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Plans liCV(L—D 1 TEMP • CONTROL PROJECT WORKSHEET MECHANICAL SERVICE CORP. FAX(503)735-3690 JOB NO. A LINC Service®Contractor CCB#103165 Serious About Service 4750 N.CHANNEL AVE. P.O.BOX 112N elEfIVED 97211 PAGE NO. JOB NAME AUG 2 4 2015 DATE JOB ADDRESS P T ^' f Ng SUBJECT ESTIMATOR ‘ AA 11 4 j j j I 1 , 1 T i I , I , i 1 t-- I 1 1 I ^� I j I j I — r 1 1 I 1 i--- T ____ t_ t of � ypp!iii _ Tiiim i Mr'RCO • : r• ilA t I I — -Pe t : C-yG ir1�i: 01 i ► --� t _4_. , , ::___,,,,tit _ B3: ate: @ 12 . ,� . . --i- i , i----t -, 1 -±-s--, F i • OFFcco : j 1 1 �- -k- - — — 1 a E }-- - I. I I t . I I I j i I I I 1 a o M O i 1 I , I I j �' 1 I ; , �✓ 7024C(10/07) 50SZ Single—Packaged 13 SEER Heat Pump System Carrie 1 and 3 Phase — 2 to 5 Nominal Tons (024-060) Turn to the Experts. Product Data Durable,dependable components Scroll compressors are designed for high efficiency. Each com- pressor is hermetically sealed against contamination to help pro- mote longer life and dependable operation.Vibration isolation pro- ( �/did \ videsquiet operation.Compressors have internal high-pressure and 11 II /% JJ)) overcurrent protection. Direct-drive�I��I�I11 `\ ° ��I blower motor is standard on all 50SZ(permanent split capacitor) %"111111111 11 Il110'1 Direct-drive,PSC condenser-fan motors are designed to help re- „' I- " duce energy consumption and provide for cooling operation down ``IIII1I1111 ��11PR% ��'" to 40°F(4.4°C)outdoor temperature.Motormaster®II low ambi- ent', II entkitisavailableas afield-installed accessory and does not require 4lil IIII� a special motor. \ Corporate thermostats work with Carrier's small packaged prod- ucts as a system to promote year round comfort. Refrigerant system is designed to provide dependability.Liquid refrigerant strainers are used to promote clean,unrestricted opera- tion.Each unit leaves the factory with a full refrigerant charge.Re- frigerant service connections make checking operating pressures easier. Low Low-Pressure/Loss-of-Charge Switch assures added safety and c99001 reliability for the compressor. Indoor and outdoor coils are computer-designed for optimum Unit 50SZ heat transfer and cooling efficiency.The indoor coil is fabricated from copper tube and aluminum fins and is located inside the unit Single-Package Heat Pump for Residential and Light Commercial for protection against damage. The outdoor coil is internally Applications mounted on the top tier of the unit.A FLOP(Factory-Installed Op- tion)metal louvered grille is available on all models. Copper fin • Low Sound Levels coils and pre-coated fin coils are available from the factory by spe- • 13 SEER cial order.These coils are recommended in applications where alu- minum fins are likely to be damaged due to corrosion.They are ideal for seacoast applications. FEATURES/BENEFITS Low sound ratings ensure a quiet indoor and outdoor environment One-piece heat pump with optional electric heater,low installation with sound ratings as low as 72 dBA.(See page 3.) cost,dependable performance and easy maintenance. Easy to service cabinets provide easy single-panel accessibility to serviceable components during maintenance and installation.The unit base,with integrated drain,provides easy ground level installa- • Efficient operation tion with or without a mounting pad.Convenient handholds are pro- High-efficiency design with SEERs(Seasonal Energy Efficiency vided to manipulate the unit on the job site.A nesting feature ensures Ratios)of 13.0 and HSPFs(Heating Seasonal Performance Factors) a positive unit base to roof curb seal when the unit is roof mounted. of up to 7.7. A convenient 3/4-in.wide perimeter flange makes frame mounting on a rooftop easy. Easy Installation Downflow operation is easily provided in the field to allow vertical Factory-assembled package is a compact,fully self-contained, ductwork connections.The unit base utilizes knockout style seals heat pump unit that is pre-wired,pre-piped,and pre-charged for on the bottom openings to ensure a positive seal in the horizontal air- minimum installation expense.50SZ units are available in a variety flow mode. of standard capacity ranges with voltage options to meet residential Standard metal duct covers with insulation come with the unit and and light commercial requirements.Units install easily on a rooftop cover the duct openings.These can be left in place if the units are or at ground level. converted to downshot. 1 Cabinets are constructed of heavy duty,phosphated,zinc-coated and Air Conditioning Engineers No.62P.)The sloped drain mini- prepai nted steel capable of withstanding 500 hrs of salt spray. nteri- mizes standing water in the drain,which is provided with an external or surfaces are insulated with cleanable semi-rigid insulation board, drain fitting. which keeps the conditioned air from being affected by the outdoor Short-Cycling protection for the compressor is incorporated into ambient temperature and provides improved indoor air quality. our defrost control board ensuring a five minute delay(+/-2 min- (Conforms to American Society of Heating,Refrigeration utes)before restarting compressor after shutdown for any reason. TABLE OF CONTENTS PAGE FEATURES/BENEFITS 1 MODEL NUMBER NOMENCLATURE 2 ARI CAPACITY RATINGS 3 PHYSICAL DATA 4 ACCESSORIES 5 ry DIMENSIONAL DRAWINGS 7-8 SELECTION PROCEDURE 10 o PERFORMANCE DATA 11-18 APPLICATION DATA 21 ELECTRICAL DATA 22 TYPICAL WIRING SCHEMATICS 23-24 CONTROLS 25 GUIDE SPECIFICATIONS 26-27 MODEL NUMBER NOMENCLATURE 50SZ 024 --- 3 0 1 -- Options -Wire Grille AD-Louvered Grille Type of Unit BT-Wire Grille and vinyl-coated outdoor coil fin 50SZ -Single Packaged XT-Louvered Grille and vinyl-coated outdoor coil fin Heat Pump Unit CC-Wire Grille,AL indoor and CU/CU outdoor coil Nominal Cooling Capacity CU-Wire Grille,Cu/CU indoor and outdoor coils 024 -2.0 Tons AC-Louvered Grille,AL indoor and CU/CU outdoor coil 030 -2.5 Tons AU-Louvered Grille,CU/CU indoor and outdoor coils 036 -3.0 Tons Only used if ordering an option 042 -3.5 Tons 048 -4.0 Tons Packaging 060 -5.0 Tons Series N/A Electrical Supply 3-208/230-1-60 5-208/230-3-60 6-460-3-60 LEGEND AL — Aluminum CU — Copper 2 ARI* CAPACITIES COOLING CAPACITIES AND EFFICIENCIES UNIT 60SZ NOMINAL TONS STANDARD CFM NET COOLING I SEER RATINGS (SERIES) CAPACITIES(Btuh) (dB)$ 024 2.0 800 24,000 13.0 72 030 2.5 1000 30,000 13.0 72 036 3.0 1200 36,000 13.0 72 042 3.5 1400 41,500 13.0 73 048 4.0 1600 47,000 13.0 78 of 080 5.0 1750 57,000 13.0 78 HEATING CAPACITIES AND EFFICIENCIES UNIT 6082 HIGH HEAT CAPACITY HIGH HEAT COP @ 47•F LOW HEAT CAPACITY LOW HEAT (SERIES) (Btuh)@ 47°F(8.3•C) (8.3°C) (Btuh)@ 17°F (-8.3°G') COP@ 17°F HSPFt (-8.3•C) 024 23,000 3.3 12,800 2.2 7.7 030 29,000 3.3 16,000 2.2 7.7 036 35,000 3.3 19,200 2.2 7.7 042 41,000 3.3 22,600 2.2 7.7 048 46,000 3.2 25,400 2.2 7.7 060 55,000 3.3 27,800 2.0 7.7 *Air Conditioning&Refrigeration Institute. t Rated in accordance with U.S.Government DOE Department of Energy)test procedures and/or ARI Standard 210/240-03. $Tested in accordance with ARI Standard 270-95(not listed in ARI). NOTES: LEGEND 1.Ratings are net values,reflecting the effects of circulating fan heat. dBA-Sound Levels(decibels) Ratings are based on: COP-Coefficient of Performance Cooling Standard: 80°F(26.6°C)db,67°F(19.4°C)wb indoor HSPF-Heating Season Performance Factor entering-air temperature and 95°F(35°C)db outdoor entering-air db-Dry Bulb temperature. SEER-Seasonal Energy Efficiency Ratio 2.Before purchasing this appliance,read important energy cost and wb-Wet Bulb efficiency information available from your retailer. OUTDOOR SOUND:OCTAVE BAND DATA-DECIBELS (dBA) UNIT 50SZ Frequency(Hz) 024 030 036 042 048 060 125 55.9 54.7 57.8 58.4 67.8 64.8 r 250 57.0 60.0 62.4 63.1 68.9 66.5 500 63.9 88.6 69.5 66.2 71.7 - 70.4 1000 66.8 67.0 72.3 66.8 72.7 73.2 2000 63.3 63.7 69.0 63.6 69.2 69.6 4000 59.0 59.5 65.4 59.9 65.7 67.1 8000 52.9 52.1 57.4 54.1 58.5 60.6 3 PHYSICAL DATA UNIT SIZE 50SZ - 024 - - 030 036 042 048 080 NOMINAL CAPACITY(ton) 2-1/2 3 3-1/2 4 5 OPERATING WEIGHT(lb.) 366 433 480 480 492 NO 166 198 209 218 223 Compressor Scroll Refrigerant(R-22)Quantity(lb.) I 8.2 10.7 I 10.8 12.1 11.8 REFRIGERANT METERING DEVICE AccuRatera Orifice ID(In.) 0.070 0.080 0.088 0.088 0.101 Orifice OD(In.) X032( (1) .035(1).038(1) .038(2) .046(2) I .052(2) .057(2) CONDENSER COIL Rows...Fins/In. 2...21 2...21 2...21 2...21 I 2...21 2...21 Face Area(sq.ft.) 11.9 13.6 15.5 19.4 19.4 19.4 CONDENSER FAN Nominal Cfm 2700 2700 2800 2800 3300 3300 Diameter 22 22 22 22 22 22 N Motor HP(RPM) 1/8(825) 1/8(825) 1/8(825) 1/8(825) 1/4(1100) 1/4(1100) o EVAPORATOR COIL Lo Rows...Fins/In. 3...17 3...17 3...17 d 3...17 3...17 4...17 Face Area(sq.ft.) 3.7 3.7 4.7 4.7 5.6 5.6 EVAPORATOR BLOWER Nominal Airflow(Cfm) 800 1000 1200 I 1400 1600 I 1750 Size(in.) 10x10 10x10 11x10 11x10 11x10 11x10 (mm) 254x254 254x254 279x254 279x254 279x254 279x254 Motor HP(RPM) 1 1050) 1/3(1050) 1/2(1000) 1/2(1075) 1/2(1075) 1 (1040) Return-Air Filters(in.)*Throwaway 4x1 20x24x1 24x36x1 24x36x1 24x36x1 24x38x1 Return-Air Filters(mmr Throwaway 208 10x25 208x610x25 610x914x25 610x914x25 610x914x25 610x914x25 iso 9001:2000 . r ill\■ PERFORMANCE REGISTERED CERTIFIED C P L US Mien NMI P..II. ELECTRIC HEAT PRESSURE DROP TABLES(w.c) Small Cabinet:024-030 STATIC - CFM 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 5 kW 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.02 0.04 0.06 0.07 10 kW 0.00 0.00 0.00 0.00 0.00 0.02 0.04 0.06 0.07 0• .09 0.10 0.11 15 kW 0.00 0.00 0.00 0.02 0.04 0.06 0• .08 0.10 0.12 0• .14 0.16 0.18 20 kW 0.00 0.00 0.02 0.04 0.06 0.08 . 0• .09 ' 0.11 0.13 0.15 0.17 0.19 Large Cabinet:036-060 STATIC CFM 1100 1200 1300 1400 1500 1800 1700 1800 1900 2000 2100 2200 2300 2400 2500 5 kW 0.00 0.00 0.00 0.01 . 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 10 kW 0.00 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13 15 kW 0.00 0.02 0.03 0.04 ' 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13 0.14 0.15 20 kW 0.02 0.03 0.04 0.05 ' 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13 0.14 0.15 0.16 4 OPTIONS AND ACCESSORIES Factory-installed options Manual outside air damper includes hood and filter rack with ad- Louvered grille provides hail and vandalism protection. A wire justable damper blade for up to 25%outdoor air. grille is standard on all models.See model number nomenclature for Electric heaters provide additional heat in the unit when required. louvered grille options. Each package has a heater module that slides into the controls Coil options include copper/copper and vinyl-coated construction compartment.Heater sizes range from 5.0 to 20.0 kW.The electric for refrigerant coils.Units are shipped standard with copper tube/ heater design allows the use of a single-point power supply for the aluminum fin construction. See model number nomenclature for entire unit,resulting in lower installed costs. coil options. Flat roof curbs in both 8 in.and 14 in.sizes are available for roof Field-installed accessories mounted applications. Economizer with Solid-State Controls and Barometric Square-to-round duct transition kit enables 024-048 size units Relief Dampers to be fitted to 14 in.round ductwork. Manual Air Damper(25%open) Thermostats provide control for the system heating and cooling Electric Heaters functions.Thermostat models are available in both programmable Filter Rack and non-programmable versions. Flat Roof Curbs(8-in.and 14-in.) Controls upgrade kit supplies high and low pressure safety protec- Square-to-Round Duct Transition Kit tion and protects the unit from operating in unsuitable conditions. N Thermostats Crankcase heater provides anti-floodback protection for low- Controls Upgrade Kit load cooling applications. Crankcase Heater Rigging kit includes lifting brackets which are inserted into the unit Rigging Kit base rigging holds to lift unit for rooftop applications. Low Ambient Kit(Motormaster®I I Control) Low-ambient kit(Motormaster II control)allows the use of me- Solid-State Time Guard®II Device chanical cooling down to outdoor temperatures as low as 0°F Compressor Hard Start Kit (-17.7°C). Filter rack features easy installation,serviceability,and high-fil- Economizer with solid-state controls and barometric relief tering performance for vertical and horizontal applications. dampers includes filter racks and provides outdoor air during cool- Compressor hard start kit gives a boost to the compressor motor ing and reduces compressor operation. at each start-up. ELECTRIC HEATERS ODS CATALOG NOMINAL FUSES USED WITH SIZES ORDERING NO. CAPACITY(kW) 024 030 036 I 042 048 I 060 ELECTRIC HEATERS p08/230—SINGLE PHASE—60 Hz) CPHEATER052A00 5.0 0 X X X X X CPHEATER064A00 5.0 4 X CPHEATER070A00 7.2 4 X X X X CPHEATER050A00 10.0 4 X X X X X X CPHEATERO66A00 15.0 6 X X X X X CPHEATER054A00 20.0 6 X X X ELECTRIC HEATERS(208/230—THREE PHASE—60 Hz) CPHEATERO55AOO 5.0 0 X X X X X CPHEATER066A00 10.0 0 X X X X CPHEATERO68A00 10.0 6 X CPHEATER057A00 15.0 0 X . CPHEATERO58A00 15.0 6 X X X X CPHEATER059A00 20.0 6 X X X ELECTRIC HEATERS(460—THREE PHASE—60 Hz) CPHEATERO60A00 5.0 0 X X X X CPHEATER061A00 10.0 0 X X X X CPHEATER062AOO 15.0 0 X X X X CPHEATER063A00 20.0 0 X X X NOTE:Electric heaters are rated at 240v and 480v.Refer to Multiplication Factors table for other voltages. LEGEND ODS—Order Distribution System Minimum Airflow for Reliable Electric Heater Operation(cfm) UNIT-50SZ 024 030 036 042 048 060 AIRFLOW 800 1000 1200 1400 • 1600 2000 5 ECONOMIZER FILTER ACCESS DOOR ■ I �� (HORIZONTAL ` �` AO IC TION ONLY.) FROM DOWNFLOW ( DISCHARGE. ,,.. %till 111111111111111 11111 111111IIIII /IIMIIIIIIII ./PANEL REPLACEMENT HOLE FOR ECONOMIZER Hi illi�� WIRING HARDNESS \ \ I N ®I , II� DOOR ` I . \\ RAINHOOD CD O 1 CAULK BOTTOM CORNER LATCH ANGLE \'�� •{;�.' OF ECONOMIZER / `�� •: SIDE VIEW OF EACH SIDE 40::s HINGED FILTER ACCESS DOOR INSTALL FILTER FILTER ACCESS ALUMINUId DOOR STICKER FILTER COIL 11• EcONOMIzER ..._ FLANGE ON BASE DETAIL FILTER RACK MANUAL OUTSIDE AIR DAMPER BEND FLANGE AT 9J-SCREW TO DIVIDER WITH 1-IN.SCREW ` REPLACEMENT PANEL \' TOP FILTER RACK .J•• MANUAL OUTSIDE • AIR HOOD CORPORATOR /� , COIL i Li l DAMPER P • BLADE / • i J i Alb. r�J e. ; o ' r :� ,�A:K„oI,,FILTER 0 f A05239 6 BASE UNIT DIMENSIONS-50SZ024-030 EVAPORATOR COIL 86.0 251.0 • 546.1 x++251.0., 13.391 (10.001 121.501 110.001 70.6 RETURN SUPPLY 12.78) IF ) i = luuiii 7 Ilh RETURN 1 SUPPLY III p ,AIR 106.1 �,1 NINS •fNING III 016.001 N III luq Vii, III SUPPLY p[`CpN III 102.0 DUCT UuC' 7 pCll---��\ / -J III [15.831 OPENING OFt 9NN \'•. / III rr 111i1 ` J 1 aaaN i I ii ] 11� MEW11111; Ii.l CONDENSER COIL 11.631 24.9 550.5 219.6 (9.831 (21.67] 19.83] COIIPRE550R,8LOR'ER,ELECTRIC HEAT * TOP VIEW 13.481 REAR VIEW N S ELECTRIC ACCESS PANEL 0 798.5 + 1193.9 131.111 [11.001 FIELD ENTRY 23'1 SERVICE PORTS 10.9I1 \ lir I6 11IIIIIIIIIIIIIIIIII� 22.2 1D.98/D AANOIEY 1IIIIIIIIIIIIIIII�IIIIIIIIII 11111111111111111111 IIIIIIIIIIIIIIII CONTROL(6161 5)0.3 [22.151 31.) ' 12.1 2 216.2 15.301[2.851 (10.Sn ,1=5�^L_I. 1 I. 11:=.-sM-1, 12.1 fL681 [?2851 -- 1226 3 ..•I 83.131 L 831.0 N \ (18 281 12L2 5.0 132.721 --19.0 OUTLET 11.°1) RIGHT SIDE VIEW 10.201 LEFT SIDE VIEW i'ii.0 10.011 GPT. FRONT VIEW REQUIRED CLEARANCE TO COMBUSTIBLE MATE. REQUIRED CLEARANCE FOR OPERATION AND SERVICING (Refer to Maximum Operating Clearances) INCHES[mm] INCHES[mm] EVAP.COIL ACCESS SIDE 36.00[914.0] TOP OF UNIT 14.00[355.6] POWER ENTRY SIDE 42.00[1066.8] DUCT SIDE OF UNIT 2.00[50.8] (EXCEPT FOR NEC REQUIREMENTS) SIDE OPPOSITE DUCTS 14.00[355.6] UNIT TOP 48.00[1219.2] BOTTOM OF UNIT 0.50[12.7] SIDE OPPOSITE DUCTS 36.00[914.0] DUCT PANEL 12.00[304.8] * NEC.REQUIRED CLEARANCES. *MINIMUM DISTANCES: IF UNIT IS PLACED LESS THAN 3048 112.00]FROM INCHES[mm] WALL SYSTEM,THEN SYSTEM PERFORMANCE MAYBE COMPROMISE. BETWEEN UNITS,POWER ENTRY SIDE 42.00 1068.8] UNIT AND UNGROUNDED SURFACES,POWER ENTRY SIDE 38.00[914.0] UNIT AND BLOCK OR CONCRETE WALLS AND OTHER GROUNDED SURFACES,POWER ENTRY SIDE 42.00[1068.8] A05162 ELECTRICAL UNIT WEIGHT UNIT HEIGHT CENTER OF GRAVITY UNIT CHARACTERISTICS IN. M] IN.[MM] lb kg "A X Y Z 50SZ024 208/230-1-60 -- 343 ' 156 39.02[991] 20.0[508] 19.3[490] - 17.8[447] - 50SZ030 208/230-1-60,208/230-3-60 j 366 166 41.02[1042] 20.0[508] 14.0[356] 13.0[330] 7 BASE UNIT DIMENSIONS-50SZ036-060 86.0 355.8 342.7 355.6 f3 391 114.001 113.491 114.001 70.1 II [2.77] RETURN SUPPLY r , ! V 15 - - =llll£= ----- .1 .. , - , , , . GP710NA2 1 OPTIONAL RETURN 8 SUPPLI 1 106.1 8 AIR ; AIR 1 1 466.41 OPENING 1 OPENING 1 •1 1 __� I SUPPLY• • • RETURN I DUCT DUCT 1 9i�j. �� II 402.0 OPENING OPENING • 1 �' I 415.631 I III 1 Irll�llG'un I' a II ��1��1�� )))))))��9 ) I JI1 II �G I IMI \�c`�= /. YAPOAATOA COIL I r I I 1 ]b Y 1111 \`' j. I 117 7 _�� I�1Ir 16.631 r-351.2 +341.3 -•••••-351.2 __ G'4 (13.831 [13.671 113.631~ N 11 a===El NH ■ll=------=s 68.1 88.Ia1 CONDENSER COIL LE' L .,. TOP VIEW REAR VIEW CONPRESSOR.8LO6ER,ELECTRIC HEAT I ELECTRIC ACCESS 1090.6 `^• 1193.9 .w 142.94] 147 001 23.0 ' FIELD ENTRY (0.911 S lir ERVICE PORTS L,__....._____ 1_,_=,_,=ii ., , . IIIIIIIIIIIII, 44.5(1.751 DIA 6.0 I POWER ENTRY 1 • • 'I A r 22.2 [0.881 DIA MOLE CONTROL ENTRY 620 Z •• 124 421 1 1 I 111211 S•11I��•72 4 326.1 - f2 851 d [126.841 61.1 12.1 321.0 +{ [3.431] !1.661 112.851 I I� _ 122 1 [� 5 0 1123.1 "`III 1226.3 - [4.611 10.201�~ 144 221 (10.261 Nss-DRAIN OUTLET LEFT SIDE VIEW 19_0 [0.751 1 0 T 122.010.67]DP FRONT VIEW RIGHT SIDE VIEW REQUIRED CLEARANCE TO COMBUSTIBLE MATL. REQUIRED CLEARANCE FOR OPERATION AND SERVICING (Refer to Maximum Operating Clearances) INCHES[mm] INCHES[mm] EVAP.COIL ACCESS SIDE 36.00[914.0] TOP OF UNIT 14.00[355.6] POWER ENTRY SIDE 42.00[1086.8] DUCT SIDE OF UNIT... 2.00[50.8] (EXCEPT FOR NEC REQUIREMENTS) SIDE OPPOSITE DUCTS 14.00[355.6] UNIT TOP 48.00 11219.2] BOTTOM OF UNIT 0.50[12.7] SIDE OPPOSITE DUCTS 36.00 914.0] DUCT PANEL 12.00 304.8] * NEC.REQUIRED CLEARANCES. *MINIMUM DISTANCES: IF UNIT IS PLACED LESS THAN 304.8[12.00]FROM INCHES[mm] WALL SYSTEM,THEN SYSTEM PERFORMANCE MAYBE COMPROMISE. BETWEEN UNITS,POWER ENTRY SIDE 42.00[1066.8] UNIT AND UNGROUNDED SURFACES,POWER ENTRY SIDE 36.00[914.0] UNIT AND BLOCK OR CONCRETE WALLS AND OTHER GROUNDED SURFACES,POWER ENTRY SIDE 42.00[1066.8] A05126 ELECTRICAL UNIT WEIGHT UNIT HEIGHT CENTER OF GRAVITY UNIT CHARACTERISTICS IN.[MM] IN.[MM] lb kg "A° X Y Z 508Z036 ' 208/230-1-60,208/230-3-60,460-3-60 433 r 196 42.98[1092] 21.0[533] 20.5[520] 16.6[422] 50SZ042 ' 208/230-1-60,208/230-3-60.460-3-60 480 209 46.98[1193] 21.0[533] 20.5[520] 17.1 [434] 50SZ048 208/230-1-60,208/230-3-60,460-3-60 480 218 46.98[1193] 21.0[533] 20.0[506] 17.4[442] 505Z060 208/230-1-60,208/230-3-60,460-3-60 492 223 46.98[1193] 21.0[533] 20.0[508] 17.6[447] 8 ACCESSORY DIMENSIONS VACunit VAC base base Gask eting Screw Gasketing Screw � er flange* (NOTE A)�� inner flange* ( unit NrE A) Gasketing 4_ " asketing 431 :17 1 outer flange er flange 11 Wood nailer* Wood nailer* Flashing field Flashing field supplied Roof curb* supplied f Roof curb* Insulation(field Insulation(field Roofing material supplied) Roofing mateial / supplied) field supplied field supplied JJJ field D supplied Ductwork Cant strip / Cant strip / field supplied field supplied /�` field supplied �Z' • N /� Roof J Roof tN /` O *Presided with roof curb *Provided with roof curb Roof Curb for Small Cabinet Roof Curb for Large Cabinet Note A:When unit mounting screw is used, Note A:When unit mounting screw is used, retainer bracket must also be used. retainer bracket must also be used. G S • nq\1 - / , F . CD E Q F T : ' P. \ \ / ■ R/A S/A • / " Gasket around E o duct /.—� • • ` Insulated Gasket around d/ss°ptap°rtn suletm deck pan outer edge deck pm sLo e rt \ RetB Xo 7n9 A05308 UNIT SIZE ODS CATALOG A B C D E F G NUMBER IN.(MM) IN.(MM) IN.(MM) IN.(MM) IN.(MM) IN.(MM) IN.(MM) 5052024-030 CPRFCURB006A00 8(203) 11 (279) 16-1/2(419) 28-3/4(730) 30-3/8(771) 44-5/16(1126) 45-15/16(1167) CPRFCURB007A00 14(356) 11 (279) 16-1/2(419) 28-3/4(730) 30-3/8(771) 44-5/16(1128) 45-15/16(1167) -060 CPRFCURBOO8A00 8(203) 18-3/16(411) 17-3/8(441) 40-1/4(1022) 41-15/16(1065) 44-7/16(1129) 46-1/16(1189) 50SZ036 • CPRFCURB009A00 14(356) 18-3/16(411) 17-3/8(441) 40-1/4(1022) 41-15/16(1065) 44-7/16(1129) 46-1/16(1189) 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. Dimensions are in inches. 4. Dimension in()are in millimeters. 5. Roof curb is made of 16-gauge steel. 6. Attach ductwork to curb(flanges of duct rest on curb). 7. Insulated panels:1-in.thick fiberglass 1 lb.density. 8. When unit mounting screw is used(see Note A),a retainer bracket must be used as well.This bracket must also be used when required by code for hurricane or seismic conditions.This bracket is available through Micrometl. 9 50SZ CORNER WEIGHTS AND SUGGESTED RIGGING 1 2 0711 / 1 , MINIMUM HEIGHT: 36' A ik U %\tt DLIAILA 0 kk"S� � �.A .:0 UNIT HEIGHT �� SEE DETAIL A 4 x 3 444%... N cn 7 C00071 A05161 l.'7 CORNER WEIGHTS(SMALL CABINET)Lbs. CORNER WEIGHTS(LARGE CABINET)Lbs. Unit 024 030 Unit 036 042 048 060 Total Weight 343 366 Total Weight 433 460 480 492 Corner Weight 1 69 74 Corner Weight 1 87 93 97 99 Corner Weight 2 53 57 Corner Weight 2 68 72 74 76 Corner Weight 3 83 88 Corner Weight 3 104 111 116 119 Corner Weight 4 138 147 Corner Weight 4 174 184 193 198 Rigging Weight 353 376 Rigging Weight 443 470 490 502 Shipping Weight 373 396 Shipping Weight 483 490 510 522 SELECTION PROCEDURE (WITH EXAMPLE) I. Determine cooling and Beating requirements of design condi- using the formula found in Note 3 following the cooling capacities lions: tables.NOTE:Unit ratings are net capacities. Given: III.Select electric heat. Required Cooling Capacity(TC) 28,000 Btuh Enter the unit Heating Extended Performance table at 1125 cfm.At Sensible Heat Capacity(SHC) 20,500 Btuh 70°F(21.1°C)retum indoor air and 20°F(-6.6°C)air entering out- Required Heating Capacity(SHC) 28,550 Btuh door coil,the integrated heating capacity is 16,200 Btuh.(Select in- Outdoor Entering Air Temperature 95°F(35°C) tegrated heating capacity value since deductions for outdoor-coil frost and defrost have already been made.No correction is required.) Outdoor-Air Winter Design Temperature 20°F(-6.6°C) The required heating capacity is 28,550 Btuh.Therefore,12,350 Indoor-Air Winter Design Temperature 70°F(21.1°C) Btuh(28,550- 16,200)additional electric heat is required. Indoor Entering-Air Temperature 80°F(26.6°C) Determine additional electric heat capacity in kW. 67°F(19.4°C)ewb 12.350 Btuh =3.6 kW of heat required Indoor-Air Quantity 1125 cfm 3,414 Btuh/kW External Static Pressure 0.20 in.we Enter the Electric Heater table on page 5 for 208/230 v,single- Electrical Characteristics(V-Ph-Hz) 230-1-60 phase,unit.The 5-kW heater at 240 v most closely satisfies the heat- edb —entering dry bulb ing required.To calculate kW at 230 v,multiply the heater kW by ewb—entering wet bulb multiplication factor 0.92 found in the Multiplication Factors table II.Select unit based on required cooling capacity. on page 17. . Enter Cooling Extended Performance table at outdoor entering-air 5 kW x 0.92=4.6 kW temperature of 95°F(35°C),indoor air entering at 1125 cfm and 4.6 kW x 3414=15,704 Btuh 67°F(19.4°C)ewb(entering wet bulb).The unit will provide a total Total unit heating capacity is 31,900 Btuh(16,200+15,704). • cooling capacity of 30,900 Btuh and a sensible heat capacity of IV.Determine fan speed and power requirements at design condi- 24,800 Btuh. tions. For indoor-air temperature other than 80°F(26.6°C)edb(entering dry bulb),calculate sensible heat capacity correction,as required, Before entering the air delivery tables,calculate the total staticpres- sure required. 10 PERFORMANCE DATA COOLING EXTENDED PERFORMANCE TABLE 50SZ024 !TEMP°F(°C) EVAPORATOR AIR-CFM/BF OUTDOOR 700/0.08 800/0.10 900/0.11 AIR Evaporator Alr Ewb°F(°C) ENTERING 57 82 63* 67 72 57 82 63* 67 72 57 62 63* 67 72 CONDENSER (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (18.6) (17.2) (19A) (222) ' 75 TC 21.0 23.2 23.6 25.6 29.0 22.0 23.9 24.2 26.1 28.0 22.9 24.5 24.7 26.5 28.3 (23.8) SHC 21.0 21.1 17.1 17.8 14.7 22.0 22.8 18.3 19.1 14.7 22.9 24.3 19.5 20.2 15.3 kW 1.7 1.7 1.7 1.7 1.7 1.8 1.8 1.8 1.8 1.8 1.8 1.9 1.9 1.9 1.9 • TC 20.2 22.2 22.6 24.5 27.1 21.2 22.9 23.1 25.2 27.6 22.1 23.8 23.6 25.6 27.9 as (29.4) SHC 20.2 20.7 16.6 17.4 13.9 21.2 22.3 17.9 18.7 14.7 22.1 23.4 19.0 20.0 15.4 kW 1.9 1.9 1.9 1.9 1.9 1.9 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.1 2.1 98 TC 19.5 21.2 21.5 23.4 26.1 20.4 21.9 22.1 24.0 26.7 21.2 22.7 22.5 24.4 ' 27.1 (35) SHC 19.5 20.2 16.2 16.9 13.6 0.4 21.7 17.4 18.2 14.4 21.2 22.5 18.5 19.5 15.2 kW 2.1 2.1 2.1 2.1 2.1 2.2 2.2 2.2 2.2 2.2 2.2 2.3 2.3 2.3 2.3 1 TC 18.7 20.1 20.4 22.3 24.9 19.8 21.0 20.9 22.8 25.5 20.4 21.8 21.3 23.2 25.9 N (40.5) SHC 18.7 19.6 15.7 16.4 13.1 19.8 20.8 16.9 17.7 14.0 20.4 21.8 18.0 19.0 14.8 0 kW 2.3 2.3 2.3 2.3 2.4 2.4 2.4 2.4 2.4 2.4 2.5 2.5 2.5 2.5 2.5 to 115 TC 17.8 19.0 19.2 21.0 23.8 18.8 20.0 19.7 21.5 24.1 19.4 20.8 20.1 21.9 24.5 (46.8) SHC 17.8 18.9 15.1 15.9 12.7 18.6 19.8 16.3 17.2 13.5 19.4 20.6 17.5 18.5 14.3 kW 2.5 2.5 2.5 2.6 2.6 2.8 2.6 2.6 2.7 2.7 2.7 2.7 2.7 2.7 2.8 125 TC 16.8 18.0 17.9 19.7 22.2 17.6 18.9 18.3 20.1 22.6 18.3 19.8 18.7 20.5 23.0 (51.6) SHC 16.8 17.8 14.6 15.4 12.1 17.6 18.7 15.8 16.7 13.0 18.3 19.4 16.9 17.9 13.8 kW 2.8 2.8 2.8 2.8 2.9 2.9 2.9 2.9 2.9 2.9 3.0 3.0 3.0 3.0 3.0 See page 16 for cooling notes. HEATING EXTENDED PERFORMANCE TABLE 50SZ024 TURN CFM AIR TEMPERATURE ENTERING OUTDOOR COIL°F(°C) AIR (Standard -10 0 10 17 20 30 40 47 50 60 °F db Air) (-23.3) (-17.7) (-122) (-1.1) ( ) ( ) ( ) (15.5) (°C) ) (-17. 12.2) (-8.3) (-6.6) (-1.1 4.4 8.3 10 700 TC 7.61.9.6-11.6_13.3 _14.1 _17.0 _20.2_22.7_23.7_27.4_ kW 1.42 1.48 1.68 1.66 1.87 1.75 1.82 1.87 1.89 1.98 800 TC 7.6-9.5-11.7_13.4 _14.2_17.1 _20.3_22.8_23.8_27.5 - (15.5) kW 1.41 1.48 1.57 1.83 1.68 1.72 1.78 1.81 1.83 1.89 900 TC 7.7-9.6-11.8_13.5 _14.3_17.2_20.4_22.9_23.9_27.5 =I kW 1.40 1.47 1.55 1.81 1.83 1.89 1.74 1.77 1.78 1.83 TC 7.3 9.1 11.2 12.9 13.7 16.6 19.8 22.3 23.3 27.0 700 kW 1.53 1.59 1.68 1.75 1.79 1.90 1.99 2.05 2.08 2.17 70 800 TC 7.4 9.2 ® 13.0 eisj 5 16.7 rT4IF 19.9 ME 22.4_23.4 ME 27.1 - (21.1) kW 1.52 1.57 1.66 1.73 1.76 1.86 1.94 1.99 2.01 2.09 900 TC 7.4 LEI gai gm ® .9; 21.5 1; LB E2j oil Egg kW 1.51 1.56 1.85 1.72 1.75 1.83 1.90 1.94 1.98 2.02 700 TC 7.0 al 10.9 ® ® ' 16.2 WM EMI 22.8 EMI kW 1.61 1.72 1.79 1.87 1.91 2.04 2.16 2.24 2.27 2.39 800 TC 7.2-9.0-10.9'12.6 _13.4MB 16.3 _19.5_21.9 _23.0_26.7- (26 6) kW 1.60 1.70 1.77 1.84 1.88 2.00 2.11 2.17 2.20 2.30 900 TC 6.9-9.1 -11.0 _12.7_13.5_16.4 _19.8_22.1 _23.1 _26.7- kW 1.529 1.88 1.75 1.83 1.86 1.98 2.07 2.13 2.15 2.23 LEGEND NOTES: Cap. -Heating Capacity(1000 Btuh)(Includes Indoor-Fan Motor 1. -indicates integrated ratings Heat) 2.Integrated capacity is maximum(instantaneous)capacity less the effect db - Dry Bulb of frost on the outdoor coil and the heat required to defrost it. ' kW -Total Power Input(Includes Compressor Motor Power Input Outdoor-Fan Motor Input,and Indoor-Fan Motor Input) rh - Relative Humidity 11 PERFORMANCE DATA (CONT) COOLING EXTENDED PERFORMANCE TABLE 5087,030 TEMP°F(°C) EVAPORATOR AIR-CFM/BF 875/0.08 I 1000/0.09 1125/0.10 OUTDOOR AIR ENTERING Evaporator Air Ewb'F(°C) CONDENSER 57 82 63* 67 72 57 62 83* 87 72 57 62 63* 67 72 (13.8) (16.8) (172) (19.4) (222) (13.8) (16.6) (172) (19.4) (22.2) (13.8) (16.8) (17.2) (19.4) (22.2) TC 28.3 29.1 29.6 32.1 33.9 27.6 29.9 30.4 32.7 34.2 28.8 30.7 - 31.0 33.1 34.3 75 SHC 26.3 26.3 21.3 22.1 17.2 27.6 28.1 22.8 23.6 17.8 28.6 29.7 24.2 24.8 18.3 (23'8) kW 2.2 2.2 2.2 2.2 22 2.3 2.3 2.3 2.3 2.3 2.3 2.4 2.3 2.4 2.4 TC 25.4 27.7 28.3 30.7 33.2 26.6 28.6 29.0 31.5 33.6 27.6 29.5 29.6 32.1 33.9 '29A) SHC 25.4 25.8 20.8 21.7 17.3 26.6 27.6 22.3 23.3 18.1 27.6 28.8 23.8 24.9 18.9 kW 2.4 2.4 2.4 2.4 2.4 2.5 2.5 2.5 2.5 2.5 2.8 2.6 2.6 2.6 2.6 TC 24.4 26.4 26.8 29.3 32.7 25.5 - 27.3 27.5 30.0 32.9 28.5 28.1 28.0 30.6 33.4 SHC 24.4 25.2 20.2 21.2 16.9 25.5 28.6 21.7 22.8 17.9 26.5 27.9 23.2 24.3 18.8 (35) kW 2.6 2.6 2.6 2.7 2.7 2.7 2.7 2.7 2.7 2.7 2.8 2.8 2.8 2.8 2.8 N 1 TC 23.4 25.0 25.4 27.7 31.1 ' 24.5 25.9 28.0 28.3 31.8 25.4 26.9 26.4 28.9 32.3 (40.5) SHC 23.4 24.4 19.6 20.6 16.3 24.5 25.8 21.1 22.2 17.3 25.4 26.7 22.5 23.7 18.3 co in kW 2.9 2.9 2.9 2.9 2.9 2.9 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.1 3.1 TC 22.3 23.7 23.8 26.1 29.3 23.4 24.7 24.4 26.7 30.0 24.2 25.7 24.8 27.1 30.5 115 SHC 22.3 23.4 19.0 20.0 15.7 23.4 24.6 20.5 21.8 16.7 24.2 25.5 21.9 23.1 17.7 (46.6) kW 3.1 3.1 3.1 3.2 3.2 32 3.2 3.2 3.3 3.3 3.3 3.3 3.3 3.4 3.4 TC 21.1 22.3 22.1 24.4 27.6 22.1 - 23.4 22.6 24.9 28.1 23.0 24.3 - 23.1 25.4 28.6 125 SHC 21.1 22.2 18.3 19.4 15.1 22.1 23.3 19.8 20.9 16.1 23.0 24.2 21.1 22.4 17.1 (51.8) kW 3.4 3.4 3.4 3.5 3.5 3.5 3.5 3.5 3.6 3.6 3.6 3.6 3.8 3.7 3.7 See page 16 for cooling notes. HEATING EXTENDED PERFORMANCE TABLE 50SZ030 RE- TURN CFM AIR TEMPERATURE ENTERING OUTDOOR COIL°F(°C) AIR (Standard -10 0 10 17 20 30 40 47 50 60 °F db Air) (-23.3) (-17.7) (-12.2) (-8.3) (-6.6) (-1.1) (4.4) (8.3) (10) (15.5) (°C) TC 9.6 E.0 J 11.9 10 14.4 16.2 17.4 21.6 8.9j 25.4 29.3 [2911 30.6 p0. 35.3 .3 875 kW 1.74 1.84 1.94 2.00 2.04 2.18 2.31 I 2.42 2.46 2.58 60 TC 9.7 ®11.9[1111 14.4-16.3 17.5 21.7 9.0]25.6_29.4 t�91 30.8 po.8J 36.3 16.3 (15.5) 1000 kW 1.72 1.82 1.91 1.96 2.00 2.12 2.24 2.35 2.37 2.43 77 12.0 11 14.5 16.3 ® 20.9 8.3, 25.7 29.5 30.8 1 35.4 15.4 1125 kW 1.71 1.81 1.89 1.93 1.96 2.07 2.19 I 2.29 2.31 2.41 TC 9.4 875 kW 1.88 1.96 14.0 2.08 15.9 2.16;.5 17.12. 2 21.2.18.7j 26.2. 28.2.66 30 2.70 2 x4.9 70 TC 9.4 11.6 EU 16.0 1.6 I 17.-4111RTTE8.71 26.3 1111I 29.0 30.3 M34.9 14.9 (21.1) 1000 kW 1.86 1.94 2.05 2.13 2.17 2.33 2.48 2.58 2.81 2.73 TC 9.4 Ma 14.9 = .0 I 17.5 6.2 '2111 30.4 [ 35.0 35.0 Ir.0 1125 kW 1.83 1.92 2.03 2.10 2.15 2.28 2.40 2.51 2.54 2.65 TC 9.2 11.1 13.6 15.5 16.7 20.9 25.8 ' R-9.7 31.5 1111134.4- 875 kW 1.89 2.10 2.22 2.33 I 2.39 2.60 2.81 2.97 2.99 3.11 80 ' TC 9.4 x11.2_13.7-15.6_16.8x21.0 -26.0_30.1 _29.934.5- (26.6) 1000 kW 1.88 2.07 2.19 2.29 I 2.35 2.54 2.73 2.82 I 2.86 2.99 TC 9.4 -11.2_13.8_15.7_16.9-21.1 x26.0_28.730.0R0I34.6MIN 1125 kW 1.85 2.05 2.17 2.26 2.33 2.50 2.87 2.76 1 2.79 2.90 LEGEND NOTES: - Cap. -Heating Capacity(1000 Btuh)(Includes Indoor-Fan Motor 1. _indicates integrated ratings Heat) 2.Integrated capacity is maximum(instantaneous)capacity less the effect db Dry Bulb of frost on the outdoor coil and the heat required to defrost it. • kW Total Power Input(Includes Compressor Motor Power Input Outdoor-Fan Motor Input,and Indoor-Fan Motor Input) rh Relative Humidity 12 PERFORMANCE DATA (CONT) COOLING EXTENDED PERFORMANCE TABLE 50SZ036 TEMP°F(°C) EVAPORATOR AIR-CFM/BF OUTDOOR AIR 1050/0.07 1200/0.08 I 1350/0.10 ENTERING Evaporator AIr Ewb'F('C) CONDENSER 57 62 63* 67 72 57 62 63* 67 72 57 62 63* 67 72 (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (18.6) (17.2) (19.4) (222) (13.8) (18.6) (17.2) (19.4) (22.2) 75 TC 32.8 35.1 35.8 38.8 40.9 34.5 38.2 36.8 39.6 41.5 35.9 37.3 37.5 40.0 41.8 (23.8) SHC 32.8 31.9 25.8 26.9 22.5 34.5 34.5 27.7 28.7 21.6 35.9 36.7 29.5 30.2 22.3 kW 2.6 2.6 2.6 2.7 2.6 2.7 2.7 2.7 2.7 2.8 2.8 2.8 2.8 2.8 2.8 85 TC 31.4 33.3 34.0 37.1 40.5 33.0 34.4 34.9 38.1 40.9 34.4 35.7 35.6 38.9 41.4 (29.4) SHC 31.4 31.0 24.9 26.2 21.0 33.0 33.5 28.8 28.2 22.0 34.4 35.1 28.6 30.1 22.9 kW 2.9 2.9 2.9 2.9 2.9 3.0 3.0 3.0 3.0 3.0 3.1 3.1 3.1 3.1 3.1 TC 30.0 31.5 32.1 35.1 39.4 31.5 32.7 32.9 36.0 40.3 32.8 34.0 33.5 36.7 40.9 95 SHC 30.0 30.1 24.1 25.3 20.4 31.5 32.2 25.9 27.4 21.7 32.8 33.5 27.7 29.3 22.8 (35) kW 3.1 3.2 3.2 3.2 3.2 ' 3.2 3.2 3.2 3.3 3.3 3.3 3.3 3.3 3.4 3.4 105 TC 28.5 29.6 30.1 33.0 37.2 30.0 31.1 30.8 33.8 38.1 31.2 32.3 31.4 34.4 38.8 N (40.5) SHC 28.5 29.1 23.2 24.5 19.6 30.0 30.6 25.1 26.5 20.9 31.2 31.8 26.8 28.3 22.1 0 kW 3.4 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.6 3.6 3.6 3.6 3.6 3.7 3.7 in TC 27.9 29.3 29.4 32.4 34.8 28.3 29.4 28.7 31.5 35.6 29.5 30.5 29.3 32.1 36.3 115 SHC 27.9 30.5 24.1 25.5 18.7 28.3 28.9 24.2 25.6 20.0 29.5 30.1 25.9 27.4 21.2 (46.6) kW 3.8 3.8 3.8 3.9 3.9 3.9 3.9 3.9 3.9 3.9 4.0 4.0 3.9 4.0 4.0 125 TC 26.5 29.1 28.7 31.8 32.4 26.7 27.4 29.0 30.7 33.1 27.0 28.7 292 29.8 33.7 (51.6) SHC 28.1 28.6 23.0 24.4 17.8 29.5 26.9 28.8 26.6 19.1 27.7 282 28.7 26.5 20.3 kW 4.2 4.2 4.2 4.2 4.2 4.3 4.2 4.3 4.3 4.3 4.3 4.3 4.3 4.3 4.4 See page 16 for cooling notes. HEATING EXTENDED PERFORMANCE TABLE 50SZ036 RE- I AIR TEMPERATURE ENTERING OUTDOOR COIL'F('C) TURN CFM AIR (Standard -10 0 10 17 20 30 40 47 50 60 °F db Air) (-23.3) (-17.7) (-12.2) (-8.3) (-6.6) (-1.1) (4.4) (8.3) (10) (15.5) 1050 TC 10.9 ,ail ® 19.5 20.8 f1811 25.5_31.1 !35.5 _37.3 rp.i 43.5_ kW 2.03 2.16 2.27 2.34 2.39 2.56 2.75 2.89 2.93 3.12 1200 TC 11.0 E.2:142=17.3=19.6 mpi 20.9 _25.7_31.3 III 3 1 35.8 raj gal (15.5) kW 2.07 2.19 2.29 2.36 2.39 2.55 2.72 2.85 2.88 3.05 1350 TC 11.6 iza Ezi 20.1 `I 21.3 En ZU 31.9 " 36.5 k•. 42.4 kW 2.16 2.28 2.37 2.42 2.46 2.61 2.76 2.85 2.87 2.92 1050 TC 9.9 , ai® iilm 19.0 20.3 Egg 1.: 30.2 34.6 go!,•.4,42 AM kW 2.13 2.31 2.45 2.54 2.60 2.79 3.00 3.16 3.21 3.39 70 1200 TC 10.1 12 13.4 16.8 192 20.5 25.1 '. 30.5 35.0 g' g ra.. 42.9 (21.1) kW 2.18 2.34 2.47 2.56 2.61 2.78 2.97 3.11 3.15 3.32 1350 TC 10.5 13.9 17.3 19.7 20.9 25.8 .4,u 31.1 35.6 3 LEI gig kW 2.27 2.43 2.55 2.63 2.67 2.83 3.01 3.14 3.17 3.34 1050 TC 8.7 ® MU ILL/ gya Egg ,`,29.5 33.7 '". kW 221 2.45 2.62 2.74 2.81 3.04 3.26 3.45 3.51 3.70 so (26.6) 1200 TC 9.2 ® 16.0 19.9 29.7 • EMI 42.0 kW 2.24 2.47 2.65 2.76 2.82 3.02 3.23 3.40 3.45 3.62 1350 TC 9.8 13.0 MU 19.1 lei :: 25.0 30.3 Mil li221 LEI kW 2.31 2.56 2.73 2.83 2.89 3.08 3.27 3.42 3.46 3.62 LEGEND NOTES: Cap. -Heating Capacity(1000 Btuh)(Includes Indoor-Fan Motor 1. _indicates integrated ratings Heat) 2.Integrated capacity is maximum(instantaneous)capacity less the effect db - Dry Bulb of frost on the outdoor coil and the heat required to defrost it. kW -Total Power Input(Includes Compressor Motor Power Input Outdoor-Fan Motor Input,and Indoor-Fan Motor Input) rh - Relative Humidity 13 PERFORMANCE DATA (CONT) COOLING EXTENDED PERFORMANCE TABLE 50SZ042 EVAPORATOR AIR-CFM/BF TEMP°F(°C) 1225/0.11 1400/0.12 1575/0.14 OUTDOOR AIR Evaporator Air Ewb°F(°C) ENTERING CONDENSER 57 82 63* 67 72 57 62 63* 67 72 57 62 63* 67 72 (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (16.6) (172) (19.4) (22.2) TC 36.8 40.2 41.7 42.5 45.4 38.2 41.8 41.1 45.3 45.5 39.3 40.7 41.1 44.4 46.3 75 SHC 36.8 38.5 28.5 28.5 21.8 38.2 40.0 29.8 31.5 23.0 39.3 37.4 31.0 32.2 24.1 (23.8) kW 3.1 3.3 3.3 3.2 3.6 3.2 3.3 3.3 3.3 3.3 3.3 3.4 3.5 3.4 3.4 TC 35.4 38.1 40.0 41.4 1 44.3 36.8 38.9 40.5 42.1 44.8 38.0 40.2 40.9 43.8 452 (29.4) SHC 35.4 36.4 27.7 28.2 22.0 36.8 38.3 29.6 30.2 23.4 38.0 39.5 31.6 32.8 24.9 kW 3.5 3.4 3.4 3.4 3.6 I 3.6 3.5 3.5 3.8 3.5 3.7 3.6 3.6 3.6 3.6 TC 34.1 37.2 38.0 40.8 43.8 35.4 38.6 38.8 41.5 44.0 36.5 39.6 37.9 42.0 44.4 95 SHC 34.1 35.5 26.9 ' 27.9 21.9 35.4 36.9 28.9 30.0 23.0 36.5 37.8 30.0 32.1 24.2 (35) kW 3.9 3.7 3.7 3.7 3.7 4.0 3.8 3.8 3.8 3.8 4.1 3.8 3.8 3.9 3.9 N105 TC 32.4 35.1 35.6 38.2 40.7 33.7 36.5 36.2 38.8 41.2 34.7 35.4 34.7 37.4 41.4 o (40.5) SHC 32.4 33.8 25.8 26.9 20.8 33.7 34.9 27.8 29.0 21.8 34.7 33.8 28.5 29.8 22.3 u) kW 4.0 1 4.0 4.0 4.0 4.0 4.1 4.0 4.0 4.1 4.1 4.2 4.1 4.1 4.1 4.2 TC 30.1 33.4 33.5 36.1 37.3 31.3 32.9 32.4 - 35.0 39.0 32.3 33.9 31.6 34.0 38.0 115 SHC 30.1 31.9 25.0 26.0 18.9 31.3 31.5 28.2 27.3 21.3 32.3 32.4 30.2 32.5 22.1 (46.6) kW 4.4 4.3 4.3 4.4 4.3 4.5 4.7 4.4 4.4 4.5 4.6 4.8 4.8 4.8 4.9 TC 27.9 29.6 28.4 32.4 34.2 32.2 29.9 - 28.8 31.2 34.1 29.7 30.8 29.0 31.7 34.1 125 SHC 27.9 28.3 24.3 24.7 19.2 18.9 28.6 24.5 25.7 19.1 29.7 29.4 26.7 27.5 17.8 (51.6) kW 4.8 4.9 4.9 4.8 5.1 5.0 4.7 4.7 4.8 5.1 5.2 4.9 4.8 4.8 4.9 See page 16 for cooling notes. HEATING EXTENDED PERFORMANCE TABLE 50SZ042 RE- AIR TEMPERATURE ENTERING OUTDOOR COIL°F(°C) TURN CFM AIR (Standard -10 0 10 17 20 30 40 47 50 60 •F db Air) (-23.3) (-17.7) (-12.2) (-8.3) (-6.6) (-1.1) (4.4) (8.3) (10) (15.5) CC) TC 13.8 17.1 20.5 23.1 _24.7 MI 30.4 X26.71 37.1 39.7 41.6 Do V 48.2 Bp2 i, 1225 kW 2.5r 2.83 2.78 2.85 2.91 3.11 3.29 3.44 3.51 3.75 (15 1400 TC 13.9_17.2 20.6 23.3_24.9 In 30.6 p6.8 37.2 2 40.0 41.9 Fl 41p72-111172 1 kW 2.48 2.80 2.72 2.81 2.86 3.03 3.23 3.34 3.40 3.82 1575 TC 14.0 16.8 20.6 23.4 25.0 30.8 35.3 -31 40.1 41.9 1. 48.1 kW 2.46 2.58 2.68 2.77 2.82 2.97 3.13 3.27 3.31 3.52 TC 13.1 ELE1 20.1 ® IZEI ELI LB fi 41.3 I . ' CM 1225 kW 2.64 2.83 2.99 3.09 3.15 3.38 3.61 3.79 3.87 4.07 (211) 1400 TC 13.2_18.6=20.2 =22.8 RotO 8`24.3_29.9=36.5 B38.5 1 41.5_41.1 _47.7 1111. kW 2.63 2.79 2.94 3.04 3.10 3.30 3.49 3.89 3.69 3.93 TC 13.3 Luc, 20.3 22.9 i`20._9 24.4 puli 30.1 -36.6 36.6]39.4_41.3_47.8' 1575 kW 2.61 2.77 2.91 3.00 3.05 3.23 3.43 3.55 3.61 3.83 1225 TC 12.0 15.8 19.6 22.4 23.8 29.2 35.5 40.5 42.4 46.8' kW 2.74 3.01 3.22 3.38 3.42 3.87 3.93 4.13 4.20 4.43 TC 12.1 15.9 19.0 22.4 23.9 29.4 35.7 40.7 42.7 .fg 47A_ (26.6) 1400 kW 2.73 2.99 3.18 3.30 3.36 3.59 3.82 4.00 4.08 4.27 TC 12.3_16.1 _19.9_22.5_23.9_29.5_35.9_41.4 _43.5 47.6_ 1575 kW 2.73 2.96 3.15 3.26 3.31 3.53 3.74 3.88 3.89 4.07 LEGEND NOTES: . Cap. -Heating Capacity(1000 Btuh)(Includes Indoor-Fan Motor 1. _indicates integrated ratings Heat) 2.Integrated capacity is maximum(instantaneous)capacity less the effect db - Dry Bulb of frost on the outdoor coil and the heat required to defrost it. kW -Total Power Input(Includes Compressor Motor Power Input • Outdoor-Fan Motor Input,and Indoor-Fan Motor Input) rh - Relative Humidity 14 PERFORMANCE DATA (CONT) COOLING EXTENDED PERFORMANCE TABLE 50SZ048 TEMP°F(°C) EVAPORATOR AIR-CFM/BF 1400/0.07 1600/0.08 1600/0.09 OUTDOOR AIR Evaporator Air Ewb°F(•C) ENTERING CONDENSER 57 82 63* 67 72 57 62 83* 67 72 57 62 63* 67 72 (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (16.6) (17.2) (19.4) (22.2) TC 42.5 45.5 48.3 50.1 53.8 44.4 46.9 47.4 51.1 54.2 48.1 48.2 48.3 51.8 54.6 75 SHC 42.5 41.7 33.5 34.7 26.8 44.4 44.8 35.8 37.0 27.7 48.1 47.3 38.1 39.1 28.7 (23.8) kW 3.4 3.5 3.5 3.5 3.5 3.5 3.3 3.5 3.5 3.6 3.6 3.8 3.6 3.6 3.7 85 TC 41.0 43.6 44.2 48.1 52.8 42.9 45.0 45.3 49.2 53.4 44.5 46.5 46.2 50.1 53.9 (29.4) SHC 40.0 40.7 32.5 34.1 26.4 42.9 43.6 34.9 36.5 27.7 44.5 45.6 37.1 38.9 28.9 kW 3.8 3.8 3.8 3.8 3.8 3.8 3.9 3.9 3.9 3.9 3.9 4.0 4.0 4.0 4.0 TC 39.4 41.6 42.2 - 45.9 50.8 41.2 43.0 43.1 47.0 51.7 42.8 44.6 ' 44.6 47.8 52.4 95 SHC 39.4 39.7 31.6 33.1 25.9 41.2 42.2 34.0 35.7 27.4 42.8 43.8 37.7 38.1 28.7 (35) _ kW 4.1 4.1 4.2 4.2 4.2 4.2 4.2 4.2 4.3 4.3 4.3 4.3 5.6 4.4 4.4 TC 37.7 39.5 39.9 43.6 48.5 39.3 41.3 40.9 44.5 49.5 40.9 42.7 41.6 45.3 50.2 N 105 SHC 37.7 38.5 30.7 32.2 25.1 39.3 40.5 33.0 34.7 26.7 ' 40.9 41.9 35.2 37.1 28.1 (40.5) o kW 4.5 4.5 4.5 4.6 4.8 4.5 4.6 4.6 4.7 4.7 4.7 4.7 4.7 4.8 4.8 115 TC 35.9 37.5 37.5 41.2 45.8 37.5 39.2 38.4 42.1 47.0 39.1 40.8 39.1 42.8 47.7 • (46.6) SHC 35.9 36.8 29.7 31.3 24.1 37.5 38.4 31.9 33.7 25.9 39.1 40.0 34.1 36.1 27.4 kW 4.9 4.9 4.9 5.0 5.1 5.0 5.0 5.0 5.1 5.1 5.1 5.1 5.1 5.2 5.2 125 TC 34.0 35.5 35.0 38.4 43.2 35.6 37.1 35.8 39.2 44.2 36.8 38.5 ' 36.5 39.9 44.9 (616) SHC 34.0 34.9 28.8 30.2 23.2 35.6 38.4 30.9 32.6 24.9 38.8 37.7 33.0 34.9 26.5 kW 5.4 5.4 5.4 5.4 5.5 5.5 5.5 5.5 5.5 5.8 5.8 5.8 5.6 5.8 5.7 See page 16 for cooling notes. HEATING EXTENDED PERFORMANCE TABLE 50SZ048 RE- 1 AIR TEMPERATURE ENTERING OUTDOOR COIL°F(°C) TURN CFM AIR (Standard -10 0 10 17 20 30 40 47 50 60 °F db Air) (-23.3) (-17.7) (-12.2) (-8.3) (-6.6) (-1.1) (4.4) (8.3) (10) (15.5) 1400 TC 14.7 LEI 23.0 .1, 28.5 Eall 3407 41.9 11111 ELM WI 60 kW 2.74 2.90 3.06 3.18 3.23 3.48 3.89 3.88 3.94 4.27 (15.5) 1600 TC 15.1 t'+'.19.1 ® 26.9 Fail ® CM MI 50.4 -! au kW 2.79 2.94 3.09 3.19 3.25 3.45 3.86 3.81 3.89 4.21 TC 15.5 1p.3 19.4 1122 ® 29.0 Y 6 Eg UZI 51.0 56.0 1800 kW 2.82 2.97 3.10 3.20 3.25 3.44 3.62 3.78 3.79 3.95 TC 13.6 E:17.7 ® ® 27.3 • ® 40.9 48.4 WM 57.0 1400 kW 2.88 3.11 3.31 3.44 3.51 3.78 4.03 4.23 4.32 4.85 70 TC 14.0 18.2 EU 26.0 Ei3G1 EU LIU 47.0 Ma 57.8 (21.1) 1600 kW 2.94 3.18 3.34 3.48 3.52 3.76 4.00 4.17 4.28 4.57 TC 14.3 18.5 22.9 26.4 28.1 34.6 41.7 47.4 49.7 58.0 1800 kW 2.98 3.18 3.35 3.47 3.52 3.75 3.97 4.13 4.20 4.52 1100 TC 12.3 18.6 21.0 24.4 28.1 32.6 39.8 45.3 _47.5_55.7 - kW 3.00 3.30 3.55 3.71 3.79 4.08 4.39 4.52 4.72 5.07 so (26.6) 16D0 TC 12.7 yr 17.0=21.6 ME 24.9 ME 28.7'33.2_40.4 no.4 45.9 Oil E1121 kW 3.06 3.35 3.59 3.74 3.80 4.08 4.36 4.57 4.66 4.95 1800 TC 13.0 Q 17.4 21.9 25.2 27.1 33.6 40.7 7148.3 48.6 58.8 kW 3.10 1 3.38 3.80 3.74 3.81 4.06 4.33 4.51 4.60 4.91 . LEGEND NOTES: Cap. -Healing Capacity(1000 Btuh)(Includes Indoor-Fan Motor 1. _indicates integrated ratings Heat) 2 Integrated capacity is maximum(instantaneous)capacity less the effect db - Dry Bulb of frost on the outdoor coil and the heat required to defrost it. • kW -Total Power Input(Includes Compressor Motor Power Input Outdoor-Fan Motor Input,and Indoor-Fan Motor Input) rh - Relative Humidity 15 PERFORMANCE DATA (CONT) COOLING EXTENDED PERFORMANCE TABLE 50SZ060 EVAPORATOR AIR-CFM/BF TEMP°F(°C) 1750/0.07 1875/0.08 2000/0.09 OUTDOOR AIR Evaporator Alr Ewb°F(°C) ENTERING CONDENSER 57 62 63* 67 72 57 62 63* 67 72 57 82 63* 87 72 1 (13.8) (16.6) (17.2) (19.4) (22.2) (13.8) (18.8) (17.2) (19.4) (22.2) (13.8) (16.6) (17.2) (19.4) (22.2) • TC 51.1 56.1 60.7 60.7 66.2 53.5 57.0 57.4 62.0 67.0 55.4 58.7 58.5 62.9 87.7 75 SHC 51.1 40.5 42.2 42.2 33.4 53.5 54.2 43.4 45.2 35.0 55.4 56.7 46.2 48.1 38.6 (23.8) kW 4.1 4.2 4.2 4.2 4.3 4.2 4.3 4.3 4.3 4.3 4.3 4.3 4.3 I 4.4 4.4 TC 49.4 53.9 58.3 58.3 64.0 51.7 54.8 55.2 59.6 65.1 53.6 56.8 56.1 ' 60.6 65.8 - SHC 49.4 39.5 41.2 41.2 32.6 51.7 52.9 42.4 44.3 34.5 53.6 54.8 45.2 47.2 38.2 (29A) kW 4.5 4.6 4.6 4.6 4.7 4.6 4.7 4.7 4.7 4.8 ' 4.7 4.8 4.8 4.8 4.9 TC 47.5 51.4 55.8 55.8 61.5 49.8 52.7 52.6 57.0 62.5 51.6 54.7 53.6 58.0 63.3 (35) SHC 47.5 38.4 40.2 40.2 31.8 49.8 50.9 41.4 43.3 ` 33.6 51.6 52.8 44.1 48.3 35.4 kW 5.0 5.1 5.1 5.1 5.2 5.1 5.1 5.1 5.2 5.2 5.2 5.2 5.2 5.3 5.3 r., TC 45.5 48.6 53.0 53.0 58.8 47.6 50.5 49.8 54.2 59.8 49.4 52.4 50.7 55.1 60.6 106 SHC 45.5 37.2 39.1 39.1 30.8 47.6 48.7 40.2 42.3 32.7 49.4 50.6 43.0 45.2 34.5 (40.5) kW 5.5 5.6 5.6 5.8 5.7 5.6 5.7 5.6 5.7 5.7 5.7 5.8 5.7 5.8 5.8 TC 43.2 45.5 • 49.9 49.9 55.8 45.3 48.0 46.6 51.0 56.8 47.0 49.8 47.6 52.0 ' 57.8 115 SHC 43.2 35.9 37.9 37.9 29.8 45.3 46.3 38.8 41.1 31.8 47.0 48.1 41.6 44.0 33.6 (46.8) kW 6.1 81 6.2 6.2 6.2 8.1 6.2 6.2 6.2 6.3 6.2 6.3 6.3 6.3 6.4 TC 40.7 42.1 46.5 48.5 52.5 42.7 45.2 4302 47.6 53.5 44.4 47.0 44.1 48.5 54.2 125 SHC 40.7 34.5 36.6 36.6 28.7 42.7 43.7 37.4 39.7 30.7 44.4 45.4 40.1 42.6 32.5 (51.6) kW 6.6 8.7 6.7 6.7 6.8 6.7 6.8 6.7 6.8 6.9 6.8 6.9 6.9 6.9 7.0 See page 16 for cooling notes. HEATING EXTENDED PERFORMANCE TABLE 50SZ060 RE- ' AIR TEMPERATURE ENTERING OUTDOOR COIL°F(°C) TURN CFM AIR (Standard -10 0 10 17 20 30 40 47 50 80 °F db Air) (-23.3) (-17.7) (-12.2) (-8.3) (-6.6) (-1.1) (4.4) (8.3) (10) (15.5) (°C) 1750 TC 17.8 22.8 28.1 32.3 34.5 42.8 49.2 56.0 58.4 •: 66.4 60 kW 3.32 3.51 3.88 3.82 3.90 4.13 4.30 4.48 4.56 4.89 (155) 1875 TC 17.7_22.7=28.1 =32.3 -, 34.6 42.9 49.2 55.6 57.8 -7 65.2 kW 3.22 3.40 3.58 3.70 3.77 3.95 4.12 4.28 4.36 4.68 TC 18.2 ® UM 32.9 ® CU gLINI 55.5 rT'.-;; laal 11111 2000 kW 3.31 3.48 3.83 3.76 3.82 3.96 4.14 4.30 4.37 4.63 TC 16.7 au ® , . 31.0 ll 33.5 LIU ® 55.0 " ® 66.2 1750 kW 3.54 3.78 3.99 4.13 4.21 4.50 4.74 4.88 4.97 5.32 70 TC 18.8 ® ® 31.2 33.5 1161 CU ® ® MI (21'1) 1875 kW 3.45 3.66 3.88 4.00 4.07 4.33 4.50 4.67 4.75 5.07 TC 17.1 _22.1 _27.6_31.8 _34.1 _42.4_48.9_55.4_57.6 _85.0- 2000 kW 3.54 3.74 3.93 4.06 4.13 4.35 4.52 4.67 4.75 5.05 TC 15.6_20.3=25.8_30.0 _32.2_40.7_49.8_57.1 _59.9 _65.6- 1750 kW 3.76 4.02 4.29 4.47 4.55 4.86 5.16 5.37 5.49 5.76 (26 6) 1875 TC 15.4 20.2 25.8 MI 30.0 _32.2_40.8_50.0_54.0 56.8 _65.2- kW 3.67 3.92 4.17 4.34 4.41 4.70 4.95 5.09 5.18 5.52 2000 TC 15.9`20.8 t' 26.4 30.6 33.0 41.4 50.8 54.6 , ® 65.1 kW 3.78 4.00 4.24 4.39 4.46 4.73 4.94 5.08 5.17 5.49 LEGEND NOTES: . Cap. -Heating Capacity(1000 Btuh)(Includes Indoor-Fan Motor 1. _indicates integrated ratings Heat) 2.Integrated capacity is maximum(instantaneous)capacity less the effect db - Dry Bulb of frost on the outdoor coil and the heat required to defrost it. kW -Total Power Input(Includes Compressor Motor Power Input • Outdoor-Fan Motor Input,and Indoor-Fan Motor Input) rh - Relative Humidity 16 PERFORMANCE DATA (CONT) ECONOMIZER 1—IN. FILTER PRESSURE DROP (IN. WC) UNIT 50SZ PRESSURE DROP 024-030 0.20 036-060 0.25 MULTIPLICATION FACTORS • HEATER kW RATING VOLTAGE DISTRIBUTION MULTIPLICATION FACTOR V/3/60 • 200 .69 240 208 .75 230 .92 240 1.00 Exaqmple:20 kW(at 240v)heater on 230v =20.0(.92 mutt factor) =18.4 kW capacity at 230v N LEGEND ro BF—Bypass Factor edb—Entering Dry-Bulb Ewb—Entering Wet-Bulb kW—Total Unit Power Input SHC—Sensible Heat Capacity(1000 Btuh) TC—Total Capacity(1000 Btuh)(net) rh—Relative Humidity Shading indicates Integrated Ratings NOTES: 1.Ratings are net;they account for the effects of the evaporator-fan motor power and heat. 2.Direct interpolation is permissible.Do not extrapolate. 3.The following formulas may be used: tldb=tedb- Sensible capacity(Btuh) 1.10 x cfm tlwb = Wet-bulb temperature corresponding to enthalpy air leaving evaporator coil(hlwb) hlwb=hewb- total capacity(Btuhl 4.5 x cfm Where:hewb=Enthalpy of air entering evaporator coil 4. The SHC is based on 80 F edb temperature of air entering evaporator coil. Below 80°F(26.6°C)edb,subtract(corr factor x cfm)from SHC. Above 80°F (26.6 V)edb,add(corr factor x cfm)to SHC. Correction Factor= 1.10 x(1 - BF)x(edb-80). 5. Integrated capacity is maximum(instantaneous)capacity less the effect of frost on the oudoor coil and the heat required to defrost it. 17 Balance Point Worksheet 70 - Based on Indoor Entering Air of 70 F and Rated CFM 60 - — 2 20 m-x X024 0 5 40 — - —M-030 —R 05 U ---036 —14-042 ;If; 30 —*-048 cF) —0-060 c '3 12 U) mF g 20 - 0 -10 0 10 17 20 30 40 47 50 60 Outdoor Air Temp(Deg F) C00093 18 WET COIL AIR DELIVERY UNIT 50SZ024-060 230 VOLT UNIT EXTERNAL STATIC PRESSURE(IN.WC) SIZE MOTOR SPEED 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 LO Watts 311 309 304 301 288 - - - - - CFM 935 885 820 757 686 - - - - - Watts - - - - 379 357 357 345 - - 024 MED CFM - - - - 957 888 789 647 - - ` Watts - - - - - - 447 435 421 - CPU - - - - - - 970 853 712 - LO Watts 311 309 304 301 - - - - - - • CFM 935 885 820 757 - - - - - - 030 MED Watts 411 405 398 390 379 357 357 - - - - CFM 1195 1155 1100 1028 957 888 769 - - - HI Watts - - - - 477 467 447 435 - - CFM - - - - 1185 1088 970 853 - - LO Watts 437 433 424 417 403 391 379 382 - - CFM 1353 1318 1283 1235 1187 1123 1059 975 - - Watts - - - 531 516 498 478 459 435 - N 036 MED N CFM - - - 1489 1437 1362 1289 1208 1099 - O LO Watts - - - - - - - 629 602 - HI CFM - - - - - - - 1470 1357 - LO Watts 625 606 586 571 550 534 509 483 457 - CFM 1539 1498 1466 1437 1387 1330 1264 1183 1093 - 042 MED Watts - 741 715 694 869 645 610 4573 544 - CFM - 1738 1698 1853 1604 1538 1457 1362 1271 - Watts - - - - - 798 772 738 700 - CFM - - - - - 1720 1648 1540 1414 - LO Watts 627 817 807 584 567 548 582 503 - - CPU 1550 1530 1493 1461 1414 1381 1320 1250 - - 048 MED Watts 1771 755 734 711 690 685 839 607 572 - CFM 1798 1771 1734 1687 1645 1595 1530 1449 1355 - HI Watts - - 908 887 858 827 804 4767 748 - CFM - - 2000 1944 1876 1811 1735 1647 1555 - LO Watts 786 769 754 736 722 705 684 858 - - CFM 2027 1960 1901 1821 1759 1693 1816 1513 - - 060 MED Watts 873 849 833 815 798 782 763 748 - - CFM 2095 2026 1962 1887 1817 1748 1679 1583 - - HIGH Watts 1012 993 981 963 948 927 904 888 - - CFM 2109 2036 1983 1886 1812 1729 1647 1646 - - *Air delivery values are based on operating voltage of 230v,wet coil,without filter or electric heater.Deduct fitter and electric heater pressure drops to obtain static pressure available for ducting. NOTES: 1.Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity.Evaporator coil frosting may occur at air- flows below this point. 2.Dashes indicate portions of table that are beyond the blower motor capacity or are not recommended. 3.Deduct 10%for 208v, FILTER PRESSURE DROP(in.wc) FILTER CFM UNIT SIZE SIZE X 1 - - --- (in.) 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 • 024,030 20 x 20 0.05 0.07 0.08 0.10 0.12 0.13 0.14 0.15 036 - 20 x 24 - - - - 0.09 0.10 0.11 0.13 0.14 0.15 0.16 042-060 24 x 30 0.07 0.08 0.09 0.10.0.11 0.12 0.13 0.14 0.15 0.16 0.17 0.18 19 IIIIIII111111111 �11111111M11111111 IIIIIIII IIIIIIIIII ROOF-MOUNTING CURB ��M ROOF -m..........411=---------limmv ', \ RETURN-AIR +` FLEXIBLE DUCT SUPPLY-AIR ��) +�` • FLEXIBLE DUCT N �+ =+ .E1_NG CONCENTRIC DIFFUSER BOX (FIELD-SUPPLIED) A99321 INDOOR THERMOSTAT .=-___:_____----. Mird 1 * Illr RETURN li 11111/17' AIR .II J 1 FROM TOP COVER 1 /' POWER '` liar' , SOURCE %V --'%:.--- 7 \ Anumene.411110 ----------------_________ _ % III 11111111111111j I/IIII��' /1.,00I 111111111j1-,,Ilia...1 111) I06 0-- �� I \1 II- I DISCONNECT ~`I� PER NEC* \\\- '/ *National Electrical Code 099061 • 20 APPLICATION DATA Condensate trap—A 2-in.condensate trap must be field supplied. To convert a unit to downflow discharge—Units are equipped 1,(25mm)MIN. with factory-installed inserts in the downflow openings.Remove TRAP the inserts similar to removing an electrical knockout. �l \ OUTLET Maximum cooling airflow—To minimize the possibility of con- 2 (50mm)MIN. densate blow-off from the evaporator, airflow through the units should not exceed 450 cfm/ton. • 4 Minimum cooling airflow—The minimum cooling airflow is350 Ce9013 cfm/ton. Minimum cooling ambient operating temperature—All Stan- • Ductwork—Secure downflow discharge ductwork to roof curb. dard units have a minimum ambient operating temperature of 40°F For horizontal discharge applications,attach ductwork to unit with (4.4°C).With accessory low ambient temperature kit,units can op- flanges. erate at temperatures down to 0°F(-17.7°C). r �r> 21 ELECTRICAL DATA-50SZ NOMINAL VOLTAGE RANGE COMPRESSOR OFM IFM ELECTRIC HEAT POWER SUPPLY UNIT y_pN_fZ MIN MAX RLA LRA FLA FLA NO NAL FLA MCA MOCP•* -I- -1- 16.5/16.5 25/25 J��i4i14i2Millalt aaLlM .q . 50sZ-024 208/230-1-60 187 253 10.9 54.0 0.9 2.0 a,_l�,� �,' • .• MIMIlikall20.4/20.4 30/30 208/230-1-60 187 253 14.0 72.5 0.9 2.0 ENE 25.9130 MM. 60/60 50SZ-030 •. '•' 20/20 208/230-3-60 187 253 9.4 63.0 0.9 2.0 1=tillainniirieMIIMMA=EME • '. MINEMIIME .: t.: .• :• 24.0/24.0 40/40 • a.MINi1a1Y.'.IM .. *• +. 208/230-1-60 187 253 16.0 88.0 0.9 3.1 y,&. l.X'Ik' lL -• . a ' i� aaatr:s 25/55 50SZ-036 �ai ikrar_�'a]E______ 208/230-3-60 187 253 10.7 77.0 0.9 3.1 llMii4./1,;A_ .L "a x• . N -I- -I- 8.6 15 Cl) 460-3-60 414 506 5.1 39.0 0.6 1.6 5.0 6.0 16.1 20 0 10.0 12.0 23.6 25 LC) 15.0 18,0 31.1 35 • -I- -I- 28.0/28.0 40/40 208/230-1-60 187 253 18.4 104.0 0.9 4.1 !.iliNai____.i • •• -ja'ir"i/CS6m - iU=__Yl_____ _____iU.'i_ •'. V, 20.5/20.5 30/30 50SZ-042 k t 208/230-3-60 187 253 12.4 88.0 0.9 4.1 S•I.I �S'II � • •• iltak1=Milrlia=1/111MMA:=11 "" -/- -/- 9.8 15 5.0 6.0 17.3 20 460-3-60 414 506 5.8 44.0 0.6 1.9 10.0 12.0 24.8 25 15.0 18.0 32.3 35 NEMIERMIEVETE 40/40 208/230-1-60 187 253 18.3 109.0 1.5 4.1 MiLit(tME_a.7'!____ :•LUUMM a IngilliMilatiej 30/30 5082-048 �� .,. 208/230-3-60 187 253 12.4 88.0 1.5 4.1 ((•'i'•laikiik � y -/- -/- 10.8 15, 5.0 6.0 18.3 20 460-3-60 414 506 6.4 44.0 0.9 1.9 10.0 12.0 25.8 30 15.0 18.0 33.3 35 a. q. / 39.0/39.0 BO1. IS i1M'.Ti:itILIuam • • 208/230-1-60 187 253 25.0 148.0 1.5 6.2 iial.1111 ____.)•_ MM :'• :• mri 7LL'm Gi mmiuli ami ••• :k k -. "• -I- 45/45 50SZ-� 10.4112 45/45 208/230-3-60 187 253 17.3 123.0 1.5 8.2 imitiaummiguali • fRclil.�i____:'ii______1/LlE-l y. . , °.'•'• -I- -I- 13.2 20 5.0 6.0 20.7 25 460-3-60 414 506 7.7 49.5 0.9 2.7 •.• . • `•• 15.0 18.0 35.7 40 20.0 24.1 43.4 45 `kW @ 208/240 or 480 volts "Maximum Overcurrent Protective Device. See notes on following page. 22 EXAMPLE:Supply voltage Is 230-3-60. LEGEND A B c BC 5= v LRA A — Full c Load Amps /� AC=227 v 228+ 231 + 227 MCA — Locked Rotor Amps C US M -- Minimum Circuit Amps Average Voltage= 3 MOCP— Maximum Overcurrent Protection RLA — Rated Load Amps = 686 3 NOTES: = 229 1. In compliance with NEC(National Electrical Code) requirements Determine maximum deviation from average voltage. for multimotor and combination load equipment (refer to NEC (AB 229-228 =1 v Articles 430 and 440),the overcurrent protective device for the (BC 231-229 =2 v unit shall be Power Supply fuse.The CGA(Canadian Gas (AC 229-227 =2 v • Association)units may be fuse or circuit breaker. Maximum deviation is 2 v. 2. Minimum wire size is based on 60°C copper wire. If other than 60°C wire is used, or if length mcceeds wire length in table, Determine percent of voltage Imbalance. determine size from NEC. 2 3. Unbalanced 3-Phase Supply Voltage %Voltage Imbalance=100 x Never operate a motor where a phase Imbalance In supply volt- 229 age is greater than 2%.Use the following formula to determine =0.8% • the percentage of voltage imbalance. This amount of phase imbalance is satisfactory as it is below the %Voltage imbalance maximum allowable 2%. =100 x max voltage deviation from average voltage average voltage IMPORTANT: If the supply voltage phase Imbalance is more than 2%, contact your local electric utility company immediately. �, Heater capacity(kW)based on heater voltage of 208v&240v. If power distribution voltage to unit varies from rated heater voltage,heater kW will vary accordingly. C03014 N �t) 23 WIRING DIAGRAM 208/230-1-60 c(x 24.0]6-°•1 UNITS ONLY.LX BEN caA;ra EE SCHEMATIC - - FIELD C A DR 2081230-1-60 MAXIMUM WIRE BLK IL WANE BLK 1 F BLK-0—BLN Am SIZE 2 AWG. _ - R SUPPLY TEL POWER pr Ii) YE CAP2 EEL OFM EQUIP AND o H F(—Bxx H PRESSOR PLUG 1 m FOR WNW WITH re e I I I a WATERS ELECTRIC �aIT I /I YEL COMP SEE SCHEMATIC ON NEATER ACCESSORY. I L.�- --r{ I BLU tir. .1�Ir _ --I--- i i lok ,-BLU ON 030 • I L h 1 1 8 H'0 RED O I AND 048 I I 1 I r RED TEL O YEL I 1 I BRNFWHT um 1-.---'L' Fi I I I CAP)r OR TEL ■ I I I I 0 BORN 111--_D>r-r - I I,T--_ ( I ■II- _ I I N I IJ -- C>r—r -- Cl) I I I O I I I LCI I I I URN-TEL-1 L L I TEL fIL e...32 AMP pGRN-YEL GRN-YEL GRN;YEL MANUAL RESET TRAM C5 BAN- ORN AV ( BPI- - ORN comp TOR URN OIRMIll B BRN- - RED BAR- I, ON G I DEFROST BOARD (DB/ 0— —1 el Autoiiw• Q RED OR I �} I BLK �� BAN BRN- �I YEL— LTD BRN- �rF NM WY I EN BAN^ I DPW 1 rN OAN - —17-11 PNK • ��• PNN� NI -WHT �.Y ,Q„[+ ON TH1 I BLU LPS— H jTl SUPL.HEA�A PL-I 0 IN2 V • PNK BLU LL W2 I ACCESSSORT ELECTRIC HEAT SUPPL.• • •AT C HRI (5 KWI—............ess BAN- FIELD-THERMOSTAT I WHT -�- ORN- SEE NOTEN2 I 1-,\1 /10 HR1 6 2 (10 KW) _ -® BAN I GRA I _ WOO BRN- HR1,2 0 3 (15 NW) BAN 1_ BRN-- HA1,2,3 d 4 (20 MW) ma. 240 SPLICE BOX BRN UNIT COMPONENT ARRANGEMENT LEGEND DIP SWITCH SETTINGS SECTION CAN NrANLT a OH s SECTION OFN 0 FIELD SPLICE O MIMES R NIAUn a Nuun 110 O TERMINAL(HARDEST C CONTACTOR MLI T t s N T 1 rNW I TIN I 2 1 •TERMINAL IUNMARNEOT CAP CAPACITOR O SPLICE CB CIRCUIT COMPREISSOREIARERR N�[1 COMPRESSOR INDOOR FAN CONTROL NOD ARE A °SPLICE IM IMEDI CID COMPRESSOR LINE DELAY III'O a N rill !ILI rLUlll SECTION SECTION 20 22 —FACTORY TIRING Be DEFROST POSED C -FIELD CONTROL WIRING DFl DEFROST 1REHN001Ai ( to I I otl 21 11 —•FIELD POWER HIRING DR DEFROST RELAY SINGLE PT. -••ACCESSORY OR OPTIONAL ORO OAWND LW CONNECTION TIR LNG RR NEATER RELAY f1[N ST SEYNL[OIIOWD fa 11A[r[AIW FOR 1 ] —TO INDICATE COMMON IFM INDOOR FAN MOTOR 1MUfD MOST EYELID u/RUYNI ELECT.HEAT TDB POTENTIAL NWT' LPS LEN PRESSURE SWITCH t fWRNIM TILL SNAP ar rp SS ERA a aTION! ® NOT 10 REPRESENT INNING aM OUTDOOR FAR MOTOR IN111DY1a AAA YNA/Mfla IA NE ASIEi FIFTY'TM 01 ADRAPLI 1ERNINAL mmmuIO IFM RVN TIDERDELA VAERE SO[4010 NtN 3 awHAro Inl rue IOM[N[l0 arttrr ® CAI2 TD 7 AE ORME REIAT • r rltte N[[D w tINE - NC F IRAN TRANSFORMER I AOIMNNILT SWOT FIN DAD RELEASE IO STMRS CTD 111,T21 COMPRESSOR DELAY Cb OAT FOR ar DO SOD DEFROST TOR 11.]1 FAX SEQUENCE Zi IUR1 fO U.NEE. [TNM f0A NAE[O D[FNOSI BOARD EQUIP IENAY[YI fRDAI MILL IE IDRa[D. ONE 0 D SEC T T• AIM. DEfe01T MILL r[RNIAArt ID le SEC If OFT MEE HERB S!DELL IIW INSTI RaASLLP IF OFT IS CLOSED SEE NEATER 0 0 CI CT SCHEMATIC DISCONNECT ENERGIZED SE-FNEP6I1ED CLOSES OPENS FOR WIRING I PER NEC LSAT 11: YIELD NOTES I I SUPPLIES I. IF ANT OF THE ORIGINAL WIRES FURNISHED ARE REPLACED, EV THEY MUST BE REPLACED WITH TYPE 90 DEG. C WIRE I CH 1 i 01 SPL IC E-21V POWER ENTRY OR ITS EQUIVALENT. 2. SEE PRICE PAGES FOR THERMOSTAT AND SUBBASES. 3. USE 15 DEG. COPPER CONDUCTORS FOR FIELD INSTALLATION. 4. FOR 'HIGH SPEED' IFM, DISCONNECT 'RED' OR "BLUE' WIRE FROM TDR-3 AND CONNECT THE 'BLK"WIRE. I50SZ50012817.0 A06492 24 CCN WIRING DIAGRAM 208/230-3'''''-16"""0 I--E 1""yyyr--oLN °LA ,}(L n SCHEMATIC /—\ FIELD BLn C �►� BL.�^r'�DR^ (ILK-�OLN 208/230.360 MAXIMUM WIRE U+F�YEf� SIZE 2 AWG. SUPPLY 1 TEL tb RI YE TEL OFM J POWER BLU CAPON OT f RRH PRESSOR PLUG EOUIP-GND No m ALL awl G COMP FOR 91R N3 rim r-, 1 . ELECTPoC HEATERS Ito. 1 BLU !) SCHEMATIC ATER AC: -_ _-J TDR �LU ON 030 ON PATER ACCESSORY. I -C_ __rf 0 RED O AND 048 I - 1 J r I RED L- -[E-- YEL 0 TEL I -N I r°RN/RHt um �L_ ( J.�/ CAP 0I I-DRNL LL__C)►--+ — N rl_-_-_-r)I ■IG-- 0 IJ c>-- -- GRN-YEL GRN-YEL 111151---r ( --J TEL 4D �' \I r�a�•YEL LL__t)r—r (_i�" _ L J _I 3.2 AMP MANUAL RESET CB TRAM 4 BRN- ORN Nv t ERN- - � W31 ORN A Q TOR GRN C RCM 6 BRA- 1---- RED BAN- K Ox G I /--\ DEFROST BOARD (DB) � BL BRN 9— • L RED DR AFill A u,OFSA (.O� 00 ALA W BAN- YEL— � S CTD BRN OFF NI •Y �: t Q_. . ® BAN-'• Nx Ra ORN U I 1111-—1 PNK • '- • PNK • ) WHY �'y rxI 0 ��" r�1 ON 1 ® I LPS _ BLU �•UPPL SUPL.NEA•E .. PL'1 0 NEAT TN2 ANA • PNn ---- _CID_ BLU 4 I . • W2 • • ACCESSSORT ELECTRIC HEAT I L SUPPE.xEAi C HIM 15 KW) BRN- FIFLD•THERMOSTAT 1/3) RAT �- - BRN- NR1 b 2 M D KW) BRN SEE NOTE12 �j 010 -- GRA - BAN- t==?, BRN b 3 (15 KW) ® BAN BRN HR1,2.3 b 4 (20 Mw) = - - 24V SPLICE BOX BRN UNIT COMPONENT ARRANGEMENT LEGEND DIP SWITCH SETTINGS OUTDOOR FAN SECTION OFR o FIXED SPLICE OMNnwrils CO 01511[ M NOW"tw J}0Nr(f I a O TERMINAL IMAMATE, C CONTACTOR O SPLICE IoNARM[OI CAP CIRCUITOO N��I ��I w I �� '� o SPLICE CO CIRCUIT PRIMMER wNI COMPRESSOR IRDOOR FAN CONTROL DOS AREA (SPLICE IROMEDI ITS COMPCS50R TINE a w war SECTION SECTION -Faroe RISING DR CoROSTSBO RDY[DCIa i3 t1 OR DEFROST BOARD I a I I NTA511 ( --FIELD PONTROL PINING KT DEFROST tELAMOSIAT 21 II --ARCED POOR PINING OR GROUND DEFROST FILMS SINGLE PT _--RISING OH OPTIONAL OD GROURD I«M uLNrMh[arlws ra?INC Pnlw CONNECTION FDA NIf ERG MR NEATER RELAY FOR A I IFM INDOOR FAN MOOR •UTAEEM WNW'ICLIS wuwUUS, ELECT.HEAT -TO INDICATE COMMON LPS LON PRESSURE SNITCH w w NC w(UTMwP ea] I POTENTIAL dell. OFN OUTDOOR LAN NOIOR IaIIMWIOS NOB'Incur.IN COI•S0IEI SNIT,w L D O NOT TO REPRESENT NII IIIG 01 AD [r[RMIRA` POSITION HAS R[v[1SINO YALTE SOGENDID f CEO N o use rwf tTU tNru wxcrl ® CAP? I"N TER TIME D[lAI RELAY i I❑❑I rl TO UU TT TRAM THAN TRANSFORMER t[commMLOTT MULC PINS. MN uLfp[TO • DEFROST TDR II SI FAN SEQUENCE CID III.1ZI (ONPpESSO DELAY CI spa RN S.NC. [ TOT rw[[M Nrwtr. BOARD EQUIP. II 51 Nww(SI MOT JILL Nt AMENS GND 0 S SEC' T T.3 HIN NrNOS;TILL T[OM NT L u Ir ar aw. SEE MUTER :gm;ONCE T[wlYr[iwuue[ir ar If«w[M SCHEMATIC ENERGIZED Df ENERGIZED CLOSES OPENS FOR MIRING TSAI ® _ _ D RCONN[CI MOTES' PER NEC 1. IF ANY OF TIE ORIGINAL WIRES FURNISHED ARE REPLACED. D THEY MUST BE REPLACED WITH TYPE 90 DEG. C WIRE FIELD FIELD OED OR ITS EOUIVALENT. 2 SEE PRICE PAGES FOR THERMOSTAT AND SUBBASES. co I 2AV SPLICE 24R PONES ENTRY 3. USE 75 DEG. COPPER CONDUCTORS FOR FIELD INSTALLATION. D01 R. FOR 'HIGH SPEED' 11W. DISCONNECT 'RED' OR 'BLUE' WIRE - -- FROM TDR-3 AND CONNECT TIE 'BIK' WIRE. 1 50SZ500129 13.0 A06750 • 25 WIRING DIAGRAM 460-3-60 am DID ELA I' SCHEMATIC I� FIELD BLK �)C ��". 61 1 DR 8L■�BiN 460-3-60 MAXIMUM WIRE Q� SHE 2 AUG. SUPPLY 1 I TEL Cb If TEL OFM • POWER CAPE I I Btu , OT 1-------844 EOUIP_GND , MPRESSOR PLUG . TEL MG COMP• FOR IRMO WITH -B.EC1 C(EATERS 1 4-r I I RLU M ��IT I JI TDR �BLU ON 030 ON 1£ ACCESSSORY I•` rY 1 O --RED O /V AND 048 •JIM 1 1, r I RED 1--m T TEL O TEL • I I I OR NrFLT IFM d f il• �r T 4- CAP 10��BRN rr_L---� 1 1 1 ELK '1 K2--- N I I I -c)L-1--1 N 1 1 1 0 I r1----c)1f I I I I CN---1---J • ___ I I GRN-YEL-�GRN-YEL .I f�-_-C}I 1 TEL lID c., L J 3.2 AMP MANUAL RESET ,.,.` CB TRANI B CE) RN- ORN C BAN- W31 ORN 0 0 TDR — — — L---GRN OrIMER miQ BAN- ____ I RED 8RN- R_ ON G I DEFROST BOARD IDB1 Q -7.,A? L J RED DR U BLK BRN �F T AUTO OR Y® 1—BLK We� BRN- TEL E 1 I ETD ill BAN- OFF •r /I \ 7 AK—, 'u (� BRN- � I- ORN Ir''NG�...1`^V' PNN .�^ PNK *II a / I 7 0 WHT HO.q. 1 oN TNt -1 ' Iii. B LPS u,I L UL REA M PL-1 NEAT "2 A _ V • PAK LEW BLU L. L W2 ACCESSSORY ELECTRIC HEAT • • • • SUPPL.NEAT C I I HR1 IS KW/ PAN-- FIELD•THERMOSTAT WHT 000 BRN-- SEE NOTER2 I I j 010 HA1 d 2 I10 KW) BRN •00 I , 000 TRW- GRA /--\ BRN HR1,2 0 3 115 NW I- ® BRN HR1,2,3 d 4 120 KW) - 24V SPLICE BOX I I BRN UNIT COMPONENT ARRANGEMENT LEGEND DIP SWITCH SETTINGS OUTDOOR FAN -- �I(�.KU 1K MNrnf SECTION OFR , 1 FIELD SPLICE MTEI N 011u«s N.INriu 10 I. ' O TERMINAL INARMCDI C CONTACTOR M I 1 1 riL N 11/ 1 1 o SECTION SECTION 23 13 —FACT0N1l■ININGRAFDI SE CAP CAPACITOR DEFROST DOURD �� oI �� II�ar ri o SPLICE CI CIRCUIT NREAICR a w K j( • CONRESSOR INDOOR FAY CONTROL ION AREA OSPLICE 1YAB1[D1 CORP COMPRESSOR 110101 VD COMPRESSOR TIME DELAT C --FIELD CONTROL MIRING DOT DEFROST THERMOSTAT 2 1 11 --FIELD PO SIRING ON DEFROST REM PPM I1Kr raKTI SINGLE PI ---ACCESSORY OR OPTIONAL 00 61014110 DFI CONNECTION TDB TIRING NR NEATER RELAY r1u.su[crrl(urlaslralrlK rules A LEN INDOOR FAR Itlr011 1 ELECT MEAT 1 —TO INDICATE CO■MON LPS ION PRESSURE ST11CN TUE 0 U1S NT SILL ROUT ar TEN ON SIC 00 REVISIT T NOT TO RE 0■l1'. 0IY OY Tp00R TAN MOTOR 111110110.N0 T(NNINAIIOR IN TON arm sari-4 B 3 Rol 10 HIR[StYI nalNC yr OUADRDP ES «RY UAL b[IT 101 CAP I IFM 101 TIM[DELAYrRELAT N01D 71E1E1 riS O 5*0 i 00010 s(WINS.4"' Km IRAN IRAN IRAN Sf ORNEA • TI NIAIIIr SEW PIMA A.0 KILN(TO 1TPASS DEFROST TDR 11.31 FAN SEONENCE CID 111,121 COMP RCSSON DELAY i sK.r 1a S.S[f1 SINS RUMP(PER FORM 0(IIOf,. BOARD EQUIP I.RISSNLNT WNMU SILL NI I5KK0 GND 0 Tr30 O.1 SEC T Tr NUN. O(YHOI TRILL rl1.uAI(IN u s«.IT Mr1 all SEE KA1(A CI ET 1 [MINK.uMU1T II Drily CLOUD SOCRATIC ENERGIZED DO-ENERGIZES CLOSES OPENS FOR MIRING TEAT 1111111 — PER NOTES: PEA NEC 1. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE REPLACED, THEY MUST BE REPLACED WITH TYPE 90 OEG. C WIRE . -FIELD OR ITS EOUIVALENT. SuPPI LEO 2, SEE PRICE PAGES FOR THERMOSTAT AND SUBBASES. CN 21r SPLICE 2AV POWER WRY 3. USE T5 DEG. COPPER CONDUCTORS FOR FIELD INSTALLATION. B01 4 FOR 'HIGH SPEED' IFM. DISCONNECT 'RED' OR 'BLUE' WIRE FROM TDR-3 AND CONNECT THE '81K' WIRE. I 50SZ50026413.0 -- ---- - -- A06751 26 CONTROLS Sequence of operation Should room temperature continue to fall, circuit R-W is made When power is supplied to unit,the transformer(TRAN)is ener- through second-stage thermostat bulb. If optional electric heat package is used,a relay is energized,bringing on first bank of sup- gized. plemental electric heat.When thermostat is satisfied,contacts open, On units with crankcase heater,heater is also energized. deenergizing contactor and relay; motors and heaters deenergize. Cooling—With the thermostat subbase in the cooling position,the The IFM is controlled by a time-delay relay that keeps the fan on for • thermostat makes circuit R-O.This energizes the reversing valve 30 seconds. solenoid(RVS)and places the unit in standby condition for cooling. Defrost—Defrost board(DB)is a time and temperature control, As the space temperature rises,the thermostat makes,closing circuit which includes a field-selectable time period between checks for defrost 90,and 30,60,90d 120 minutes).Electronic timer and defrost • R-Y. A circuit is made to contactor(C),starting the compressor (30, ) (COMP)and outdoor-fan motor(OFM).Circuit R-G is made at the cycle start only when contactor is energized and defrost thermostat same time,energizing the indoor-fan relay(IFR)and starting the in- (DFT)is closed. door-fan motor(IFM)after a 1-second delay. Defrost mode is identical to cooling mode,except outdoor-fan mo- When the thermostat is satisfied,contacts open,deenergizing C.The for stops and a bank of optional electric heat turns on to warm air COMP and OFM stop,and the IFM stops after a 30 second time supplying the conditioned space. delay. NOTES: N Heating—On a call for heat,thermostat makes circuits R-Y and 1.Compressor time delay occurs through the defrost control board. p R-G. 2.Defrost control board has built in 5 minute compressor delay: A circuit is made to C,starting COMP and OFM.Circuit RG also once the compressor has started and then stopped,it cannot be re- is completed, energizing IFR and starting IFM after a 1-second started again until 5 minutes have elapsed. delay. 27 GUIDE SPECIFICATIONS Packaged Heat Pumps C. Fans: Constant Volume Application 1. The indoor fan shall be 3-speed,direct-drive,as shown on HVAC Guide Specifications equipment drawings. Size Range:2 to 5 Tons,Nominal Cooling 2. Fan wheel shall be made from steel and shall be double-inlet Carrier Model Number:50SZ type with forward-curved blades with corrosion resistant finish.Fan wheel shall be dynamically balanced. Part 1—General 3. Outdoor fan shall be direct-drive, propeller-type with SYSTEM DESCRIPTION aluminum blades riveted to corrosion resistant steel spiders, be dynamically balanced,and discharge air vertically. Outdoor, packaged, air-to-air heat pump unit utilizing a D. Compressor: hermetic scroll compressor for cooling duty and optional electric heating. Unit shall discharge supply air vertically or 1. Fully hermetic compressors with factory-installed vibration horizontally as shown on contract drawings.Outdoor fan/coil isolation. section shall have a draw-thru design with vertical discharge for 2. Scroll compressors shall be standard on all units. minimum sound levels. 3. Compressor Protection: N QUALITY ASSURANCE Defrost control shall protect compressor by preventing 0 A. Unit shall be rated in accordance with ARI Standards "short cycling." 210/240-03 and 270-95. E. Coils: B. Unit shall be designed in accordance with UL Standard Indoor and outdoor coils shall have aluminum plate fins 1995. mechanically bonded to seamless copper tubes with all joints C. Unit shall be manufactured in a facility registered to ISO 9001 brazed. (Copper/copper and vinyl-coated construction manufacturing quality standard. available as option.)Tube sheet openings shall be belled to D. Unit shall be UL listed and c-UL certified as atotal package for prevent tube wear. safety requirements. F. Refrigerant Metering Device: E. Roof curb shall be designed to conform to NRCA Standards. Refrigerant metering device shall be of the fixed orifice feed type. F. Insulation and adhesives shall meet NFPA 90A requirements G. Filters: for flame spread and smoke generation. Filter section shall consist of field-installed,throwaway,1-in.- G. Cabinet insulation shall meet ASHRAE Standard 62P. thick fiberglass filters of commercially available sizes. DELIVERY,STORAGE AND HANDLING H. Controls and Safeties: Unit shall be stored and handled per manufacturer's 1. Unit controls shall be complete with a self-contained,low- recommendations. voltage control circuit. 2. Units shall incorporate an internal compressor protector that Part 2—Products provides reset capability. EQUIPMENT I. Operating Characteristics: A. General: 1. Unit shall be capable of starting and running at 125°F Factory-assembled,single-piece,heat pump unit.Contained (51.6°C)ambient outdoor temperature per maximum load within the enclosure shall be all factory wiring,piping,controls, criteria of ARI Standard 240-94. refrigerant charge(R-22),and special features required prior to 2. Compressor with standard controls shall be capable of field start-up. operation down to 40°F (4.4°C) ambient outdoor B. Unit Cabinet: temperature in cooling mode. 9. Unit cabinet shall be constructed of phosphated, 3. Unit shall be provided with 30-second fan time delay after zinc-coated,pre-painted steel capable of withstanding 500 the thermostat is satisfied. hours of salt spray. J. Electrical Requirements: 10. Normal service shall be through a single removable cabinet All unit power wiring shall enter the unit cabinet at a single loca- panel. tion. 11. The unit shall be constructed on a rust proof unit base that has K. Motors: an externally trapped,integrated sloped drain. 1. Compressor motors shall be of the refrigerant-cooled type 12. Indoor fan compartment top surface shall be insulated with with line-break thermal and current overload protection. a minimum 1/2-in. thick, flexible fiberglass insulation, 2. All fan motors shall have permanently lubricated bearings, • coated on the air side and retained by adhesive and and inherent,automatic reset,thermal overload protection. mechanical means. The indoor wall sections will be 3. Condenser fan motor shall be totally enclosed. insulated with a minimum semi-rigid, foil-faced board capable of being wiped clean. Aluminum foil-faced L. Special Features Available: fiberglass insulation shall be used in the entire indoor air 1. Louvered Grille: cavity section. Wire grille shall be standard on all units. Louvered grille 13. Unit shall have a field-supplied condensate trap. shall be available as a factory-installed option to provide hail 14. Metal Insulated Duct Covers for side discharge will be guard and vandalism protection. standard on all sizes. 15. Unit insulation conforms to ASHRAE 62P. 28 2. Coil Options: perature sensor for controlling outdoor-fan motor opera- Shall include factory-installed optional copper/copper and tion, which shall allow unit to operate down to 0°F vinyl-coated refrigerant coils. (-17.7°C)outdoor ambient temperature. 3. Economizer: 8. Filter Rack Kit: a. Economizer controls capable of providing free cooling Shall provide filter mounting for downflow applications. using outside air. 9. Controls Upgrade Kit: b. Equipped with low leakage dampers not to exceed 3% Shall provide high and low pressure safety protection. • leakage,at 1.0 in.we pressure differential. 10. Square-To-Round Duct Transitions(024-048): c. Spring return motor shuts off outdoor damper on power Shall have the ability to convert the supply and return open- failure. ings from rectangular to round. • 4. Flat Roof Curb: 11. Crankcase Heater: Curbs shall have seal strip and a wood nailer for flashing and Shall provide anti-floodback protection for lowload cooling shall be installed per manufacturer's instructions. applications. 5. Manual Outdoor Air Damper: 12. Electric heaters: Package shall consist of damper,birdscreen,and rainhood a. Electric heater shall be available as a fieldinstalled option. which can be preset to admit outdoor air for year-round yen- b. Heater elements shall be open wire type,adequately tilation. supported and insulated with ceramic bushings. N 6. 6.Thermostat: c. Electric heater packages must provide single point power 0 To provide for one-stage heating and cooling in addition connection capability. manual or automatic changeover and indoor fan control. 7. Low Ambient Package: Shall consist of a solid-state control and outdoor coil tem- . 29 N to O Copyright 2007 Carrier Corp.•7310 W.Morris St.• Indianapolis.IN 46231 Edition Date.05/07 Printed in U.S.A. Catalog No:50SZ-4PD Manufacturer reserves the right to change.at any time,specifications and designs without notice and without obligations. Replaces.50SZ—3PD 30 - Physical data . UNIT 50MQ022 50MQ027 50MQ032 50MQ037 50MQ042 ! 50MQ047 OPERATING WT (lb) 315 i 330 ,- - -_.340 - 353_-_ - ---_-383 I -- 383 - - REFRIGERANT R-22 Ak Oper Chg (lb oz)* 6 5 1 6 5 I 7 2 I 7 2 I 11 3 I 10.2 qvRefrig Control AccuRaterTM . COMPRESSOR Hermetically Sealed Cylinders 2 _ Rpm (60-Hz) __ __ __ 3500 _ __ OUTDOOR FAN _ J Propeller - Direct Drive — - Air Discharge Vertical Motor Hp 14 _Motor Rpm 1050 OUTDOOR COIL Plate Fin _ Rows...Fins/in. 2 17 3 .17 Total Face Area (sq ft) Inner Coil 3 1 7 9 7 9 1 9 2 7.1 7.1 Outer Coll 8 3 8 3 8 3 9 6 9 6 9 6 Middle Coil - -- - - 9 2 9 2 INDOOR FAN Centrifugal - Direct Drive Air Discharge Horizontal ARI Cfm 825 1012 1200 1387 Range Cfm 733-915 900-1125 1068-1332 1230-1540 j 1350-1750 1550-2000 Motor Hp 14 I '4 14 14 Y. '/, Motor Rpm 1050-950-850-800 1050-950-850 INDOOR COIL ----- - - --- Plate Fin -- --- ------ --- - Rows...Fins/in. 3 .13 Total Foce Area (sq ft) 3 06 I 3 36 L 3 97 -J - 4 58 I 4 58 - -_ 4 58_ - DIMENSIONS (ft-in.) A 3-6% B 3-2 CT 2- 334 2- 3% 2- 3% 2- 7% 2- 73h 2- 73/• D 1-10'4 1-1034 1-10% 1-10% 1-1034 1-10% Et 0- 8'46 0- 8'/16 0- 8'•16 0- 8%6 0- 8346 0- 8746 F 0-1013/6 0-101/ 0-10134 0-1013ç 6 0-10"/6 0-1013/6 G 1- 1'/6 1- 1'/6 1 1'/,6 1 13/,6 1 1'/1e - .. 1 13/t6 • DUCT CONN. (ft-in.) y Side-by-Side Rectangular ( H 1 9% Supply i 0-10% Return ( K 1- 9% L 1- 7% FILTER SIZE** (in.) - — -I • .-. .� -- - -_- Disposable 20x25 20x25 15x20 (2) I 15x20 & 20x20 20x20 (2) 20x20 & 20x25 Permanent 15x20 20x20 20x20 20x25 20x25 15x20 (2) 'Factory refrigerant charge $Does not include 1/4-in.panel overhang. {Dimension"C"includes 1-1/4 in.built-in base support channels(2) ""Recommended field-supplied filters are 1 in thick. Dimensions ToF ___ -• VIEW cow, 4-0"OVERHEAD AIR REARVIEW • - --ems B�+"" SPACE REQUIRED Z --` v : (DMA c ~ry :blu ___ x. BASE �- CHANNELS 2) S f 2 r} t K i s.' {xY .. HEATER HIGH - 0- _ • VOLTAGE CONN - •:;;;;;::;'," - ;3 - .•,,,� -� . ��KNOCKOUT `r-r\ v .� rDIAM HOLE-LOW t L� �_ VOLTAGE CONN fo { �"� ID 51 CORNER v i- Iir aAN HOLE-UNIT 1......-J CONDENSATE • HIGH VOLTAGE • 2 DRAIN FITTING ACCESS i PANEL 0 RETURN AIR SPACE REQUIRED FOR SRVICE CPI REAR OF UNITS IS I'-0 SPACE REQUIRED FOR SERVICE ON ✓✓✓✓ SUPPLY AIR FRONT AND SIDES IS 31-0" CERTIFIED DIMENSION DRAWINGS AVAILABLE ON REQUEST 4 7650 S. W. Beveland St. TM RI PPEY Tigard,Oregon 97223 • CONSULTING ENGINEERS Phone: (55°033))443-Fax: 443-3700 3900 STRUCTURAL CALCULATIONS PROJECT: SNYDER ROOFING—MECHANICAL UNITS LOCATION: 12650 SW HALL BLVD. TIGARD,OR 97223 CLIENT: SNYDER ROOFING DATE: AUGUST 6,2015 PROJECT NUMBER: 15178 TABLE OF CONTENTS: ITEM SHEET NUMBER GENERAL NOTES N1 DETAIL SK1-SK4 CALCULATIONS Cl-C13 PkprE tc43 04 1 N EFL # 3 G 089 hi . to 1 OREGON A. *vim :/&/1 9-0 `4 11)'4t:tiRkk-V GENERAL STRUCTURAL NOTES CODE REQUIREMENTS: CONFORM TO THE 2012 INTERNATIONAL BUILDING CODE AS AMENDED BY THE 2014 OREGON STRUCTURAL SPECIALTY CODE,REFERENCED HEREAFTER AS IBC. DESIGN CRITERIA: DESIGN WAS BASED ON THE STRENGTH AND DEFLECTION CRITERIA OF THE IBC. IN ADDITION TO THE DEAD LOADS,THE FOLLOWING LOADS WERE USED FOR DESIGN,WITH LIVE LOADS REDUCED PER IBC: ROOF SNOW LOAD:25 PSF BASIC WIND SPEED(3-SEC GUST,ULTIMATE):120 MPH WIND EXPOSURE:B SEISMIC IMPORTANCE FACTOR le: SITE CLASS:D SDS=0.721 ap=2.5 Rp=6.0 EXISTING CONDITIONS; THE CONTRACTOR SHALL FIELD VERIFY ALL EXISTING CONDITIONS,DIMENSIONS AND ELEVATIONS. THE CONTRACTOR SHALL.NOTIFY THE ARCHITECT/ENGINEER OF ANY DISCREPANCIES FROM CONDITIONS SHOWN ON THE DRAWINGS PRIOR TO THE START OF THE WORK. TEMPORARY CONDITIONS; THE CONTRACTOR SHALL BE RESPONSIBLE FOR STRUCTURAL STABILITY OF THE NEW AND EXISTING STRUCTURES AND WALLS DURING CONSTRUCTION. THE STRUCTURE SHOWN ON THE DRAWINGS HAS BEEN DESIGNED FOR STABILITY UNDER THE FINAL CONFIGURATION ONLY. CARPENTRY; SAWN LUMBER DESIGN IS BASED ON THE NATIONAL DESIGN SPECIFICATION,LATEST EDITION. SAWN LUMBER SHALL CONFORM TO WEST COAST LUMBER INSPECTION BUREAU OR WESTERN WOOD PRODUCTS ASSOCIATION GRADING RULES. UNLESS NOTED OTHERWISE ALL LUMBER SHALL BE 19%AT TIME OF FABRICATION AND DRIED TO A MAXIMUM OF 15% BEFORE INSTALLATION OF GYP.BOARD AND OF BRICK VENEER AND VERIFIED BY THE GENERAL CONTRACTOR. ALL WOOD IN PERMANENT CONTACT WITH CONCRETE OR CMU SHALL BE PRESSURE TREATED UNLESS AN APPROVED BARRIER IS PROVIDED. FRAMING ACCESSORIES AND STRUCTURAL FASTENERS SHALL BE MANUFACTURED BY SIMPSON STRONG-TIE COMPANY (OR ENGINEER APPROVED EQUAL)AND OF THE SIZE AND TYPE SHOWN ON THE DRAWINGS AND ATTACHED PER MANUFACTURER'S REQUIREMENTS AND RECOMMENDATIONS UNLESS NOTED OTHERWISE. HANGERS NOT SHOWN SHALL BE SIMPSON HU OF SIZE RECOMMENDED FOR MEMBER. ALL FRAMING NAILS SHALL BE COMMON NAILS. NO BOX NAILS ALLOWED. FASTENERS AND ACCESSORIES IN CONTACT WITH PRESERVATIVE TREATED WOOD MUST BE HOT DIPPED GALVANIZED OR HAVE ZMAX COATING. MECHANICAL: THE CONTRACTOR SHALL COORDINATE SEISMIC RESTRAINTS OF ELECTRICAL EQUIPMENT,MECHANICAL,PLUMBING, FIRE SPRINKLER,MACHINERY,AND ASSOCIATED PIPING WITH THE STRUCTURE. ANY CONNECTIONS TO STRUCTURE NOT CONFORMING TO SHEET METAL AND AIR CONDITIONING CONTRACTORS NATIONAL ASSOCIATION(SMACNA),OR SPECIFICALLY DETAILED ON THE MECHANICAL ENGINEER'S DRAWINGS,SHALL BE DESIGNED IN ACCORDANCE OF THESE GENERAL NOTES,BY AN ENGINEER REGISTERED IN THE STATE OF OREGON,AND SHALL BE SUBMITTED TO THE ARCHITECT/ENGINEER PRIOR TO FABRICATION. FLASHING AND WATERPROOFING: ALL FLASHING AND WATERPROOFING SHALL BE BY OTHERS UNLESS NOTED OTHERWISE ON THE PLANS. TM RIPPEY Consulting Engineers By: _VL Date: 7650 SW Beveland Street SNYDER ROOFING—MECHANICAL UNITS Chit By: Date: Suite 100 TIGARD,OR Tigard,Oregon 97223 Job#:_15178 Phone:(503)443-3900 Sheet: _NI Of • • • • ;...• . : , T 1 s' ,f Y ce ¢: hg.. .. ,; Jew` a y., r -r R *:.p. ti., • 4,z,`,P• " I N,.. r 41' + \ . . 4 c 1 A 1 lir . . Y it if i 'ADDRESS• ..-_..._- . .. _ ... . .• 12650 SW-HALL.BLVD_, . .SEE_l/SK2 FOR • DETAILS . i. 'TIGARD,.OR 97223, '- • .. _ . . ..- . SITE , ..... . - SKI .. .._.. _. ..... -• - - - ' - • A TM RIPPEY VL DATE ey CONSULTING ENGINEERS SNYDER ROOFING-MECHANICAL UNITS m a BY DATE 7650 S.W.Beveland St,Suite 100 TIGARD,OR jOe No 15178 Tigard,Oregon 97223 Phone(503)443-3900 _ SHEET SKI OF 1 . . , • , , . , , . , , . . , ( ) F X TE:1211■?e, (F.) DEc ic.i isi 4 "INP. ikon/iILL; , , I , , , , , , ': !. , , H ; ii , i . 1i ; - . . , • ; i • , . , H ; ,. : , ! , , H , 1 . iiii ! ;,: ii ; . 1 ; 111111/rEE) ,3,x12- Jo(STS ; i, • , h , , H ; Hil , : iii i : . , . . ii • ! : . ili . i : ; i i I 1 ! . : 0- e-0". 0/6. Tlfr;1 ' , , I II I ; , „ I — . ; : , • . , : 1 HI ! . i ! ! H , I ; , , , 1 , : i ; h ; : lii • , , ; 11 ; iiIii I l ' tl■ IHH ' 1 • : . , , I . , , GAO-WIER, i (-0E1I-CT r- 3OZ11' , • • • • „ . I,/FAA),UN I T to C A"I I 0■1/4./ I ( t. 51-to ),.), 4.1/ DR S f-1F 0 I.IPF-S) ! ' ' • ', 1, . PLAta igua g_ (0 DO el I I . °PEN,N4 . E.l'E K Fri //S . I Fc), og.TAII...< . 1 I i , i ' i ; : ' 1 i . • . . . . . -- REPLACE (s) ,Weii. ()Nil• . WI NE t.) vorT p VT - 830-3 tAiFI44T . 314* :iver.,) vo.irr tocAriolL). . . , 15 Smow&i. 1,0/ 0A5i460 . . , ------ - IV— 4-1/44. S. ief usE t.e . 'DU4 TS IF PO5e, I eL.E. . (E) Put?. : sEE I/5k-s roe orm it s. PARTIAL_ gooF FR1m104 sri 1. Pi-/1 A) SC Att. I/g"... I 1-o" 1-R TNI RIPPE'S( BY t./1-- DATE .1.IC._1 N_ CONSULTING ENGINEERS 5 0‘i Dalt. RooFhti4 CHK BY DATE 7650 S.W.Beveland St,Suite 100 JOB NO /51.7 g Tigard,Oregon 97223 Phone(503)443-3900 SHEET':',K z 01 . , , I NCO MC(H. 'W i7 A No nip( (6," o r t2 S) PE PL�1 N I • Pov1nG It P.r.41 i r I i ,H c-6ACla y UIUOE2. I , . i �I 1 i 1 , I ` 1 � I � l I (a)I al 57 P, � , PG RN I P , ig:l n:, vw r � I 1 1 I 1 1 l i ' i I l I I I i L , I I � • I 1 1 1 1 1 , I I I ; i l i ; . : ' SIMPSoN '40stit, I i 1 �' ' I i I I � i I I • I i I i I ! I tfA-N46(4. Al At1 I . I I . , f l r 1 ENa 41SNo0N. 1 *'( I j l I I ! . I i 1 1 1 I i t I ' : I. 1 1 1 �, i l l i I ! , l i i i 1 i I , i i l I I ' 1 i i - i I i h i I ; i l i l a i l l I i i i I I I l i - ' i 1 i I i Hi 1 : . 1 I I ii. 1 1 I I i ! I I i i I i s I '0 2Y4i P tl Oil.:I i t 1 I ! I •I I I I 1 1 • I ;P441 P I Ci) i'1)(14 ,R (, +% . 5Ke1! 51C'I i I I 1 ' 'MEf� +lLS u� (E) G, Q,EAM I ' ' ' 4 , , , 'As SN.,wN Wl SIMPSo I PER PLAN,; ! ' _ L ' U5 y(,' NA-N4tP A7 C�[_at ' E Np. I S 1z • yI (g) 11.X 6 11EA0E•ei' i 1 NE ) UNIT ANO I r% �CoM7�A47bR VC�IrY� cu26 (6Y o'Th S) , �r___, I I- I i p&2 PLAN- /LI 6.00 \ ,-, , . . . . evR6 overt. (S) i. I I 39\97 . i (E) DUCT VP( �i1NA; . i i : pgou 1 OE III, 0-i s iA H T IR,EQ'0) I C3F/)RIti( &LoGI-1/14 oNT'!X' • OF (E) hL 6E At-1. Fort :L 4NUT.N I ' (op UNIT COP.& • I IV CUKB ATTgcHMcNT PLAN 52 56A-1.6'• 1/1/ = l'-oh 11\[��'K TM RIPPEY BY v!- DATE CONSULTING ENGINEERS NY DEIL IWrI 061 CHKBY DATE 7650 S.W.Beveland St,Suite 100 lv f��' __ 108 NO l SI3 g Tigard,Oregon 97223 SHEET 5 of Phone(503)443-3900 - MECANICAL UNIT BY OTHERS 16 GA. CLIPS W/ (8) "10 TEK SCREWS PER CLIP, (.4) CLIPS REQ'D. i'-0", TYP. SEE DETAIL 'A' FOR CLIP LOCATION l WOOD BLOCKING REQUIRED . CLIP LOCATION FLASHING AND INSULATION MECH. UNIT NOT SHOWN FOR CLARITY 0 PLAN PROVIDE "I0 SCREWS m ' 2'-0" 0/C AND AT 6" FROM ENDS OF CURB. MINIMUM 11/2" CENTER CURB ON NEW EMBED INTO STRUCTURAL OR EXISTING STRUCTURAL MEMBER, TYP. MEMBER 1 SECTION AT CUIR5 SK4 TAIRGEN-RTU-o1 SCALE: I1/2" a I'-0" • TM RIPPEY BY VL DATE CONSULTING ENGINEERS SNYDER ROOFING -MECHANICAL UNITS CHIC BY DATE 7650 SW Beveland,Suite 100 TIGARD,OR Tigard,Oregon 97223 JOB NO 15178 Phone:(503)443-3900 Fax:(503)443-3700 SHEET SK4 OF • New Uni4 41 I : GKFlvLTY (.-9A0 AI.'/1LV (S Ca?/tee SOEF0241 WGi�In f: 302 • PGI4 5 ' 3x :12 C's G '-o "% (5e = 2o') ke■ h4- 31. 02" 13es1 5 Zs Psi . Wid�l, 32..72" mI) Pew cm:1 w.1 302" 4 ?o (Carlo) = 38211 • New 06/;.1- 2 Old tin■1( w4. = 33o" t 211,$" (sleepers) 36°1.2 ° 50vT ~ g3°- 3 ) 3.6 % di-f4eievlcG i#! weiih4 4. `'% Weighf = 3164 4x& 5 IeG erS W+, 62.1 2 3.5x 5.5\ = y.192 ph He■,51tfi tit-La5n P �� 1yu J LP►16-j1, • 48. 1115" w4. = 11.1?2 pi( (3.5)(2 sleepers) 24. 241 • Wid 4'1., = 32. 62s" • z) IVew U h i`a we;31,4 = 54 6 k + qot(c 4 4 ._ 4/6* • Curb O;,ti,eins;o•ns old a`q;k we15k+ (36c 111) 4 321i (sleepers) = 311*1 Wet`cjki ?0* Ne( h� l4" 0i4-4erGn� 5% or 1 end�h - 44. 1875" Cklecl<- Pur(ins wi 28.15" Each 4 x6 header, - r t .s G-1414 • E S f-i m a 4e 000.c OL (odi d : 312 4/2 = 186 1R Rootni 2.S ps.l 2 Poi,1{ Io i Ls �o oiS� : 1 = _ I 2> 1 deelki'i9 11.2 pi P186 (3.8‘) II$-a 3.$ t 2. Z ±1.4 cila1ion ro/OSj 61 e Sspeylc1Cd etilia /.cell 1 u 5#Pr„n4-lers l.o es/ 1 MecA / l.c p51 1- 3x12 Puvlins a G'-o" nf. 1.0 01 01.32' ± 5.6821 6.3Za1 T�t�( = /2. ps� /�c -Iz,�l 1 seoli = 11.33' (04 -rtc tica � 4� 6.75 w 25.c he 7.4.1) -16 = 26/5 p* (Ft✓Fer eke.) 1. 516 : Sows re14- 0 9 NAG UgG -/CO.F.#1) n• 1 LA, TM RIPPEY _ BY V L DATE CONSULTING ENGINEERS CHK BY DATE 7650 S.W. Beveland St,Suite 100 ioB NO /5 g Tigard,Oregon 97223 Phone(503)443-3900 SHEET G OF (Z�✓o�' pt- wi,f(lootl o fices <11LAIVI1Y 1,0AD ANALYSIS (eo✓14.\ aAct e✓ . 4L 6,3s s benm you-011) 5�t b•rett4 -0.5 ps.t if,su W.h'on -r,s 196.1 51451044,1e t Pa rei I � ' P,, ' f i Ps ( P6 Pb Pc Pc - I r5.1 /+1tc11 /€((' r 1. r 6' , f .� , 6 , b , 6 6 16 „ DL = 43 P 5A 0,69; 2.583' 0,161' D s + P l s 2.5 111' = W. p11 + 40.'i1 pa (2 put 1;n5} = W ' 1111 41 (a) + glo t (5) (e-20.) 2.583' t6` 0 1,01=(12•447C)1164 k(Z.. ) - Sy,So pl! ., �7� % e11 P.) we- = 1.090 k (o) * 2. 146 I ( ) 0 s W , =(r2.3 t 7S) pa- x 6 ' = 7-6.2 pfd + /go pl.I P3 = (o) 4 3l ('1 Pc = 19.5 -t 136 = 1.66 4- (o) r 514- (5) Py = P + = 1. 602 I (o) f (5) t R R71) - Z R7u Wy • (4.q + 2s)p1 rb' = 52 pl( + /So pa P6 - 1.16 I. (a) + 3 1, (5) Pa = u4;4 Dt = 346" -I 7041 (cG1/6) ' 4l60 " Q 211* 46 = 2, 5,10 (5i (FAUC?(il t e) /. t'2 0 : 1 ('f (I10) ` (11(255) f o.g2o Fy = 2ioo ( I,(6) (0,920) 2552 ps; (bend/n 9) t�° x6f Z%, rt ne�li�iLle !?e4 c 4-IOf 4-o CeM 1 i f eue'v G L toe4,41: D= S. S i13 S= //./b5- u- 1M104 1 M RIPPEY BY VL DATE Y CONSULTING ENGINEERS CHK BY DATE 7650 S.W.Beveland St, Suite 100 _ 108 NO I s1 q g Tigard, Oregon 97223 Phone(503)443-3900 -- SHEET e 2 OF 6RIVI T`1 Go/1D ANALYSIS (Con".) - Cave-I;levees 41 6.75 x 2s,s (y p4v - 4,P-6") R P6 P6 P6 Pi, P6 P6 P6 P6 N. (r__1 1 Z of l L l L i L A 196 = 1.4 k (n) {. 3 it (s) -Lb - 2,881 eS; (E ,EgGAcc) 1. 135 : 1 f6' = 2, 539 n si 5 ire ss ' Ii A1,4. lEA K TM RIPPEY BY /t- DATE CONSULTING ENGINEERS CHKBY DATE 7650 S.W. Beveland St,Suite 100 loBNo /5/?8 Tigard,Oregon 97223 Phone(503)443-3900 -- SHEET 3 Of Wood Beam Rb=P.12015 Projecls11 5178-Snyder Roofing-Mechanical UnitstSTRUCTURAL ICALCSi15178.ec6 ENERCALC,INC.1983-2015,Build:6.15.7.3D,Ver:6.15 7.30 Lic #t KW-06002562 • Licensee',:tm rip•ey consulting engineers- . Description: 3x 12 Joists @ 6'-0"o/c CODE REFERENCES Calculations per NDS 2012, IBC 2012, CBC 2013, ASCE 7-10 Load Combination Set:ASCE 7-10 Material Properties Analysis Method: Allowable Stress Design Fb-Tension 1,500.0 psi E:Modulus of Elasticity Load Combination ASCE 7-10 Fb-Compr 900.0 psi Ebend-xx 1,600.0 ksi Fc-Prll 1,350.0 psi Eminbend-xx 580.0 ksi Wood Species :Douglas Fir-Larch Fc-Perp 625.0 psi Wood Grade :No.2 Fv 180.0 psi Ft 575.0 psi Density 31.20pcf Beam Bracing : Beam is Fully Braced against lateral-torsion buckling DRIcB S(0.15) 13(0.118) • 4r • • 2.50 X 11.250 Span=19.333 ft Applied Loads Service loads entered.Load Factors will be applied for calculations. Uniform Load: D=0.01270, S=0.0250 ksf, Tributary Width=6.0 ft Point Load: D=0.1180 k @ 9.324 ft,(Mech Unit DL) Point Load: D=0.1180 k @ 13.006 ft,(Mach Unit DL) DESIGN SUMMARY Desi.n N.G. Maximum Bending Stress Ratio = 1.516 1 Maximum Shear Stress Ratio = 0.545 1 Section used for this span 2.50 X 11.250 Section used for this span 2.50 X 11.250 fb:Actual = 2,615.15 psi fv:Actual = 112.82 psi FB Allowable = 1,725.O0psi Fv:Allowable = 207.00 psi Load Combination +D+S+H Load Combination +D+S+H Location of maximum on span = 9.596ft Location of maximum on span = 18.416 ft Span#where maximum occurs = Span#1 Span#where maximum occurs = Span#1 i Maximum Deflection Max Downward Transient Deflection 0.999 in Ratio= 232<360 Max Upward Transient Deflection 0.000 in Ratio= 0<360 Max Downward Total Deflection 1.626 in Ratio= 142 <180 Max Upward Total Deflection 0.000 in Ratio= 0 <180 Maximum Forces&Stresses for Load Combinations Load Combination Max Stress Ratios Moment Values Shear Values Segment Length Span if M V Cd C FN C 1 Cr Cm C t C L M fb F'b V fv Fb +D+H 000 0.00 0.00 0.00 Length=19 333 ft 1 0.756 0.264 0.90 1.000 1.00 1.00 1.00 1.00 1.00 4.49 1,020.74 1350.00 0.80 42.83 162.00 *D 4+H 1.000 1.00 1.00 1.00 1.00 1.00 0.00 0.00 000 0.00 Length=19.333 ft 1 0.680 0138 1.00 1.000 1.00 1.00 1.00 11)0 1.00 4.49 1,020.74 1500.00 0.80 42.83 180.00 +D+Lr+H 1000 100 1.00 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.544 0.190 1.25 1.000 1.00 1.00 1.00 1.00 1.00 4.49 1,020.74 1875.00 0.80 42.83 225.00 +D+S+H 1.000 1.00 1.00 1.00 1.00 1.00 000 000 000 0.00 Length=19.333 ft 1 1.516 0.545 1.15 1.000 1.00 1.00 1.00 1.00 1.00 11.49 2,615.15 1725.00 2.12 112.82 207.00 +D+0.750Lr+0.750L+H 1 000 1.00 100 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.544 0.190 1.25 1.000 1.00 1.00 1.00 1.00 1.00 4.49 1,020.74 1875.00 0.80 42.83 225.00 CIl Wood Beata File=P.12015 Projects115178-Snyder Roofing-Mechanical Units1STRUCTURALICALCS115178 ec6 ENERCALC,INC 19812015,Buikl.6.15.7.30,Ver.6 15.7 30 KW-06002562: Licensee:tin rippey consulting engineers Description: 3x12 Joists @ 6-0'o/c Load Combination Max Stress Ratios Moment Values Shear Values • Segment Length Span# M V Ca C FN C i Cr Cm C CL M 1b F'b V fv F'v +D+0.750L+0.7505+H 1.000 1.00 1 00 1.00 1.00 1.00 0.00 0.00 000 0.00 Length=19.333 ft 1 1.285 0.460 1.15 1.000 1.00 1.00 1.00 1.00 1.00 9.74 2,216.48 172500 1.79 95 32 207.00 +D+0.60W+H 1.000 1.00 1.00 100 1.00 1.00 0.00 0.00 0.00 0.00 Length=19.333 It 1 0.425 0.149 1.60 1.000 1.00 1.00 100 1.00 1.00 4.49 1,020.74 2400.00 0.80 42.83 288.00 +D+0.70E+H 1.000 1.00 1.00 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.425 0.149 1.60 1.000 1.00 1.00 1.00 1.00 1.00 4.49 1,020.74 2400.00 0.80 42.83 288.00 +D+0.750Lr+0.750L+0.4501N+H 1.000 1.00 1.00 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.425 0.149 1 60 1.000 1.00 1.00 1 00 1 00 1.00 4.49 1,020.74 2400.00 0.80 42.83 288.00 +D+0.750L+0.7505+0.450W+H 1.000 1.00 100 100 100 1.00 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.924 0.331 160 1.000 1.00 1.00 1.00 1 00 1 00 9 74 2,216.48 2400.00 1.79 95.32 288.00 +D+0.750L+0.7505+0.5250E+H 1.000 1.00 1.00 100 100 1.00 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.924 0.331 160 1.000 1.00 1.00 1.00 1 00 100 9.74 2,216.48 2400.00 1.79 95.32 288.00 +0.60D+0.60W+0.601-1 1.000 1.00 1.00 1.00 100 100 0.00 0.00 0.00 0.00 Length=19.333 ft 1 0.255 0.089 160 1.000 1.00 1.00 1.00 1.00 1.00 269 61245 2400 00 048 25 70 288 00 +0.60D+0.70E+0.60H 1.000 1.00 1.00 1.00 1.00 1.00 0.00 0.00 000 000 Length=19.333 ft 1 0.255 0.089 1.60 1.000 1.00 1.00 1.00 100 1 00 2.69 612.45 2400.00 0.48 25.70 288.00 Overall Maximum Deflections Load Combination Span Max '-"Del Location in Span Load Combination Max.'+'Defl Location in Span +D+S+H 1 1.6265 9.737 0.0000 0.000 Vertical Reactions Support notation:Far left is#1 Values in KIPS Load Combination Support 1 Support 2 Overall MAXimum 2.286 2.323 Overall MINimum 0.502 0.524 +D+H 0.836 0.873 +D+L+H 0.836 0.873 +D+Lr+H 0.836 0.873 +D+S+H 2.286 2.323 +D+0.750Lr+0.750L+H 0.836 0.873 +D+0.750L+0.750S+H 1.924 1.960 +D+0.60W+H 0.836 0.873 +D+0.70E+H 0.836 0.873 +D+0.750Lr+0.750L+0.450W+H 0.836 0.873 +D+0.750 L+0.750S+0.450 W+H 1.924 1.960 +D+0.750L+0.750S+0.5250E+H 1.924 1.960 +0.600+0.60W+0.60H 0.502 0.524 +0.600+0.70E+0.60H 0.502 0.524 D Only 0.836 0.873 Lr Only L Only S Only 1.450 1.450 W Only E Only H Only WoodBeam Fib=P.12015 Projecls115178-Snyder Roofing-Mechanical Units\STRUCTURALICALCS115178 ec6 ENERCALC,INC 1983-2015,Buikl 6157.30,Ver615,730 Lic.#:KW-06002562 Licensee trn ri.pey consultin.en ineers Description: GL6.75x25.5 Beam CODE REFERENCES Calculations per NDS 2012, IBC 2012, CBC 2013,ASCE 7-10 Load Combination Set : ASCE 7-10 Material Properties Analysis Method: Allowable Stress Design Fb-Tension 2,400.0 psi E:Modulus of Elasticity Load Combination ASCE 7-10 Fb-Compr 1,850.0 psi Ebend-xx 1,800.0 ksi Fc-Prll 1,650.0 psi Eminbend-xx 930.0 ksi Wood Species DF/DF Fc-Perp 650.0 psi Ebend-yy 1,600.0 ksi Wood Grade :24F-V4 Fv 265.0 psi Eminbend-yy 830.0 ksi Ft 1,100.0 psi Density 31.20 pcf Beam Bracing : Beam is Fully Braced against lateral-torsion buckling D(0.411 3:(9133p)3(2.146) D(1.524)S(3) D(1.60 )S(3) D(1. )3(49.416) D(1.1.)3(3) D(1.1 8(3) D(1.1 )S(3) ,L 6.75x25.5 Span=39.750 ft • Applied Loads Service loads entered.Load Factors will be applied for calculations. Beam self weight calculated and added to loads Point Load: D=0.4110, S=0.810 k @ 0.6560 ft Point Load: D=1.090, S=2,146 k @ 3.240 ft Point Load: D=1.524, S=3.0 k @ 9.240 ft Point Load: D=1.602, S=3.0 k @ 15.240 It Point Load: D=1.660, 5=3.0k @21.240ft Point Load: D=1.160, S=3.0 k @ 27.240 ft Point Load: D=1.160, S=3.0k @33.24011 Point Load: D=1.160, 5=3.0k @39.240ft Point Load: D=0.4160 k @ 23.0 ft DESIGN SUMMARY Desi•n N.G. Maximum Bending Stress Ratio = 1.108 1 Maximum Shear Stress Ratio = 0.409 : 1 Section used for this span 6.75x25.5 Section used for this span 6.75x25.5 fb Actual = 2,589.58psi fv:Actual = 124.76 psi FB:Allowable = 2,336.15psi Fv:Allowable = 304.75 psi Load Combination +D+S+H Load Combination +D+S+H Location of maximum on span = 21.181 ft Location of maximum on span = 0.000 fl Span#where maximum occurs = Span#1 Span#where maximum occurs = Span#1 Maximum Deflection Max Downward Transient Deflection 1.659 in Ratio= 287<360 Max Upward Transient Deflection 0.000 in Ratio= 0 <360 • Max Downward Total Deflection 2.645 in Ratio= 180 Max Upward Total Deflection 0.000 in Ratio= 0 <180 Maximum Forces&Stresses for Load Combinations Load Combination Max Stress Ratios Moment Values Shear Values Segment Length Span H M V Cd C FN C i Cr Cm C t C L M fb F'b V fv F'v +D+H 0.00 0.00 0.00 0.00 Length=39.750 ft 1 0.532 0195 0 90 0 846 1.00 1.00 1.00 1.00 1.00 59.25 971.94 1828.29 5.34 46.50 238.50 ('() Wood Beam file=P.12015Projects115178-Snyder Roofing-Mechanical UnitsISTRUCTURALICALCS115178ec6 ENERCALC,INC.1983-1015,Buik 6 15 730,Ver.6.15 7.30 .Lic.#:KW-06002562 Licensee:tin rippey consulting engineers Description: GL6 75x25.5 Beam Load Combination Max Stress Ratios Moment Values Shear Values Segment Length Span# M V Cd C FN C i Cr Cm C t CL M b Fb V Iv F'v +D+S+H 0.846 1.00 1.00 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length=39.750 fl 1 1.108 0 409 1 15 0.846 1.00 1.00 1.00 1.00 1.00 157.86 2,589.58 2336.15 14.32 124.76 304.75 Overall Maximum Deflections • Load Combination Span Max."-'Dell Location in Span Load Combination Max.'+'Defl Location in Span +D+S+H 1 2.6448 19.875 0.0000 0.000 Vertical Reactions Support notation:Far left is#1 Values in KIPS Load Combination Support 1 Support 2 Overall MAXimum 15.613 17.008 Overall MINimum 3.493 3.506 +D+H 5.822 5.843 +D+L+H 5.822 5.843 +D+Lr+H 5.822 5.843 +D+S+H 15.613 17.008 +D+0.7501r+0.750L+H 5.822 5.843 +D+0.7501+0.7505+H 13.166 14.217 +D+0.60W+H 5.822 5.843 +D+0.70E+H 5.822 5.843 +D+0.750Lr+0.7501+0.450W+H 5.822 5.843 +D+0.750L+0.750S+0.450W+H 13.166 14.217 +D+0.750L+0.750S+0.5250E+H 13.166 14.217 +0.60D+0.60W+0.60H 3.493 3.506 +0.600+0.70E+0.60H 3.493 3.506 D Only 5.822 5.843 Lr Only L Only S Only 9.791 11.165 W Only E Only H Only C4 Fib P:j2015 projec1A15178 Snyder Roofing=Mechanical Wan STRUCTURALICALCS115178 ec6 ENERCALC,INC:;1983-2015.;Buik1615.730 Ver 615:7:30 Lic.# KW-06002562 Licensee:tin rippey consulting engineers Description: Cantilevered GL6.75x25.5 Beam CODE REFERENCES Calculations per NDS 2012, IBC 2012, CBC 2013,ASCE 7-10 Load Combination Set:ASCE 7-10 Material Properties Analysis Method:Allowable Stress Design Fb-Tension 2,400.0 psi E:Modulus of Elasticity Load Combination ASCE 7-10 Fb-Compr 2,400.0 psi Ebend-xx 1,800.0 ksi Fc-Pill 1,650.0 psi Eminbend-xx 930.0 ksi Wood Species :DF/DF Fc-Perp 650.0 psi Ebend-yy 1,600.0 ksi Wood Grade :24F-V8 Fv 265.0 psi Eminbend-yy 830.0 ksi Ft 1,100.0 psi Density 31.20 pcf Beam Bracing : Beam is Fully Braced against lateral-torsion buckling D(5.843)S(11.16t8(1.16)S(3) D(1.16)S(3) D(1.1.)S(3) D(1.16)S(3) D(1.16)S(3) D(1.16)S(3) D(1.16)S(3) D(1.16)8(3) D(1.1.)S(3) 6.75x25.5 • 6.75x25.5 • Span=9.250ft • Span=49.0ft Applied Loads : . . Service loads entered.Load Factors will be applied for calculations. Beam self weight calculated and added to loads Load for Span Number 1 Point Load: D=1.160, S=3.0 k @ 5.240 ft Point Load: D=5.843, S=11.165 k @ 0.0 ft Load for Span Number 2 Point Load: D=1.160, S=3.0 k @ 1.740 ft Point Load: D=1.160, S=3.0 k @ 7.740 ft Point Load: D=1.160, S=3.0 k @13.740ft Point Load: D=1.160, S=3.0 k @ 19.740 ft Point Load: D=1.160, S=3.0 k @ 25.490 ft Point Load: D=1.160, S=3.0 k @ 31.740 ft Point Load: D=1.160, S=3.0 k @ 37.740 ft Point Load: D=1.160, S=3.Ok @43.740ft .DESIGN.$VM.MARY .....:. : . £� � :; 5 — —.._._._........_.._......... ..�. Desi.n N.G. Maximum Bending Stress Ratio = 1.259 1 Maximum Shear Stress Ratio = 0.613 : 1 Section used for this span 6.75x25.5 Section used for this span 6.75x25.5 fb:Actual = 2,880.55 psi fv:Actual = 186.79 psi FB:Allowable = 2,287.78 psi Fv:Allowable = 304.75 psi Load Combination +D+S+H Load Combination +D+S+H Location of maximum on span = 0.000ft Location of maximum on span = 7.131 ft Span#where maximum occurs = Span#2 Span#where maximum occurs = Span#1 Maximum Deflection Max Downward Transient Deflection 2.118 in Ratio= 277<360 Max Upward Transient Deflection -0.220 in Ratio= 1006 Max Downward Total Deflection 2.988 in Ratio= 196 Max Upward Total Deflection -0.198 in Ratio= 1122 Maximum Forces&Stresses for Loki Combinations G`a File=P.2015 Projects115178 Snyder Roofing-Mechanical Uni1s1STRUCTURAL\CALCS115178.ec6 Wood Bea In ENERCALC,I14C.1983-2015,BuiN 6.15.7.30,Ver:6.15.7.30 Lic.#c K1N-06002562 Licensee:tm rippey consulting engineers Description: Cantilevered GL6.75x25.5 Beam Load Combination Max Stress Ratios Moment Values Shear Values Segment Length Span X M V Cd C EN C i Cr Cm C t CL M lb Fb V fv F'v +D+H 0.00 0.00 0.00 0.00 Length=9.250 ft 1 0.468 0.266 0.90 0.979 1.00 1.00 1.00 1.00 1.00 60.29 989.07 2115.26 7.27 63.35 238.50 Length=49.0 ft 2 0.552 0.266 0.90 0.829 1.00 1.00 1.00 1.00 1.00 60.29 989.07 1790.44 5.89 63.35 238.50 +D+S+H 0.829 1.00 1.00 1.00 1.00 1.00 0.00 0.00 0.00 0.00 Length=9.250 ft 1 1.066 0.613 1.15 0.979 1.00 1.00 1.00 1.00 1.00 175.60 2,880.55 2702.84 21.43 186.79 304.75 Length=49.0 ft 2 1.259 0.613 1.15 0.829 1.00 1.00 1.00 1.00 1.00 175.60 2,880.55 2287.78 18.12 186.79 304.75 Overall Maximum Deflections Load Combination Span Max,'-'Dell Location in Span Load Combination Max.'+'Defl Location in Span 1 0.0000 0.000 S Only -0.2203 0.000 +D+S+H 2 29880 27.101 0.0000 0.000 Vertical Reactions Support notation:Far left is#1 Values in KIPS Load Combination Support 1 Support 2 Support 3 Overall MAXimum 43.867 12.753 Overall MINimum 8.683 2.390 +D+H 14.471 3.984 +D+L+H 14.471 3.984 +D+Lr+H 14.471 3.984 +D+S+H 43.867 12.753 +D+0.750Lr+0.750L+H 14.471 3.984 +D+0.7501+0.750S+H 36.518 10.561 +D+0.60W+H 14.471 3.984 +D+0.70E+H 14.471 3.984 +D+0.750Lr+0.7501,+0.450W+H 14.471 3.984 +D+0.750L+0.750S+0.450W+H 36.518 10.561 +D+0.750L+0.7505+0.5250E+H 36.518 10.561 +0.60D+0.601N+0.60H 8.683 2.390 +0.60D+0.70E+0.60H 8.683 2.390 D Only 14.471 3.984 Lr Only L Only S Only 29.396 8.769 w Only E Only H Only (1 / ATF_2gl Loi ANALysrs 505 = 0.72-1 (USG's, Si.Fe Class '01) 4 See ollae Acd p'r'n4 vt4 F✓on" Mai eoi d sjnec fz pri.t,1 01445 wi!o Max• V ` 4t32 May. (/ : 11V1 Govews T = 312 # Max. T = er60 l Vin;d I Uhi-1- 44-2 41-1,9 56-yew (5tt ea✓� I6‘A, I.S 'eep, 14 4-0 P.F. 1—> CgpAei!-1 = 1.6 (116) (y) ° /' 6 # 0.1 Strews ve9'i ° y q t 711164' = 3.2 3 (11) -f/o Sere(.5 wt;,, 4', 5Ae4f✓ to 5c✓ew wi ck✓�iwa� CRPAe ;I) _ /351711. 1}5514~ 1.5" eer+eiJ/G1�a�1 41- 0-1 5creWS ✓eg'I = 1604`/(/35x1,5) 2. 2? (3) - 4#-10 6Wew5 !-n//I. pe✓ 51hor ILI /�K TM RIPPEY BY V` DATE AK CONSULTING ENGINEERS CMK BY DATE 7650 S.W. Beveland St,Suite 100 JOB NO í 51 3 g Tigard,Oregon 97223 Phone(503)443-3900 _ SHEET C 10 OF Design Maps Summary Report Page 1 of 1 Design Maps Summary Report User-Specified Input Building Code Reference Document 2012 International Building Code (which utilizes USGS hazard data available in 2008) • Site Coordinates 45.42865°N, 122.76412°W . Site Soil Classification Site Class D - "Stiff Soil" Risk Category I/II/III t 4,' Sxe+ ,i{1 ,• r ' w"3 a+Gkron 1 , .4 °1 u �i T � ZZn , ..---.:.• l': V.'‘,!, .:::.,•-••:--t'4"6:..ti.,;.-::1-.1...)!,.i... :.i.::'„:.i.i.:-.4: :7r,,,,; , : ,..-,...,.:::if,,,,,,. .. i44.:�`�` ;7aqr� xe � ; ' �F ,(4 r ,. 1 ys s. s:54 r $ iS\,.,.'� E p (.1 Y z- i zi�g7sd� i � x2 tr d .� �ti' YxflK .. '.,s� tA," sY • �7.• xq r '{} iYS f° \IY:.L ,5 t Y. �x tia � °max. t �{ .vi S s" :4::::•: • � �' a . ; i0 .•7 ° 4 i', ' ' ti}.,,,r/ N II 81,; -„it d.• �s y:.Sthol.SO a :.y e ; s Fy t w. y i .i..ttP5! ',. Y Y'• •KKR • t > {({Y�4c %'t'`K nkg Glty -0 h a! p'A`- F`. . s t'� v IF :.:1:•::i:,:•:,r y. \� , d� av o ; _, 1 . :.A' MERiCA• a t" K1 yyz Id#lrrx.,,, �V.m �(p a,s f _. Jt.. Ycs„.y' .i S s S.P?F e,T h+ ... :+ 'sv s. a5�s 'ii...�:.�. Some dada 1202 i9 ?�QpRSt USGS-Provided Output Ss = 0.973 g S,,, = 1.081 g S„ = 0.721 g Si = 0.423 g SMi = 0.667 g S°i = 0.444 g For information on how the SS and S1 values above have been calculated from probabilistic(risk-targeted) and deterministic ground motions in the direction of maximum horizontal response, please return to the application and select the"2009 NEHRP"building code reference document. MCER Response Spectrum Design Response Spectrum 0.00 1.10 0.30 0.99 - 0.72 0 92 044 0.77 0'56 M0.46 0..10 a ass 0 40 0.44 0.32 0.33 0 21 122 0.16 0.11 0.09 0:00 0.00 000 0.20 0,40 0,90 100 1,00 1.20 1.40 1,60 1.40 2.00 000 0.20 0.40 0.60 0.00 1.00 1.70 1.40 1.40 1.30 2,90 Period.T(e�ec) Period.T(r ) Although this Information is a product of the U.S.Geological Survey,we provide no warranty, expressed or implied,as to the accuracy of the data contained therein.This tool is not a substitute for technical subject-matter knowledge. Cu http://ehp4-earthquake.cr.usgs.gov/designmaps/us/summary.php?template=minimal&1 atitu... 7/28/2015 Wind and Seismic Loads on Mechanical Unit #I (50E- /II Worksheet Calculates the wind and seismic forces for a rooftop mounted mechanical unit based on the ASCE 7-10. Hold down forces are calculated based on 0.6D + (0.6W or 0.7E) load cases. Wind and Seismic Loads on Mechanical Unit Windspeed:= 120mph Exposure:= "B" Val:= no (Is wind speed ASD?) Seismic Parameters SDS:_ .721 ap:= 2.5 Rp:= 6.0 IE:= 1.0 13uilding Dimensions Category:= "II" Roof Elevation:= 20ft Building_Width:= I80ft Building_Depth:= 130ft Mechanical Unit Dimensions Displacement:_ "Fan Unit" Weight:= 3721b UnitHeight:= 39.02in Width:= 32.72in Length:= 48.28in Curb:= 14in Curb_Width:= 28.75in (Dimension for Calculating Overturning Uplift) SUMMARY(ALL VALUES ARE ASD) Method Used= "ASCE 7-10-Section 29.5.1" D= 372 lb WWindUpliftASD=211 lb Displacement= "Fan Unit" (From ACSE 29.5-3) EASD= 941b heeismic= 2.7928 ` WWindASD= 432 lb (From ACSE 29.5-2) hWind= 2.209 ft X= 2.396 ft • TWindTotalASD= 392 lb Notes: 1 seismicASD= —2 lb 1.Positive sign convention shown.Negative values incicate opposite direction 2.X equals the width between attachment points for overturning fr\tilk euZ Wind and Seismic Loads on Mechanical Unit 412- C SOV T- 530 3) Worksheet Calculates the wind and seismic forces for a rooftop mounted mechanical unit based on the ASC E 7-10. H old down forces are calculated based on 0.6D + (0.6W or 0.7E) load cases. Wind and Seismic Loads on Mechanical Unit Windspeed:= 120mph Exposure:_ "B" "no" Val:-- (Is wind speed ASD?) Seismic Parameters SDS:_ .721 ap := 2.5 Rp:= 6.0 IE:= 1.0 Building Dimensions Category:= "II" Roof Elevation:= 20ft Building_Width:= 180ft Building_Depth:= 130ft Mechanical Unit Dimensions Displacement:_ "Fan Unit" Weight:= 4161b UnitHeight:= 44.125in Width:= 32.625in Length:= 48.1875in Curb:= 14in Curb_Width:= 28.75in (Dimension for Calculating Overturning Uplift) EC7,.r, SUMMARY(ALL VALUES ARE ASDI Method Used= "ASCE 7-10-Section 29.5.1" D= 416 lb — WWindUpliftASD= 210 lb Displacement= "Fan Unit" (From ACSE 29.5-3) EASD= 105 lb hseismic= 3.005 ft WWindASD = 474 lb (From ACSE 29.5-2) 1 • h 2.422ft X= 2.396 ft Wind TWindTotalASD= 460 lb Notes: TseismicASD= 7 lb 1.Positive sign convention shown.Negative values indicate opposite direction 2.X equals the width between attachment points for overturning fr\/IR. e 1