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[Page Too Large for OCR Processing] ICP s W 72 Az( Ave_ B5 COMcheck Software Version 3.9.0 Mecha Comp Certificate , Oregon Energy Efficiency Specialty Code Section 1: Project Information Project Type: New Construction Project Title : Piedmont Vacancy Construction Site: Owner /Agent: Designer /Contractor: 16444 SW 72nd Ave Gohman Mechanical, Inc. Tigard, OR 97224 14505 SE Hwy 212 Clackamas, OR 97015 503 - 658 -1892 • Section 2: General Information Building Location (for weather data): Tigard, Oregon Climate Zone: 4c Section 3: Mechanical Systems List Quantity System Type & Description • 1 HVAC System 1 (Single Zone) : Heating: 1 each - Central Furnace, Gas, Capacity = 40 kBtu /h, Efficiency = 80.00% Et Cooling: 1 each - Rooftop Package Unit, Capacity = 28 kBtu /h, Efficiency = 13.50 SEER, Air - Cooled Condenser Section 4: Requirements Checklist In the following requirements, the relevant code section reference is shown in (I. ' +' denotes that more details exist in the specified code section. Checkboxes identify requirements that the applicant has not acknowledged as being met. Check marked requirements identify those the applicant acknowledges are met or excepted from compliance. 'Plans reference page /section' identifies where in the plans/specs the requirement can be verified as being satisfied. Requirements Specific To: HVAC System 1 : 7 1. [503.2.3 +] Equipment meets minimum efficiency: Central Furnace (Gas): 80.00 % Et (or 78% AFUE) ✓ 2. [503.2.3 +] Equipment meets minimum efficiency: Rooftop Package Unit: 13.00 SEER D 3. [503.2.6 +] Energy recovery ventilation systems. Individual fan systems that have both a design supply air capacity of 5,000 cfm or greater and a minimum outside air supply of 70 percent or greater of the design supply air quantity have an energy recovery system. Exception(s): Where energy recovery systems are prohibited by the International Mechanical Code. L] Systems serving spaces that are not cooled and are heated to less than 60 °F. L] Where more than 60 percent of the outdoor heating energy is provided from site - recovered or site solar energy. ❑ Type 1 kitchen exhaust hoods. ❑ Cooling systems in climates with a 1 - percent cooling design wet - bulb temperature less than 64 °F (18 °C). L] Systems requiring dehumidification that employ series - style energy recovery coils wrapped around the cooling coil when the evaporative coil is located upstream of the exhaust air stream. 3 Systems exhausting toxic, flammable, paint exhaust, corrosive fumes, or dust. L) Laboratory fume hood systems that include qualifying features. Plans reference page /section: NA Generic Requirements: Must be met by all systems to which the requirement is applicable: 1. [503.2.1 +] Calculation of heating and cooling loads. Design loads are determined in accordance with the procedures described in the ASHRAE /ACCA Standard 183. Alternatively, design loads have been determined by an approved equivalent computation procedure. Project Title: Piedmont Vacancy Report date: 02/23/12 Data filename: Untitled.cck Page 1 of 5 ✓ 2. [503.2.1.1 +] Packaged Electric Equipment. Specified packaged electrical equipment has a heat pump as the primary heating source. Requirement is not applicable. Plans reference page /section: • 3. [503.3.1] Cooling equipment economizers: The total capacity of all units without economizers shall not exceed 240 kBtu /hr per building area served by one utility meter or service, or 10 percent of its total installed cooling capacity, whichever is greater. For this project the total capacity of all cooling equipment without economizers must be less than 240 kBtu /h. This project lists 28 kBtu /h capacity without • economizers. That portion of the equipment serving dwelling units and guest rooms is not included in determining the total capacity of units without economizers. Plans reference page /section: • 4. [503.2.2 +] Equipment and system sizing. Heating and cooling equipment and systems capacity do not exceed the loads calculated in accordance with Section 503.2.1. Plans reference page /section: ✓ 5. [503.2.3 +] HVAC Equipment Performance Requirements. Reported efficiencies have been tested and rated in accordance with the applicable test procedure. The efficiency has been verified through certification under an approved certification program or, if no certification program exists, the equipment efficiency ratings are supported by data furnished by the manufacturer. • 6. [503.2.4.1 +] Thermostatic Controls. The supply of heating and cooling energy to each zone is controlled by individual thermostatic controls that respond to temperature within the zone. • Plans reference page /section: U 7. [503.2.4.1.1] Heat pump supplementary heat. Heat pumps having supplementary electric resistance heat have controls that, except during defrost, prevent supplementary heat operation when the heat pump can meet the heating load. Plans reference page /section: N/A ✓ 8. [503.2.4.2] Set point overlap restriction. Where used to control both heating and cooling, zone thermostatic controls provide a temperature range or deadband of at least 5 °F (2.8 °C) within which the supply of heating and cooling energy to the zone is capable of being shut off or reduced to a minimum. Plans reference page /section: ✓ 9. [503.2.4.3] Optimum Start Controls. Each HVAC system has controls that vary the start-up time of the system to just meet the temperature set point at time of occupancy. Plans reference page /section: • 10. [503.2.4.4 +] Off-hour controls. Each zone is provided with thermostatic setback controls that are controlled by either an automatic time clock or programmable control system. Plans reference page /section: ✓ 11. [503.2.4.5 +] Shutoff damper controls. Both outdoor air supply and exhaust are equipped with not less than Class I motorized dampers. Plans reference page /section: • 12. [503.2.4.6 +] Freeze Protection and Snow melt system controls. Freeze protection systems, such as heat tracing of outdoor piping and heat exchangers, including self - regulating heat tracing, include automatic controls capable of shutting off the systems when outdoor air temperatures meet code criteria. Plans reference page /section: N/A U 13. [503.2.4.8] Separate air distribution systems. Zones with special process temperature requirements and /or humidity requirements are served by separate air distribution systems from those serving zones requiring only comfort conditions: or shall include supplementary control provisions so that the primary systems may be specifically controlled for comfort purposes only. Exception(s): U [503.2.4.8 +] Zones requiring only comfort heating or comfort cooling that are served by a system primarily used for process temperature and humidity control. Plans reference page /section: N/A U 14. [503.2.4,9] Humidity control. If a system is equipped with a means to add or remove moisture to maintain specific humidity levels in a zone or zones, a humidity control device is provided. Plans reference page /section: N/A U 15. (503.2.4.9.1] Humidity control. Where a humidity control device exists it is set to prevent the use of fossil fuel or electricity to produce relative humidity in excess of 30 percent. Where a humidity control device is used for dehumidification, it is set to prevent the use of fossil fuel or electricity to reduce relative humidity below 60 percent. • Project Title: Piedmont Vacancy Report date: 02/23/12 Data filename: Untitled.cck Page 2 of 5 Exception(s): LI Hospitals, process needs, archives, museums, critical equipment, and other non - comfort situations with specific humidity requirements outside this range. Plans reference page /section: N/A • 16. [503.2.4.9.2] Humidity control. Where a humidity control device exists it is set to maintain a deadband of at least 10% relative humidity where no active humidification or dehumidification takes place. Exception(s): CI Heating for dehumidification is provided with heat recovery or heat pumping and the mechanical cooling system efficiency is 10 percent higher than required in section 503.2.3, HVAC equipment performance requirements. Plans reference page /section: N/A • 17. [503.2.5] Ventilation. Ventilation, either natural or mechanical, is provided in accordance with Chapter 4 of the International Mechanical Code. Where mechanical ventilation is provided, the system has the capability to reduce the outdoor air supply to the minimum required by Chapter 4 of the International Mechanical Code. Plans reference page /section: ❑ 18. [503.2.5.1 +] Demand controlled ventilation (DCV). DCV is required for spaces larger than 500 ft2 for simple systems and spaces larger than 150 ft2 for multiple zone systems. Exception(s): LI Systems with energy recovery complying with Section 503.2.6 (] Spaces less than 750 ft2 (69.7 m2) where an occupancy sensor turns the fan off, closes the ventilation damper, or closes the zone damper when the space is unoccupied. Plans reference page /section: N/A LI 19. [503.2.5.2 +] Kitchen hoods. Kitchen makeup is provided as required by the Oregon Mechanical Specialty Code. Exception(s): LI Where hoods are used to exhaust ventilation air that would otherwise be exhausted by other fan systems. J Kitchen exhaust systems that include exhaust air energy recovery complying with section 503.2.6. Plans reference page /section: N/A D 20. [503.2.5.3 +] Enclosed parking garage ventilation controls. In Group S -2, enclosed parking garages used for storing or handling automobiles employs automatic carbon monoxide sensing devices. • Plans reference page /section: N/A • 21. [503.2.7 +] Duct and plenum insulation and sealing. All supply and return air ducts and plenums are insulated with the specified insulation. When located within a building envelope assembly, the duct or plenum is separated from the building exterior or unconditioned or exempt spaces by a minimum of R -8 insulation. All ducts, air handlers and filter boxes are sealed. Joints and seams comply with Section 603.9 of the International Mechanical Code. ✓ 22. [503.2.7.1.1 +] Low - pressure duct systems. All longitudinal and transverse joints, seams and connections of low- pressure supply and return ducts are securely fastened and sealed with welds, gaskets, mastics (adhesives), mastic -plus- embedded - fabric systems or tapes installed in accordance with the manufacturer's installation instructions. Plans reference page /section: ❑ 23. [503.2.7.1.2 +] Medium - pressure duct systems. All ducts and plenums designed to operate medium - pressure are insulated and sealed in accordance with Section 503.2.7. Pressure classifications specific to the duct system are clearly indicated on the construction documents. Plans reference page /section: N/A Li 24. [503.2.7.1.3 +] High - pressure duct systems. Ducts designed to operate at high - pressure are insulated and sealed in accordance with Section 503.2.7. In addition, ducts and plenums are leak- tested in accordance with the SMACNA HVAC Air Duct Leakage Test Manual. Plans reference page /section: N/A ✓ 25. [503.2.9.1 +] Air system balancing. Each supply air outlet and zone terminal device is equipped with means for air balancing in accordance with the requirements of IMC 603.17. Discharge dampers intended to modulate airflow are prohibited on constant volume fans and variable volume fans with motors 10 horsepower. Plans reference page /section: • ✓ 26. [503.2.9.3 +] Manuals. The construction documents require that an operating and maintenance manual be provided to the building owner by the mechanical contractor. See long description for specifications. Plans reference page /section: • Project Title: Piedmont Vacancy Report date: 02/23/12 Data filename: Untitled.cck Page 3 of 5 ❑ 27. [503.2.10 +] Air System Design and Control. Each HVAC system having a total fan system motor nameplate hp exceeding 5 hp meets the provisions of Sections 503.2.10.1 through 503.2.10.2. Plans reference page /section: N/A ✓ 28. [503.2.10.1 +] Allowable fan floor horsepower. Each HVAC system at fan system design conditions does not exceed the allowable fan system motor nameplate hp (Option 1) or fan system bhp (Option 2) as shown and calulated in requirement details. Plans reference page /section: ❑ 29. [503.2.10.2 +] Motor nameplate horsepower. For each fan, the selected fan motor is no larger than the first available motor size greater than the brake horsepower (bhp). Exception(s): ❑ For fans less than 6 bhp, where the first available motor larger than the brake horsepower has a nameplate rating within 50 percent of the bhp, selection of the next larger nameplate motor size is allowed. ❑ For fans 6 bhp and larger, where the first available motor larger than the bhp has a nameplate rating within 30 percent of the bhp, selection of the next larger nameplate motor size is allowed. Plans reference page /section: N/A ❑ 30. [503.2.10.3.1] Large Volume Fan Systems. Fan systems over 8,000 (7 m3 /s) cfm without direct expansion cooling coils that serve single zones reduce airflow based on space thermostat heating and cooling demand. A two -speed motor or variable frequency drive reduces airflow to a maximum 60 percent of peak airflow or minimum ventilation air requirement as required by Chapter 4 of the International Mechanical Code, whichever is greater. Exception(s): ❑ Systems where the function of the supply air is for purposes other than temperature control, such as maintaining specific humidity levels or supplying an exhaust system. Plans reference page /section: N/A ❑ 31. [503.2.10.3.2 +] All air - conditioning equipment and air - handling units with direct expansion cooling and a cooling capacity at ARI conditions greater than or equal to 110,000 Btu /h that serve single zones have their supply fan operation controlled according to code specific requirements. Exception(s): ❑ Systems where the function of the supply air is for purposes other than temperature control, such as maintaining specific humidity levels or supplying an exhaust system. Plans reference page /section: N/A 0 32. [503.2.10.4] Series fan - powered terminal unit fan motors. Fan motors for series fan - powered terminal units are electronically- commutated motors and have a minimum motor efficiency of 70 percent when rated in accordance with NEMA Standard MG 1 -2006 at full load rating conditions. Plans reference page /section: N/A ❑ 33. [503.2.12] Hot Gas Bypass Limitation. For cooling systems <= 240 kBtu /h, maximum hot gas bypass capacity is no more than 50% total cooling capacity. Plans reference page /section: N/A Section 5: Compliance Statement Compliance Statement: The proposed mechanical design represented in this document is consistent with the building plans, specifications and other calculations submitted with this permit application. The proposed mechanical systems have been designed to meet the Oregon Energy Efficiency Specialty Code requirements in COMcheck Version 3.9.0 and to comply with the mandatory requirements in the Requirements Checklist. Name - Title Signature Date Section 6: Post Construction Compliance Statement L ] HVAC record drawings of the actual installation, system capacities, calibration information, and performance data for each equipment provided to the owner. ❑ HVAC O &M documents for all mechanical equipment and system provided to the owner by the mechanical contractor. • Written HVAC balancing and operations report provided to the owner. The above post construction requirements have been completed. Project Title: Piedmont Vacancy Report date: 02/23/12 Data filename: Untitled.cck Page 4 of 5 Principal Mechanical Designer -Name Signature Date Project Title: Piedmont Vacancy Report date: 02/23/12 Data filename: Untitled.cck Page 5 of 5 `. :ES -A 'omfortT' 13 SEER Single- Packaged Air Conditioner Carrier and Gas Furnace System with Puron® (R -410A) Refrigerant — - • Single and Three Phase turn to the experts 2 to 5 Nominal Tons (Sizes 24 -60) .M CZ ®f Z- o © QLf Product Data ,F Innovative Unit Base Design (Oat On the inside a high -tech composite material will not rust and III ---:--.- _----1----T � � incorporates a sloped drain pan wh(ch improves drainage and helps inhibit mold, algae and bacterial growth. On the outside metal base 1 �lii rails provide added stability as well as easier handling and rigging. �I Convertible duct configuration IIJ Clo iiwo 1�r001 Unit is designed for use in either downflow or horizontal applications. Each unit is converted from horizontal to downflow and includes horizontal duct covers. Downflow operation is provided in the field to allow vertical ductwork connections. The basepan seals on the bottom openings to ensure a positive seal in the vertical airflow mode. Efficient operation High - efficiency design offers SEER O (Seasonal Energy Efficiency Ratios) of up to 13.5 and AFUE (Annual Fuel Utilization Efficiency) ratings as high as 80.4 %. Energy - saving, direct spark ignition saves gas by operating only when the room thermostat calls for heating. Standard units are furnished with natural gas controls. A low -cost field installed kit for propane conversion is available for all units. A09034 48ESN units are dedicated Low NOx units designed for Fig. 1 - Unit 48ES -A California installations. These models meet the California maximum oxides of nitrogen (NOx) emissions requirement of 40 nanograms /joule or less as shipped from the factory and MUST be Single- Packaged Products with Energy - Saving Features and installed in California Air Quality Management Districts and ' Puron refrigerant. wherever a Low NOx rule exists. • Up to 13.5 SEER Durable, dependable components Compressors are designed • Up to 80.4% AFUE for high efficiency. Each compressor is hermetically sealed against • Factory - Installed TXV contamination to help promote longer life and dependable • ECM Motor - Standard operation. Each compressor also has vibration isolation to provide quieter operation. All compressors have internal high pressure and • Direct Spark Ignition overcurrent protection. • Low Sound Levels Monoport inshot burners produce precise air -to -gas mixture, • Dehumidification Feature which provides for clean and efficient combustion. The large FEATURES /BENEFITS monoport on the inshot (or injection type) burners seldom, if ever, One -piece heating and cooling units with low sound levels, easy requires cleaning. All gas furnace components are accessible in one installation, low maintenance, and dependable performance. compartment. Puron Environmentally Sound Refrigerant is Carrier's unique Turbo- tubular"" heat exchangers are constructed of aluminized refrigerant designed to help protect the environment. Puron is an steel for corrosion resistance and optimum heat transfer for HFC refrigerant which does not contain chlorine that can harm the improved efficiency. The tubular design permits hot gases to make ozone layer. Puron refrigerant is in service in millions of systems, multiple passes across the path of the supply air. proving highly reliable, environmentally sound performance. In addition, dimples located on the heat exchanger walls force the Easy Installation hot gases to stay in close contact with the walls, improving heat Factory - assembled package is a compact, fully self- contained, transfer. combination gas heating/electric cooling unit that is prewired, ECM Motor is standard on all 48ES -A models. pre - piped, and pre- charged for minimum installation expense. Direct -drive PSC (Permanent Split Capacitor) condenser -fan These units are available in a variety of standard and optional motors are designed to help reduce energy consumption and heating/ cooling size combinations with voltage options to meet provide for cooing operation down to 40 °F (4.4 °C) outdoor residential and light commercial requirements. Units are temperature. Motormastera II low ambient kit is available as a lightweight and install easily on a rooftop or at ground level. The field- installed accessory. high tech composite base eliminates rust problems associated with Thermostatic Expansion Valve - A hard shutoff, balance port ground level applications. TXV maintains a constant superheat at the evaporator exit (cooling cycle) resulting in higher overall system efficiency. 1 Refrigerant system is designed to provide dependability. Liquid Horizontal metal duct covers are standard with insulation come filterdriers are used to promote clean, unrestricted operation. Each with the unit and cover the horizontal duct openings. These can be udit leaves the factory with a full refrigerant charge. Refrigerant left in place if the units are converted to downflow. service connections make checking operating pressures easier. Integrated Gas Control (IGC) board provides safe and efficient High and Low Pressure Switches provide added reliability for the control of heating and simplifies trouble- shooting through its compressor. built -in diagnostic function. Indoor and Outdoor coils are computer- designed for optimum Cabinets are constructed of heavyduty, phosphated, zinc - coated heat transfer and efficiency. The indoor coil is fabricated from prepainted steel capable of withstanding 500 hours in salt spray. copper tube and aluminum fins and is located inside the unit for Interior surfaces of the evaporator/heat exchanger compartment are protection against damage. The outdoor coil is internally mounted insulated with cleanable semi -rigid insulation board, which keeps on the top tier of the unit. Copper fin coils and pre - coated fin coils the conditioned air from being affected by the outdoor ambient are availabits from the factory by special order. These coils are temperature and provides improved indoor air quality. (Conforms f recommended in applications where aluminum fins are likely to be to American Society of Heating, Refrigeration and Air damaged due to corrosion. They are ideal for seacoast applications. Conditioning Engineers 62.2.) The sloped drain pan minimizes Low sound ratings ensure a quiet indoor and outdoor standing water in the drain. An external drain is provided. environment with sound ratings as low as 75dBA. Easy to service cabinets provide easy 3 -panel accessibility to serviceable components during maintenance and installation. The t/) basepan with integrated drain pan provides easy ground level m installation with a mounting pad. A nesting feature ensures a positive basepan to roof curb seal when the unit is roof mounted. A convenient 3 /4 -in. (19.05 mm) wide perimeter flange makes frame mounting on a rooftop easy. ' TABLE OF CONTENTS Features /Benefits 1 -2 Model Number Nomenclature 3 AHRI Capacities 4 Physical Data 5 -6 Options and Accessories 7 Base Unit Dimensions 9 -10 Accessory Dimensions 11 Selection Procedure 12 Performance Data 13 -29 Typical Piping and Wiring 30 • Application Data 31 Electrical Data 32 Typical Wiring Schematics 33 -38 Controls 39 Guide Specifications 40 -41 2 T MODEL NUMBER NOMENCLATURE 48ES - A 24 040 3 0 - - Type of Unit Options 48ES - Single Packaged Gas Heating /Electric FE - Economizer (3 -Phase only) Cooling Unit GP -Tin plated indoor coil hairpins and Stainless Steel HX (Single Phase Only) GS - Stainless Steel HX SE - Stainless Steel HX and Economizer (3 -Phase Low 10x Indicator only) - Standard TP - Base unit with tin plated indoor coil hairpins N - Low NOx (Single Phase Only) See Price Page for full list of factory options Only used if ordering an option Major Senes Nominal Cooling Capacity 24 - 2.0 Tons Minor Series 1 30- 2.5Tons 38 - 3.0 Tons f� 42- 3.5 Tons w 48- 4.0 Tons 03 80- 5.0 Tons .z7 Electrical Supply Heat Input Size (Btuh) 3 - 208/230 040 - 40,000 5 - 208/230 - - 60 4 080 - 60,000 0 6 - 460 090 - 90,000 115 - 115,000 130 - 130,000 GAS -FIRED ,ti °; CERTIFIED A S H R A E Use of the AHRl Certieed TM Mark indicates a C US C o US p rtc n drtM hind in the COMPLIANT program For red canon oI certitcatan for .ndry dual LISTED LISTED p e. gO tu hriduectory org • 3 AHRI* CAPACITIES - Cooling Capacities and Efficiencies UNIT 48ES -A NOMINAL TONS STANDARD CFM NET COOLING EER" SEERt CAPAMTIES (Btuh) 800 iza .8 r p PZ W2M :. - 5 gmlitasomlimIllIMIMIMMI=MUUMMI . LEGEND Notes: !r• dB - Sound t•evels (decibels) 1. Ratings are net values, reflecting the effects of circulating fan heat. db-Dry Bulb Ratings are based on: SEER - Seasonal Energy Efficiency Ratio Cooling Standard: 80•F (26.7 °C) db, 67•F wb (19.4 °C) indoor entering -air wb -Wet Bulb temperature and 95•F db (35 °C) outdoor entering -air temperature. COP - Coefficient of Performance 2. Before purchasing this appliance, read important energy cost and effi- • Air Conditioning, Heating & Refrigeration Institute. ciency information available from your retailer. **At "A" conditions -80 °F (26.7 °C) indoor db /67 °F (19.4 °C) indoor wb & < 95 °F (35 °C) outdoor db. 1 t Rated in accordance with U.S. Government DOE Department of Energy) t/) test procedures and /or AHRI Standards 210/240. w co [f Gas Heating Capacities and Efficiencies • . UNIT 48ES -A HEATING INPUT (Btuh) OUTPUT CAPACITY TEMPERATURE RISE AFUE ( %) (Btuh) RANGE °F ( °C) Y4040 30 - 60 40,000 32 30040 (16.7 -33.3) 80.0 24060 48,000 80.0 30060 000 48,000 25 -55 80.0 36060 48,000 (13.9-30.6) 80.0 42060 47,000 78.5 36090 72,000 79.3 42090 73,000 35-65 80.4 48090 90,000 73,000 (19.4-36.1) 80.4 60090 73,000 80.4 48115 115,000 93,000 30 80.3 60115 (16.7 - 33.3) - 48130 • 130,000 103,000 35 -65 78.9 60130 (19.4 -36.1) LEGEND AFUE - Annual Fuel Utilization Efficiency • NOTE: Before purchasing this appliance, read important energy cost and efficiency information available from your retailer. A- Weighted Sound Power Level (dBA) UNIT 48ES -A r STANDARD TYPICAL OCTAVE BAND SPECTRUM (dBA without tone adjustment) RATING dBA 125 250 500 1000 2000 4000 8000 24 - - -30 76 66.0 66.0 70.5 71.5 67.5 62.5 58.5 30-- -30 /50 75 •66.0 63.5 68.0 68.5 67.5 61.5 55.0 36 - -- 30/50/60 75 64.0 63.5 68.0 70.5 64.5 61.0 61.0 42 - -- 30/50/60 77 67.0 67.0 69.5 70.5 68.0 65.5 61.0 48 - -- 30/50/60 78 71.5 66.5 73.0 71.5 68.0 64.0 57.0 60 - -- 30/50/60 78 74.5 66.5 70.0 70.0 66.5 64.0 57.0 • Tested in accordance whh AHRI Standard 270 (not listed in AHRI). 4 PHYSICAL DATA • UNIrSIZE 24040 24080 30040 30060 38060 38090 42060 42090 NOMINAL COOLING CAPACITY (ton) 2 2 2 -1/2 2 -1/2 3 3 3 -1/2 3 -1/2 NOMINAL HEATING INPUT (Btu/hr) 40000 60,000 40,000 80000 80000 90,000 80,000 _ 90,000 SHIPPING WEIGHT** lb. 311 311 316 316 328 326 420 420 SHIPPING WEIGHT** (kg) 141 141 143 143 148 148 191 191 COMPRESSORS Scroll - Quantity 1 REFRIGERANT (R -410A) Quantity lb. 4.8 4.8 6.2 6.2 6.4 6.4 6.1 6.1 Quantity (kg) 2.2 2.2 2.8 2.8 2.9 2.9 2.7 2.7 - 'REFRIGERANT METERING DEVICE TXV OUTDOOR COIL 4 Rows...Finsrn. 1..21 1..21 1..21 1..21 1..21 1...21 1...21 1...21 ' Face Area (sq ft) 10.2 10.2 11.9 11.9 15.4 15.4 13.6 13.6 OUTDOOR FAN Nominal CFM 2800 2800 3000 3000 3200 3200 3600 3600 Diameter in. 24 24 24 24 24 24 26 26 Diameter (mm) 809.6 609.6 609.6 609.6 609.6 609.6 660.4 660.4 Motor Hp (Rpm) 1/5 (810) 1/5 (810) 1/5 (810) 1/5 (810) 1/5 (810) 1)5 (810) 1/5 (810 1/5 (810) Q INDOOR COIL I Rows...Fins /in. 2...17 2...17 3...17 1..17 1..17 3...17 3...17 3...17 to Face Area (sq ft) 3.7 3.7 3.7 3.7 3.7 3.7 4.7 4.7 U INDOOR BLOWER 'a' Nominal Cooling Airflow (Cfm) 800 800 1000 1000 1200 1200 1400 1400 Size in. 10x10 10x10 10x10 10x10 11x10 11x10 11x10 11x10 Size (mm.) 254x254 254x254 254x254 254x254 279.4x254 279.4x254 279.4x254 279.4x254 Motor HP (RPM) 1/2 (1050) 1/2 (1050) 1/2 (1050) 1/2 (1050) 3/4 (1000) 3/4 (1000) 3/4 (1075) 3/4 (1075) FURNACE SECTION* Burner Orifice No. (Qty...Drill Size) Natural Gas Factory Installed 2...44 2...38 2...44 2...38 2...38 3...38 2...38 3...38 Propane Gas 2...55 2...53 2...55 2...53 2...53 3...53 2...53 I 3...53 HIGH - PRESSURE SWITCH 650 +/- 15 (psig) Cut -out Reset (Auto) 420 +/- 25 LOSS -OF- CHARGE / LOW - PRESSURE 20 +/- 5 SWITCH (Liquid Line) (psig) cut -out Reset 45 +/- 10 (auto) RETURN -AIR FILTERStt Throwaway Size in. 20x20x1 20x24x1 24x30x1 (mm) 508x508x25 508x610x25 610x762x25 • • 5 PHYSICAL DATA (CONT) uNn SIZE 48090 48115 48130 60090 60115 60130 NOMINAL CAPACITY (ton) 4 4 4 5 NOMINAL HEATING INPUT (Btu/hr) 90,000 115,000 130,000 90,000 115,000 130,000 SHIPPING WEIGHT** lb 428 428 428 450 450 450 SHIPPING WEIGHT** kg 194 194 194 204 204 204 COMPRESSORS Scroll Quantity 1 • REFRIGERANT (R -410A) Quantity lb 6.4 6.4 6.4 10.0 10.0 10.0 Quantity (kg.) 2.9 2.9 2.9 4.5 4.5 4.5 REFRIGERANT METERING DEVICE TXV OUTDOOR COIL a Rows...Fins y . 1...21 1..21 1...21 2...21 2..21 2...21 Face Area (sq ft) 15.5 15.5 15.5 15.5 15.5 15.5 OUTDOOR FAN Nominal Cfm 4000 4000 4000 3200 3200 3200 Diameter in. 26 26 26 26 26 26 Diameter (mm) 660.4 660.4 660.4 660.4 660.4 660.4 Q Motor Hp (Rpm) 1/5 (810) 1/5 (810) 1/5 (810) 1/5 (810) • 1/5 (810) 1/5 (810) I INDOOR COIL � t /) Rows... /in. 3...17 3...17 3...17 3...17 3...17 1..17 W Face Area (sq ft) 4.7 4.7 4.7 5.7 5.7 5.7 CO INDOOR BLOWER 1600 1600 1600 1750 1750 Nominal Cooling Airflow ( Cfm) 11x10 11x10 11x10 11x10 11x10 1750 Size in. 11x10 279.4x254 279.4x254 279.4x254 279.4x254 279.4x254 Size (mm) 1.0 (1075) 1.0 (1075) 1.0 (1075) 1.0 (1040) 1.0 (1040) 279.4x254 Motor HP (RPM) 1.0 (1040) FURNACE SECTION* F Burner Orifice No. Natural Gas Qty...Drill Size (Factory Installed) 3...38 3...33 3..21 3...38 3...33 I 3. Propane Gas 3...53 3...51 1..49 3...53 3...51 3...49 HIGH- PRESSURE SWITCH 650 +/- 15 (psig) Cut -out Reset (Auto) 420 +/- 25 LOSS -OF- CHARGE / LOW - PRESSURE 20 +/- 5 SWITCH (Liquid Line) (psig) cut -out Reset 45 +/- 10 (auto) RETURN -AIR FILTERS Throwawaytx In. 24x36x1 (mm) 610x914x25 *Based on altitude of 0 to 2000 ft (0 -610 m). t Required filter sizes shown are based on the larger of the AHRI (Air Conditioning, Heating and Refrigeration Institute) rated cooling airflow or the heating airflow velocity of 300 ft/minute for throwaway type. Air fitter pressure drop for non - standard filters must not exceed 0.08 IN. W.C. t If using accessory filter rack refer to the filter rack installation instructions for correct filter sizes and quantity. . ** For 460 volt units, add 14 lbs (6.35 kg) to the shipping weight. 6 OPTIONS AND ACCESSORIES FACTORY ' FIELD ITEM DESCRIPTION INSTALLED INSTALLED OPTION ACCESSORY Coil Options Base unit with tin plated indoor coil hairpins X 'compressor Start Kit assists compressor start-up by Compressor Start Kit providing additional starting torque on sing phase units X only. Corporate Thermostats Thermostats provide control for the system heating and X cooling functions. Crankcase Heater Crankcase Heater provides anit - floodback protection for X* low -load cooling applications. Horizontal Economizer with solid state controls and baro- metric relief dampers includes filter racks and provide X - outdoor air during cooling and reduce compressor opera - lion. Economizer Vertical Economizer with solid state controls and baro- metric relief dampers includes filter racks and provide X outdoor air during cooling and reduce compressor opera- tion. _ Q Filter Rack features easy installation, serviceability, and I Filter Rack high - filtering performance for vertical applications. X W Includes 1 -in. filter. ap Flat Roof Curbs Flat Roof Curbs in both 11 -in (279 mm) and 14 -in. (356— X mm) sizes are available for roof mounted applications. Flue Discharge Deflector Directs flue gas exhaust 90 degrees upward from current X discharge. Heat Exchanger Stainless Steel Heat Exchanger X High Attitude Propane Conversion tit is for use at 2001 to High Attitude Propane Conversion Kit 6000 ft (611 -1829 m) above sea level. Kit consists of X propane gas orifices that compensate for gas heat opera- tion at high altitude. Low Ambient Kit (Motormaster II Control) allows the use of Low Ambient Kit mechanical cooling down to outdoor temperatures as low X as 0°F (-18° C) when properly installed. Louver Metal Outdoor Coil Grilles Louver Metal Outdoor Coil Grilles provides hail and vandalism protection. Manual Outside Air Damper Manual Outside Air Damper includes hood and filter rack X with adjustable damper blade for up to 25% outdoor air. Natural to Propane Gas Conversion Kit allows for conver- Natural to Propane Gas Conversion Kit sion from natural gas to propane gas (0 -2000 ft) (0 -610 X m) - - Propane to Natural Gas Conversion Kit allows for conver- Propane to Natural Gas Conversion Kit sion from propane to natural gas for altitudes of 0 -2000 ft X (0 -610 m) Square - Round Duct Transition Kit Square -to -Round Duct Transition Kit enable 24 -48 size X units to be fitted to 14 in. (356 mm) round ductwork. Automatically prevents the compressor from restarting for Time Guard II at least 4 minutes and 45 seconds after shutdown of the X compressor. Not required when a corporate program- mable thermostat is applied or with a RTU- MP control. *Refer to Price Page for application detail. 7 ECONOMIZER H VAC Unit Compressor Cover Replacement Panel Shipped with Economizer � NOTE:On units with base COI L - � rails this compressor =I =�, cover is shipped with the ' r � HVAC unit. II��I ����� IIIIIIIII I IIII�II��� FILTER Replacement Return Chamber Panel Shipped with Economizer i ECONOMIZER 00 IIIIII IIIIIIIIIIIII ,y. , 1 , IV/ a Milk l& ka."l V) I CAULK BOTTOM CORNER W OF ECONOMIZER Oa SIDE VIEW ON EACH SIDE • er FILTER Vertical Economizer COIL ECONOMIZER % - Unit I • n • Replacement AggliErY (Mk'? Insta st i c k.. !i ii- 1j sick Panel lllllllhll j Filler .. • DETAIL II I IIIIIIIIIIII I Panel Economizer 111111 I 'i111 =1-' . Grommet ill E oono i zer . >>-... Wiring FILTER RACK BEND FLANGE AT 90 -SCREW TO DIVIDER WITH 1- IN.125 SCREW ` • �I f. • Horizontal Economizer TOP FILTER RACK • / EVAPORATOR • COIL t � • MANUAL OUTSIDE AIR DAMPER ,. ..1-,' ����' REPLACEMENT - 0 �� PANEL • ii p p MANUAL O AIR HOOD • • DAMPER P • �� I' BLADE i . ter/ • �� OA' -9 \ BOTTOM FILTER _ iir �i'�� RACK Io O 1 1 • • A093 7 5 S z UNIT ELECTRICAL UNIT R. UNIT HEIGHT 1N /NN CEDAR N CENR OF GRAYITI IN /MM 'A' 0 1 2 ..y 48011- /41A241040/060130 208/230 -1 -60 304 131.8 40 -1/8 1011 22-13/16 519.4 15 -5 /16 _ 3 N 09.9 15.11/16 318.5 V 1-15111 21-1116 1-15116 48(31- /N1630104010601(3 /510 200/230 -1. 2081230 -3.60 309 140.0 42-1/8 1070 22-13116 519.4 15 -5/11 336.9 15 -13 /16 401.6 I..( 1252.41 1541.11 1252.41 18ESI- /NI436(060/0901(3/5/0 208/230 -1. 208/230 -3-60 319 144.6 43 -1/8 1172 22 - 13/11 579.4 15 -5/16 388.1 16 -5/8 422.5 I•• 3 -7/16 44E61-/11/1361060/1416140 460 -3 -60 333 150.1 44-1/8 1172 22.13/16 511.4 15 - 5111 360.1 16 - 5/8 422.3 1 N-y i 111.3] l UNITS VOLTAGE CORNER NEIGNT 191X6 REQUIRED CISARANCES TO COMBUSTIBLE MATL • z RETURN -1111- SUPPLY '1' ( '2' 'J' 'I• INCHES (NN] 208/230 45.6 (1!�l1� _ - - - © 48151 /N1A301040/180113/510 208/230 46.3 21 61 28.0 12.6 42.1 108.1 40.1 SIDE OPPOSITE 0100 O U NIT TS 14 (355.6] ] O 7 " 4015(- /NIA381060/1901(3/510 208/230 41.8 21.7 13.6 28.9 15.6 43.4 111.6 50.6 601109 OF UNIT 0 :0.0] jT . , � 1` 1 40E31- /N1A161060 /190160 460 47.8 21.1 63.8 20.9 IIL441.S 111.6 52.1 FLUE PANEL NEC. REQUIRED CLEARANCES 36 1114.4] ,• 0PTI0NAL RETURN 1 �j 1 � \ I OPTIONAL 1 1 SUPPLY �. . \ � 15.15/16 11111 AIR 1.• A IR 1404.87 OPENING / T \ •PEKING r I INCHES (NMI NOTE: ALL TABLE DATA RELEVANT FOR ALL FACTORY INSTALLED 8(1 10(9 UNITS, P OWER ENTRY SIDE 42 11011.61 1 I ) • - - 1 0 OPTIONS EXCEPT ECONOMIZER UNIT AND UNGROUNDED SURFACES, POWER ENTRY SIDE J6 If1 /.0] '�I / 5.,1 11 0 UNIT AND BLOCK OR CONCRETE WALLS AND °TIER 44. Q /•' It 1 Ili I' I GROUNDED SURFACES, POWER ENTRY SIDE 42 31061.81 00 \ i _ • `�� �// l i 1 _ - I I r A \ \ � 181.07 REQUIRED CLEARANCE FOR OPERATION AND SERVICING COIL � I INCHES INN] S \ \'��j i3 • fYAP. COIL ACCESS SIDE 361/14.01 1 . ! � � . -6� POWER ENTRY 370E 42 11016.81 J L' 1 , " (EXCEPT FOR IEC REQUIREMENTS/ • •. SI DE OPPOSITE DUCTS 48 11 .2 U E * © ` 6 (152.42 DUCT PANEL 12 I304.81• A --I// \ \ lam 1 .1I0INUM DISTANCES:IF UNIT I5 PLACED LE35 THAN 12 1704.81 FROM NALL W INDOOR COIL SYSTEM,TNEN SYSTEM PENF0RMA6CE MAYBE COMPROISEI. TOP VIEW TDOOR COIL DIMENSIONS 11 (] ARE IN MI ill 31 -1/16 1 I1 ..• 1 -112 1166.57 125.411 11193.81 1114.31 l ilIllIlIll - - � I lllllllllip 1 -1/e (28 DIA. N.D. POWER ENTRY 6IIIIIIIII '� Y/8 • 122.21 3(5 EIRSR.( IIIIIIIHII 4 .A. 41/8 . 6 (1231] 1 • • L / 111 �1 - -- IL- ' RETURN C6 ! I � 1413.21 DIK1 DUCT 11-11/16 1 OPENING OPENING - 3 -518 • w 11 - •Z' ($01.41 13.31! [12.11 (36 I (316.1) 10 -3116 ` -4-, -0 �■b / O r-, f 1 0 i i use.el ,� = c=1 0- iuiln f 1 OOi ICO Q DRAIN OUTLET COMPRESSOR- LOWER 1 GAS ENTNT 3/4 111.01 M.P.T. 12-13/16 PANEL ^ .X. PANE[ LECTR1CAL 1.13/16 IIN.P.T. „ 1 1/6' Ill. 01 DEEP (325.41 146.07 3- 1/16 -- PANEL 187.31 32.510 - ACCESS 48.1//1 �. 152/11 44.11 late. t] 11224.1/ �. 1 21 - 5/6 9 - 7f8 (-A-- 4.13(16 1250.63 1549.3] 1250.81 1122.21 LEFT SIDE VEW FRONT VEw FGHT SIDE VEW REAR VEW MT 48ES500214 3 0 n c m - 48ES -A 48ES -A 1 Z 11-15/16 13 -IS /tf UNIT ELECTRICAL UNIT IT. UNIT HEIGHT 11/4148 CENTER OE 666VI11 IN /NN 1�1 1151.01 1331.01 CHARACTERISTICS LO KG •A• I r 7 A6(51- /1(4421060/090/13/5)0 200/230.1, 208/230-1.60 411 106.5 44.3/4 1137 22.13/11 571.4 10 451.2 11 -1/6 135.0 37/16 13.1/16 10E0I- 5N14421460 /010760 460-140 425 102.9 44.3/4 1137 22.13/11 374.4 10 451.2 11.1/4 433.0 v (07.3) [344.51 46E0I•INIA441490/115/13010/5)0 206/230 -1. 206/230.3 -60 419 190.2 46 -3/4 1167 22 -13/16 571.4 16 457.2 11 -3/8 441.3 I"I 500/- IN/A601090/115/130113/5)0 206/2301 t 200/230 -).60 441 200.1 46 -3/4 1187 22.13/11 571.4 10 457.2 11 -5/6 441.1 Ii.( 2 111/ 7 RE *UR SUPPLY © 4400( -1 /414601090/115/1)0160 460 -3-60 455 208.5 46-3/4 11117 22-13/11 571.4 II 457.2 11 -5/6 441.7 16 - - - - CORNER WEIGHT 14/60 1 l'-_ -_-__ 0X175 VOLTAGE iAGC 2' 3 ' r O ' OPTIONAL j + 4A OPTIONAL L 18251- /AIA4H 060 /090)1) /510 208/230 41.7 22.0 42.2 37.3 123.4 54.0 143.9 65.3 15-15116 is RETURN �r SUPPLY �I� 46ES1•/II0421060/090/60 460 61.1 26.0 42.2 37.3 152.4 60.1 146.9 61.6 ��--yy 1404.61 IY AIR j � AI l 44051./1114441090/115/110113/5/0 204/230 12.9 26.4 "83.6 38.1 125.6 57.1 146.1 64.4 !� q OPENIN#'-k\ , 8G I l 48(5(-/114461090 /115 /1)0140 460 62.1 21.4 13.6 36.1 134.8 61.2 151.1 68.9 . U i -� li 146041.4414641010/115/1301131510 206/21018.2 30.0 84.2 q.1132646.1 % ' _ _ _ 'e r 4616141)4601014/115/130160 460 66.2 30.0 66.2 10.1 111.4 64.2 157.4 12.4 1 /� \� I(I N,lliiil!(((l uti1Yi 111BIH1H1 R EQUIRED ARANCES,o CO11e1ST, N ATL 00 t', I�I� I `� / 1 'l,)r r/ N • 1/1 p . NOTE: ALL TAKE DATA RELEVANT FOR ALL FACTORY INSTALLED OPTIONS ERCC PT (10104(0(4 TOP OF UNIT INCHES INC \`��\,��� \ I �� // 4 DUCT SIDE OF UNIT 2 150.111 OUI DOOR COIL \� ` i / �, 14 [355.41 ril OL O v a -_� \ j�' -- -- T i S O l O] 0071/400 07( Oucrs it 1755.61 Cen 0TTO OF UNIT o 10.0] 1 •. I FLUE PANEL 36 [711.41 T. �•�_ °, � 1 18 _ " �_- I ill BETWEEN �� 06(4 EN T SIDE IMCM42 11066 41 1 �' 3 UNIT AND UNGROUNDED SU6(ACES. POWER [NTRT SIOf 36 1614.01 6.13/16 UNIT AND BLOCK OR CONCRETE WAILS AND OTHER CT 4 * © 6-13 01 GROUNDED SURFACES. POWER ENTRY SIDE 42 11066.41 C� REQUIRED CLEARANCE FOR OPERATION AND SERVICING INDOOR COIL TOP VIEW INCHES INN] EVAP. COIL ACCESS SIDE., 34 (114.01 IUTOOOR COIL P01106 ENTRY SIDE 7 4t (1066.01 lit IEICEPT FOR NEC REOOIRENINTS1 UNIT TOP 46 11211.21 SIDE OPPOSITE DUCTS 31 1414.01 DUCT PANEL 12 1304.814 47 - 75/16 .0101807 DISTANCES.IF UNIT IS P1ACE0 LESS THAN 12 1304.01 FROM 8411 p 11080 6/ (S081 1 41 - .1 .. STSTEN,TNEN SYSTEM PERFORMANCE MAYBE CC IPRON16E0. I [1193.41 I 2114.31 DIMENSIONS IN 11 ARE IR MM V - - .�. r • I -1/0' LIE 41 01 4. N.O. I IIIIIIIIIIIIIIIII • • • • POWER ENTRY 1/1 L22.21 DIA LADLE IIIIINIIIIIIIIII. • CONTROL DIRT [123841 i • 7(0 -3 �0 is -ua SUPPLY RF.TU6 J 1 T 21-1 /b [A03.71 • DS 31....1 OPEN X( 1555.61 '3 y 3RXING • 17 -518 Ilk 3 11 161/4 •0• [417,1717.1/4 [9 3. 11 J.I_L04 ] _ 130 [3041 1 4 -5 /a �' O /444 4444( (� O' [ 16 2.31 , d Q I 0'� 1 DRAIN OUTLET - �• I I r I I I C x � f 1215/ w- 1 -13/14 3 /I' II! II N P 1 • 1326.61 COOKS •• ER IEC TRICAL 146 1/2 112.7111.P.1. 3/16 R 1 /4' 122 2/00(9 PANEL PANEL ACCESS PANEL 21/16 GAS ENTRY 14.83 3 - 1/76 �. �- 2-i 1524/ I .-- 1) -7 /6 --.- 17 -5/4 �-f 14.1/4 +• r /122 41 44 311 5 -9116 L-- [87.31 [352.11 [3 /6.t] 1352./1 1122 4a 1141.37 RJR SICE YEW REAR VEW LEFT SDE VEW FRONT VIEW R[. 48ES500215 3.0 i • ACCESSORY DIMENSIONS z7.-----....----_. �/ Ideation for largo Da•aoan unllc HVAC unit HVAC unit G /C• base rail\ basepan r \\ Sealin j \ Gasket t� / Roofcurb t ` / ` Anchor screwy — Wood radon A - _ _ 111111111111111114414444040444144444444044411. A Flashing held , suppled Roolcurb• / �` Insulator (field supplied) Roofing material .../ field suppled Ir E Cant stop I., I p \ held supplied r— / �. co - I W At 1 e419 pp ��� SMALL /COMMON CURB •Provided with roof curb A09090 ROOF CURB DETAIL I SMALL \ �\ SUPPLY BASE , ii , 4. .4 , . I AIR UNIT \ i � / I I - F A I LARGE RETURN BASE I AIR UNIT D t_ UNIT PLACEMENT ON \ COMMON CURB A09094 LARGE CURB x415 SMALL OR LARGE BASE UNIT A09414 A B (small / I C D E F UNIT CATALOG common B (large base) G H SIZE NUMBER (mm) base) * IN. (mm)* (mm) (mm) (mm) (mm) IN. (mm) IN. (mm) IN. (mm)* _ Small CPRFCURB010A00 11 (279) or 10 (254) 32.4 30.6 (778) Large CPRFCURB011A00 14 (356) 14 (356) 16 406) 47.8 ( ( 2.7 (69) 46.1 (1170) CPRFCURB012A00 11 (279) (1214) 43.9 Large CPRFCURB013A00 14 (356) 14 (356) (1116) 42.2 (1072) * Part Numbers CPRCURB010A00 and CPRCURBOI 1A00 can be used on both small and large basepan units. The cross supports must be located based on whether the unit is a small basepan or a large basepan. NOTES: 1. Roof curb must be set up for unit being installed. 2. Seal strip must be applied, as required, to unit being installed. 3. Roof curb is made of 16 -gauge steel. 4. Attach ductwork to curb (flanges of duct rest on curb). 5. Insulated panels: 1 -in. (25.4 mm) thick fiberglass 1 lb. density. 11 SELECTION PROCEDURE (WITH EXAMPLE) 1. Determine cooling and heating requirements at 4. Determine fan speed and power requirements at design conditions: design conditions. Given: Before entering the air delivery tables, calculate the total static Required Cooling Capacity (TC) 34,000 Btuh pressure required. From the given example, the Wet Coil Pressure Sensible Heat Capacity (SHC) 25,000 Btuh Drop Table, and the Filter Pressure Drop Table: Required Heating Capacity 60,000 Btuh External Static Pressure 0.300 in. W.C. Condenser Entering Air Temperature 95 °F (35 °C) Filter 0.130 in. W.C. Indoor -Air Temperature 80 °F (26 °C)edb 67 °F (19 °C) ewb Wet Coil Pressure Drop 0.100 in, W.0 Evaporator Air Quantity 1200 CFM Total Static Pressure 0.530 in. W.0 External Static Pressure 0.300 in. W.C. Enter the table for Dry Coil Air Delivery — Horizontal and Downtlow Discharge. At .530 in. W.C. ESP, the closest speed to Electrical Characteristics 230 -1 -60 1200 CFM is Med -High (orange wire), which delivers 1316 CFM 2. Select unit based on required cooling capacity. at .6 in ESP. Enter Net Cooling Capacities table at condenser entering 5. Select unit that corresponds to power source temperature of 95 °F (35 °C). Unit 036 at 1200 CFM and 67 °F available. (19 °C) ewb (entering wet bulb) will provide a total capacity of W 34,400 Btuh and a SHC of 25,900 Btuh. Calculate SHC correction, The Electrical Data Table shows that the unit is designed to operate co if required, using Note 4 under Cooling Capacities tables. at 230-1-60. 3. Select heating capacity of unit to provide design condition requirement. In the Heating Capacities and Efficiencies table, note that the unit 036090 will provide 72,000 Btuh with an input of 90,000 Btuh. 12 PERFORMANCE DATA 4SES -A24 CONDENSER ENTERING AIR TEMPERATURES 'F ('C) EVAPORATOR AIR 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (48.1) 125 61.7) EMS Capacity MBtuh Total Capacity MBtOh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh 8 tal CFM/BF ) Total Sans kW Total Sans Sys Total Sans Sys Total Sara Sys Total Sans •. Total Sara KW _ 22.74 22.74 1.86 21.26 21.26 1.85 19.77 19.77 2.06 18.28 18.28 2.29 18.77 16.77 2.54 15.24 15.24 2.80 _ (19.8) 16.6' 23.94 20.55 1.66 22.18 19.57 1.88 20.42 18.59 2.07 18.67 17.59 2.30 18.93 16.57 2.54 15.24 15.24 2.80 700/0.07 (172) 24.48 17.00 1.67 22.68 16.12 1.88 20.88 15.23 2.07 19.06 14.35 2.30 17.27 13.48 2.54 15.45 12.56 2.81 67 28.34 17.55 1.67 24.42 16.65 1.86 22.49 15.76 2.07 20.57 14.88 2.30 18.84 13.97 2.55 18.70 13.07 2.82 (19.4) f1 28.95 14.51 1.67 26.85 13.70 1.87 24.76 12.88 2.08 22.66 12.07 2.31 20.56 11.25 2.56 18.45 10.43 2.83 �� . 5 23.78 23.78 1.68 22.21 22.21 1.87 20.64 20.64 2.08 19.06 19.06 2.31 17.46 17.46 2.56 15.85 15.85 2.82 (13.8) 62 24.57 22.03 1.68 22.75 20.99 1.87 20.94 19.93 2.08 19.15 18.83 2.31 17.46 17.48 2.58 15.85 15.85 2.82 (1 800 /0.09 (172) 25.10 18.06 1.68 23.23 17.14 1.88 21.36 16.21 2.09 19.49 15.29 2.32 17.82 14.37 2.56 15.74 13.44 2.82 67 27.00 18.66 1.69 25.00 17.73 1.88 23.00 16.80 2.09 21.01 15.87 2.32 19.01 14.94 2.57 17.00 14.00 2.83 (19.4) 72 29.65 15.23 1.69 27.48 14.39 1.89 25.30 13.54 2.10 23.13 12.71 2.33 20.98 11.86 2.58 18.77 11.01 2.84 (13.8) 24.67 24.67 1.70 23.02 23.02 1.89 21.37 21.37 2.10 19.71 19.71 2.33 18.05 18.05 2.58 18.38 16.36 2.84 82 25.09 23.40 1.70 23.23 22.27 1.89 21.39 21.39 2.10 19.71 19.71 2.33 18.04 16.04 2.58 16.35 16.35 2.84 (g 900/0.1 (17.2) 25.60 19.06 1.70 23.66 18.11 1.89 21.74 17.15 2.10 19.81 16.20 2.33 17.89 15.24 2.58 15.96 14.27 2.84 67 27.52 19.73 1.70 25.45 18.76 1.90 23.40 17.80 2.11 21.34 16.83 2.34 19.29 15.87 2.59 17.23 14.89 2.85 (19.4) w i 2 30.21 15.91 1.71 27.97 15.04 1.90 25.72 14.18 2.11 23.50 13.31 2.35 21.26 12.45 2.60 19.02 11.58 2.88 See Legend and Notes on Page 19. 48ES -A PERFORMANCE DATA 48ES -A30 • EVAPORATOR AIR CONDENSER EN TEHING AIR TEMPERATURES °F (°C) ' 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (51.7) - Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity M�uh Total CFM/BF •F Sys Sys Sys Sys Sys Sys CC) Total Sam KW Total Sins KW Total Sens KW Total Sans KW Total Sena KV/ Total Sans KW (13.8) 29.20 29.20 2.09 27.20 27.20 2.30 25.19 25.19 2.52 23.18 23.18 2.77 21.16 21.16 3.04 19.13 19.13 3.32 � 30.09 26.44 2.09 27.78 25.28 2.30 25.48 24.10 2.52 23:22 23.12 2.77 21.16 21.16 3.04 19.12 19.12 3.32 ( 8 6 3 . 9 87510.03 (172) 30.75 21.65 2.09 28.36 20.61 2.30 25.99 19.56 2.52 23.63 18.51 2.77 21.26 17.45 3.04 18.90 16.38 3.32 6' 33.12 22.39 2.08 30.58 21.34 2.29 28.05 20.29 2.52 25.52 19.23 2.77 23.00 18.16 3.04 20.48 17.08 3.32 (19.. 4) 72 38.50 18.28 2.08 33.73 17.33 2.29 30.97 16.37 2.52 28.22 15.41 2.77 25.48 14.44 3.04 22.73 13.46 3.32 a2 57' 30.51 30.51 2.12 28.39 28.39 2.33 26.27 26.27 2.56 24.14 24.14 2.80 22.01 22.01 3.07 19.87 19.87 3.35 (13.8) (16.8) 30.85 28.45 2.12 28.49 28.24 2.33 26.26 26.26 2.56 24.14 24.14 2.80 22.01 22.01 3.07 19.86 19.86 3.35 1000/0.03 (1 � 3 ., ,,, 31.44 23.11 2.12 28.97 22.02 2.33 26.51 20.93 2.56 24.07 19.84 2.81 21.63 18.73 3.07 19.21 17.60 3.35 (19.4) 33.86 23.94 2.12 31.22 22.85 2.33 28.60 21.75 2.55 25.99 20.65 2.80 23.40 19.53 3.07 20.60 18.40 3.35 72 37.30 19.27 2.11 34.43 18.29 2.32 31.58 17.30 2.55 28.74 16.31 2.80 25.91 15.31 3.07 23.07 14.29 3.35 (22.2) (13.8) 31.61 31.61 2.15 29.39 29.39 2.36 27,17 27.17 2.59 24.95 24.95 2.84 22.72 22.72 3.10 20.48 20.48 3.39 62 31.61 31.61 2.15 29.39 29.39 2.36 27.17 27.17 2.59 24.95 24.95 2.84 22.72 22.72 3.10 20.48 20.48 3.39 (16.8) 1125/0.04 (16T 31.97 24.51 2.15 29.43 23.38 2.36 26.91 22.25 2.59 24.41 21.10 2.84 21.92 19.95 3.10 19.45 18.75 3.39 (14 „ 34.42 i 25.44 2.15 31.71 24.30 2.38 29.02 23,16 2.59 28.35 22.01 2.84 23.89 20.84 3.10 21.05 19.65 3.39 _ ( 2) 37.91 i 20.22 2.14 34.96 19.20 2.35 32.03 18.19 2.58 29.12 17.17 2.83 26.22 16.14 3.10 23.32 15.10 3.39 Z.. See Legend and Notes on Page 19. :a • PERFORMANCE DATA (CONY) 48ES -A36 CONDtNSER ENTERING AIR TtMPE 'F (•C) 2 EVAPORATOR AIR 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125i51.7) EVIG Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total CFM/BF •F Sys Sys Sys Sys Sys Sys rC) Total Sans KW Total Sans KW Total Sans KW Total Sam KW Total Sam KIN Total Sans KW (13.8) 35.66 35.66 2.38 32.84 32.84 2.71 30.06 30.06 3.07 27.32 27.32 3.47 24.62 24.62 3.91 21.93 21.93 4.39 62 37.06 32.25 2.39 33.82 30.46 2.71 30.65 28.68 3.07 27.56 26.88 3.47 24.82 24.62 3.91 21.93 21.93 4.39 18.8) 1050/0.04 (172) 37.87 28.52 2.39 34.55 24.93 2.71 31.28 23.37 3.08 28.09 21.82 3.48 24.95 20.29 3.91 21.88 18.77 4.39 6/ 40.79 27.41 2.39 37.23 25.80 2.72 33.74 24.21 3.08 30.32 22.84 3.48 26.98 21.09 3.92 23.65 19.54 4.39 (19.4) 72 44.91 22.49 2.39 41.02 21.04 2.72 37.19 19.62 3.09 • 33.45 18.21 3.49 29.78 18.82 3.93 26.16 15.44 4.40 (22.2) _ 57 37.24 37.24 2.43 34.27 34.27 2.76 31.33 31.33 3.12 28.44 28.44 3.52 25.58 25.58 3.96 22.76 22.76 4.44 (13.8) 62 37.97 34.65 2.43 34.64 32.72 2.76 31.35 31.35 3.12 28.43 28.43 3.52 25.58 25.58 3.96 22.75 22.75 4.44 (16.6) 1200/0.04 (187.2) 38.73 28.25 2.43 35.29 26.59 2.76 31.91 24.95 3.12 28.60 23.33 3.52 25.37 21.73 3.96 22.21 20.12 4.44 67 41.71 29.24 2.44 38.02 27.56 2.78 34.40 25.90 3.13 30.86 24.26 3.53 27.40 22.63 3.97 24.00 21.00 4.44 (19.4) 72 45.90 23.65 2.44 41.88 22.18 2.77 37.91 20.68 3.13 34.05 19.23 3.54 30.26 17.79 3.98 28.53 16.36 4.45 a 5T (13.6) 38.59 38.59 2.48 35.47 35.47 2.81 32.40 32.40 3.17 29.37 29.37 3.57 26.39 28.39 4.01 23.43 23.43 4.49 16.6) 38.77 36.79 2.48 35.46 35.46 2.81 32.39 32.39 3.17 29.37 29.37 3.57 26.38 26.38 4.01 23.43 23.43 4.49 1350/0.05 (17.2) 39.40 29.91 2.48 35.85 28.18 2.81 32.38 26.47 3.17 28.99 24.78 3.57 25.69 23.09 4.01 22.46 21.40 4.49 87 42.41 31.01 2.48 38.61 29.26 2.81 34.89 27.52 3.18 31.27 25.81 3.58 27.72 24.10 4.02 24.28 22.39 4.49 (19.4) tn 46.65 24.77 2.49 42.51 23.22 2.82 38.45 21.70 3.18 34.49 20.20 3.58 30.61 18.72 4.03 26.80 17.24 4.50 (222 .2) See Legend and Notes on Page 19. • 48ES -A •,,, 48ES -A . PERFORMANCE DATA 48ES -A42 EVAPORATOR AIR 75 (23.9) 85 (29.4) 95 (35) 105 (40.5) 115 (46.1) 125 41.7) Capacity MBtuh Total Capacity MBtah Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Totai Capacity MBtuh Total CFM/BF E1NB Total Sans Sys Total ' Sans Sys Total Sans Sys Total Sam Sys Total Sens Sys Total Sans , Sr KW KW KW KW KW KNI 40.45 40.45 3.00 37.98 37.98 3.37 35.49 35.49 3.78 32.96 32.98 4.20 30.44 30.44 4.65 27.64 27.84 5.10 (13.8) C82 42.06 37.63 2.94 39.15 35.73 3.33 36.25 33.83 3.74 33.37 31.92 4.18 30.48 30.39 4.64 27.88 27.88 5.10 83V 1225/0.03 (172) 42.93 30.96 2.91 39.95 29.27 3.31 36.96 27.59 3.72 33.97 25.92 4.17 30.95 24.26 4.63 27.90 22.59 5.10 18 ) 48.12 31.94 2.80 42.92 30.23 3.19 39.72 28.52 3.61 36.53 28.63 4.05 33.31 25.15 4.52 30.04 23.48 4.99 50.58 26.16 2.65 47.09 24.61 3.04 43.59 23.08 3.48 40.11 21.56 3.90 36.60 20.05 4.37 33.04 1 8.53 4.84 (13.8) 42.24 42.24 2.98 39.61 39.61 3.35 38.97 36.97 3.76 34.32 34.32 4.18 31.63 31.83 4.63 28.88 28.88 5.08 82 4111 40.44 2.95 40.11 38.38 3.34 37.15 36.28 3.75 34.31 34.31 4.18 31.82 31.82 4.63 28.88 28.88 5.06 (18. I 1400/0.04 ( 17.2) 43.91 32.97 2.92 40.81 31.21 3.32 37.71 29.45 3.73 34.61 27.70 4.18 31.49 25.96 4.64 28.35 24.21 5.12 8' 47.15 34.07 2.81 43.82 32.28 3.20 40.50 30.50 3.62 37.19 28.73 4.06 33.86 26.97 4.53 30.50 25.20 5.00 (19.. 4) 72 51.67 27.51 2.65 48.05 25.91 3.05 44.42 24.32 3.46 40.81 22.75 3.91 37.19 21.19 4.38 33.51 19.62 4.85 (13.8) 43.75 43.75 2.97 40.99 40.99 3.34 38.22 38.22 3.75 35.43 35.43 4.17 32.62 32.62 4.62 29.74 29.74 5.07 tk 44.02 42.95 2.96 41.01 41.01 3.34 38.21 38.21 3.75 35.43 35.43 4.17 32.61 32.61 4.62 29.74 29.74 5.07 (16.6) 1575/0.05 ( 44.67 34.90 2.94 41.47 33.06 3.33 38.28 3123 3.75 35.10 29.41 4.20 31.91 27.58 4.66 28.70 25.74 5.14 67 47.93 36.13 2.82 44.51 34.26 3.21 41.09 32.40 3.83 37.89 30.56 4.08 3428 28.71 4.54 30.85 26.85 5.02 (19.4) 52.51 28.80 2.67 48.78 27.15 3.06 45.05 25.51 3.48 41.34 23.89 3.93 37.83 22.28 4.39 33.86 20.67 4.87 (22.2) - See Legend and Notes on Page 19. a PERFORMANCE DATA (CONT) 48ES -A48 EVAPORATOR AIR CONDENSER ENTERING AIR ThMPLRATURES •F (°C) 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (41.7) EWB Capacity MBtuh Total Capacity MBtuh 1 Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total CFMBF •F Sya Sys Sys Sys es W Total Total Sens Sys (•C) Total Sens KIN Total Sens Kyy Total Sens KW Total . Sens Kw Total KW KyV (13.8) 46.51 46.51 3.29 43.60 43.60 3.68 40.66 40.66 4.11 37.70 37.70 4.56 34.70 34.70 5.05 31.64 31.64 5.55 (1 48.43 41.91 3.29 45.02 40.09 3.88 41.60 38.24 4.10 38.19 36.35 4.56 34.81 34.56 5.05 31.64 31.64 5.55 &3i 1400/0.04 (17.2) 49.45 34.51 3.29 45.95 32.87 3.68 42.43 31.22 4.10 38.89 29.58 4.56 35.34 27.89 5.05 31.75 28.19 5.55 (19.4) 53.14 35.61 3.29 49.39 33.95 3.88 45.62 32.29 4.10 , 41.85 30.61 4.55 38.05 28.93 5.04 34.20 27.21 5.55 72 58.33 29.19 3.28 54.23 27.88 3.67 50.11 26.15 4.09 46.00 24.82 4.55 41.85 23.08 5.03 37.64 21.51 5.54 IP (13.6) 48.55 48.55 3.35 45.46 45.46 3.74 42.35 42.35 4.16 39.21 39.21 4.81 36.04 36.04 5.10 32.81 32.81 5.80 (18 49.82 44.99 3.35 46.10 43.02 3.74 42.60 40.97 4.16 39.21 39.21 4.61 38.04 36.04 5.10 32.80 32.80 5.80 1600/0.05 (17 2) 50.57 36.73 3.35 48.92 35.02 3.74 43.27 33.30 4.18 39.81 31.57 4.61 35.94 29.83 5.10 32.24 28.05 5.60 67 54.31 37.96 3.34 50.41 36.23 3.73 48.50 34.50 4.15 42.59 32.76 4.61 38.66 30.99 5.09 34.70 29.20 5.60 (19.4) 72 59.58 30.68 3.34 55.32 29.12 3.73 51.05 27.54 4.15 48.80 25.97 4.80 42.51 24.38 5.08 38.17 22.76 5.59 (22.2) 57 50.26 50.26 3.40 47.02 47.02 3.79 43.76 43.76 4.21 40.47 40.47 4.86 37.15 37.15 5.15 33.76 33.78 5.65 (13.8) 62 50.64 47.75 3.40 47.06 47.06 3.79 43.75 43.75 4.21 40.46 40.46 4.66 37.14 37.14 5.15 33.76 33.76 5.65 T 1800/0.06 (17 ,, 51.44 38.88 3.40 47.67 37.10 3.79 43.92 35.31 4.21 40.16 33.51 4.67 36.40 31.68 5.15 32.82 29.81 5.66 87 55.22 40.25 3.40 51.19 38.45 3.79 47.17 36.64 4.21 43.16 34.83 4.68 39.13 32.98 5.14 35.08 31.10 5.65 (19.4) v 72 60.54 32.12 3.40 56.16 30.51 3.78 51.77 28.89 4.20 47.40 27.27 4.65 43.00 25.84 5.13 38.55 23.98 5.64 (22.2) See Legend and Notes on Page 19. • 48ES -A PERFORMANCE DATA 48ES -A60 EVAPORATOR AIR CONDENSER ENTERING AIR TtMPERATURES °F ('C) 75 (23.9) 85 (29.4) 95 (35) 105 (40.6) 115 (46.1) 125 (91.7) IVNB Capacity MBtuh Total Capacity MBtrlh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total CFM/BF •F Sys Sys Sys Sys Sys Sys (•C) Total Sens Kyy Total Sans KW Total Sans KW Total Sans KW Total Sara KW Total Sans KW (13.8) 57.89 57.89 422 54.53 54.53 4.84 51.13 51.13 5.08 47.68 47.68 5.56 44.15 44.15 8.06 40.50 40.50 6.59 82 59.66 51.98 4.24 55.71 49.84 4.85 51.77 47.68 5.09 47.84 45.44 5.5(I 44.15 44.15 6.06 40.49 40.49 6.59 (18.8) 1750/0.02 (17.2) 60.79 42.58 4.25 58.72 40.64 4.86 52.64 38.69 5.10 48.53 36.74 5.57 44.37 34.78 6.06 40.12 32.78 8.58 (19.4) 65.28 43.94 4.28 60.89 41.97 4.70 56.50 40.00 5.14 52.08 38.03 5.61 47.59 38.03 6.10 43.00 34.00 6.62 2) 71.52 I 35.78 4.34 86.71 33.95 4.75 61.88 32.13 5.19 57.02 30.30 5.66 52.07 28.45 6.15 47.01 26.57 6.68 (138) 80.39 !I 60.39 4.33 56.80 56.80 4.74 53.18 53.18 5.18 49.50 49.50 5.66 45.74 45.74 6.16 41.85 41.85 6.68 62 g � 61.11 55.94 4.33 57.07 53.59 4.74 53.18 53.18 5.18 49.50 49.50 5.66 45.74 45.74 6.16 41.85 41.85 6.68 w .! 2000/0.02 (17.2) 82.07 45.41 4.34 57.83 43.39 4.75 53.59 41.36 5.19 49.33 39.33 5.66 45.03 37.28 6.15 40.64 35.18 6.67 67 66.80 48.95 4.38 62.04 44.89 4.79 57.48 1 42.84 5.23 52.89 40.78 5.69 48.25 38.70 8.19 43.52 36.58 8.70 (19.4) , 72 72.91 37.86 I 4,43 67.90 35.78 4.85 62.90 33.90 5.28 57.85 32.01 5.75 52.74 30.11 6.24 47.52 28.18 8.74 (22.2) (1 8) 62.47 82.47 I 4.43 58.69 58.69 4.84 54.87 54.87 5.28 51.00 51.00 5.75 47.03 47.03 6.25 42.94 42.94 6.77 ( 62 62.48 82.48 4.43 58.68 58.68 4.84 54.86 54.86 5.28 50.99 50.99 5.75 47.03 47.03 8.25 42.94 42.94 8.77 ier 2250/0.03 (17.2) 63.04 48.14 4.43 58.67 46.04 4.84 54.31 43.93 5.28 49.93 41.81 5.74 45.52 39.67 6.23 41.04 37.45 6.75 67 19.4) . 87.80 49.85 4.47 62.90 47.72 4.88 58.21 45.59 5.32 53.50 43.44 5.78 48.74 41.27 8.27 43.91 39.04 6.78 Oo 2 73.95 39.47 4.53 88.79 37.54 4.94 63.83 35.61 5.37 58.45 33.68 5.84 53.20 31.73 6.32 47.86 29.75 6.82 (22.2) See Legend and Notes on Page 19. PERFORMANCE DATA (CONT) • At 75 °F (24 °C) entering dry bulb— Tennessee Valley Authority (TVA) rating conditions; all others at 80 °F (27 °C) dry bulb. LEGEND 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 COOLING 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: Sensible capacity (Btuh) tldb = tedb 1.10 x cfm tlwb = Wet —bulb temperature corresponding to enthalpy air leaving evaporator coil (hlwb) Cl) hlwb = hewb — (otal capacity (Btuhl CO 4.5xcfm Where: hewb = Enthalpy of air entering evaporator coil 4. The SHC is based on 80 °F (26.6 °C) 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 °C) edb, add (corr factors 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 outdoor coil and the heat required to defrost it. 19 PERFORMANCE DATA (CONT) Natural Gas Orifice Sizes and Manifold Pressure Nameplate Input • 0 P.`. •,,, 0 W re. 0 .4 .q'. p P.'. 7,11'. p 9P.'. (Btu/hr) (0 -810 m) (811 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) Orifice No. (Oty) 44 (2) 45 (2)t 48 (2)t 48 (2)t 48 (2)t 40000 Manifold Press. 3.2 3.2 3.8 3.5 3.2 (in. W.C.) Orifice No. (Qty) 38 (2) 41 (2)t 41 (2)t 42 (2)t 42 (2)t 80000 Manifold Press. 3.6 3.8 3.4 3.4 3.2 Or W.C.) 38 (3) 41 (3)t 41 (3)t 42 (3)t 42 (3)t Orifice No. (Qty) _ _ 90000 Manifold Press. 3.6 3.8 3.4 3.4 3.2 (in. W.C.) F Y sr ice ' o. •' T; • . 115000 Manifold Press. 3.8 3.8 3.6 3.3 3.6 (in. W.C.) Orifice No. (Qty) . 130000 - F,7rnrfold Press. 3.8 3.2 3.7 3.4 3.3 (in. W.C.) *In the U.S.A., the input rating for altitudes above 2000 ft (610m) must be reduced by 4% for each 1000 ft (305 m) above Sea.level. < In Canada, the input rating for altitudes from 2001 to 4500 ft (611 to 1372 m) above sea level must be derated by 10% by an Authorized gas conversion station or I dealer. Cl) For Canadian Installations from 2000 to 4500 ft, use U.S.A. column 2001 to 3000 ft. ly Note: Orifice sizes and manifold pressure settings are based on natural gas with a heating value of 1025 Btu/ft3 and a specific gravity of .6. co t Orifices available through your distributor. cr Propane Gas Orifice Sizes and Manifold Pressure ALTITUDE OF INSTALLATION (F L A3OVE SEA LVVEL) U.SA * Nameplate 0 to 2000 2001 to 3000* 3001 to 4000 4001 to 5000 5001 to 8000 Input ( Btu/hr) (0 -810 m) (811 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) Orifice No. (Oty) 55 (2) 56 (2) 56 (2) 56 (2) 56 (2) 40000 Manifold Press. 10.0 11.0 11.0 11.0 10.7 (in. W.C.) Orifice No. (Oty) 53 (2) 54 (2) 54 (2) 54 (2) 54 (2) 60000 Manifold Press. 10.0 11.0 11.0 11.0 11.0 (in. W.C.) Orifice No. (Qty) 53 (3) 54 (3) 54 (3) 54 (3) 54 (3) 90000 Manifold Press. 10.0 11.0 11.0 11.0 11.0 (in. W.C.) Orifice No. (Qty) 51 (3) 52 (3) 52 (3) 53 (3) 53 (3) 115000 Manifold Press. 10.0 11.0 10.6 11.0 11.0 (in. W.C.) Orifice No. (Qty) 49 (3) 50 (3) 51 (3) 52 (3) 52 (3) 130000 Manifold Press. 10.0 11.0 11.0 11.0 11.0 (in. W.C.) *In the U.S.A., the input rating for altitudes above 2000 ft (610m) must be reduced by 4% for each 1000 ft (305 m) above Sea level. In Canada, the input rating for altitudes from 2001 to 4500 ft (611 to 1372 m) above sea level must be derated by 10% by an authorized gas conversion station or dealer. For Canadian Installations from 2000 to 4500 ft, use U.S.A. column 2001 to 3000 ft. tUse Kit No. CPLPCONV013A00 (0 -2000 ft [0 -610 m] above sea level). Use Kit No. CPLPCONV014A00 (2001 -6000 ft [611-1829 m] above sea level). High Altitude Compensation, Natural Gas a e • • ea ng nput :' u r , ' atura as a ns a on • ' u • a • • • ve ea evv11 U:�' Nameplate i to 'n's mom , -o 1 p .r,'.`. .T to 5000 k 5001 10 61:105 ft Input (Btu /hr) (0 -810 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) mi .r Mum fir l:.'.'. , crry 32800 MEM 1. PPP. f iat m P.y:.11♦ � r q'. • •' . , :: P. •'PP. •' P.'•'. P.'. z .1 s .'� 1, . 'i +P.D �t IP• • •• •'• .,I • r : • - . ... • c .iii .'.'• : P, ••i, •' 101400 in the I. . 0 T ( e inpu ra ing or a trtu•es above 20 6T must •e reduced by 4'. or eac • eI ' • m a• •ve ea eve . In Canada, the input rating for altitudes from 2001 to 4500 ft (611 to 1372 m) above sea level must be derated by 10% by an authorized gas conversion station or dealer. For Canadian Installations from 2000 to 4500 ft (610 -1372 m), use U.S.A. column 2001 to 3000 ft (611 to 914 m). High Altitude Compensation, Propane Gas Rated Heating Input (Btu /hr), LP Gas at Installation Altitude Above Sea Level, U.S.A.` Nameplate Input , 0 to 2000 ft 2001 to 3000 ft* 3001 to 4000 ft 4001 to 5000 ft 5001 to 6000 ft (Btu /hr) (0 -610 m) (611 to 914 m) (915 to 1219 m) (1220 to 1524 m) (1524 to 1829 m) 40000 38000 31700 31700 31700 3f200 60000 53000 45900 45900 45800 45800 90000 79000 68900 68900 68600 68600 115000 103000 100400 98900 83000 83000 130000 116000 115500 111800 101300 100400 In the U.S.A., the input rating for altitudes above 2000 ft (610m) must be reduced by 4% for each 1000 ft (305 m) above Sea level. In Canada, the input rating for altitudes from 2001 to 4500 ft (611 to 1372 m) above sea level must be derated by 10% by an authorized gas conversion station or dealer. For Canadian Installations from 2000 to 4500 ft (610 -1372 m), use U.S.A. column 2001 to 3000 ft (611 to 914 m). 20 PERFORMANCE DATA (CONT) • Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 • N EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RISE MOTOR WIRE e RANGE SPEED I COLOR °F (°C) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 Heating 40 46 56 NA NA NA NA NA NA Low Blue Rise ( Heating 22 26 31 NA NA NA NA NA NA Rise ( °C) CFM 851 777 675 591 475 = < -- I – -- ,;.>.- Med– Heating 36 39 • 45 51 NA NA NA NA NA Low Pink Rise ( Heating 20 22 25 28 NA NA NA NA NA i Rise ( – CFM 941 851 774 684 576 479 -- -- Heating 48ES(– ,N)A24040 – 80 Medium Red Rise (°F) 32 36 39 44 52 NA NA NA NA ( – 33) Heating -- Rise ( °C) 18 20 22 25 29 NA NA NA NA 917 840 :.. 759 667 577 447_° -- – Med– 'eating 30 33 36 40 45 52 NA NA NA Hight Orange Rise (OF) + ea i°C 17 18 20 22 25 29 NA NA NA Rise ( 1241 I • . . :T: : : :MI zy; Heating High Black Rise ( °F) NA NA I NA NA 31 34 37 41 47 'ea mg NA NA NA NA 17 19 I 21 23 26 Rise ( I — .. - •5• -- -- -- -- -- . ' eaing NA NA NA NA NA NA I NA NA NA Low Blue Rise ( eating ' Rise (C) NA NA NA NA NA NA NA NA NA CFM 851 777 675 591 475 I -- — I -- -- , 4,% 41 7 - Med– Pink Rise Heating 52 NA NA NA NA NA NA NA NA Low 'ea g — I - Rise (C) 29 NA NA NA NA NA NA NA NA ChM 941 851 774 684 576 479 25 – 55 'ea m g 47 52 NA NA NA NA NA NA NA 48ES(– ,N)A24060 (14 – 31) Medium Red Rise ( °F) 'ea mg 26 29 NA NA NA NA NA NA NA Rise ( r r es _ .rt• .. 577 447 I -- Heating Med– NA NA NA NA NA NA Orange Rise (°F) High eating NA 1 NA NA NA I NA NA Rise ( r : • $ e eat 881 818 731 Heating 36 38 40 46 50 54 NA NA High' Black Rise ( mg 20 21 22 25 28 30 NA NA Rise ( 48ES —A ',, PERFORMANCE DATA (CONT) Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 HEATING RISE MOTOR WIRE EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RANGE °F SPEED COLOR t (°C) 0.1 0.2 0.3 0.4 0.5 0.8 0.7 0.8 0.9 CFM 741 838 547 415 [ -- -- ( -- 1 -- -- Heating Rise 41 47 55 NA NA NA NA NA NA Low Blue ( °F) Heating Rise 23 26 31 NA NA NA NA NA NA ( ° C) CFM 973 887 823 733 665 . 538 451' -- ( -- Heating Rise 31 34 37 41 45 56 NA NA NA Med —Cowl Pink (on J Heating Rise 17 19 20 23 25 31 NA NA NA ( °C) CFM 1088,- 1023 954 881 800 723 658 563 j 461 ,;, 30 — 60 Heating Rise NA 30 32 34 38 42 46 54 NA 48ES(— ,N)A30040 (17 — 33) Medium Red ( °F) Heating Rise NA 16 18 19 21 23 26 30 NA ( Heating Rise NA NA 30 33 36 40 44 54 NA Med—High Orange (0F) Heating Rise NA NA 17 18 20 22 24 30 NA ( ° C) CFM 1202 1140 1082 1015 961 881 810 732 631. '. - Heating Rise NA NA NA 30 31 34 37 41 48 High Black ( Heating Rise NA NA NA 17 17 19 21 23 27 ( CFM 741 -638 547 ) 415 -- -- -- -- — N Heating Rise NA NA NA NA NA — NA NA NA NA Low Blue (°F) Heating Rise NA NA NA NA NA NA NA NA NA ( CFM 973 887 823 -= 733 :: 4,--f, 065 538 451 -- —1111 Heating Rise 46 50 54 NA NA NA NA NA NA Med —Low Pink ( °F) Heating ) 25 28 30 NA NA NA NA NA NA 0 CFM 1088 1023 954 881 800 723 658 563 461 25 — 55 Heating Rise 41 43 47 50 NA NA NA NA NA 48E5(—,N)A30060 (14 — 31) Medium Red (oF) Heating 23 24 26 28 NA NA NA NA NA —I ChM - 1140 1064 996 915 840 758 687 564 480 Heating Rise 39 42 45 49 53 NA NA NA NA Med—High Orange ( °F) Heating Rise (oC) 22 23 25 27 29 NA NA NA NA CFM 1202 1140 1082 1015 - , 981 881 810 732 631 . Heating Rise 37 39 41 44 46 50 55 NA NA Highs Black ( °F) Heating Rise 21 22 23 24 26 28 30 NA NA PERFORMANCE DATA (CONT) • Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 , HEATING RISE I MOTOR WIRE EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RANGE °F ( °C) SPEED . COLOR 0.1 0.2 0.3 0.4 0.5 0.8 t 0.7 0.8 0.9 • CFM 1234.A,4 „ 1168 1093 1021 961 32, 825 759 , 6874 Heating Rise 36 38 41 44 46 50 54 NA NA Low Blue ( °F) Heating Rise 20 21 23 24 26 28 30 NA NA CFM 1290 x }.:.'1223 1154 1090 1027 977 894- . 828 ” ` 782 • . Heating Ruse 34 36 39 41 43 45 50 54 NA Med -Low Pink ( °F) Heating Rise 19 20 21 23 24 25 28 30 NA (°C) Heating ) ise 48ES( ,N)A36060 25 - 55 Medium Red (°F 33 34 36 38 40 42 45 48 53 (14 - 31) Heating Hise — - ( °C) 18 19 20 21 22 24 25 27 29 1 ChM 1606 1546 28 29 1489 1430 1371 31 32 1318 1258' �_T e� �T208: M 1140 Heating Rise 30 34 35 37 39 Med -High Orange ( °F) _ Heating Ruse 15 16 17 17 18 1 19 20 20 22 (C) CFM 1630 1580 1517 1463 '1407 { 1339 I 1277 1210 f- t•!11131 Heating Rise 27 28 1 29 30 32 33 35 37 39 High Black ( °F) _ Heating Rise 1 ( °C) 15 16 16 17 18 18 19 20 22 CFM 1234 1168 1093 1021 961 894 825 759 6874, Is) Heating Rise 55 58 N NA NA NA Low Blue ( °F) 62 NA NA NA Heating Ruse 31 32 35 NA NA NA NA NA NA CFM 1290 1223 1154 1090 1027 977 894 - 828 - fbqiii Heating Rise 53 56 59 62 NA NA NA NA NA Med - Low Pink ( °F) _ Heating Ruse 29 31 33 35 NA NA NA NA NA ( °C) CFM 1354 ':'1290 1226 1158 1102 1046 981 918 843 Heating Rise 35 - 65 50 53 55 59 62 65 NA NA NA 48ES(-,N)A36090 (19 - 36) Medium Red ( °F) Heating Rise 28 29 31 33 34 36 NA NA NA ( ° C) ChM 1608 1548 1489 1430 1371 1318 1258 1208 1140 Heating Ruse 42 44 46 48 50 52 54 56 60 Med -High Orange (OF) o Heating Rise 24 24 25 26 28 29 30 31 33 ( ° C) CFM 1630 1580 1517 1463 1407 1339 1277 1210 •.;; Heating Rise 42 43 45 46 48 51 53 56 60 Hight Black ( °F) Heating Rise I ( °C) 23 24 25 26 27 28 30 31 33 - - 48ES —A •? PERFORMANCE DATA (CONT) Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 , HEATING RISE EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RANGE oF MOTOR WIRE (°C) SPEED COLOR 0.1 0.2 0.3 0.4 0.5 0.8 0.7 0.8 0.9 CFM 1295 1234 1182 1126 ,;,,;1075 -, - ,1016 955 898 Heating Rise 34 36 38 39 41 44 47 49 52 Low Blue ( °F) Heating Rise 19 20 21 22 23 24 26 27 29 ( °C) CFM 1345 1282 1235 1194 1140 1095 1027 974 Heating Rise 33 35 36 37 39 41 43 46 48 Med -Low Pink ( °F) Heating Ruse 18 19 20 21 22 23 24 25 27 ( ° C) CFM 1505 1452 . 1413 1358 1323 1282 1234 1189 1130 25 - 55 Heating Rise 30 31 31 33 34 35 36 38 39 48ES(- ,N)A42060 (14 - 31) Medium Red (on Heating Rise 16 17 17 18 19 19 20 21 22 ( ° C) CFM 1545 1492 1449 , 1411 ,'r.';- 1362 1313 1278 1231 1188 Heating Rise 29 30 31 31 33 34 35 36 37 Med - Hight Orange ( °F) Heating Rise 16 17 17 17 18 19 19 20 21 ( °c) ChM 1705 1643 1607 1568 1483 1448 1404 1360 Heating Rise 26 27 28 28 29 30 31 32 33 High Black ( °F) Heating Rise 14 15 15 16 16 17 17 18 18 ( ° C) CFM 1295 1234 1182 1126 1075 1016 955 898 1 857" " ->.' A Low Blue Hee(°ng Ruse 53 55 58 60 63 NA NA NA NA Heating Ruse 29 31 32 34 35 NA NA NA NA ( CFM 1345 1282 1235 1194 1140 1095 1027 974 1 Heating Rise 51 53 55 57 60 62 NA NA NA Med -Low Pink ( °F) . Heating Ruse 28 29 31 32 33 35 NA NA NA ( ° C) CFM 1505 ? 1452 1413 1358 1323 1282 1234 1169 1130 Heating Rise 35 - 65 45 47 48 50 51 53 55 58 60 48ES(- ,N)A42090 (19 - 36) Medium 1 Red (° F) Heating Rise 25 26 27 28 29 29 31 32 33 i CFM 1545 1492 1449 1411 1362 1313 1278 1231 1188 Heating Rise 44 46 47 48 50 52 53 55 57 Med-High Orange ( °F) Heating Rise 24 25 26 27 28 29 30 31 32 • ( ° C) Heating Rise 40 41 42 43 45 46 47 48 50 High Black ( °F) Heating Rise 22 23 24 24 25 25 26 27 28 ( °C) 'A PERFORMANCE DATA (CONT) • Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 • HEATING RISE MOTOR WIRE EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RANGE °F SPEED COLOR f (°C) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 J CFM 1402 1351 1311 :. 1283:.e.'4 - 1224 •1172. • 1136 1080 1041,E Heating Rise 49 50 52 54 56 58 60 63 65 Low Blue ( °F) Heating Rise 27 28 29 30 31 32 33 35 36 ( ° C) CFM 1457 1404 1367 1318 1284 1233 1197 . 1144 -;1104t5q$ Heating Rise 47 48 50 52 53 55 57 59 62 Med — Low Pink ( °F) Heating Rise 26 27 28 29 29 31 32 33 34 ( °C) CFM 1736 1695 - 1642 1601 1553 1512 1465 1427 1381 35 — 65 Heating Rise 39 40 41 42 44 45 46 48 49 48ES( ,N)A48090 (19 — 36) Medium Red ( °F) Heating Rise 22 22 23 24 24 25 26 26 27 CDC) CFM 2149 2111 2062 2026. 1980 1945 1905 1864 1niir Heating Rise NA NA NA NA NA 35 36 36 38 Med — High Orange ( °F) Heating Rise NA NA NA NA NA 19 20 20 21 ( ° C) CFM 2344 2306 2259 2203 • 2141 2070 1991 1902 ., ,1803;# Heating Rise NA NA NA NA NA NA NA 36 38 High Black ( °F) Heating Rise NA NA NA NA NA NA NA 20 21 ( °C) ChM 1402 1351 1311 1263 1224 1172 1136 1080 10414;f: U Heating Rise NA NA NA NA NA NA NA NA NA Low Blue ( °F) Heating Rise NA NA NA NA NA NA NA NA NA ( ° C) CFM 1457 1404 1367 1318 1284 1233 1197 1144 :: 11 Heating Rise 60 NA NA NA NA NA NA NA NA Med —Low Pink (°n Heating Rise 33 NA NA NA NA NA NA NA NA ( °C) CI-M 1736 -1595 1842 1801-r., 1553 1512 1465 1427 1381 30 — 60 Heating Rise 50 51 53 54 56 57 59 NA NA 48ES(— ,N)A48115 Medium Red ( °F) (17 — 33) Heating Rise 28 I 28 29 30 31 32 33 NA NA CFM 2149 2111 2062 2026 1980 1945 1905 1864 1793 Heating Rise 41 42 43 44 • • 45 46 47 48 Med — Hight Orange ( °F) Heating Rise 22 23 23 24 24 25 25 26 27 (°C) CFM 2344• , - 2306 -2259 2203 •_ 2141 2070 1991 1902 _ 1803,E Heating Rise 37 38 38 39 41 42 44 46 48 High Black ( °F) Heating Rise 21 21 21 22 23 23 24 25 27 ( 48ES —A .*. PERFORMANCE DATA (CONT) Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 HEATING RISE MOTOR WIRE EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RANGE °F SPEED COLOR ( °C) 0.1 I 0.2 ( 0.3 0.4 0.5 0.6 0.7 0.8 0.9 CFM 1402 1351 1311 ' .1268 • ,i 1224 � . , 1172 1136 -1080 1041:.- Heating Rise NA NA NA NA NA NA NA NA NA Low Blue ( Heating Rise NA • NA NA NA NA NA NA NA NA C ) 7 ChM 1457 1404 1367 1318 1284 1233 1197 1144 1104 `.> Heating Rise NA NA NA NA NA NA NA NA NA Med -Low Pink (oF) Heating Rise NA NA NA NA NA NA NA NA NA ( CFM 1738 1695 1642 1601 1553 1512 1465 1427 1381 35 - 65 Heating Rise 55 57 59 60 62 64 NA NA NA 48ES(- ,N)A48130 (19 - 36) Medium Red ( Heating ) 31 32 33 33 34 35 NA NA NA Heating Rise 45 46 47 48 49 50 51 52 54 Med -Hight Orange ( °F) 1 Heating Rise ( °C) 25 25 26 26 27 28 28 29 30 CFM 2344 2306 2259 2203 2141 2070 1991 1902 1803 Heating Rise 41 42 43 44 45 47 48 51 53 High Black ( ° F) Heating Rise (oC) 23 23 24 24 25 26 27 28 30 I CFM 1445 1389 1341 1281 1236 1189 1139 -1072 ' _ °x1027 ;`5; - ' Heating Rise 47 49 51 53 55 57 60 63 NA Low Blue (°F) - -- _- Heating Rise 26 27 28 29 31 32 33 35 NA ( CFM 1678 1635 1602 1558 1513 1474 1438 • 1404 1349 - Heating Rise 41 42 42 44 45 46 47 48 50 Med -Low Pink ( °F) —. -- -- 1— - Heating Rise 23 23 24 24 25 26 26 27 28 ( ° C) CFM 1962 1915 ) 1880 1843 1794 1753 1711 1675 1628 Heating Rise 35 - 65 35 36 36 37 38 39 40 41 42 48ES(- ,N)A60090 (19 - 36) Medium Red (on Heating Rise 19 20 20 20 21 22 22 23 23 ( ° C) CFM 2131.:; 2088 2065 ( 2013 1982 1941 1888 1860 1785- 1 Heating Rise NA NA NA NA NA . 35 36 37 38 Med -High Orange (o9 Heating Rise NA NA NA NA NA 19 20 20 21 ( ° C) CFM 2461 2409 2339 2286 2192 2140 2062 1968 1874 Heating Rise NA NA NA NA NA NA NA 35 36 High Black ( Heating Rise NA NA NA NA NA NA NA 19 20 ( °C) • • • PERFORMANCE DATA (CONT) Dry Coil Air Delivery* - Horizontal Discharge - Unit 48ES- A24 -60 • HEATING RISE MOTOR WIRE EXTERNAL STATIC PRESSURE (IN. W.C.) UNIT RANGE °F SPEED COLOR (oC) 0.1 0.2 0.3 0.4 0.5 0.6 i r 0.7 0.8 0.9 " CFM 1445 1389 1341 1281 1236 1189 1139 1072 ; . ..,:1027;<,»! Heating Rise 60 NA NA NA NA NA NA NA NA Low Blue ( °F) Heating Rise 33 NA NA NA NA NA NA NA NA ChM 1678 1635 1602 1558 1513 1474 1438 - 1404 4.1, 134DMIA Heating Rise 52 53 54 56 57 59 60 NA NA Med —Low Pink ( °F) Heating Rise 29 30 30 31 32 33 • 34 NA NA ( ChM 1962 1915 1880 1843 1794 1753 1711 1675 1628 Heating Rise 30 — 60 n 44 45 46 47 48 50 51 52 53 48ES( ,N)A60115 Mediunf Red (°, / — (17 — 33) Heating Rise j ( °C) 25 25 26 26 9 27 28 28 29 30 CFM 2131 2088 2065 2013 1982 1941 1888 1860 1785,v` Heating Rise 41 42 42 43 44 45 46 47 49 Mad—Hgh Orange ( ° F) Heating Rise 23 23 23 24 24 25 26 26 27 ( °C) CFM 2461 2409 2339 2286 1 2192 j 2140 ( 2062 1968 1874:, Heating Rise 35 36 37 38 40 41 42 44 46 High Black ( ; Heating Rise 20 20 21 21 22 23 23 25 26 N J 48ES -A ., PERFORMANCE DATA (CONT) Dry Coil Air Delivery* - Horizontal Discharge - Unit 4SES- A24 -60 CFM I 1445 1389 1341 1281 • 1236 1189 1139 1072 1022,-' Low Blue Heating Rise NA NA NA NA NA NA t NA NA NA 0 Heating Rise ( °C) NA NA NA NA NA NA NA NA NA CFM 1678 1635 I 1602 1 558 • 1513 1474 1438 ` 1404 1349; Heating Rise 57 59 60 62 64 65 NA NA NA Med -Low Pink ( °F) Heating ) 32 33 33 34 35 36 NA NA NA CFM 1962 1915 1880 1843 1794 1 1753 [ 1711 1675 1628 _ 35 - 65 Heating Rise 49 50 51 52 54 55 56 57 59 48ES(- ,N)A60130 (19 - 36) Medium Red ( °F) Heating Rise 27 28 28 29 30 31 31 32 33 . CFM 2131 j 2088 2065 2013 1982 1941 1888 1860 17851..c Heating Rise Med -Hight Orange (°ff a5 46 47 48 49 50 51 52 54 Heating Rise 25 26 26 27 27 28 28 29 30 ( ° C) CFM 2461 2409 2339 2286 2192 2140 2062 1968 1874 -. ; Heating Rise 39 40 41 42 44 45 47 49 51 High Black ( °F) Heating Rise ( °C) 22 22 23 23 24 25 26 27 29 1 *Air delivery values are without air filter and are for dry coil (See 48ES -A Wet Coil Pressure Drop table). 1 Factory- shipped heating speed 2 Factory- shipped cooling speed "NA" = Not allowed for heating speed N Note: Deduct field- supplied air filter pressure drop and wet coil pressure drop to obtain external static pressure available for ducting. cc Shaded areas indicate speed /static combinations that are not permitted for dehumidification speed. Note: Deduct 10% for 208 volt operation. Dry Coil Air Delivery - Downflow Discharge UNIT EXTERNAL STATIC PRESSURE (IN W.C.) MOTOR SPEED WIRE COLOR 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 48ES -A24 High Black 1050 _ 1000 950 900 850 - - - - - _ 48ES -A30 High Black 1050 1000 950 900 850 ' - - - - - 48ES -A36 High Black 1615 1555 1495 _ 1435 1375 1320 1260 _ 1200 1140 - 48ES -A42 High Black 1775 _ 1710 1670 1630 1580 1540 1505 1460 1415 - 48ES -A48 High Black 2505 2440 2345 2295 2215 ^ 2120 2040 1990 1750 - 48ES -A60 Hi Black 2530 2445 2380 2325 2250 ' 2155 2080 1965 1880 - N. 48ES -A Horizontal and Downflow Discharge Wet Coil Pressure Drop (IN. W.C.) UNIT STANDARD CFM (SCFM) SIZE 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 ' 24 0.030 0.037 0.044 0.053 0.063 - - - - - - - - - - - - 30 - - - 0.053 0.063 0.072 0.081 0.105 - - - - - - - - - 36 - - - 0.055 0.060 0.090 0.100 0.110 0.140 - - - - - - - 42 - - - - 0.045 0.050 0.060 0.065 0.075 0.080 0.090 0.094 0.110 - - - - 48 - - - - - - 0.041 0.063 0.085 0.100 0.104 0.110 0.120 0.130 0.140 - - 60 - 0.060 0.065 0.007 0.077 0.085 0.100 0.115 0.125 • • Horizontal and Downflow Economizer with 1 -in. Filter Pressure Drop (IN. W.C.) DOWNFLOW COOUNG STANDARD CFM (SCFM) ECONOMIZER + INCLUDED FILTERS TONS 600 700 800 900 1000 1100 1200 1300 1400 1500 1800 1700 1800 1900 2000 2100 2200 600-1400 cfm 2.0, 2.5, 0.07 0.08 0.10 0.14 0.17 0.21 0.25 0.31 0.35 - - - - - - - (12)20x1+12x20x1) 3.0 I 1200-1800 cfm 3.5, 4.0 - 0.10 0.12 0.13 0.15 0.17 0.19 0.22 - (16)Q4x1 +14x24x1) 1500-2200 drf1 5.0 - 0.10 0.12 0.13 0.15 0.17 0.18 0.20 0.23 (16x24x1+18x24x1) Horizontal and Downflow Filter Pressure Drop Table (IN. W.C.) FILTER SIZE In. COOUNG STANDARD CFM (SCFM) (mm) TONS 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 600 -1400 cfm - - - - - (12x20x1 +12x20x1) 2.5, 0.05 0.07 0.08 0.09 0.10 0.11 0.13 0.14 0.15 - 3.0 1200-1800 cfm 3.5, 0 .07 0.08 0 .09 0.10 0.11 0.11 0.12 - - - - - - (16x24x1 +14x24x1) 4.0 1500-2200 cfm 5.0 - (16x24x1 +18x24x1) 0.08 0.10 0.10 0.11 0.12 0.13 0.14 0.15 • N s • • 48ES -A .x TYPICAL PIPING AND WIRING 10 1111 11111 woo Ii lll 1 ROOF - MOUNTING CURB x' /0 _ ∎1 \ o, ROOF ' � \ RETURN-AIR ^. FLEXIBLE DUCT FUPPBLEID E DUCT ' - BL �- FLEXI CEILING CONCENTRIC DIFFUSER BOX (FIELD- SUPPLIED) A09230 INDOOR 1 mon P 0 RI .' THERMOSTAT '- .-.. '..-. Mil 7"17:7■:= 1111111111 4' RETURN AIR I � ` Air I FROM TOP COVER / POWER �_ � .� SOURCE Ar ..."..,... 0 , ------- mop- . Ale ----_______________________ .......-----w ,01 0 111 111 I�� jl!��� 1 ' ��00 -- l ukkh- j 11JI dll 0�/l�'/ Aid i i ! I� PER NEC* '� -\ G'�a I % GAS LINE o, ..° *NEC - NATIONAL ELECTRICAL CODE A09231 30 • APPLICATION DATA Condensate trap A 2 -in. (51 mm) condensate trap must be Maximum cooling airflow — To minimize the possibility of field supplied. condensate blow -off from the evaporator, airflow through the units Ductwork — Secure downflow discharge ductwork to roof curb. should not exceed 450 cfm per ton. For horizontal discharge applications, attach ductwork to unit with Minimum cooling airflow — Minimum cooling airflow is 350 flanges. cfm per ton. To convert a unit to downflow discharge — Units are equipped Minimum ambient cooling operation temperature — All with factory - installed inserts in the down -flow openings. Removal standard units have a minimum ambient operating temperature of of the inserts is similar to removing an electrical knock -out. Use 40 °F (4 °C). With accessory low ambient temperature kit, units can the duct cover to seal the horizontal discharge openings in the unit. operate at temperatures down to 0 °F (- 17 °C). Units installed in horizontal discharge orientation do not require Minimum temperature — Air entering the heat exchanger in duct covers" heating mode must be a minimum of 50 °F (10 °C) continuous Airflow — Units are draw -thru in the cooling mode and and /or 45 °F (7 °C) intermittent. blow -thru in the heating mode. • • . Q to o 31 ELECTRICAL DATA NOMINAL VOLTAGE RANGE COMPRESSOR OFM IFM IDM POWER SUPPLY UNIT V -PH -HZ ' ' , .V maminimtrdmmil;aa,�;�mi mmSIH_M ' l imi=2,n_,. . i� it-�taia a■iCafi3ii�iar ��.. tia4-Ya,IL•Bb:�Lhli iVI:1• c 'M a`�a�al���i�a' wmci,IL2.10.0. ate' ' ' iLIMMIiMIM miva.11_kI:I•r: m afi1a111M2/ ■iLattb'a•112E2111 - 11K= .=t" I 208208/230 -1 - 60 1 87 253 ' �'ilL� r '�_ 1 ' urii.ialgataum tlti:lmaimpl:Izim 11111'iL= e'italM•t6aMIa♦ +� t imig )Y ;i t P; IM. JMIIILESiW111 +'ate Ilcia .ya ,1LE2 MAILIMiM:b'IIIIIiI'ata6aIMaa EIMMa• iirili ta, - -. �>itti� Miiirta aiLatf6MiMiibaas ■11 m .ya, UMLUDRIMEMMILMMIUM=ralk=i1MMUMINI IrLi a.IL•Kh:�zs�� IMILS =1=1121■iCMIs3ii•Eiaf a■ ' pia ma,n_eh:�I:h>• IIIILLEINIMILOV=IMILMINCAIIIIIIINAMMLIMINIMILMIN wi:1 .9a,11 a �Yb>• mid' IMIL a'ill•iILIIIIt MIIiRa c w -ta. Y MiI•I�>• ii'bs :: iEjudimuu - ' * 4 Ivo IMIM,MIM.12MMMLLIIIIMVEIIIIINRMMMIIIIItadll•IEIIIMIIMIMIM Q <fil�- I a,IkCSIrkI�>• ' ' ' i MAIL' "'���'I� c I <57 9a,ILCi:Ir 2081230 -3 -60 187 253 _iRMINIM; IMMEMI MIN e . U) �i:i IaiwaIm iLEMSallIMiILafadaiB'iIIMU >_ W 1 3:la.9a, Y ;IKIa fLUIIIISLIMINU afiILIMILMIIM1 a co er =Law ..,,�> Kh>• MELIMIIIIIILMIIIIIIIILMMILIMMEMIMILaMMMIIMMINIII im . ga,v_Ki:Ir.. m IIILIMINIMIL b' INIMit3iliLd��1 mala,n_el:I.x:2>• a�T ' �Mi3��iiLMIIII .T - , ' • 42' muum ' � mum c ' NIZIIIiii •T -, . 4 0• Ma ►' `'M ° c ' . 480. ' �aKaa�M�aa ' c �L4� tic3 .9 460 -3 -60 414 506 aL �a�6a�`'�S`3at'�'aiiF3a■ 1 ;I*�a,ncGF➢KIr>• a•afi6at3'ats3a " iY3a■ ura a,wz�-. 1 lo�'bamfiomm mmat'usia ara■ mma,n_t. . >>iti 1 IIIRLIMIIIIMIN1S' M3alILIMii5a■ ' •T: - 1 'r.• • .. O. ', ' '• •* FUSE OR CIRCUIT BREAKER Note: 480 volt units have 230 volt ID motors with FLA values at 230 volts EXAMPLE: Supply voltage is 230 -3 -60. LEGEND A B AS =228v BC 231 V FLA - Full Load Amps AC == 227 v IDM - Inducer Motor Averag Voltage = 228 + 231 + 227 IFM - Indoor Fan Motor 3 LRA - Locked Rotor Amps MOTOR _ 686 MCA Minimum Circuit Amps 3 MOCP - Maximum Over Current Protection • = 229 OFM - Outdoor Fan Motor RLA - Rated Load Amps Determine maximum deviation from average voltage. (AB) 229 - 228 = 1 v (BC) 231 - 229 = 2 v NOTES: (AC) 229 - 227 = 2 v 1. In compliance with NEC (National Electrical Code) requirements Maximum deviation is 2 v. for multimotor and combination load equipment (refer to NEC Determine percent of voltage imbalance Articles 430 and 440), the overcurrent protective device for the unit -shall be Power Supply fuse or circuit breaker. % Voltage Imbalance = 100 x 2 2. Minimum wire size is based on 60 C copper wire. If other than 229 60 C wire is used, or if length exceeds wire length in table, determine size from NEC. = 0.8% 3. Unbalanced 3 -Phase Supply Voltage This amount of phase imbalance is satisfactory as it is below the Never operate a motor where a phase imbalance in supply volt- maximum allowable 2 %. age is greater than 2 %. Use the following formula to determine the percentage of voltage imbalance IMPORTANT: If the supply voltage phase imbalance is % Voltage imbalance more than 2 %, contact your local electric utility company max voltage deviation from average voltage = 100 x immediately. average voltage A06564 32 CQNNECTION WIRING SCHEMATIC 208/230 -1 -60 CONNECTION WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING NOTES: rr 1. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE CCN K 1F USED 2 O S 4 2.$0-1- E A I C REPLACED. THEY MUST BE REPLACED WITH TYPE $ / b0 90 DEG. C WIRE OR ITS EOUIVALENT. 2. SEE PRICE PARES FOR THERMOSTAT AND SUBBASES. 3. USE 75 0E6. COPPER CONDUCTORS FOR FIELD BK • INSTALLATION. BK BKtBK Au OFM 4. SEE INSTALLATION INSTRUCTIONS FOR PROPER HEATING AND COOLING CONNECTIONS FIELD r\ C, ,,, / FOR YOUR UNIT. INDOOR FAN MOTOR PLUGS - — L1 J ^ BN KC!J`� Y-.-Y 'DO NOT DISCONNECT UNDER LOAD' / \ Y CAP1 gN S. ON SMALL BASE MODELS LS1 AND LS2 ARE WIRED SUPPLY L2 IN SERIES. LARGE BASE MODELS HAVE LS1 ONLY. - — L Y ® II F BR�BR 6. INDUCER CAPACITOR AND WIRING ON CERTAIN MODELS ONLY. IF CAP2 IS PRESENT, YELLOW WIRES FROM I6C AND IDM CONNECT K I ON SAME SIDE OF CAP2. li[ COMP 7. THIS FUSE IS MANUFACTURED BY LITTELFUSE, P/N 257003. EOUIP_G ND U. THIS FUSE IS MANUFACTURED BY LITTELFUSE, PIN 257005. - - 101 I E I B L � K MIMIC MEATUS RU L (C 1 CUCKIZE1 K- ERNi1ZEN MINIM K- EMERRIIEG COLOR CODE COMPRESSOR PLUG LEGEND w BK BLACK ® 00 0 FIELD SPLICE FS FLAME SENSOR BL BLUE Y N ND CD TERMINAL (MARKED) FU FUSE BR BROWN o TERMINAL IMMURED) GND GROUND GY GRAY Y rG/Y G ND — • SPLICE (IF USED) GVR GAS VALVE RELAY G GREEN 13K • L ° SPLICE (MARKED) HV TRAM HIGH VOLTAGE TRANSFORMER 0 ORANGE • CON IFM — . . ORY WIRING I IGNITOR P PINK co ' T► I PRIMARY ®' - -FIELD CONTROL WIRING IFB INDOOR FAN BOARD R RED 208/230V - -FIELD POWER WIRING IGC INTERGRATED 6AS UNIT V VIOLET - -- ACCESSORY OR OPTIONAL CONTROLLER W WHITE _ WIRING IDM INDUCED DRAFT MOTOR Y YELLOW - ---TO INDICATE COMMON IFM INDOOR FAN MOTOR 1 2 3 4 5 POTENTIAL ONLY: LOPS LOW GAS PRESSURE SWITCH (WHEN USED) TR AN Y NOT TO REPRESENT WIRING IS) PRIMARY LIMIT SNITCH IDM L_ BLR BLOWER RELAY LS2 SECONDARY LIMIT SWITCH SECONDARY Y =MIME - NOV C CONTACTOR MAIN GAS VALVE CAP 1 CAPACITOR, COMP OFM OUTDOOR FAN MOTOR © 24V 24 ' I AP 2 1 CAP 2 CAPACITOR, INDUCER PRS PRESSURE SWITCH COMP COMPRESSOR MOTOR OS QUADRUPLE TERMINAL . FOR CR COMBUSTION RELAY TS ROLLOUT SWITCH EQUIP EQUIPMENT TRAM TRANSFORMER THERMOSTAT BK ( )-- — T'STAT m IGC ® SEE NOTE 6 i GY -® n W ® SEE NOTE 8 v BR © SEE NOTE 5 B R SA FUSE I J w- Q T'STAT BL SEE l - w ® BL O. RS NOTE 4 BL - -DH ® Y G _ Q L 0 © v — , L , r; - 0� sz•t Y - L - - ® ,_ L (WHEN USEI) �PRS R--9- ® o o Iiir MG V BK �R — �� - -R CUB —GY O • 4 �A ti E , Q- —B R _ .- ,,, = F S � T-0 0 - I0 -80 rh /7 1- 7 •_t__ 6/Y n BR rh GROUNDED 'IF THRU STANDOFF SEE NOTE 4 IFB R —� I NOTE 7 BK LPS o� =- c°o�r —te+ HPS BR BL L 0O� BR L IL J BR K BR TO IFM BR A09202 33 LADDER WIRING SCHEMATIC 208/230 -1 -60 LADDER WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING L1 I USE COPPER CONDUCTORS ONLY G/Y IL2 BK FIELD SUPPLY L Y 208/230 VAC, 60 HZ, 1PH = • 10 UNIT COMPONENT ARRANGEMENT I (IF USED) 11 CCH mourn CONY 21 23 C 23 SECTION SECTION v- aM • BK-4)--BK \."."/ 1 K O • COMESSOI MOOS FAN CONTLOL LOS ALFA 1 1 OFM I G ]/T smial Ilan lu ® 21 21 BK-P -BK C R Y Y iiisw � 11 ct3 ;R-41-011 5 Y / / ® I m F a j ® cu 11 1 "" I ru a : BK C A CAP C Cl) ACT ITN BL co car , ® C S R Y LSI SECTION N COMP C S (SPAR WHIM U • BK ® t • 23 11 /Y IGC ' ' r L1 CR CM IGC • BK • • V Y L2 11 IDM BR —IC Y 0 Y • 23 BK r i G/Y CAP2 I IFB P30 COM SEE NOTE 6 PRIMARY 2 Y T'STAT 24VAC R R I SECONDA 24V ' -- BR SEE NOTE 7 f 24V C IFB FUSE IGC SEE NOTE 8 • 3A IGC RT SA FUSE O COM C O CY1 0 R — R O R FS P2 2 "C P1 -1'R' P2 -1 "R" 0 Y� O I • BR 0 FS / ) / KS ill� —BL RS ��rr''�� R 1 S O ---G/1 • RS (SEE NOTE 5) O —R — / 1 m LS L1 L2 • R ° LS G G O O LGPS (WHEN USED) Y p S P1 -4'G' DH - —- 131. 0 O GY GV MGV P1-5'Y2 /DH' O GY — O IFO P2-5 "X" 10 R w - - W O 20 P1 -6 "W" 3 O 0 w OW P2 -3'W' 0 NPs lrs Cl C2 �o-:� C o -O - BL • CONT • BR O C P2-4"r0---R—OR B I K ° COM Y - - �Y O Y[ I O 0 P1 3 "Y1 /YI- LOW O BE r— FEEE - q IFM BR P1 -2'C' —� HIGH O SEE NOTE 4 — R� A C LAS HEAT 01_1 BK— N -- \,.. 1 BR 48VL500172 E A092132 34 CONNECTION WIRING SCHEMATIC 208/230 -3 -60 CONNECTION WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING NOTES: . 1. IF ANY OF THE ORIGINAL WIRES FURNISHED ARE CCH REPLACED, THEY MUST RE REPLACED WITH TYPE SCHEMATIC N IF USED 90 BEG, C WIRE OR ITS EQUIVALENT. 3 ' 6 2. SEE PRICE PAGES FOR THERMOSTAT AND SUBBASES. 3. USE 75 DEG. COPPER CONDUCTORS FOR FIELD BR BR OFM INSTALLATION. BK +BK COLOR CDDF Aim • 4. SEE INSTALLATION INSTRUCTIONS FOR PROPER HEATING AND COOLING CONNECTIONS FIELD C FOR TOUR UNIT. INDOOR FAN MOTOR PLUGS _ ___P YtY BK BLACK 411 Co - 'DO NOT DISCONNECT UNDER LOAD' °K D T P i BA BROMN BK 5. LS2 USED OW SMALL CHASSIS ONLY. SUPPLY L3 6. INDUCER CAPACITOR AND WIRING ON CERTAIN MODELS ONLT. — — • �E1R GY GRAY IF CAP2 IS PRESENT, YELLOW WIRES FROM IGC AND 1D11 CONNECT ON SAME SIDE OF CAP2. L2 156 1�U1 D ORANGE 7. THIS FUSE IS MANUFACTURED BY LITTELFUSE, P/N 257003. —BL P PINK R. THIS FUSE IS MANUFACTURED 8T LITTELFUSE, P/N 257005. - R RED 9. DEHUMIDIFICATION FEATURE CANNOT BE USED WHEN EOUIP_GND V VIOLET ECONOMIZER IS INSTALLED. - — 101 I NIVII N WHITE -L T V T FELLOW Q o COMP I COMPRESSOR PLUG En COOLING FAN LOGIC DED ECONOMIZER PLUG _ — I G G T� fiO Y Y L2 •t I GND fcoM G N D 7 T P • I Wl ® I ENERGIZED DE-ENERGIZED ^ N L1 o ( L r • BL I ' CON IFM � � is — _� HEATING FAN LOGIC - 4 PRIMARY fl o 4s 208/230V is � Yo TvAs VIII D ( B GO ENERGIZED DE- ENERGIIZED 1 2 3 4 51 2 T— Y i 3 TRAN [ — : IDM I L I �- I 1 SECO el I R pA 24V 0--- • CAP 2 6R y� © 1 S BK / � T rG /Y P I 11 GK- 77 I It BR —BR m IOC ® _ SEE J2 11 41P4 NOTE - GY 4fa BL SEE NOTE 8 - w ® F DR — ® SA SA FUS TC SEE NOTE _ GYM L _ ® B L RS SEE 'STAT I L _ _w • ® BL O NOTE 4 • •© ® V LSI 152 BL - pi ® Y-- -Qom - O• - •© G-___ - -p K ® T _ LGPS (WHEN USED) Y - -T1 © o ® 0 PRS MGV B /__\ - -C ® — R T IC- J L - R Q a� +s N i� ` - ® ° FS x ® T- o o � 0— 0 — o I Q- eR • • NPS T v DH G/Y /f7 OK ECON ECONOMIZER ON MODE GROUNDED EQUIP EQUIPMENT THRU STANDOFF FS FLAME SENSOR BL BR F U FUSE 4 LPS ))FIELD SPLICE L EGEND GND GROUND SEE NOTE 4 O TERMINAL (NARKED( GYR GAS VALVE RELAY BL o TERMINAL (UNMARKED) HO TARN HIGH VOLTAGE TRANSFORMER • SPLICE (IF USED) CD SPLICE (MARKED) I IGNITOR I ®l IFO INDOOR FAN BOARD - FACTORY HIRING IGC IMTERGRATED GAS UNIT - - FIELD CONTROL WIRING CONTROLLER BR -- FIELD POWER WIRING IDR INDUCED DRAFT MOTOR -- ACCESSORY OR OPTIONAL IFM INDOOR FAN MOTOR SEE NOTE 9 SEE - WIRING LOPS LOW GAS PRESSURE SWITCH NOTE 7 (WHEN USED) 17— - • • e — TO INDICATE COMMON LS1 PRIMARY LIMIT SNITCH I POTENTIAL ONLY: N MOT TO REPRESENT WIRING LS2 SECONDARY LIMIT SWITCH o x o - o l o g o•+ r--, DER BLOWER RELAY IWV MAIN GAS VALVE L > J C CONTACTOR OFM OUTDOOR FAN MOTOR B R CAP 1 CAPACITOR. COMP PRS PRESSURE SWITCH - R C AP 2 CAPAC ITO. IMDUC EA QT QUADRUPLE TERMINAL COMP COMPRESSOR MOTOR TRAM TRANSFORMER 111-a BR CR COMBUSTION RELAY T'STAT THERMOSTAT • A09264 35 LADDER WIRING SCHEMATIC 208/230 -3 -60 + LADDER WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING IA UNIT COMPONENT AIRAN6ENENT _ ' _ 1 n I L1 O USE CO CONDUCTORS ONLY G)Y I L2 FIELD SUPPLY 1 Y 1I E`r�r rr crnit w ru • 206!230 VAC, 60 HZ, 3PH = ® to ii i 11[ n u " III uu wu, Iu`ul 1 CCH BL CONT 21 CCH USED) 23 C 13 1 O G — A.• BK- ® �■ � -BK C � R Y--/ Y 8 5 Y m In KM" O ® +6 u " UMW, I a BK u n • Q 2 T1 T Y Ln COMP LLI 1 1 13 IGC /-r7 cD ,Y— L 1 CR CM IGC . • BK • • V Y � L2 Y 13 • 11 BR ---4C l Y O BK , 6/Y CAP2 r SEE NOTE 7 IFB 230 TRAM CON SEE NOTE 6 PRIMAAT Ea" °4 Y 24VAC R p BR 24V SECONDARY 244 C IFB IGC T'STAT USE SEE NOTE 8 n 3A --IV XT rusl IGC O CON C R R R P R" P2 1'R' O T p 0 • BR 0 P2-2 "C" FS Q RS BL BL7 • O GUY • RS Afilk LI V R -- I i LS O L1 L 2 • R LS (SEE NOTE 5l G - - " G O P1 "G' CS D LIPS ®N USED) Y PRS 0 CS O 61 GVy P2-5 "X' O— sY_OIFO 10 R N N 0P1-6 'w' 20 • 30 P2 -3 "N" O- -N O N OM - 6L O P1- 5'12 /DH' 0 In u! Cl C2 BR 0 C - �--BK- BBL -ad� 64 OCON BL • r • u � P2 4.R. -R -O I Yl - -J L— Y OP1- 3'11/1' 1� I 0 SEE NOTE 9 — r Low O rL$L Pi 2 "C' H O \ EE NOTE 4) P R� t^' IFN BR O /--\ SAS MEATQJ l BN— C - - 1 -BR Y ECON N HARNESS Y2 - -I I Y I BK II BR 0 CDN C / —rBL P---4.--6L 48VL500173 C A09264 36 CQNNECTION WIRING SCHEMATIC 460 -3 -60 4 . CONNECTION WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING NOTE5: . 1 . I F ANY Of THE ORIGINAL WIRES FURNISHED ARE CCN I F USED S C H E M A T I C REPLACED, THEY MUST BE REPLACED WITH TYPE OF M 90 006 C WIRE OR ITS EQUIVALENT. BK 7 4 6 0- 3— 6 0 2. SEE PRICE PAGES FOR THERMOSTAT AND SUBBASES. 3. USE 75 DEG. COPPER CONDUCTORS FOR FIELD BK R 8K INSTALLATION. CDIOA CODE t— A. SEE INSTALLATION INSTRUCTIONS /"� y FOR PROPER HEATING AND COOLING CONNECTIONS FIELD U C CAP( BA BLACK FOR YOUR UNIT. INDOOR FAN MOTOR PLUGS L 1 J - 'DO NOT DISCONNECT UNDER LOAD' BA O fI A I BR Bl BLUE A 5 LS2 USED ON CHASSIS ONLY. SUPPLY L3 C F BR BROWN 6. INDUCER CAPACITOR AND WIRING ON CERTAIN MODELS ONLY. - Y ® GY GRAY IF CAP2 IS PRESENT, YELLOW WIRES FROM CONTACTOR AND IOM ii B UI� 0 GREEN CONNECT ON SAME SIDE OF CAP?. 0 ORANGE 7. THIS FUSE IS MANUFACTURED BY LITTELFUSE, P/N 257003. L2 9L (� P PINK 8. THIS FUSE IS MANUFACTURED BY LITYELFUSE, P/N 257005 - --- A RED 9 THESE O _ GND FUSES ARE MANUFACTURED BY COOPER BUSSNAN, EOUIP [--I F UT 5 AMP 1-BK- V VIOLET P/N FRO-R-5. Y ® .. . W WHITE 10. DEHUMIDIFICATION FEATURE CANNOT BE USED WHEN - — 10 l I BK � K r YELLOW ECONOMIZER IS INSTALLED. 1 I R COMP Q B ' COMPRESSOR PLUG I L COOLING FAN LOGIC R I _ y ® LJJ cn 0 C C 460V 2 --1____y L2 I GND cr I ECONO PLUG G G BK GND r F A /T7 I I P • et. ECON I ENERGIZ TA E NEP G IZED T,__ __5) 1----BK J7 L1 IFM J � ` P • I a ® HEATING FAN LOGIC AUTOTRANSFORMER Pc OM 111 - -I W B I 5 M 1.45 Y BK 11 0 CD 1 o AT ENERGIZED of- ENERGIZED PRIMARY 1 2 3 4 51 e o 2 < 460V V I L , Z Y TRAM Y IOM 1� SECOlIDARY v CA 2 BL 'K E - R 24 r 4V `-1 T I-OR Y S 5 I BA 1 ; rGIY OD-- 12 - < ` BR !77 I 2 — BK m ® • _ SEE I I - - _ NOTE 6 -. J2 . GY -© BE • SEE NOTE 9 w -WO • BRR R © SEE NOTE 5 - 5A FUSE 0 I ?OK R O • • HI �_...__ • GY Y ® BL RS SEE _J 1 _ _ STAT '' ® BL NOTE 4 W — E - -w ID v Bt--CT - CH © V O 1.51 .E P 1 LS2 3 G -G © I IGPS (WHEN USED) Y �� -- Y1 N. © 0 _.. � �._ PRS ( BR- / -4- ., - -C ® 61 ©re1. �.",., I f --RJ L - -R BK OE ---OR F5 rh 1 .iiii.. IPFSe ti J 2fo � ® 0- 0I0 -BR • — I I 6/Y • NPS • Q BK I GROUNDED THRU STANDOFF DH DEHUMIDIFICATION SIGNAL Ill BR [CON ECONOMIZER EQUIP EQUIPMENT IPS LIFIELD SPLICE LEGEND FS FLAME SENSOR qq =TERMINAL (MARKED( FU GROE GND GROUND IF13 BL e C2V • TERMINAL (UNMARKED, OAR GAS VALVE RELAY -SEE NOTE 4 L_ L1 • SPPLICE ICE I IT USED) HA IRAN HIGH VOLTAGE TR iAANSf ONMCR \ C_.SPLICE (MARKED) I IGNITOR -- FACTORY MIRING ITB INDOOR FAN BOARD - FIELD CONTROL AOI WIRING IGC INIERGRAFCO GAS UN) 4 CONTROLLER T - - FIELD POWER WIRING INDUCE SEE BR ION INDUCED NA NOTE 10 • "/ -SEE -- ACCESSORY OR OPTIONAL LEN INDOOR FAN MOTOR X NOTE 7 WIRING LOPS LOW GAS PRESSURE SWITCH - 1 • • t / — TO INDICATE COMMON WHEN USED) POTENTIAL ONLY' LS1 PRIMARY LIMIT SWITCH Y e NOY TO REPRESENT MIRING LS2 SECONDARY LIMIT SWITCH i ° 'Z• o i X01 -- I BLR BLOWER R ELAY MGV MAIN GAS VALVE L J C CONTACTOR OFN OUTDOOR FAN MOTOR CAP 1 CAPACITOR, COMP PRS PRESSURE SWITCH - R BR CAP 2 CAPACITOR, INDUCER RS ROLLOUTL TERMINAL SWITCH —R COMP COMPRESSOR MOTOR IRAN TRANSFORMER BR CR COMBUSTION RELAY T'STAT THERMOSTAT A.09285 37 LADDER WIRING SCHEMATIC 460 -3 -60 LADDER WIRING DIAGRAM DANGER: ELECTRICAL SHOCK HAZARD DISCONNECT POWER BEFORE SERVICING 30 uMI1 CON/PINT ARRANGEMENT L1 I USE COPPER CONDUCTORS ONLY I I+ VIM I "• I BK FIELD SUPPLY G/Y IL3 L2 1 Y ta4Tns twaa rr cana P" uu • 460 VAC, 60 HZ, 3PH "'[Ilpl UCIi ILPS I uiiiwu 1" ® Iet 1:', A l 1 11 CCH BE CONT 21 ( IF USED) 23 C 13 IxPS 1 �� • R — - BR-- -{ �/�/� I I—BN • e. "1 11-1 - l R6 Iw 1 I ° N B R C orN R G COMP ® S 1 l R Y i , ' E: " c". / F l' tY1Ktl Bx CAP C l Ii I e • Q T2 • I El T Y Cl) CDNP co w 11 86 ® Y 1 3 • cr G /Y� !GC / 4 L1 CR CM r BR • • V I Y 13 • 11 Q BR -C BI( 0/Y CAP? 1.411.------- SEE NOTE 1 IFB 460V IRAN 46 NOTE 6 PA(NARr 4aer Y 24VAC R p BR 24V SECONDARY ?IV 24V IFB T'STAT FUSE IGC SEE NOTE 8 R 3A R NI NI S FUSE IGC • CON C R R P R P2 1'R' o r FS I I • BR • P2 - 2•C' F S J In' raj US R--6)-111 .-1 1 0 1 G/Y • C RS Q V L 1 -R LS L 2 _ -, i 0 (SEE NOTE 5) l o - L G —O P1 -4 "G" 0 LGPS (WHEN USED) Y PRS (7 0 —®- -0 Q of GV UV N P2-5'8' Q--- Gr --QIFO R 1 O OR W - - W O P1 - 6•W' 20 30 P2-3'1(1" 0- — w OW DR - BL O P1- 5•Y2 /DN" vi Cl C2 -- o�+ - BA- BL�L —BL • A • BR • C OM P2-1/r 4•R" O R O R 11 � r --O P1 -3'11 - •coN • r ti � P1 -2'C" SEE NOTE 10 I—wow , ,, n\ L 1 ■ RR HIGH (� \ E f ND(F A -P R � p i _ GAS HEAT (Di \ Bs- v C 1 BR r ECON A I H ARMES S Y2 -I I v 2 3 4 BR - -` cum c 5 —BR- 6 P B 0 7 P- TBL B 48VL500174 C A09265 i 38 , CONTROLS On the loss of the thermostat call for cooling, 24 V is removed Operating sequence from both the "Y1/Y" and "G" terminals (provided the fan switch Heating - On a call for heating, terminal "W" of the thermostat is is in the "AUTO" position) de- energizing the compressor energized, starting the induced -draft motor. When the pressure contactor and opening the contacts supplying power to switch senses that the induced -draft motor is moving sufficient compressor /OFM. After a 90- second delay, the IFM shuts off. If combustion air, the burner sequence begins. This function is the thermostat fan selector switch is in the "ON" position, the IFM performed by the integrated gas unit controller (IGC). The indoor will run continuously. (evaporator) -fan motor is energized 45 sec after flame is NOTE: On units with a Time Guard II device: Once the established. When the thermostat is satisfied and W is compressor has started and then stopped, it cannot be restarted de- energized, the burners stop firing and the indoor (evaporator) again until 5 minutes have elapsed. fan motor shuts off after a 45 -sec time -off delay. Please note that the IGC hods the capability to automatically reduce the indoor fan motor on delay and increase the indoor fan motor off delay in the event of high duct static and /or partially - clogged filter. Cooling — When the system thermostat calls for cooling, 24 V is supplied to the "Y1/Y" and "G" terminals of the thermostat. This completes the circuit to the contactor coil (C) and indoor (evaporator) fan relay (IFR). The normally open contacts of energized C close and complete the circuit through compressor w w motor (COMP) to outdoor (condenser) fan motor (OFM). Both co motors start instantly. The set of normally open contacts of energized IFl close and complete the circuit through IFM. The IFM starts instantly. 39 GUIDE SPECIFICATIONS Packaged Gas Heating/Electric Cooling Units 3. Condenser fan shall be direct drive propeller type with alu- Constant Volume Application minum blades riveted to corrosion resistant steel spiders, be dynamically balanced, and discharge air vertically. HVAC Guide Specifications D. Compressor: Size Range: 2 to 5 Tons, Nominal Cooling 1. Fully hermetic compressors with factory - installed vibration 40,000 to 130,000 Btuh, . isolation. Nominal Heating Input 2. Scroll compressors shall be standard on all units. Model Number: 48ES -A E. Coils: Part 1 — General Evaporator and condenser coils shall have aluminum plate fins SYSTEM DESCRIPTION mechanically bonded to seamless copper tubes with all joints Outdoor rooftop mounted, gas heating/electric cooling unit brazed. Tube sheet openings shall be belled to prevent tube utilizing a hermetic scroll compressor for cooling duty. Unit wear. shall discharge supply air vertically or horizontally as shown F. Heating Section: on contract drawings. Condenser fan /coil section shall have a 1. Induced draft combustion type with energy saving direct draw -thru design with vertical discharge for minimum sound spark ignition system and redundant main gas valve. Q levels. I QUALITY ASSURANCE 2. Induced -draft motors shall provide adequate airflow for to combustion. W op A. Unit shall be rated in accordance with AHRI Standards 3. The heat exchangers shall be constructed of aluminized steel rt 210/240 and 270. for corrosion resistance. B. Unit shall be designed in accordance with UL Standard 1995 4. Burners shall be of the ir type constructed of and ANSI 221.47. aluminum coated steel. C. Unit shall be manufactured in a facility registered to ISO 9001 5. All gas piping and electric power shall enter the unit cabinet manufacturing quality standard. at a single location. D. Unit shall be UL listed and c -UL certified as a total package for safety requirements. G. Refrigerant Components: E. Roof curb shall be designed to conform to NRCA Standards. Refrigerant expansion device shall be of the TXV (thermostatic expansion valve) type. F. Insulation and adhesives shall meet NFPA 90.1 requirements for flame spread and smoke generation. H. Filters: G. Cabinet insulation shall meet ASIIRAE Standard 62.2. Filter section shall consist of field- installed, throwaway, 1 -in. (25 mm) thick fiberglass filters of commercially available DELIVERY, STORAGE AND HANDLING sizes. Unit shall be stored and handled per manufacturer's I. Controls and Safeties: recommendations. 1. Unit controls shall be complete with a self- contained low Part 2 — Products voltage control circuit. EQUIPMENT 2. Compressors shall incorporate a solid -state compressor A. General: protector that provides reset capability. Factory - assembled, single - piece, heating and cooling unit. J. Operating Characteristics: Contained within the enclosure shall be all factory wiring, piping, 1. Unit shall be capable of starting and running at 125 °F controls, refrigerant charge with R-410A refrigerant, and special (51°C) ambient outdoor temperature per maximum load features required prior to field start -up. criteria of AHRI Standard 210. B. Unit Cabinet: 2. Compressor with standard controls shall be capable of op- 1. Unit cabinet shall be constructed of phosphated, eration down to 40 °F (4 °C) ambient outdoor temperature. zinc coated, pre painted steel capable of with standing 500 3. Units shall be provided with fan time delay to prevent cold hours in salt spray. air delivery before the heat exchanger warms up. 2. Normal.service shall be through multiple removable cabinet 4. Unit shall be provided with 90- second fan time delay after panels. the thermostat is satisfied. 3. The unit shall be constructed on a rust proof unit base that K. Electrical Requirements: has an externally trapped, integrated sloped drain. All unit power wiring shall enter the unit cabinet at a single 4. Evaporator fan compartment top surface shall be insulated location. with a minimum 1 /2 -in. (12.7 mm) thick, flexible . . fiberglass insulation, coated on the air side and retained by L. Motors: adhesive and mechanical means. The evaporator wall 1. Compressor motors shall be of the refrigerant - cooled type sections will be insulated with a minimum semi -rigid foil- with line -break thermal and current overload protection. faced board capable of being wiped clean. Aluminum foil - 2. All fan motors shall have permanently lubricated bearings, faced fiberglass insulation shall be used in the entire indoor and inherent, automatic reset, thermal overload protection. air cavity section. 3. Condenser fan motor shall be totally enclosed. 5. Unit shall have a field - supplied condensate trap. 4. Evaporator Fan Motor to be ECM Motor. C. Fans: M. Low NOx: 1. The evaporator fan motor shall be a multi- speed, direct- Shall provide NOx reduction to values below 40 drive, as shown on equipment drawings. nanograms/joule to meet California's and other localities' emis- 2. Fan wheel shall be made from steel, be double -inlet type sion requirements as shipped from factory. with forward curved blades with corrosion resistant finish. Fan wheel shall be dynamically balanced. 40 GUIDE SPECIFICATIONS (CON1) N. Compressor Protection: 10. High Altitude Propane Conversion Kit: Solid -state control shall protect compressor by preventing Shall consist of all required hardware to convert to propane "short cycling." gas heat operation at 2001 to 6000 ft (611 to 1829 m) above O. Special Features Available: sea level. 1. Coil Options 11. Low Ambient Package: • _ Base unit with tin plated indoor coil hairpins available as a Shall consist of a solid -state control and condenser coil factory installed option. . - temperature sensor for controlling condenser -fan motor op- 2. Compressor Start Kit (single phase units only): eration, which shall allow unit to operate down to 0 °F Shall provide additional starting torque for single -phase ( -17 °C) outdoor ambient temperature when properly comEressors. installed. 3. Thermostat: 12. Louver Metal Outdoor Coil Grilles To provide for one -stage heating and cooling in addition Available as a field accessory. Provides hail and vandalism manual or automatic changeover and indoor fan control. protection. 4. Crankcase Heater: 13. Manual Outdoor Air Damper: Shall provide anti - floodback protection for low -load cool- Package shall consist of damper, birdscreen, and rainhood ing applications. which can be preset to admit outdoor air for year -round Q ventilation. 5. Economizer: 14. Natural -to- Propane Conversion Kit: W a. Economizer controls capable of providing free cooling Shall be complete with all required hardware to convert to a using outside air. propane gas operation at 10.0 IN. W.C. manifold pressure. b. Equipped with low leakage dampers not to exceed 3 %v 15. Propane -to- Natural Conversion Kit leakage, at 1.0 IN. W.C. pressure differential. Shall be complete with all hardware to convert to natural c. Spring return motor shuts off outdoor damper on power gas at standard altitude (0 to 2000 ft [0 to 610 m] above sea failure. level). 6. Filter Rack Kit: 16. Square -To -Round Duct Transitions (24 -48 size): Shall provide filter mounting for downflow applications. Shall have the ability to convert the supply and return open - 7. Flat Roof Curb: ings from rectangular to round. Curbs shall have seal strip and a wood nailer for flashing 17. Time Guard II and shall be installed per manufacturer's instructions. Automatically prevents the compressor from restarting for 8. Flue Discharge Deflector at least 4 minutes and 45 seconds after shutdown of the Directs flue gas exhaust 90 degrees upward from current compressor. Not required when a corporate programmable discharge. thermostat is applied or with a RTU -MP control. 9. Heat Exchanger • Stainless Steel Heat Exchanger available as a factory installed option. 41 C w co • • • Copynght 2010 Carrier Corp • 7310 W. Moms SI. • Indianapolis. IN 46231 Printed in V.S.A. Edition Date. 09/10 Catalog No: 48ES -04PD Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations. Replaces 48ES -03PD 42