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Report OPTIONS: DIMENSIONED AND TOLERENCED PER ANSI VItEM-ISR REVISIONS MATERIAL: 18ga.GALV STEEL REV. ECM/ DESCRIPTION DATE APPROVED INSULATED PANELS (WHERE REQUIRED) Attn: 1 IN6IAL DRAWING 1"1-1/2LB DUCT INSULATION (R VALUE 3.85) GASKET PROVIDED WITH CURB 1 1/2"ADDED TO EXISTING CURB O.D. Tag. • Approval: SUPPLY 30 15/16' 16 3/16' ,`: RETURN 00l^jp _ INSULATED PANEL 1 �� 23 1/4^ .~� 269/16' INSULATED *. **kb. �� 411 PANEL EXISTING CURB LAYOUT --{ 18 5/8' / I _ —_1 I I SUPPLY I FRICTION LOSS PER 100FT 43' CFM= 1200 45 1/4^ RETURN AREA(in')= 262.0 1 RdP= 0.042 22 1/4' 181/4' RETURN SUPFLY AREA(in') = 339.6 1 SdP= 0.022 r 70 7B' N -- j I423/4• 421/2' Ir I 18K-1-^ i 5. 441/4' NJ—r 4 463/4' CURB SHOWN IS CDI STANDARD CONFIGURATION CDI RESERVES THE RIGHT TO CHANGE TNSOPAWTHECONNG INFORMATION CONTAINED APPROVALS DATE miss.ma INFORMATION THEREIN Is THE CONFIDENTIAL,CRYSTAL DISTRIBUTION PROPRIETARY LAYOUT WITHOUT NOTIFICATION.IF CURB IS NEEDED IN A DIFFERENT CONFIGURATION "�OR""TBEU EDORR PR DU ORIR" z"nDu°°°°ro°` snszoxo 1-5000-7037 s MAv NOTE USED OR OF 1NTNlVi DIE APPROVAL OF CRYSTAL g5RiB11110N,INC. "Q CDI MUST BE NOTIFIED PRIOR TO PLACING AN ORDER. ALI.R GHTS RESERVED DIMENSIONS ARE AS FOLLOWS:1.001n[MAO mmI 'VERIFY EXISTING CURB 00 .wm VERIFY SUPPLY AND RETURN OPENINGS _ * :�� Contact us CURB ORna.I OPERATIONAL HEIGHT OF CDI ADAPTER IS 3"LESS THAN OVERALL CURB HEIGHT MOTE ANY CHANGES m.sm 'wMAY.cdicuHrs.com •CALL WITH ANY QUESTIONS SHOWN. FAX BACK IF DRAWING IS OK AS IS �© 11 .... _u m n: 1-688134-7001 141.27 ....= 120 I Nm. I Of 6 S:\CURBS_CURB_ADAPTERS\1-XXXX•XXXX_CURB_ADAPTERS\1-5XXX-XXXX_YO RK1 036-21523-002-A-0503 TECHNICAL GUIDE DESCRIPTION These packaged cooling/heating air conditioners are de- SINGLE PACKAGE signed for outdoor installation.Only utility and duct connec- tions are required at the point of installation. GAS/ELECTRIC The gas-fired heaters have aluminized steel tubular AIR-COOLED heat exchangers and hot surface to pilot ignition.They are available in natural gas with field conversion to pro- AIR CONDITIONERS pane. DAYA018 THRU 048 FEATURES and BENEFITS AND DBYA060 1-1/2 THRU 5 NOMINAL TONS OPERATING EFFICIENCY-All units provide high operat- 10 SEER/80%AFUE ing efficiencies and have a minimum AFUE of 80% and SEER of 10 or above.All efficiencies exceed legislated mini- mum levels. ON SITE FLEXIBILITY-All model sizes share a common, compact design cabinet with a single footprint. The in- staller has the flexibility of setting one curb and placing the proper tonnage unit on that curb after the internal load has been determined.Field convertible duct connections from side shot to down shot allows the installer to have greater flexibility and needs to carry less inventory. LOWER INSTALLATION COST - Installation time and costs are reduced by easy power and control wiring con- nections.The small base dimension means less space is required on the ground or roof,plus,the installer can fit this unit between the wheel wells of full size pick-up truck.All models are well under 500 pounds. All units are completely wired,charged with R-22 and tested prior to shipment.Unique test stations using a new state of the art computerized process system are used to insure product !`t � quality.Refrigerant charge,and component part numbers are i verified via computers at assembly.Vital run test statistics such as system pressure,motor currents,air velocity and tempera- ture,unit vibration,and gas system safeties are monitored and o recorded by the system to insure unit performance. 4 Equal size,side supply and return duct connections allows o / easy hook-up of ducts to match low crawl spaces without transition pieces. o UTILITY CONNECTIONS MADE EASY-Gas and electric o utilityknockouts areprovided through the bottom as well as \ o . / 9 the side of the unit. Utility connections can be made quickly and with a minimum amount of field labor.A field supplied and field installed electrical disconnect switch must be in- stalled. CONVERTIBLE AIRFLOW DESIGN - The bottom duct openings are covered when they leave the factory ready to be used for a side supply/side return application.If a bottom supply/bottom return application is desired,you simply re- move the two panels from the bottom of the unit and place them in the side supply/side the return duct openings. No panel cutting is required and no accessory panel is neces- sary.Convertible airflow design allows maximum field flexibil- ity and minimum inventory. FOR DISTRIBUTION USE ONLY-NOT TO BE USED AT POINT OF RETAIL SALE 036-21523-002-A-0503 STANDARD FEATURES and BENEFITS - continued • CONDENSATE PAN-A non-corrosive,long-lasting,water- • FAN SYSTEM-All models operate overa wide range of de- tight pan is positioned below the evaporator coil to collect sign conditions with a 3-speed direct-drive fan motor.These and drain all condensate. Less collection of stagnate con- units easily match all types of applications and provides densate will build-up. The condensate pan conforms to greater on site flexibility to match comfort requirement. ASHRAE 62-89 standards (Ventilation for Acceptable In- Models have the"Comfort-Match"system that allows differ- door Air Quality). ent speed taps for heating or cooling operations.This allows maximum comfort conditions. • CONDENSATE DRAIN - The heavy duty, 3/4 inch NPTI copper connection is more tolerable during installation and • SIMPLE CONTROL CIRCUIT-A low voltage printed circuit is more durable over time. The connection is rigidly board contains a diagnostic indicator light and a low voltage mounted to assure proper fit and leak tight seal. terminal strip.An additional set of pin connectors is also pro- vided to simplify the field interface of external controls. • DURABLE FINISH - With a heavy duty cabinet made of Mate-n-lock plug connectors are used. The electrical con- powder-painted, galvanized steel the neutral color blends trol box is not located in the compressor compartment.The into surrounding areas.The powered paint,provides a bet- controls are mounted on a"Control-Tilt"control panel to al- ter paint to steel bond, which resists corrosion and rust low the access cover to be removed for trouble shooting and creep. The special primer formulas and glossy earth tone maintenance without affecting the normal system operating finish insure less fading when exposed to sunlight and offers pressures. All wiring internal to the unit is color/number a more attractive on site appearance.This paint finish ex- coded. ceeds ASTM-B117 standards for 750 hours salt spray rat- ing.The highest in the industry. • PROTECTED COMPRESSOR-The compressor is inter- nally protected against high pressure and temperature.This • FULL PERIMETER BASE RAILS -The easily removable is accomplished by the simultaneous operation of high pres- base rails provide a solid foundation for the entire unit and sure relief valve and a temperature sensor which protect the protects the unit during shipment.The rails provide fork lift compressor if undesirable operating conditions occur. access from all sides,and rigging holes are also provided so that an overhead crane can be used to place the units on a • EXCLUSIVE COIL DESIGN - Grooved copper tubes and roof.On applications when the unit is placed on a pad,the enhanced aluminum fin construction improves heat transfer base will keep the unit off the pad to deter corrosion.On ap- for maximum efficiency and durability. plications where height is limited,the 3-3/8 inch high base rails may be removed on location. • HEAT EXCHANGERS - Are corrosion-resistant, aluminized-steel tubular construction to provide long-life, • MORE ATTRACTIVE APPEARANCE-Asinglepiece"Wa- trouble-free operation. The unique blow-thru design also ter Shed"top cover containing a top discharge condenser assures that condensate does not collect in humid areas fan arrangement requires less square footage on installa- when in the cooling cycle. This adds to longer heat ex- tion and provides a wider variety of installations. The one changer life and higher long term efficiencies. piece design adds greater water integrity.Rounded corners with water drip edges add to the attractive appearance.The • "POST PURGE" INDUCED DRAFT COMBUSTION -Ex- cabinet panels have a non-fibrous insulation that does not hausts combustion products from the heat exchanger upon add insulation fibers into conditioned area. completion of the heating cycle to prolong the heat ex- changer life. • TOP DISCHARGE-The top discharge condenser fan does not disrupt neighboring areas or does this dry-out vegeta- • SELF DIAGNOSTIC FAN CONTROL MODULE - Due to tion surrounding the unit. The warm air from the top this self diagnostic control, less on site time is required to mounted fan is blown up away from the structure and any trouble shoot these units. landscaping.This allows compact location on multi-unit ap- plications. • HOT SURFACE TO PILOT IGNITION-Provides faster heat delivery. This ignition is highly reliable, durable and elimi- • CONDENSER COIL GRILLE - A multi-piece totally en- natesnuisancelockouts.Alsoassuresstartsindampcondi- closed, rigidly mounted condenser coil grille provides pro- tions. tection from objects and personal after installation and provides protection during transit and installation. • MULTI PORT IN-SHOT BURNERS-No field adjustment is required to mix the air and gas. These burners are con- • LOW OPERATING SOUND LEVEL-The upward air flow structed of high-grade corrosion-resistant, aluminized- carries the normal operating noise up and away from the liv- steel. ing area.The rigid top panel effectively isolates any motor sound.Isolator mounted compressor and the rippled fins of • LOW MAINTENANCE- Long life, permanently lubricated the condenser coil muffle the normal fan motor and corn- condenser and evaporator fan motor bearings need no an- pressor operating sounds. The unique formed base pan nual maintenance adding greater reliability to the unit. also aids in sound alterations with it's"Super-Structure"de- Blower assembly can be easily cleaned by the unique"Slip- sign. This design strategically places embossments in the Track"slide-out blower assembly. pan for optimum strength and rigidity. • SECURED SERVICE ACCESS PORTS-Protected,exter- nally mounted,re-usable service access ports are provided on both the high and low lines for ease of evacuating and charging the system. No final field mounting required. 2 Unitary Products Group 036-21523-002-A-0503 FIELD-INSTALLED ACCESSORIES • EASY SERVICE ACCESS-Alarge,single panel covers the • UPGRADE SAFETY PACKAGE- Contains screw in type electrical and gas controls makes servicing easy. The High pressure,Low Pressure/Loss of Charge switch,freeze blower compartment has an additional large panel with a protection switch and lockout relay. Switches are placed built-in handle tab.Removing this panel will allow the blower onto existing schrader ports located in the unit by furnished assembly to slide-out for easy removal for maintenance and adapters. When abnormal conditions are sensed through ease of trouble shooting. the pressure switches,the unit will lock out preventing any further operation until reset or problem is corrected. Pack- • REPLACEMENT PARTS - The installer has no need to age agency approved. carry an inventory of unique parts or needs special training to replace any of the components parts for these units.All • HAIL GUARD KIT- Kit contains protected grilles made of are easily obtained from Source 1 or other part houses, expanded aluminum grilles with full perimeter 1-1/2 inch frame.Sloped hoods are also included to assure maximum • SYSTEM INTEGRATION-Each unit has the internal ability protection. to integrate an electronic air cleaner or humidifier to work in conjunction with the base unit. • FILTER/FRAME KIT - Kit contains the necessary hard- ware to field install return air filters into the base unit.Pre-cut • LOW NOX KIT- Kit includes all the necessary hardware filter racks and appropriate cleanable standard size filters and instructions to field convert units to reduce emissions to are shipped in one kit.The filter rack is suitable for either 1" less than 40 nanogram per Joule.California requirement on or 2"filters.(1"filter is supplied) This kit is available for hori- all models. zontal or vertical duct application. • PROPANE CONVERSION KIT - Kit includes burner ori- • MOTORIZED FRESH AIR DAMPER- Designed for duct fices,gas valve conversion and installation instructions nec- mounted side supply/return and unit mounted down sup- essary to field convert unit from natural gas to propane. ply/return applications. Damper capable of providing 0% thru 50% of outdoor air (field supplied). Closes on power • HIGH ALTITUDE CONVERSION KIT (Natural Gas/Pro- loss, includes hood and screen assembly. pane) - Kit includes all necessary labels and instructions necessary to field alter units with natural gas/propane. • RECTANGLE TO ROUND ADAPTERS - Kit includes one Burner orifices must be obtained from Source 1 Parts.Pro- supply and one return air rectangle to round duct adapter. pane Conversion Kit must be obtained separately. Adapters are preformed and designed to fit over current duct openings on the base unit. Transition is from 15" • ECONOMIZER DOWN DISCHARGE / SUPPLY KIT - square to 14"round. Modulating integrated economizer provides simultaneous operation between the mechanical cooling and economizer • ROOF CURBS-NRCAapproved curbs provide proper fit to operation.Independent blade design insures proper control base unit for rooftop installations.Curbs are designed to be and less than 1% leak rate. Includes hood and mesh bird assembled through hinge pins in each corner.Kit also pro- screen filter integrated into the hood,dry bulb sensor and re- vides seal strip to assure a water tight seal. 8 and 14 inch lief damper. Separate field accessories of single enthalpy high roof curbs are available. and dual enthalpy are also available. Kit also includes capa- bility to relieve up to 25% air thru built-in barometric relief • MANUAL OUTDOOR DAMPER- Provides 0% thru 50% damper. outdoor air capability(field adjustable). Designed for duct mounted side supply/return applications. Includes hood • SINGLE ENTHALPY SENSOR-Sensor replaces dry bulb and screen assembly. sensor standard in economizer kit. Provides improved economizer operation by sensing the dry bulb temperature • WALL THERMOSTAT-The units are designed to operate from outdoors plus the enthalpy content of the outdoor air, with 24-volt electronic and electro-mechanical thermostats. All units can operate with single stage heat/single stage • DUAL ENTHALPY SENSOR-Additional sensor to single cool thermostats-with or without the economizer. enthalpy sensor. Sensor senses both the return air tem- perature dry bulb and humidity in conjunction with the single • LOW AMBIENT KIT- Kit provides necessary hardware to enthalpy to determine the most economical mix.Single En- convert unit to operate in cooling cycle down to 0°F.Stan- thalpy sensor also required. dard unit operation 45° F. • TRANSFORMER KIT-Kit provides necessary hardware to provide models from factory furnished 40 VA transformer capability to 75 VA transformer capability. • BURGLAR BAR KIT - Designed to work with listed roof curbs.These burglar bar kits deter entry through the base unit duct work. Unitary Products Group 3 036-21523-002-A-0503 DIRECT DRIVE 1, CONDENSER FAN BLOW-THRU DESIGN WITH CL �'� MOTOR RELIABLE ALUMINIZED STEEL ��r�r TUBULAR HEAT EXHANGERS HIGHLY EFFICIENT ENHANCED COPPER TUBE/ALUMINUM FIN EVAPORATOR COIL / HIGLY EFFICENT ENHANCED COPPER irt TUB ALUMINUM FIN CONDESER COIL LONG LASTING - 6 DECORATNE POWDER PAINT -- 4111 plir PROTECTIVE FINISH EARTH t i i COIL GUARD TONE COLOR I� � i �ilfii�ii 1 REAR AND BOTTOM RETURN AIR ANDS SUPPLY AIR DUCT OPENING < HIGH EFFICIENCY COMPRESSOR \ � � �gil RIDGIDLY MOUNTED N , 6�! 1� ��0 31/ 4 h HOT SURFACE HEAVY GAUGE `` 0 OVA / PILOT ASSEMBLY REMOVABLE BASE �� 0 . �I IGH GRADE ALUMINIZED RAILS �� INSHOT BURNERS 3-SPEED DIRECT DRIVE/ /` OW VOLTAGE TERMINAL BLOWER MOTOR WITH 0 r BLOCK SLIDE-OUT BLOWER SELF-DIAGNOSTIC CONTROLS WITH HIGH VOLTAGE ASSEMBLY POWER VENTER "COMFORT.MATCH"SPEED CONTROL MOTOR TERMINAL BLOCK PHYSICAL DATA MODELS DYA 018 024 030 036 042 048 060 EVAPORATOR CENTRIFUGAL BLOWER(Dia.x Wd.in.) 10 X 8 10 X 8 10 X 8 11 x 10 11 x 10 12 x 11 12 x 11 BLOWER FAN MOTOR HP(Three Speed) Y Y Yz 3a 3/4 1.0 1.0 ROWS DEEP 2 2 2 2 3 3 3 EVAPORATOR FINS PER INCH 14 13 13 15 13 13 13 COIL FACE AREA(Sq.Ft.) 2.25 3.5 3.5 3.5 3.5 4.5 4.5 PROPELLER DIA.(in.) 22 22 22 22 22 22 22 CONDENSER FAN MOTOR HP Y. Ya Y4 Ye Y4 Y4 Ye FAN NOM.CFM TOTAL 1,800 2,200 2,400 2,400 2,400 3,000 3,000 ROWS DEEP 1 1 1 1 1 1 1 CONDENSER FINS PER INCH 13 13 16 20 20 20 20 COIL FACE AREA(Sq.Ft.) 8.3 8.3 11.7 11.7 11.7 14.8 14.8 CHARGE REFRIGERANT 22(IbsJoz,) 3/2 3/6 4/12 4/3 4/12 6/0 5/4 FILTER' FACE AREA(Sq.Ft.)/SIZE(NOMINAL) 2.6/20x20 2.6/20x20 2.6/20x20 2.6/20x20 2.6/20x20 3.3/20x12 3.3/20x12 UNIT WEIGHT SHIPPING(Ibs.)/OPERATING(Ibs.) 365/360 365/360 395/390 400/395 405/410 475/470 480/475 NATURAL GAS BURNER ORIFICE NO. 43 43 43 43 43 40 40 (Drill size) FURNACE PROPANE BURNER ORIFICE NO. SECTION (Drill size) 55 55 55 55 55 53 53 GAS CONNECTION SIZE Y NPTI Y NPTI Y NPTI Yz NPTI Yz NPTI Y NPTI Y2 NPTI •=Three phase 018 Ihru 042 size units are supplied with one(1)filter and on three phase 048 and 060 size units two(2)filters are supplied.Single phase units are shipped without filters. See'FILTER I FRAME KIT on page 3. 4 Unitary Products Group 036-21523-002-A-0503 RATINGS - Cooling/Gas Heating • NET COOLING GAS HEAT CAPACITY1 SOUND TEMP. MODEL Z DYA RATING INPUT OUTPUT AFUE NUMBER MBH SEER (dbels) (MBH) (MBH) (%) OF BURNERS RISE (°F)Range -F018N045 17.9 10.0 76 45 36 80.2 2 25-55 -F024N045 23.0 10.5 78 45 36 80.2 2 25-55 -F024N070 23.0 10.5 8 70 56 80.2 3 30-60 -F030N045 29.0 10.5 78 45 36 80.2 2 25-55 -F030N070 29.0 10.5 78 70 56 80.2 3 30-60 -F036N045 34.8 10.0 82 45 36 80.4 2 25-55 -T036N045 34.8 10.0 82 45 36 80.4 2 25-55 -W036N045 34.8 10.0 82 45 36 80.4 2 25-55 -X036N045 34 8 0.0 82 45 36 80.4 2 25-55 -F036N070 34.8 10.0 82 70 56 80.2 3 25-55 -T036N070 34.8 10.0 82 70 56 80.2 3 25-55 -W036N070 34.8 10.0 82 70 56 80.2 3 25-55 -X036N070 34.8 10.0 82 70 56 80.2 3 25-55 -F036N090 34.8 10.0 82 90 72 80.1 4 30-60 -T036N090 34.8 10.0 82 90 72 80.1 4 30-60 -W036N090 34.8 10.0 82 90 72 80.1 4 30-60 -X036N090 34.8 10.0 82 90 72 80.1 4 30-60 -F042N045 40.5 10.0 84 45 36 80.4 2 25-55 -T042N045 40.5 10.0 84 45 36 80.4 2 25-55 -W042N045 40.5 10.0 84 45 36 80.4 2 25-55 -X042N045 40.5 10.0 84 45 36 80.4 2 25-55 -F042N070 40.5 10.0 84 70 56 80.2 3 25-55 -1042N070 40.5 10.0 84 70 56 80.2 3 25-55 -W042N070 40.5 10.0 84 70 56 80.2 3 25-55 _ -X042N070 40.5 10.0 _ 84 70 56 80.2 3 25-55 -F042N090 40.5 10.0 84 90 72 80.1 4 30-60 -1042N090 40.5 10.0 84 90 72 80.1 4 30-60 -W042N090 40.5 10.0 84 90 72 80.1 4 30-60 -X042N090 40.5 10.0 84 90 72 80.1 4 30-60 -F048N080 46.5 10.0 82 80 64 80 3 25-55 -T048N080 46.5 10.0 82 80 64 80 3 25-55 -W048N080 46.5 10.0 82 80 64 80 3 25-55 _ -X048N080 46.5 10.0 82 80 64 80 3 25-55_ -F048N110 46.5 10.0 82 108 86 80 4 30-60 -1048N 110 46.5 10.0 82 108 86 80 4 30-60 -W048N 110 46.5 10.0 82 108 86 80 4 30-60 -X048N110 -_-_46.510.0 _ 82 108 86 80 4 30-60 -F048N135 46.5 10.0 82 135 108 80 5 35-65 -T048N135 46.5 10.0 82 135 108 80 5 35-65 -W048N135 46.5 10.0 82 135 108 80 5 35-65 -X048N135 46.5 10.0 82 135 108 80 5 35-65 -F060N080 56.5 10.0 82 80 64 80 3 25-55 -T060N080 56.5 10.0 82 80 64 80 3 25-55 -W060N080 56.5 10.0 82 80 64 80 3 25-55 -X060N080 56.5 10.0 82 80 64 80 3 25-55 -F060N110 56.5 10.0 82 108 86 80 4 30-60 -T060N110 56.5 10.0 82 108 86 80 4 30-60 -W060N110 56.5 10.0 82 108 86 80 4 30-60 -X060N110 56.5 10.0 82 108 86 80 4 30-60 -F060N135 56.5 10.0 82 135 108 80 5 35-65 -T060N135 56.5 10.0 82 135 108 80 5 35-65 -W060N135 56.5 10.0 82 135 108 80 5 35-65 -X060N135 56.5 10.0 82 135 108 80 5 35-65 SEER= Seasonal Energy Efficiency Ratio-the total cooling output in BTU's during a normal annual usage period for cooling divided by the total electric power Input In watt-hours during Me same period. AFUE= Annual Fuel Utilization Efficiency. 'Certified in accordance with the Unitary Small Equipment certification program,which is based on ARI Standard 210I240. r Rated In accordance with ARI Standard 270. Unitary Products Group 5 036-21523-002-A-0503 COOLING CAPACITIES - 1-1/2 TON (DYA018) Air On Evaporator Coil Temperature of Air on 450 CFM 525 CFM 600 CFM 675 CFM 750 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap. MBH 17.4 16.6 15.3 15.3 18.3 17.4 16.1 16.0 19.1 18.2 16.8 16.8 19.6 18.7 17.2 17.2 20.1 19.2 17.7 17.6 Total Power 1.78 1.77 1.72 1.75 1.81 1.80 1.75 1.78 1.83 1.83 1.77 1.81 1.85 1.84 1.79 1.82 1.86 1.86 1.80 1.84 Input KW _ 86 9.3 11.9 14.1 15.0 11.0 13.8 15.5 15.9 12.7 15.7 16.8 16.8 12.3 15.5 17.2 17.2 11.9 15.2 17.7 17.6 85°F n o 83 8.8 11.4 13.7 14.5 10.0 12.8 15.2 15.6 11.2 14.2 16.8 16.8',11.2 14.4 17.2 17.2 11.3 14.6 17.5 17.6 U2 rn� 80 8.3 11.0 13.2 14.1 9.0 11.9 14.3 15.2 9.7 12.8 15.4 16.4 10.2 13.4 16.1 17.0 10.7 14.1 16.9 17.6 co C 'm m 77 7.9 10.5 12.7 13.6 8.1 10.9 13.3 14.2 8.2 11.3 13.9 14.9 9.2 12.4 15.1 16.0 10.1 13.5 16.4 17.0 'c W 74 7.4 10.0 12.3 13.1 7.1 9.9 12.3 13.3 6.8 9.8 12.4 13.4 8.2 11.4 14.1 14.9 9.6 12.9 15.8 16.5 co 71 - 9.6 11.8 12.7 - 8.9 11.4 12.3 - 8.3 10.9 11.9, - 10.3 13.1 13.9 - 12.3 15.2 15.9 68 - 9.1 11.3 12.2 - 8.0 10.4 113 - 6.8 9.4 10.4 - 9.3 12.0 12.9 - 11.8 14.6 15.3 Net Cap MBH•. 16.7 15.5 14.5 14.5 17.5 16.3 15.3 15.2 18.4 17.1 16.0 16.0,18.9 17.6 16.4 16.4 19.3 18.1 16.8 16.8 Total Power 1.89 1.89 1.86 1.85 1.93 1.92 1.89 1.88 1.97 1.96 1.93 1.9211.98 1.97 1.94 1.93 1.99 1.98 1.95 1.94 Input KW 86 10.7 13.2 14.5 14.5 11.7 14.5 15.3 15.2 12.7 15.7 16.0 16.0 12.1 15.3 16.4 16.4r11.5 14.9 16.8 16.8 95°F a o 83 9.3 11.9 14.2 14.5 10.2 13.0 15.1 15.2 11.1 14.1 16.0 16.0 11.0 14.2 16.4 16.4 11.0 14.3 16.8 16.8 U2 rnLL 80 8.0 10.6 12.9 13.1 8.7 11.5 14.1 14.3 9.4 12.5 15.2 15.5 9.9 13.1 16.0 16.2 10.4 13.7 16.8 16.8 a� dm 77 6.6 9.2 11.5 11.8 72 10.0 12.6 12.9 7.8 10.9 13.6 13.9 8.8 12.0 14.9 15.1 9.8 13.1 16.2 16.2 to 74 5.3 7.9 10.2 10.4 5.8 8.6 11.1 11.4 6.2 9.3 12.0 12.3 7.7 10.9 13.8 14.0 9.2 12.6 15.6 15.7 71 - 6.5 8.9 9.1 - 7.1 9.6 99.9 - 7.7 10.4 10.7 - 9.8 12.7 12.9 - 12.0 15.0 15.1 68 - 5.2 7.5 7.8 - 5.6 8.2 8.4_ - 6.1 8.8 9.1 - 8 7 11 6 11.8 - 11.4 14.5 14.5 Net Cap. 15.6 14.2 13.4 13.3 16.4 14.9 14.1 14.0 17.2 15.6 14.8 14.7 17.7 16.0 15.2 15.1 18.2 16.5 15.6 15.5 MBH Total Power 2.03 2.00 1.98 1.98 2.06 2.03 2.01 2.01 2.09 2.06 2.04 2.04 2.11 2.08 2.06 2.06 2.13 2.10 2.07 2.07 In ut KW p 86 9.4 11.7 13.3 13.1 10.2 12.8 14.0 13.9 11.1 13.9 14.8 14.7 11.1 14.1 15.2 15.1 11.1 14.3 15.6 15.5 105°F o o' 83 8.5 10.9 12.9 12.9 9.3 11.9 13.8 13.8 10.1 12.9 14.8 14.7 10.3 13.3 15.2 15.1 10.6 13.7 15.6 15.5 - m ca 80 7.6 10.0 12.0 12.0 8.3 10.9 13.2 13.1 9.0 11.9 14.3 14.2 9.5 12.5 14.9 14.9 10.0 13.1 15.6 15.5 &m 77 6.7 9.1 11.2 11.1 7.4 10.0 12.2 12.2 8.0 10.8 13.2 13.2 8.7 11.7 14.1 14.1 9.5 12.6 15.0 15.0 c to 74 5.9 8.2 10.3 10.2 6.4 9.0 11.3 11.2 7.0 9.8 12.2 12.1 7.9 10.9 13.3 13.3 8.9 12.0 14.5 14.4 co 71 - 7.4 9.4 9.4 - 8.1 10.3 10.2 - 8.7 11.2 11.1 - 10.1 12.5 12.5 - 11.5 13.9 13.9 68 - 6.5 8.6 8.5 - 71 9.3 9.3 - 77.7 10.1 10.1 - 9.3 117 117 - 10.9 13.4 13.3 Net Cap. 14.5 12.8 12.3 12.2 15.2 13.4 12.9 12.8 15.9 14.0 13.5 13.4 16.5 14.5 14.0 13.8 17.0 15.0 14.4 14.3 MBH Total Power 2.16 2.11 2.10 2.10 2.19 2.14 2.13 2.13 2.22 2.17 2.16 2.16 2.24 2.19 2.18 2.18 2.27 2.21 2.20 2.20 In utKW__ Z• 86 8.1 10.2 12.0 11.7 8.8 11.2 12.8 12.5 9.6 12.2 13.5 13.4 10.2 12.9 14.0 13.8 10.7 13.6 14.4 14.3 115°F o L.' 83 7.7 9.8 11.6 11.3 8.4 10.8 12.6 12.3 9.1 11.7 13.5 13.4 9.7 12.4 14.0 13.8 10.2 13.1 14.4 14.3 0,LL 80 7.3 9.4 11.2 10.9 7.9 10.3 12.3 11.9 8.6 11.2 13.3 12.9 9.1 11.9 13.9 13.9 9.7 12.6 14.4 14.3 mm cc 77 6.9 9.0 10.8 10.5 7.5 9.9 11.8 11.5 8.2 10.8 12.9 12.5 8.6 11.4 13.4 13.1 9.1 12.0 13.9 13.7 c ` 74 6.5 8.6 10.4 10.1 7.1 9.5 11.4 11.0 7.7 10.3 12.4 12.0 8.1 10.9 12.9 12.6 8.6 11.5 13.3 13.2 co 71 - 8.2 10.0 9.7 - 9.0 10.9 10.6 - 9.8 11.9 11.5 - 10.4 12.3 12.1 - 10.9 12.8 12.7 68 - 7.8 9.6 9.2 - 8.6 10.5 10.1 - 9.3 11.4 11.0 - 9.9 11.8 116 - 10A 12.3 12.1 Net Cap 13.5 11.4 11.2 11.1 14.1 11.9 11.7 11.6 14.7 12.5 12.3 12.1 15.3 12.9 12.7 12.6 15.9 13.4 13.213.0 Total Power 2.30 2.23 2.22 2.23 2.32 2.25 2.25 2.26 2.35 2.27 2.27 2.28 2.38 2.30 2.30 2.31 2.41 2.33 2.33 2.34 Input KW 86 6.8 8.7 10.8 10.3 7.4 9.6 11.5 11.2 8.1 10.5 12.3 12.1 9.2 11.7 12.7 12.6 10.3 13.0 13.2 13.0 125°F n A. 83 6.8 8.8 10.3 9.7 7.5 9.7 11.3 10.9 8.2 10.5 12.3 12.1 9.0 11.5 12.7 12.6 9.8 12.5 13.2 13.0 Ux mL 80 6.9 8.9 10.4 9.7 4.6 9.8 11.4 10.7 8.2 10.6 12.4 11.6 8.8 11.3 12.8 12.3 9.3 12.0 13.2 13.0 'm m 77 7.0 9.0 10.4 9.8 7.6 9.8 11.4 10.8 8.3 10.7 12.5 11.7 8.5 11.1 12.6 12.1 8.8 11.5 12.7 12.5 c w 74 7.0 9.0 10.5 9.9 7.7 9.9 11.5 10.8. 8.4 10.8 12.5 11.8 8.3 10.9 12.4 11.9 8.2 10.9 12.2 12.0 71 - 9.1 10.6 9.9 - 10.0 11.6 10.9, - 10.9 12.6 11.9 - 10.6 12.2 11.7 - 10.4 11.7 11.5 68 - 9.2 10.6 10.0 - 10.1 11.7 11.0 - 11.0 12.7 12.0 - 10.4 119 11.4 - 9.9 11.2 10.9 =These capacities are net capacities-Indoor fan heat deducted. ALL SENSIBLE CAPACITY 6 Unitary Products Group 036-21523-002-A-0503 COOLING CAPACITIES - 2 TON (DYA024) Air On Evaporator Coil Temperature of Air on 600 CFM 700 CFM 800 CFM 900CFM 1,000 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap. 24.1 22.5 20.9 21.3 24.9 23.3 21.6 22.1 25.8 24.1 22.3 22.8 25.9 24.2 22.5 22.9 26.1 24.4 22.6 23.1 MBH Total Power 2.28 2.25 2.21 2.21 2.31 2.28 2.24 2.24 2.34 2.31 2.27 2.27 2.44 2.41 2.37 2.37 2.53 2.51 2.46 2.46 Input KW _ 86 12.9 16.5 19.7 20.4 15.2 19.0 21.0 21.6 17.5 21,6 22.3 22.8 16.8 21.2 22,5 22.9 16.2 20.7 22.6 23.1 85°F a as83 12.3 15.9 19.1 19.7 13.9 17.8 20.7 21.3 15.5 19.6 22.3 22.8 1 15.5 19.8 22.5 22.9 15.5 19.9 22.6 23.1 al m a- 80 11.7 15.3 18.5 19.1 12.6 16.5 20.0 20.6 13.5 17.7 21.4 22.2'14.1_18.4 22.0 22.6 14.7 19.2 22.6 23.1 .2& mm 77 11.1 14.617.918.511.315.218.719.311.515.719.420.2,12.717.020.621.313.918.421.822.3 c w 74 10.4 14.0 17.3 17.9 10.0 13.9 17.4 18.1 9.6 13.7 17.5 18.2,11.3 15.7 19.3 19.9 13.1 17.6 21.1 21.5 co 71 - 13.4 16.6 17.3 - 12.6 16.1 16.8 - 11.7 15.5 16.2, - 14.3 17.9 18.5 - 16.8 20.3 20.8 68 - 12.8 16.0 16.7 - 11.3 14.8 155 - 9.8 13.5 14.31 - 12.9 16.5 17.1 - 16.1 19.5 20.0 Net Cap 23.5 21.4 20.2 20.4 24.0 21.9 20.7 20.9 24.6 22.4 21.2 21.3 25.0 22.8 21.5 21.7 25.4 23.2 21.9 22.1 Total Power 2.41 2.38 2.33 2.33 2.45 2.42 2.37 2.37 2.50 2.46 2.40 2.41 2.59 2.56 2.50 2.50 2.69 2.66 2.60 2.60 Input KW 1 86 15.0 18.3 20.2 20.4 16.2 19.8 20.7 20,9 17.4 21.2 21.2 21.3 16.6 20.9 21.5 21.7 16.2 20.5 21.9 22.1 wc 95°F '$_ 83 13.2 16.5 19.9 20.0 14.2 17.8 20.5 20.6 15.2 19.1 21.2 21.3 15.3 19.4 21.5 21.7 15.4 19.8 21.9 22.1 Um ca 80 11.4 14.7 18.1 18.2 12.2 15.8 19.5 19.5 13.1 16.9 20.9 20.9 13.9 18.0 21.4 21.5 14.6 19.0 21.9 22.1 a_01) 'm m 77 9.6 13.0 16.4 16.4 10.3 13.9 17.5 17.5 10.9 14.8 18.7 18.7 12.4 16.5 19.9 20.0 13.9 18.2 21.1 21.3 w 74 7.8 11.2 14.6 14.6 8.3 11.9 15.6 15.6 8.8 12.7 16.6 16.6 10.9 15.0 18.5 18.6 13.1 17,4 20.3 20.6 co 71 - 9.4 12.8 12.8 - 9.9 13.6 13.6 - 10.5 14.4 14.4 - 13.6 17.0 17.1 - 16.6 19.6 19.7 68 - 7.6 11.0 11.0 - 8.0 11.6 11.6 - 8.4 12.3 12.3 - 121 156 156 - 15.9 18.8 19.0 Net Can MBH , 21.7 19.5 18.5 18.6 22.3 20.1 19.0 19.1 22.9 20.6 19.5 19.6 23.2 20.9 19.8 19.9 23.5 21.2 20.1 20.1 Total Power 2.55 2.51 2.47 2.45 2.60 2,56 2.51 2.50 2.65 2.60 2.56 2.54 2.74 2.69 2.65 2.63 2.83 2.79 2.74 2.72 Input KW 86 13.0 16A 18.1 18.0 14.2 17.8 18.8 18.8 15.3 19.2 19.5 19.6 15.3 19.5 19.8 19.9 15A 19.8 20.1 20.1 105°F a 0 83 11.9 15.2 17.7 17.5 12.9 16.5 18.6 18.6 13.9 17.8 19.5 19.6 14.3 18.4 19.8 19.9 14.6 19.0 20.1 20.1 V= o,' 80 10.7 14.1 16.5 16.3 11.6 15.3 17.9 17.7 12.5 16.5 19.3 19.1 13.2 17.4 19.7 19.6 13.9 18.3 20.1 20.1 �2 'is 77 9.5 12.9 15.4 15.2 10.3 14.0 16.7 16.5 11.1 15.1 18.0 17.7 12.1 16.3 18.6 18.6 13.1 17.5 19.3 19.4 c w 74 8.4 11.7 14.2 14.0 9.0 12.7 15.4 15.2 9.7 13.7 16.6 16.3 11.1 16.2 17.6 17.5 12.4 16.8 18.6 18.6 CJJ co 71 - 10.6 13.0 12.9 - 11.4 14.1 13.9 - 12.3 15.2 14.9 - 14.1 16.5 16.4 - 16.0 17.8 17.9 68 - 9.4 11.9 11.7 - 10.1 12.8 12.6 - 10.9 13.8 13.5 - 131 15.4 15.3 - 15.3 17.0 17.1 Net Cap MBH , 20.0 17.7 16.8 16.8 20.6 18.2 17.3 17.3 21.2 18.7 17.8 17.8 21.4 19.0 18.0 18.0 21.7 19.2 18.2 18.2 Total Power Input" ,2.69 2.64 2.60 2.58 2.75 2.70 2.66 2.63 2.80 2.75 2.71 2.68 2.89 2.83 2.79 2.76 2.97 2.92 2.87 2.84 86 11.1 14.4 16.0 15.6 12.2 15.8 16.9 16.7 13.2 17.2 17.8 17.8 13.9 18.1 18.0 18.0 j 14.6 19.0 18.2 18.2 115°F ki a or 83 10.5 13.9 15.5 15.1 11.6 15.3 16.6 16.4 12.6 16.6 17.8. 17,8 13.2 17.5 18.0 18.0 13.9 18.3 18.2 18.2 t51-= me_ 80 10.0 13.4 14.9 14.5 11.0 14.7 16.4 15.9 11.9 16.0 17.8 17.4 12.5 16.8 18.0 17.8 13.2 17.6 18.2 18.2 co a m m 77 9.5 12.8 14.4 14.0 10A 14.1 15.8 15.4 11.3 15.3 17.2 16.7 11.9 16.1 17.3 17.1 12,4 16.8 17.5 17.5 w 74 8.9 12.3 13.9 13.5 9.8 13.5 15.2 14.8 10.7 14.7 16.5 16.1 11.2 15.4 16.7 16.4 11.7 16.1 16.8 16.7 rn 71 - 11.8 13.3 12.9 - 12.9 14.6 14.2 - 14.0 15.9 15.4 - 14.7 16.0 15.71 - 15.4 16.0 16.0 68 - 11.2 12.8 12.4 - 12,3 14.0 13.6 - 13.4 15.3 14 8 - 14,0 153 15.0 - 14.6 15.3 15.3 Net Ca•p, 18.2 15.8 15.1 15.0 18.9 16.3 15.6 15.5 19.5 16.9 16.2 16.0 19.6 17.0 16.3 16.2 119,8 17.1 16.4 16.3 MBH Total Power 2.83 2.77 2.74 2.70 2.89 2.83 2.80 2.76 2.95 2.89 2.86 2.82 3.03 2.97 2.94 2.89 3.11 3.05 3.01 2.97 Input KW 86 9.1 12.5 13.9 13.2 10.2 13.9 15.0 14.6 11.2 15.3 16.2 16.0 12.5 16.8 16.3 16.2.13.8 18.3 16.4 16.3 125°F o 0 83 9.2 12.6 13.2 12.6 10.3 14.0 14.7 14.3 11.3 15.4 16.2 16.0 12.2 16.5 16.3 16.2 13.1 17.6 16.4 16.3 '0r rn' 80 9.3 12.7 13.3 12.7 10.4 14.1 14.8 14.2 11.4 15.5 16.2 15.6 11.9 16.2 16.3 15.9',12.4 16.9 16.4 16.3 Uco ca aM I 77 9.4 12.8 13.4 12.8 10.5 14.2 14.9 14.3 11.5 15.6 16.2 15.7 11.6 15.9 16.1 15.6',11.7 16.2 15.7 15.6 c w 74 9.5 12.9 13.5 12.9 10.6 14.3 15.0 14.4 11.6 15.7 16.2 15.8 11.3 15.6 15.8 15.3 11.0 15.5 15.0 14.9 co 71 - 13.0 13.6 13.0 - 14.4 15.1 14.5 - 15.8 16.2 15.9 - 15.3 15.5 15.0' - 14.7 14.3 14.1 68 - 13.0 13.7 13.1, - 14.5 15.2 14.6 - 15.9 16.2 160 - 15.0 15.2 14.71 - 14.0 13.6 13.4 '=These capadties are net capadttas-Indoor ran heat deducted. ALL SENSIBLE CAPACITY Unitary Products Group 7 • 036-21523-002-A-0503 COOLING CAPACITIES - 2-1/2 TON (DYA030) Air On Evaporator Coil Temperature of Air on 750 CFM_ 875 CFM 1,000 CFM _1,125 CFM 1.250 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap. 28.1 26.4 24.2 22.6 30.6 28.7 26.3 24.5 32.9 31.0 28.3 26.4 33.2 31.2 28.6 26.7 33.5 31.5 28.8 26.9 MBH Total Power 2.99 2.95 2.90 2.89 3.03 2.99 2.94 2.93 3.06 3.02 2.97 2.96 3.13 3.09 3.04 3.03 3.20 3.16 3.11 3.10 Input KW 86 15.3 19,8 23.6 22.6 18.6 23.6 26.0 24.5'21.9 27.4 28.3 26.4 21.1 26.8 28.6 26.7 20.2 26.2 28.8 26.9 85°F o 0 83 14.5 19.0 22.8 21.9 17.0 21.9 25.6 24.2;19.4 24.9 28.3 26.4'19.3 25.1 28.6 26.7 19.3 25.2 28.8 26.9 o c a 80 13.7 18.2 22.1 21.2 15.3 20.3 24.6 23.6'I 16.9 22.4 27.2 26.1',17.6 23.3 28.0 26.5 18.3 24.2 28.8 26.9 m 77 13.0 17.4 21.3 20.4 13.7 18.7 23.0 22.0 14.5 20.0 24.7 23.6115.9 21.6 26.3 24.8 17.3 23.3 27.8 25.9 Lc 74 12.2 16.7 20.5 19.6 12.1 17.1 21.4 20.4 12.0 17.5 22.2 21.1 14.2 19.9 24.6 23.0 16.4 22.3 26.9 24.9 71 - 15.9 19.7 18.8 - 15.5 19.8 18.71 - 15.0 19.8 18.7 - 18.2 22.8 21.3 - 21.3 25.9 24.0 rn 68 - 15.1 19.0 18.1 - 13.8 18.1 17.1 - 12.6 17.3 16.21 - 16.5 21.1 19.6 - 20.4 24.9 23.0 N et ' 26.8 25.0 22.3 21.4 29.2 27.3 24.3 23.4 i 31.7 29.6 26.4 25.4 32.0 29.9 26.6 25.6 32.2 30.1 26.8 25.8 Total Power 3.18 3.14 3.08 3.07 3.22 3.18 3.11 3.11 13.26 3.22 3.15 3.1513.34 3.30 3.23 3.22 3.42 3.38 3.30 3.30 L t KW 86 17.9 22 33 22.3 21.4 19.9 24.9 24.3 23.4 122.0 27.5 26.4 25.4121.0 26.7 26.6 25.6 19.9 25.9 26.8 25.8 95°F n o 83 15.6 20.1 22.3 21.4 17.5 22.5 24.3 23.4!19.3 24.9 26.4 25.4 19.1 24.9 26.6 25.6 19.0 24.9 26.8 25.8 3`-= 0,0- 80 13.4 17.8 21.0 20.0 15.0 20.0 23.6 22.41 16.6 22.2 26.1 24.8 17.3 23.1 16.5 25.3 18.0 24.0 26.8 25.8 a2 m 77 11.1 15.6 18.8 17.7 12.6 17.5 21.1 19.9,14.019.523.522.215.521224.6 23.5 17.0 23.0 25.8 24.8 c w` 74 8.9 13.4 16.5 15.5 10.1 -15.1 18.7 17.5 11.3 16.8,20.8 19.5113.7 19.4 22.8 21.7.16.0 22.0 24.9 23.9 co 71 - 11.1 14.3 13.3 - 12.6 16.2 15.0 - 14.1 18.1 16.81 - 17.6 21.0 19.8 - 21.0 23.9 22.9 68 - 8.9 12.1 11.0 - 10.2 13.7 12.6 - 11.5 15.4 14.1 - 15.8 19.2 18.0 - 20.1 22.9 21.9 Net Cap MBH . 25.4 23.0 20.6 20.1 27.7 25.0 22.5 21.9 30.0 27.1 24.4 23.8 30.4 27.4 24.7 24.0 30.7 27.8 25.0 24.3 Total Power 2.94 3.31 3.23 3.24 2.98 3.36 3.28 3.29,3.03 3.41 3.33 3.34 3.10 3A9 3.41 3.42 3.17 3.57 3.48 3.49 Input KW 86 15.9 20.0 20.6 20.1 17.7 22.3 22.5 21.9'19.6 24.7 24.4 23.8,19.5 24.9 24.7 24.0 19.5 25.1 25.0 24.3 105°F a o 83 14.4 18.5 20.5 19.9 16.1 20.7 22.5 21.8'17.8 22.9 24.4 23.8 18.2 23.5 24.7 24.0 18.6 24.1 25.0 24.3 U= rn°' 80 13.0 17.1 19.6 18.8 14.5 19.1 21.9 21.0 16.1 21.2 24.3 23.3',16.9 22.2 24.6 23.8 17.6 23.2 25.0 24.3 ca m m 77 11.5 15.6 18.1 17.3 12.9 17.5 20.3 19.5,14.4 19.5 22.5 21.6,,15.5 20.9 23.3 22.5 16.7 22.2 24.0 23.4 c w 74 10.1 14.2 16.6 15.9 11.3 15.9 18.7 17.9112.6 17.7 20.8 19.8 14.2 19.5 21.9 21.1 15.7 21.3 23.1 22.4 a) 71 - 12.7 15.2 14.4 - 14.3 17.1 16.311 - 16.0 19.0 18.1 - 18.2 20.6 19.8 - 20.4 22.1 21.5 68 - 11.3 13.7 13.0 - 12.7 15.5 14.7, - 14.2 17.3 16.31 - 16.8 19.2 18.4 - 19.4 21.2 20.6 Net MBHp I 24.1 20.9 19.0 18.8 26.2 22.8 20.7 20.5,28.3 24.6 22.4 22.1 28.8 25.0 22.7 22.5 29.2 25.4 23.1 22.8 Total PoKwNer 2.70 3.47 3.38 3.40 2.75 3.53 3.44 3.471 2.80 3.60 3.50 3.53 2.86 3.68 3.58 3.61 2.92 3.76 3.66 3.69 86 13.9 17.7 19.0 18.8 15.5 19.7 20.7 20.51172 21.8 22.4 22.1 18.1 23.0 22.7 22.5 19.1 24.2 23.1 22.8 115°F ° 2, 83 13.2 17.0 18.8 18.3 14.8 19.0 20.6 20.2116.4 21.0 22.4 22.1 17.3 22.2 22.7 22.5 18.2 23.3 23.1 22.8 V= 0,0u_ 80 12.6 16.3 18.1 17.6 14.1 18.3 20.2 19.7 15.6 20.2 22.4 21.8 16.4 21.3 22.7 22.3 17.3,22.4 23.1 22.8 6 m 77 11.9 15.7 17.4 16.9 13.3 17.5 19.5 19.0114.8 19.4 21.6 21.0 15.6 20.5 21.9 21.5 16.3 21.5 22.2 21.9 c w 74 11.2 15.0 16.7 16.3 12.6 16.8 18.8 18.2!,13.9 13.6 20.8 20.2 14.7 19.6 21.0 20.6 15.4 20.6 21.3 21.0 co 71 - 14.3 16.1 15.6 - 16.1 18.0,17.51 - 17.8 20.0 19.4 - 18.7 20.2 19.7 - 19.7 20.4 20.1 68 - 13.6 15.4 14.9 - 15.3 17.3 16.71 - 17.0 19.2 18.61 - 17,9 19.3 18.9 - 18.8 19.5 19.2 Net Can MBH . 22.7 18.9 17.4 17.5 24.7 20.5 18.9 19.0 26.6 22.2 20.4 20.5 27.2 22.6 20.8 20.9 27.7 23.1 21.3 21.4 Total Power 2.45 3.63 3.53 3.57 2.51 3.71 3.60 3.64 2.56 3.79 3.68 3.72 2.62 3.87 3.76 3.80 2.68 3.96 3.84 3.89 Input KW 86 11.9 15.3 17.4 17.5 13.3 17.2 18.9 19.0 14.7 19.0 20.4 20.5 16.7 212 20.8 20.9 18.9 23.4 21.3 21.4 125°F o LL 83 12.0 15.5 17.0 16.7 13.5 17.3 18.7 18.6 14.9 19.1 20.4 20.5 16.3 20.8 20.8 20.9 17.8 22.5 21.3 21.4 U= ca 80 12.2 15.6 16.6 16.4 13.6 17A 18.6 18.3 15.0 19.2 20.5 20.2 16.0 20.4 20.9 20.8 16.9 21.7 21.3 21A n . ro 77 12.3 15.7 16.7 16.5 13.7 17.5 18.7 18.5 15.1 19.4 20.7 20.4 15.6 20.1 20.5 20.4.16.0 20.8 20.4 20.5 c w 74 12.4 15.8 16.9 16.8 13.8 17.6 18.8 18.6 15.3 19.5 20.8 20.5 15.2 19.7 20.1 20.1 15.1 19.9 19.5 19.6 71 - 15.9 17.0 16.7 - 17.8 18.9 18.7 - 19.6 20.9 20.7 - 19.3 19.8 19.7 - 19.0 18.6 18.7 68 - 16.0 17.1 16.9 - 17,9 19.1 18.8 - 19.8 21.1 20.8 - 19.0 19.4 19,3 - 18.1 17.7 17.8 c=These capacities are net capacities-Indoor fan heat deducted. ALL SENSIBLE CAPACITY 8 Unitary Products Group 036-21523-002-A-0503 COOLING CAPACITIES - 3 TON (DYA036) Air On Evaporator Coil Temperature of Air on 900 CFM 1 050 CFM 1 200 CFM 1 350 CFM 1 500 CFM Condenser Coil WB°F WB°F WB°F 1 WB°F WB°F 72 67 62 57 172 67 62 57 72 67 62 57 172 67 62 57 72 67 62 57 Net 1 36.7 34.6 31.9 30.3 37.9 35.7 32.9 31.3'39.1 36.9 34.0 32.3139.4 37.1 342 32.5 39.6 37.4 34.4 32.7 Total Power 3.57 3.51 3.44 3.41 3.64 3.58 3.51 3.48 Inp ;3.71 3.65 3.58 3.551 3.80 3.73 3.66 3.63 3.88 3.82 3.74 3.71 ut 86 19.8 25.2 29.9 30.3 23.0 28.7 32.0 31.3,26.1 32.1 34.0 32.3',24.8 31.0 34 2 32.5',23.5 29.9 34.4 32.7 85°F a Li_ 83 18.9 24.3 29.0 29.7 21.0 26.7 31.5 31.0123.1 29.2 34.0 32.3122.8 29.0 34.2 32.51 22.4 28.8 34.4 32.7 U o a 80 18.0 23.4 28.1 28.8 19.1 24.8 29.8 30.5 20.1 26.2 31.5 32.3 20.7 27.0 32.4 32.5121.3 27.7 33.3 32.7 a 1 '0 Em 77 17.1 22.4 27.2 27.9 17.1 22.8 27.8 28.6 1,17.2 23.2 28.5 29.3118.7 24.9 30.4 30.5'20.2 26.6 32.2 31.6 c w 74 16.1 21.5 26.2 26.9�,15.2 20.9 25.9 26.6 14.2 20.2 25.5 26.3'16.7 22.9 28.3 28.41.19.1 25.5 31.1 30.5 71 - 20.6 25.3 26.0 - 18.9 23.9 24.7 - 17.3 22.6 23.4! - 20.9 26.3 26.4 - 24.4 30.029.4 68 - 19.7 24.4 25.1 - 17.0 22.0 22.71 - 14.3 19.6 20.4 - 18.8 24.3 24.4 - 23.3 28.9 28.3 Net Cap MBH• . 36.9 34.1 31.4 31.2 37.3 34.5 31.8 31.5137.7 34.9 32.1 31.9,38.3 35.5 32.6 32.4 39.0 36.1 33.2 32.9 Total Power 3.77 3.73 3.64 3.61 3.86 3.81 3.72 3.69 3.95 3.90 3.81 3.7714.03 3.98 3.88 3.85 4.11 4.06 3.96 3.93 In•ut KW u --86 23.8 29.2 31.4 31.2125.1 30.8 31.8 31.5 26.5 32.4 32.1 31.9 25.1 31.2 32.6 32.4,23.6 30.0 33.2 32.9 95°F o 83 21.1 26.5 31.2 31.2'22.2 27.8 31.7 31.5 23.3 29.2 32.1 31.9 1 22.9 29.0 32.6 32.4122.5 28.9 33.2 32.9 V= 0,0 80 18.4 23.8 28.5 29.3'19.2 24.9 29.8 30.6 20.0 26.0 31.1 31.9120.7 26.9 32.1 32.4 21.4 27.8 33.2 32.9 m77 15.7 21.1 25.9 26.6 16.3 21.9 26.9 27.6116.8 22.7 27.9 28.7 18.6 24.7 30.0 30.3120.3 26.7 32.1 31.8 c w 74 13.0 18.5 23.2 23.9113.3 19.0 23.9 24.71 13.6 19.5 24.7 25.5 16.4 22.5 27.8 28.1 19.2 25.6 31.0 30.7 rn 71 - 15.8 20.5 21.2 - 16.0 21.0 21.71 - 16.3 21.4 22.21 - 20.4 25.7 25.9 - 24.5 29.9 29.6 68 - 13.1 17.8 18.51 - 13.1 18,0 18,8 - 13.1 18,2 19.01 - 18.2 23.5 23.8; - 23.4 28.8 28.5 Net BHp' 34.9 32.6 30.7 29.6 35.3 32.9 31.0 29.9 35.6 33.2 31.3 30.2 36.1 33.6 31.7 30.6 36.5 34.0 32.1 30.9 TlnauPr 4et KW .00 3.93 3.84 3.83I4.09 4.01 3.93 3.91 4.18 4.10 4.01 3.99i,14.26 4.18 4.09 4.07'4.34 4.26 4.17 4.15 86 21.1 27.2 29.8 28.8122.4 28.7 30.6 29.5 23.7 30.3 31.3 30.2;23.2 30.1 31.7 30.6;22.8 29.8 32.1 30.9 105°F n. 0 83 19.4 25.4 29.3 28.4120.5 26.8 30.3 29.3 21.6 28.2 31.3 30.2 21.6 28.5 31.7 30.6 21.7 28.7 32.1 30.9 V= cn 80 17.7 23.7 27.6 27.0 18.6 24.9 29.0 28.4119.5 26.1 30.4 29.8 20.1 26.9 31.2 30.4 20.6 27.7 32.1 30.9 co C mm 77 15.9 21.9 25.8 25.3 16.6 23.0 27.1 26.5 17.4 24.0 28.3 27.7 18.5 25.3 29.7 28.8 19.6 26.6 31.0 29.8 c w` 74 14.2 20.2 24.1 23.5 14.7 21.0 25.1 24.6 i 15.3 21.9 26.2 25.6'16.9 23.7 28.1 272 18.5 25.5 29.9 28.8 m 71 - 18.4 22.3 21.8 - 19.1 23.2 22.7 - 19.8 24.1 23.51 - 22.2 26.5 25.61 - 24.5 28.9 27.7 68 - 16.7 20.6 20.01 - 17.2 21.3 20.7, - 17.7 22.0 21.4 j - 20.6 24.9 24.01 - 23.4 27.8 26.7 Net Cap. 33.0 31.0 30.0 28.0 33.3 31.3 30.3 28.2 33.5 31.6 30.6 28.5 33.8 31.8 30.8 28.7'34.0 32.0 31.0 28.9 MBH Total Power 4.24 4.13 4.05 4.0414.32 4.22 4.13 4.12;4.41 4.30 4.22 4.21 !,:4.50 4.38 4.30 4.29 4.58 4.47 4.38 4.37 Input 86 18.5 25.1 28.2 26.4 19.7 26.7 29.4 27.4:20.9 28.2 30.6 28.5 21.4 28.9 30.8 28.7 21.9 29.6 31.0 28.9 115°F 8 Z 83 17.7 24.3 27.4 25.6 18.8 25.8 29.0 27.0119.9 27.3 30.6 28.5'20.4 27.9 30.8 28.7 20.9 28.6 31.0 28.9 v= o, 80 16.9 23.5 26.6 24.8 17.9 24.9 28.1 26.2118.9 26.3 29.7 27.7119.4 26.9 30.3 28.3 19.9 27.6 31.0 28.9 77 16.1 22.7 25.8 24.0 17.0 24.0 27.2 25.4 1 17.9 25.3 28.7 26.7 18.4 25.9 29.3 27.3 18.8 26.6 30.0 27.9 c w`m 74 15.3 21.9 24.9 23.2 16.1 23.1 26.4 24.51 17.0 24.3 27.8 25.8�':17.4 24.9 28.3 26.3 17.8 25.5 28.9 26.8 co71 - 21.1 24.1 22.4 - 22.2 25.5 23.6! - 23.4 26.8 24.8 - 23.9 27.3 25.3 - 24.5 27.9 25.8 68 - 20.3 23.3 21.6 - 21.3 24.6 22.7 - 22.4 25.8 23.8 - 22.9 26.3 24.31 - 23.5 26.9 24,8 Net Cap. 31.0 29.4 29.3 26.4 31.2 29.7 29.6 26.6 31.4 29.9 29.8 26.8 31.5 29.9 29.8 26.8 31.5 30.0 29.9 26.9 MBH Total Power 4.47 4.33 4.26 4.26 4.55 4.42 4.34 4.3414.64 4.50 4.42 4.42'4.73 4.59 4.51 4.51 4.82 4.68 4.59 4.60 InutKiV 86 15.9 23.1 26.6 24.0 17.0 24.6 28.2 25.41 18.1 26.1 29.8 26.8119.6 27.8 29.8 26.8,21.1 29.5 29.9 26.9 125°F 0 83 16.0 23.2 25.4 22.8 17.1 24.8 27.6 24.8 18.2 26.3 29.8 26.8,19.1 27.4 29.8 26.8 20.1 28.5 29.9 26.9 c6' of o_80 16.2 23.3 25.6 22.5117.3 24.9 27.3 24.1 18.4 26.5 29.0 25.6 18.7 27.0 29.5 26.2 19.1 27.5 29.9 26.9 1.)m m m 77 16.3 23.5 25.7 22.7 17.4 25.0 27.4 24.2',18.5 26.6 29.2 25.8 18.3 26.6 29.0 25.8 18.1 26.5 28.9 25.9 c w 74 16.4 23.6 25.8 22.8 17.6 25.2 27.6 24.41 16.7 26.8 29.3 25.9 17.9 26.1 28.6 25.4 117.1 25.5 27.9 24.9 71 - 23.7 26.0 22.9', - 25.3 27.7 24.51 - 26.9 29.5 26.1 - 25.7 28.2 25.0 - 24.5 26.9 23.9 68 - 23.9 26.1 23.1' - 25.5 27.9 24.7 - 27.1 29.6 26.2 - 25.3 27.8 24.6 - 23.5 25.9 22.9 =These capacities are net capacities-Indoor fan heat deducted. ALL SENSIBLE CAPACITY Unitary Products Group 9 036-21523-002-A-0503 COOLING CAPACITIES - 3-1/2 TON (DYA042) Air On Evaporator Coil Temperature of Air on 1.050 CFM 1,225 CFM 1 400 CFM 1,575 CFM _ 1,750 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap. 44.5 40.8 37.6 36.5 46.0 42.2 38.8 37.7 47.5 43.6 40.1 38.9 48.9 44.9 41.3 40.1 50.3 46.2 42.5 41.2 MBH Total Power 4.01 4.00 3.85 3.85 4.16 4.15 4.00 4.00 4.31 4.31 4.15 4.15 4.36 4.35 4.19 4.19 4.40 4.39 4.23 4.23 Input KW 86 23.6 29.7 35.1 35.9 27.6 34.2 37.6 37.4 31.6 38.6 40.1 38.9 31.0 38.5 41.3 40.1 30.5 38.4 42.5 41.2 85°F n o 83 22.5 28.6 34.0 34.8 25.3 31.9 37.0 36.8 28.1 35.1 40.1 38.9 28.6 36.1 41.3 40.1 29.1 37.1 42.5 41.2 U= 80 21.4 27.5 32.9 33.7 23.0 29.6 35.4 36.2 24.6 31.7 37.9 38.8 26.2 33.7 40.2 40.0 27.8 35.7 42.5 41.2 • d m 77 20.3 26.4 31.8 32.6 20.7 27.3 33.1 34.0 21.2 28.2 34.4 35.3 23.8 31.3 37.8 37.6 26.4 34.3 41.1 39.9 ;15to 74 19.2 25.4 30.7 31.5 18.5 25.1 30.8 31.7 17.7 24.7 30.9 31.8 21.4 28.9 35.3 35.2 25.0 33.0 39.7 38.5 a) 71 - 24.3 29.7 30.4 - 22.8 28.6 29.4 - 21.3 27.5 28.4 - 26.4 32.9 32.8 - 31.6 38.4 37.2 68 - 23.2 28.6 29.4 - 20.5 26.3 27.1 - 17.8 24.0 24.9= 24.0 30.5 30.3 - 30.2 37.0 35.8 Net Cap MBH . 41.5 38.0 34.6 35.0 43.2 39.6 36.0 36.4 44.9 41.1 37.3 37.8 46.1 42.2 38.3 38.8 47.2 432 39.3 39.8 Total Power 4.24 4.22 4.07 4.10 4.40 4.38 4.22 4.25 4.56 4.54 4.38 4.40 4.62 4.60 4.43 4.46 4.68 4.66 4.49 4.52 Input KW 86 26.5 32.7 34.6 35.0 29.0 35.7 36.0 36.4 31.4 38.7 37.3 37.8 30.3 38.0-38.3 38.8 29.2 37.3 39.3 39.8 95°F o 0 83 23.4 29.6 33.8 34.1 25.5 32.3 35.6 36.0 27.6 34.9 37.3 37.8 27.7 35.4 38.3 38.8 27.8 35.9 39.3 39.8 c= W a 80 20.3 26.5 30.7 31.0 22.1 28.8 33.4 33.8 23.9 31.2 36.1 36.5 25.2 32.9 37.7 38.2 26.5 34.6 39.3 39.8 a 03' 77 17.1 23.3 27.6 27.9 18.6 25.4 30.0 30.3 20.1 27.4 32.4 32.8 22.6 30.3 35.2 35.6 25.1 33.2 37.9 38.4 c w 74 14.0 20.2 24.4 24.7 15.2 21.9 26.5 26.9 16.3 23.7 28.6 29.0 20.0 27.7 32.6 33.0 23.7 31.8 36.6 37.1 co 71 - 17.1 21.3 21.6 - 18.5 23,1 23.4 - 19.9 24.9.25.2 - 25.2 30.0 30.5 - 30.4 35.2 35.7 68 - 13.9 18.1 18.5 - 15.0 196 20.0 - 16.1 21.1 21.5 - 22.6 27.5 27.9 - 29.1 33.8 34.3 Net Cap. 38.7 34.7 32.2 33.0 40.3 36.1 33.5 34.3 41.8 37.5 34.8 35.6 42.8 38.4 35.6 36.5 43.8 39.2 36.5 37.3 MBH Total Power 4.51 4.44 4.34 4.34 4.67 4.59 4.49 4.49 4.82 4.74 4.63 4.64 4.90 4.82 4.71 4.71 4.98 4.90 4.78 4.79 Input KW_ 86 23.6 29.4 31.7 31.8 25.7 32.0 33.3 33.7 27.8 34.6 34.8 35.6 28.0 35.1 35.6 36.4 28.1 35.7 36.5 37.3 105°F • Or 83 21.5 27.3 30.9 30.9 23.4 29.7 32.9 32.9 25.3 32.1 34.8 35.0 26.1 33.2 35.6 36.2 26.8 34.4 36.5 37.3 V= coLot 80 19.5 25.3 28.9 28.8 21.2 27.5 31.4 31.3 22.9 29.7 33.8 33.8 24.2 31.3 35.2 35.5 25.5 33.0 36.5 37.3 03.13 m m 77 17.5 23.3 26.8 26.8 18.9 25.2 29.1 29.1 20.4 27.2 31.4 31.4 22.3 29.5 33.3 33.7 24.1 31.7 35.1 36.0 c• w 74 15.4 21.2 24.8 24.7 16.7 23.0 26.9 26.8 18.0 24.8 28.9 28.9 20.4 27.6 31.4 31.8 22.8 30.4 33.8 34.6 co 71 - 19.2 22.7 22.7 - 20.7 24.6 24.6 - 22.3 26.5 26.5 - 25.7 29.5 29.9 - 29.0 32.5 33.3 68 - 17.1 20.7 20.7 - 185 22.4 22.3 - 19.9 24.0 24.0 - 23.8 27.6 28.0 - 277 31.1 32.0 Net Cap. 35.9 31.3 29.9 30.9 37.3 32.6 31.1 32.2 38.8 33.9 32.3 33.4 39.6 34.5 33.0 34.1 40.3 34.2 33.6 34.8 MBH Total Power 4.78 4.66 4.61 4.59 4.93 4.80 4.75 4.73 5.08 4.95 4.89 4.87 5.18 5.04 4.99 4.97 5.27 5.14 5.08 5.06 Input KW 86 20.6 26.0 28.9 28.5 22 A 28.2 30.6 31.0 24.2 30.4 32.3 33.4 25.6 32.3 33.0 34.1 27.1 34.1 33.6 34.8 115°F m Z 83 19.7 25.1 28.0 27.6 21.4 27.2 30.1 29.9 23.0 29.3 32.3 32.21 24.4 31.0 33.0 33.5 25.8 32.8 33.6 34.8 CL U= CA^ 80 18.7 24.1 27.0 26.6 20.3 26.1 29.3 28.9 21.9 28.2 31.6 31.1 23.2 29.8 32.6 32.9 24.5 31.5 33.6 34.8 co c m 77 17.8 23.2 26.1 25.7 19.3 25.1 28.2 27.8 20.7 27.0 30.4 30.0 22.0 28.6 31.4 31.7 23.2 30.2 32.3 33.5 c ` 74 16.9 22.2 25.1 24.8 18.2 24.0 27.2 29.8 19.6 25.9 29.3 28.8 20.8 27.4 30.1 30.5 21.9 28.9 31.0 32.2 a) 71 - 21.3 24.2 23.8 - 23.0 26.2 25.7 - 24.7 28.1 27.7 - 26.2 28.9 29.3 - 27.6 29.7 30.9 68 - 20.3 23.2 22.9 - 22.0 25.1 24.7 - 23.6 27.0 26.5 - 25.0 27.7 28.1 ,264 28.5 29.6 Net Cap MBH• . 33.0 27.9 27.5 28.9 34.4 29.1 28.7 30.1 35.8 30.3 29.8 31.3 36.3 30.7 30.3 31.7 36.9 31.2 30.7 32.2 Total Power 5.05 4.88 4.87 4.83 5.19 5.02 5.01 4.97 5.34 5.16 5.15 5.11 5.45 5.27 5.26 5.22 5.57 5.38 5.37 5.33 Input KW 86 17.7 22.6 26.1 25.3 19.1 24.5 27.9 28.2 20.6 26.3 29.8 31.2 23.3 29.4 30.3 31.7 26.0 32.5 30.7 32.2 125°F 83 17.8 22.8 25.0 24.3 19.3 24.6 27.4 26.9 20.7 26.5 29.8 29.5 22.7 28.8 30.3 30.8 24.8 31.2 30.7 32.2 U= rn°. 80 18.0 22.9 25.2 24.4 19.4 24.8 27.2 26.4 20.9 26.6 29.3 28.4 22.2 28.3 30.0 30.3 23.5 30.0 30.7 32.2 a m m 77 18.1 23.1 25.3 24.6 19.6 24.9 27.4 26.6 21.1 26.8 29.4 28.6 21.7 27.8 29.5 29.8 22.3 28.7 29.5 31.0 • w 74 18.3 23.2 25.5 24.8 19.8 25.1 27.5 26.7 21.2 27.0 29.6 28.7 21.1 27.2 28.9 29.2 21.0 27.5 28.2 29.7 co 71 - 23.4 25.6 24.9 - 25.3 27.7 26.9 - 27.2 29.8 28.9 - 26.7 28.4 28.7 - 26.2 27.0 28.5 68 - 23.5 25.8 25.1 - 25.4 27.9 27.1 - 27.3 29.9 29.1 - 26.2 27.9 28.2 - 25.0 25.8 27.2 '=These capacities are net capacties-Indoor fan heat deducted. ALL SENSIBLE CAPACITY 10 Unitary Products Group 036-21523-002-A-0503 COOLING CAPACITIES - 4 TON (DYA048) Air On Evaporator Coil Temperature of Air on _. 1.200 CFM 1,400 CFM 1,600 CFM 1.800 CFM 2,000 CFM Condenser Coil WB°F WB°F WB°F WB°F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap MBH•. 48.5 45.0 41.0 41.6 49.9 46.3 42.2 42.8 51.3 47.6 43.4 44.0 52.4 48.7 44.4 44.9 53.5 49.7 45.3 45.9 Total Power 3.99 3.93 3.87 3.86 4.01 3.95 3.88 3.88 4.02 3.96 3.90 3.89 4.04 3.97 3.91 3.91 4.05 3.99 3.92 3.92 Input KW 86 28.9 36.8 41.0 41.6 31.9 40.5 42.2 42.8 34.9 44.1 43.4 44.0 38.0 46.9 44.4 44.9 41.0 49.7 45.3 45.9 85°F $ 0 83 25.5 33.4 40.3 41.2 27.8 36.4 41.9 42.6 30.2 39.4 43.4 44.0 32.7 42.5 44.4 44.9 35.1 45.6 45.3 45.9 rj= c,a 80 22.0 30.0 36.9 37.8 23.8 32.4 39.8 40.9 25.6 34.8 42.8 43.9 27.3 37.2 44.1 44.9 29.1 39.6 45.3 45.9 co a '�m 77 18.6 26.5 33.4 34.4 19.8 28.3 35.8 36.8 20.9 30.1 38.1 39.2 22.0 31.9 38.7 39.6 23.1 33.6 39.4 40.0 w 74 15.2 23.1 30.0 31.0 15.7 24.3 31.7 32.8 16.2 25.4 33.5 34.6 16.7 26.6 33.4 34.3 17.2 27.7 33.4 34.0 tCD 71 - 19.7 26.6 27.6 - 20.2 27.7 23.7 - 20.8 28.8 29.9 - 21.2 28.1 29.0 - 21.7 27.5 28.0 68 - 16.3 23.2 24.1 - 16.2 23.7 24,7 - 16.1 24.1 25.2 - 15.9 22.8 23.7 - 15.7 21.5 22.1 Net Cap MBH•. 43.5 41.9 36.3 36.9 46.1 44.4 38.6 39.1 48.8 47.0 40.8 41.4 48.6 46.8 40.6 41.2 48.3 46.5 40.4 40.9 Total Power In ut KW 4.44 4.34 4.32 4.32 4.44 4.34 4.32 4.32 4.43 4.33 4.31 4.47 4.37 4.37 4.35 4.35 4.50 4.41 4.38 4.39 ?.^ 86 27.2 35.6 36.3 36.9 30.7 40.1 38.6 39.1 34.3 44.7 40.8 41.4 36.8 45.6 40.6 41.2 39.2 46.5 40.4 40.9 95°F m Z' 83 23.7 32.2 36.3 36.9 26.7 36.1 38.6 39.1 29.7 40.0 40.8 41.4 31.5 42.3 40.6 41.2 33.3 44.6 40.4 40.9 10'E 80 20.3 28.8 33.1 33.6 22.7 32.1 36.9 37.4 25.0 35.4 40.7 41.3 26.2 37.0 40.5 41.1 27.3 38.6 40.4 40.9 -M co) m 77 16.9 25.3 29.7 30.2 18.6 28.0 32.9 33.4 20.3 30.7 36.1 36.6 20.8 31.7 35.2 35.8 21.3 32.7 34.4 35.0 w 74 13.5 21.9 26.3 26.7 14.6 24.0 28.8 29.3 15.7 26.0 31.4 32.0 15.5 26.4 29.9 30.5 15.4 26.7 28.4 29.0 a) 71 - 18.5 22.8 23.3 - 19.9 24.8 25.3 - 21.4 26.7 27.3 - 21.1 24.6 25.2 - 20.8 22.5 23.0 68 - 15.1 19.4 19.5 - 15.9 20.7 21.3 - 16.7 22.1 22.6 - 15.7 19.3 19.9 - 14,8 16.5 17.1 Net Cap MBH•. 42.2 39.2 35.7 36.0 44.1 140.9 37.2 37.5 45.9 42.6 38.8 39.1 46.4 43.1 39.2 39.5 47.0 43.6 39.7 40.0 Total Power 4.94 4.85 4.81 4.81 4.95 4.85 4.81 4.82 4.95 4.86 4.82 4.83 4.98 4.89 4.84 4.85 5.00 4.91 4.87 4.89 InutKW 86 26.7 34.8 35.7 36.0 30.1 38.1 37.2 37.5 33.4 41.5 38.8 39.1 36.1 42.5 39.2 39.5 38.8 43.6 39.7 40.0 105°F a Z' 83 23.3 31.3 35.3 35.6 26.0 34.9 37.0 37.3 28.7 38.4 38.8 39.1 30.8 40.5 39.2 39.5 32.8 42.6 39.7 40.0 i0" o,a 80 19.9 27.9 32.0 32.2 22.0 30.8 35.3 35.6 24.1 33.8 38.7 39.0 25.5 35.7 39.2 39.5 26.9 37.7 39.7 40.0 �2 mm 77 16.5 24.5 28.6 28.8 17.9 26.8 31.3 31.6 19.4 29.1 34.0 34.3 20.2 30.4 33.9 34.2 20.9 31.7 33.7 34.0 c w 74 13.0 21.1 25.1 25.4 13.9 22.8 27.2 27.5 14.7 24.4 29.4 29.7 14.8 25.1 28.6 28.9 14.9 25.8 27.8 28.1 71 - 17.7 21.7 22.0 - 18.7 23.2 23.5 - 19.8 24.7 25.0 - 19.8 23.3 23.6 - 19.8 21.8 22.1 68 - 14.2 18.3 18.5 - 14.7 19.2 19.4 - 15.1 20.0 20.3 - 14,5 17,9 18.3 - 13.9 15.9 16.2 Net Cap MBH . 41.0 36.5 35.0 35.1 42.0 37.3 35.9 35.9 43.0 38.2 36.7 36.8 44.3 39.4 37.9 37.9 45.7 40.6 39.0 39.1 Total Power 5.44 5.35 5.29 5.30 5.46 5.37 5.31 5.32 5.47 5.39 5.33 5.34 5.49 5.40 5.34 5.35 5.50 5.42 5.35 5.37 Input KW 86 26.3 33.9 35.0 35.1 29.4 36.1 35.9 35.9 32.5 38.2 36.7 36.8 35.4 39.4 37.9 37.9 38.4 40.6 39.0 39.1 115°F o a" 83 22.9 30.5 34.3 34.3 25.3 33.7 35.5 35.5 27.8 36.9 36.7 36.8 30.1 38.7 37.9 37.9 32.4 40.6 39.0 39.1 v= on., 80 19.5 27.1 30.8 30.9 21.3 29.6 33.7 33.6 23.1 32.1 36.7 36.7 24.8 34.9 37.8 37.9 26.4 36.8 39.0 39.1 0710 d m 77 16.0 23.7 27.4 27.5 17.2 25.6 29.7 29.8 18.5 27.5 32.0 32.0 19.5 29.2 32.5 32.6 20.5 30.8 33.1 33.1 gn w 74 12.6 20.8 24.0 24.0 13.2 21.5 25.7 25.7 13.8 22.9 27.3 27.4 14.2 23.9 27.2 27.3 14.5 24.9 27.1 27.2 a) 71 - 16.8 20.6 20.6 - 17.5 21.6 21.7 - 18.2 22.7 22.7 - 18.5 21.9 22.0 - 18.9 21.1 21.2 68 - 13.4 17.2 17.2 - 13.5 17.6 17.6 - 13.5 18.0 18.1 - 13.2 16.6 16.6 - 12.9 15.2 15.2 Net Cap MBH . 39.7 33.7 34.3 34.2 39.9 33.6 34.5 34.3 40.1 33.9 34.7 34.5 42.2 35.8 36.5 36.3 44.4 37.7 38.4 38.2 Total ut Power 5.90 5.90 5.80 5.80 6.00 5.90 5.80 5.80 6.00 5.90 5.80 5.90 1 6.00 5.90 5.80 5.90 6.00 5.90 5.80 5.90 Input 86 25.9 33.1 34.3 34.2 28.7 34.0 34.5 34.3 31.5 35.0 34.7 34.5 34.7 36.4 36.5 36.3,37.9 37-7 38.4 38.2 125°F Z' 83 22.4 29.7 33.2 33.0 24.7 32.5 34.0 33.8 26.9 35.3 34.7 34.5 29.4 37.0 36.5 36.3 32.0 38.7 38.4 38.2 V= m lit 80 19.0 26.2 29.7 29.5 20.6 28.4 32.2 32.0 22.2 30.6 34.6 34.4 24.1 33.2 36.5 36.3 26.0 35.9 38.4 38.2 Ea e, -am 77 15.6 22.8 26.8 26.1 16.6 24.4 28.1 27.9 17.5 25.9 30.0 29.8 18.8 27.9 31.2 31.0 20.0 29.9 32.4 32.2 0 lu 74 12.2 19.4 22.9 22.7 12.5 20.3 24.1 23.9 12.9 21.3 25.3 25.1 13.5 22.6,25.9 25.7 14.1 23.9 26.4 26.2 co 71 - 16.0 19.4 19.3 - 16.3 20.0 19.9 - 16.6 20.6 20.4 - 17.3 20.5 20.4 - 18.0 20.5 20.3 68 - 12.6 16.6 15.9 - 12.2 16.0 15.8 - 11.9 16.0 15.8 - 12.0 15.2 15.0 - 12.0 14.5 14.3 =These capacities are net capacities-indoor fan heat deducted. ALL SENSIBLE CAPACITY Unitary Products Group 11 036-21523-002-A-0503 } COOLING CAPACITIES - 5 TON (DYA060) Alr On Indoor Coil Temperature of Air on 1500 CFM 1750 CFM 2000 CFM 2250 CFM 2500 CFM Outdoor Coil WB°F WB°F WB°F WB,F WB°F 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 72 67 62 57 Net Cap 60.3 56.2 52.0 51.1 62.4 58.1 53.8 52.9 64.4 60.0 55.5 54.6 65.4 60.9 56.4 55.5 66.5 61.8 57.3 56.3 MBH Total Power 5.67 5.58 5.48 5.50 5.80 5.71 5.61 5.63 5.93 5.83 5.73 5.75 6.11 6.01 5.91 5.93 6.30 6.20 6.09 6.11 Input KW 86 39.5 47.7 52.0 51.1 43.5 52.3 53.8 52.9 47.5 56.9 55.5 54.6 50.9 59.4 56.4 55.5 54.3 61.8 57.3 56.3 85°F a o 83 35.2 43.4 50.6 50.9 38.4 47.2 53.1 52.7 41.6 51.0 55.5 54.6 44.3 54.1 56.4 55.5 46.9 57.2 57.3 56.3 V= PI,- 80 31.0 39.1 46.4 46.6 33.4 42.2 50.0 50.2 35.8 45.2 53.6 53.9 37.6 47.5 55.4 55.1 39.4 49.8 57.3 56.3 m 77 26.7 34.8 42.1 42.3 28.3 37.1 44.9 45.2 30.0 39.4 47.8 48.1 31.0 40.9 48.8 48.5 32.0 42.3 49.8 48.9 c w 74 22.4 30.5 37.8 38.0 23.3 32.0 39.9 40.1 24.2 33.6 42.0 42.2 24.3 34.2 42.2 41.8 24.5 34.9 42A 41A c 0 71 - 26.3 33.5 33.8 - 27.0 34.8 35.1 - 27.7 36.1 36.4 - 27.6 35.5 35.2 17.1 27.4 34.9 34.0 68 - 22.0 29.3 29.5 - 21.9 29.8 30.0 - 21.9 30.3 30.6 - 20.9 28.9 28.5 9.6 20.0 275 26.5 Net Cap 57.6 53.0 49.0 48.5 59.5 54.7 50.7 50.1 61.5 56.5 52.3 51.7 62.4 57.3 53.1 52.4 63.3 58.1 53.9 53.2 MBH Total Power 6.14 6.11 5.96 6.01 6.30 6.27 6.11 6.16 6.45 6.42 6.26 6.32 6.62 6.59 6.43 6.49 6.80 6.76 6.60 6.65 Input KW 86 37.6 46.8 49.0 48.5 41.5 51.4 50.7 50.1 45.3 56.0 52.3 51.7 48.6 57.1 53.1 52.4 51.8 58.1 53.9 53.2 95°F a 7 83 33.3 42.5 48.6 48.2 36.4 46.4 50.5 50.0 39.5 50.2 52.3 51.7 41.9 53.1 53.1 52.4 44.4 56.1 53.9 53.2(.= 03 80 29.1 38.3 44.4 43.9 31.4 41.3 47.9 47.4 33.7 44.3 51.4 50.9 35.3 46.5 52.6 52.1 36.9 48.6 53.9 53.2 m77 24.8 34.0 40.1 39.7 26.3 36.2 42.8 42.4 27.8 38.5 45.5 45.1 28.7 39.8 46.0 45.4 29.5 41.2 46.4 45.7 c to 74 20.5 29.7 35.8 35.4 21.3 31.2 37.8 37.3 22.0 32.7 39.7 39.2 22.0 33.2 39.3 38.8 22.0 33.7 38.9 38.3 ro 71 - 25.4 31.5 31.1 - 26.1 32.7 32.3 - 26.8 33.9 33.4 - 26.6 32.7 32.1 - 26.3 31.5 30.8 68 - 21.2 27.2 268 - 21.1 276 272 - 21.0 280 27.6 - 199 260 25.5 - 188 24.0 23,4 Net Cael MBH 53.0 48.8 45.0 42.7 55.0 50.7 46.8 44.3 57.1 52.5 48.5 45.9 57.6 53.1 49.0 46.4 58.2 53.6 49.5 46.9 Total Power 6.85 6.74 6.64 6.64 6.99 6.88 6.78 6.78 7.14 7.03 6.93 6.92 7.34 7.22 7.12 7.12 7.54 7.42 7.31 7.31 Input KW 86 36.1 45.1 45.0 42.7 39.9 48.7 46.8 44.3 43.7 52.3 48.5 45.9 46.9 53.0 49.0 46.4 50.1 53.6 49.5 46.9 105°F 0 83 31.8 40.8,44.8 42.6 34.9 44.6 46.7 44.2 37.9 48.4 48.5 45.9 40.3 50.5 49.0 46.4 42.6 52.6 49.5 46.9 U= m 80 27.6 36.5 41.5 39.4 29.8 39.5 44.9 42.6 32.1 42.5 48.3 45.8 33.6 44.6 48.9 46.3 35.2 46.6 49.5 46.9 mEt' 77 23.3 32.2 37.2 35.1 24.8 34.5 39.8 37.5 26.3 36.7 42A 40.0 27.0 37.9 42.2 39.7 27.7 39.2 42.0 39.4 w 74 19.0 28.0 32.9 30.8J 19.7,29.4 34.8 32.5 20.4 30.9 36.6 34.2 20.3 31.3 35.6 33.1 20.3 31.7 34.6 32.0 co71 - 23.7 28.6 26.5, - 24.4 29.7 27.4 - 25.0 30.8 28.3 - 24.6 29.0 26.4 - 24.2 27.1 24.5 68 - 19.4 24.4 22.3 - 19.3,24.6 22.4. - 19.2 24.9 22.5 - 180 223 198 - 16.8 19.7 17.1 Net Cap 48.4 44.7 41.0 36.9 50.5 46.6 42.8 38.5 52.6 48.6 44.6 40.1 52.9 48.8 44.9 40.3 53.2 49.1 45.1 40.5 MBH Total Power 7.56 7.37 7.33 7.27 7.69 7.50 7.46 7.40 7.82 7.63 7.59 7.53 8.05 7.85 7.81 7.75 8.28 8.08 8.03 7.97 Input KW 86 34.6 43.3 41.0 36.9 38.4 45.9 42.8 38.5 42.2 48.6 44.6 40.1 45.2 4B.8 44.9 40.3 48.3 49.1 45.1 40.5 115°F 0 83 30.3 39.1 41.0 36.9 33.3 42.8 42.8 38.5 36.3 46.5 44.6 40.1 38.6 47.8 44.9 40.3 40.8 49.1 45.1 40.5 U= o 0_ 80 26.1 34.8 38.6 34.8 28.3 37.7 41.9 37.8 30.5 40.7 45.2 40.7 31.9 42.6 45.1 40.6 33.4 44.6 45.1 40.5 2,1 roal 77 21.8 30.5 34.3 30.5 23.2 32.7 36.8 32.7 24.7 34.9 39.3 34.9 25.3 36.0 38.5 34.0 25.9 37.1 37.7 33.1 c w 74 17.5 26.2 30.0 26.3 18.2 27.6 31.8 27.7 18.8 29.0 33.5 29.1 18.7 29.4 31.9 27.4 18.5 29.7 30.2 25.6 rmn 71 - 22.0 25.8 22.0 - 22.6 26.7 22.6 - 23.2 27.7 23.2 - 22.7 25.2 20.7 - 22.2 22.8 18.2 68 - 17.7 21.5 17.7 - 17.5 21.7 17.6 - 17.4 21.8 17.4 - 161 186 14.1 - 148 15.3 10.7 Net Cap MBH 43.8 40.5 37.1 31.1 46.0 42.6 38.9 32.7 48.2 44.6 40.7 34.3 48.2 44.6 40.8 34.2 48.2 44.6 40.8 34.2 Total Power 8.30 8.00 8.00 7.90 8.40 8.10 8.10 8.00 8.50 8.20 8.20 8.10 8.80 8.50 8.50 8.40 9.00 8.70 8.70 8.60 Input KW Asn 86 33.1 41.6 37.1 31.1 36.8 43.2 38.9 32.7 40.6 44.8 40.7 34.3 43.5 44.7 40.8 34.2 46.5 44.6 40.8 34.2 125°F $, a2' 83 28.8 37.3 37.3 31.2 31.8 41.0 39.0 32.7 34.7 44.7 40.7 34.3 36.9 4545.240.8 34.2 39.1 45.6 40.8 34.2 V= 0- 80 24.5 33.0 35.7 30.2 26.7 36.0 38.9 32.9 28.9 38.9 42.0 35.6 30.3 40.7 41.4 34.9 31.6 42.5 40.8 34.2 I a m 77 20.3 28.8 31.4 26.0 21.7 30.9 33.8 27.9 23.1 33.1 36.2 29.8 23.6 34.1 34.8 28.3 24.2 35.1 33.3 26.8 :17c w 74 16.0 24.5 27.1 21.7 16.6 25.9 28.8 22.8 17.2 27.2 30.4 24.0 17.0 27.4 28.1 21.6 16.7 27.6,25.9 19.3 co 71 - 20.2 22.9 17.4 - 20.8 23.7 17.8_ - 21.4 24.6 18.2 - 20.8 21.5 15.0 - 20.2 18.4 11.9 68 - 15.9 18.6 13.1 - 15.8 18.7 12.7 - 15.6 18.7 123 - 142 14.8 8.2 - 12.7 10.9 4.4 '=These capacities are net capacities-indoor tan heat deducted. ALL SENSIBLE CAPACITY 12 Unitary Products Group 036-21523-002-A-0503 SIDE SUPPLY AIR BLOWER PERFORMANCE . 208 volts EXTERNAL STATIC PRESSURE IWG MODEL .10 .20 .30 .40 .50 .60 .70 .80 .90 1.00 1.10 NO. MOTOR CO CO CO CO rn CO Co co co co co DYA SPEED E r Er LL r LL K r E K E LL i.. K E r LL K 3 n 3 3 3 3 3 3 3 3 3 3 HI 608 358 465 326 - - 018 MED 695 263 615 246 509 226 LOW 743 243 700 235 657 226 614 218 549 207 483 195 HI 984 443 894 422 751 390 608 358 - - - - 024 MED 994 333 947 321 901 309 854 297 774 280 695 263 615 246 LOW 743 243 700 235 657 226 614 218 HI - - - - 1238 504 1165 484 1075 463 984 443 894 422 751 390 030 MED 994 333 947 321 901 309 854 297 774 280 LOW HI 1465 712 1390 685 1315 657 1204 623 1093 588 982 554 - - 036 MED 1432 650 1381 628 1330 605 1279 583 1210 556 1140 529 1071 502 977 477 LOW 1191 527 1149 510 1107 494 1065 477 1009 459 952 441 HI - - 1681 797 1610 768 1540 740 1465 712 1390 685 1315 657 1204 623 1093 588 - - - - 042 MED 1432 650 1381 628 1330 605 1279 583 1210 556 1140 529 LOW 1191 527 1149 510 1107 494 1065 477 HI 1908 10231832 982 1737 938 1656 889 1348 789 1252 754 - - - - 048,060 MED 1773 894 1726 869 1674 852 1613 832 1339 731 LOW - - - - 1672 841 1610 804 1542 773 NOTE:Above data includes allowances fora dry evaporator coil,gas heat exchanger and no filters.For additional pressure drops,refer to the'Additional Static Pressure Resistance'table. 230, 460 and 575 volts EXTERNAL STATIC PRESSURE-IWG MODEL .10 .20 ,30 .40 .50 .60 .70 .80 .90 1.00 1.10 NO. MOTOR rn w CO CO CO CO CO Cl) W �, N CO SPEED L.L r E r k F k F . r E r E r E r g k g k DYA o lL LL LL li LL u LL 0 tL � 3 ° 3 ° 3 . 3 0 3 � 3 � 3 � 3 � 3 0 � 3 0 3 HI 688 454 568 436 - - 018 MED 706 280 588 257 470 234 - - - - LOW 721 255 651 241 581 226 511 212 HI 929 491 809 473 688 454 - - - - 024 MED - - - - 999 353 944 338 865 319 785 299 706 280 - - - - - - - - LOW 998 372 906 333 813_ 294 721 255 651 241 HI 1200 560 1110 537 1019 514 929 491 809 473 030 MED 1110 383 1055 368 999 353 944 338 865 319 785 299 LOW 998 372 906 333 813 294 HI 1447 754 1360 722 1264 692 1169 663 1073 633 977 603 036 MED - - - - 1483 682 1420 655 1341 625 1262 596 1183 566 1075 534 966 501 - - - - LOW 1384 625 1336 605 1287 584 1239 564 1167 537 1094 509 1022 482 903 460 HI - - - - 1705 847 1622 818 1535 786 1447 754 1360 722 1264 692 1169 663 1073 633 - - 042 MED 1610 735 1547 708 1483 682 1420 655 1341 625 1262 596 1183 566 1075 534 - - - - - - LOW 1384 625 1336 605 1287 584 1239 564 1167 537 1094 509 HI 2094 1152 2010 1117 19081082182010401480 926 1370 890 1220 845 - - 048,060 MED 1955 987 1870 947 1785 914 1690 877 1400 773 1290 744 1160 708 - - LOW - - - - 1893 945 1815 903 1730 868 1640 819 1545 780 1290 695 1180 662 1060 625 - - NOTE:Above data includes allowances for a dry evaporator coil,gas heat exchanger and no filters.For additional pressure drops,refer to the'Additional Static Pressure Resistance'table. Unitary Products Group 13 036-21523-002-A-0503 BOTTOM SUPPLY AIR BLOWER PERFORMANCE 208 volts EXTERNAL STATIC PRESSURE-IWG MODEL .10 .20 .30 .40 .50 _ .60 .70 .80 .90 1.00 1.10 NO. MOTOR rn rn y CO CO to to rn DYA SPEED LL k E k LL k IL I- E r L I L r U k LL I- r 0 3 0 3 O 3 0 3 0 3 0 3 0 3 0 3 HI 547 322 419 293 - - 018 MED 625 237 554 221 458 203 LOW 669 219 630 211 591 204 553 196 494 186 435 176 - - - - - - - - - - HI 886 398 805 380 676 351 547 322 - - - - 024 MED 895 300 853 289 811 278 769 267 697 252 625 237 554 221 - - - - - - - - LOW 669 219 630 211 591 204 553 196 HI - - - - 1115 454 1049 436 967 417 886 398 805 380 676 351 030 MED 895 300 853 289 811 278 769 287 697 252 - - - - - - - - - - - - LOW HI - - - - - - - - 1458 688 1377 663 1295 639 1147 600 999 561 - - - - 036 MED 1482 628 1428 613 1374 599 1320 584 1242 556 1163 528 1085 500 961 474 LOW 1239 510 1184 496 1130 481 1075 467 998 448 922 428 HI - - 1687 763 1614 737 1540 712 1458 688 1377 663 1295 639 1147 600 042 MED 1482 628 1428 613 1374 599 1320 584 1242 556 1163 528 1085 500 LOW 1239 510 1184 496 1130 481 1075 467 HI 192810321844 994 1636 923 1515 888 1441 849 048,060 MED 1805 837 1693 859 1580 819 1473 788 LOW - - - - 1725 850 1660 807 1557 776 1428 728 NOTE:Above data includes allowances for a dry evaporator coil,gas heat exchanger and no fillers.For additional pressure drops,refer to the"Additional Static Pressure Resistance'table. 230, 460 and 575 volts EXTERNAL STATIC PRESSURE-IWG MODEL .10 .20 .30 .40 .50 .60 .70 .80 .90 _ 1.00 1.10_ NO. MOTOR CO CO to 0. .. CO to CO y DYA SPEED LL r- U.. i U.. i tui k tui i tti r u lNF LL r u I- u r E F F 0 < 0 3 0 3 0 < 0 3 C.) 3 0 3 0 < 0 3 0 < a 3 HI 620 409 511 392 - - 018 MED 635 252 529 231 423 LOW 649 230 586 217 523 204 460 191 - - HI 836 442 726 425 620 409 - - - - 024 MED - - - - 899 318 850 304 778 287 707 269 635 252 - - - - - - - - LOW 898 335 815 300 732 265 649 230 586 217 HI 1080 504 999 483 917 463 836 442 728 425 030 MED 999 345 949 331 899 318 850 304 778 287 707 269 LOW 898 335 815 300 732 265 HI 1436 735 1345 705 1189 667 1032 628 - - - - 036 MED - - - - 1490 652 1422 625 1339 602 1257 578 1174 555 1049 526 953 497 - - - - LOW 1387 582 1330 569 1274 555 1217 542 1148 520 1079 497 1010 475 - - - - - - - - HI - - - - 1695 821 1618 796 1527 766 1436 735 1345 705 1189 667 042 MED 1625 707 1557 680 1490 652 1422 625 1339 602 1257 578 1174 555 - - - - - - - - LOW 1387 582 1330 569 1274 555 1217 542 1148 520 1079 497 HI 2068 1151 1985 1118 1758 10341625 992 1555 961 1408 914 1270 872 - - 048,060 MED 1928 998 1806 935 1680 889 1560 854 1448 816 1325 773 1214 735 - - LOW - - - - 1878 924 1786 875 1655 838 1525 786 1440 761 1336 717 1196 679 1097 646 - - NOTE:Above data includes allowances for a dry evaporator cot,gas heal exchanger and no filters.For additional pressure drops,refer to the'Additional Static Pressure Resistance'table. 14 Unitary Products Group 036-21523-002-A-0503 ADDITIONAL STATIC PRESSURE RESISTANCE 1-1/2 THRU 3.1/2 TON (DYA048 AND DYA060) RESISTANCE, IWG DESCRIPTION CFM 500 600 700 800 900 1,000 1,100 1,200 1,300 1,400 1,500 1,600 1,700 1,800 1,900 2,000 Wet Evaporator coil .01 .01 .01 .02 .03 .04 .05 .06 .07 .08 .09 .09 - - - - Economizer .00 .00 .00 .01 .01 .01 .01 .02 .03 .04 .05 .06 - - - - Filter/Frame Kit .01 .02 .04 .06 .08 .10 .13 .16 .17 .18 .19 .20 - - - - NOTE:1.Deduct these resistance values from the available external static pressure shown In the respective Blower Performance Table. 2.The pressure thru the economizer is greater for 100%outdoor air then for 100%return air.If the resistance of the return air duct system is less then 0.25 IWG the unit will deliver less CFM during full economizer operation. 4 AND 5 TON (DYA048 AND DYA060) RESISTANCE,IWG DESCRIPTION CFM 500 600 700 800 900 1,000 1,100 1,200 1,300 1,400 1,500 1,600 1,700 1,800 1,900 2,000 Wet Evaporator Coil - - - - - - - .03 .04 .05 .06 .07 .07 .08 .09 .09 Economizer - - - - - - - .02 .02 .03 .03 .04 .04 .04 .05 .05 Filter/Frame Kit - - - - - - - .04 .05 .05 .06 .07 .08 .09 .10 .11 NOTE:1.Deduct these resistance values from the available external static pressure shown in the respective Blower Performance Table. 2.The pressure thru the economizer Is greater for 100%outdoor air then for 100%return air.If the resistance of the return air duct system Is less then 0.25 IWG the unit will deliver less CFM during full economizer operation. Unitary Products Group 15 036-21523-002-A-0503 i FIELD WIRING DIAGRAM THERMOSTAT UNIT TERMINAL STRIP NOTE: "=Minimum wire size of 18 AWG OlOmer HEAT ANTICIPATORwire should be used for all field SHOULD BE SET AT 0.35AMPS FOR ALL MODELS.j installed 24 volt wire. OPROGRAMMABLEOTHERMOSTAT ONLY�Ole 24 VOLT TRANSFORMER O AIN CONTROL WIRING CONTACTOR CONTACTOR i [ °r � FIELD SUPPLIED �. . FIELD-SUPPLIED 0 0 r DISCONNECT - r Q 0 0 DISCONNECT I L. -i -O-r'S}r> PHASE _ I I I -0-.¢�_ THREE PHASE L - -O- -I--- POWER GROUNDL L i I o-_� POWER GROUND REFER TO ELECTRICAL L J LUG DATA TABLES TO SIZE LUG REFER TO ELECTRICAL L i SUPPLY THE DISCONNECT DATA TABLES TO SIZE THE DISCONNECT POWER WIRING ELECTRICAL DATA VOLTAGE SUPPLY MAX. t COMPRESSOR COND. MAX. MODEL POWER LIMITATIONS FAN AIR MIN. FUSE HACK UNIT TRANSFORMER DYA SUPPLY MOTOR, BLOWER CIRCUIT SIZE BREAKER POWER SIZE(VA)3 MIN. MAX. RLA LRA FLA MOTOR, AMP. AMPS2 SIZE, FACTOR FLA AMPS 018 208/230-1-60 187 253 9.0 48.0 1.1 2.2 14.5 20 20 .96 40 024 208/230-1-60 187 253 11.5 60.0 1.1 2.2 17.7 25 25 .96 40 030 208/230-1-60 187 253 14.7 73.0 1.1 2.2 21.7 30 30 .96 40 036 208/230-1-60 187 253 17.3 94.0 1.1 3.5 26.2 35 35 .96 40 042 208/230-1-60 187 253 20.5 120.0 1.1 3.5 30.2 40 40 .96 40 048 208/230-1-60 187 253 24.4 140.0 1.3 7.0 38.8 _ 50 50 .96 40 060 208/230-1-60 187 253 28.9 175.0 1.3 7.0 44.4 60 60 .96 40 036 208/230-3-60 187 253 10.9 78.0 1.1 3.5 18.2 25 25 .96 75 042 208/230-3-60 187 253 14.1 110.0 1.1 3.5 22.2 30 30 .96 75 048 208/230-3-60 187 253 I 14.1 105 1.3 7.0 25.9 35 35 .96 75 060 208/230-3-60 187 253 15.5 125 1.3 7.0 29.5 40 40 .96 75 036 460-3-60 414 504 5.8 40.0 0.6 1.8 9.6 15 15 .96 75 042 460-3-60 414 504 7.1 54.0 0.6 1.8 11.2 15 15 .96 75 _ 048 460-3-60 414 504 7.1 55.0 0.7 3.5 13.1 20 20 .96 75 060 460-3-60 414 504 8.9 66.5 0.7 3.5 15.4 20 20 .96 75 036 575-3-60 518 630 4.5 32.0 0.4 1.5 7.5 15 15 .96 75 042 575-3-60 518 630 5.8 44.0 0.4 1.5 9.1 15 15 .96 75 048 575-3-60 518 630 5.7 45.0 0.6 2.8 10.5 15 15 .96 75 060 575-3-60 518 630 7.1 50.0 0.6 2.8 12.3 15 15 .96 75 Note;Electrical data based on 104°F outdoor air ambient temperature. =Rated in accordance with ARI Standard 110.utilization range A. 3=Dual element,time delay type. '=II economizer or motorized damper are to be used.75 VA is required.Refer to price pages for future details. 16 Unitary Products Group 036-21523-002-A-0503 4 UNIT DIMENSIONS UNIT DIMENSION SIZE "A" "B" VENT AIR OUTLET HOOD 018 THRU 042 33Y 18Ya BLOWER 048 AND 060 41Y 23% SERVICE ACCESS COMPARTMENT PANEL CONDENSER COIL GAS SUPPLY 1Y<"DIA.HOLE (Yz"NPTI CONNECTION) 11. /iiii... ,...N�A / A UNIT CONDENSATE / 2ye (OVERALL) CONNECTION%"NPTI B (TRAP RECOMMENDED) kw! ti- HIGH3% I \ _It\f �Alio\VOLTAGE CONN. REFRIGERANT 1%"DIA.KNOCKOUT �� CONNECTIONS HIGH VOLTAGE CONN. 4tI IP� N. Ye"DIA.KNOCKOUT �� COMBUSTION AIR GAS SUPPLY 1Ya"DIA.KNOCKOUT INLET LOUVERS B (Yz"NPTI CONNECTION) 1 FRONT 3 z 12% 49Ye LOW VOLTAGE CONN. 47, 1%"DIA.KNOCKOUT x'/e"HOLE (OVERALL) GAS/ELECTRIC CONTROL (OVERALL) SERVICE ACCESS COMPARTMENT PANEL 8/ 19%< HIGH VOLTAGE / All dimensions are in inches.They are CONN.1%z DIA. 11% FRONT subject to change without notice.Certified KNOCKOUT104 dimensions will be provided upon request. GAS SUPPLY 1Ye"DIA.KNOCKOUT � (Y"NPTI CONNECTION) �� ,' SIDE SUPPLY \�\ LOW VOLTAGE CONN. AIR OPENING e. ,,,,mliv,, '� Vee"DIA.KNOCKOUT 14Y' 28% \�j 4 14Yz REAR ` /' CONDENSE- COIL w COIL i= 263a �� : 3% 6 BOTTOM SUPPL ,-� -ice.= SIDE RETURN �� I AIR OPENING AIR OPENING �� %-% \ '', i CONDENSATE � DRAIN Y,"NPTI / 1% �/� `� Q� ` 14Yz i 0;0 15 \ - 3Y 15 15 1% 4 28Ke 1% CLEARANCES 3Yz BOTTOM RETURN Minimum AIR OPENING Front 36" 'Units may be installed on combustible floors made from wood or class A, Back 0" B or C roof covering material. Left Side Filter Access 24" 'Units must be installed Outdoors.Overhanging structures or shrubs should not obstruct condenser air discharge outlet. Ri ht Side 12" NOTE: Below Unit 1 0" A 1'clearance must be provided between any combustible material and the supply air ductwork. Above Unit 2 36"(For Condenser The products of combustion must not be allowed to accumulate Air Dischar a within a confined space and recirculate. Unitary Products Group 17 036-21523-002-A-0503 f TYPICAL APPLICATIONS • TYPICAL SLAB ON GROUND INSTALLATION TO POW R SUPPY CONTROL WIRING FIELD SUPPLIED TO INDOOR DISCONNECT SWITCH THERMOSTAT LOCATED TO REAR OF UNIT RETURN AIR \ DUCT �1� /' SVDUC MR Y/ DUCT A1 TO GAS ''� IP SUPPLY LINE /� � 0 ip, INN\,‘,....... Itp 1 for.,.. MANUAL�\ ��//`. SHUT-OFF VALVE \ 0 TYPICAL ROOF CURB INSTALLATION MA L GAS SHUT-0FF VALVE f� 74 `e 4, /// 1l j DISCONNECT SUPPLIED ' ,;_ � %i MOUNTED \ l ye- SWITCH ON UNIT \ �%/ noun. L I ��7 TO POWER I;IIIIIIIIIII...,0 SUPPL /II 11111111111111111 1j1j1j,„, I TO SUPPLY LINE rr IIII CONTROL WIRING TO INDOOR THERMOSTAT RETURN AIR llvli DUCT SUPPLY AIR DUCT ROOF CURB INSTALLATION ROOF CURB REAR DUCT INSTALLATION Ta a BOTTOM DUCT 11 11 \\ �i� ?�IS �_ a -A / v SLAB ON GROUND -/ / 4/T-_\ INSTALLATION - 11/32 3218 / �21 uw15 \ 18 Unitary Products Group 036-21523-002-A-0503 t ROOF CURB DIMENSIONS (8" roof curb also available) 1 42% 40% 17% 17) 451/8 43% 4 OPENING FOR ' O RETURN AIR DUCT 7 22 -AL * ` A.„ OPENING FOR 1 SUPPLY AIR DUCT 14 `4i 144, O 114i, *61. fr il• Opp. FRONT iNsiiiiiii,...40/e WOOD NAILER INSULATED PANELS RECOMMENDED DUCT SIZE SUPPLY AIR DUCT 17Ye"x 21Yz" RETURN AIR DUCT 17Ye"x 163a" ROOF CURB APPLICATION 3b s "x 1"WIDE GASKETING FOR CURB FRAME 1" i AND ALL DUCT SUPPORT SURFACES pvII I UNIT BASE RAIL UNIT BASE �� COUNTERFLASHING WOOD NAILER ' ----- -------1______- ANT STRIP 8"MIN.ABOVE FINISHED ROOF 14" NSULATION AND ROOFING MATERIAL CURB FRAME ' all19W: I INSULATION Fli ROOF DECK AND ROOFING MATERIAL Unitary Products Group 19 036-21523-002-A-0503 TYPICAL WIRING DIAGRAM (208/230-1-60 POWER SUPPLY) I A I e I I o I I I P I 6 I N I . I B I I. J ELEMENTARY DIAGRAM 04/622t Ilm1 r , OM1-2O SEE PTO! - 1 T3 E1WIAT A DETAIL NITRE 112iH! 2 L2 T2 •A-`_�B_N_II-1 EriETA Izlia n �• w DETAIL'A' \�" 'I T RBI le _a3 •wnD P0z9v23o-111P°`-BB' ft--I • ' `xrAOW . e - 1122/Y —t 1002BC 10B/PR can ik 6 .. .OF IIm`�11I�p r-4 2` 1693a( i e�• ItAT `:`� - CI 205392 •0 B 1 BOA\.O Y_ �ARRDD 202ry )"(§))I O •B, IIDI W I e L L 1 —OH 01 10.N PREP 11. 10 1 nD( IwoiEO __ __ -_ __ _ LID EI roTOR OM U BOi� (OPTIMA/ACCESSORIES,SEE IQIE it S•� 11 OPTIONAL CCH o �K LEADS LR 1352/&( Iv ID3/R FS 004,02 L➢ (SOEEE 1101E 71 ID = Ne S/P CONFIGURATION I a" B00'r I lie (AI n O- o CCH BLK NOTOR IS BLK L1 2.__. TM ~ ( __ WBOS,BR SEE rirtE 71 SC�- 3 6A2-1 � 10B/PN _____—__—__ le O fig CHI) IT O/P CONFIGURATION cam SEE AmEa IloFMOTOR ERN •C3 ET WNW 16 CCH BLK LT nEtT r'\• PFP 23w2 w] 19 20(19rt TI m BLK 0 —� rcNa a7 n 206•u 266 —aoVA v 21 CMI 22 1 2 3 5 6 COMM BOARD SMOGS: - 23 PI 210,a P2 =2 1�51 P3 a iDELOS ION ELREROCWL ONLRGE: 3 SEC � P •i11NR EL 1FCOTOR GLOVER COOL OFF DELAY: 30 SEC K : i • �a 2.... I40002 oLOVER NEAT ON OELAT: 30 SEC a 217n -3WS3- , ICE 30002 GLOVER NEAr_. DELAY:C SEE BELDP)• 20 26 2lA'R VALVE � o 0 S -1 A•� !b SEC 00 SEC 120 SEC IB SEC Ferrma srIr1 • • • • • • - aACF SOJARE INDICATES SNITO(POSITION TYPICAL WIRING DIAGRAM (208/230-3-60 POWER SUPPLY) I A I B I C I 0 I E I F I S I N I J 1 E 1 L 1 ELEMENTARY DIAGRAM -- - IzyfL 1121,197 111 1 u i a 993 �42 I-12 21 2 wuE(yT 20e4e30-36 o • 3 RM IZN,I IIE91031D /'\ E • 6L% 5 w 1CZ IDS•a / •00 q00 :lam: eINOopI_ IOYB( I'WI�Ti` 3lEASEr e T l2 -- ----- NIC) (wnIWL LC¢55011Es-SH IarE i1IF.a.! 61 P I AYW 03T/aP1I101 _■ xozn0 LR0 E2/W•w•EOLR(•FS•r0e9C•LP•1 1ETC [OFart IBI 1 • 7f.J ' s 11 '.YYY HEAT J�A®S� - I 7NZi WaEO A I 1 R __� 401A1L(SEE ME TI T 121 V E'' I.EIW m� 13L -- • ;EAW II ELE L___ 1• • a N 12_ 118 ■W OUP,. 1EMIER TEIPERATLRE @ITRLI IOVRR 1'N.. WIT SIZE REYICE[PGA w- CLOSE MOM.SETPOIHTM:Gµ1 • 3 15 • x TWE LS 1W 6 110 R OIB-03O -__ • • BLS 00, MBE 43 AD I2 __ K216 Ox36•OA3 LS 150 6 120 P ITa- SEE NOTE 6 BW[NEO] IMi ill 6M • ____mimic ___ 12 NEAT I®WW1 1", WA tA(��I �IOYH 3 rWE OS 270 12 -- - IJSA.awA151 ID 021-w2 LS 150 6 1A 9 AID r1 ALS 110 12 C... OEI.2424 RI 3 VIBE ilbR N® T]bR 20 IA 1 wE-WO LS 160 6 130 P i 0 Ar O R ALS 160 12 -- -- 3.011P 6 2E Ix 23 035d2 13 ITS 6 IVS P _edl 12 3 5 Bwl ALS 150 12 CDBPoL 0)08 SEETDI61 21 •TIE 200 16 IAS _B El 216RL I RB CO/0 Mw dd&POSRTRI{: S SEC wB-RA 160 12 _ _ Al8 a CM ONORAT: 3 SEC 25 R35 2T0 12 20d-iR • •ES 211AR ,. ow [([NSW(a0AEC O3EP Lla EA IELAY: AEC 20 OAB EE LS 126 12 155 P 1mn - OLS [IOm!aOE¢IE.Lt Di MAT: L EC MS IS) 12 -- - _YILY—) [NEW(0.w(R IE.LT OFF OfLAY:(SEE ELwI. 27 203r8( _I AmpQQ non 2oyR `� OD SEC PO SEC IA II[ IW SC C10( olroc ' • • • • • • • (LAM%MARE T(OICATE3 Srnw ROf1T]d 20 Unitary Products Group 036-21523-002-A-0503 i TYPICAL WIRING DIAGRAM (460-3-60 POWER SUPPLY) 1 K I . I c I 0 I e I F I 5 I M I , I K 1 L 1 ELEMENTARY DIAGRAM 1:0110.mum swmW:: -- 109f0 C81360111&AA F161P21213: 5IIC I0304 I 3.SA A,n, -I 1:O,Jt Ann Cm Op MAT: 3 SAC 41IF, Ilan KBwIA! ('a 1M8!CO.OM BAY; II AAA KAI CH B.<Y: m SEC ..-1- IIdR x T I 1AQ01 SANER KAI GA 0303 CLEF 16A11• - 3 w E� 0 E� -131k 1)VR • IOKA mFRf "' 1232 OFe ' m ffC KO IO= 1mH MD 1H m• -3A _ II®� •W-1CI Yllwi .--I I O I- e l &4K IDLff IICIICAIES Allw F[61TIw I( AK IIGH Oa m FAN ®. -� I,_ IIRB Ann 4 I w" 471, • .GF I�q� S CAR00. I� - 1'�. ze m,e0 10 a FEAT [�--LI�MI' c L m3/w U III I)nv o_IIPrOVL KG_SIDRIES-SEE E-)>� y.•F L__!, 1� m•� 1 L4 M FS LP ¢F QM Fa �� 1 L--- L I Id 13 - AA ® AA2_1-8C gam mg an A 0, 10 la L e EK IOIR I~ ---mvw 0- LEAro -- ----- IS 1EI4930.160 COMAS - e 1 &+INII IS WIT SIZE LEYRE CM S-TTOCLOSE - N 3 AKMrt ��_ 2v� gal RS la 12 ••- - iG ISFE m1ES )O01W Il 51[h03] IS 1.0 5 IIO B IK 3.. II).W 5.5 NO All IMT) Am $I -.• 106Mf ALS MO 12 -- - [ MAIL A 0 SLOW 1 ti r., 03EOLx LS MO fi 1m - "BED tlA) 19 4S 160 13 --- Q 3 11H R EO 12 20@I-nx LS Km fi In 968 R KO Y 4S In 12 PEAT Ii103 tam MI R II °I KY^�I M] IIQ.- IC9R] 16 n 200 Iz 21 5 Z LS le0 . In a - ___ IG IR ••' •r] a ALS ISO 12 - - RI IwN 6 Z75 12 - - 21273MIR v� II6W 201053 r a 'QE-d2 LS 15 50 5 IAS a ^hr---�.:fl,,xJ'T' 2. 4f Im 12 _ ___ ® _ sec VA 21 of 2 0 l2 - - y n n n /LrY 3. )O•0 5 24 O(o--OW Lf IA fi MS 9 T 2 3 5 0 A/ '�/30IMO --_- 3 4S Im 12 - -- % 22 �p f71 F3 • no 12 -- - 2109. _ __ s R0E LS IB5 12 155 B '25 w4lW 3CbR • •zI1M! - - AL as mlry - ..33A33.44) __ 305.13 _VALVE 20 `� 109R A • • • • • • m TYPICAL WIRING DIAGRAM (575-3-60 POWER SUPPLY) I A I B i C I 0 I E I F I 4 I N I , I s I L 1 ELEMENTARY DIAGRAM man.BOARD0ETT-0S: - 10330 Cl001 7 Art OY POA.Sa O POST PLACE:I 5 SE[ I 'FE I _I MICR&PIA CO.GI pm..1Y: 3 SEC L0(4 JJJ��3 INDOOR&A81 OXL OFF Gael 30 SEC GWG4 1ITLN 2 TIEASETAI 1133161&wA PEAT IM IELKV: 30 SEC 106N0 11CC000w ALNG[WO 6i p IEJ �..LL, 1 SEE BELIM)• xl 1,,s!!50 14113 • w �� IIJ Ie�Le SIMY----' ...i3� MAN 1223a F052S1fi0 MCISO SEC 113 SEC F41AV 573-3-03 \,•^(0 5 SE1Iht Imo".II 0 I2YV 3� . Y • BLACK SMAVE 043ICATEI 351101 RAISIN &K fir -7 1109( 13 O FM 3 IL. IIIVflC 105.9E T/I0 Bem Is]S-0J COIL iilli pl q4 S coamg FL1 I'NA 5 4 Ie WARD -- -- -- ----- - IIII"•E•LI'NL•F•L" iel C OLBR MI m)B (IPrIGYI KCESS@]ES-SEE INE)) 3F.•F CFF 16Ar arm `h I0 Y r._ mNY I IR IP n IY SEE ROTE l) L-- I-I I 4G C I 11 I ,J� L l0c z I L---...Li 03 BLK ® I L _f1 19El 0 1' WI/&ME MOTE)) SCjS 13 L l_!— RP' 1 WISED AA 11137012 231-16J /111U pA Iti I 1ETAATIRE 031TImLS 0 LEA 15 S. MM.5E19111.1'I SELF) - I I U.K<MI) RS &VM1i l0 01 LS _Im008 l0 110 9 i 2a_, I SEENMI FLU(MEW Im9TFCR Im3m6-WI] ALs Im I2 __ ___ !_loa 11)Mt 5.A[LR 0OA S'IS-1-W1qp &'eLY11ItipIB 03&BIILS ISO 6 IA RA G _ • INAR GB(SwwO mGl1 )IB BS 370 12 -- - —y 3 Tw5 LS 1O 0 130 0 OL Ix� 14—W0 v I 10B.2R m OM42 ALS Im 12 __ __ U R IIYw MI R M3 w K3 14 11E9 Iin BS 2W l2 Ill 1119. 21 p LS IM 0 1m 0 31 X2 ^^ �10301 a- ll)hV IIBM! 500E RIJ a Rf 2)O l3 ___ ___ FM I -IO r I-- _ 03 p2 LS 175 0 1.5 9 I m192 • �I zl ks 00 Vat N 8- K 200 lz __ __ • 1 212N SB.r^ • z-9•B n .55" LS I75 0 -- 9 3.0 My k3 IW l2 35 - fG a0 l2 __ ___ °1 210BL "3 BUJ 5 SLOE Ls IB5 12 155 0 0Y, �V-3 m-ryq IIRC M 2, AL. - 25 T m)/Y (soIC'LY n o ) 111 - z- •me u 20[i8 •S 213R YLS 205KR LS 29 30 Unitary Products Group 21 036-21523-002-A-0503 TYPICAL WIRING DIAGRAM NOTES (See pages 20 and 21) NO 1. ALL FIELD WIRING TO BE ACCOMPLISHED FOLLOWING CITY, LOCAL AND/DR NATIONAL CODES IN EFFECT AT TIME OF INSTALLATION OF THIS UNIT. 2. CAUTION: LABEL ALL WIRES PRIOR TO DISCONNECTION WHEN SERVICING CONTROLS. WIRING ERRORS CAN CAUSE IMPROPER AND DANGEROUS OPERATION. IF ANY OF THE WIRE AS SUPPLIED WITH THIS UNIT MUST BE REMOVED, IT MUST BE REPLACED WITH TYPE 105' C, 600V WIRE DR EQUIVALENT CLEARLY RENUMBERED FOR IDENTIFICATION. VERIFY PROPER OPERATION AFTER SERVICING. 3. MOTORS ARE INHERENTLY PROTECTED. 4. SEE UNIT NAMEPLATE FOR MAXIMUM FUSE SIZE AND MINIMUM CIRCUIT AMPACITY. 5. UNIT FACTORY WIRED FOR LOW OR MEDIUM SPEED INDOOR BLOWER OPERATION. TO CHANGE MOTOR SPEED, CONNECT SPEED TAP WIRES FROM INDOOR BLOWER MOTOR PER DETAIL B. TAPE UNUSED SPEED TAP WIRES TO PREVENT SHORTING AND SECURE NEAR M2 CONTACTOR. 6. SELECT INDOOR BLOWER SPEED TO REMAIN WITHIN THE TEMPERATURE RISE RANGE ON THE NAMEPLATE IN HEATING AND TO OBTAIN APPROX 400 CFM/TON IN COOLING, 7. IF BOTH LR AND ASCT ARE PRESENT, WIRE B01/BL AND 805/BL ARE CONNECTED TO ASCT-3, IF LR ONLY IS PRESENT, WIRE 801/BL AND 805/BL ARE CONNECTED TO M1 COIL. IF ASCT ONLY IS PRESENT WIRE 202/Y IS CONNECTED TO ASCT-3, IF NEITHER LR OR ASCT ARE PRESENT, WIRE 202/Y IS CONNECTED TO M1 COIL. B. SHUNT CONTACT ALSO USED WITH CRANKCASE HEATER. (OPTIONAL) CAUTI❑N - OPEN ALL DISC❑NNECTS BEFORE SERVICING THIS UNIT TYPICAL WIRING DIAGRAM LEGEND (See pages 20 and 21) CCH CRANKraCF HEATER(OPTIONAL) MI CONTACTOR, COMPRESSOR & OUTDOOR FAN M2 CONTACTOR, INDOOR BLOWER MOTOR (230V COIL) T2 TRANSFORMER, 240 VOLT, SECONDARY TI TRANSFORMER, 24 VOLT. SECONDARY RCL/RC2 COMPRESSOR START & OUTDOOR FAN RUN CAPACITOR RCI COMPRESSOR START CAPACITOR (ALTERNATE) RC2 OUTDOOR FAN RUN CAPACITOR(ALTERNATE) RC3 INDOOR FAN RUN CAPACITOR C8 CIRCUIT BREAKER, 3.0 AMP COMPR COMPRESSOR HSP HOT SURFACE TO PILOT LS LIMIT SWITCH ALS AUXILARY LIMIT SWITCH PS PRESSURE SWITCH - MAKES a .193 IWC NOM ( .33 IWC MAX) RS ROLLOUT SWITCH HUM HUMIDIFIER RELAY OUTPUT ON CONTROL BOARD, 20B/230-1-60, 1BVA MAX EAC ELECTRONIC AIR CLEANER RELAY OUTPUT ON CONTROL BOARD, 20B/230-1-60. 18VA MAX HP HIGH PRESSURE SWITCH (OPTIONAL ACCESSORY)- OPEN a 380 PSIG FS FREEZESTAT SWITCH (OPTIONAL ACCESSORY) OPEN a 25'F LP LOW PRESSURE SWITCH (OPTIONAL ACCESSORY) OPEN e 7 PSIG LR LOCK OUT RELAY (OPTIONAL ACCESSORY) ASCT ANTI-SHORT CYCLE TIMER (OPTIONAL ACCESSORY) ® IDENTIFIED TERMINAL ON RUN CAPACITOR A ROOM THERMOSTAT 24V CONNECTIONS ❑ TEl ON CONTROL BOARD FACTORY WIRING ANO DEVICES —--— OPTIONAL WIRING ANO DEVICES FIELD WIRING CNI/PI SOCKET/PLUG CONNECTION. 24V, 6 PIN ON CONTROL BOARD S2/P2 SOCKET/PLUG CONNECTION, 24V, 4 PIN ON GAS VALVE S3/P3 SOCKET/PLUG CONNECTION, 24V, 4 PIN ON GAS VALVE S4/P4 SOCKET/PLUG CONNECTION, 230V, 2 PIN IN CONTROO. 80X 22 Unitary Products Group 036-21523-002-A-0503 I WIRING DIAGRAM DETAIL "A" WIRING DIAGRAM DETAIL "B" (208/230-1-60 POWER SUPPLY) See page 20 (460 &575-3-60 POWER SUPPLY) See page 21 PTCR Il I/R 112/BR LOW SPEED MED SPEED HI SPEED ]RCI (MI-Ti) 101/0K BLK (HI) - BLK (HI) - (IR-il)BLK (HI) (MI-TI) _0103/BR O COMPR (MI-rz) IDz/Y 0 1 �' BLK/WHI ❑ 1(BLK/WHT ° BLK/WHT ❑ ❑ 0 ,- I05/R (WITH ALTERNATE ID (MED) BUJ (MED)z BLD (MED f CAPACITORS ONLY) Q !I!1-i11 Q Q RC2 1(BLD/WHT a ll'IC I DLD/WHT 'I BLD/WHT `L BK � � / ❑p FAN\ 0 ! 0 0 l04/R 0) I O BR I MOTOR R ( V J RED (LOW) UU// RED (LOW) RED (LOW LOW PR �� (M2 it l _ . i _ DETAIL 'A' `l 036 - 060 UNIT WIRING Unitary Products Group 23 It tpzmsoro .„ DESIGN, EFf ICIENCV 4P� w ��` L: tfi: 43 0 F dd0REGIS1X` Subject to change without notice. Printed in U.S.A. Copyright®by Unitary Products Group 2003.All rights reserved. 036-21523-002-A-0503 Unitary 5005 Norman Supersedes:036-21523-001-A-0203 Products York Oklahoma Group Drive 73069 etw mu RECEIVED JUL232021 ..;_ CI OF r IGAMJ BUiE D1Ne n IlS'Ot :,\-7-4 Ar- ,sue..- 4. -X �► 10 ..\ 1 . • A. litok SA A r' 135451 . r '' i i - ,..., rfor. it . ,„ . . .. ii .., P......,-...-0. 6 Illt 0 4-i.4.11 y� f 4 it CITY OF TIGARD ' ' ' ,,,4,',.,:;* ,. 0,,,,,,, Ti,:, lgst$: !Pl.':+12,_,— 4 .; 1r . " ' pproved y Planning X 13545 SW Pacific Hwy Building