate Heating Gas Heat Rise(°F) 34 36 40 44 49 NA NA NA NA NA NGas Heat Rise(°C) 19 20 22 24 27 NA NA NA NA NA CFM 1133 1069 995 930 854 784 701 628 549 464 m Alternate Cooling BHP 0.26 0.27 0.28 0.29 0.30 0.30 0.31 0.31 0.32 0.33 Med-tO High -High Orange Alternate Heating Gas Heat Rise(°F) 26 28 30 32 35 38 42 47 54 NA K Gas Heat Rise(°C) 15 15 17 18 19 21 24 26 30 NA n High Black High Static Cooling Only CFM 1291 1241 1190 1131 1081 1028 949 854 742 616 o BHP 0.41 0.42 0.43 0.43 0.44 0.45 0.44 0.42 0.40 0.38 CFM 654 552 454 338 x x x 1D Low1 Blue BHP 0.09 0.10 0.10 0.11 x x x x x x IliGas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA _ CFM 840 759 677 Boo 505 ' 411 293 x x x 3 Med-Low Pink Alternate Cooling BHP 0.14 0.15 0.16 0.16 0.17 0.17 0.18 x x x mAlternate Heating Gas Heat Rise(°F) 53 NA NA NA NA NA NA NA NA NA aGas Heat Rise(°C) 30 NA NA NA NA NA NA NA NA NA a ro o 24060 25-55 CFM 888 818 750 679 606 511 425 320 238 x ," Si (14-31) Cooling BHP 0.18 0.18 0.19 0.19 0.20 0.20 0.21 0.21 0.22 x aa Medium- Red Alternate Heating Gas Heat Rae(°F) 50 55 NA NA NA ' NA NA NA NA NA c Gas Heat Rise(°C) 28 30 NA NA NA NA NA NA NA NA CFM 1133 1069 995 930 854 784 701 628 549 464 a 3 Heating BHP 0.26 0.27 0.28 0.29 0.30 0.30 0.31 0.31 ' 0.32 0.33 o. Med-Hight Orange Alternate Coolin Gas Heal Rise 1° 9 o. Gas Heat Rise(°C) 22 23 25 27 29 NA NA NA NA NA a Coco High Black High Static Cooling Only CFM 1291 1241 1190 1131 1081 1028 949 854 742 616 _ BHP 0.41 0.42 0.43 0.43 0.44 0.45 0.44 0.42 0.40 0.38 £ CFM 654 552 454 338 x x x x x x'___ S. oo. Lowe Blue Alternate Heating BHP 0.09 0.10 0.10 0.11 x x x x x x Gas Heat Rise(°F) 45 54 NA NA NA NA NA NA NA NA o Gas Heat Rise CC) 25 30 NA NA NA NA NA NA NA NA n CFM 840 759 677 600 505 411 293 x x x aa ed-Low Heating BHP 0.14 0.15 0.16 0.16 0.17 0.17 0.18 x x x o MT Pink Alternate Cooling Gas Heat Rise(°F) 35 39 44 50 NA NA NA NA NA NA E Gas Heat Rise(°C) 20 22 24 28 NA NA NA NA NA NA 0 30040 25-55 CFM 1104 1038 979 915 844 782 712 639 532 452. (14-31) Cooling BHP 0.26 0.27 0.28 0.28 0.29 0.30 0.30 0.31 0.31 0.32 o Medium" Red Alternate Heating Gas Heat Rise(°F) 27 29 30 33 35 38 42 47 NA NA z Gas Heat Rise(°C) 15 16 17 18 20 21 23 26 NA NA 3 CFM 1133 1069 995 930 854 784 701 628 .549 . 484 3 Med-High Orange Alternate Cooling BHP 0.26 0.27 0.28 0.29 0.30 0.30 0.31 0.31 0.32 0.33 a Alternate Heating Gas Heat Rise(°F) 26 28 30 32 35 38 42 47 54 NA Gas Heat Rise(°C) 15 15 17 18 19 21 24 26 30 NA High Black High Static Cooling Only CFM 1291 1241 1190 1131 1081 1028 949 854 742 618 BHP 0.41 0.42 0.43 0.43 0.44 0.45 0.44 0.42 0.40 0.38 a t , , 6 1 , r • , , 4. Dry Coil Air Deliveryy. -Horizontal and Downflow Discharge Sizes 24-60 208/230VAC - 1 Phase (Continued) r Unit Size Heating Rise Motor Speed Tap Allowable ESP(in.W.C.) c� °F(C) Functions 0.1 0.2 0.3 0A 0.6 0.6 0.7 0.8 0.9 1 m CFM 654 552 454 338 x x x x x x - Lowt Blue BHP 0.09 0.10 0.10 0.11 x x x x x x m Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA m Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA R. E CFM 840 759 677 600 505 411 293 x x x o c Alternate Cooling BHP 0.14 0.15 0.16 0.16 0.17 0.17 0.18 x x x o 01 Med-Low Pink Alternate Heating Gas Heat Rise(°F) 53 NA NA NA NA NA NA NA NA NA m P. Gas Heat Rise(°C) 30 NA NA NA NA NA NA NA NA NA c 30060 25-55 CFM 1104 1038 979 915 844 782 712 639 532 452 (14-31) Cooling BHP 0.26 0.27 0.28 0.28 0.29 0.30 0.30 0.31 0.31 0.32 a Medium- Red Alternate Heating Gas Heat Rise(°F) 41 43 46 49 53 NA NA NA NA NA 2 Gas Heat Rise(°C) 23 24 25 27 30 NA NA NA NA NA a CFM 1133 1069 995 930 854 784 701 628 549 464 T Heating BHP 0.26 0.27 0.28 0.29 0.30 0.30 0.31 0.31 0.32 0.33 a Med-Hight Orange Alternate Coding Gas Heat Rise(°F) 40 42 45 48 53 NA NA NA NA NA a Gas Heat Rise(°C) 22 23 25 27 29 NA NA NA NA NA a High Black High Static Coding Only CFM 1291 1241 1190 1131 1081 1028 949 854 742 616 BHP 0.41 0.42 0.43 0.43 0.44 0.45 0.44 0.42 0.40 0.38 m CFM 650 587 517 442 381 320 259 x x x m BHP 0.08 0.08 0.09 0.09 0.10 0.10 0.11 x x x ,° Lowt Blue Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA B. Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA ca CFM 1144 1105 1066 1026 984 941 695 850 806 763 w Heating BHP 0.28 0.28 0.29 0.30 0.31 0.31 0.32 0.33 0.34 0.34 3 Med-Low1 Pink Alternate Cooling Gas Heat Rise(°F) 39 41 42 44 46 48 50 53 NA NA Gas Heat Rise(°C) 22 23 23 24 25 26 28 29 NA NA u 25-55 CFM 1223 1186 1151 1115 1075 1039 1001 957 914 87.0_ i° 36060 w (14-31) Cooling BHP 0.34 0.34 0.35 0.36 0.37 0.37 0.38 0.39 0.40 0.41 n Medium- Red Alternate Heating Gas Heat Rise(°F) 37 38 39 40 42 43 45 47 49 52 Gas Heat Rise(°C) 20 21 22 22 23 24 25 26 27 29 O - CFM 1356 1321 1288` 1251 1216 1181 1149 1109 1071 1034 m BHP 0.43 0.44 0.45 0.46 0.46 0.47 0.48 0.49 0.50 0.51 a Med-High Orange Alternate Cooling Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA aa Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA High Black High Static Coding Only CFM 1520 1467 1459 1429 1394 1384 1331 1295 1261 1225 BHP 0.60 0.60 0.61 0.62 D.63 0.64 0.65 0.66 0.66 0.67 a F CFM 660 587 517 442 381 320 259 x x x o Lowt Blue BHP 0.08 0.08 0.09 0.09 0.10 0.10 0.11 x x x cGas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA c Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA 4 CFM 1144 1105 1066 1026 984 941 895 850 806 763 a Alternate Coding BHP 0.28 0.28 0.29 0.30 0.31 0.31 0.32 0.33 0.34 0.34 ca Med-Low Pink Alternate Heating Gas Heat Rise(°F) 58 61 63 65 NA NA NA NA ' NA NA FGas Heat Rise CC) 32 34 35 36 NA NA NA NA NA NA s 36090 35-65 CFM 1223 1186 1151 1115 1075 1039 1001 957 914 870 o (19-36) Medium Red Coding BHP 0.34 0.34 0.35 0.36 0.37 0.37 0.38 0.39 0.40 0.41 Alternate Heating Gas Heat Rise(°F) 55 56 58 60 62 64 NA NA NA NA c Gas Heat Rise(°C) 30 31 32 33 35 36 NA NA NA NA _-� CFM 1356 1321 1288 1251 1216 1181 1149 1109 1071 1034 liked-Hight BHP 0.43 0.44 0.45 0.46 0.46 0.47 0.48 0.49 0.50 0.51 o ed-Highx Orange Alternate Cooling Gas Heat Rise(°F) 49 51 52 53 55 57 58 60 62 65 tl1 Gas Heat Rise CC) 27 28 29 30 31 31 32 33 35 36 High Black High Static Cooling Only CFM 1520 1487 1459 1429 1394 1364 1331 1295 1261 1225 BHP 0.60 0.60 0.61 0.62 0.63 0.64 0.65 0.66 0.66 0.67 Dry Coil Air Delivery. -Horizontal and Downflow Discharge Sizes 24-60 208/230VAC - 1 Phase (Continued) unit size Heating Rise Motor Speed Tap Functions Allowable ESP(in WC.) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 r. CFM 1001 902 833 777 717 650 575 527 466 419 CO < Lowt Blue Alternate Heating BHP 0.13 0.13 0,14 0.14 0.15 0.16 0.17 0.18 0.19 0.20 m Gas Heat Rise(°F) 45 50 54 NA NA NA NA NA NA NA v Gas Heat Rise(°C) 25 28 30 NA NA NA NA NA NA NA a m CFM 1016 95D 902 842 783 721 655 590 541 480 ix Merl-Lowt Pink Heating BHP 0.13 0.14 0.15 0.16 0.17 0.18 0.19 0.20 0.21 0.22 0 Gas Heat Rise(°l- 44 47 50 53 NA NA NA NA NA NA 0 c Gas Heat Rise(CC) 25 26 28 30 NA NA NA NA NA NA 42060 25-55 CFM 1403 1358 1316 1265 1217 1167 1116 1087 1012 956 m (14-31) Coaling BHP 0.29 0.30 0.31 0.33 0.34 0.35 D.36 0.37 0.38 0.39 so Medium Red Alternate Heating Gas Heat Rise(°F) 32 33 34 35 37 38 40 42 44 47 m Gas Heat Rise(°C) 18 18 19 20 20 21 22 23 25 26 a CFM ir 61 1411 1367 1327 1275 1220 1174 1127 1074 1022 a Med-High OrangeAlternate Cooling BHP 0.32 - 0.33 0.35 0.36 0.37 " 0.38 0.39 0.40 0.41 0.42 m Alternate Heating Gas Heat Rise(7) 31 32 33 34 35 37 38 40 42 44 to Gas Heat Rise(°C) 17 18 18 19 20 20 21 22 23 24 S High Black High Static Cooling Only CFM 1575 1528 1468 1447 1406 - 1360 1314 1264 1213 1159 BHP 0.40 0.42 0.43 0.44 0.45 " 0.46 0.47 0.48 0.49 0.50 2. 3 CFM 1001 902 833 777 717 650 576 527 466 419, co Lowt Blue BHP 0.13 0.13 0.14 0.14 0.15 0.16 0.17 0.18 0.19 0.20 Gas Heat Rise(°h `A NA NA NA NA NA NA NA NA NA m Gas Heat Rise CC) NA NA NA NA NA NA NA NA NA NA .4 CFM 1018 950 902 842 783 721 .655 590 541 480 Med-Low Pink BHP 0.13 0.14 0.15 0.16 0.17 0.18 0.19 0.20 0.21 0.22 o Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA w Gas Heat Rise CC) NA NA NA NA " NA NA NA NA NA NA si 42090 35-65 CFM 1403 1358 1316 1265 1217 1167 1116 1087 1012 956 p 2 (19-36) Cooling BHP 0.29 0.30 0.31 0.33 0.34 0.35 0.36 0.37 0.38 0.39 ID o Medium" Red Alternate Heating Gas Heat Rise(°F) 48 50 51 53 56 58 61 63 NA NA c Gas Heat Rise CC) 27 28 29 30 31 32 34 35 NA NA i CFM 1461 1411 1367 1327 1275 1220 1174 1127 1074 1022 Merl-Hight Orange Heating BHP 0.32 0.33 0.35 0.36 0,37 0.38 0.39 0.40 0.41 0.42 o• Alternate Cooling Gas Heat Rise(°F) 46 48 49 51 53 55 58 60 63 NA w Gas Heat Rise(SC) 26 27 27 28 29 31 32 33 35 NA High Black High Static Coding Only CFM 1575 1528 1488 1447 1406 1360 1314 1264 1213 1159 a BHP 0.40 0.42 0.43 0.44 0.45 0.46 0.47 0.48 0.49 0.50 E CFI 644. 552 481 376 301 235 x x x x p Lowt Blue BHP 0.06 0.07 0.07 0.08 0.08 0.09 x x x x c Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA 1Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA CFM 1430 1386 1347 1302 1258 1208 1160 _ 1114 1066 1014 m Heating BHP 0.26 0.27 � 0.28 0.29 0.30 0.30 0.32 0.33 0.34 0.35 Merl-Lowt Pink Alternate Cooling Gas Heat Rise(°F) 47 49 50 52 54 56 58 61 64 NA i Gas Heat Rise(°C) 26 27 28 29 30 31 32 34 35 NA E 36-65 CFM 1658 1622 1585 1549 1512 1476 1442 1402 1360 1322 48090 (19-36) Cooling BHP 0.39 0.40 0.41 0.42 0.44 0.45 0.46 0.47 0.48- 0.49 ry Medium Red Alternate Heating Gas Heat Rise CF) 41 42 43 44 45 46 47 48 50 51 c Gas Heat Rise(°C 23 23 24 24 25 25 26 27 28 28 m CFM 1945 1913 1867 1829 1792 1758 1717 1688 1645 1603 o Med-High Orange Alternate Cooling BHP 0.58 0.59 0.61 0.63 0.64 0.65 0.67 0.68 0.69 0.71 i Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA High Black High Static Cooling Only CFM 2201 2172 2138 2108 2074 2041 1970 1867 1764 1634 BHP 0.83 0.84 0.87 0.88 0.89 0.91 0.89 0.83 0.79 0.74 0 I t I 6 . , . Dry Coil Air Delivery* A- Horizontal and Downflow Discharge Sizes 24-60 208/230VAC - 1 Phase (Continued) HeatingRise Allowable ESP(in.we.) n Unit Size °F(C) Motor Speed Tap Functions 0.1 0.2 0.3 0.4 0.6 0.6 0.7 0.8 0.9 1 a. CFM 644 562 461 376 301 235 x x x x 7 Lowt Blue BHP 0.06 0.07 0.07 0.08 0.08 0.09 x x x x !T.,Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA v Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA a d CFM 1430 1386 1347 1302 1258 1208 1160 1114 1065 1014 2 3 Alternate Cooling BHP 0.26 0.27 0.28 0.29 0.30 0.30 0.32 0.33 0.34 0.35 Med-Low Pink Alternate Heating Gas Heat Rise(°F) 60 NA NA NA NA NA NA NA NA NA mo ^, Gas Heat Rise(°C) 34 NA NA NA NA NA NA NA NA NA ° 30-60 CFM 1658 1822 1585 1549 1512 1476 1442 1402 1360 1322 48115 (17-33) Cooling BHP 0.39 0.40 0.41 0.42 0.44 059 0.46 0.47 0.48 0.49 Medium** Red Alternate Heating Gas Heat Rise(°F) 52 53 55 56 57 59 60 NA NA NA a Z Gas Heat Rise CC) 29 30 30 31 32 33 33 NA NA NA a CFM 1945 1913 1867 1829 1792 1758 1717 1688 1645 1603 m Med-High= Orange Heating BHP 0.58 0.59 0.61 0.63 0.64 0.65 0.67 0.68 0.69 0.71 Alternate Cooling Gas Heat Rise(°F) 44 45 46 47 48 49 50 51 53 54 Frri- Gas Heat Rise(°C) 25 25 26 26 27 27 28 28 29 30 $ High Black High Static Cooling Only CFM 2201 2172 2138 2108 2074 2041 1970 - 1867 1764 1634 BHP 0.83 0.84 0.87 0.88 0.89 0.91 0.89 0.83 ' 0.79 0.74 0- CFM 644 552 461 376 301 235 x x x x 3 BHP 0.06 0.07 0.07 0.08 0.08 0.09 x x x x A Lowt Blue Gas Heat Rise CF) NA NA NA NA NA NA NA NA NA NA °: Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA a CFM 1430 1386 1347 1302 1258 1208 1160 1114 1065 1014 '•< BHP 0.26 0.27 0.28 0.29 0.30 0.30 0.32 0.33 0.34 0.35 Med-Low Pink Alternate Cooling Gas Heat Rise CF) NA NA NA NA NA NA NA NA NA NA 0 Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA 0 35-65 CFM 1658 1622--. 1585 1549 1512 1476 1442 1402 1360 1322 a 48130 ,,, ^_. (19-36) Cooling BHP 0.39 0.40 0.41 0.42 0.44 0.45 0.46 0.47 0.48 0.49 r„ n Medium** Red Alternate Heating Gas Heat Rise(°F) 58 59 61 62 63 65 NA NA NA NA sr ri Gas Heat Rise CC) 32 33 34 34 35 36 NA NA NA NA CFM 1945 1913 1867 1829 1792 1758 1717 1888 1645 1603 Med-Hight Orange Heating BHP 0.58 0.59 0.61 0.63 , 0.64 0.65 0.67 0.68 0.69 0.71 a Alternate Cooling Gas Heat Rise(°F) 49 50 51 52 54 55 56 57 58 60 a Gas Heat Rise(°C) 27 i 28 29 29 30 30 31 32 32 33 a CFM 2201- 2172 2138 2108 2074 2041 1970 1867 1764 1634 to High Black High Static Cooling Only BHP 0.83 0.84 0.87 0.88 0.89 0.91 0.89 0.83 0.79 0.74 a -" CFM 639 768 697 625 551 486 422 - 360 306 x o Lowt Blue BHP 0.09 0.10 0.10 0.71 0.12 0.12 0.13 0.14 0.14 x Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA Gas Heat Rise(°C) NA NA NA NA i NA NA NA NA NA NA 0o CFM 1403 1361 1320 1276 1236 1192 1145 1099 1054 1012 n BHP 0.28 0.29 0.30 0.31 0.31 0.33 0.34 0.35 0.36 0.37 Med-Lowt Pink Heatingsr Gas Heat Rise(°F) 48 50 51 53 55 57 59 62 64 NA o. Gas Heat Rise(°C) 27 28 28 29 30 32 33 34 36 NA 35-65 CFM 1822 1788 1757 1726 1690 1657 1623 1569 1553 1518 z 60090 (19-36) Cooling BHP 0.54 0.55 0.56 0.57 0.59 0.60 0.61 0.62 0.63 0.64 o MediumE. ' Red Alternate Heating Gas Heat Rise CF) 37 38 39 39 40 41 42 43 44 45 o Gas Heat Rise(°C) 21 21 21 22 22 23 23 24 24 25 c CFM 1982 1940 19 "1659 1816 1775 1739 1701 1655 1596 m 00 BHP 0.61 0.62 0.63 0.65 0.66 0.67 0.69 0.70 0.71 0.73 o Med-High Orange Alternate Cooling Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA m Gas Heat Rise CC) NA NA NA NA NA NA NA NA NA NA High Black High Static Cooling Only CFM 2271 2241 2206 2171 2134 2080 1973 1857 1746 1596 BHP 0.90 0.91 0.93 0.95 0.96 0.95 0.90 0.84 0.78 0.73 * Dry Coil Air Delivery - Horizontal and Downflow Discharge Sizes 24-60 208/230VAC - 1 Phase (Continued) 01 Unit Size Heating Rise Motor Speed Tap Allowable ESP(In.W.C.) P F(CC) Functions 0.1 0.2 0.3 0A 0.5 0.6 0.7 0.8 0.9 1 e. CFM 839 768 697 625 551 486. 422 360 306 x 7 Lowt Blue BHP 0.09 0.10 0.10 0.11 0.12 - 0.12 - 0.13 0.14 0.14 x m Gas Heat Rise(°F) NA NA NA NA NA NA NA ' NA NA NA Gas Heat Rise(°C) NA NA NA NA NA NA NA NA NA NA n m CFM 1403 1381 1320 1276 1236 1192 1145 1099 1054 1012 c Med-Low Pink BHP 0.28 0.29 0.30 0.31 0.31 0.33 0.34 0.35 0.36 0.37 v 91 Rise(°F) - NA NA NA NA NA NA NA NA NA NA n c Rise(°C) NA NA NA NA NA NA NA NA NA NA 3 30-60 CFM 1822 1788 1757 1726 1690 1657 1623 1589 1553 1518 60115 17-33) ) Medium' Red Cooling BHP 0.54 0.55 0.56 0.57 0.59 0.60 0.61 0.62 0.63 0.64 2 Alternate Heating Gas Heat Rise eF) 47 48 49 50 51 52 53 54 56 57 m Gas Heat Rise CC) 26 27 27 28 28 29 30 30 31 32 CFM 1982 1940 1900 1859 1816 1775 1739 1701 1655 1596 SI a Med-Hight Orange Heating Alternate BHP 0.61 0.62 0.63 0.65 0.66 0.67 0.69 0.70 0.71 0.73 n. Cooling Gas Heat Rise(°F) 44 45 45 46 48 49 50 51 52 54 Gas Heat Rise(°C) 24 25 25 26 26 27 28 28 29 30 o High Black High Static Cooling Only CFM 2271 2241 2206 2171 2134 2080 1973 1857 1746 1596 BHP 0.90 0.91 0.93 0.95 0.96 0.95 0.90 0.84 0.78 __ 0.73 o CFM 839.2 788.3 _ 696.8 625.4 551.4 485.6 421.7 360.2 305.8 x -Al ic Lowt Blue BHP 0.09 0.10 0.10 0.11 ' 0.12 0.12 0.13 0.14 ' 0.14 x Gas Heat Rise(°F) NA NA NA NA NA NA NA NA NA NA Gas Heat Rise w CC) NA NA NA NA NA NA NA NA NA NA = CFM 1403 1361 1320 1276 1238 1192 1145 - 1099 1054 1012 ct Med-Low Pink BHP 0.28 - 0.29 0.30 - 0.31 0.31 0.33 0.34 0.35 0.36 0.37 3 Rise(°F) NA NA NA NA NA NA NA NA NA NA c Rise(°C) NA NA NA NA NA NA NA NA NA NA 0 60130 35-65 CFM _ 1822 1788 1757 1726 1690 1657 1623 1589 1553 1518 - m 2. (19-36) Cooling BHP 0.54 0.55 0.56 0.57 0.59 0.60 0.61 0.62 0.63 0.64 n Medium Red Alternate HeatingGas Heat Rise °F - - rii ( 53 54 55 56 57 58 59 60 62 63 Gas Heat Rise(°C) 29 30 30 31 32 32 33 34 34 35 faCFM 1982 1940 1900 1859 1818 1775 1739 1701 1655 1596 aiti Med-Hight Orange Heating BHP 0.61 0.62 0.63 0.65 0.66 0.67 0.69 0.70 0.71 0.73 Alternate Cooling Gas Heat Rise(°F) 48 49 50 52 53 54 55 56 58 60 u Gas Heat Rise(°C) 27 27 28 29 29 30 31 31 32 33 3 High Black High Static Cooling Only CFM 2271 2241 2206 2171 2134- 2080 1973 1857- 174$ 1596 in BHP 0.90 0.91 0.93 0.95 0.96 0.95 0.90 0.84 0.78 0.73 f Shaded areas indicate speed/static combinations that are not pemtitted for dehumidification speed. - o ' Air delivery values are without air filter and are for dry coil(See Wet Coil Pressure Drop table). t. Factory-shipped continuous fan speed o :. Factory-shipped heating speed o i3. Factory-shipped cooling speed 'a `Hi Static a "High Cooling"=Only to be used for cooling function(not allowed for heating function) a "NA"=Not allowed for heating speed a. NOTE:Deduct field lied air filterpressure dropand wet coil f field-supplied pressure drop to obtain static pressure available for ducting. 0 c 0 er ra v 0 0 is I r I I r . r I D i • e • ' ' A - CO Dry Coil Air Delivery* -Horizontal Discharge Sizes 36-60 3 Phase Models Only Heating Motor Mire External Static Pressure(IN.W.C.) a Unit Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 < - CFM 979 912 859 789 731 654 556 454 374 r Low Blue Heating Rise(°F) 45 48 51 NA NA NA NA NA NA Al Heating Rise(°C) 25 27 28 NA NA NA NA NA NA n Ei CFM 1136 1080 1015 957 912 861 808 723 833 c c Med-Lowt Pink Heating Rise(°F) 39 41 43 46 48 51 54 NA NA o a Heating Rise(°C) 22 23 24 26 27 28 30 NA NA a c CFM 1208 1144 1091 1025 964 902 886 830 746 m25 36060 (14_35.15°C) Mediunrt Red Heating Rise(°F) 36 38 40 43 46 49 50 53 NA s Heating Rise(°C) 20 21 22 24 25 27 28 29 NA CFM 1495 1439 1376 1303 1221 1207 1137 1052 981 m m Med-High Orange Heating Rise(°F) 29 31 32 34 36 36 39 42 45 m Heating Rise(°C) 16 17 18 19 20 20 22 23 25 ro CFM 1560 1491 1416 1337 1255 1233 1160 1082 998 3 High Black Heating Rise(°F) 28 30 31 33 35 36 38 41 44 Heating Rise(°C) 16 16 17 18 19 20 21 23 24 d CFM 979 912 859 .789 731 854 556 454 374 to Low Blue Heating Rise(°F) NA NA NA NA NA NA NA NA NA v Heating Rise(°C) NA NA NA NA NA NA NA NA NA a CFM 1138 1080 1015 957 912 861 808 723 633 3 'c Med-Low Pink Heating Rise(°F) 58 61 65 NA NA NA NA NA NA 3 Heating Rise(°C) 32 34 36 NA NA NA NA NA NA So !toCFM 1208 ' 1144 1091 1025 964 902 886 830 746 m 36090 35-65F Medium$ Red Heating Rise(°F) 54 58 60 64 NA NA NA NA NA N n (19-36 35 C) Heating Rise(°C) 30 32 34 36 NA NA NA NA NA m CFM 1495 1439 1376 1303 1221 1207 1137 1052 981 c Med-Hight Orange Heating Rise(°F) 44 46 48 51 54 55 58 63 NA m Heating Rise(°C) 24 25 27 28 30 30 32 35 NA a CFM 1560 1491 1416 1337 1255 1233 1160 1082 998 m • High Black Heating Rise(°F) 42 44 46 49 52 53 57 61 NA N di Heating Rise(°C) 23 25 26 27 29 30 32 34 NA a CFM 952 882 806 746 671 605 630 551 488 Low Blue Heating Rise(°F) 46 49 54 NA NA NA NA NA NA o Heating Rise(°C) 25 27 30 NA NA NA NA NA NA CFM 1002 936 875 821 748 687 613 554. 585. o t 43 46 50 53 NA NA NA NA NA Med-Low Pink Heating Rise(°F) mHeating Rise(°C) 24 26 28 29 NA NA NA NA NA o CFM 1255 1210 1145 1074 I 1008 940 878 895 838 £ 42060 25-55°F Medium Red Heating Rise(°F) 35 36 38 40 43 46 49 48 52 ca. (14-31°C) Heating Rise(°C) 19 20 21 22 24 26 27 27 29 c CFM 1335 1267 1246 1178 1109 1049 988 926 872 o- Med-Hight Orange Heating Rise(°F) 32 34 35 37 39 41 44 47 50 m Heating Rise(°C) 18 19 19 20 22 23 24 26 28 o CFM 1472 1401 . 1326 1251 1275 1198 1139 1085 1023 w High Black Heating Rise(°F) 29 31 33 35 34 36 38 40 42 Heating Rise(°C) 16 17 18 19 19 20 21 22 24 Dry Coil Air Delivery - Horizontal Discharge Sizes 36-60 3 Phase Models Only (Continued) UnitHeating Motor Wire External Static Pressure(IN.W.C.) h Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 p CFM 952 882 806 746 671 605 530 551 486 < Low Blue Heating Rise(°F) NA NA NA NA NA NA NA NA NA rn Heating Rise(°C) NA NA NA NA NA NA NA NA NA v 3 CFM 1002 936 875 821 748 687 613 554 565 °o. c Med-Low Pink Heating Rise(°F) NA NA NA NA NA NA NA NA NA a o Heating Rise(°C) NA NA NA NA NA NA NA NA NA c CFM 1255 1210 1145 1074 1008 940 878 895 838 42090 35-65°F Mediumt Red Heating Rise(°F) 53 55 58 62 NA NA NA NA NA (19-36°C) m Heating Rise(°C) 30 31 32 35 NA NA NA NA NA 2 CFM 1335 1267 1246 1176 1109. 1049 988 926 872 u Med-High$ Orange Heating Rise(°F) 50 53 54 57 60 64 NA NA NA CD Heating Rise(°C) 28 29 30 32 34 35 NA NA NA 02. CFM 1472 1401 1326 1251 1275 1198 1139 1085 1023 K High Black Heating Rise(°F) 45 48 50 53 52 56 59 62 65 5. Heating Rise(°C) 25 27 26 30 29 31 33 34 36 w CFM 1402 ' 1351 1311 1263 1224 1172 1136 1080 1041 ,'c Lowt Blue Heating Rise(°F) 48 50 51 53 55 57 59 62 64 m Heating Rise(°C) 27 28 28 29 30 32 33 34 36 CFM 1457 1404 1367 1318 1284 1233 1197 1144 1104 d 0e Med-Low Pink Heating Rise(°F) 46 48 49 51 52 54 56 58 61 ct 3 �', Heating Rise(°C) 26 26 27 26 29 30 31 32 34 i1 ' CFM 1736 1695 1642 1601 1553 1512 1465 1427 1381 'Y, ' 48090 35-65°F n (19 36°C) Mediunrt Red Heating Rise(°F) 39 39 41 42 43 44 46 47 48 2. Heating Rise(°C) 21 22 23 23 24 25 25 26 27 n CFM 2149 2111 2062 2026 1980 1945 1905 1864 1793 Med-High Orange Heating Rise(°F) NA NA NA NA NA NA 35 36 37 `" Heating Rise(°C) NA NA NA NA NA NA 20 20 21 v 0=, CFM 2344 2306 2259 2203 2141 2070 1991 1902 1803 0.m High Black Heating Rise(°F) NA NA NA NA NA NA NA 35 37 m re Heating Rise(°C) NA NA NA NA NA NA NA 20 21 I m CFM 1402 1351 1311 1263 1224 1172 1136 1080 1041 F Low Blue Heating Rise(°F) NA NA NA NA NA NA NA NA NA ti c Heating Rise(°C) NA NA NA NA NA NA NA NA NA CFM 1457 1404 1367 1318 1284 1233 1197 1144 1104 3 ° Med-Low Pink Heating Rise(°F) 58 NA NA NA NA NA NA NA NA m Heating Rise(°C) 32 NA NA NA NA NA NA NA NA CFM 1736 1695 1642 1601 1553 1512 1465 1427 1381 c 30-60°F 48115 Medium$ Red Heating Rise(°F) 49 50 52 53 55 56 58 60 NA (17-33°C) o- Heating Rise(°C) 27 28 29 30 30 31 32 33 NA o CFM 2149 2111 2082 2026. 1990 1945 1905 1864 1793 °Q Med-Hight Orange Heating Rise(°F) 40 40 41 42 43 44 45 46 48 f Heating Rise(°C) 22 22 23 23 24 24 25 25 28 m o CFM 2344 2306 2259 2203 2141 2070 1991 1902 1803 O High Black Heating Rise(°F) 36 37 38 39 40 41 43 45 47 Heating Rise(°C) 20 21 21 21 22 23 24 25 26 i 0 At . I I. I A Dry Coil Air Delivery* - Horizontal Discharge Sizes 36-60 3 Phase Models Only (Continued) • Unit Heating Motor Wire External Static Pressure(IN.W.C.) p Rise Range Speed Color 0.1 0.2 0.3 0.4 0.6 0.6 0.7 0.8 0.9 m CFM 1402 1351 1311 1263 1224 1172 1136 1080 1041 Low Blue Heating Rise(°E) NA NA NA NA NA NA NA NA NA rn Heating Rise(°C) NA NA NA NA NA NA NA NA NA v CFM 1457 1404 1367 1318 1284 1233 1197 1144 1104 a d c Med-Low Pink Heating Rise(°Fj 65 NA NA NA NA NA NA NA NA 0 36 NA NA NA NA NA NA NA NA m Heating Rise(°C) a .°. CFM 1736 1695 1642 1601 1553 1512 1465 1427 1381 48130 35-65°F Medium$ Red Heating Rise(°F) 55 56 58 59 61 63 65 NA NA m (19-36°C) Heating Rise(°C) 30 31 32 33 34 35 36 NA NA CFM 2149 2111 2062 2026 1980 1945 1905 1864 1793 H Med-Might Orange Heating Rise(°F) 44 45 46 47 48 49 50 51 53 3 Heating Rise(°C) 25 25 26 26 27 1 27 28 28 29 c. CFM 2344 2306 2259 2203 2141 2070 1991 1902 1803 T High Black Heating Rise(°F) 41 41 42 43 44 46 48 50 53 Cr Heating Rise(°C) 23 23 23 24 25 28 27 28 29 n CFM 1445 1389 1341 1281 1236 1189 1139 1072 1027 to Lowe Blue Heating Rise(°F) 46 48 50 52 54 56 59 62 65 m 26 27 28 29 30 31 33 35 36 Heating Rise(°C) 8 CFM 1678 1635 1602 1558 1513 1474 1438 1404 . 1349 e O Med-Low Pink Heating Rise(°F) 40 41 42 43 44 45 47 48 50 ct Heating Rise(°C) 22 23 23 24 25 25 26 26 28 m CFM 1962 1915 1880 1843 1794 1753 1711 1675 1628 0 a 60090 35-65 F Medium$ Red Heating Rise(°F) NA 35 36 36 37 38 39 40 41 CO (19-36°C)2.nN., Heating Rise(GC) NA 19 20 20 21 21 22 22 23 `13 o CFM 2131 2088 2065 2013 1982 1941 1888 1860 1785 c Med-High Orange Heating Rise(°F) NA NA NA NA NA NA 35 36 37 'w Heating Rise(°C) NA NA NA NA NA NA 20 20 21 0 CFM 2461 2409 2339 2286 2192 2140 2062 1968 1874 o. a High Black Heating Rise(°F) NA NA NA NA NA NA NA NA 36 m NA NA NA NA NA NA NA NA 20 3 Heating Rise(°C)CFM 1445 1389 1341 1281 1236' 1189 1139 1072 1027 On £ Low Blue Heating Rise(°F) 59 NA NA NA NA NA NA NA NA c Heating Rise(°C) 33 NA NA NA NA NA NA NA NA CFM 1678 1635 1602 1558 1513 1474 1438 1404 1349 .9 Med-Low Pink Heating Rise(°F) 51 52 53 55 56 58 59 NA NA Heating Rise CC) 28 29 30 30 31 32 33 NA NA m CFM 1982 1915 1880 1843 1794 1753 1711 1675 1628 ° 43 44 45 46 47 49 50 51 52 o 60115 30-60 F Medium# Red Heating Rise(°F) c (17-33°C) Heating Rise CC) 24 25 25 26 26 27 28 28 29 c CFM 2131 2088 2065 2013 1982 1941 1888 1860 1785 o Med-Hight Orange Heating Rise(°F) 40 41 41 42 43 44 45 46 48 ao Heating Rise(°C) 22 23 23 24 24 24 25 25 27 ?: CFM 2461 2409 2339 2286 2192 2140 2062 1968 1874 a. High Black Heating Rise(°F) 35 35 36 37 39 40 41 43 45 u Heating Rise(°C) 19 - 20 20 21 22 22 1 23 24 25 Dry Coil Air Delivery. - Horizontal Discharge Sizes 36-60 3 Phase Models Only (Continued) 4. UnitHeating Motor Wire External Static Pressure(IN.W C,) Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 I 0.6 0.7 0.8 0.9 +a. CFM 1445 1389 1341 1281 1238 1189 1139 1072 1027 oo < 1- Low Blue Heating Rise(°F) NA NA NA NA NA NA NA NA NA !Al Heating Rise(°C) NA NA NA NA NA NA NA NA NA -o m • CFM 1678 1635 1602 1558 1513 1474 1438 1404 1349. 5. 'c Med-Low Pink Heating Rise(°F) 57 58 59 61 63 65 NA NA NA a FP Heating Rise(°C) 32 32 33 34 35 36 NA NA NA c CFM 1962 1915 1880 1843 1794 1733 1711 1675 1628 RI I 60130 35-65°F (19-36°C) Mediums Red Heating Rise en 49 50 51 52 53 54 56 57 58 titto Heating Rise(°C) 27 28 28 29 29 30 31 32 32 m CFM 2131 2088 2065 2013 1982 1941 1888 1860 1785 Med-Hight Orange Heating Rise(°F) 45 46 46 47 48 49 50 51 53 CD 0 Heating Rise(°C) 25 25 I 26 26 27 27 28 28 30 n CFM 2461 2409 2339 2286 2192 2140 2062 1968 1874 High Black Heating Rise(°F) 39 40 41 42 43 ' 44 46 48 51 BII o I Heating Rise(°C) 21 22 23 23 24 25 26 27 28 v Shaded areas indicate speed/static combinations that are not permitted for dehumidification speed. m' t. Air delivery values are without air filter and are for dry coil(See Wet Coil Pressure Drop table). m Oft. Factory-shipped heating speed e. . Factory-shipped cooling speed r "NA"-Not allowed for heating speed NOTE:Deduct field-supplied air filter pressure drop and wet cod pressure drop to obtain external static pressure available for ducting. 3 m 0 -o e n ra o i n a et r 0 a i a a 0 10 C N 0 c 0 O n m a 0 I m 0 . r • , r a • I a _ Dry Coil Air Delivery* -Downflow Discharge Sizes 36-60 3 Phase Models Only Heating Motor Wire External Static Pressure(IN.W.C.) P Unit Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 m . CFM 979 912 859 789 7'31 654 558 454 374 255 I- WATTS 202 212 217 221 231 236 245 251 ' 259 253 m Low Blue BHP 0.22 0.23 0.23 0.24 0.25 0.25 0.26 0.27 0.28 0.27 3 Heating Rise(°F) 45 48 51 NA NA NA NA NA NA NA u Heating Rise(°C) 25 27 28 NA NA NA NA NA NA NA g. = CFM 1136 1080 1015 957 912 ' 861 808 723 633 545 m 0WATTS 294 309 310 322 325 333 341 349 354 367 a Med-Lowt Pink BHP 0.32 0.33 0.33 0.35 0.35 0.36 0.37 0.37 0.38 Heating Rise(°F) 39 41 43 46 48 51 54 NA NA NA m Heating Rise(°C) 22 23 24 26 27 28 30 NA NA NA 2 CFM -<120g 1144 1091 1025 964 902 886. 830 746 663 2 3 °F WATTS 345 350 358 366 373 377 390 396 407 410 m m 36060 (14--31°C) Medium Red BHP 0.37 0.38 0.38 0.39 0.40 0.40 0.42 0.42 0.44 0.44 Heating Rise(°F) 36 38 40 43 46 49 50 53 NA NA XI Heating Rise(°C) 20 21 22 24 25 27 28 29 NA NA CFM 1495 1439 1376 1303 1221 1207 1137 1052 981 894 c WATTS 625 634 635 633 624 613 598 583 573 551 = Med-High Orange BHP 0.67 0.68 0.68 0.68 0.67 0.66 0.64 0.63 0.61 0.59 = Heating Rise(°F) 29 31 32 34 36 36 39 42 45 49 a Heating Rise(°C) 16 17 18 19 20 20 22 23 25 27 m CFM 1560 1491 1416 1337 1255 1233 1160 1082 998 911 c WATTS 708 ' 699 683 674 660 634 624 606 581 566 at High Black BHP 0.76 0.75 0.73 0.72 0.71 0.68 0.67 0.65 0.62 0.61 3 Heating Rise(°F) 28 30 31 33 35 36 38 41 44 48 w Heating Rise(°C) 16 16 17 18 19 20 21 23 24 27 o CFM 979 912 859. 789 731 654 556 454 374 255 CO ,,, 2. WETS 202 212 217 221 231 236 245 251 259 253 n Low Blue BHP 0.22 0.23 0.23 0.24 0.25 0.25 0.26 0.27 0.28 0.27 ... Heating Rise(°F) NA NA NA NA NA NA NA NA NA NA o Heating Rise(°C) NA NA NA NA NA NA NA NA NA NA o CFM 1136 1080 1015 957 912 861 808 723 633 545 n WATTS 294 309 310 322 325 333 341 349 354 367 m Med-Low Pink BHP 0.32 0.33 0.33 0.35 0.35 0.36 0.37 0.37 0.38 m Heating Rise(°F) 58 61 NA NA NA NA NA NA NA NA o Healing Rise(°C) 32 34 NA NA NA NA NA NA NA NA £ CFM 1208 1144 1091 1025 964 902 ' 886 830 746 663 c- WATTS 345 350 358 366 373 377 390 396 407 410 c 36090 35-65°F Medium$ Red BHP 0.37 0.38 0.38 0.39 0.40 0.40 0.42 0.42 0.44 0.44 c (19-36°C) Heating Rise(°F) 54 58 60 64 NA NA NA NA NA NA iii Heating Rise(°C) 30 32 34 36 NA NA NA NA NA NA CFM 1495 1439 1378 1303 1221 1207 1137 1052 981 894 3 WATTS 625 634 635 633 624 613 598 583 573 551 f Med-Hight Orange BHP 0.67 0.68 0.68 0.68 0.67 0.66 0.64 0.63 0.61 0.59 s Heating Rise(°F) 44 46 48 51 54 55 58 63 NA NA o Heating Rise(°C) 24 25 27 28 30 30 32 35 NA NA a CFM 1560 1491 1446 1337 1255 1233 1160 1082 998 911. . cr WATTS 708 699 683 674 660 634 624 606 581 566 ✓ Hight Black BHP 0.76 0.75 0.73 0.72 0.71 0.68 0.67 0.65 0.62 0.61 o Heating Rise("F) 42 44 46 49 52 53 57 61 NA NA a Heating Rise("C) 23 25 26 27 29 30 32 34 NA NA Dry Coil Air Delivery* - Downflow Discharge Sizes 36-60 3 Phase Models Only (Continued) co r Unit Heating Motor Wire External Static Pressure(IN.W.C.) h Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 A 03 CFM 952 882 806 748 671 605 530 551 486 435 < WATTS 124 134 140 150 156 166 171 182 188 198 m Low Blue BHP 0.13 0.14 0.15 0.16 0.17 0.18 0.18 0.20 0.20 0.21 -a Heating Rise(°F) 45 49 54 NA NA NA NA NA NA NA a n Heating Rise(°C) 25 27 30 NA ' NA NA NA NA NA NA a °'cT CFM 1002 936 875 821 748 887 613 554 565 518 0 a WATTS 144 155 161 171 176 187 193 203 209 220 a c Med-Law1 Pink BHP 0.15 0.17 0.17 0.18 0.19 0.20 0.21 0.22 0.22 0.24 Heating Rise(°F) 43 46 49 53 NA NA NA NA NA NA iil m Heating Rise(°C) 24 26 27 29 NA NA NA NA NA NA 1D CFM 1255 1210 1145 1074 1008 940 878 895 838 785 a; 25-55°F WATTS 249 272 284 292 305 319 ' 320 329 336 347 S.- 42060 (14 31°C) Medium Red BHP 0.27 0.29 0.30 0.31 0.33 0.34 0.34 0.35 0.36 0.37 m Heating Rise(°F) 35 36 38 40 43 46 49 48 52 55 rs La Heating Rise C( ) 19 20 21 22 24 26 27 27 29 31 CFM 1335 1267 1246 1176 1109 1049 988 926 872 891. o WATTS 311 323 330 342 356 367 378 ' 385 395 ' 403 am Med-Highs Orange BHP 0.33 0.35 0.35 0.37 0.38 0.39 0.41 0.41 0.42 0.43 Heating Rise(°F) 32 34 35 37 39 41 44 47 50 49 A _ Heating Rise(°C) 18 19 19 20 22 23 24 26 28 27 ?; - CFM 1472 1401 1326 1251 1275 1198 1139 1085 1023 961 a WATTS 401 414 426 440 471 462 473 478 486 491 `< High Black BHP 0.43 0.44 0.46 0.47 0.51 0.50 0.51 0.51 0.52 0.53 3 Heating Rise(°F) 29 31 33 35 34 36 38 40 42 45 9 _ Heating Rise(°C) 16 17 18 19 19 20 21 22 24 25 a CFM 952 882 806 746 671 605 530 551 486 435 ,,, WATTS 124 134 140 150 156 166 171 182 188 198 "' d Low Blue BHP 0.13 0.14 0.15 0.16 0.17 0.16 0.18 0.20 0.20 0.21 Heating Rise(°F) NA NA NA NA NA NA NA NA NA NA N Heating Rise(°C) NA NA NA NA NA NA NA NA NA NA CFM 1002 936 875 821 ' 748 667 613 554 565 518 n I WATTS 144 155 161 171 176 187 193 203 209 220 m Med-Low Pink BHP 0.15 0.17 0.17 0.18 0.19 0.20 0.21 0.22 0.22 0.24 w Heating Rise(°F) NA NA NA NA NA NA NA NA NA NA c ' Healing Rise(°C) NA NA NA NA NA NA NA NA NA NA w E CFM 1255 1210 1145 1074 1008 940 878 595 838 785 _ __ r. 0 35-65°F 1 WATTS 249 272 284 292 305 319 320 329 336 347 42090 Medium Red BHP 0.27 0.29 0.30 0.31 0.33 0.34 0.34 0.35 0.36 0.37 (19-36°C) Heating Rise(°F) 53 55 58 62 NA NA NA NA NA NA ° Heating Rise(°C) 30 31 32 35 NA NA NA NA NA NA m CFM 1335 1267 1246 1176 1109 1049 988 926 872 891 3 WATTS 311 323 330 342 356 367 378 365 395 403 0- Med-High# Orange BHP 0.33 0.35 0.35 0.37 0.38 0.39 0.41 0.41 0.42 0.43 F Heating Rise(°F) 50 53 54 57 60 64 NA NA NA NA o Heating Rise(°C) 28 29 30 32 34 35 NA NA NA NA CFM 1472 1401 1326 1251 1275 1198 1139 1085 1023. . 961 00- WATTS 401 414 426 440 471 462 473 478 486 491 u High Black BHP 0.43 0.44 0.46 0.47 0.51 0.50 0.51 0,51 0.52 0.53 Heating Rise(°F) 45 48 50 53 52 56 59 62 65 NA 0 'm Heating Rise(°C) 25 27 28 30 29 31 33 34 36 NA • • • t i DR • i r . t t . Y I Dry Coil Air Delivery* -Downflow Discharge Sizes 36-60 3 Phase Models Only (Continued) Unit Heating Motor Wire External Static Pressure(IN.W.C.) c� Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 m CFM 1503 1457 1423 ' 1374 1330 1287 1241 1199 1153 1111 r - WATTS 225 233 246 254 269 282 292 307 314 329 en Low Blue BHP 0.24 0.25 0.26 0.27 0.29 0.30 0.31 0.33 0.34 0.35 -a Heating Rise(°F) 45 46 47 49 50 52 54 56 58 60 a a Heating Rise(°C) 25 26 26 27 28 29 30 31 32 33 c o CFM 1556 1508 1461 1432 1388 1346 1302 1258 1221 1168 a m a WATTS 244 261 268 281 290 305 319 330 345 353 � c Med-Lowt Pink BHP _- 0.26 0.28 0.29 0.30 0.31 0.33 0.34 0.35 0.37 0.38 A Heating Rise(°F) 43 44 46 47 48 50 51 53 55 57 B Heating Rise(°C) 24 25 25 26 27 28 29 30 30 32 a CFM 1861 1822 1786 1758 1716 1688 1680 1619 1583 1539 $ WATTS 400 417 426 441 452 467 482 492 507 519 ° 35-65°F `" ! 48090 (19-36°C) Medium$ Red BHP 0.43 0.45 0.46 0.47 0.48 0.50 0.52 0.53 0.54 0.56 T Heating Rise(°F) 36 37 37 38 39 40 40 41 42 43 m Heating Rise(°C) 20 20 21 21 22 22 22 23 23 24 T CFM 2319 2291 2255 2230 2193 ' 2186 2118 2057 1992 1887 o WATTS 758 769 787 799 808 823 822 805 780 737 c, Med-High Orange BHP 0.81 0.82 0.84 0.86 0.87 0.88 0.88 0.86 0.84 0.79 o- a Heating Rise(°F) NA NA NA NA NA NA NA NA NA 35 a ID Heating Rise(°C) NA NA NA NA NA NA NA NA NA 20 d _- - - CFM 2532 2487 2444 2391 2330. '- 2259 2179 2111 2033 1949 a WATTS 1014 1022 1015 994 965 935 ' 898 858 823 786 •-cc High Black BHP 1.09 1.10 1.09 1.07 1.03 1.00 0.96 0.92 0.88 0.84 3 Heating Rise(°F) NA NA NA NA NA NA NA NA NA NA a Heating Rise(°C) NA NA NA NA NA NA NA NA NA NA a CFM 1503 1457 1423 1374 1330 1287 1241 1199 1153 1111 . CD WATTS 225 233 246 254 269 282 292 307 314 329 w Low Blue BHP 0.24 0.25 0.26 0.27 0.29 0.30 0.31 0.33 0.34 0.35 " Heating Rise(°F) 57 58 60 NA NA NA NA NA NA NA a Heating Rise(°C) 31 32 33 NA NA NA NA NA NA NA a CFM 1556 1508 1461 1432 1388 1346 1302 1256 1221 1168 1 a. WATTS 244 261 268 281 290 305 319 330 345 353 a- Med-Low Pink BHP 0.26 0.28 0.29 0.30 0.31 0.33 0.34 0.35 0.37 0.38 w Heating Rise(°F) 55 56 58 59 NA NA NA NA NA NA 1a Heating Rise(°C) 30 31 32 33 NA NA NA NA NA NA a CFM 1861 1822 1786 1758 1716 1688 1660 1619 1583 1539 30-60°F WATTS 400 417 426 441 452 467 482 492 507 519 c 48115 ° Medium Red BHP 0.43 0.45 0.46 0.47 0.48 0.50 0.52 0.53 0.54 0.56 (17-33 C) Healing Rise(°F) 46 47 48 48 50 50 51 53 54 55 go' Heating Rise(°C) 25 26 26 27 28 28 29 29 30 31 O CFM 2319 2291 2255 2230 2193 2036 2118 2057 1992 1887 a WATTS 758 769 787 799 808 823 822 805 780 737 a. Med-Hight Orange BHP 0.81 0.82 0.84 0.86 0.87 0.88 0.88 0.86 0.84 0.79 . Heating Rise(°F) 37 37 38 38 39 39 40 41 43 45 o' O Heating Rise(°C) 20 21 21 21 22 22 22 23 24 25 -. CFM 2532 2467 -2444 2391 2330 2259 2179 2111 2033 1949 0o- WATTS 1014 1022 1015 994 965 935 898 858 823 786 m' High Black BHP 1.09 1.10 1.09 1.07 1.03 1.00 0.96 0.92 0.88 0.84 9i Heating Rise(°F) 34 34 35 36 37 38 39 40 42 44 H i Healing Rise(°C) 19 19 19 20 20 21 22 22 23 24 Dry Coil Air Delivery - Downflow Discharge Sizes 36-60 3 Phase Models Only (Continued) Unit Heating Motor Wire External Static Pressure(IN.W.C.) 6 Rise Range Speed Color 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 s. op CFM 1503 1457 1423 1374 1330 1287 1241 1199 1153 1111 < WATTS 225 233 - 246 254 289 282 292 307 314 ' 329 m Low Blue BHP 0.24 0.25 0.26 0.27 0.29 0.30 0.31 0.33 0.34 0.35 -o Heating Rise(°F) 63 65 NA NA NA NA NA NA NA NA R. m Heating Rise(°C) 35 36 NA NA NA NA NA NA NA NA 2 CFM 1556 1508 1461 1432 1388 1346 1302 1256 1221 1168 p Fic WATTS 244 261 268 281 290 305 319 330 345 353 a c Med-Low Pink BHP 0.26 0.28 0.29 0.30 0.31 0.33 0.34 0.35 0.37 0.38 Heating Rise("F) 61 63 65 NA NA NA NA NA NA NA i Healing Rise(°C) 34 35 36 NA NA NA NA NA NA NA a CFM 9881 1822 1786 1758 1718 1688 1660 1819 1583 1539 tf°n 35-65°F WATTS 400 417 426 441 452 487 482 492 507 519 48130 (19 36°C) Medium# Red BHP 0.43 0.45 0.46 0.47 0.48 0.50 0.52 0.53 0.54 0.56 m Heating Rise(°F) 51 52 53 54 55 56 57 59 60 62 s Heating Rise("C) 28 29 30 3e 31 31 32 33 33 34 ... CFM 2319 2291 2255 2230 2193 2166 2118 2057 1992 1887 c WATTS 758 769 787 799 808 823 822 805 780 737 m Med-Hight Orange BHP 0.81 0.82 0.84 0.86 0.87 0.88 0.88 0.86 0.84 0.79 Heating Rise(°F) 41 42 42 43 43 44 45 46 48 50 to W Heating Rise("C) 23 23 23 24 24 24 25 26 27 28 ?; CFM 2532 2487 2444 2391 2330 2259 2179 2111 2033 1949 a WATTS 1014 1022 1015 994 965 935 898 858 823 786 'et o High Black BHP 1.09 1.10 1.09 1.07 1.03 1.00 0.96 0.92 0.88 0.84 Heating Rise("F) 38 38 39 40 41 42 44 45 47 49 Heating Rise(°C) 21 21 22 22 23 23 24 25 26 27 .13 CFM 1479 1436 1387 1346 1298 1253 1206. 1160 1114 1061 WATTS 224 239 247 262 270 284 300 307 319 330 rai Lowt Blue BHP 0.24 0.26 0.26 0.28 0.29 0.30 0.32 0.33 0.34 0.35 o Heating Rise(°F) 46 47 49 51 52 54 56 59 61 64 a Heating Rise(°C) 26 26 27 28 29 30 31 33 34 36 CFM 1841 1796 1761 1724 1690 1651 1616 1578 1527 1478 o. WATTS 425 434 453 460 476 485 501 508 525 542 o Med-Low Pink BHP 0.46 0.47 0.49 0.49 0.51 0.52 0.54 0.54 0.56 0.58 m Heating Rise(°F) 36 37 38 39 40 41 41 42 44 45 a Heating Rise(°C) 20 21 21 22 22 23 23 24 24 25 $ CFM 1944 1913 1872 1838 1801 1771 1731 1698 1655 1613 35-65°F WATTS 486 501 511 529 537 554 565 578 595 603 o 60090 (19 36°C) Mediumt Red BHP 0.52 0.54 0.55 0.57 0.58 0.59 0.61 0.62 0.64 0.65 Heating Rise(°F) 34 35 36 36 37 38 39 39 40 41 9. Heating Rise(°C) 19 19 20 20 21 21 21 22 22 23 m CFM 2178 2148 2105 2073 2036 2002 1967 1919 1845 1751 a WATTS 674 691 703 717 733 743 758 754 734 701 Med-High Orange BHP 0.72 0.74 0.75 0.77 0.79 0.80 0.81 0.81 0.79 0.75 Heating Rise(°F) NA NA NA NA NA NA NA 35 36 38 e Heating Rise(°C) NA NA NA NA NA NA NA 19 20 21 e CFM _,. 2480 2432 2375 2322 2236 2181 2085 2006 1917 1808 0. WATTS 1029 1012 995 975 941 908 869 836 796 751 m High Black BHP 1.10 1.09 1.07 1.05 1.01 0.97 0.93 0.90 0.85 0.81 c Heating Rise("F) NA NA NA NA NA NA NA NA 35 37 w Heating Rise(°C) NA NA NA NA NA NA NA - NA 19 21 o e . . g 1 a+ .. Dry Coil Air Delivery* - Downflow Discharge Sizes 36-60 3 Phase Models Only (Continued) < - r Unit Heating Motor Wire External Static Pressure(IN.W.C.) h Rise Range Speed Color 0.1 0.2 0.3 OA 0.5 0.6 0.7 0.8 0.9 1.0 n CFM 1479 1436 1387 1346 1298 1253 1206 1160 1114 1061 ren- WATTS 224 239 247 262 270 284 300 307 319 330 m Low Blue BHP 0.24 0.26 0.26 0.28 0.29 0.30 0.32 0.33 0.34 0.35 v Heating Rise(°F) 58 59 NA NA NA NA NA NA NA NA ' g A.3 Heating Rise(°C) 32 33 NA NA NA NA NA NA NA NA 2 c CFM 1841 1796 1761 1724 1690 1651 1616 :.::1578 1527 1478 p WATTS 425 434 453 460 476 465 501 508 525 542 ‘4 c Med-Low Pink BHP 0.46 0.47 0.49 019 0.51 0.52 0.54 0.54 0.58 0.58 Fli Heating Rise(°F) 46 47 48 49 50 52 53 54 56 58 al Heating Rise(°C) 26 26 27 27 28 29 29 30 31 32 m CFM 1944 1913 1872 1838 1801 1771 1731 1698 1655 1613 m 30-60°F WATTS 486 501 511 529 537 554 565 578 595 603 60115 Medium# Red BHP 0.52 0.54 0.55 0.57 0.58 0.59 0.61 0.62 0.64 0.65 (17-33°C) m Heating Rise(°F) 44 45 46 46 47 48 49 50 51 53 3. Heating Rise(°C) 24 25 25 26 26 27 27 28 29 29 K CFM 2178 2148 2105 2073 2036 2002 1967 1919 1845 1751 o WATTS 674 691 703 717 733 743 758 754 734 701 T Med-Hight Orange BHP 0.72 0.74 0.75 0.77 0.79 0.80 0.81 0.81 0.79 0.75 o Heating Rise(°F) 39 40 40 41 42 43 43 44 46 49 m Heating Rise(°C) 22 22 22 23 23 24 24 25 26 27 m CFM 2480 2432 2375 2322 2236 2161 2085 2006 1917 1808 m WATTS 1029 1012 995 975 941 908 869 836 796 751 ,'c High Black BHP 1.10 1.09 1.07 1.05 1.01 0.97 0.93 0.90 0.85 0.81 3 Heating Rise(°F) NA 35 36 37 38 39 41 42 44 47 m Heating Rise(°C) NA 19 20 20 21 22 23 24 25 26 rn CFM 1479 1436 1387 1346 1298 1253 1206 1160 1114 1061 0i WATTS 224 239 247 262 270 284 300 307 319 330 c,w Low Blue BHP 0.24 0.26 0.26 0.28 0.29 0.30 0.32 0.33 0.34 0.35 Is d: Heating Rise(°F) 64 NA NA NA NA NA NA NA NA NA o Heating Rise(°C) 36 NA NA NA NA NA NA NA NA NA y CFM 1841 1796 1761 1724 1690 1651 1616 1578 1527 1478 n WATTS 425 434 453 460 476 485 501 508 525 542 a Med-Low Pink BHP 0.46 0.47 0.49 0.49 0.51 0.52 0.54 0.54 0.56 0.58 w Heating Rise(°F) 52 53 54 55 56 58 59 60 62 64 a. Heating Rise CC) 29 29 - 30 31 31 32 33 34 35 36 E CFM 1944 1913 1872 1838 1801 1771 1731 1698 1655 1613 35-65°F WATTS 486 501 511 529 537 554 585 578 595 603 S 60130 (19-36°C) Medium Red BHP 0.52 0.54 0.55 0.57 0.58 0.59 0.61 0.62 0.64 0.65 Heating Rise(°F) 49 50 51 52 53 54 55 56 58 59 o Heating Rise(°C) 27 28 28 29 29 30 31 31 32 33 gt m CFM 2178 2148 2105 2073 2036 2002 1967 1919 1845 1751 Al WATTS 674 691 703 717 733 743 758 754 734 701 °" Merl-Hight Orange BHP 0.72 0.74 0.75 0.77 0.79 0.80 0.81 0.81 0.79 0.75 E Healing Rise(°F) 44 44 45 46 47 48 48 50 52 54 o Heating Rise(°C) 24 25 25 26 26 26 27 28 29 30 ti CFM 2480 2432 2375 2322 2236 2161 2085 2006 1917 1808 co r WATTS 1029 1012 995 975 941 908 869 836 796 751 ' i High Black BHP 1.10 1.09 1.07 1.05 1.01 0.97 0.93 0.90 0.85 0.81 gs ot Heating Rise(°F) 38 39 40 41 43 44 46 47 50 53 m Heating Rise(°C) 21 22 22 23 24 24 25 26 28 29 Shaded areas indicate speed/static combinations that are not permitted for dehumidification speed. •. Air delivery values are without air filter and are for dry coil(See Wet Coil Pressure Drop table). 1. Factory-shipped heating speed $. Factory-shipped cooling speed "NA"=Not allowed for heating speed NOTE:Deduct field-supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. Wet Coil Pressure Drop (IN.W.C) r Unit Standard CFM(SCFM) P A Size 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 co m 24 0.03 0.04 0.04 0.05 0.06 -0 '0 30 0.05 0.06 0.07 0.08 0.11 0 0 n i 36 0.06 0.06 0.09 0.10 0.11 0.14 o E. 42 0.05 0.05 0.06 0.07 0.08 0.08 0.09 0.09 0.11 I 48 0.04 0.06 0.09 0.10 0.10 0.11 0.12 0.13 0.14 w 60 0.06 0.07 0.01 0.08 0.09 0.10 0.12 0.13 0 Economizer with 1-in. Filter Pressure Drop (IN.W.C.) g Cooling Standard CFM(SCFM) O Filter Size in.(mm) Tons 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 ill CD 600-1400 CFM 2.0, 9 2.5, 12x20x1+12x20x1 3 0 - - 0.09 0.14 0.16 0.18 0.25 0.28 0.30 - - - - - - - - 3 (305x508x25+305x508x25) it, N '0 1200-1800 CFM CD w `-, 16x24x1+14x24x1 3'S' - - - - 0.10 0.11 0.12 0.13 0.14 0.16 0.16 - - m 0 (406x610x25+356x610x25) 4.0 at 0 O 1500-2200 CFM 0 16x24x1+18x24x1 5.0 - - - - - - - - - 0.15 0.17 0.18 0.20 0.21 0.22 0.23 0.23 0. (406x610x25+457x610x25) m w m f Filter Pressure Drop Table (IN.W.C.) O Filter Size in.(mm) Cooling Standard CFM(SCFM) r Tons 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 r O 600-1400 CFM 2.0, O 12x20x1+12x20x1 2.5, 0.03 0.05 0.06 0.08 0.10 0.11 0.13 0.14 0.16 - - - - - - - - 0 (305x506x25+305x508x25) 3.0 F, 1200-1800 CFM 3.5, 0 16x24x1+14x24x1 0.07 0.08 0.09 0.09 0.10 0.11 0.12 _ 5t (406x610x25+356x610x25) 4.0 0 0- 1500-2200 CFM R. 16x24x1+18x24x1 5.0 - - - - - - - - - 0.04 0.06 0.08 0.10 0.11 0.13 0.14 0.15 (406x610x25+457x610x25) W 1 .U . t 1 w • r 48VL-C,48VL-E:Product Data TYPICAL PIPING AND WIRING - 1111.11 1011.110 6.------ _,,,.._ ROOF-MOUNTING • CURB �' LI �/ I 111,4C L\ _ 0 `^t ; ROOF �i%r / RETURN-AIR FLEXIBLE DUCT FLEXIBLEIDUCT =I , ! -ft CEILING a CONCENTRIC DIFFUSER BOX i (FIELD-SUPPLIED) A09230 INDOOR ®f o THERMOSTAT 111111111111 I -a' / RETURN AIR mil 4jpO 111 lammpir iddippr 4111' TOP COVER PROWER •■ SOURCE 111111111rIMPO' 41111111* --------...____________„ illillik \1, �.` ` ,/ / 1 o0 I ! 111 �,;\ A IP DISCONNECT -\ PER NEC' ■ ` 11. *NEC-NATIONAL ELECTRICAL CODE ■ A09231 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 37 48VL-C,48VL-E:Product Data Application Data Condensate trap —A 2-in. (50.8 mm) condensate trap must be field supplied. Ductwork— Secure downflow discharge ductwork to roof curb. For horizontal discharge applications,attach ductwork to unit with flanges. To convert a unit to downflow discharge—Units are equipped with factory-installed inserts in the down-flow openings. Removal of the inserts is similar to removing an electrical knock-out.Use the duct cover to seal the horizontal discharge openings in the unit. Units installed in horizontal discharge orientation do not require duct covers. Airflow—Units are draw-thru in the cooling mode and blow-thru in the heating mode. Maximum cooling airflow — To minimize the possibility of condensate blow-off from the evaporator, airflow through the units should not exceed 450 CFM per ton. Minimum cooling airflow—Minimum cooling airflow is 350 din per ton. Minimum ambient cooling operation temperature — All standard units have a minimum ambient operating temperature of 40°F (4°C). With accessory low ambient temperature kit, units can operate at temperatures down to 0°F(-17°C). Minimum temperature—Air entering the heat exchanger in heating mode must be a minimum of 50°F(10°C)continuous and/or 45°F(7°C) intermittent. a • Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 38 48VL-C.48VL-E:Product Data Electrical Data VOLTAGE MODEL NOMINAL RANGE COMPRESSOR OFM IFM IDM POWER SUPPLY V-PH-HZ MIN MAX RLA LRA FLA FLA FLA MCA MOCP 2404030 208/230-1-60 197 253 . 8.7 46 0.6 3.9 0.65 15.4 20 2406030 208/230-1-60 197 253 8.7 46 0.6 3.9 0.65 15.4 20 3004030 208/230-1-60 197 253 13.5 72.5 0.7 3.9 0.65 21.5 30 3006030 208/230-1-60 197 253 13.5 72.5 0.7 3.9 0.65 21.5 30 3666030 208/230-1-60 197 253 16.7 79 1.05 5.8 0.65 27.8 40 3606050 208/230-3-60 197 253 10.4 73 1.05 6 1.65 20.1 30 3606060 460-3-60 414 506 5.8 38 0.53 3.2 0.65 11.0 15 3609030 208/230-1-60 197 253 16.7 79 1.05 5.8 .75 27.8 4- 0 3609050 208/230-3-60 197 253 10.4 73 1.05 6 0.52 20.1 3- 0 3609060 460-3-60 414 506 5.8 38 0,53 3.2 0.3 11.0 15 4206030 208/230-1-60 197 253 16.7 109 1.05 3.8 0.65 25.8 4- 0 4206050 208/230-3-60 197 253 11.2 88 1.05 4.1 1.65 19.2 30 4206060 460-3-60 414 506 5.6 44 0.53 3.2 0.65 10.7 15 4209030 208/230-1-60 197 253 16.7 109 1.05 3.8 0.65 25.8 40 4209050 208/230-3-60 197 253 11.2 88 1.05 4.1 0.65 19.2 30 4209060 460-3-60 414 506 5.6 44 0.53 3.2 0.33 10.7 15 4809030 208/230-1-60 197 253 19.6 130 1.05 6.9 0.65 32.5 50 4809050 208/230-3-60 197 253 13.7 83.1 1.05 7.6 ' 0.65 25.8 35 4809060 460-3-60 414 506 6.2 41 0.53 4.0 0.33 12.3 15 4811530 208/230-1-60 197 253 19.6 130 1.05 6.9 0.65 32.5 50 4811550 208/230-3-60 197 253 13.7 83.1 1.05 7.6 1.65 25.8 35 a 4811560 460-3-60 414 506 ' 6.2 41 0.53 4.0 0.65 12.3 15 f 4813030 208/230-1-60 197 253 19.6 130 1.05 6.9 .75 32.5 50 4813050 208/230-3-60 197 253 13.7 83.1 1.05 7.6 0.52 25.8 35 4813060 460-3-60 414 506 ' 6.2 41 0.53 4.0 0.3 12.3 1- 5 6009030 208/230-1-60 197 253 ' 23.7 152.5 1.05 6.9 0.65 37.6 60 6009050 208/230-3-60 197 253 15.9 110 1.05 7.6 0.65 28.6 40 6009060 460-3-60 414 506 7.1 52 0.53 4.0 0.33 13.4 20 6011530 208/230-1-60 197 253 23.7 152.5 1.05 6.9 0.85 37.6 60 6011550 208/230-3-60 197 253 15.9 110 1.05 7.6 1.65 28.6 40 6011560 460-3-60 414 506 7.1 52 0.53 4.0 0.65 13.4 2- 0 6013030 208/230-1-60 197 253 23.7 152.5 ' 1.05 6.9 .75 37.6 60 6013050 208/230-3-60 197 253 15.9 110 1.05 7.6 0.52 28.6 40 6013060 460-3-60 414 506 ' 7.1 52 0.53 4.0 0.3 13.4 20 LEGEND EXAMPLE:Supply voltage is 230-3-60. A 9 o AB=228 v BC=231 v FLA-Full Load Amps AC.=227 v IBM-Inducer Motor PI Average Voltage= 228+ 231+ 227 IFM-Indoor Fan Motor 3 LRA-Locked Rotor Amps MOTOR 686 MCA-Minimum Circuit Amps ' MOCP-Maximum Over Current Protection 3 OFM-Outdoor Fan Motor = 229 RLA-Rated Load Amps Determine maximum deviation from average voltage. AB)229-228 =1 v BC)231-229 =2 v NOTES: AC)229-227 =2 v 1. In compliance with NEC(National ElMrical Code)requirements Maximum deviation is 2 V. for muttiotor and combination load equipment(refer to NEC Determine percent of voltage Imbalance Articles 430 and 440),the overcurrent protective dwice br the unit shall be Power Supply fuse or circuit breaker. %Voltage Imbalance=100 x 2 2. Minimum wire size is based on 60 C copper wire. if other than 229 60 C wire is used, or if length exceeds wire length in table, - determine size from NEC. =0.8% 3. Unbalanced 3-Phase Supply Voltage This amount of phase imbalance is satisfactory as his below the a Never operate a motor where a phase imbalance In supply volt- maximum alkrwable 2%. age is greater than 2%.Use the following formula to determine it the percentage of voltage imbalance IMP- %Voltage imbalance more than2%. contact yourTANT: If the u voltagel phasericimbalance is a9 local electric utility company =100 x max voltage deviation from average voltage immediately. average voltage A06564 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 39 • 48VL-C,48VL-E:Product Data Connection Wiring Schematic 208/230-1-60 CONNECTION WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING SCHEMATIC 208/230-1-60 IF USED p CONT BLK BLK FIELD ---Li... —BLK 11 ® BL CAP 1 OFM SUPPLY H POWER___L2�YEL ® ® YE BLU YEL SEE NOTE 8 EQUIP GND F BRN ® GND UNIT ONLY - BLK COMP YEL MAXIMUM WIRE C YEL N SIZ.E2AWG GRNIYEL GND Mire IFM BLU BLK Lt BRN COM - Al WHEN ®. CAP 2 -USED J � J F,,t_ m o:om YEL BRN BRN I II 1 l TO IOC bM SEE NOTE 4/5 YEL CD ®i 0 TRAM BLK VJ 7,--IF USED OHS titCID IO YEL / RED I P+w 71 BLK-SBLK 0 BLK BLK GRN — YEL 46 rT7GRNIYEL BLK a 1 BLK - I BRN OHN 3h0lmoe�.. �iTANO0,e 0 oB 00000 l0 600 000H DM LI YEL—oFSO th ERN I - YEL IGC 18 —ORG-01 it BRN O s t{� SRN/TEL�7 ) RS P1 BLU -o��o � GRY I ° c L`/�J BLU LS1 LS2 =0CI VIO�RED, u u u ir SEE NOTE NOTE 7 TO IFM YEL �` SEE NOTE 4/5 BRN— SEE NOTE 6 y / \ VIO 1 LL ORS Q4 u¢� 7q M�OMR DEHUM FAN COOL HEAT P2 I 2 OEM cb ^oddo WY` RcH 0 T-STAT ORN I D I BLU—�--DH-- -- BRN—Q!�I--C BRN GRN Tr--G 410 YEL MGV ,_` i�M RY- RED /�-- R - PRESSURE C' GRNlYEL1 oll YEL TrII--Y ll LP KIT J SWITCH WHT—QII--W • ACCESSORY IF USED WHEN USED C I /LPSS I /HPSS -BRN { BLU—e-BLUE--BLK--634--BLK ��l \J A150502 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 40 • 48VL-C,48VL-E:Product Data Ladder Wiring Schematic 208/230-1-60 LADDER WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING LEGEND ILI USE COPPER CONDUCTORS ONLY I ELK L2 FIELD SUPPLY I EQUIP GND 208030 VAC.60 HZ.1 PH 0 HELD SPLICE EQUIP EQUIPMENT C 021 O TERMINAL(MARKED) FS FLAME SENSOR C:11• _S Et OFM VOLBLN GNO GROUND / YEL o TERMINAL(UNMARKED) HPS HIGH PRESSURE SWITCH IF USED • SPUCE I IGNITOR CAP 1 IDM INDUCED DRAFT MOTOR H O SPLICE(MARKED) IFM INDOOR FAN MOTOR - FACTORY LO VOLTAGE IGC INTERGRATED GAS UNIT CONTROLLER IN'O COMP BEN C YEL •C;23 - - FIELD CONTROL WIRING LOPS LOW GAS PRESSURE SWITCH(WHEN USED) F —- FIELD POWER WIRING LPS LOWPRYSSUTEW CHH ___ ACCESSORY OR OPTIONAL LSi PRIMARY LIMIT SWITCH �N TEL WIRING LS2 SECONDARY UMIT SWITCH - FACTORY HI VOLTAGE MGV OUTDOORUIN GAS VALVEN OFM A FAN MOTOR IGC /-IF USED CHS c CONTACTORPA RS ROLLOUT SE WITCH TERMINAL CCH CCH• BLK. ,yy •B/LK.•.BLK YE. • CAPt CAPACITOR,COMP RS ROLLOUT SWITCH CAP2 CAPACITOR,INDUCE(WHEN USED) TRAM TRANSFORMER OEN CON CRANKCASE HEATER TSTAT THERMOSTAT ,i YEL • CHS CRANKCASE HEATER SWITCH IFM SEE NOTE B/ COMP COMPRESSOR MOTOR LI • ELK • •C;23 GRNIEL L SEE NOTE 8 r}7 10 UNIT COMPONENT ARRANGEMENT C,11• t• CM 1OUTDOOR FAN r OFM CAP 2 SECTIO WHEN COMPRESSOR INDOOR FAN CONTROL BOX AREA USED SECTION SECTION �'I IDM ERN IGC iJ 23 23 TEL S2 21 O 11 BO tEL • bpi ® O LI• ELK 0 '0 0 YEL • CAR2 �_bYHEw HCF LSED TRAN COMP roM T-STAT J� RED 0 O BRN TD n LSI sEcna+ O BL IGC zavac v Hps f - -L�s — ) c p IGC 72 fl5 P1-5 O—au( ® A-�-BTU .-a/ BUJ 13)111eD BR •'24VAC CON" FS Eill 3A FUSE 0J-so FS IF USED Y OH___�BLU PIE 0 YEL—{Q a �GRNYEL GND - HEATING FAN LOGIC P2-1 D 'Ti'O—ORN 30I0.-91.N 0/7 D 42 BLOW w G-__P—GRN 'Q W NLOWER R P2J-G O BLO ENERDZE0 ENERGIZED DE-ENERGIZED DE-ENERGCED Pi-2 0--COOLING FAN LOGIC �-- RED P1 5 0 SW (Y\h/^N_I P1-4 0—NO _ °LSI L52rA � 0 1 T T+60 Y---j(r ---YEL O Pvt —Va Reo Y BLOWER Y BLOWER P2-B" " ENERD ENERGIZED DE{NERCa7F0 3E{IBL002ED PIE CD— SEE N GZE NOTE 6 NOTE:IF 22 DE-ENERGIZED REMOVES w--_Q-WHT n .1-___ Ca FOR COOLING,O SECOND OFF DELAY P2-6 V/ + 1 . PRESSURE SWITCH C K� ERN LP%f ORY P1-70 YEL NOTES: 18 P1E0 GRY MGV �GRNVEL 1. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE REPLACED THEY 18 COMET IFM BEN •P13 MUST BE REPLACED WITH THE SAME WIRE OR ITS EQUIVALENT 4-2 2. SEE PRE-SALE LITERATURE FOR THERMOSTATS. 'MOTOR CON 3. USE 75 DEGREES C COPPER CONDUCTORS FOR FIELD INSTALLATION. " [---P4 �� BRN 4. REFER TO INSTALLATION INSTRUCTKNS FOR CORRECT SPEED Q SEE NOTE 4I5-.- -flE9 ��SELECTION FOR IFM. v -caLL&N 5.SEE INSTALLATION INSTRUCTIONS FOR PROPER HEATING AND BEN •P2-2'C" COOLING CONNECTIONS FOR YOUR UNIT. 6. ON SOME MODELS LSI AND LS2 ARE WIRED IN SERIES.ON OTHER MODELS ONLY LS1 IS USED. 7.THIS FUSE IS MANUFACTURED BY LITTLE FUSE.PIN 287003. 8. DO NOT DISCONNECT PLUG UNDER LOAD. 9. N.E.C.CLASS 2,24V. 48VL5D0420 REV- In I IIII�/IIIII1NIIIIIIII) IIIN A150510 • • Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 41 48VL-C,48VL-E:Product Data Connection Wiring Schematic 208/230-3-60 CONNECTION WIRING DIAGRAvi DANGER : ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING NOTES: IF USE 1. IF ANY OF THE ORIGINAL HIRES FURNISHED ARE D—.....„.�CCH IF USE REPLACED, THEY RUST BE REPLACED WITH TYPE SCHEMATIC 90 DEG. C WIRE OR ITS EQUIVALENT. FA/A/—BK-0—BN —BR-4-82. SEE PRE-SALE LITERATURE FOR THERMOSTAT AND SUBBASES. I 2 0 8/2 3 0-3-6 0 3. USE MIN. 75 DEG. COPPER CONDUCTORS FOR FIELD BK 4CHS OFM INSTALLATION. 4. SEE INSTALLATION INSTRUCTIONS Z-F7 BK BK COLOR CODE FOR PROPER HEATING AND COOLING CONNECTIONS FIELD 7-Q� C FOR TOUR UNIT. INDOOR FAN MOTOR PLUGS _ L1 BK y—y BK BLACK • DO NOT DISCONNECT UNDER LOAD' y CAPI DR BROWNL BE 5. L52 USED ON SMALL CHASSIS ONLY. SUPPLY �.(q�,,� B. INDUCER CAPACITOR AND WIRING ON CERTAIN MODELS ONLY. - —L3 J L-Y -=r LIJ - 1-BR—BR GY GRAY IF CAP2 IS PRESENT, YELLOW HIRES FROM IGC AND 1DM C F G GREEN CONNECT ON SAME SIDE OF CAP2. BK L2 0 ORANGE 7. THIS FUSE IS MANUFACTURED BY LITTELFUSE, PIN 287003. J I BL P PINK 8. THIS FUSE IS MANUFACTURED BY LITTELFUSE, PIN 287005. - — R RED 9. DEHUMIDIFICATION FEATURE CANNOT BE USED WHEN EOUIP_GND T V VIOLET _ _ECONOMIZER IS INSTALLED. 10.N.E.C. CLASS 2 24 V lel I H WHITE 1 y Y YELLOW COMP COMPRESSOR PLUG COOLING FAN LOGIC ® -^I,. ECONOMIZER PLUG r tem -I 8 Y L2 1�" LVND G G Y GND / ///7T77] ! P _ IRL S•T ENERGIZED DE-ENERGIZED BK LI I — r �L r el /T/ I � 11 III L _ _I HEATING F�AN LOGIC ^YI 208%230V MARY ® COM II I` iR 45 7 T.45 I<� H GY W BR H BR I 2 T_ ENERGIZED DE-ENERGIZED 1 2 3 42 5 3 TRAN .,�...,,..,-.,r,.� v [DM LL T A I IL 4 I14 f ' - SECONDARY Y �nr _ I Ili H 24V ((} V AP 2 w MO IS S BE R Y J I F"f2 A —BE 0IOC CD— 1 SEE J2 144 UHl NOTE 6 GY Hrr4 RL SEE NOTE 8 w ® 1 BR — SEE NOTE 5 1 ® G R 5A FUSC I I GYM L--Y2 MD DL SEE T'STAT W_J L --W • ® DI. RS NOTE 4 —BL,-"DH ® v ® V— L- 51 - I O�S2•R) G--��—-G R ® y_LGPSS(WHEN USED) Y-i--yI ® G ® D ®PRS BR---4 - 'I --C V ® GI 0,...K.,= -:r�..-,e ® R FS N !�'�'f jsOOfQ17+7 C --0-o I o-8R--th HPS G/y�7 BK IV DH DEHUMIDIFICATION MODE BK GROUNDED ECON ECONOMIZER THRU STANDOFF EQUIP EQUIPMENT I El I BR FS FLAME SENSOR I^`pAr I FU FUSE —SEE I Y LPSj.e--IF USED la FIELD SPLICE LEGEND GND GROUND QQQ Q TERMINAL NARKED) GAS VALVE RELAY NOTE 4 I FB ,-BL 1 a TERMINAL IUNNARKEDI ATRAN NIGH VOLTAGE TRANSFORMER ----II C1 C C2 • SPLICE !IF USEDI I IGNITOR p SPLICE MARKED) IFB INDOOR FAN BOARD —FACTORY WIRING IGC INTERGRATED GAS UNIT / SEE --FIELD CONTROL WINING CONTROLLER NOTE T BR -"FIELD POWER HIRING ION INDUCED DRAFT MOTOR SEE NOTE S ---ACCESSORY OR OPTIONAL IFM INDOOR FAN MOTOR = MIRING LG PS LOW NENS USED)PRESSURE SWITCH r--- 0., -1 • • —TO INDICATE COMMON LSI PRIMARY LIMIT SWITCH m is POTENTIAL ONLY: LS2 SECONDARY LIMIT SWITCH - H NOT TO REPRESENT WIRING o m o m =Voice, MA MAIN GAS VALVE t- J BLR BLOWER RELAY OFM OUTDOOR FAN MOTOR BR C CONTACTOR PRS PRESSURE STITCH H -RRT ()RUMPLE TERMINAL CAP I CAPACITOR. COMP RS ROLLOUT SWITCH • -R CAP 2 CAPACITOR, INDUCER THAN TRANSFORMER tR BR COMP COMPRESSOR MOTOR T'STAT THERMOSTAT • CR COMBUSTION RELAY LPS LOW PRESSURE SWITCHIHHEN USED/ CCU CRANKCASE HEATER CRS CRANK CASE HEATER SWITCH A150508 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 42 ' 48VL-C,48VL-E:Product Data Ladder Wiring Schematic 2081230-3-60 LADDER WIRING DIAGRAM DANGER : ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING Sm UNIT COIIPONENT ARRANGEMENT ram I m I L1BK USE COPPER CONDUCTORS ONLY G/Y IL3 L2 FIELD SUPPLY Y Iy(IcePER OUR wa/n1 • 208/230 VAC, SO HI, 3PH "� 4104 gK LIIILrY, Ik UP 11 '��' TA unglue — . II`11 111 CCH CHS CONT 21 (IF USED/ P3 C 8L —u •• BK—.—BK—{ 13 TNT v, 6° un 11 5/�/' K-►B I G: xrr IF USE A� O BE i BK 1101 r-, Y Ln ET.. O F BR—a' Jr 111� °. II. Brc CAP C ri Tt T Y cde 11 Brc CDY 13 O G/Y IOC Ti 7 LI CR CN IGC il-BK • • v r L2 11 BK GBR --IC ,I Y O Y 13 O CAP2 SEE NOTE 7 IFB �SEE NOTE 6 IRAN OPN[� uART.vtcM Y 24VAC R R BR 24V SECONDARY 24Y E t, T'STAT IFB FUSE IGC ..---SEE NOTE 8 j 3A R Io No-5-.3E NC COM C • R - R O P1-1•R• P2-I"R" O r-0 O • BR • P2-2"C' FS o ill.----{-Y�-BL1 A RS [�$ r GAY E. Q v R 1• RS Ls L1 e--V-1 LS (SEE NOTE 51 G --� G O PI-4.a. LS y �$ OLGPS C NEN USED) P® R o GY-may ryAy GO MGV ILA P2-5•X•Q-ay-QIFO 1Q A W-- W Q Pi-6"W' 20 30 /F USED P2-3'W'O-W�W ON-- el. OP1-5'Y2PDH" OG 5,6 i----Ps ---! CI �•2 BR Pt-4'A'Q -R-OR Bic - L. ••r°a - • C Y1-- H- Y OP1-371/1° - OR -"---'-"--- •COM r -_ SEE NOTE 9 LpW �E P N ^, P1-2"C'Q i NI N O EC NOIE 4 - r `^' 6M BR O GAS HEAT O OK--_ G--J i BR ' N HAR ` R ICE SS Y2--1 I V 1 RE . BR 0 COM C P-IP-U SA HP --10 -BL 48VL500421 - A150511 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 43 • 48VL-C,48VL-E:Product Data 1 Connection Wiring Schematic 460-3-60 CONNECTION WIRING DIAGRAM DANGER : ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING NOTES: I. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE [C IF USED SCHEMATIC REPLACED. THEP MUST BE REPLACED WITH TTPE BR OFM 4 6 O-3-6 O 90 DEG. C WIRE OR ITS EQUIVALENT. 2. SEE PRE-SALE LITERATURE FOR THERMOSTAT AND SUBBASES. 3. USE MIN. 75 DEG. COPPER CONDUCTORS FOR FIELD BR T R BB INSTALLATION. ltlZ COLOR CODE 4. SEE INSTALLATION INSTRUCTIONS Y FOR PROPER HEATING AND COOLING CONNECTIONS ' FOR TOUR UNIT INDOOR FAN MOTOR PLUGS FIELD LI CAP1 BN BLACN - 'D0 NOT DISCONNECT UNDER LOAD' BW U BA- I--BR BL BLUE 5. LS2 USED ON SMALL CHASSIS ONLY. SUPPLY L3 T F BR BROWN 6. INDUCER CAPACITOR AND WIRING ON CERTAIN MODELS ONLY, - - Y t 11 ^- GI' GRAY IF CAP2 IS PRESENT. YELLOW WIRES FROM CONTACTOR AND IDM U BR'�E3+� \ G GREEN CONNECT ON SAME SIDE OF CAP2. ` 0 ORANGE 7, THIS FUSE IS MANUFACTURED BY LITTELFUSE. PAN 281003. L2 BL QED ---- P PINK B. THIS FUSE IS MANUFACTURED BY LITTELFUSE. PIN 281D05. - - R RED 9. DEHUMIDIFICATION FEATURE CANNOT BE USED WHEN OUIP_GND V VIOLET E ECONOMIZER IS INSTALLED. I Y * WHITE ID. N.E.C. CLASS 2 24 V - GUI Y TELLOW - COMP - COMPRESSOR PLUG COOLING FAN LOGIC CED Y Y— L2 GND ECONOMIZER PLUG 4 4 T�60 —GND— r- r SIGN I ENERGIZED DE-ENERGIZED BK L1 -^^"''- 7(( F P • BL ® I [Ti IFM P - el. HEATING FAN LOGIC GGM ( F- W�1 6 11 1�11 L — - I W 45 w Taws —Y BK P 1ol 1( 0 GT ENERGIZED DE-ENERGIZED ® PRIMARY ® T 2 34 z (i( z 1— 460V vim— LL r BBC A I TRAN r -Y—�I,�..Mr ( I SECONDARY 1 BL 1 I1 A R 24 24V 24 Fee r I( ' BR 07Y T r 5 I 5 R I�D BK L 1 IGC �- , IA-FT2 BR ® SEE ' 1 L- 2 NOTE 6 \\ SEE GY NOTE 8 BL /\j�/\ W B 41) R p — ® SEE NOTE710 R (� SA FUSE�A= �� GYJ - Y2 ®' BL RS SEE T'STAT w _ W CD BL NOTE 4 CD v fil -12i Ls1 Lsz I, D -5� R G^/1- -G ® T_LOPS (WHEN USED) Y - -YI ,osr.� JrBR—c - c . �R -R OK ® BR FS N r� o ....s etyw� 0 0--0 1 AR-BR 7 rh • DI XPS p I GAT OK I L- GROUNDED DR OEXUMIDIFICH LION SIGNAL i HRU STANDOFF BR ECON ECONOMIZER EQUIP EQUIPMENT LEGEND FS FLAME SENSOR OSFIE LD SPLICE FU FUSE -IF USED C�TERMINAL NARKED) GNU GROUND IFB IL I o TERMINAL IUNMARREDI GVR GAS VALVE RELAY SPLICE IIF USEDI NY TUN NIGH VOLTAGE TRANSFORMER SEE NOTE 4 ----II I IGNITOR pSPL ICE (MARRED) IFS INDOOR FAN BOARD FACTORY WIRING IOC INTERORATEO GAS UNIT -FIELD CONTROL WIRING CONTROLLER SEE --FIELD PARER WIRING ID4 INDUCED DRAFT MOTOR NOTE 9� SEE BR ----ACCESSORY OR OPTIONAL IFM INDOOR FAN MOTOR WIRING LOPS LOW GAS PRESSURE SNITCH MENI- — 1 NGTE T -TO INDICATE COMMONPRIMARY ULIMI POTENTIAL ONLY; LSI LIMIT SNITCH me, o B x NOT TO REPRESENT WIRING LS2 SECONDARY LIMIT SWITCH Io a o- o n MGV NAIR GAS VALVE : • DLR BLOWER RELAY 0FR OUTDOOR FAN MOTOR _ L- - - C CONTACTOR PRS PRESSURE SWITCH CAP I CAPACITOR. COMP OT QUADRUPLE TERMINAL -R-BR CAP 2 CAPACITOR. INDUCER RS ROLLOUT SWITCH a -R COMP COMPRESSOR MOTOR TRAN TRANSFORMER • ;R - _ BR CR COMBUSTION RELAY T STAT THERMOSTAT CCH CRANKCASE NEATER LPS LOW PRESSURE SWITCHIRNEN USEDI AI505D9 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 44 • 48VL-C,48VL-E:Product Data Ladder Wiring Schematic 460-3-60 LADDER WIRING DIAGRAM DANGER : ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING V UNIT CONFORM ARRANGEMENT auRa,rq uN LI I USE COPPER CONDUCTORS ONLY 1 BK FIELD SUPPLY sit 1,3 L2 d60 VAC, 60 H2, 3PH Y Ia�wx um i,/ wfa w AeA airtAND m' la If i, EPS 6TIPYli1 nN nx, 11 co CONE 21 (IF USED) 23 C et 3 ® COPI rf„I we� 11 R —IN-ON ✓�"."FBX I C x_� @ f� OF N I G <w OK C R w 0 BR S Y nafa O u" i f`n BK E J I= CIAP C ` 2 J Ti T I GNP 11 BK ® G/Y Y 13 C IGC L CR CM BK • • Y 11 O. BR --I( : Y 13C BK KIT CAP2 !_` SEE NOTE I IFB 460V rRAN 460V `SEE NOTE 6 PR—QM/.MM.Q Y 24VAC R 4 R BR } 24V SECONDARY 14Y 24V T'STAT IFB 4 P3AC IGC „or...K.—S EE NOTE 8 R RY GA roG6 IGC 0 com C R •_ R —0P2'I.R. FS P1.11' 0 Y 1„ Qj/� I • BR Q P2-2'C" RS C'r5 O R RS G7Y • O Y R kip--y LS / O (SEE NOTE 5I� • � G •-. L-a--O P1'4•G' 0 T CS LOPS (WHEN USED) PRS n 0—®-0 0 Q GY Co l GV MGV P2'5'K'Q—GY—Q IFO 10 BR w --i Lw _0 20 30 Er USED n P2-3'6"0—*-0 6 -- OR•-i LBL —0F1-5'Y2/DH' OG OTT us CI C2 ---oav-9K-0-BLS—BL •�• BR Q C r-N., P24^R'Q—A—QR Y1 --J LY —OPI-3"YI/T' Y - -- —00014 0 SEE NOTE 9---r._ LOW /-1_-� w 411 BR— PI-2'C" I HIGH Q EE NOTE 4) r Q �'-\ GAS NEATQ l BA— 1 G J --.1 L-- BR R f n HARNESS • Y2--i I V I 2 3 4 BR 5—BK- 0 ma c 6 P--T—BL • 7 P-4—BL 8 48VL500423 - A I S[1512 Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 45 • 48VL-C,48VL-E:Product Data Controls Operating sequence Cooling — When the system thermostat calls for cooling, 24 V is Heating(Single Phase Models)-(See unit wiring label)On a call for supplied to the"Y"and"G"terminals of the thermostat.This completes heating, terminal W of the thermostat is energized, starting the the circuit to the contactor coil (C) and indoor (evaporator) fan relay induced-draft motor for a 5 second pm-purge.When the pressure switch (IFR). The normally open contacts of energized C close and complete senses that the induced-draft motor is moving sufficient combustion air, the circuit through compressor motor (COMP) to outdoor (condenser) the burner sequence begins. his function is controlled by the integrated fan motor(OFM).Both motors start instantly.The set of normally open gas unit controller (IGC). The indoor (evaporator) —fan motor is contacts of energized IFR close and complete the circuit through IFM. energized 30 seconds after flame is established. When the thermostat is The IFM starts instantly. satisfied and W is de-energized, the burners stop firing and the indoor On the loss of the thermostat call for cooling,24 V is removed from both (evaporator)fan motor shuts off after a 90 second time-off delay.Please the "Y"and"G"terminals(provided the fan switch is in the"AUTO" note that the IGC has the capability to automatically reduce the indoor position) de-energizing the compressor contactor and opening the fan motor on delay and increase the indoor fan motor off delay in the contacts supplying power to compressor/OFM.After a 60-second delay event of high duct static and/or a partially-clogged filter. (1-phase) or 90-second delay (3-phase), the IFM shuts off If the Heating(Three Phase Models)-On a call for heating, terminal W of thermostat fan selector switch is in the"ON"position,the IFM will run the thermostat is energized, starting the induced-draft motor. When the continuously. pressure switch senses that the induced-draft motor is moving sufficient NOTE: On units with a Time Guard II device: Once the compressor combustion air,the burner sequence begins. This function is performed has started and then stopped,it cannot be restarted again until 5 minutes by the integrated gas unit controller(IGC).The indoor(evaporator)-fan have elapsed. motor is energized 45 sec after flame is established.When the thermostat is satisfied and W is de-energized,the burners stop firing and the indoor (evaporator) fan motor shuts off after a 45-sec time-off delay. Please note that the IGC has the capability to automatically reduce the indoor fan motor on delay and increase the indoor fan motor off delay in the event of high duct static and/or partially-clogged filter. s i Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 46 • • 48VL-C,48VL-E:Product Data Guide Specifications Packaged Gas Heating/Electric Cooling Units Compressor Constant Volume Application - Fully hermetic compressors with factory-installed vibration HVAC Guide Specifications isolation. Coils: Size Range:2 to 5 Tons,Nominal Cooling Evaporator and condenser coils shall have aluminum plate fins 40,000 to 127,000 Stub, mechanically bonded to seamless copper tubes with all joints brazed. Nominal Heating Input Tube sheet openings shall be belled to prevent tube wear. General Heating Section: SYSTEM DESCRIPTION — Induced-draft combustion type with energy saving direct spark Outdoor rooftop mounted, gas heating/electric cooling unit utilizing a ignition system and redundant main gas valve. hermetic scroll compressor for cooling duty.Unit shall discharge supply — Induced-draft motors shall provide adequate airflow for air vertically or horizontally as shown on contract drawings.Condenser combustion. — fan/coil section shall have a draw-thru design with vertical discharge for The heat exchangers shall be constructed of aluminized steel for corrosion resistance. minimum sound levels. — Burners shall be of the in-shot type constructed of aluminum coated QUALITY ASSURANCE steel. — Unit shall be rated in accordance with AHRI Standards 210/240 and — All gas piping and electric power shall enter the unit cabinet at a 270-1995. single location. — Unit shall be designed in accordance with UL Standard 1995 and Refrigerant Components: ANSI Z 21.47. — Unit shall be manufactured in a facility registered to ISO 9001 Refrigerant expansion device shall be of the TXV (thermostatic manufacturing quality standard. expansion valve)or fixed orifice type. — Unit shall be UL listed and c-UL certified as a total package for Filters: safety requirements. Filter section shall consist of field-installed,throwaway, 1-in. (25 mm) — Roof curb shall be designed to conform to NRCA Standards. thick fiberglass filters of commercially available sizes. — Insulation and adhesives shall meet NFPA 90.1 requirements for Controls and Safeties: flame spread and smoke generation. — Unit controls shall be complete with a self-contained low voltage — Cabinet insulation shall meet ASHRAE Standard 62.2. control circuit. i DELIVERY,STORAGE AND HANDLING — Compressors shall incorporate a solid-state compressor protector — Unit shall be stored and handled per manufacturer's that provides reset capability. recommendations. Operating Characteristics: Products — Unit shall be capable of starting and running at 125°F (51°C) ambient outdoor temperature per maximum load criteria ofAHRI EQUIPMENT Standard 210. General: — Compressor with standard controls shall be capable of operation Factory-assembled, single-piece, heating and cooling unit. Contained down to 40°F(4°C)ambient outdoor temperature. within the enclosure shall be all factory wiring, piping, controls, — Units shall be provided with fan time delay to prevent cold air refrigerant charge with R-410A refrigerant,and special features required delivery before the heat exchanger warms up. prior to field start-up. — Unit shall be provided with 60-second fan time delay(single phase Unit Cabinet: models)or 90 second fan time delay(three phase models)after the — Unit cabinet shall be constructed of phosphated, zinc-coated, thermostat is satisfied. pre-painted steel capable of with-standing 500 hours in salt spray. Electrical Requirements: — Normal service shall be through 3 removable cabinet panels. All unit power wiring shall enter the unit cabinet at a single location. — The unit shall be constructed on a rust proof unit base that has an Motors: externally trapped,integrated sloped drain. — Compressor motors shall be of the refrigerant-cooled type with — Evaporator fan compartment top surface shall be insulated with a line-break thermal and current overload protection. minimum 1/2-in. (12.7 mm) thick, flexible fiberglass insulation, — All fan motors shall have permanently lubricated bearings, and coated on the air side and retained by adhesive and mechanical inherent,automatic reset,thermal overload protection. means. The evaporator wall sections will be insulated with a — Condenser fan motor shall be totally enclosed. minimum semi-rigid foil-faced board capable of being wiped clean, — Evaporator Fan Motor to be ECM Motor. Aluminum foil-faced fiberglass insulation shall be used in the entire Compressor Protection: indoor air cavity section. — Unit shall have a field-supplied condensate trap. Solid-state control shall protect compressor by preventing "short cycling." Fans: — The evaporator fan shall be a multi-speed,direct-drive,as shown on equipment drawings. — Fan wheel shall be made from steel, be double-inlet type with forward curved blades with corrosion resistant f-mish. Fan wheel Y shall be dynamically balanced, — Condenser fan shall be direct drive propeller type with aluminum blades riveted to corrosion resistant steel spiders, be dynamically balanced,and discharge air vertically. Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 47 4 48VL-C,48VL-E:Product Data Guide Specifications (cont) Low NOx: 10.High Altitude Propane Conversion Kit: Shall provide NOx reduction to meet 40 ng/J NOx emissions Shall consist of all required hardware to convert to propane gas heat requirements as shipped from the factory. operation at 2001 to 6000 ft(611 to 1829 m)above sea level. Special Features Available: I t.Low Ambient Package: 1. Coil Options Shall consist of a solid-state control and condenser coil temperature Base unit with tin plated indoor coil hairpins available as a factory sensor for controlling condenser-fan motor operation, which shall installed option. allow unit to operate down to 0°F (-18°C) outdoor ambient 2. Compressor Start Kit(single phase units only): temperature when properly installed. Shall provide additional starting torque for single-phase 12.Manual Outdoor Air Damper: compressors. Package shall consist of damper, birdscreen, and rainhood which can be preset to admit outdoor air for year-round ventilation. 3. `thermostat: To provide for one-stage heating and cooling in addition manual or 13.Natural-to-Propane Conversion Kit: Shall be complete with all required hardware to convert to propane automatic changeover and indoor fan control. gas operation at 10.0 IN.W.C.manifold pressure. 4. Crankcase Heater: Shall provide anti-floodback protection for low-load cooling 14.Propane-to-Natural Conversion Kit applications. Shall be complete with all hardware to convert to natural gas at standard altitude(0 to 2000 ft[0 to 610 m]above sea level). • 5. Economizer: (Horizontal-Field installed accessory) 15.Square-To-Round Duct Transitions(24-48 models): (Vertical-Field installed accessory) Shall have the ability to convert the supply and return openings a.Economizer controls capable of providing free cooling using from rectangular to round. outside air. 16.Time Guard II b.Equipped with low leakage dampers not to exceed 3%leakage,at Automatically prevents the compressor from restarting for at least 4 1.0 IN.W.C.pressure differential. minutes and 45 seconds after shutdown of the compressor. Not c. Spring return motor shuts off outdoor damper on power failure. required when a corporate programmable thermostat is applied or 6. Filter Rack Kit: with a RTU-MP control.Offered as a field installed accessory. Shall provide filter mounting for downflow applications.Offered as 17.Cabinet air leakage of 2.0%or less at .5 in. W.C. when tested in a field installed accessory. accordance with ASHRAF, standard 193. Available as a factory 7. Flat Roof Curb: installed option. ; Curbs shall have seal strip and a wood nailer for flashing and shall 18.Louver Metal Outdoor Coil Grille be installed per manufacturer's instructions. Shall provide hail and vandalism protection. Available as a field 8. Flue Discharge Deflector installed accessory. Directs flue gas exhaust;90 degrees upward from current discharge. 19.Low Pressure Switch Kit 9. Heat Exchanger Kit is designed for use when a low pressure control in desired.This Stainless Steel Heat Exchanger available as a factory installed kit provides added reliability for the compressor. option. a 02019 Carrier Corp. 7310 W Morris Street•Indianapolis,IN 46231 Catalog No:48VL-19PD Edition Date: 11/19 Replaces:48VL-18PD Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. 48