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Specifications Air Co COMMERCIAL Model 579F/580D Lrvant 1 SINGLE PACKAGE ROOFTOP Sizes 036 -300 GAS HEATING /ELECTRIC COOLING UNITS 3 to 25 Tons u..-- = r 1,7 Will _ ...,... I c \C\91: o n -•••-•""""-......• linil , ._9 ° f ii iiiii iiiiiiiiiiiiiiiiiiiii Model 580D036 -072 /�� Model 579F180,216 P .-- " 4 I II I I I I I I I I I I I I I I I I I I b. -- - ,,,,..... I I ---..-- - -.----' ---- - -----__.- - - 1 lir .-...r. ____________---- .. Aff Km- -,..,..- - I Model 5800090 - 150 Model 579F240,300 DESCRIPTION STANDARD FEATURES The 579F/580D gas heating /electric cooling rooftop units are EFFICIENT DESIGN means cooling and heating energy sav- designed to deliver optimum performance and reliability in a ings. Standard units have EERs (energy efficiency ratios) of up commercial rooftop unit. to 9.2 and SEERs (seasonal energy efficiency ratios) of 10.0 The 3 to 25 ton units are one -piece gas heating, electric cooling (036-060 belt drive units only). The 580D units have an AFUE units that are prewired and precharged with R -22 at the factory, (Annual Fuel Utilization Efficiency) rating of 80.0% with a Cali making jobsite installation easy. Every unit is factory run tested fornia Seasonal Efficiency rate of 75.8% or better. All 579/580 prior to shipment to ensure reliable installation. units have a steady -state efficiency of 80.0 %. The 579F/580D units are designed to be field - convertible from THE FACTORY - ASSEMBLED PACKAGE is a compact, fully vertical supply /return to horizontal supply /return (180 -300 units self-contained electric cooling /gas heating unit that is prewired, require an accessory horizontal roof curb or horizontal adapter), prepiped, and precharged for minimum installation expense. making them easily adaptable to a wide variety of new construc- UNITS MAY BE CONVERTED TO HORIZONTAL DIS- tion and replacement applications. For vertical supply /return CHARGE in the field. The units can be modified at the jobsite to - jobs, ductwork can be connected directly to the roof curb, allow- fit a variety of applications (180 -300 units require an accessory ing ductwork to be completed before unit is available for instal- horizontal supply /return roof curb or a horizontal supply /return lation. All units include easily replaceable internal filters. adapter). The 579F/580D units are available in a range of heating sizes INTERNAL RETURN -AIR FILTERS are provided. Two -in. and voltage options to meet most job requirements. Low- throwaway filters are provided standard on all units, and can be voltage terminal blocks make wiring connections quick and easily accessed through the tool -less filter access panels. There simple. is no need to field- fabricate filter racks or install external filter All units are listed with either UL (Underwriters' Laboratories) or accessories. ETL (ETL Testing Laboratory) and with CSA (Canadian Stand- COMPRESSOR PROTECTION is assured. The 036 -150 units ards Association), UL Canada, or ETL Canada. All units are ARI have an internal pressure relief valve and line break (current (Air- Conditioning & Refrigeration Institute) approved (except the overload) protections, and the 180 -300 units have high- and 300 unit, which is beyond the scope of the ARI certification pro- low- pressure protection external to the compressor. These pro- gram) and comply with ASHRAE (American Society of Heating, tections prohibit operation under abnormal unit conditions. Refrigeration, and Air Conditioning Engineers) Standard 62 (indoor -air quality). Form No. PDS 580D.36.5B DUAL COMPRESSORS AND DUAL REFRIGERATION CIR- ADVANCED DESIGN of evaporator and condenser coils pro - CUITS (090 -150 and 216 -300 units) are provided. Two com- vides optimum heat transfer and cooling efficiency. Coils are pressors, each on its own independent circuit, provide standby computer- designed with advanced heat transfer surfaces, and reliability and high operating efficiency. are fabricated of copper tubing with aluminum fins. POWER, CONTROL, AND GAS CONNECTIONS are made on COMMERCIAL STRENGTH BASE RAILS (full - perimeter on the same side of the unit to simplify installation, and the 036 -150 036 -150 Units) with built -in rigging capability permit easy rig - units have thru- the -bottom power connection capability. ging of unit. INDUCED -DRAFT COMBUSTION provides the exact amount WEATHER- RESISTANT CABINET is built for durability in any of combustion air for the most efficient operation. Induced -draft climate. The cabinet is made of pre - painted, galvanized steel for combustion also eliminates the flue stack, giving the unit a low long life and high - quality appearance. profile appearance. The draw- through design ensures safe op- LOW - AMBIENT OPERATION is provided standard on most eration under any conditions. units. The 036 -150 units and the 240 unit operate in cooling DIRECT-SPARK IGNITION SYSTEM (036 -150 Units) saves down to 25 F as shipped from the factory. The 180 unit operates operating expense by eliminating inefficient standing pilot igni- down to 40 F, the 216 unit operates down to 35 F, and the 300 tion and unnecessary service calls. unit operates down to 48 F. Low - ambient kits are not required INTERMITTENT SPARK IGNITION (180 -300 Units) eliminates for most applications. the standing pilot flame that consumes gas when the furnace is HERMETICALLY - SEALED COMPRESSORS on the 036 -150 shut down. The pilot is ignited only when the thermostat calls for units prevent contamination to help promote longer life and de- heat. pendable operation. The 180 -300 units have semi - hermetic TUBULAR U- SHAPED CELL design of the heat exchanger compressors. provides high- efficiency heating operation. The hot gases make COMPRESSOR VIBRATION ISOLATION MOUNTING on all 2 passes over the supply -air path to enhance efficiency. In ad- units eliminates noise - causing vibration transmission into the dition, the 036 -150 units have a dimpled heat exchanger to conditioned space. maximize heat transfer. POSITIVE - PRESSURE MECHANICAL FLUE GAS VENTING CRANKCASE HEATERS on the 180 -300 units keep the oil free of refrigerant during the off cycle for added compressor life and is unaffected by adverse wind conditions. reliability. Crankcase heaters are not required on 036 -150 units FURNACE SAFETY CONTROLS shut off gas if there is a due to high -side crankcase design (072, 150 units) and low re- burner (036 -150 units) or pilot (180 -300 units) outage, frigerant charge levels (036 -150 units). combustion -air failure, overheating of heat exchangers, or flame STANDARD WARRANTIES include 1 year on parts (no labor), rollout. with an additional 4 years on compressors (036 -180 units) and TWO -STAGE HEATING WITH 2 INDEPENDENT GAS CON- heat exchangers (all units). Additional extended warranties are TROL SYSTEMS (180 -300 Units) minimizes heating costs. available. These independent gas control systems make single -stage 3 to 5 TON UNITS WEIGH LESS THAN 500 LB as standard heating possible if one stage fails. from the factory. This can eliminate the need for structural en- NEW TOOL -LESS FILTER ACCESS PANEL provides easy ac- gineering approval on replacement jobs. cess to filters. The new panel provides additional access space, BELT-DRIVEN EVAPORATOR -FAN MOTORS are standard on permitting easy filter replacement in the unit, even with an all 6 to 25 ton units and allow adjustment of the available static outdoor -air device mounted in a horizontal position. pressure to meet the job requirements of even the most de- INTEGRATED GAS UNIT CONTROLLER BOARD on the 036- manding applications. Belt- driven evaporator -fan motors are 150 units makes the control of gas heating rooftop units more available on 3 to 5 ton units as a factory- installed option. reliable, safe, and efficient. The board provides timed control of NON - CORROSIVE, SLOPED, CONDENSATE DRAIN PAN evaporator -fan functions and ignites the burners. The board permits either an external horizontal side condensate drain (out - also simplifies troubleshooting through its built -in diagnostic side the roof curb) or an intemal vertical bottom drain (inside the function which provides system status and fault notification via a roof curb). Both options also require an external, field - supplied light- emitting diode (LED). In addition, the board provides anti- P -trap. cycle protection for gas heat operation. CONTENTS Page Model Description 5 Heating Capacities and Efficiencies 5 ARI Capacity Ratings 6 Dimensional Drawings 7 -15 Specifications 16 -21 Selection Procedure 22 Gross Cooling Capacities 23 -31 Air Delivery 32 -52 Electrical Data 55,56 Operating Sequence 56,57 Typical Wiring Schematic 58,59 Typical Installation 60,61 Application Data 62 -66 Engineers' Specification Guide 67,68 0 2 FACTORY - INSTALLED OPTIONS DESCRIPTION AND USAGE Durablade and Standard Integrated Economizer — The • To reduce energy usage. Use whenever the number of hours economizer will allow a fixed percentage (between 0 and 100 %) of operation at below 55 F is significant. outdoor ventilation air into the unit any time the evaporator fan is Manual Outdoor -Air Dampers — Package consists of a running. A dry-bulb thermostat placed outdoors will bring in damper which can be set at 25% (180 -300 units only) or 50% 100% outdoor air whenever the temperature of the outdoor air (036 -150 units only) outdoor air. The package includes a rain - alone will adequately provide cooling. If the economizer alone hood and birdscreen. cannot provide enough cooling, then simultaneous economizer SUGGESTED USE and compressor operation will provide the most economical • To allow a fixed percentage of outdoor air for ventilation under operation. all conditions. SUGGESTED USE: • The damper may be used on either vertical or horizontal • To allow a fixed percentage of outdoor air any time the evapo- applications. rator fan is on, or operates in economizer mode if outdoor air NOTE: The 25% manual outdoor -air damper will be factory can provide cooling, but closes when the evaporator fan is off installed whenever the factory- installed economizer is not to prevent cold backdrafts and wasted energy. chosen on the 180-300 units. • To reduce energy usage. Use whenever the number of hours of operation at below 55 F is significant. Alternate Evaporator -Fan Motors (036 -060, 120, and 150 • The damper may be used on either vertical or horizontal Units) and Drives (036 -060, 090, 120, and 150 Units) — applications. Alternate motors and/or drives allow operation of the evaporator Parablade Economizer (036 -150 Units) — The unique design fan at conditions outside the range of the standard factory motor and drive combination. of the Parablade economizer saves energy while providing eco nomical and reliable cooling. The new design uses a parallel- SUGGESTED USE: opposed blade damper to permit outdoor ventilation air to enter • When higher static /airflow is required to meet job conditions. the unit any time the evaporator fan is running. The economizer Controls Upgrade Kit (036 -150 Units) — The controls kit in- will permit cooling using 100% outdoor air whenever outdoor air cludes high pressure, loss -of- charge /low- pressure, and freeze alone will provide adequate cooling. If the economizer alone protection cutout switches. The high - pressure and loss -of- cannot provide enough cooling, then simultaneous economizer charge /low- pressure switches can be easily added by screwing and compressor operations will provide the most economical the switches onto Schrader -type fittings provided on the refrig- operation. The economizer also has built -in spring return for re- erant lines. liable close -on -power loss. The Parablade design incorporates SUGGESTED USE: standard enthalpy controls. • Kit provides additional protection against system high - SUGGESTED USE: pressure, loss -of- charge /low- pressure, and evaporator coil • To allow a fixed percentage of outdoor air on vertical applica- frost build -up for 036 -150 units. tions any time the evaporator fan is on, or to operate in econo- NOTE: These switches are standard on the 180 -300 units. mizer mode if outdoor air can provide cooling, but closes when the evaporator fan is off to prevent cold backdrafts and wasted energy. FIELD - INSTALLED ACCESSORY DESCRIPTION AND USAGE Roof Curbs (Vertical and Horizontal) — Full- perimeter galva- NOTE: When an accessory manual outdoor -air damper is or- nized steel support frame in 14- and 24 -in. high designs pro- dered for the 036 -150 units, the package also contains a retrofit vides wood nailer to attach roof counter flashing. Insulated panel for easy installation. basepans in curb are provided to prevent condensation. Duct- Two- Position Dampers — Package consists of a low -leak work attaches to rails provided in the roof curb. A gasket is pro- damper assembly and a panel with a hole in it (036 -150 units) vided to form an air- and watertight seal between unit and curb. for easy installation. The damper will allow either 0, 25 %, or The gasket meets the standards of the NRCA (National Roofing 100% (depending on accessory package) outdoor air into the Contractors' Association). unit any time the evaporator fan is running. When the evapora- SUGGESTED USE: tor fan is off, the damper will be closed. • Rooftop application for vertical discharge. SUGGESTED USE: • Slab- mounted applications when elevation of the unit is • Allows a fixed percentage of outdoor air any time the evapo- necessary. rator fan is on, but closes when the evaporator fan is off to Horizontal Adapter (180 -300 Units) — The adapter is prefab- prevent cold backdrafts and wasted energy. ricated, easily field - assembled, and permits full perimeter • The damper may be used on either vertical or horizontal air - mounting. The adapter also improves unit static performance by flow applications. up to 0.6 in wg. Durablade and Standard Integrated Economizers — See de- SUGGESTED USE: scription(s) listed under Factory- Installed Options Description • Rooftop application for horizontal discharge on 180 -300 units. and Usage section above. • Rooftop applications for horizontal discharge on 180 -300 NOTES: units where high air delivery cfms are required. 1. When an accessory Durablade economizer is ordered for the NOTE: Utility connection plates are not required on 180 -300 units. 036 -150 units, the package also contains a retrofit panel for Condenser Coil Hail Guard (036 -150 Units) — Package con- easy installation. sists of a hood and coil grille which attach to the condenser coil. 2. The Parablade economizer is not available as an accessory. SUGGESTED USE: It is factory- installed only. • To protect the condenser coil from hail and other debris on LP (Liquid Propane) Kit (036 -150 Units) — Kit consists of gas 036 -150 units. orifices to convert the unit for use with LP gas. No gas valve • As an alternate location for field - installed disconnect switch. modification is required. Manual Outdoor -Air Dampers (036 -150 Units) — See de- SUGGESTED USE: scription listed under Factory- Installed Options Description and • When natural gas cannot be obtained. Usage section above. 3 FIELD - INSTALLED ACCESSORY DESCRIPTION AND USAGE (cont) LP (Liquid Propane) Kit (180, 216 270, 240 270, and Flue Hood Protector (036 -150 Units) — Consists of a sheet 300 270) — The kit contains a fully factory- preassembled metal shield to go over the gas flue exhaust. modular LP burner assembly, and completely replaces the en- SUGGESTED USE: tire natural gas burner assembly. The conversion is a slide -out, • If additional protection from hot flue hood is required — for ex- slide-in process. ample, if 036 -150 unit is slab mounted near a driveway. SUGGESTED USE: Condenser Coil Grille (036 -150 Units) — The grille protects • When natural gas cannot be obtained. the condenser coil from damage and requires no additional Thermostats and Subbases — Provide staged cooling and clearance. heating, automatic (or manual) changeover, fan control, and in- SUGGESTED USE: dicator light. • When 036 -150 unit is located in high traffic areas or could be SUGGESTED USE: subject to damage. • To control unit operations. • As an alternate location for the field - installed disconnect Solid -State Enthalpy Control (036 -150 Units) — Package switch (036 -072 only). consists of a solid -state control and sensor which is capable of Barometric Relief Package (180 -300 Units) — This package sensing outdoor -air heat content (temperature and humidity) is useful when it is necessary to remove excess pressure from and controlling economizer cut -in point to have minimum heat the conditioned space. content air passing over the evaporator coil. The solid -state en- NOTE: Optional economizer is required. thalpy control replaces the standard dry-bulb thermostat in the SUGGESTED USE: economizer. • When the job requires the ability to relieve internal building SUGGESTED USE: pressure on 180 -300 units. • To enhance economizer operation for additional energy savings. Power Exhaust Package (180 -300 Units) — This package is Enthalpy Control Sensor — Package consists of a solid -state useful when it is necessary to remove excess pressure from the sensor to be used in conjunction with the solid -state enthalpy conditioned space. control (036 -150 units) or paired with a second enthalpy sensor NOTE: Optional economizer is required. (180 -300 units) for differential enthalpy control. This sensor is SUGGESTED USE: mounted on the economizer assembly so that it can sense • When the job requires the ability to relieve internal building building return -air temperature. The 2 sensors will determine pressure and pressure losses through the return -air ductwork which combination of outdoor and return air will provide the are greater than 0.20 in. wg on 180 -300 units. greatest energy savings. • When the job requires the ability to move large quantities of SUGGESTED USE: air to relieve pressure in the conditioned space on 180 -300 • To enhance economizer operation for maximum energy units. savings. Winter Start Time Delay Relay (180 -300 Units) — Used in NOTE: On 180 -300 units, a single sensor may be used for conjunction with accessory low- ambient kit or head pressure single- sensor, outdoor -air, enthalpy control if desired. control device, permits operation in cooling at lower outdoor am- Time Guard® 11 Device — Package consists of a control to be bient temperatures. See Trade Prices for more details or contact field wired into the unit controls, and provides a 5- minute delay your local representative. in compressor operation between cooling cycles. SUGGESTED USE: SUGGESTED USE: • When job requires the ability to operate in cooling at low • Prevents compressor short cycling when rapid compressor outdoor - ambient temperatures. cycles may be a problem. Thru - The -Bottom Power Connection (036 -150 Units) — Controls Upgrade Kit (036 -150 Units) — See description Used to make power and control connections through the bot listed under Factory- Installed Options Description and Usage tom of the unit. section on page 3. SUGGESTED USE: Head Pressure Control Device — Kit consists of an outdoor- • When utility connections need to be made through the bottom air thermostat that permits adequate head pressure control dur- of the unit. ing cooling operation at low outdoor - ambient temperatures. Hail Guard (036 -150 Units) — This accessory protects the Refer to Trade Prices for more details or contact your local rep- coils against damage from hail and other airborne debris. resentative. SUGGESTED USE: NOTE: The head pressure control device is not necessary for • Applications where wind may cause damage to the unit coils. 036 -150 units to allow cooling operation down to 25 F. Condenser Coil Salt Spray Protector (036 -150 Units) — The SUGGESTED USE: condenser coil salt spray protector prevents coil damage due to • When cooling at low- ambient outdoor temperatures is salt -spray induced corrosion in coastal areas. The protector uti- desired. lizes a replaceable and washable filter. Low - Ambient Kit — Kit consists of a solid -state control and SUGGESTED USE: condenser coil temperature sensor to modulate the condenser- • Coastal area applications. fan motors in order to maintain condenser -coil head pressure Fan/Filter Status Switch — The switch provides the status of for proper cooling operation. Refer to Trade Prices or contact the evaporator fan (on or off) or filter (clean or dirty). The status your local representative for more details. is displayed by an indicator light at the thermostat. SUGGESTED USE: SUGGESTED USE: • Whenever cooling is required at low outdoor ambient tem- • To assist in servicing the unit. peratures (as low as –20 F). Flue Discharge Deflector (036 -150 Units) — This accessory NO Reduction Kit (036 -150 Units) — Consists of baffles to be directs unit exhaust vertically instead of horizontally; reducing inserted in the heat exchanger tubes to reduce the level of ni- the space required between units and combustible surfaces and trous oxide emissions to 40 nanograms per joule. materials. SUGGESTED USE: SUGGESTED USE: • To meet local NO„ emission standards for 036 -150 units. • When there is limited space for locating units. 4 MODEL DESCRIPTION (ODS Model Number) 580D E V 090 180 - B • 579F/580D - Single Package Gas /Electric Unit Evaporator -Fan Motor Options A - Standard Motor and Drive B - Alternate Motor and /or Drive Voltage Designation E - 460 -3-60 J - 208/230 -1-60 P - 208/230 -3 -60 T - 575 -3-60 Factory- Installed Outdoor -Air and Other Upgrade Options* Fuel and Control Type ✓ - Natural Gas /Direct Spark Ignition W - Natural Gas /Intermittant Spark Ignition Gas Heat Input (Btuh) Nominal Tons 074 - 72,000 224 - 224,000 036 - 3 090 - 71/2 180 - 15 115 - 115,000 231 - 231,000 048 - 4 102 - 81/2 216 - 18 125 - 125,000 250 - 250,000 060 - 5 120 - 10 240 - 20 150 - 150,000 270 - 270,000 072 - 6 150 - 121/2 300 - 25 180 - 180,000 485 - 485,000 LEGEND ODS - Order Distribution System *Refer to Trade Price Sheets or contact your local representative for specific information regarding which options are available on which units. HEATING CAPACITIES AND EFFICIENCIES, 036 -150 UNITS HEATING INPUT STEADY -STATE CALIFORNIA UNIT 580D (Btuh) OUTPUT CAPACITY TEMPERATURE AFUE ( %) EFFICIENCY SEASONAL Stage 2/Stage 1 (Btuh) RISE (F) (')/,) EFFICIENCY ( %) 036 072 -/ 72,000 59,200 25 -55 80.0 80.0 77.2 036 115 115,000/ 82,000 92,000 55 -85 80.0 80.0 76.7 048 072 -/ 72,000 59,200 25 -55 80.0 80.0 77.2 048 115 - /115,000 92,000 35 -65 80.0 80.0 77.1 048 150 150,000/120,000 120,000 50 -80 80.0 80.0 76.9 060 072 -1 72,000 59,200 25 -55 80.0 80.0 77.2 060 115 - /115,000 92,000 35 -65 80.0 80.0 77.1 060 150 150,000/120,000 120,000 50 -80 80.0 80.0 76.9 072 072 -/ 72,000 59,200 25 -55 80.0 80.0 77.2 072 115 - /115,000 92,000 35 -65 80.0 80.0 77.1 072 150 150,000/120,000 120,000 50 -80 80.0 80.0 76.9 090 125 - /125,000 100,000 20 -50 80.0 80.0 75.8 090 180 180,000/120,000 144,000 35 -65 80.0 80.0 77.1 090 224 224,000/180,000 179,200 45 -75 80.0 80.0 77.1 102 125 - /125,000 100,000 20 -50 80.0 80.0 75.8 102 180 180,000/120,000 144,000 35 -65 80.0 80.0 77.1 102 224 224,000/180,000 179,200 45 -75 80.0 80.0 77.1 120 180 180,000/120,000 144,000 35 -65 80.0 80.0 77.1 120 224 224,000/180,000 179,200 35 -65 80.0 80.0 77.1 120 250 250,000/200,000 200,000 40 -70 80.0 80.0 76.4 150 224 224,000/180,000 179,200 35 -65 80.0 80.0 77.1 150 250 250,000/200,000 200,000 40 -70 80.0 80.0 76.4 LEGEND AFUE - Annual Fuel Utilization Efficiency NOTE: NO levels are 40 nanograms /joule with the accessory NO, reduction kit (036 -150). HEATING CAPACITIES AND EFFICIENCIES, 180 -300 UNITS HEATING INPUT OUTPUT CAPACITY TEMPERATURE STEADY -STATE MINIMUM HEATING UNIT 579F (Btuh) (Btuh) RISE (F) EFFICIENCY CFM Stage 2/Stage 1 (%) 180 231 231,000/115,500 185,000 25 -55 80.0 3057 180 270 270,000/115,500 216,000 25 -55 80.0 3570 216 270/240 270 270,000/115,500 216,000 15 -45 80.0 4364 240 485 485,000/242,500 388,000 35 -65 80.0 5427 300 270 270,000/115,500 216,000 15 -45 80.0 4364 300 485 485,000/242,500 388,000 35 -65 80.0 5427 *All units are 2 -stage heat. NOTE: Minimum allowable temperature of mixed -air entering the heat exchanger during first -stage heating is 45 F. There is no minimum mixed -air temperature limitation during second -stage heating. 5 ARI* CAPACITY RATINGS NOMINAL STANDARD NET COOLING TOTAL SEERt SOUND UNIT 580D TONS CFM CAPACITY (Btuh) kW EER RATING Belt Drive Direct Drive (Be Is) 036 3 1200 35,000 4.0 10.0 9.7 8.7 8.2 048 4 1600 47,000 5.5 10.0 9.7 8.6 8.2 060 5 2000 57,000 6.7 10.0 9.7 8.5 8.2 NOMINAL STANDARD NET COOLING TOTAL SOUND UNIT EER RATING IPLV TONS CFM CAPACITY (Btuh) kW (Be Is) 580D072 6 2100 70,000 7.9 8.9 8.4 •• 580D090 7 2800 85,000 9.6 8.9 8.6 9.35 580D102 8 3000 99,000 11.0 9.0 8.6 9.00 580D120 10 4000 117,000 13.0 9.0 8.8 9.35 580D150 121/2 4500 145,000 15.8 9.2 8.8 9.65 579F180 15 5250 178,000 20.7 8.6 8.8 10.70 579F216 18 6000 190,000 21.3 8.9 9.0 9.20 579F240 20 6200 222,000 25.5 8.7 9.5 8.80 579F300 25 7200 268,000 31.2 8.6 9.5 8.40 LEGEND BeIs - Sound Levels (1 bel = 10 decibels) EER - Energy Efficiency Ratio IPLV - Integrated Part-Load Values SEER - Seasonal Energy Efficiency Ratio *Air Conditioning and Refrigeration Institute. "[Applies only to units with capacity of 65,000 Btuh or less. * *The IPLV only applies to two -stage cooling units. NOTES: 1. Rated in accordance with ARI Standards 210/240 -89 (036 -120) or 360 -86 (150 -240) and 270 -84. The 300 unit is outside the scope of the ARI Certification Program. 2. Ratings are net values, reflecting the effects of circulating fan heat. 3. Ratings are based on: s al s f IA • f IA. ..„ 3 , .. , : , .. 1 ; , ,... - „sr..h,,,,,,,,,,, Cooling Standard: 80 F db, 67 F wb indoor entering -air temperature and 95 F db air entering outdoor unit. IPLV Standard: 80 F db, 67 F wb indoor entering -air temperature and 80 F db outdoor entering -air temperature. 6 I DIMENSIONAL DRAWING - 580D036 -072 CONTROL 80X CORNER WEIGHT' 0 S13/I6" / 0'1(4 [305 ACCESS PANEL 5 OD A B C D III Lb Kg Lb Kg Lb Kg Lb Kg 8" 036 1 40 63.5 105 47.6 159 72.1 56 25.4 [203 �' �_4� = 048 142 64.4 106 48.1 162 73.5 60 27.2 060 150 68.0 115 52.2 160 72.6 65 29.5 /� 1 CONDENSER COIL 1 I 072 165 74.8 136 61.7 200 90.7 64 29.0 2" - 5/16" 'Weights are for unit only (aluminum plate fins) and do not include options or crating. 0846.51 2' - 5 BOTTOII [ N3) 1 /I6" BOTTOM POWER CHART, THESE OF UNIT I CONNECTION SIZES HOLES REQUIRED FOR USE WITH + 1 A 1 1 /1e" Dia. [27] Field Power ACCESSORY PACKAGES - Supply Hole CRBTMPWR001A00 ( ", 3/4") I.= ■+1 8 3 /4 "- 14 NPT Condensate Drain OR CRBTMPWROO2A00 (Y2 ", 11 ") l " -OH 1,. :A' 'AIL C 1 Fi " -14 NPT Gas Connection REQUIRED W - 4 •/16" HOLE THREADED [115.8) 3 " - 5 3/16" CONDUIT WIRE SIZE TYP FLUE HOOD (1046) SIZE SIZES 0 " -2 9/16' (MAX) (651 LEFT SIDE 4/. 24 V 7/" 122.21 3 h" Powert 1 28.4 1 Powert 1 44.4 REAR 4 OUTDOOR AIR LED VIEW HOLE tSelect either 3 /4" or 1 for power, de- \ pending on wire size. S 3 " - 1/2 2 " -0 15 /16" 0 -4 1/2" CHANNEL FOR 24V 3/ FILTERACCESSPANEL (952.51 � r- (6331 "� F (114] CONTROL VIKING -] 1221 4" (HRO1A/WAVFILTERS) CONDENSER COIL BLGCKOFF 1 n f • A COMPRESSOR ECONOMIZER HOOD PANEL CORKR ACCESS COVER 1 " -4 3/8" N �- A [4161 I 1,-CORNER "8" SEE NOTE .8 J 7 /. I 2 " -1 11 /16" �0 " -3 3/16" - L 5/16" LEFT ' 1 1 1 (6521 I (81 'se / / /// 1 VIEW A -A SIDE I I , 1 I RETURN -AIR OPENING I 1 0 -10 15/16" t� RETURN AIR 1100 II VERTICAL I 1 (2761 1 iO I I 1 0 " -S 3/6" VIEW 5 - 5 I / 1 ((371 1 3• - I I ' \ _ Y• ; 1 d RIGHT SIDE • (11441 I _/ 1 1 }\ ` - - - - / AA!�!T,(. :FENS ATE I 1 1657 2 "-I/2" 11 "1•-8 1 / 8 " 7/ (76.37 I N BA N / 'SUPPLY- ENI A R ) ) 145 4" % /�/ SUPPLY AIR 1622] - (512.41 // I EVAPORATOR II SEE - // -A / , I COI L I VERTICAL I I 1 I'VIEY A �.L._. 10 (491/16" J i i l i 1188 81 I (99.4] 0 " -5 7/16" 8 BOTTOM SUGGESTED ELECTRICAL (1381 ,d SEE BO CORNER "0" CHART (ELEC. ONL 0 _ FRONT DISCONNECT LOCATION CONTROL 80X ACCESS PANEL 0 " -3 1/16 _, .1:_,-0 I/I ,,,O " -3 3/16 CORNER "C" �. 2 "- 00/16" (78) [306] (811 6 " -1 II /16" s 01-4) 1/4" 4. (18721 1 " -5 5/16" •" -10 13/16" 0 " -4 1116" 0"-0 3/8" (439.71 (274.61 (103.2) 2"-X1 1107 FILTER ACCESS PANEL [744] -� - - ∎_ (THROWAWAY FILTERS) CONTROL 800 ACCESS - 1111 - POME ACCS PANE L NIKE r ANEL 1 y� I 1 1 I 2'-1 I1 /16" 11000 FILTER 1" -6 7/16" 1 1 ns - I (652.51 / (467.81 1 I AIR I i OPENING EVPO RATO R -p AN Np TOR I 1 jpNTAL 1 "-1 1/4" I =i BLOWER ACCESS PANEL 1 I SUPPL - IRS (335. 0 -11 7/8" 1 30 1 .61 1 ( 177.6] OUTDOORAI IIOR I Z ONTAL I _ C - J 1 1/ I =00 =MIN i� O 0 .; I • 1� ( f .2g 2 " -S (746.2) / - " - } 0 " -5 I1 /16" (746.2] FORKUFTTRUCKSLOTS 0' -5 3/4" " 15/16" / 0' -7 3/8" [1461 .// [658 .61 / (144.31 BURNER ACCESS (188.01 0 " -2 l /4" IA OUT IDE SUPPLY AIR RETImN AIR PANEL FRONT (TYP B (571 PLACES) PANEL R I GHT S I DE 8 STD. CONDENSATE DRAIN NOTES: c. Condenser coil, for proper airflow, 36 in. one side, 12 in. the other. The side 1. Dimensions in [ ] are in millimeters. getting the greater clearance is optional. d. Overhead, 60 in. to assure proper condenser fan operation. 2. Center of gravity. e. Between units, control box side, 42 in. per NEC (National Electrical Code). f. Between unit and ungrounded surfaces, control box side, 36 in. per NEC. 3. i / Direction of airflow. g Be box Bidet a n d l ock o concrete walls and other grounded surfaces, con - 4. On vertical discharge units, ductwork to be attached to accessory roof curb only. h. Horizontal supply and retum end, 0 inches. For horizontal discharge units, field - supplied flanges should be attached to hori- 6. With the exception of the clearance for the condenser coil and combustion side zontal discharge openings, and all ductwork should be attached to the flanges. as stated in Notes 5a, b, and c. A removable fence or barricade requires no clear - 5. Minimum clearance (local codes or jurisdiction may prevail): ante. a. Between unit, flue side and combustible surfaces, 36 inches. With accessory 7. Units may be installed on combustible floors made from wood or Class A, B, or C flue discharge deflector, this is reduced to 18 inches. roof covering material if set on baserail. b. Bottom of unit to combustible surfaces (when not using curb), 1 inch. Bottom 8. The vertical center of gravity is 1' -6" [457] up from the bottom of the base rail. of base rail to combustible surfaces (when not using curb) 0 inches. Horizontal center of gravity is shown. 7 DIMENSIONAL DRAWING — 580D090 -150 CORNER WEIGHT' DIMENSIONS CONNECTION SIZES SUBNO� A B C D H J K L A 1 Dia [35] Field Power Supply Hole Lb Kg Lb Kg Lb Kg Lb Kg Ft -in. mm Ft -in. mm Ft -in. mm Ft -in. mm B 2 -3/4" Dia [64] Power Supply Knockout 090 189 86 161 73 239 109 280 127 1 -2% 378 3 -5 1050 2 -9'Ve 856 2- 2'/e 672 C 13'." Dia [44] Charging Port Hole 102 191 87 163 74 242 110 284 129 3 -31/4 1013 3 -5 1050 2 -9 " 3/4e 856 2- 23/4e 672 D W Dia [22] Field Control Wiring Hole 120 225 102 192 87 285 129 333 151 2 -5 759 4.1 1253 3-03/4 924 2- 10'/,e 875 E 3/4" -14 NPT Condensate Drain 150 228 103 195 88 289 131 338 153 1 -21/2 378 4 -13/4e 1253 3.0 924 2 -10 875 F ' " -14 NPT Gas Connection 090 125 and 102 125 3/4" -14 NPT Gas Connection all others 'Weights are for unit only (aluminum plate fins) and do not include options or crating. G 2 Dia [51] Power Supply Knockout NOTES: 1. Dimensions in ( ] are in millimeters. •H• 0 -7 3/8• 2. Center of gravity. (187] • 0' -3 13/16' 3. r / Direction of airflow. 4. On vertical discharge units, ductwork to be attached to accessory roof curb only. For 11 B horizontal discharge units field - supplied flanges should be attached to horizontal dis- charge openings, and all ductwork should be attached to the flanges. 1I . FLUE HOOD 5. Minimum clearance (local codes or jurisdiction may prevail): 1 A a. Between unit (flue side) and combustible surfaces, 48 inches. When using accessory %/ CONDENSER COIL G flue discharge deflector, this is reduced to 18 inches. •J' b. Bottom of unit to combustible surfaces (when not using curb) 1 inch. 2' 0 3/8• Bottom of base rail to combustible surfaces (when not using curb) 0 inches. 0619] C. Condenser coil, for proper airflow, 36 in. one side, 12 in. the other. The side getting 60ttorl . the greater clearance is optional. OF 15 d. Overhead, 60 in. to assure proper condenser fan operation. e. Between units, control box side, 42 in. per NEC (National Electrical Code). • i f. Between unit and ungrounded surfaces, control box side, 36 in. per NEC. N g. Between unit and block or concrete walls and other grounded surfaces, control box side, 42 in. per NEC. 0' -4 9/16' �nm1 0' -5 3/4' h. Horizontal supply and retum end, 0 inches. [1167 BAg RAU 4' -5 7/8 [146] 6 With the exception of the clearance for the condenser coil and combustion side as stated 013677 in Notes 5a, b, and c, a removable fence or barricade requires no clearance. 0' -2 9/16' \- NN ELECTRICAL 0ISCOECT LOCATION 7 . Units may be installed on combustible floors made from wood or Class A, B, or C roof (65] TYP covering material if set on base rail. LEFT S I DE 8. The vertical center of gravity is 1' -7" (483] up from the bottom of the base rail. Horizontal center of gravity is shown. 5 F BOTTOM POWER - - -IS REQUIRED FOR USE WITH THESE HOLES ACCESSORY + 2' -11 1/2• 0'- 39/16' PACKAGES - CRBTMPWROO1A00 (Vz ", 3 /") (902] \ ~ ( OR CRBTMPWROO2A00 ('h ", 1 V. ") R 0OORAt CONDENSER COIL REAR \� CORNER 'B' CONDUIT SIZE WIRE SIZE REQUIRED 1ZES (MAX) HOLE �3' -6 15/16 > I 'h" 24 V ' /e" [22.2]]]]]] [1091] (1 7 /B' 3'4" Power)' 1 /' [28.4) ECONOMIZER H000 [454] 1'h" Power)' 1 [[44.4 CORNER 'A' EVAPORATOR COIL 1 /8 tSelect either 34" or 1 V' for power, depending on wire size. \_ ] i 0' -5 1/ • w �� . K X 1407 FILTER ACCESS PANEL - I I I 11 (THROWAWAY FILTERS) II RETURN -AIR OPENING II I VERTICAL i I 1 C AB / /// . II •. I 1 RETURtI AIR ��F II L r 0' C -5 f8• PANEL - . 4' -9 3/4 II I - - ` - I (1467] II 0' (7195] 6• E II '111I■ AL TOR' 1 APPLY - 1 AIR I 2' -4 3/4' IN BASEPAN O I gy p ] VIEW 5 -5 , Q Ilf LEFT II (fie; 1RTICAL1 RIGHT SIDE SIDE 1 - -11 1 /410 . - v - 720816• I (951) I I SUPPLY A C306�7]/ 0. 1 15576-1 ' 01207 1 - - - - SEE 8OTTOM . POONLY YER U SEE NOTE *B 1 0' -5 [1387 7/16' CNAR TCELEC _ CORNER 'D' 2' -4 7/8' 0355] I (731.8] I FRONT J a ( 9 1/8 CORNER 'C' 7 3' -6 1/4' .I (1073) 3' -4 1/4 (1022) 0' -7 5/16" 1 O 7' -3 3/8' - (185] 1013 ' C103 C2219) 0 ' - O /8' 2' -4 5/16' - - - 1' -0 5/6' �� (719] (320] 1 1 / I ) FILTER ACCESS PANEL (THROWAWAY FILTERS) RN -I CONTROL BOX/ •L _ ® I I I 1 RETUAIR K HOOD FILTER / EVAPORATOR-FAN VAPORATOR•FAN MOTOR OPENING; I BURNER COMPRESSOR/ S I BLOWER ACCESS PANEL 1 I HORIZONTAL L \ \ \ \ PANEL 1 I 1 1 OUTDO AIR ]1' I 1' -1 7/8' SUPPLY -AIR OPENING\ I I 2' -2 7/16 0' -3 5/16" F YY,, , [352] I HORIZONTAL I 1_ i [671 (91] • glee D f Op I . ° 1 79] 3' -0' 3' -1' 0 ' -7' • ' 0' -5 11/16 (914.4] FORKLIFT TRUCK SLOTS (940] C178] (144) IDE 0'-8 7/16' 0' -2 1/4' 057] OF PANEL % / %' (214] (TYP B PLACES) j / % RIGHT SID E FRONT SUPPLY AIR RETURN AIR E STD. CONDENSATE DRAIN 8 DIMENSIONAL DRAWING — 579F180,216 CORNER 0 1 3/6' DIA. DRAIN HOLE A TIP (4) CORNER o (9� 1• -7 13/16' '-4 5,161.1.-4-8,16,... 3 15/16' 0' -5 15/16' O t206)� I t /2" OIA ( ) (415) (421) I tt °e) I C333 8 � (151) 7 - 8 0 5/16 -- .1 1: -L J IL-I I 1 Ie--I —1 1 1 1 1 1 I 0' -2 "TYP III I I ! 1 (51) X 1 1 0 I I 2'-6 15/16 4 I I 1 1 I I 1 1 ( 1 2' -1 5/6' s' - 1/2" ! 1 1 OUTDOOR i SUPPLY (651) R i i i c � (2070) 1 1 SECTION 1 1 ■ 1 L SD 1 i 0 • RETURN 1 5' -tt 7/B ° ._ 4 � - � 1 1 C 1 AIR I (1132S) CIO2)5' -7 3/16" 1 1 I I 1 (1707) 1 - - a�is� VIEW Z -Z 1 1 I I I I i 1 T - t/8' POWER EXHAUST 11 I 1 1 ri I X167) (ACCESSORY ONLY) 1 1 1 I I 1 1 1 1 I I 1 1 I 2' -2 1 16" 1 1 0 I I I 1 (65 EXHAUST 1 1 / U \ I I i 1 1 - GCCESSORYONLY) ( I 1 �___'_ ____1 0'11 /8' O' -10 3/16" - 0' -t 7l6 - 1471 �: - I Z -- Z o' -7 3/ + DIMENSIONS +) 1 J� i ± / (197) U NIT t 579F X Y Z y I Ft -in. mm Ft -in. mm Ft -in. mm 7/6' DIA HOLE 180 231 3 -2 965 4-0 1219 1 -10 559 ° 2' CIA K.O. 0'_5 1. ° 5127) (22) (51) (127) - .1 �«0' - 11 15 /16' a 180 270 3 -2 965 4 -0 1219 1 -10 559 " (303) 216 270 3 -7 1090 3-2 965 1- 8 508 CORNER C 3" t 1 3/B' DIA CONCENTRIC K.O. (76) C35) - - - - 18o BOX ON1Ti0L 80x -' ONLY ACCE55 253 AIR 0R 11 ILTERS 0 \CC0:55 FAR 5108 r -1 1 ' -10 5/16" ECONOMIID( H000 II' `- __ (567) I � �� 1610 •v' II 1 / /%� ' -1 5/16' FIELD LIFT Ilion / / /// " 1 SUPPLIED 11 /SECTION A - I !JAL 3 -9' �I •L / / / 0' -3 7/16' U } (1143) II II 1 7 / / /// (B'n I b // 10 _ " Z 41141/,,/// ,.-6 s 6" 1 ®1/2' q ��ih�� ° - 4' UNIT CORNER WEIGHT' 0• - 218 ONLY (J IND COIL (102) 579E A B C D 61) V ALTERNATE RETURN Lb Kg Lb Kg Lb Kg Lb Kg BURNER EXCHANGER ACCESS PANEL FRONT 3/4' FPT DRAIN CONNECTION 180 231 348 174 370 168 358 162 538 244 AND CENTER POST (27) FAR SIDE ONLY 180 270 383 174 369 167 360 163 538 244 216 270 520 235 508 230 486 220 636 288 'Weights are for unit only and do not include options or crating. 0" - 4+ 1� NOTES: (102) _, .1p'_2• 3' a 7/e W Dimensions NCENTRIC K.O. 1. Dimnsions in ( ) are in millimeters. 0' -3 1/89"±1 II _ (5t) (76) 8 (22) (FIELD POWER) I 2. i t Center of gravity. • , - - - - 3. E> Direction of airflow. 4. Ductwork to be attached to accessory root curb or adapter only. 5. Minimum clearance: a. Rear: 7'0" (2134) for coil removal. This dimension can be re- duced to 4'0" (1219) if conditions permit coil removal from the top. b. Left side: 4'0" (1219) for proper condenser coil airflow. - c. Front: 4'0" (1219) for control box access. - 3' d. Right side: 4'0" (1219) for proper operation of damper and power ( exhaust (if so equipped). � e. Top: 6'0" (1829) to assure proper condenser fan operation. 0' -10 1/4'r 1. Local codes or jurisdiction may prevail. �,, — 1 -----1 - 3' 6. With the exception of clearance for the condenser coil and the T — damper /power exhaust as stated in Note No. 5, a removable fence 3 5/8' 8 1 3/B' DIA CONCENTRIC K.O. or barricade requires no clearance. 0 -2 7/8 I (92) 6 KNEW (35) (FIELD KNEW Dimensions are from outside of comer post. Allow 0' -4'i4" (8) on each (73) 7/8 DIA K.O. (CONTROL) (76) side for top cover drip edge. 0' -3 7/B (22) 1 1/4' DIA HOLE 1 (998) I 1 1/2' DIA K.O. (GAS ENTRY) 3/4' WT (32) (3(a) 1 l ~ cm 5. -8' q 0' -2 bQ e a (1676) . 6'- 5 1/2' (1969) 9 DIMENSIONAL DRAWING — 579F240,300 LOW -HEAT UNITS CORNER D 1 3/8' DIA. DRAIN HOLE TYP (4) PLCS 0 6' -11 1/Y (2121) CORNER A ) I e1• -7 13/1fi 1' -4 5/16"+•0-1' -4 9/16 0'3 15/16" 0' -5 15/16" (1 . ace 1/9 ROAR (504) (415) (421) (106) r0 " -1 (33) 5 /16" (151) d 'I 0 -4 (109) TYP (4) PLCS j 1 /2" OIA 1 1 - - - ^ L JL _ I I I I I I 1 X Le 1 1 1 0' -2 "TYP 1 1 2 . -6 15/16• (51) 1 (786) I I 1 I 2' -1 5/8 I 1 I (651) 1 1 1 1 !� (t�r� 6' -91/2" I I I Qom I 1 1 RETURN 5' -11 7/8" I OUTDOO SUPPLY i 1 AIR 1 (1825) 0' -4' 11 6 s/ 5 I 1 I C (102) I SECTION A[R I 1 1 I ( 53) (466) 1 I I I '_ VIEW Z -Z r \ (2187) 6" POWER EXHAUST (ACCESSORY ONLY) 16" ) POYER E %HAUST / (ACCESSORY ONLY) I 1 - , _ ) I _ 0' -10 13/16 - - — - I — — -) d 0 /8" (274) ,d011111° Z - 0' -1 {/8 -[47J 2 " -2 1 Z 0 . -7 3/4" (2 ) 1 ' r (197) i — 3•_ 11 (1015) OUTDOOR p•_5• 7/8 DIA HOLE COIL DIA K.O. ( 7 (127) (22) (51) 12) 6 -0' -11 15/16' (303) CORNER 8 CORNER C 3 B 1 3/8' DIA CONCENTRIC K.D. (76) (35) ii , CONTROL 80% 0' -2 1/4' TOP FILTERS ACCESS (567) 25% AIR OR (57) 1 ' CCESS FAR SIDE r - -1' -10 5/16,1 CONONIZER HOOD / //� 1' -1 5/16" 0' - 3 LIFT Sion I" / /11 (339) t (76) // / 8 I I 3' -11 1/ i / /// / 0' -3 7/16• (1200) �I 1 / /// t (87) 0 l(:02) b 1 / /N %—.1 0 _ / -1 . /// R10� (`/ ) / /1/ SIDI SECT A A 1' B 8 - � / /// � I -6 3/8' NOTES: / 1. Dimensions in are in millimeters. (508) TYP h•- /`// (467) ( ) ro' -1 1/2' 2. Q, Center of gravity. s — Y (3e) • TY L A— I fl�� — �D•_4 3. Direction of airflow. 0 (51) HEATIXCHANGERACCESSPANEL I^uwR COIL ALTERNATE RETURN 4 . Ductwork to be attached to accessory roof curb or BURNERSECTK)NACCESSPANEL, adapter only. 3/4' FPT DRAIN CONNECTION 5. Minimum clearance: AND CENTER POST (27) FAR SIDE ONLY a. Rear: 7'0" (2134) for coil removal. This dimen- o' I� Sion can be reduced to 4'0" (1219) if conditions (102) w -2" 3 6 7/8 DIA CONCENTRIC K.O. permit coil removal from the top. 0' -3 1 /8' I (51) (76) 4 (22) (FIELD POWER) b. 4'0" (1219) to combustible surfaces, all four us) sides (includes between units). c. Left side: 4'0" (1219) for proper condenser coil -- - - - airflow. d. Front: 4'0" (1219) for control box access. e. Right side: 4'0" (1219) for proper operation of damper and power exhaust (if so equipped). f. Top: 6'0" (1829) to assure proper condenser fan operation. g. Bottom: 14" (356) to combustible surfaces (when not using curb or adapter). r o•_3- h. Control box side: 3'0" (914) to ungrounded sur- 3 ° n6) i. Control side:3 6" (1067) to block or con - I Crete walls, or other grounded surfaces. 0' -10 1/4•r� j. Local codes or jurisdiction may prevail. ( � p �? 4 6. With the exception of clearance for the condenser 3 5 /e' 8 1 3/e' DIA CONCENTRIC K.O. coil and the damper /power exhaust as stated in —� Note No. 5, a removable fence or barricade re- 0' -2 7/8 (92) 8 (35) (FIELD POWER) 0' -3 (73) 7/8 DIA K.O. (CONTROL) (76) quires no clearance. 0' -3 7/Er-e. 1 1/4 DIA HOLE 7. Dimensions are from outside of corner post. Allow (98) ..... 1 1/2' 01A K.O. (GAS ENTRY) 3/4' NPT (32) 0' - (8) on each side for top panel drip edge. 1' -3/16 I (38) (310) (54) (1676) CORNER WEIGHT' 6.- 5 2 ' UNIT A B C D DIMENSION X 579F _ Lb Kg Lb Kg Lb Kg Lb Kg Ft -in. mm 240 270 520 235 508 230 532 241 640 290 3 -2 965 300 270 527 239 545 247 578 262 600 272 3 -7 1092 'Weights are for unit only and do not include options or crating. 10 f DIMENSIONAL DRAWING - 579F240,300 HIGH -HEAT UNITS CORNER D 1 3/6" DIA. DRAIN HOLE7 TYP (4) PLCS (35) ..........................y- / CORNER A 0' -3 7/8" 8' -7 t /I' (�) ( 5/8" 3' -3 5 ?1/4 " •-4 5/18 1' -4 9/16+1 0'3 15/16 5 /I6" 0' -5 15/16" )*-8 VW ROAN (1006) (415) (421) (109) (33) (151) ate / I b � 0 ' - 4 16 — — TYP (4) PLCS 1 I , (109) 1 1/2 'DIA I J I I ciecgo I r - ' I ( 5 I I I 1 1 (651) /8" x I 1 2'-615/16 "� (51) "TYP 1 (7B6) 6�+ 1 2' - 1-1.-6 6' -91n' SUPPLY 1 I 1 o' -2 1/2' 66)' AIR I (64) czo7m I 1 1 RETURN 5' 7/8" �� I VIEW Z -Z 5' - 3/16" OUTDOOR (D 1 I 1 AIR ' (1825) POWER EXHAUST (1707) 1 1 1 I (1753) (ACCESSORY ONLY) 7'-2 1/0" I 1 (2187) \ '1 I 2' -2 1118 I 1 1 1 - _2) CCE EXHAUST (A CCESSORY ONLY) - - - 0' -1 7/8" 1471 ( 3) 0' -10 13/16" d 0'11 /8' (274) Z -.;_i_ 0*-7 (197) 4 t — O L f OUTDOOR A (1270) M T A I � 7/8 " DIA HOLE COIL 2" DIA K.O. - 0 "'5" (51) (127) IIC1 (22) (127) - I.-0' -11 15/16" CORNER C 3" 8 1 3/8" DIA CONCENTRIC K.O. (303) CORNER B (76) (35) 0' -2 1/4' Q TOP CONTROL BOX FILTERS ACCESS ( ) X256 AIR OR (57) 1 ACCESS FAR SIDE �1' -10 5/181 CONOMIZER HOOD -1 ' --- - - - 0 " -3 " 6 ^ /11;"1 1' -1 5/16" 1 , (76) LOFT RICK / / / j (3 39) r- 3' -8 1/4" /` / 1 -d- 0 -4 /// 0' -3 7/16" 1(102) (1124) • I / /// Y (87) \ —J d b ( - / /N I 0 , 4Y _ / 1 U� Rta� SECTI A -A l '1 (` I / 4/ C:= •ICI NOTES: I/ / / 1' 3/8" 1. Dimensions in ( ) are in millimeters. 1 TYP \ / (467) 2. j Center of gravity. ' -1 1/2', / + v (38) - a - 1I 10._1• 3. Direction of airflow. Tr.' h-� Q (25) 4. Ductwork to be attached to accessory roof ° ( 51) / 203) FAR SIDE ONLY INDOOR COIL ALTERNATE RETURN curb or adapter only. 5. Minimum clearance: 3' - 4" 3/4' FPT DRAIN CONNECTION HEAT Ixct(ANCERACCFSSPANa ( to16) a Rear: 7'0" (2134) for coil removal. This di ANp A CCESS PANEL, (19) FAR SIDE ONLY mension can be reduced to 4'0" (1219) If CENTER POST conditions permit coil removal from the 0' - 4 4 1 � top. (IO2) „Ln• - 2" b. 4'0" (1219) to combustible surfaces, all 0' -3 1/8' I __(51) four sides (includes between units). (79) c. Left side: 4'0" (1219) for proper con- denser coil airflow. _ - - _ _ d. Front: 4'0"(1219 ) for control box access. e. Right side: 4'0" (1219) for proper opera - 3" 6 7/8 DIA CONCENTRIC K.O. tion of damper and power exhaust (if so (76) 6 (22) (FIELD POWER) equipped). f. Top: 6'0" (1829) to assure proper con- denser fan operation. g. Bottom: 14" (356) to combustible surfaces (when not using curb or adapter). h. Control box side: 3'0" (914) to un- 0' -3' grounded surfaces (non - combustible). (76) i. Control box side: 3'6" (1067) to block or 0 0 concrete walls, or other grounded 0' - 1/4" surfaces. (184) 4\ j. Local codes or jurisdiction may prevail. d ,, � 6. With the exception of clearance for the con - 4I 3 5/8' IC 1 3/8" DIA CONCENTRIC K.O. denser coil and the damper /power exhaust 0' - 7/8 J I (92) ¢ (35) (FIELD POWER) as stated in Note No. 5, a removable fence or (73) k 7/8 DIA K.O. (CONTROL) 0'14) 1/2' barricade requires no clearance. 0' - 7 /B+ (22) 7. Dimensions are from outside of comer post. (98) 111/2 DIA K.O. (GAS E NTRY) 3/4' NPT 1 1/4" DIA HOLE drip 0' - /1e" (8) on each side for top panel 1 IFS (32) (310) 0' -2 1/13, 5' -6 a (54) (1676) CORNER WEIGHT' DIMENSION X 6' - 1/2' UNIT A B C D (1969) 579F Lb Kg Lb Kg Lb Kg Lb Kg Ft -In. mm 240 485 465 211 456 206 644 292 835 378 3-4 1016 300 485 472 214 494 224 736 334 748 339 3 -5 1041 'Weights are for unit only and do not include options or crating. 11 • DIMENSIONAL DRAWING — ROOF CURB, 580D036 -072 ROOF CURB „ UNIT SIZE UNIT SIZE "D” ALT „ CONNECTOR ACCESSORY 580D 580D "B" C" DRAIN GAS POWER CONTROL PACKAGE CRRFCUR8001 A00 1.-2" HOLE ACCESSORY [356] CRBTM PW ROO1 ADO' 2'-0" 036 -072 3 /4" NPT 3/4" NPT 1/2" NPT (THRU- THE - BOTTOM CRRFCUR8002A00 [610] 036 -072 1- 9 1 - 4" 1 - 3 /4" CONNECTIONS) [551] [406] [45] CRBTMPWROO2A00' 3 /4" NPT 1 NPT 1 /2" NPT (THRU- THE - BOTTOM CONNECTIONS) C *Either connector package available for either roof curb. 48-1 - I f i / � % � � •\ NOTES: C / \ 7 \ 1. Roof curb accessory is shipped 1 Y unassembled. . G - - ,1 2. Insulated panels. 1 , ti 11 3. Di in [ ] are in millimeters. , , ' . . _ — _y 4. Roof curb: galvanized steel. N / / / 5. Attach ductwork to curb. (Flanges of duct rest on curb.) / / 6. Service clearance 4 ft on each side. _ _ D 7. / � j� Direction of airflow. 1761 b 4 L 0' -3 B (76) RETURN -AIR b OPENING 2' -7 5/8 (8037 r ------t SUPPLY - AIR GASKET 1' -1 7/16• I OPENING C (SUPPLIED WITH CURB) (341] i UNIT b ! — — NAIL , '�� 0 = 7n6 M TYPICAL (4) SIDES • SI - (11) 1' -7 1 1 0' - 0 7 /t6 11 j 0 (11 6- (BOLT MEADS) [5 04) (11) •' COUNTER FLASHING (BOLT HEADS) \ (FIELD SUPPLIED) (761 DU11CT 0' -0 7/ 3' -0 0' -0 7/16- (FIELD SUPPLIEDI . DOPING FELT OPENING FOR BASEPAN (914) '~ [11) A (FIELD SUPPLIED) ENTRY SERVICE il A <eoLr HEADS) (BOLT HEADS7 0'-2 1 /2' I ::cTION "C C (FIELD SUPPLIED) (64) \`\ SCALE 1,4 ROOFING MATERIAL ,40111. \ (FIELD SUPPLIED) / 0' -3 1/4• 3/16- \`\\\\\\\\\\ (83) (1837 SEE NOTE •2 \ 0' -4 (106] 3/16 I r RIGID INSULATION / (FIELD SUPPLIED) 044111°. 1 / I / / GAS 1 SERVICE / PLATE (' - 13/16 I / (427] 1 0' -0 1/4 -(7) / (INSIDE) 1 if... O - p 1 0' -4 9/16 - / � / \ [116] 4 I 'a It \ / Oj 0, SUPPLY AIR RETURN AIR � / 3 /B'J / / / / /i / / / / /// % \�\\\ \ \ \\\\ S / (61) j VIEW "A —A" \� • li ` / I 1 HEAD OF BOLT TO BE ON INSIDE OF FLANGE FLAN6E ++ 0 -4 � 40 0 [ 87 / 1 E t \ 25] 1705] Ipi (76] 3_ (938) VIEW "B" ,' ` i (TYP. ALL CORNERS) SEE VIEW "B't — — -- 4 1 12 DIMENSIONAL DRAWING - ROOF CURB, 580D090 -150 ROOF CURB UNIT SIZE "D" ALT CONNECTOR ACCESSORY A .. 580D UN58 SIZE "B" "C" DRAIN GAS POWER CONTROL PACKAGE 0D CRRFCURB003A00 1'-2" HOLE ACCESSORY [356] CRBTMPWR001A00' 2'-0" 090 -150 3 /4" NPT 3 /4" NPT 1 /2" NPT (THRU- THE - BOTTOM CRRFCUR8004A00 [610] 2'- 8 /1e "" 1'- 10 1 3 /4" CONNECTIONS) 090 -150 [827] [583] [45] CRBTMPWR002A00' • 3 /4" NPT 1 NPT 1 /2" NPT (THRU- THE - BOTTOM CONNECTIONS) 'Either connector package available for either roof curb. r — C• 1 1 / 1 NOTES: 1 ` 1 1 1 1. Roof curb accessory is shipped unassembled. 1 1 -- 2. Insulated panels. I C'f, ` 1 3. Dimensions in [ ] are in millimeters. , `� 4. Roof curb: galvanized steel. 1 1 1 ti ; 1 5. Attach ductwork to curb. (Flanges of duct rest on I ` ' -- i . • 1 curb.) 1 ` ' ' , 1 I 6. Service clearance 4 ft on each side. 1 ' . 0 ., _ _ 1 7. /�/ Direction of airflow. } - 4 1 0' -3 I I , (76) I .`. , I f_____; I [10061 UNIT L 0' -0 1/4 - - I I I GASKET 1v/ NAIL O I76] • •B, I (SUPPLIEDWITM CURB) M _ TYPICAL (4) SIDE d I RETURN -AIR 1 I DUCT 0' -7/16 + � - OPENING I 3' -3 S /8' 1 (FIELD SUPPLIED) �` (111 COUNTER FLASHING 1 I SUPPLY -AIR 1 (FIELD SUPPLIED) I I 1 ROOFING FELT 1 • [ 3 8 7, q• i 1 O PEN I NG • ' 1 I ' (FIELD SUPPLIED) SECTION " C - C� ' - 1 1 1 \ CANT STRIP SCALE 1.4 �L _ (FIELD SUPPLIED) ./�— 4 % ROOFING MATERIAL 0' -0 7/ (I I . (FIELD SUPPLIED) (BOLT MEADS) ---a -6 15 /16 L'-2 7/8' 0' -0 7/16' ` ., (7861 (378) (BOLT (1 MEADS) " \ \\\\\\\\\\\ R FOR EASEPAN 0' -3 (76) 1 0.-0 0 (111) 4' -0 ■13/16' a 0�� 7 0 7/16' RIGID INSULATION (BOLT MEADS) (1240) (BOLT MEADS) (FIELD SUPPLIED) B3 /1. A f_ ( _J A / 4 s41 4 / 0'-2 1/8' 0 0' -7 3/16 SEE NOTE .2 / 831 I / [1 / / 1 1 �' - 4 44. 1 / 1 � 44,10 / 1 / GAS 1 / SERVICE 1 / PLATE 1 1' -8 3/16" / (513) I I 0' -0 1/4•[71 /111 (INSIDE) 1 Ili 0 •\ I 1 0' -4 9/16 `\ �� 1 (116) - 1 / 1 1 1 1 / U 8 1 1 TYP 0 I I SUPPLY AIR RETURN AIR N , / 2 3/8 I I / / / / /i / / / / / / / %i � \ \ \ \ \ \ \ \ \ \ \ \ \\ i (611 VIEW " A -A" I HEAD OF BOLT TO BE ON - O \ \ \ \�� \ \ \ \� \```` \ ` \ \ \ \``` INSIDE OF FLANGE / \ \\ \\\ \ \`\ \ \ \ \ \\` .0) } iEEEEL_ 0'-1 (8) (251 \ <e. \ • [1981] aREF � [1261) ' 6) VIEW "E' ,. 1,,/ (TYP. ALL CORNERS) SEE VIEW "B"r " 13 DIMENSIONAL DRAWING - HORIZONTAL AND VERTICAL ROOF CURBS AND HORIZONTAL ADAPTER, 579F180 -300 M I T 0Ian INSULATED PANEL FOR SIDE PLAN 1 /1911 OF ROOF CURB i(770P ,� 4 SUPPLY AND RETURN — — / TUNE (308450.203, 389171 -203, 4 OF UNR la 389210.201, AND 389211 -201 CNVL1) 1- 4 "4' _037) 1/4• 0 " -1 11/16 NE IGHT (43) NDTE •2 AN" SUPP RETURN FROM TABLE COMPR 0OM 5/' x 4• SECT OPEN ING OPENI [ n no) CURB CURB YP 4PL5 0 N4) /47/E _ 1 A } (1753) I • v 176) I _ _ _ _ _ LJ (3084.)0 -203, 389,71 -203, T - 1_ - — • 389210 -201, AND . 389211.201 ONLY) 2. �,w CE' 1 0'- 1/4• ■ — Ai .A. ', (1886) f li 0 3/16 / ,._,, -.I (305) EA \ \� KEEP 7X15 AREA -e CLEAR FOR POWER ,p„ -_g• —r (CAS ENTRY) 1' -)0 3/4.. 1 " -) 15/16- (578) (349) 1' -3/16 (310) GASKET UNIT OPENINGS 1 HO (9UPPUEO •B' - 88 C)R8( NAIL I C NSER CALL UNITB E%CEP7 ,) 15) -� �] HIGH HEAT 240 AND 300; 1" -4 9/16 COMPREOSSOR .541X. 9934 HEAT 240 AND 300) SUPPLY RETURN I (471) EN '%/ r - 0RETURNL - --- 0LR(ER F EO LD SUPPL I) i 1 DUCT (F IEEL 5(APL CONDENSATE COpDENSEp 1 OPTIONAL 0 (9LD \ CANT STRIP DRAIN AND S IDE SUPPLY IF SUPPLIED) COMPRE5509 .28 DEG. SUPPLY AIR RECU AIR , SUPPLIED \ ROOFING MATERIAL EN O qIN. _ � /��/ � F.` (FIELD RPM. IED) • \ SECT ION A -A .`\\\\\\\\\\\\\\ RIGID INSULATION (FIELD SUPPLIED) NOTE: To prevent the hazard of stagnant water build -up in the drain pan LEGEND of the indoor -air section, unit can only be pitched as shown. COMPR SECT. — Compressor Section NOTES: 1. Roof curb accessory is shipped unassembled. 2. Insulated panels, 1 /2 -in. thick neoprene - coated, 2 lb density. 3. Dimensions in ( ) are in millimeters. 4. r / Direction of airflow. 5. Roof curb: 18 gage steel. 6. Attach all ductwork to roof curb. 7. Field installation of sidewall insulation is mandatory. ACCESSORY CURB PACKAGE HEIGHT DESCRIPTION "A" "B" "C" "D" "E" NO. 308450-201 1' -2" Standard Curb — 5'- 7 1'- 7 — — — (355) 14" High (1703) (503) 2' -0" Standard Curb for 5' -7 /e " 1'- 713/1e" — 308450 -202 610 Units Requiring 1703 (503) — — (610) (1703) Installation ) (503 308450 203 2' -0" Horizontal Supply and 5'- 7 1'-7 5' -6" 0' -2 1' -6" (610) Retum Curb (1703) (503) (1676) (64) (457) 389210 201 1' -11" Pre- Assembled, High - Static, 5'-7 1'- 7 6' -2" 0'- 6 1' -2 (584) Horizontal Adapter (1703) (503) (1880) (159) (371) 389171 -201' 1' -2" Standard Curb — 7'- 2 3' - 3%" — — — (355) 14" High (2205) (1006) 2' -0" Standard Curb 7'- 2' 3' -3 389171 -202' (610) for Units Requiring (2205) (1006) — — — High Installation 389171 -203' 2' -d" Horizontal Supply 7'- 2 3' -3%" 5' -6" 0' -2 1' -6" (610) and Retum Curb (2205) (1006) (1676) (64) (457) 389211 -201• 1' -11" Pre- Assembled, High - Static, 7'- 2 3' -3 6' -2" 0' -6 1' -2%" (584) Horizontal Adapter (2205) (1006) (1880) (159) (371) For high -heat applications. 14 DIMENSIONAL DRAWING — HORIZONTAL ADAPTER INSTALLATION — 579F216 -300 c !i i: yg- P� O P� � 1 1 \ N J I Jo. I , ' i NOTE: The 389210 -201 and 389211 -201 are fully factory pre - assembled horizontal adapters which include an insulated high static regain transition duct and substantially improve fan static performance. Azi . A s ay - 143/4" 90 0° I SIM> 4 . 1b( 1 5 I SPECIFICATIONS - 580D036 -072 UNIT SIZE 036 048 060 072 NOMINAL CAPACITY (tons) 3 4 5 6 OPERATING WEIGHT (lb) Unit Al/AI• 460 470 490 565 Economizer Durablade 34 34 34 34 Parablade 42 42 42 42 Roof Curb (14 in.) 115 115 115 115 COMPRESSOR Hermetic Quantity 1 1 1 1 No. lenders (per circuit) 2 2 2 2 011 50 50 50 54 REFRIGERANT TYPE R -22 Operating Charge (lb-oz) Circuit 1 3 -6 4 -11 5 -13 7 -10 Circuit 2 — — — — CONDENSER COIL Enhanced Copper Tubes. Aluminum Lanced Fins Rows...Fins/in. 1...17 1...17 1...17 2...17 Total Face Area (sq ft) 7.36 11.39 13.19 10.42 CONDENSER FAN Propeller Type Nominal Cfm 3500 4000 4000 4000 Quantity...Diameter (In.) 1...22.0 1...22.0 1...22.0 1...22.0 Motor p...R m 1 /4...1100 1 /4...1100 1 /4...1100 1 /4...1100 Watts Input (Total) 325 325 325 325 EVAPORATOR COIL Enhanced Copper Tubes. Aluminum Double -Wavy Fins Expansion Device AcutrolTM Feed Device Rows...Fins/in. 2...15 2...15 3...15 4...15 Total Face Area (sq ft) 4.17 5.5 5.5 5.5 EVAPORATOR FAN Centrifugal Type Quantity...Size (In.) Std 1...10 x 10 1...10 x 10 1...11 x 10 1...10 x 10 Alt 1...10x10 1...10x10 1...10x10 — Type Drive Std Direct Direct Direct Belt Alt Belt Belt Belt — Nominal Cfm 1200 1600 2000 2400 Motor Hp Std — — — — Alt — — — — Maximum Continuous Bhp Std .34 .75 1.20 2.40 Alt 1.00 1.00 1.80 — Motor Frame Size Std 48 48 48 56 Alt 48 48 48 — Nominal Rpm High/Low Std 860/800 1075/970 1075/970 — Alt — — — — Fan Rpm Range Std — — — 1070 -1460 Alt 760 -1000 835 -1185 900 -1300 Motor Bearing Type Ball Ball Ball Ball Maximum Allowable Rpm 2100 2100 2100 2100 Motor Pulley Pitch Diameter Min/Max (in.) Std — — — 2.8/3.8 Alt 1.9/2.9 1.9/2.9 2.4/3.4 Nominal Motor Shaft Diameter (in.) Std 1 /2 1 /2 1 /2 5 /e Alt 1 /2 1 /2 1 /2 — Fan Pulley Pitch Diameter (in.) Std — — — 4.5 Alt 4.5 4.0 4.5 — Nominal Fan Shaft Diameter (in.) — — — — Belt, Quantity...Type...Length (in.) Std — — — 1...A...40 Alt 1...A...34 1...A...34 1...A...39 — Pulley Center Line Distance (in.) Std — — — 14.7 -15.5 Alt 10.0 -12.4 10.0 -12.4 14.7 -15.5 Speed Change per Full Turn Pulley of Std — — — 80 Movable MovablePulley le Maximum ( Fulll ) Turns Std — — 70 — 80 5 From Closed Position Alt 5 5 5 — Factory Setting Std — — — 3 Alt 3 3 3 Factory Speed Setting (rpm) Std — — — 1225 Alt 856 975 1060 Fan Shaft Diameter at Pulley (In.) 1 /2 1 /2 1 /2 1 /2 LEGEND (Table continued on next page.) Al — Aluminum Bhp — Brake Horsepower FIOP — Factory- Installed Option TXV — Thermostatic Expansion Valve *Evaporator coil fin material/condenser coil fin material. tRollout switch is manual reset. "Included in the accessory or optional controls upgrade kit. ttLow -heat weight/high -heat weight. IlCircuit 1 consists of lower portion of condenser coil and lower portion of evaporator coil, and Circuit 2 is the upper portion of both coils. ¶An accessory liquid propane kit is available for 180, 216 270, 240 270, and 300 270 units. Refer to accessory literature for more details. ***The 579F300 unit requires 2 -in. industrial -grade filters capable of handling face velocities of up to 625 ft/min. , NOTE: The 580D036 -150 units have a loss -of- charge/low- pressure switch (option or accessory) located in the liquid line. The 579F180 -300 units have a low- pressure switch (standard) located on the suction side. 16 SPECIFICATIONS - 580D036 -072 (cont) UNIT SIZE 036 048 060 072 FURNACE SECTION Medium High Low Medium High Low Medium High Low Medium High Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat Rollout Switch Cutout 195 195 195 195 195 195 195 195 195 195 195 Temp (F)t Burner Orifice Diameter (in....drill size) Natural Gas Std .113...33 .113...33 .113...33 .113...33 .129...30 .113...33 .113...33 .129...30 .113...33 .113...33 .129...30 Liquid Propane Alt .089...43 .089...43 .089...43 .089...43 .102. .089...43 .089...43 .102...38 .089...43 .089...43 .102...38 Pilot Orifice Diameter Natural Gas Std - - - - - - - - - - - atral G Liquid Propane Alt - - - - - - - - - - - Thermostat Heat Anticipator Setting (amps) 208/230, 575 v Stage 1 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 Stage 2 - .14 - - .14 - - .14 - - .14 460 v Stage 1 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 Stage 2 - .14 - - .14 - - .14 - - .14 Gas Input (Btuh) Stage 1 72,000 82,000 72,000 115,000 120,000 72,000 115,000 120,000 72,000 115,000 120,000 Stage 2 - 115,000 - - 150,000 - - 150,000 - - 150,000 Efficiency (Steady State) ( %) 80 80 80 80 80 80 80 80 80 80 80 Temperature Rise Range 25 -55 55 -85 25 -55 35 -65 50 -80 25 -55 35 -65 50 -80 25 -55 35 -65 50 -80 Manifold Pressure (In. wg) Natural Gas Std 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 Liquid Propane Alt 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 Gas Valve Quantity 1 1 1 1 1 1 1 1 1 1 1 Gas Valve Pressure Range Psig 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 in. wg 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0-13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 Field Gas Connection 1/ 1 /2 1 , /2 I/2 1/2 1 /2 1 /2 1 /2 1/2 1 /2 Size (in.) HIGH- PRESSURE SWITCH (psig)" Standard Compressor 450 t 50 500 ± 50 Internal Relief Cutout 428 428 Reset o 320 320 LOW PRESSUR E SWITCH (psig)• Cutout 7 ± 3 Reset (Auto.) 22 t 7 FREEZE PROTECTION THERMOSTAT (F)" Opens 30 ± 5 Closes 45 ± 5 OUTDOOR -AIR INLET SCREENS Cleanable Quantity...Size (in.) 1...20 x 24 x 1 RETURN -AIR FILTERS Throwaway Quantity...Size (in.) 2...16 x 25 x 2 LEGEND Al - Aluminum Bhp - Brake Horsepower FIOP - Factory- Installed Option TXV - Thermostatic Expansion Valve 'Evaporator coil fin materiaVcondenser coil fin material. tRollout switch is manual reset. "Included in the accessory or optional controls upgrade kit. Mow-heat wei9ht/high -heat weight. IlCircuit 1 consists of lower portion of condenser coil and lower portion of evaporator coil, and Circuit 2 is the upper portion of both coils. ¶An accessory liquid propane kit is available for 180, 216 270, 240 270, and 300 270 units. Refer to accessory literature for more details. ***The 579F300 unit requires 2 -in. industrial -grade filters capable of handling face velocities of up to 625 ft/min. NOTE: The 580D036 -150 units have a loss -of- charge/low- pressure switch (option or accessory) located in the liquid line. The 579F180 -300 units have a low- pressure switch (standard) located on the suction side. 17 SPECIFICATIONS - 580D090 -150 UNIT SIZE 090 102 120 150 NOMINAL CAPACITY (tons) 7 8 10 12 OPERATING WEIGHT (lb) Unit AVA1• 870 880 1035 1050 Economizer Durablade 44 44 44 44 Parablade 62 62 62 62 Roof Curb (14 in.) 143 143 143 143 COMPRESSOR Hermetic Quantity 2 2 2 2 No. Cylinders (per circuit) 2 2 2 2 Oil (oz) 50 ea 50 ea 50 ea 54 ea REFRIGERANT TYPE R -22 Operating Charge (lb -oz) Circuit 1 4 -13 6 -14 5 -13 9 -6 Circuit 2 4 -14 6 -3 5 -14 9 -0 CONDENSER COIL Enhanced Copper Tubes, Aluminum Lanced Fins Rows...Fins/in. 1...17 2...17 2...17 2...17 Total Face Area (sq ft) 20.50 18.00 17.42 25.00 CONDENSER FAN Propeller Type Nominal Cfm 6500 6500 7000 7000 Quantity...Diameter (in.) 2..22 2...22 2...22 2...22 Motor Hp...Rpm 1 /4...1100 1 /4...1100 1 /4...1100 1 /4...1100 Watts Input (Total) 600 600 600 600 EVAPORATOR COIL Enhanced Copper Tubes, Aluminum Double -Wavy Fins Expansion Device AcutrolThl Feed Device Rows...Fins/in. 3...15 3...15 3...15 4...15 Total Face Area (sq ft) 8.0 8.0 10.0 11.1 EVAPORATOR FAN Centrifugal Type Quantity...Size (in.) Std 1...15 x 15 1...15 x 15 1...15 x 15 1...15 x 15 Alt 1...15x15 - 1...15x15 1...15x15 Type Drive Std Belt Belt Belt Belt Alt Belt - Belt Belt Nominal Cfm 3000 3400 4000 5000 Motor Hp Std - - - - Alt - - - - Maximum Continuous Bhp Std 2.40 2.40 2.40 4.20 Alt - - 2.90 5.25 Motor Frame Size Std 56 56 56 56 Alt - - 56 56 Nominal Rpm High/Low Std - - - - Alt - - - - Fan Rpm Range Std 590 -840 685 -935 685 -935 860 -1080 Alt 685 -935 - 835 -1085 900 -1260 Motor Bearing Type Ball Ball Ball Ball Maximum Allowable Rpm 2100 2100 2100 2100 Motor Pulley Pitch Diameter Min/Max (in.) Std 2.4/3.4 2.8/3.8 2.8/3.8 4.0/5.0 Alt 2.8/3.8 - 3.4/4.4 3.1/4.1 Nominal Motor Shaft Diameter (in.) Std 5 /e We 5 /e 7 /e Alt - - 7 /e 7 /e Fan Pulley Pitch Diameter (in.) Std 7.0 7.0 7.0 8.0 Alt 7.0 - 7.0 5.9 Nominal Fan Shaft Diameter (in.) - - - - Belt, Quantity...Type...Length (in.) Std 1...A...49 1...A...49 1...A...49 1...A...52 Alt 1...A...49 - 1...A...49 1...BX...46 Pulley Center Line Distance (in.) Std 16.75 -19.25 16.75 -19.25 15.85 -17.50 15.85 -17.50 Alt 16.75 -19.25 - 15.85 -17.50 15.85 -17.50 Speed Change per Full Turn of Std 50 50 50 44 Movable l Pullley ley Max mum np Full Std 5 5 5 5 From Closed Position Alt 5 - 5 6 Factory Setting Std 5 5 5 5 Alt 5 - 5 6 Factory Speed Setting (rpm) Std 590 685 685 860 Alt 685 - 835 960 Fan Shaft Diameter at Pulley (in.) 1 1 1 1 LEGEND (Table continued on next page.) Al - Aluminum Bhp - Brake Horsepower FIOP - Factory- Installed Option TXV - Thermostatic Expansion Valve `Evaporator coil fin materiaVcondenser coil fin material. tRollout switch is manual reset. "Included in the accessory or optional controls upgrade kit. ttLow -heat weight/high -heat weight. IlCircuit 1 consists of lower portion of condenser coil and lower portion of evaporator coil, and Circuit 2 is the upper portion of both coils. ¶An accessory liquid propane kit is available for 180, 216 270, 240 270, and 300 270 units. Refer to accessory literature for more details. "'The 579F300 unit requires 2 -in. industrial -grade filters capable of handling face velocities of up to 625 ft/min. NOTE: The 580D036 -150 units have a loss -of- charge/low- pressure switch (option or accessory) located in the liquid line. The 579F180 -300 units have a low- pressure switch (standard) located on the suction side. 18 i SPECIFICATIONS - 580D090 -150 (cont) UNIT SIZE 090 102 120 150 FURNACE SECTION Low Medium High Low Medium High Low Medium High Low Medium Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat Rollout Switch Cutout 195 195 195 195 195 195 195 195 195 195 195 Temp F)t Burner Orifice Diameter (in....drill size) Natural Gas Std .120...31 .120...31 .120...31 .120...31 .120. .120...31 .120...31 .120...31 .129...30 .120. .129...30 Liquid Propane Alt .096...41 .096...41 .096...41 .096...41 .096...41 .096...41 .096...41 .096...41 .102...38 .096...41 .102...38 Pilot Orifice Diameter in....drill size) Natural Gas Std - - - - - - - - - - - Liquid Propane Alt - - - - - - - - - - - Thermostat Heat Anticipator Setting (amps) 208/230, 575 v Stage 1 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 Stage 2 .20 .20 .20 .20 .20 .20 .20 .20 .20 .20 .20 460 v Stage 1 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 .14 Stage 2 .20 .20 .20 .20 .20 .20 .20 .20 .20 20 .20 Gas Input (Btuh) Stage 1 125,000 120,000 180,000 125,000 120,000 180,000 120,000 180,000 200,000 180,000 200,000 Stage 2 - 180,000 224,000 - 180,000 224,000 180,000 224,000 250,000 224,000 250,000 Efficiency (Steady 80 80 80 80 80 80 80 80 80 80 80 State) (/o) Temperature Rise Range 20 -50 35 -65 45 -75 20 -50 35 -65 45 -75 35 -65 35 -65 40 -70 35 -65 40 -70 Manifold Pressure (in. wg) Natural Gas Std 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 Liquid Propane Alt 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 3.5 Gas Valve Quantity 1 1 1 1 1 1 1 1 1 1 1 Gas Valve Pressure Range Psig 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.180- 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 0.487 in. wg 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0-13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 Field Gas Connection � /2 3/4 3/4 1 /2 3 /4 3 /4 3 /4 3/4 3/4 3/4 3/4 Size (in.) HIGH - PRESSURE SWITCH (psig)" Standard Compressor 450 t 50 500 t 50 Internal Relief Cutout 428 428 Reset (Auto.) 320 320 LOW- PRESSURE SWITCH (psig)" Cutout 7 ± 3 Reset (Auto.) 22 ± 7 FREEZE PROTECTION THERMOSTAT (F)" Opens 0 ± 5 Closes 4 ± 5 OUTDOOR -AIR INLET SCREENS Cleanable Quantity...Size (in.) 1...20 x 25 x 1 1...16 x 25 x 1 RETURN -AIR FILTERS Throwaway Quantity...Size (in.) 4...16x20x2 4...16x20x2 4...20x20x2 4..20x20x2 LEGEND Al - Aluminum Bhp - Brake Horsepower FIOP - Factory- Installed Option TXV - Thermostatic Expansion Valve *Evaporator coil fin material /condenser coil fin material. tRollout switch is manual reset. "Included in the accessory or optional controls upgrade kit. 11 weight/high -heat weight. IlCircuit 1 consists of lower portion of condenser coil and lower portion of evaporator coil, and Circuit 2 is the upper portion of both coils. An accessory liquid propane kit is available for 180, 216 270, 240 270, and 300 270 units. Refer to accessory literature for more details. "'The 579F300 unit requires 2 -in. industrial -grade filters capable of handling face velocities of up to 625 ft/min. NOTE: The 580D036 -150 units have a loss -of- charge /low- pressure switch (option or accessory) located in the liquid line. The 579F180 -300 units have a low- pressure switch (standard) located on the suction side. 19 SPECIFICATIONS - 579F180 -300 UNIT SIZE 208/230, 460 180 575 v 216 240 300 NOMINAL CAPACITY (tons) 15 18 20 25 OPERATING WEIGHT (lb) Unit AUA1 • 1604/1624tt 2150 2200/2400tt 2234/2413tt Economizer 110 110 110 110 Roof Curb (14 in.) 200 200 200/213tt 200/213tt COMPRESSOR Semi- Hermetic Quantity 1 2 2 2 No. Cylinders (per circuit) 6 6 6 6 Oil (oz) 115 115, 88 115 ea 128 ea REFRIGERANT TYPE R -22 Operating Charge (Ib -oz)II Circuit 1 19 -4 13 -4 12 -13 16 -12 Circuit 2 - 11 -0 12 -13 15 -12 CONDENSER COIL Enhanced Copper Tubes, Aluminum Lanced Fins Rows...Fins/in. 2...17 3...15 3...15 4...15 Total Face Area (sq ft) 17.9 22.2 22.2 22.2 CONDENSER FAN Propeller Type Nominal Cfm 10,500 14,200 14,200 Quantity...Diameter (in.) 3...22 2...30 2...30 Motor p...R m 1/x...1050 1.. 1.. Watts Input (Total) 1100 3400 3400 EVAPORATOR COIL Copper Tubes, Aluminum or Copper Plate Fins Expansion Device TXV AcutrolTM Feed Device Rows...Fins/in. 2...17 3...17 3...15 4...15 Total Face Area (sq ft) 17.9 17.9 17.9 17.9 EVAPORATOR FAN Centrifugal Type Quantity...Size (in.) 2...10 x 10 2...10 x 10 2...12 x 12 2...12 x 12 2...12 x 12 Type Drive Belt Belt Belt Belt Belt Nominal Cfm 6000 6000 7200 8000 10,000 Motor Hp 3.7 3.0 5 71/2 10 Maximum Continuous Bhp 4.25 3.45 5.90 8.7 [208/230,575 v] 10.26 [208/230,575 v] 9.5 [460 v ] 11.80 [460 v Motor Frame Size 56H 56H 184T 213T 215T Fan Rpm Range 1227 -1559 1201 -1462 1047 -1251 1238 -1494 1323 -1579 Motor Bearing Type Ball Ball Ball Ball Ball Maximum Allowable Rpm 1559 1550 1550 1550 1550 Motor Pulley Pitch Diameter Min/Max (in.) 3.7/4.7 4.3/5.3 4.9/5.9 5.4/6.4 5.8/7.0 Nominal Motor Shaft Diameter (in.) 7 /8 7 /8 1 1 1 Fan Pulley Pitch Diameter (in.) 5.2 6.4 8.4 7.9 7.9 Nominal Fan Shaft Diameter (In.) 1 1 1 1 1 Belt, Quantity...Type...Length (in.) 1...BX...42 1...BX...45 1...BX...50 1...BX...50 1...BX...51 Pulley Center Line Distance (In.) 13.5 -15.5 13.5 -15.5 13.3 -14.8 14.6 -15.4 14.6 -15.4 Speed Change per Full Turn of 66 52 34 43 43 Movable Pulley Flange (rpm) Movable Pulley Maximum Full Turns 5 5 6 6 6 From Closed Position Factory Setting 4 3.5 3 3 3 Factory Speed (rpm) 1293 1279 1149 1366 1451 Fan Shaft Diameter af pulley (in.) 1 1 1 1 1 LEGEND (Table continued on next page.) Al - Aluminum Bhp - Brake Horsepower FIOP - Factory- Installed Option TXV - Thermostatic Expansion Valve 'Evaporator coil fin material/condenser coil fin material. tRollout switch is manual reset. "Included in the accessory or optional controls upgrade kit. ttLow -heat weight/high -heat weight. IlCircuit 1 consists of lower portion of condenser coil and lower portion of evaporator coil, and Circuit 2 is the upper portion of both coils. • ¶An accessory liquid propane kit is available for 180, 216 270, 240 270, and 300 270 units. Refer to accessory literature for more details. ***The 579F300 unit requires 2 -in. industrial -grade filters capable of handling face velocities of up to 625 ft/min. NOTE: The 580D036 -150 units have a loss -of- charge/low- pressure switch (option or accessory) located in the liquid line. The 579F180 -300 units have a low- pressure switch (standard) located on the suction side. 20 SPECIFICATIONS - 579F180 -300 (cont) UNIT SIZE 180 216 240 300 FURNACE SECTION Low Heat High Heat Low Heat Low Heat High Heat Low Heat High Heat • Rollout Switch Cutout 190 190 190 190 190 190 190 Temp (F )t Burner rice Diameter tn....drill size) Natural Gas Std .113...33 .113...33 .113...33 .113...33 .113...33 .113...33 .113...33 Liquid Propane Alt - - - - - - - Pilot Orifice Diameter Natural Gas size) .055...54, .055...54, 055 , atural Gas Std 0.55...54 055...54, .070...50(2) "' 54 070...50(2) Liquid Propane Alt ¶ 041 ¶ .59 .04 ¶.59 .041 - 041 - Thermostat Heat Anticipator Setting (amps) Stage 1 1.20 1.20 1.20 1.20 1.20 1.20 1.20 Stage 2 0.60 - 0.60 0.60 0.60 0.60 0.60 Gas Input (Btuh) Stage 1 115,500 115,500 115,500 115,500 242,500 115,500 242,500 Stage 2 231,000 270,000 270,000 270,000 485,000 270,000 485,000 Efficiency o(Steady 80 80 80 80 80 80 80 State) ( /o) Temperature Rise Range 25 -55 25 -55 15 -45 15 -45 35 -65 15 -45 35 -65 Manifold Pressure (in. wg) Natural Gas Std 3.5 3.5 3.5 3.5 3.5 3.5 3.5 Liquid Propane Alt Gas Valve Quantity 2 2 2 2 2 2 2 Gas Valve Pressure Range Pslg 0.180 -0.487 0.180 -0.487 0.180 -0.487 0.180 -0.487 0.180 -0.487 0.180 -0.487 0.180 -0.487 in. wg 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 5.0 -13.5 Field Gas Connection 3 /4 3 /4 3 /4 3 /4 3 /4 3 /4 3 /4 Size (in.) HIGH - PRESSURE SWITCH (psig) Standard Compressor - Internal Relief Cutout 426 Reset (Auto.) 320 LOW- PRESSURE SWITCH (psig) _ Cutout 7 Reset (Auto.) 22 FREEZE PROTECTION THERMOSTAT (F) Opens 30 ± 5 Closes 45 ± 5 OUTDOOR -AIR INLET SCREENS Cleanable Quantity...Size (in.) 2...20 x 25 x 1 1...20x20x1 RETURN -AIR FILTERS Throwaway •• Quantity...Size (in.) 4..20 x 20 x 2 4...16 x 20 x 2 LEGEND Al - Aluminum Bhp - Brake Horsepower FIOP - Factory- Installed Option TXV - Thermostatic Expansion Valve 'Evaporator coil fin materiaVcondenser coil fin material. tRollout switch is manual reset. "Included in the accessory or optional controls upgrade kit. Mow-heat weight/high -heat weight. IlCircuit 1 consists of lower portion of condenser coil and lower portion of evaporator coil, and Circuit 2 is the upper portion of both coils. ¶An accessory liquid propane kit is available for 180, 216 270, 240 270, and 300 270 units. Refer to accessory literature for more details. "'The 579F300 unit requires 2 -in. industrial -grade filters capable of handling face velocities of up to 625 ft/min. NOTE: The 580D036 -150 units have a loss-of-charge/low-pressure switch (option or accessory) located in the liquid line. The 579F180 -300 units have a low- pressure switch (standard) located on the suction side. 21 SELECTION PROCEDURE (with 579F180270 example) I DETERMINE COOLING AND HEATING REQUIRE- IV DETERMINE FAN SPEED AND POWER REQUIRE- MENTS AT DESIGN CONDITIONS: MENTS AT DESIGN CONDITIONS: Given: Before entering the Air Delivery table on page 48, calculate Total Cooling Capacity Required 170,000 Btuh the total static pressure required based on unit compo- Sensible Heat Capacity 114,000 Btuh nents. From the given and the Accessory/FIOP Static Required Heating Capacity 200,000 Btuh Pressure table on page 54, find: Condenser Entering Air Temperature 95 F External static pressure 0.60 in. wg Evaporator Entering Air Temperature 80 F Edb/ Economizer 0.04 in. wg 67 F Ewb Total Static Pressure 0.64 in. wg Evaporator Air Quantity 4500 cfm External Static Pressure 0 6 in. wg Enter the Air Delivery table on page 48 for standard Power Supply (V- Ph -Hz) 460 -3 -60 579F180 460 -v unit at 4,500 cfm and 0.64 in. wg external edb — Entering dry bulb static pressure. By interpolation, find that the rpm is 988 ewb — Entering wet bulb and the watts are 1334. The factory- installed standard mo- tor with a field - supplied drive will suffice. II DETERMINE UNIT SIZE: Select unit based on cooling requirements. V DETERMINE NET COOLING CAPACITY: Enter Gross Cooling Capacities tables on page 28 at con- Cooling capacities are gross capacities and do not include indoor (evaporator) fan motor (IFM) heat. Use the watts in denser entering temperature of 95 F, evaporator air enter- ing at 4500 cfm and 80 F db and 67 F wb. The put power to the motor calculated in Section IV above. 579F180 270 unit will provide a gross cooling capacity of IFM Watts = 1334 180,200 Btuh and a sensible heat capacity of 120,000 Btuh. Determine net capacity using the following formula: For evaporator air temperatures other than 80 F, calculate Net capacity = gross capacity – IFM heat sensible heat capacity correction, using the formula found Btuh in Note 3 following the Gross Cooling Capacities tables. = 180,200 Btuh – 1334 Watts (3.412 W att ) NOTE: Unit ratings are gross capacities and do not include = 180,200 Btuh – 4552 Btuh the effect of evaporator -fan motor heat. To calculate net Net capacity = 175,648 Btuh capacities, see Step V. III SELECT HEATING CAPACITY OF UNIT TO PROVIDE Net sensible capacity = 120,000 – 4552 Btuh DESIGN CONDITION REQUIREMENTS: Net sensible capacity = 115,448 Btuh In the Heating Capacities table on page 5, note that unit The 579F180 270 with a field - supplied drive is the correct 579F180 270 will provide output capacity of 216,000 Btuh, selection for the given conditions. which is adequate for the given application. 22 GROSS COOLING CAPACITIES 5800036 (3 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 42.8 20.0 2.91 40.8 19.4 3.14 38.7 18.6 3.35 900 0.11 67 38.9 24.5 2.81 36.9 23.7 3.01 34.9 22.9 3.21 62 35.0 28.7 2.70 33.3 27.9 2.90 31.4 27.0 3.09 72 44.8 21.8 2.99 42.5 21.0 3.20 40.4 20.3 3.42 1200 0.14 67 40.8 27.5 2.88 38.7 26.8 3.08 36.6 26.0 3.29 62 37.0 32.8 2.78 35.0 31.8 2.97 33.0 30.9 3.16 72 45.8 23.0 3.02 43.6 22.6 3.24 41.4 22.0 3.47 1500 0.17 67 41.9 30.0 2.92 39.9 29.7 3.14 37.6 28.8 3.35 62 38.2 36.0 2.82 36.1 35.1 3.02 34.1 34.0 3.22 5800036 (3 TON) (cont) Air Entering AIr Entering Condenser (F) Evaporator 105 115 Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Cfm BF (F) Total Sensible kW Total Sensible kW 72 36.5 17.8 3.55 34.3 17.0 3.76 900 0.11 67 32.8 22.1 3.41 30.7 21.3 3.60 62 29.2 25.9 3.27 26.9 24.8 3.45 72 38.1 19.6 3.63 35.7 19.0 3.84 1200 0.14 67 34.3 25.2 3.49 32.1 24.4 3.68 62 30.9 29.8 3.35 28.8 28.8 3.54 72 39.0 21.2 3.68 36.5 20.5 3.88 1500 0.17 67 35.2 28.0 3.54 32.9 27.1 3.74 62 32.4 32.3 3.43 30.6 30.6 3.64 5800048 (4 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor Cfm BF (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 57.9 27.2 4.07 55.7 26.4 4.40 52.9 25.5 4.70 1200 0.12 67 53.1 33.3 3.93 50.8 32.5 4.24 48.1 31.5 4.54 62 48.3 39.2 3.79 45.3 37.8 4.08 42.5 36.4 4.36 72 60.4 29.4 4.17 57.7 28.4 4.47 55.2 27.6 4.78 1600 0.15 67 55.9 37.2 4.03 53.4 36.7 4.35 50.5 35.6 4.63 62 51.3 44.8 3.90 48.5 43.6 4.20 45.7 42.2 4.47 72 62.2 31.4 4.24 59.4 30.5 4.54 56.7 29.7 4.87 2000 0.18 67 57.3 40.3 4.08 55.0 40.3 4.42 52.0 39.2 4.70 62 52.9 49.1 3.96 50.2 47.9 4.25 47.4 46.7 4.56 5800048 (4 TON) (cont) Air Entering AIr Entering Condenser (F) Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 50.1 24.4 5.00 47.3 23.4 5.30 1200 0.12 67 45.3 30.3 4.81 42.6 29.2 5.07 62 39.8 35.1 4.62 37.2 33.7 4.88 72 52.3 26.7 5.10 49.3 25.9 5.42 1600 0.15 67 47.6 34.5 4.91 44.6 33.3 5.19 62 42.8 40.7 4.73 40.0 39.3 4.99 72 53.6 28.8 5.17 50.5 27.8 5.48 2000 0.18 67 48.9 38.1 4.99 45.9 37.1 5.28 62 44.9 44.6 4.84 42.4 42.4 5.12 LEGEND t Iwb = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hwb ) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hiwb = hewb - kW - Compressor Motor Power Input 4.5 x ctm MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. sensible capacity (1000 x MBtuh) Above 80 F edb, add (con factor x cfm) to the sensible heat capacity. tldb = t edb - 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). 23 GROSS COOLING CAPACITIES (cont) 580D060 (5 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 71.0 33.9 5.04 69.2 33.4 5.50 65.5 32.1 5.88 1500 0.07 67 63.8 41.5 4.82 61.0 40.5 5.27 56.6 38.8 5.62 62 55.4 47.9 4.62 54.2 47.3 5.02 50.4 45.6 5.37 72 74.5 37.4 5.20 72.9 37.0 5.66 69.4 35.8 6.01 2000 0.09 67 67.2 47.4 4.97 65.6 46.9 5.41 60.9 45.3 5.76 62 59.2 55.8 4.76 57.2 54.9 5.18 53.1 52.6 5.53 72 76.5 40.6 5.29 75.2 40.1 5.75 71.2 39.1 6.12 2500 0.12 67 69.7 52.8 5.06 68.1 52.3 5.50 63.3 50.9 5.87 62 62.1 61.8 4.87 61.5 61.3 5.29 57.8 57.8 5.67 580D060 (5 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 1 72 61.9 30.8 6.25 58.2 29.5 6.63 1500 0.07 67 53.1 37.5 5.99 49.7 36.1 6.35 62 47.1 44.1 5.72 43.7 42.5 6.08 72 65.4 34.5 6.38 61.4 33.2 6.75 2000 0.09 67 56.6 43.7 6.13 52.3 42.1 6.49 62 50.5 50.2 5.91 47.8 47.8 6.29 72 67.1 37.9 6.50 63.0 36.7 6.88 2500 0.12 67 58.8 49.3 6.23 54.3 47.6 6.59 62 54.5 54.5 6.06 51.2 51.2 6.46 580D072 (6 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 86.6 42.2 5.48 84.1 41.1 6.17 81.6 40.6 6.86 1800 0.06 67 80.0 52.3 5.33 77.4 51.3 6.00 74.7 50.3 6.67 62 73.6 62.2 5.21 71.0 61.1 5.85 68.5 60.0 6.49 72 87.8 43.0 5.69 84.0 41.7 6.21 81.0 40.8 6.78 2100 0.08 67 80.3 53.9 5.50 77.2 53.1 6.04 73.5 51.8 6.54 62 73.3 64.8 5.35 70.2 63.7 5.85 66.6 62.2 6.33 72 90.8 46.5 5.59 87.8 45.5 6.27 84.8 44.6 6.95 2400 0.09 67 84.1 59.6 5.44 81.2 58.6 6.11 78.2 57.6 6.77 62 77.2 71.6 5.29 74.5 70.3 5.94 71.8 69.1 6.59 72 93.2 50.1 5.66 90.1 49.4 6.35 87.0 48.7 7.03 3000 0.11 67 86.6 66.4 5.51 83.5 65.4 6.19 80.4 64.5 6.86 62 79.7 78.7 5.35 77.3 76.7 6.02 74.8 74.7 6.69 580D072 (6 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 72 78.4 39.4 7.60 75.1 38.1 8.36 1800 0.06 67 71.8 49.2 7.39 68.7 47.9 8.14 62 65.6 58.7 7.20 62.5 57.2 7.93 72 76.8 39.4 7.30 72.5 37.9 7.81 2100 0.08 67 69.7 50.3 7.05 65.5 48.7 7.53 62 63.0 60.3 6.80 59.4 58.4 7.26 72 81.6 43.5 7.72 78.0 42.3 8.49 2400 0.09 67 74.9 56.4 7.50 71.5 55.1 8.25 62 68.9 67.4 7.31 66.1 65.5 8.06 72 83.3 47.4 7.77 79.5 46.3 8.55 3000 0.11 67 76.9 63.1 7.59 73.3 61.6 8.33 62 72.1 72.0 7.41 69.3 69.2 8.18 24 GROSS COOLING CAPACITIES (cont) 580D090 (Ph TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 102.8 49.4 7.14 98.6 48.0 7.66 93.8 46.4 8.18 2250 0.07 67 94.8 61.8 6.82 90.2 60.2 7.34 85.2 58.2 7.84 62 86.2 73.2 6.50 81.6 71.2 7.00 76.6 68.8 7.48 72 105.8 52.6 7.28 101.8 51.6 7.82 97.0 50.2 8.36 2800 0.09 67 98.2 67.8 6.98 93.6 66.4 7.50 88.4 64.6 8.00 62 90.0 81.6 6.68 85.2 79.6 7.18 80.0 77.2 7.64 72 106.4 53.6 7.32 102.6 52.8 7.86 97.6 51.4 8.40 3000 0.10 67 99.0 69.8 7.04 94.4 68.6 7.54 89.0 66.8 8.04 62 90.8 84.0 6.72 86.0 82.0 7.22 81.2 79.0 7.70 72 109.2 58.2 7.46 104.6 56.8 7.98 99.4 55.6 8.50 3750 0.12 67 101.6 77.4 7.18 96.8 76.0 7.68 91.2 74.4 8.16 62 93.6 92.2 6.86 89.6 89.4 7.40 85.2 85.2 7.92 580D090 (71 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 105 115 Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Cfm BF (F) Total Sensible Compressor Total Sensible kW 72 88.4 44.6 8.68 82.8 42.6 9.16 2250 0.07 67 79.8 56.2 8.30 73.8 53.8 8.78 62 70.8 66.0 7.98 66.0 63.2 8.42 72 91.0 48.2 8.80 85.2 46.4 9.30 2800 0.09 67 82.8 62.6 8.46 76.8 60.4 8.92 62 74.6 74.2 8.14 69.6 69.6 8.64 72 91.6 49.4 8.86 85.6 47.8 9.34 3000 0.10 67 83.4 64.8 8.50 77.4 62.6 8.96 62 76.0 75.6 8.20 71.0 71.0 8.72 72 93.8 54.2 8.98 87.6 52.8 9.48 3750 0.12 67 85.4 72.4 8.64 79.4 70.4 9.10 62 80.6 80.6 8.42 76.0 75.8 8.94 LEGEND t N = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hlwb) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hlwb = hewb - kW - Compressor Motor Power Input 4.5 x cfm MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. sensible capacity (1000 x MBtuh) Above 80 F edb, add (corr factor x cfm) to the sensible heat capacity. tldb = tedb 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). 25 GROSS COOLING CAPACITIES (cont) 580D102 (8% TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 116.6 71.9 7.77 113.3 54.0 8.46 109.1 77.4 8.90 2550 0.080 67 108.4 61.9 7.57 104.2 67.7 8.22 99.3 65.9 8.97 62 99.0 75.9 7.38 94.0 80.4 7.96 87.3 52.6 8.68 72 119.2 75.2 7.86 115.7 56.3 5.54 111.2 55.0 8.99 3000 0.10 67 111.3 65.1 10.68 106.9 72.5 8.31 102.0 70.9 9.06 62 101.8 81.4 7.44 97.0 87.1 8.04 91.4 84.9 8.79 72 120.1 80.5 7.89 117.2 58.2 8.60 112.5 57.1 9.06 3400 0.110 67 112.8 68.0 6.72 108.7 76.4 8.38 103.6 75.1 9.12 62 103.6 85.6 7.51 98.8 92.5 8.12 93.7 90.3 8.86 72 122.3 32.7 7.97 120.1 62.9 8.72 115.3 62.2 4.76 4250 0.135 67 114.8 73.9 7.80 111.0 84.2 8.48 105.8 83.2 9.24 62 106.3 94.4 7.60 101.8 101.0 8.23 107.4 97.3 9.00 580D102 (8 %h TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 72 103.3 50.5 9.74 97.7 48.7 10.33 2550 0.080 67 94.0 54.0 9.43 87.9 61.7 9.97 62 81.4 74.5 9.08 75.9 71.9 9.61 72 105.9 53.5 9.85 99.9 51.8 10.46 3000 0.10 67 96.3 69.1 9.54 90.4 66.9 10.10 62 84.6 81.4 9.21 78.8 78.1 9.75 72 107.4 55.8 9.92 101.3 54.0 10.54 3400 0.110 67 97.7 73.1 9.60 91.8 71.2 10.18 62 87.9 86.6 9.29 82.4 82.3 9.88 72 109.4 60.4 10.03 102.9 58.5 10.61 4250 0.135 67 99.9 81.4 9.72 93.8 79.4 10.30 62 92.8 92.8 9.48 88.3 88.2 10.10 580D120 (10 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 135.8 66.8 9.76 130.0 64.3 10.41 124.1 62.2 11.13 3000 0.095 67 124.8 82.6 9.41 119.6 80.5 10.07 113.7 78.4 10.78 62 112.0 97.4 9.10 104.0 93.8 9.74 96.7 90.0 10.40 72 142.4 73.2 10.00 136.0 71.1 10.67 129.5 69.1 11.38 4000 0.125 67 130.6 93.4 9.61 125.0 91.7 10.28 118.9 89.8 10.99 62 119.8 112.7 9.27 114.5 110.2 9.94 106.9 105.9 10.63 72 146.5 79.7 10.17 140.0 77.5 10.84 132.8 74.9 11.52 5000 0.150 67 134.2 104.4 9.75 127.9 101.8 10.41 122.0 100.1 11.14 62 123.7 123.1 9.41 118.8 118.7 10.09 114.1 114.0 10.83 580D120 (10 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 72 118.1 60.4 11.93 115.0 59.4 12.26 3000 0.095 67 104.6 74.9 11.52 98.0 72.4 11.82 62 87.9 85.2 11.10 84.2 83.4 11.40 72 122.7 66.9 12.13 120.0 66.4 12.48 4000 0.125 67 111.8 87.7 11.74 103.8 84.8 12.06 62 98.5 98.5 11.41 93.4 93.4 11.78 72 126.0 73.1 12.27 122.6 72.8 12.60 5000 0.150 67 115.1 98.3 11.89 109.8 96.6 12.20 62 108.0 108.0 11.65 102.8 102.8 12.00 26 GROSS COOLING CAPACITIES (cont) 580D150 (12'/2 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 175.6 85.7 11.16 169.3 83.9 12.15 161.9 81.4 13.12 3750 0.08 67 162.2 107.3 10.85 155.7 104.8 11.78 148.9 102.0 12.72 62 149.2 128.0 10.57 140.6 124.0 11.42 132.0 119.8 12.28 72 181.0 91.4 11.32 174.2 89.6 12.31 166.8 87.0 13.30 4500 0.09 67 167.5 116.2 11.00 160.7 113.9 11.94 153.5 111.1 12.89 62 154.2 140.3 10.69 147.0 137.0 11.58 139.1 133.2 12.46 72 182.9 94.2 11.37 176.9 92.7 12.39 169.5 90.7 13.40 5000 0.10 67 170.2 122.2 11.07 163.0 119.7 12.01 155.7 117.3 12.97 62 156.4 146.5 10.73 149.7 143.6 11.63 142.8 140.2 12.56 72 187.2 102.1 11.49 181.5 100.9 12.52 173.2 98.3 13.54 6250 0.12 67 174.7 135.3 11.19 167.3 133.4 12.14 159.5 130.8 13.11 62 161.8 160.7 10.87 155.8 155.6 11.82 149.6 149.6 12.78 580D150 (121 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 72 154.9 79.0 14.16 146.2 76.1 15.09 3750 0.08 67 141.3 99.2 13.66 132.2 95.7 14.57 62 123.0 115.5 13.17 113.1 110.3 14.07 72 158.8 84.5 14.31 150.5 81.7 15.30 4500 0.09 67 145.4 108.2 13.82 137.0 105.2 14.76 62 _ 130.2 128.1 13.35 122.4 122.3 14.25 72 160.9 87.8 14.38 152.3 85.0 15.37 5000 0.10 67 147.6 114.3 13.91 139.4 111.6 14.87 62 135.0 134.9 13.48 127.8 127.7 14.43 72 165.3 96.6 14.58 155.2 92.9 15.49 6250 0.12 67 151.2 127.8 14.07 142.7 125.0 15.02 62 143.2 143.1 13.77 136.0 135.8 14.73 LEGEND t Iwb = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hlwb) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hlwb = hewb - kW - Compressor Motor Power Input 4.5 x cfm MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. sensible capacity (1000 x MBtuh) Above 80 F edb, add (corr factor x cfm) to the sensible heat capacity. = tedb - 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). ry 27 GROSS COOLING CAPACITIES (cont) 579F180 (15 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW 72 212.0 101.0 15.20 205.0 98.5 16.60 197.0 95.8 18.00 4500 0.08 67 195.0 126.0 14.70 188.0 123.0 16.10 180.2 120.0 17.40 62 179.0 148.0 14.20 171.0 145.0 15.50 162.0 141.0 16.70 72 216.0 105.0 15.40 210.0 103.0 16.80 202.0 101.0 18.20 5250 0.10 67 200.0 133.0 14.90 19.30 131.0 16.30 184.0 128.0 17.60 62 183.0 161.0 14.90 176.0 156.0 15.70 167.0 152.0 16.90 72 219.0 109.0 15.50 212.0 108.0 16.90 205.0 105.0 18.40 6000 0.11 67 204.0 141.0 15.10 196.0 138.0 16.40 188.0 136.0 17.80 62 187.0 170.0 14.60 179.0 167.0 15.90 171.0 164.0 17.10 72 223.0 115.0 15.70 215.0 113.0 17.10 206.0 110.0 18.40 6750 0.12 67 205.0 152.0 15.10 199.0 145.0 16.50 191.0 143.0 17.90 62 189.0 179.0 14.70 182.0 176.0 16.00 174.0 172.0 17.30 72 224.0 118.0 15.70 216.0 116.0 17.10 209.0 115.0 18.60 7500 0.14 67 207.0 157.0 15.20 199.0 154.0 16.60 193.0 150.0 18.00 62 193.0 187.0 14.80 185.0 184.0 16.10 178.0 178.0 17.50 579F180 (15 TON) (cont) Air Entering Air Entering Condenser (9 Evaporator 105 115 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (9 Total Sensible kW Total Sensible kW 72 190.0 93.3 19.40 180.0 90.0 20.80 4500 0.08 67 172.0 117.0 18.70 161.0 112.0 19.90 62 152.0 136.0 17.90 142.0 131.0 19.10 72 194.0 98.0 19.60 185.0 95.4 21.00 5250 0.10 67 176.0 125.0 18.90 166.0 121.0 20.10 62 157.0 148.0 18.10 146.0 142.0 19.30 72 197.0 103.0 19.80 187.0 100.0 21.20 6000 0.11 67 179.0 133.0 19.10 170.0 130.0 20.30 62 161.0 158.0 18.40 151.0 151.0 19.60 72 199.0 107.0 19.90 190.0 105.0 21.40 6750 0.12 67 182.0 140.0 19.20 172.0 137.0 20.50 62 166.0 166.0 18.60 158.0 158.0 19.90 72 200.0 112.0 20.00 191.0 109.0 21.50 7500 0.14 67 183.0 148.0 19.30 173.0 144.0 20.60 62 171.0 171.0 18.80 163.0 163.0 20.10 LEGEND t Iwb = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hlwb) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hlwb = hewb - kW - Compressor Motor Power Input 4.5 x cfm MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. sensible capacity (1000 x MBtuh) Above 80 F edb, add (corr factor x cfm) to the sensible heat capacity. tldb = tedb - 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). 28 GROSS COOLING CAPACITIES (cont) 579F216 (18 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 105 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW Total Sensible kW 72 242.0 121.6 14.72 231.0 116.8 16.27 218.5 112.5 17.83 204.3 105.1 17.75 5400 0.06 67 219.6 151.8 14.78 208.6 146.3 16.29 196.4 141.3 17.79 187.2 135.0 17.88 62 197.3 176.3 14.71 187.3 171.5 16.26 176.0 165.6 17.73 169.4 158.6 17.93 72 242.0 125.7 14.91 232.0 121.2 16.59 220.1 116.4 18.15 203.1 108.1 17.96 6000 0.075 67 221.1 157.4 15.00 209.3 152.7 16.56 197.1 147.1 18.12 187.2 139.0 18.12 62 198.4 184.1 14.97 188.1 178.6 16.50 178.2 172.7 18.08 170.9 165.4 18.27 72 241.0 135.8 15.35 231.0 128.0 17.02 219.1 122.4 18.64 203.4 115.6 18.45 7200 0.085 67 221.0 167.7 15.43 209.5 162.9 17.05 198.2 157.6 18.71 186.5 149.2 18.62 62 201.8 196.6 15.50 191.5 189.5 17.10 181.2 181.2 18.76 172.8 172.4 18.87 72 238.0 143.5 15.94 227.0 142.8 17.63 215.3 131.8 19.37 199.8 124.9 19.17 9000 0.095 67 218.8 182.4 16.03 208.3 177.5 17.72 196.1 170.2 19.36 184.3 162.2 19.37 62 203.3 203.0 16.19 194.5 193.4 17.91 185.2 183.9 19.71 174.4 174.2 19.68 579F216 (18 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 115 125 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 72 193.1 101.1 19.26 178.4 96.1 20.73 5400 0.06 67 175.61 129.91 19.41 163.8 124.1 20.86 62 159.4 153.0 19.44 148.3 145.8 20.85 72 190.9 102.7 19.47 179.4 99.51 21.04 6000 0.075 67 176.0 134.1 19.72 163.9 128.6 21.17 62 160.4 158.4 19.75 150.2 150.1 21.33 72 191.6 110.6 20.07 177.7 103.7 21.52 7200 0.085 67 175.3 143.7 20.25 163.9 138.5 21.82 62 162.7 162.6 20.48 152.7 152.6 22.08 72 188.1 111.6 20.81 174.5 110.8 22.29 9000 0.095 67 173.3 155.4 21.02 160.6 147.5 22.50 62 165.1 164.7 21.47 154.5 154.1 23.10 LEGEND t Iwb = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hlwb) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hlwb = hewb - kW - Compressor Motor Power Input 4.5 x cfm MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. sensible capacity (1000 x MBtuh) Above 80 F edb, add (corr factor x cfm) to the sensible heat capacity. tldb = tedb - 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). 29 GROSS COOLING CAPACITIES (cont) 579F240 (20 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 105 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh _ Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW Total Sensible kW 72 274.0 130.4 16.92 264.0 127.6 18.54 252.0 124.4 20.20 240.0 120.0 21.8 6,000 0.06 67 250.0 163.6 16.40 240.0 159.8 18.00 228.0 155.4 19.52 216.0 150.8 21.00 62 226.0 194.4 15.90 216.0 189.8 17.36 204.0 184.6 18.82 190.6 178.4 20.20 72 280.0 136.4 17.04 270.0 138.2 18.72 258.0 131.0 20.40 246.0 127.2 22.00 7,000 0.07 _ 67 256.0 175.0 16.58 244.0 172.2 18.18 234.0 167.6 19.76 222.0 163.6 21.20 62 232.0 210.0 16.12 222.0 206.0 17.60 210.0 200.0 19.08 196.6 193.8 20.60 72 284.0 144.0 17.22 276.0 141.8 18.96 262.0 138.8 20.60 250.0 135.0 22.20 8,000 0.08 67 260.0 186.8 16.72 250.0 183.4 18.34 238.0 178.8 19.90 226.0 175.2 21.40 62 236.0 224.0 16.22 226.0 220.0 17.74 216.0 214.0 19.28 204.0 204.0 20.80 72 288.0 151.8 17.32 278.0 147.8 19.04 266.0 145.2 20.80 252.0 141.6 22.40 9,000 0.09 67 264.0 197.0 16.84 254.0 194.6 18.46 240.0 189.8 20.00 228.0 185.4 21.60 62 242.0 236.0 16.36 232.0 232.0 17.94 222.0 222.0 19.52 212.0 212.0 21.00 72 292.0 157.4 17.42 282.0 154.6 19.14 270.0 151.8 20.80 256.0 147.4 22.40 10,000 0.10 67 268.0 208.0 16.92 256.0 204.0 18.56 242.0 200.00 20.20 230.0 196.2 21.60 62 246.0 246.0 16.50 238.0 236.0 18.08 228.0 228.0 19.76 218.0 218.0 21.40 579F240 (20 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 115 125 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (r/ Total Sensible kW Total Sensible kW 72 228.0 116.0 23.40 214.0 111.0 24.80 6,000 0.06 67 204.0 146.2 22.40 188.8 140.8 23.80 62 176.6 171.8 21.60 163.2 162.8 23.00 72 232.0 123.8 23.60 218.0 118.6 25.00 7,000 0.07 67 208.0 158.4 22.60 194.2 153.4 24.00 62 184.6 184.6 22.00 174.2 174.2 23.40 72 236.0 130.4 23.80 220.0 125.8 25.20 8,000 0.08 67 212.0 169.6 22.80 197.6 164.8 24.20 62 194.2 194.2 22.40 183.4 183.4 23.80 72 238.0 137.2 23.80 224.0 132.0 25.40 9,000 0.09 67 214.0 180.8 23.00 199.8 175.6 24.40 62 202.0 202.0 22.60 190.6 190.4 24.00 72 240.0 144.0 24.00 226.0 139.0 25.40 10,000 0.10 67 216.0 190.8 23.20 202.0 185.2 24.60 62 208.0 206.0 22.80 196.0 195.4 24.40 LEGEND tlwb = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hlwb) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hlwb = hewb - kW - Compressor Motor Power Input 4.5 x cfm MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: sensible capacity (1000 x MBtuh) Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. tldb = tedb - Above 80 F edb, add (corr factor x cfm) to the sensible heat capacity. 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). 30 GROSS COOLING CAPACITIES (cont) 579F300 (25 TON) Air Entering Air Entering Condenser (F) Evaporator 75 85 95 105 Cfm BF Ewb Capacity MBtuh Compressor capacity MBtuh Compressor Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW Total Sensible kW Total Sensible kW 72 323.9 159.4 21.10 315.3 156.3 22.70 304.1 152.0 24.80 291.2 147.2 26.90 7,000 0.03 67 299.4 195.2 20.50 290.4 191.7 22.10 277.4 186.5 24.00 261.4 179.7 25.80 62 275.8 230.6 19.90 264.3 224.9 21.30 243.1 215.2 23.20 224.8 206.6 25.00 72 331.3 170.1 21.30 326.9 168.4 23.10 315.3 165.0 25.20 300.9 159.9 27.20 8,750 0.05 67 312.7 216.5 20.90 303.2 213.2 22.50 290.1 208.5 24.50 274.2 201.8 26.30 62 288.4 259.1 20.20 278.0 254.9 21.80 263.8 248.0 23.50 242.1 237.3 25.40 72 336.1 177.6 21.50 333.7 177.5 23.30 320.4 173.0 25.40 305.7 168.3 27.40 10,000 0.07 67 319.8 231.1 21.10 309.1 226.9 22.70 295.6 222.4 24.60 283.3 216.8 26.60 62 294.7 276.6 20.40 285.0 273.8 22.00 271.1 266.4 23.80 252.3 252.3 25.80 72 342.6 186.6 21.70 335.1 184.4 23.30 324.1 181.6 25.50 309.8 176.8 27.60 11,250 0.09 67 322.5 242.9 21.20 314.2 240.7 22.80 300.6 236.5 24.80 284.8 231.1 26.80 62 300.0 292.6 20.50 291.1 288.4 22.20 279.4 279.4 24.10 266.3 266.3 26.00 579F300 (25 TON) (cont) Air Entering Air Entering Condenser (F) Evaporator 115 125 Cfm BF Ewb Capacity MBtuh Compressor Capacity MBtuh Compressor (F) Total Sensible kW Total Sensible kW 72 274.6 140.9 28.80 254.5 133.3 30.90 7,000 0.03 67 237.9 170.0 27.80 214.9 160.8 29.90 62 207.6 198.6 26.80 184.3 194.3 28.90 72 286.9 154.9 29.40 266.7 148.0 31.40 8,750 0.05 67 251.5 193.2 28.20 230.9 185.1 30.20 62 222.6 222.6 27.40 206.7 206.7 29.60 72 291.3 164.1 29.60 272.0 157.5 31.70 10,000 0.07 67 258.4 208.7 28.50 236.0 200.2 30.50 62 237.7 237.7 27.70 220.8 220.8 29.90 72 293.9 163.0 29.70 276.1 166.6 31.90 11,250 0.09 67 267.5 224.3 28.50 240.0 214.4 30.80 62 247.1 247.1 28.10 231.1 231.1 30.30 LEGEND tlwb = Wet -bulb temperature corresponding to enthalpy of air BF - Bypass Factor leaving evaporator coil (hlwb) Edb - Entering Dry Bulb total capacity (1000 x MBtuh) Ewb - Entering Wet Bulb hlwb = hewb - 4.5 x cfm kW - Compressor Motor Power Input MBtuh - Btuh in thousands Where: hewb = Enthalpy of air entering evaporator coil. NOTES: 3. The sensible heat capacity is based on 80 F entering dry-bulb (edb) tempera - 1. Direct interpolation is permissible. Do not extrapolate. ture of air entering evaporator coil. 2. The following formulas may be used: sensible capacity (1000 x MBtuh) Below 80 F edb, subtract (corr factor x cfm) from the sensible heat capacity. t Idb = tedb - Above 80 F edb, add (corr factor x cfm) to the sensible heat capacity. 1.10 x cfm Correction Factor = 1.10 x (1 - BF) x (edb - 80). • 31 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS 580D036 (3 TON) Standard Direct Drive Motor Airflow Low Speed High Speed (Cfm) 208 V 230, 460, 575 V 208 V 230, 460, 575 V ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts 900 0.49 0.21 253 0.50 0.23 277 0.51 0.26 307 0.55 0.31 363 1000 0.42 0.23 270 0.43 0.25 292 0.43 0.27 321 0.51 0.32 374 1100 0.37 0.24 287 0.38 0.26 307 0.39 0.28 335 0.46 0.33 385 1200 0.33 0.26 304 0.33 0.27 323 0.34 0.29 349 0.40 0.34 397 1300 0.27 0.27 321 0.28 0.29 338 0.28 0.31 364 0.34 0.34 408 1400 0.20 0.29 338 0.23 0.30 354 0.25 0.32 378 - - - 1500 0.16 0.30 355 0.18 0.31 369 0.20 0.33 392 - - - LEGEND 2. Extensive motor and electrical testing on these units ensures that the full range - B rake Horsepower Input to Fan of the motor can be utilized with confidence. Using your fan motors up to the Brake Horsepower rsep Pressure Input to Fan wattage ratings shown will not result in nuisance tripping or premature motor ESP p E - Extemal Factory-Installed Option failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- mance table on page 64 for additional information. NOTES: 3. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 1. Values include losses for filters, unit casing, and wet coils. See page 54 for sentative for details. accessory/FIOP static pressure information. 4. Minimum allowable cfm is 300 cfm/ton. 580D036 (3 TON) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.3 0.4 0.5 0.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 900 581 0.12 119 673 0.18 179 736 0.22 219 805 0.25 249 865 0.29 288 911 0.34 338 1000 644 0.19 189 709 0.22 219 782 0.28 279 835 0.30 298 900 0.35 348 937 0.38 378 1100 687 0.22 219 746 0.26 259 806 0.30 298 867 0.35 348 929 0.40 398 964 0.40 398 1200 733 0.26 259 785 0.32 318 843 0.35 348 903 0.41 408 960 0.47 467 994 0.50 497 1300 754 0.29 288 826 0.38 378 891 0.43 428 942 0.48 477 991 0.53 527 1047 0.60 597 1400 810 0.35 348 868 0.45 448 937 0.51 507 984 0.57 567 1032 0.62 617 1067 0.67 666 1500 841 0.42 418 911 0.53 527 985 0.61 607 1029 0.66 656 1073 0.72 716 1109 0.77 766 580D036 (3 TON) (cont) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.7 0.8 0.9 1.0 1.1 1.2 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 900 957 0.39 388 988 0.43 428 1039 0.47 448 1061 0.51 487 1083 0.54 527 1105 0.58 567 1000 992 0.44 438 1039 0.49 487 1061 0.55 507 1088 0.60 547 1111 0.66 587 1136 0.72 627 1100 1013 0.49 487 1068 0.55 547 1091 0.61 577 1109 0.66 607 1127 0.73 637 1145 0.80 666 1200 1045 0.56 557 1090 0.64 637 1109 0.68 647 1156 0.73 676 1203 0.81 706 1250 0.86 736 1300 1075 0.64 637 1122 0.70 696 1152 0.76 716 1190 0.82 756 1228 0.87 796 1266 0.94 836 1400 1110 0.73 726 1160 0.78 766 1181 0.83 806 1237 0.88 845 1293 0.94 885 1349 0.99 925 1500 1150 0.78 816 1190 0.84 855 1225 0.89 895 1271 0.95 945 1317 1.00 995 1383 1.05 1044 LEGEND 6. Maximum continuous bhp is 1.0 and the maximum continuous watts are 1000. Bhp - Brake Horsepower Input to Fan Extensive motor and electrical testing on these units ensures that the full range BI P - Factory -Installed Option of the motor can be utilized with confidence. Using your fan motors up to the Watts - Input Watts to Motor wattage ratings shown will not result in nuisance tripping or premature motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- NOTES: mance table on page 64 for additional information. 1. Boldface indicates a field - supplied drive is required. (See Note 4.) 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 2. I I indicates field - supplied motor and drive are required. sentative for details. 8. Interpolation is permissible. Do not extrapolate. 3. indicates maximum usable bhp /watts. 9. Minimum allowable cfm is 300 cfm/ton. 4. Motor drive range is 760 to 1000 rpm. All other rums require a field - supplied drive. 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. 32 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D048 (4 TON) Standard Direct Drive Motor ---., Airflow Low Speed High Speed (Cfm) 208 V 230, 460, 575 V 208 V 230, 460, 575 V ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts 1200 0.68 0.41 458 0.74 0.45 506 0.74 0.51 572 0.85 0.56 632 1300 0.61 0.42 471 0.67 0.46 521 0.66 0.52 589 0.78 0.58 651 1400 0.53 0.45 503 0.59 0.49 556 0.59 0.54 616 0.70 0.60 681 1500 0.45 0.47 536 0.51 0.52 593 0.52 0.56 631 0.63 0.62 698 1600 0.36 0.49 557 0.42 0.54 616 0.45 0.58 654 0.56 0.64 723 1700 0.26 0.52 584 0.32 0.57 646 0.37 0.60 678 0.48 0.66 750 1800 0.15 0.54 610 022 0.60 674 0.30 0.62 698 0.41 0.68 772 1900 0.04 0.56 629 0.11 0.62 696 0.23 0.64 720 0.34 0.70 796 2000 - - - - - - 0.16 0.66 744 0.26 0.73 823 LEGEND 2. Extensive motor and electrical testing on these units ensures that the full range Brake Horsepower Input to Fan of the motor can be utilized with confidence. Using your fan motors up to the Bhp - ESP - Brake wattage ratings shown will not result in nuisance tripping or premature motor External Static Pressure (in. wg) FIOP - Factory- Installed Option failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- mance table on page 64 for additional information. NOTES: 3. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 1. Values include losses for filters, unit casing, and wet coils. See page 54 for sentative for details. accessory/FIOP static pressure information. 4. Minimum allowable cfm is 300 cfm /ton. 580D048 (4 TON) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.3 0.4 0.6 0.7 0.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1200 596 0.20 210 665 0.25 263 722 0.31 320 779 0.36 378 872 0.48 504 915 0.54 567 957 0.60 630 1300 633 0.24 252 699 0.30 315 754 0.36 378 809 0.42 441 902 0.55 578 943 0.61 641 984 0.67 704 1400 672 0.30 315 735 0.36 378 788 0.42 441 840 0.48 504 933 0.62 651 972 0.69 720 1011 0.75 788 1500 711 0.35 368 770 0.42 441 822 0.49 510 873 0.55 578 963 0.69 725 1002 0.77 804 1041 0.84 858 1600 751 0.42 441 835 0.49 515 871 0.56 588 907 0.63 662 993 0.77 787 1033 0.85 869 1072 0.93 950 1700 791 0.49 515 873 0.57 599 907 0.65 678 941 0.72 757 1024 0.87 889 1064 0.96 976 1103 1.04 1063 1800 831 0.58 609 881 0.66 693 929 0.74 772 976 0.81 851 1057 0.97 991 1095 1.06 1078 1132 1.14 1165 1900 872 0.67 704 919 0.75 788 965 0.84 877 1011 0.92 967 1091 1.08 1104 1127 1.17 1191 1162 1.25 1277 2000 913 0.77 809 958 0.86 904 1002 0.95 993 1046 1.03 1082 1125 1.21 1237 1160 1.30 1323 1195 1.38 1410 580D048 (4 TON) (cont) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.9 1.0 1.1 1.2 1.4 1.6 1.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1200 993 0.65 678 1028 0.69 725 1056 0.72 751 1083 0.74 778 1134 0.80 935 1185 0.88 965 1331 0.99 1000 1300 1021 0.74 772 1058 0.80 841 1090 0.85 888 1121 0.89 935 1171 0.94 988 1219 1.00 999 1268 1.10 1029 1400 1049 0.82 837 1086 0.89 885 1120 0.96 950 1153 1.00 976 1210 1.12 1071 1257 1.17 1105 1307 1.25 1190 1500 1077 0.92 922 1113 0.99 985 1147 1.06 1054 1180 1.13 1081 1241 1.27 1215 1295 1.37 1294 1339 1.43 1350 1600 1107 1.00 998 1141 1.09 1084 1174 1.17 1134 1207 1.25 1196 1269 1.40 1339 1326 1.54 1454 1376 1.65 1558 1700 1137 1.12 1128 1171 1.20 1194 1203 1.29 1278 1235 1.37 1310 1296 1.53 1463 1354 1.70 1605 1407 1.84 1738 1800 1167 1.23 1239 1202 1.32 1313 1233 1.41 1398 1263 1.49 1425 1323 1.67 1597 1381 1.85 1747 1436 2.02 1907 1900 1197 1.35 1360 1232 1.45 1442 1263 1.54 1532 1294 1.63 1559 1351 1.81 1731 1408 2.00 1889 1463 2.19 2068 2000 1229 1.48 1491 1262 1.58 1572 1294 1.68 1671 1325 1.78 1702 1362 1.97 1884 1436 2.16 2040 1489 2.36 2229 LEGEND 6. Maximum continuous bhp is 1.0, and the maximum continuous watts are 1000. Bhp - Brake Horsepower Input to Fan Extensive motor and electrical testing on these units ensure that the full range B B hp - Factory -Installed Option of the motor can be utilized with confidence. Using your fan motors up to the Watts - Input Watts to Motor wattage ratings shown will not result in nuisance tripping or premature motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- NOTES: mance table on page 64 for additional information. 1. Boldface indicates field - supplied drive is required. (See Note 4.) 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 2. 1 I indicates field - supplied motor and drive required. sentative for details. 8. Interpolation is permissible. Do not extrapolate. 3. indicates maximum usable bhp/watts. 9. Minimum allowable cfm is 300 cfm/ton. 4. Motor drive range is 835 to 1185 rpm. All other rpms require a field - supplied drive. 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. 33 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D060 (5 TON) Standard Direct Drive Motor Airflow Low Speed Medium Speed High Speed (Cfm) 208 V 230, 460, 575 V 208 V 230, 460, 575 V 208 V 230, 460, 575 V ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts 1500 0.69 0.67 750 1.01 0.71 791 1.00 0.70 782 1.20 0.76 845 1.22 0.79 875 1.28 0.85 949 1600 0.49 0.70 780 0.85 0.74 824 0.85 0.74 821 1.06 0.79 883 1.09 0.82 913 1.17 0.89 988 1700 0.29 0.73 810 0.70 0.77 857 0.70 0.77 861 0.93 0.83 921 0.97 0.85 950 1.06 0.92 1027 1800 0.09 0.75 839 0.54 0.80 891 0.55 0.81 900 0.80 0.86 959 0.84 0.89 988 0.95 0.96 1066 1900 - - - 0.39 0.83 924 0.40 0.84 940 0.67 0.90 997 0.72 0.92 1025 0.84 0.99 1105 2000 - - - 0.23 0.86 957 0.25 0.88 979 0.54 0.93 1035 0.59 0.95 1063 0.73 1.03 1144 2100 - - - 0.08 0.89 990 0.10 0.91 1018 0.41 0.96 1073 0.46 0.99 1101 0.62 1.06 1183 2200 - - - - - - - - - 0.28 1.00 1111 0.34 1.02 1138 0.51 1.10 1222 2300 - - - - - - - - - 0.15 1.03 1149 0.21 1.06 1176 0.40 1.13 1261 2400 - - - - - - - - - 0.02 1.07 1187 0.09 1.09 1213 0.29 1.17 1300 2500 - - - - - - - - - - - - - - - 0.18 1.20 1340 LEGEND 2. Extensive motor and electrical testing on these units ensures that the full range Bhp - B rake Horsepower Input to Fan of the motor can be utilized with confidence. Using your fan motors up to the p p p wattage ratings shown will not result in nuisance tripping or premature failure. ESP - Extemal Static Pressure (in. wg) Unit warranty will not be affected. See Evaporator -Fan Motor Performance FIOP - Factory- Installed Option table on page 64 for additional information. NOTES: 3. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 1. Values include losses for filters, unit casing, and wet coils. See page 54 for sentative for details. accessory/FIOP static pressure information. 4. Minimum allowable cfm is 300 cfm/ton. 580D060 (5 TON) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1500 750 0.36 368 808 0.42 429 914 0.56 572 1001 0.69 705 1084 0.85 869 1168 1.01 1032 1600 794 0.42 429 846 0.49 501 950 0.64 654 1034 0.78 797 1111 0.94 961 1194 1.11 1134 1700 839 0.50 511 884 0.57 582 983 0.72 736 1068 0.88 899 1145 1.03 1053 1218 1.21 1237 1800 885 0.58 593 924 0.66 674 1018 0.82 838 1105 0.98 1001 1179 1.13 1155 1246 1.32 1349 1900 932 0.68 695 965 0.76 777 1057 0.92 940 1143 1.10 1124 1212 1.26 1288 1280 1.43 1461 2000 979 0.78 797 1008 0.87 889 1096 1.04 1063 1177 1.22 1247 1247 1.40 1431 1300 1.57 1604 2100 1026 0.89 910 1051 0.99 1012 1136 1.17 1196 1210 1.35 1380 1284 1.54 1574 1347 1.72 1758 2200 1074 1.02 1042 1095 1.12 1145 1173 1.30 1328 1245 1.49 1523 1322 1.70 1737 1380 1.89 1931 2300 1122 1.16 1185 1140 1.26 1288 1210 1.47 1502 1284 1.65 1686 1356 1.80 1901 1418 2.07 2115 2400 1170 1.30 1328 1185 1.41 1441 1249 1.61 1645 1323 1.80 1860 1389 2.03 2074 1456 2.26 2310 2500 1218 1.46 1492 1231 1.57 1604 1289 1.78 1819 1363 2.00 2044 1424 2.22 2269 1500 2.45 2504 580D060 (5 TON) (cont) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1500 1199 1.19 1216 1126 1.46 1492 1250 1.69 1757 1600 1263 1.28 1308 1275 1.49 1523 1299 1.78 1800 1700 1295 1.39 1420 1351 1.58 1615 1352 1.80 1850 1300 1319 1.52 1553 1389 1.71 1747 1435 1.91 1952 1900 1343 1.64 1676 1415 1.80 1891 1478 2.05 2095 2000 1374 1.77 1809 1438 1.99 2034 1505 2.21 2258 2100 1409 1.91 1952 1465 2.14 2167 - - - 2200 1442 2.08 2126 1498 2.30 2350 - - - 2300 1475 2.26 2310 - - - - - - 2400 1565 _ 2.47 2524 - - - - - - 2500 - - - - - - - - - LEGEND 6. Maximum continuous bhp is 1.80 and the maximum continuous watts are 1921. Bhp - Brake Horsepower Input to Fan Extensive motor and electrical testing on these units ensures that the full range B B 3 - B rake Installed Option of the motor can be utilized with confidence. Using your fan motors up to the Watts - Input Watts to Motor wattage ratings shown will not result in nuisance tripping or premature motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- NOTES: mance table on page 64 for additional information. 1. Boldface indicates field - supplied drive is required. (See Note 4.) 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 2. indicates field - supplied motor and drive required. sentative for details. 3. ( 1 indicates maximum usable bhp /watts. 8. Interpolation is permissible. Do not extrapolate. 4. Motor drive range is 900 to 1300 rpm. All other rpms require a field - supplied 9 • Minimum allowable cfm is 300 cfm/ton. drive. 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. 34 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D072 (6 TON) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1800 942 0.70 646 978 0.66 700 1063 0.82 771 1147 0.97 891 1248 1.20 1081 1322 1.33 1190 1900 982 0.80 739 1023 0.78 779 1097 0.91 843 1175 1.11 1006 1266 1.29 1156 1356 1.47 1310 2000 1022 0.91 835 1068 0.90 867 1132 1.01 924 1218 1.23 1106 1303 1.41 1258 1397 1.52 1353 2100 1063 0.99 916 1115 1.00 998 1180 1.17 1056 1261 1.35 1207 1340 1.53 1361 1428 1.66 1473 2200 1104 1.13 1039 1159 1.15 1081 1214 1.28 1148 1310 1.52 1353 1375 1.63 1447 1459 1.80 1595 2300 1130 1.26 1156 1202 1.29 1140 1248 1.38 1233 1358 1.69 1499 1410 1.72 1526 1488 1.93 1709 2400 1174 1.37 1258 1237 1.41 1224 1292 1.55 1378 1392 1.81 1604 1460 1.90 1683 1532 2.14 1892 '`- 2500 1201 1.48 1361 1272 1.53 1335 1335 1.71 1517 1427 1.94 1718 1518 2.16 1910 1575 2.35 2076 2600 1246 1.62 1491 1320 1.68 1482 1368 1.81 1604 1458 2.06 1823 1562 2.42 2136 1620 2.59 2283 2700 1285 1.75 1613 1361 1.82 1595 1400 1.91 1691 1490 2.19 1936 1602 2.64 2326 1666 2.85 2504 2800 1304 1.87 1726 1402 1.95 1639 1439 2.08 1840 1543 2.43 2145 1642 2.86 2512 - - - 2900 1345 2.07 1910 1446 2.16 1814 1477 2.16 1989 1585 2.65 2335 - - - - - - 3000 1378 2.26 2084 1489 2.36 2032 1529 2.52 2223 1598 2.73 2444 - - - - - - 580D072 (6 TON) (cont) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1800 1395 1.46 1301 1475 1.56 1387 1542 1.71 1517 1900 1430 1.58 1404 1504 1.69 1499 1556 1.82 1613 2000 1459 1.67 1482 1532 1.82 1613 1588 1.97 1744 2100 1489 1.80 1595 1567 1.99 1761 1626 2.16 1910 2200 1528 1.95 1726 1603 2.17 1919 1666 2.37 2093 2300 1561 2.13 1884 1637 2.35 2076 1710 2.54 2272 2400 1584 2.28 2015 1671 2.55 2249 1756 2.70 2467 2500 1633 2.53 2232 1698 2.72 2405 - - - 2600 1675 2.77 2436 - - - - - - 2700 - - - - - - - - - 2800 - - - - - - - - - 2900 - - - - - - - - - 3000 - - - - - - - - - LEGEND 6. Maximum continuous bhp is 2.40 and the maximum continuous watts are 2120. Bhp - B rake Horsepower Input to Fan Extensive motor and electrical testing on these units ensures that the tut range p p P of the motor can be utilized with confidence. Using your fan motors up to the FIOP - Factory Installed Option wattage ratings shown will not result in nuisance tripping or premature motor Watts - Input Watts to Motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- NOTES: mance table on page 64 for additional information. 1. Boldface indicates field - supplied drive is required. (See Note 4.) 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 2. indicates field - supplied motor and drive required. sentative for details. 3. I indicates maximum usable bhp/watts. 8. Interpolation is permissible. Do not extrapolate. P 9. Minimum allowable cfm is 300 cfm /ton. 4. Motor drive range is 1070 to 1460 rpm. All other rpms require a field - supplied drive. 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. 35 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D090 (7 TON) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2250 514 0.55 562 593 0.76 723 662 0.99 907 724 1.22 1097 781 1.78 1318 2300 521 0.57 577 600 0.79 747 668 1.02 932 730 1.26 1131 786 1.50 1335 2400 536 0.63 623 613 0.85 795 680 1.09 989 741 1.34 1199 796 1.59 1413 2500 551 0.69 669 626 0.93 859 693 1.17 1056 753 1.43 1275 808 1.69 1499 4 2550 559 0.72 692 634 0.97 891 700 1.21 1089 759 1.48 1318 814 1.74 1543 2600 567 0.75 716 641 1.00 916 706 1.25 1123 764 1.52 1353 819 1.79 1587 2700 582 0.83 779 655 1.08 981 719 1.34 1199 776 1.61 1430 831 1.89 1674 2800 598 0.90 835 670 1.17 1056 732 1.43 1275 789 1.71 1517 842 2.00 1770 2900 614 0.98 899 684 1.25 1123 745 1.53 1361 802 1.81 1604 854 2.11 1866 3000 630 1.07 973 699 1.35 1207 759 1.63 1147 815 1.92 1700 866 2.23 1971 3100 646 1.16 1047 714 1.45 1292 773 1.74 1543 828 2.04 1805 878 2.35 2076 3200 662 1.26 1131 729 1.55 1378 787 1.86 1648 841 2.16 1910 891 2.48 2188 3300 679 1.36 1216 744 1.66 1473 801 1.98 1753 854 2.29 2023 904 2.61 2300 3400 695 1.47 1310 759 1.78 1578 816 2.10 1858 867 2.42 2136 917 2.75 2420 3500 712 1.59 1413 774 1.90 1683 830 2.23 1971 881 2.56 2257 930 2.90 2546 3600 729 1.71 1517 790 2.03 1796 845 2.37 2093 895 2.71 2386 943 3.05 2670 3700 745 1.84 1630 805 2.17 1919 860 2.52 2223 909 2.87 2521 ' 956 3.22 2807 3750 754 1.91 1691 813 2.24 1980 868 2.59 2283 917 2.95 2587 963 3.30 2870 580D090 (7 TON) (cont) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2250 841 1.81 1604 902 2.25 1989 939 2.60 2292 2300 843 1.83 1621 905 2.28 2015 943 2.62 2309 2400 849 1.88 1665 910 2.31 2041 952 2.74 2411 2500 859 1.96 1735 912 2.31 2050 963 2.81 2470 2550 864 2.01 1779 915 2.34 2067 968 2.81 2479 2600 869 2.06 1823 918 2.37 2093 973 2.81 2487 2700 880 2.17 1919 927 2.47 2180 976 2.84 2495 2800 892 2.29 2023 938 2.58 2275 983 2.92 2562 • 2900 903 2.42 2136 949 2.71 2386 993 3.03 2653 _ 3000 915 2.54 2240 961 2.85 2504 1003 3.17 2767 3100 926 2.67 2352 972 3.00 2629 1015 3.32 2886 3200 938 2.81 2470 983 3.14 2743 1026 3.47 3002 3300 950 2.95 2587 995 3.30 2870 - - - 3400 963 3.10 2710 1007 3.45 2987 - - - 3500 976 3.25 2831 - - - - - - 3600 988 3.41 2956 - - - - - - 3700 - - - - - - - - - 3750 - - - - - - - - - LEGEND 7. Values include losses for filters, unit casing, and wet coils. See page 54 tor Bhp accessory/FIOP static pressure information. Bhp - Brake Horsepower Input to Fan - Factory-Installed ra o e Horsepower Input 8. Maximum continuous bhp is 2.40 and the maximum continuous watts are Watts - Input Watts to Motor 2120. Extensive motor and electrical testing on these units ensures that the full range of the motor can be utilized with confidence. Using your fan motors NOTES: up to the wattage ratings shown will not result in nuisance tripping or prema- 1. Boldface indicates field - supplied drive required. (See Note 6.) cure motor failure. Unit warranty will not be affected. See Evaporator -Fan 2. I 1 indicates altemate drive required. Motor Performance table on page 64 for additional information. 9. Use of a field - supplied motor may affect wire sizing. Contact your local 3. ( 1 indicates field - supplied motor and drive required. representative for details. 4. indicates maximum usable bhp /watts of standard drive. 10. Interpolation is permissible. Do not extrapolate. 5. indicates maximum usable bhp /watts of alternate drive. 11. Minimum allowable cfm is 300 cfm /ton. 6. Standard drive range is 590 to 840 rpm. Alternate drive range is 685 to 935 rpm. All other rpms require a field - supplied drive. I 36 li AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D102 (81/2 TON) Standard Belt Drive Motor ------„, Airflow External Static Pressure (in. wg) _ (Cfm) 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2550 559 0.72 692 634 0.97 891 700 1.21 1089 759 1.48 1318 814 1.74 1543 2600 567 0.75 716 641 1.00 916 706 1.25 1123 764 1.52 1353 819 1.79 1587 2700 582 0.83 779 655 1.08 981 719 1.34 1199 776 1.61 1430 831 1.89 1674 2800 598 0.90 835 670 1.17 1056 732 1.43 1275 789 1.71 1517 842 2.00 1770 2900 614 0.98 899 684 1.25 1123 745 1.53 1361 802 1.81 1604 854 2.11 1866 3000 630 1.07 973 690 1.35 1207 759 1.63 1147 815 1.92 1700 866 2.23 1971 3100 646 1.16 1047 714 1.45 1292 773 1.74 1543 828 2.04 1805 878 2.35 2076 3200 662 1.26 1131 729 1.55 1378 787 1.86 1648 841 2.16 1910 891 2.48 2188 t 3300 679 1.36 1216 744 1.66 1473 801 1.98 1753 854 2.29 2023 904 2.61 2300 3400 695 1.47 1310 759 1.78 1578 816 2.10 1858 867 2.42 2136 917 2.75 2420 3500 712 1.59 1413 774 1.90 1683 830 2.23 1971 881 2.56 2257 930 2.90 2546 3600 729 1.71 1517 790 2.03 1796 845 2.37 2093 895 2.71 2386 943 3.05 2670 3700 745 1.84 1630 805 2.17 1919 860 2.52 2223 909 2.87 2521 956 3.22 2807 3750 754 1.91 1691 813 2.24 1980 868 2.59 2283 917 2.95 2587 963 3.30 2870 3800 762 1.98 1753 821 2.31 2041 875 2.66 2343 924 3.03 2653 970 3.38 2933 3900 779 2.12 1875 836 2.46 2171 890 2.82 2479 938 3.19 2783 - - - 4000 796 2.27 2006 852 2.61 2300 905 2.98 2612 953 3.37 2925 - - - 4100 813 2.42 2136 868 2.78 2445 920 3.15 2751 - - - - - - 4200 830 2.59 2283 884 2.95 2587 935 3.33 2894 - - - - - - 4250 839 2.68 2360 890 3.04 2661 - - - - - - - - - 5800102 (8 TON) (cont) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (fm) 12 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2550 864 2.01 1779 915 2.34 2067 968 2.81 2479 2600 869 2.06 1823 918 2.37 2093 973 2.81 2487 2700 880 2.17 1919 927 2.47 2180 976 2.84 2495 2800 892 2.29 2023 938 2.58 2275 983 2.92 2562 2900 903 2.42 2136 949 2.71 2386 993 3.03 2653 3000 915 2.54 2240 961 2.85 2504 1003 3.17 2767 3100 926 2.67 2352 972 3.00 2629 1016 3.32 2886 3200 938 2.81 2470 983 3.14 2743 1026 3.47 3002 3300 950 2.95 2587 995 3.30 2870 - - - 3400 963 3.10 2710 1007 3.45 2987 - - - 3500 976 3.25 2831 - - - - - - 3600 988 3.41 2956 - - - - - - 3700 - - - - - - - - - 3750 - - - - - - - - - 3800 - - - - - - - - - 3900 - - - - - - - - - 4000 - - - - - - - - - 4100 - - - - - - - - - 4200 - - - - - - - - - 4250 - - - - - - - - - LEGEND 6. Maximum continuous bhp is 2.4 and maximum continuous watts are 2120. Ex- Bhp Input to Fan tensive motor and electrical testing on these units ensures that the full range of Bhp - Brake rake Horsepower In rakeHorsepower Factory-Installed r Inpn the motor can be utilized with confidence. Using your fan motors up to the watt- Watts - Input Watts to Motor age ratings shown will not result in nuisance tripping or premature motor fail- NOTES: table on page 64 for additional information. L 1. Boldface indicates field - supplied drive required. (See Note 4.) 7. Use of a field-supplied motor may affect wire sizing. Contact your local repre- 2. indicates field - supplied motor and drive required. entative for details. 3. I ( indicates maximum usable bhp/watts. /watts. 8. Interpolation is permissible. Do not extrapolate. 9. Minimum allowable cfm is 300 cfm/ton. 4. Motor drive range is 685 to 935 rpm. All other rpms require a field - supplied drive. ure. Unit warranty will not be affected. See Evaporator -Fan Motor Performance 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. 37 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D120 (10 TON) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 1.2 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3000 592 0.76 723 661 0.93 859 722 1.09 989 779 1.26 1131 829 1.42 1267 880 1.58 1404 3100 607 0.83 779 676 1.01 924 734 1.17 1056 791 1.34 1199 840 1.51 1344 890 1.68 1491 3200 622 0.90 835 690 1.09 989 746 1.25 1123 803 1.43 1275 852 1.60 1422 900 1.77 1569 3300 638 0.98 899 705 1.17 1056 759 1.33 1190 815 1.52 1353 864 1.70 1508 910 1.88 1665 3400 653 1.06 965 719 1.26 1131 772 1.43 1275 826 1.62 1439 876 1.81 1604 921 1.98 1753 3500 669 1.15 1039 733 1.35 1207 786 1.53 1361 838 1.72 1526 888 1.91 1691 933 2.10 , 1858 3600 684 1.24 1114 747 1.44 1284 800 1.64 1456 850 1.82 1613 900 2.03 1796 945 2.22 2014 3700 700 1.33 1190 760 1.54 1370 814 1.75 1552 863 1.92 1700 912 2.14 1892 957 2.34 2117 7 3800 715 1.43 1275 774 1.64 1456 828 1.86 1648 875 2.04 1805 924 2.26 1997 969 2.47 2230 3900 731 1.54 1370 787 1.74 1543 843 1.98 1753 888 2.16 1910 936 2.38 2151 981 2.60 2344 4000 747 1.64 1456 801 1.85 1639 857 2.10 1858 902 2.30 2032 948 2.51 2265 993 2.74 2469 4100 763 1.76 1560 816 1.97 1744 872 2.23 1971 916 2.44 2203 960 2.64 2380 1005 2.88 2596 4200 778 1.88 1665 831 2.10 1884 886 2.36 2084 929 2.58 2326 972 2.78 2505 1016 3.03 2735 4300 794 2.00 1770 846 2.23 1971 900 2.50 2256 943 2.73 2460 985 2.93 2642 1028 3.17 2866 4400 810 2.13 1884 861 2.37 2093 913 2.64 2380 958 2.89 2605 999 3.09 2791 1040 3.32 3010 4500 826 2.27 2006 876 2.52 2273 927 2.78 2505 973 3.04 2744 1012 3.26 2952 - - - 4600 842 2.41 2177 892 2.67 2406 940 2.92 2633 987 3.21 2904 - - - - - - 4700 858 2:55 2300 907 2.83 2551 954 3.08 2782 1002 3.38 3068 - - - - - - 4800 874 2.70 2433 922 2.99 2698 968 3.24 2933 - - - - - - - - - 4900 890 2.86 2578 938 3.16 2857 - - - - - - - - - - - - 5000 906 3.03 2735 953 3.33 3020 - - - - - - - - - - - - 580D120 (10 TON) (cont) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (in. wg) (Cfm) 1.4 1.6 1.8 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3000 924 1.73 1534 970 1.89 1736 1019 2.00 1828 1066 2.30 2082 3100 935 1.84 1695 _ 977 2.00 1828 1026 2.17 1971 1070 2.44 2203 3200 946 1.95 1786 987 2.11 1920 1029 2.28 2065 1075 2.51 2265 3300 957 2.06 1878 998 2.23 2022 1037 2.40 2169 1082 2.58 2326 3400 967 2.17 1971 1009 2.35 2125 1047 2.53 2282 1087 2.70 2433 3500 976 2.29 2074 1020 2.48 2238 1058 2.66 2397 1095 2.84 2560 _ _ 3600 986 2.41 2177 1030 2.61 2353 1069 2.80 2523 1106 2.98 2688 3700 998 2.54 2291 1039 2.74 2469 1081 2.94 2651 1117 3.13 2829 3800 1010 2.67 2406 1049 2.87 2587 1091 3.08 2782 1128 3.29 2981 3900 1022 2.81 2533 1060 3.02 2726 1100 3.23 2923 - - - 4000 1034 2.96 2670 1072 3.17 2866 1110 3.38 3068 - - - 4100 1046 3.11 2810 1084 3.32 3010 - - - - - - 4200 1058 3.26 2952 - - - - - - - - - 4300 - - - - - - - - - - - - 4400 - - - - - - - - - - - - 4500 - - - - - - - - - - - - 4600 - - - - - - - - - - - - I 4700 - - - - - - - - - - - - 4800 - - - - - - - - - - - - 4900 - - - - - - - - - - - - 5000 - - - - - - - - - - - - I LEGEND 8. Maximum continuous bhp is 2.4 for the standard motor and 2.9 for the alter - Bhp - Brake Horsepower Input to Fan nate motor. Maximum continuous watts are 2120 for the standard motor and FIOP - Factory Installed r Input for the alternate motor. Extensive motor and electrical testing on these Watts - Input Watts to Motor units ensures that the full range of the motor can be utilized with confidence. Using your fan motors up to the wattage ratings shown will not result in nui- NOTES: sance tripping or premature motor failure. Unit warranty will not be affected. 1. Boldface indicates field - supplied drive required. (See Note 6.) See Evaporator -Fan Motor Performance table on page 64 for additional 2. I 1 indicates alternate motor and/or drive required. information. 9. Use of a field - supplied motor may affect wire sizing. Contact your local rep - 3. I I indicates field - supplied motor and drive required. resentative for details. e 4. indicates maximum usable bhp /watts of standard motor and drive. 10. Interpolation is permissible. Do not extrapolate. . 5. indicates maximum usable bhp /watts of alternate motor and/or 11. Minimum allowable cfm is 300 cfm /ton. drive. 6. Standard motor drive range is 685 to 935 rpm. Alternate motor drive range is 835 to 1085 rpm. All other rpms require a field - supplied drive. 7. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. -.� 38 AIR DELIVERY - 580D036 -150 VERTICAL DISCHARGE UNITS (cont) 580D150 (12 TON) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (In. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 1.2 - Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3750 737 1.41 1300 798 1.64 1486 854 1.84 1658 909 2.12 1893 961 2.35 2097 1014 2.61 2325 3800 745 1.46 1340 805 1.69 1531 861 1.89 1700 915 2.17 1940 967 2.41 2149 1019 2.67 2378 3900 761 1.56 1423 820 1.80 1624 875 2.01 1802 928 2.29 2044 979 2.55 2272 1029 2.80 2494 4000 777 1.67 1514 836 1.92 1725 889 2.14 1914 941 2.40 2140 991 2.68 2387 1040 2.94 2620 4100 793 1.79 1615 851 2.05 1836 904 2.27 2027 955 2.52 2246 1004 2.82 2512 1052 3.08 2746 4200 810 1.91 1717 867 2.18 1948 918 2.41 2149 968 2.65 2361 1017 2.96 2638 1064 3.23 2882 4300 826 2.04 1828 883 2.32 2070 933 2.55 2272 982 2.79 2485 1030 3.11 2773 1076 3.40 3037 4400 842 2.17 1940 898 2.46 2193 948 2.70 2405 996 2.93 2611 1043 3.25 2901 1088 3.56 3184 4500 859 2.31 2061 914 2.60 2316 962 2.85 2539 1010 3.09 2755 1056 3.40 3037 1101 3.73 3341 4600 876 2.45 2184 930 2.76 2459 977 3.01 2683 1024 3.26 2910 1070 3.55 3175 1114 3.90 3498 4700 892 2.60 2316 945 2.91 2593 992 3.18 2837 1039 3.43 3065 1083 3.71 3322 1126 4.07 3655 4800 909 2.77 2468 961 3.07 2737 1008 3.36 3001 1053 3.61 3230 1097 3.88 3479 1140 4.25 3822 4900 926 2.93 2611 977 3.24 2891 1024 3.54 3166 1068 3.80 3405 1111 4.06 3646 1153 4.41 3971 5000 942 3.11 2773 993 3.41 3047 1039 3.73 3341 1080 3.99 3581 1125 4.25 3822 1166 4.59 4139 5100 959 3.29 2937 1009 3.60 3221 1055 3.92 3516 1097 4.19 3767 1139 4.46 4018 1180 4.78 4316 5200 976 3.47 3101 1025 3.78 3387 1071 4.12 3702 1112 4.40 3962 1153 4.67 4214 1194 4.98 4503 5300 993 3.67 3285 1041 3.98 3572 1086 4.33 3897 1127 4.61 4158 1168 4.90 4428 1208 5.19 4698 5400 1010 3.87 3470 1057 4.18 3757 1102 4.54 4093 1142 4.84 4372 1182 5.13 4642 1221 5.41 4902 5500 1027 4.07 3655 1073 4.39 3953 1118 4.76 4298 1157 5.87 4586 1197 5.36 4856 1235 5.64 5115 5600 1043 4.29 3860 1090 4.61 4158 1133 4.99 4512 1173 5.31 4810 1211 , 5.61 5087 - - - 5700 1060 4.51 4065 1106 4.83 4363 1149 5.22 4726 1189 5.55 5032 - - - - - - 5800 1077 4.74 4279 1122 5.07 4586 1165 5.45 4939 - - - - - - - - - 5900 1094 4.98 4503 1139 5.31 4810 1181 5.70 , 5170 - - - - - - - - - 6000 1111 5.22 4726 1155 5.55 5032 - - - - - - - - - - - - 6100 1128 5.48 4967 - - - - - - - - - - - - - - - 6250 1162 6.00 5446 - - - - - - - - - - - - - - - 580D150 (121 TON) (cont) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (in. wg) (Cfm) 1.4 1.6 1.8 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3750 1065 2.87 2557 1113 3.12 2783 1158 3.36 2997 1197 3.56 3180 3800 1070 2.94 2620 1118 3.19 2846 1163 3.44 3074 1203 3.65 3267 3900 1079 3.07 2737 1128 3.34 2983 1173 3.60 3221 1214 3.83 3433 4000 1089 3.22 2873 1137 3.49 3120 1183 3.76 3368 1225 4.00 3590 4100 1100 3.36 3001 1147 3.65 3267 1193 3,93 3525 1236 4.19 3767 4200 1110 3.51 3138 1157 3.81 3414 1202 4.09 3674 1245 4.38 3943 4300 1121 3.67 3285 1167 3.97 3562 1212 4.27 3841 1255 4.56 4111 4400 1133 3.84 3442 1178 4.14 3720 1222 4.44 3999 1265 4.74 4279 4500 1144 4.00 3590 1188 4.31 3878 1232 4.62 4167 1274 4.93 4456 4600 1157 4.19 3767 1199 4.49 4046 1242 4.81 4344 1284 5.13 4642 4700 1169 4.38 3943 1210 4.68 4223 1252 5.00 4521 . 1294 5.33 , 4828 4800 1181 4.58 4130 1222 4.87 4400 1263 5.20 4707 - - - 4900 1194 4.77 4307 1234 5.09 4605 1274 5.40 4893 - - - 5000 1207 4.97 4493 1247 5.30 4800 , 1286 5.62 5097 - - - 5100 1220 5.18 4689 1259 5.52 5004 - - - - - - 5200 1233 5.38 4874 . 1272 5.74 , 5207 - - - - - - 5300 1246 5.58 5060 - - - - - - - - - 5400 - - - - - - - - - - - - 4 5500 - - - - - - - - - - - - 5600 - - - - - - - - - - - - 5700 - - - - - - - - - - - - 5800 - - - - - - - - - - - - 5900 - - - - - - - - - - - - 6000 - - - - - - - - - - - - 6100 - - - - - - - - - - - - 6250 - - - - - - - - - - - - LEGEND 7. Values include losses for filters, unit casing, and wet coils. See page 54 for Brake Horsepower Input to Fan accessory/FIOP static pressure information. Bhp - B BWP - B rake ry Horsepower r Input 8. Maximum continuous bhp is 4.20 for the standard motor and 5.25 for the al- Watts - Input Factory-Installed to Motor ternate motor. Maximum continuous watts are 3775 for the standard motor Wa and 4400 for the alternate motor. Extensive motor and electrical testing on NOTES: these units ensures that the full range of the motor can be utilized with con - 1. Boldface indicates field - supplied drive required. (See Note 6.) fidence. Using your fan motors up to the wattage ratings shown will not result ind icates alternate motor and/or drive required. in nuisance tripping or premature motor failure. Unit warranty will not be af- 2. LL fected. See Evaporator -Fan Motor Performance table on page 64 for addi- - 3. I ' I indicates field - supplied motor and drive required. tional information. 4. indicates maximum usable bhp /watts of standard motor and drive. 9• Use of a field - supplied motor may affect wire sizing. Contact your local rep- 5. indicates maximum usable bhp/watts of altemate motor and/or resentative for details. drive. 10. Interpolation is permissible. Do not extrapolate. 6. Standard motor drive range is 860 to 1080 rpm. Alternate motor drive range is 11 • Minimum allowable cfm is 300 cfm /ton. 900 to 1260 rpm. All other rpms require a field - supplied drive. 39 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS 580D036 (3 TON) Standard Direct Drive Motor Airflow Low Speed High Speed (Cfm) 208 v 230, 460, 575 v 208 v 230, 460, 575 v ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts , 900 0.54 0.21 253 0.57 0.23 277 0.55 0.26 307 0.60 0.31 363 1000 0.49 0.23 270 0.51 0.25 292 0.52 0.27 321 0.53 0.32 374 1100 0.43 0.24 287 0.45 0.26 307 0.46 0.28 335 0.49 0.33 385 1200 0.39 0.26 304 0.40 0.27 323 0.38 0.29 349 0.43 0.34 397 1300 0.33 0.27 321 0.35 0.29 338 0.35 0.31 364 0.36 0.34 408 1400 0.26 0.29 338 0.28 0.30 354 0.29 0.32 378 - - - 1500 0.21 0.30 355 0.23 0.31 369 0.24 0.33 392 - - - LEGEND 2. Extensive motor and electrical testing on these units ensures that the full range Bhp - Brake Horsepower Input to Fan of the motor can be utilized with confidence. Using your fan motors up to the ESP - Brake Horsepower rsep Pressure (in. Fan wattage ratings shown will not result in nuisance tripping or premature motor B E - Extemal failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- mance table on page 64 for additional information. NOTES: 3. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 1. Values include losses tor filters, unit casing, and wet coils. See page 54 for sentative for details. accessory/FIOP static pressure information. 4. Minimum allowable cfm is 300 cfm /ton. 580D036 (3 TON) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.3 0.4 0.5 0.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 900 526 0.06 70 584 0.08 99 656 0.12 139 734 0.22 219 818 0.25 269 875 0.27 269 1000 570 0.09 109 627 0.13 149 738 0.19 189 800 0.26 259 848 0.29 288 895 0.31 308 1100 614 0.13 149 670 0.16 189 758 0.23 229 812 0.29 288 863 0.32 308 914 0.35 348 1200 658 0.16 189 710 0.23 229 780 0.28 279 840 0.32 318 889 0.36 358 938 0.40 398 1300 703 0.20 239 752 0.27 269 808 0.32 318 868 0.37 368 916 0.41 408 963 0.45 448 1400 725 0.29 288 776 0.31 308 845 0.38 378 891 0.42 418 937 0.47 467 983 0.51 507 1500 755 0.33 328 816 0.38 378 870 0.43 428 924 0.48 477 969 0.53 527 1014 0.58 577 580D036 (3 TON) (cont) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.7 0.8 0.9 1.0 1.1 1.2 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 900 924 0.32 308 953 0.35 348 989 0.38 388 1028 0.42 438 1074 0.45 487 1120 0.50 537 1000 936 0.35 348 977 0.39 388 1020 0.44 438 1064 0.48 477 1124 0.52 537 1185 0.55 597 1100 960 0.39 388 1005 0.43 428 1052 0.49 487 1100 0.52 527 1163 0.56 587 1225 0.60 647 1200 988 0.45 448 1038 0.50 497 1076 0.53 527 1136 0.59 577 1201 0.61 647 1266 0.64 716 1300 1012 0.51 507 1061 0.56 557 1094 0.61 607 1172 0.65 647 1239 0.69 716 1306 0.72 786 1400 1027 0.56 557 1071 0.60 597 1108 0.67 666 1208 0.70 706 1278 0.75 786 1347 0.79 865 1500 1056 0.63 627 1097 0.68 676 1117 0.70 696 1245 0.74 776 1315 0.80 865 1385 0.85 955 LEGEND 4. Maximum continuous bhp is 1.00 and maximum continuous watts are 1000. Bhp Extensive motor and electrical testing on these units ensures that the full range Bhp - Brake Horsepower Input to Fan - rake Horsepower Factory-Installed r Input of the motor can be utilized with confidence. Using your fan motors up to the Watts - Input Watts to Motor wattage ratings shown will not result in nuisance tripping or premature motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- NOTES: mance table on page 64 for additional information. 1. Boldface indicates field - supplied drive required. (See Note 2.) 5. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 2. Motor drive range is 760 to 1000 rpm. All other rpms require field - supplied sentative for details. 1 drive. 6. Interpolation is permissible. Do not extrapolate. , 3. Values include losses for filters, unit casing, and wet coils. See page 54 for 7. Minimum allowable cfm is 300 cfm /ton. accessory/FIOP static pressure information. \ J % 40 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS (cont) 580D048 (4 TON) Standard Direct Drive Motor Airflow Low Speed High Speed (Cfm) 208 v 230, 460, 575 v 208 v 230, 460, 575 v ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts 1200 0.75 0.41 458 0.81 0.45 506 0.87 0.51 572 0.92 0.56 632 1300 0.68 0.42 471 0.74 0.46 521 0.79 0.52 589 0.85 0.58 651 1400 0.60 0.45 503 0.66 0.49 556 0.71 0.54 616 0.77 0.60 681 1500 0.51 0.47 536 0.58 0.52 593 0.64 0.56 631 0.70 0.62 698 1600 0.42 0.49 557 0.49 0.54 616 0.56 0.58 654 0.63 0.64 723 1700 0.32 0.52 584 0.39 0.57 646 0.48 0.60 678 0.55 0.66 750 1800 0.21 0.54 610 0.29 0.60 674 0.41 0.62 698 0.48 0.68 772 1900 0.09 0.56 629 0.18 0.62 696 0.33 0.64 720 0.41 0.70 796 2000 - - - 0.06 0.65 731 0.26 0.66 744 0.33 0.73 823 LEGEND 2. Extensive motor and electrical testing on these units ensures that the full range of the motor can be utilized with confidence. Using your fan motors up to the Bhp - Brake Horsepower Input to Fan wattage ratings shown will not result in nuisance tripping or premature motor ESP - Extemal Static Pressure (in. wg) failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- FIOP - Factory- Installed Option mance table on page 64 for additional information. NOTES: 3. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 1. Values include losses for filters, unit casing, and wet coils. See page 54 for sentative for details. accessory/FIOP static pressure information. 4. Minimum allowable cfm is 300 cfm /ton. 580D048 (4 TON) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.3 0.4 0.6 0.7 0.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1200 569 0.18 189 641 0.23 242 701 0.29 299 761 0.34 357 859 0.46 483 901 0.52 546 943 0.58 609 1300 604 0.22 231 673 0.28 294 731 0.34 352 788 0.39 410 887 0.52 546 928 0.59 615 968 0.65 683 1400 640 0.27 284 705 0.33 347 761 0.39 410 817 0.45 473 914 0.59 620 955 0.66 688 996 0.72 757 1500 676 0.32 336 738 0.38 399 793 0.45 468 847 0.51 536 940 0.65 683 982 0.73 767 1024 0.81 851 1600 713 0.38 399 772 0.44 462 825 0.51 536 877 0.58 609 967 0.73 767 1009 0.81 851 1051 0.89 935 1700 750 0.45 473 806 0.51 536 857 0.59 615 908 0.66 693 997 0.81 851 1037 0.90 940 1077 1.01 1030 1800 788 0.52 546 841 0.59 620 890 0.67 704 939 0.75 788 1026 0.91 956 1065 1.01 1040 1104 1.07 1124 1900 826 0.60 630 876 0.68 714 924 0.76 799 971 0.84 883 1056 1.01 1061 1094 1.10 1151 1132 1.18 1240 2000 864 0.70 735 912 0.77 809 958 0.86 898 1004 0.94 988 1087 1.12 1177 1125 1.21 1271 1162 1.30 1366 580D048 (4 TON) (cont) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.9 1.0 1.1 1.2 1.4 1.6 1.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1200 987 0.64 652 1030 0.70 695 1068 0.79 792 1106 0.87 889 1134 0.98 998 1189 1.12 1138 1245 1.21 1358 1300 1006 0.71 709 1044 0.77 736 1086 0.84 833 1128 0.91 930 1183 1.10 1052 1226 1.23 1215 1297 1.35 1406 1400 1033 0.79 797 1069 0.86 838 1104 0.93 925 1139 1.01 1012 1218 1.14 1090 1286 1.34 1282 1320 1.48 1463 1500 1060 0.88 891 1095 0.95 930 1129 - 1.02 1022 1162 1.09 1114 1228 1.24 1186 1303 1.40 1339 1343 1.60 1530 1600 1087 1.01 1001 1123 1.05 1073 1156 1.13 1150 1185 1.20 1226 1250 1.35 1291 1319 1.51 1444 1382 1.68 1607 1700 1114 1.07 1108 1151 1.15 1185 1183 1.23 1262 1215 1.31 1339 1276 1.48 1415 1334 1.64 1569 1398 1.80 1722 1800 1141 1.17 1221 1178 1.26 1318 1211 1.35 1390 1243 1.43 1461 1303 1.61 1540 1359 1.78 1702 1418 1.95 1865 1900 1168 1.28 1371 1204 1.37 1502 1238 1.47 1548 1271 1.56 1594 1330 1.74 1664 1386 1.93 1846 1439 2.11 2018 2000 1197 1.39 1485 1231 1.48 1604 1265 1.59 1666 1298 1.69 1727 1358 1.89 1808 1413 2.08 1989 1466 2.27 2171 LEGEND 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. Bhp - Brake Horsepower Input to Fan 6. Maximum continuous bhp is 1.00 and the maximum continuous watts are 1000. FIOP - Factory Installed Option Extensive motor and electrical testing on these units ensures that the full range Watts - Input Watts to Motor of the motor can be utilized with confidence. Using your fan motors up to the NOTES: wattage ratings shown will not result in nuisance tripping or premature motor 1. Boldface indicates field - supplied drive required. (See Note 4.) failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- 2. I indicates field-supplied motor and drive required. mance table on page 64 for additional information. 2. I indicates maximum d usable bhp/watts. 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- P sentative for details. 4. Motor wive range: 835 to 1185 rpm. All other rpms require a field - supplied 8. Interpolation is permissible. Do not extrapolate. drive. 9. Minimum allowable cfm is 300 cfm/ton. 41 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS (cont) 580D060 (5 TON) Standard Direct -Drive Motor Airflow Low Speed Medium Speed High Speed (Cfm) 208 V 230, 460, 575 V 208 V 230,460, 575 V 208 V 230, 460, 575 V ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts ESP Bhp Watts 1500 0.74 0.67 750 1.06 0.71 791 1.07 0.70 782 1.27 0.76 845 1.26 0.79 875 1.33 0.85 949 1600 0.54 0.70 780 0.90 0.74 824 0.92 0.74 821 1.13 0.79 883 1.14 0.82 913 1.22 0.89 988 1700 0.34 0.73 810 0.75 0.77 857 0.77 0.77 861 1.00 0.83 921 1.01 0.85 950 1.11 0.92 1027 1800 0.14 0.75 839 0.59 0.80 891 0.62 0.81 900 0.87 0.86 959 0.89 0.88 988 1.00 0.96 1066 1900 - - - 0.44 0.83 924 0.47 0.84 940 0.74 0.90 997 0.77 0.92 1025 0.89 0.99 1105 2000 - - - 0.28 0.86 957 0.32 0.88 979 0.61 0.93 1035 0.64 0.95 1063 0.78 1.03 1144 2100 - - - 0.13 0.89 990 0.17 0.91 1018 0.48 0.96 1073 0.51 0.99 1101 0.67 1.06 1183 2200 - - - - - - 0.02 0.95 1058 0.35 1.00 1111 0.39 1.02 1138 0.56 1.10 1222 2300 - - - - - - - - - 0.22 1.03 1149 0.26 1.06 1176 0.45 1.13 1261 2400 - - - - - - - - - 0.09 1.07 1187 0.14 1.09 1213 0.34 1.17 1300 2500 - - - - - - - - - - - - - - - 0.23 1.20 1340 LEGEND 2. Extensive motor and electrical testing on these units ensures that the full range of the motor can be utilized with confidence. Using your fan motors up to the Bhp - Brake Horsepower Input to Fan ESP - External Static Pressure (in. wg) wattage ratings shown will not result in nuisance tripping or premature motor FIOP - Factory- Installed Option failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- mance table on page 64 for additional information. NOTES: 3. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 1. Values include losses for filters, unit casing, and wet coils. See page 54 for sentative for details. accessory/FIOP static pressure information. 4. Minimum allowable cfm is 300 cfm /ton. 580D060 (5 TON) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1500 730 0.34 357 789 0.40 420 896 0.53 557 990 0.67 704 1072 0.83 872 1153 1.00 1051 1600 770 0.40 420 826 0.46 483 931 0.61 641 1020 0.75 788 1101 0.91 956 1178 1.09 1145 1700 811 0.47 494 865 0.54 567 966 0.69 725 1051 0.84 883 1133 1.01 1061 1205 1.18 1240 1800 852 0.55 578 905 0.62 651 1002 0.78 820 1084 0.93 977 1163 1.10 1156 1235 1.29 1355 1900 894 0.54 567 945 0.72 757 1037 0.88 925 1119 1.04 1093 1194 1.21 1271 1266 1.40 1471 2000 936 0.74 778 984 0.82 862 1072 0.98 1030 1154 1.16 1219 1226 1.33 1397 1297 1.53 1608 -- 2100 978 0.85 893 1024 0.93 977 1108 1.10 1156 1192 1.29 1355 1259 1.47 1545 1327 1.66 1744 2200 1021 0.97 1019 1064 1.05 1103 1145 1.22 1282 1225 1.43 1503 1294 1.62 1702 1359 1.80 1902 2300 1064 1.10 1156 1104 1.18 1240 1183 1.36 1429 1260 1.57 1650 1330 1.78 1870 1392 1.97 2070 2400 1107 1.24 1303 1145 1.32 1387 1222 1.45 1524 1296 1.73 1818 1365 1.94 2038 1426 2.15 2259 2500 1150 1.39 1460 1186 1.48 1555 1262 1.68 1765 1331 1.89 1986 1400 2.12 2227 1461 2.34 2459 5800060 (5 TON) (cont) Alternate Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 1.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1500 1221 1.17 1229 1256 1.30 1366 1283 1.32 1387 1303 1.22 1282 1600 1252 1.27 1334 1311 1.45 1524 1340 1.58 1660 1330 1.61 1692 1700 1278 1.37 1439 1345 1.57 1650 1397 1.76 1849 1424 1.89 1986 1800 1303 1.48 1555 1371 1.69 1776 1433 1.90 1996 1480 2.09 2196 1900 1330 1.59 1671 1396 1.80 1902 1460 2.03 2133 1517 2.25 2364 2000 1362 1.73 1818 1422 1.94 2038 1485 2.16 2270 1544 2.40 2522 2100 1393 1.87 1965 1452 2.08 2185 1510 2.31 2427 1570 2.55 2674 2200 1423 2.02 2122 1483 2.24 2354 1538 2.46 2585 1594 2.71 2821 2300 1454 2.18 2291 1515 2.41 2532 1571 2.64 2758 1623 2.88 2976 2400 1485 2.36 2480 1544 2.59 2721 1604 2.84 2947 1657 3.07 3152 2500 1518 2.55 2679 1574 2.78 2905 1633 3.03 3134 1692 3.28 3345 LEGEND 6. Maximum continuous bhp is 1.80 and maximum continuous watts are 1921. Bhp - Brake Horsepower Input to Fan Extensive motor and electrical testing on these units ensures that the ful! range FIOP - Factory Installed Option of the motor can be utilized with confidence. Using your fan motors up to the Watts - Input Watts to Motor wattage ratings shown will not result in nuisance tripping or premature motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Perfor- NOTES: mance table on page 64 for additional information. 1. Boldface indicates field- supplied drive required. (See Note 4.) 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 2. 1 1 indicates field - supplied motor and drive required. sentative for details. 3. indicates maximum usable bhp /watts. 8. Interpolation is permissible. Do not extrapolate. range: 900 to 1300 rpm. All other 9. Minimum allowable cfm is 300 cfm /ton. 4. Motor drive ran 9 p rpms require a drive. 5. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. 42 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS (cont) 580D072 (6 TON) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.1 0.2 0.4 0.6 0.8 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1800 885 0.63 623 942 0.73 700 1047 0.90 835 1139 1.05 956 1193 1.14 1031 1276 1.30 1165 1900 928 0.73 700 982 0.83 779 1084 1.02 932 1160 1.11 1006 1223 1.24 1114 1301 1.38 1233 2000 971 0.84 787 1022 0.94 867 1121 1.12 1014 1188 1.22 1097 1254 1.36 1216 1329 1.44 1284 2100 1015 0.97 891 1063 1.10 998 1140 1.18 1064 1196 1.27 1140 1272 1.45 1292 1354 1.58 1404 2200 1060 1.10 998 1104 1.20 1081 1159 1.23 1106 1229 1.41 1258 1306 1.53 1361 1363 1.70 1508 2300 1104 1.25 1123 1130 1.27 1140 1196 1.37 1224 1264 1.56 1387 1340 1.66 1473 1397 1.86 1648 2400 1138 1.30 1165 1174 1.37 1224 1245 1.57 1396 1305 1.63 1447 1373 1.84 1630 1440 1.95 1726 2500 1183 1.43 1275 1201 1.50 1335 1284 1.65 1465 1338 1.75 1552 1402 1.99 1761 1469 2.04 1805 2600 1210 1.58 1404 1246 1.67 1482 1312 1.76 1560 1366 1.96 1735 1435 2.10 1858 1494 2.19 1936 2700 1254 1.76 1560 1285 1.80 1595 1354 1.95 1726 1403 2.14 1892 1474 2.21 1954 1536 2.46 2171 2800 1274 1.82 1613 1304 1.85 1639 1374 2.12 1875 1459 2.25 1989 1514 2.42 2136 1570 2.66 2343 2900 1318 1.95 1726 1345 2.05 1814 1412 2.32 2050 1496 2.54 2240 1529 2.61 2300 1603 2.87 2521 3000 1362 2.20 1945 1378 2.30 2032 1451 2.40 2119 1534 2.66 2343 1560 2.81 2470 1611 3.01 2648 580D072 (6 TON) (cont) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 1800 1341 1.40 1250 1413 1.55 1378 1474 1.58 1404 1900 1374 1.53 1361 1437 1.62 1439 1490 1.67 1482 2000 1396 1.66 1473 1460 1.68 1491 1509 1.77 1569 2100 1413 1.75 1552 1475 1.73 1534 1529 1.92 1700 2200 1434 1.81 1604 1487 1.85 1639 1554 2.07 1831 2300 1 459 1.88 1665 1520 2.07 1831 1576 2.24 1980 2400 1502 2.06 1823 1552 2.24 1980 1604 2.42 2136 2500 1524 2.24 1980 1585 2.42 2136 1638 2.60 2292 2600 1552 2.40 2119 1616 2.63 2317 1671 2.80 2462 2700 1584 2.61 2300 1646 2.83 2487 1706 2.97 2653 2800 1624 2.85 2504 1677 2.99 2661 - - - 2900 1671 3.03 2725 - - - - - - 3000 - - - - - - - - - LEGEND 5. Values include losses for filters, unit casing, and wet coils. See page 54 for hp - Brake Horsepower Input to Fan accessory/FIOP static pressure information. B B hp - B rake Installed Option 6. Maximum continuous bhp is 2.4 and maximum continuous watts are 2120. Ex- Watts - Input Watts to Motor tensive motor and electrical testing on these units ensures that the full range of the motor can be utilized with confidence. Using your fan motors up to the watt- NOTES: age ratings shown will not result in nuisance tripping or premature motor fail - 1. Boldface indicates field - supplied drive required. (See Note 4.) ure. Unit warranty will not be affected. See Evaporator -Fan Motor Performance table on page 64 for additional information. 2. ( J indicates field - supplied motor and drive required. 7. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 3. indicates maximum usable bhp /watts. sentative for details. 4. Motor drive range: 1070 to 1460 rpm. All other rpms require a field - supplied 8. Interpolation is permissible. Do not extrapolate. drive. 9. Minimum allowable cfm is 300 cfm /ton. 43 AIR DELIVERY - 580D036 -160 HORIZONTAL DISCHARGE UNITS (cont) 580D090 (7'/2 TON) Standard Belt Drive Motor Airflow External Static Pressure (In. wg) (Cfm) 0.2 0.4 0.6 0.8 0.9 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2250 507 0.53 547 586 0.73 700 658 0.97 891 722 1.22 1097 752 1.34 1199 783 1.46 1301 2300 513 0.55 562 592 0.76 723 663 1.00 916 727 1.26 1131 756 1.38 1224 786 1.49 1327 2400 528 0.60 600 606 0.83 779 674 1.06 965 738 1.34 1199 766 1.46 1301 795 1.58 1404 2500 542 0.66 646 619 0.90 835 686 1.13 1022 748 1.41 1258 777 1.55 1370 806 1.68 1491 2550 550 0.69 669 627 0.94 867 692 1.17 1056 754 1.45 1292 783 1.60 1413 812 1.74 1543 2600 557 0.72 692 634 0.97 891 698 1.21 1089 759 1.49 1327 787 1.64 1456 816 1.79 1587 2700 573 0.79 747 648 1.05 956 711 1.29 1156 770 1.58 1404 798 1.73 1534 827 1.88 1665 2800 588 0.86 803 662 1.13 1022 723 1.38 1233 782 1.66 1473 809 1.82 1613 837 1.98 1753 2900 604 0.94 867 676 1.21 1089 737 1.48 1318 794 1.76 1560 821 1.92 1700 848 2.08 1840 3000 620 1.02 932 690 1.30 1165 750 1.58 1404 806 1.86 1648 832 2.02 1788 849 2.18 1927 3100 636 1.11 1006 704 1.39 1241 764 1.69 1499 818 1.97 1744 844 2.13 1884 870 2.29 2023 3200 652 1.21 1089 718 1.49 1327 778 1.80 1595 831 2.09 1849 856 2.25 1980 882 2.40 2119 3300 668 1.31 1173 732 1.59 1413 793 1.92 1700 844 2.21 1954 869 2.37 2093 894 2.53 2232 3400 684 1.41 1258 747 1.70 1508 807 2.04 1805 857 2.35 2076 882 2.51 2206 907 2.66 2343 3500 701 1.53 1361 762 1.82 1613 821 2.16 1910 871 2.48 2188 895 2.64 2326 919 2.80 2462 3600 717 1.65 1465 777 1.94 1718 835 2.29 2023 885 2.63 2317 908 2.79 2453 93'2 2.95 2587 3700 733 1.77 1569 792 2.07 1831 849 2.42 2136 899 2.78 2445 922 2.95 2579 945 3.11 2718 3750 742 1.84 1630 800 2.14 1892 856 2.49 2197 907 2.86 2512 929 3.03 2653 952 3.20 2719 580D090 (71 TON) (cont) Standard Belt Drive Motor Airflow Extemal Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2250 843 1.81 1604 908 2.25 1989 955 2.59 2283 2300 846 1.84 1630 910 2.25 2015 959 2.61 2300 2400 853 1.88 1665 912 2.31 2041 967 2.68 2360 2500 859 1.94 1718 919 2.37 2093 971 2.73 2403 2550 864 1.99 1761 920 2.39 2110 974 2.76 2428 2600 868 2.04 1805 921 2.41 2136 976 2.78 2445 2700 878 2.16 1910 928 2.45 2162 983 2.88 2529 2800 889 2.29 2023 937 2.57 2266 986 2.91 2554 2900 900 2.41 2128 947 2.70 2377 993 3.01 2637 .- 3000 910 2.52 2223 958 2.85 2504 1002 3.15 2751 3100 920 2.64 2326 968 2.99 2620 1012 3.30 2870 3200 931 2.76 2428 979 3.13 2735 1023 3.47 3002 3300 942 2.89 2537 989 3.26 2839 1034 3.63 3121 3400 954 3.02 2645 1000 3.40 2948 1044 3.79 3237 3500 966 3.15 2751 1011 3.55 3062 1054 3.94 3340 3600 978 3.30 2870 1022 3.69 3165 1065 4.10 3445 3700 990 3.45 2987 1034 3.84 3272 1076 4.26 3544 3750 997 3.54 3055 1040 3.93 3333 1082 5.27 3609 LEGEND 7. Values include losses for filters, unit casing, and wet coils. See page 54 for accessory/FIOP static pressure information. Bhp - Brake Horsepower Input to Fan 8. Maximum continuous bhp is 2.4 and maximum continuous watts are 2120. FIOP - Factory Installed Option Watts - Input Watts to Motor Extensive motor and electrical testing on these units ensures that the full range of the motor can be utilized with confidence. Using your fan motors up NOTES: to the wattage ratings shown will not result in nuisance tripping or premature 1. Boldface indicates field - supplied drive required. (See Note 6.) motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor 2. I I indicates alternate drive required. Performance table on page 64 for additional information. 9. Use of a field - supplied motor may affect wire sizing. Contact your local rep - 3. I I indicates field - supplied motor and drive required. resentative for details. 4. indicates maximum usable bhp /watts of standard drive. 10. Interpolation is permissible. Do not extrapolate. 5. indicates maximum usable bhp /watts of altemate drive. 11. Minimum allowable cfm is 300 cfm /ton. 6. Standard drive range is 590 to 840 rpm. Altemate drive range is 685 to 935 rpm. All other rpms require a field - supplied drive. 44 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS (cont) 580D102 (8 TON) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 0.9 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2550 550 0.69 669 627 0.94 867 692 1.17 1056 754 1.45 1292 783 1.60 1413 812 1.74 1543 2600 557 0.72 692 634 0.97 891 698 1.21 1089 759 1.49 1327 787 1.64 1456 816 1.79 1587 2700 573 0.79 747 648 1.05 956 711 1.29 1156 770 1.58 1404 798 1.73 1534 827 1.88 1665 2800 588 0.86 803 662 1.13 1022 723 1.38 1233 782 1.66 1473 809 1.82 1613 837 1.98 1753 2900 604 0.94 867 676 1.21 1089 737 1.48 1318 794 1.76 1560 821 1.92 1700 848 2.08 1840 3000 620 1.02 932 690 1.30 1165 750 1.58 1404 806 1.86 1648 832 2.02 1788 849 2.18 1927 3100 636 1.11 1006 704 1.39 1241 764 1.69 1499 818 1.97 1744 844 2.13 1884 870 2.29 2023 3200 652 1.21 1089 718 1.49 1327 778 1.80 1595 831 2.09 1849 856 2.25 1980 882 2.40 2119 3300 668 1.31 1173 732 1.59 1413 793 1.92 1700 844 2.21 1954 869 2.37 2093 894 2.53 2232 3400 684 1.41 1258 747 1.70 1508 807 2.04 1805 857 2.35 2076 882 2.51 2206 907 2.66 2343 3500 701 1.53 1361 762 1.82 1613 821 2.16 1910 871 2.48 2188 895 2.64 2326 919 2.80 2462 3600 717 1.65 1465 777 1.94 1718 835 2.29 2023 885 2.63 2317 908 2.79 2453 932 2.95 2587 3700 733 1.77 1569 792 2.07 1831 849 2.42 2136 899 2.78 2445 922 2.95 2579 945 3.11 2718 3750 742 1.84 1630 800 2.14 1892 856 2.49 2197 907 2.86 2512 929 3.03 2653 952 3.20 2719 3800 750 1.90 1683 807 2.21 1954 863 2.56 2257 914 2.93 2571 936 3.11 2847 958 3.28 2854 3900 767 2.04 1805 822 2.35 2076 877 2.71 2386 928 3.09 2702 950 3.27 2979 972 3A5 2987 4000 783 2.18 1927 838 2.50 2206 891 2.86 2512 942 3.26 2839 964 3.45 3187 986 3.63 3121 4100 800 2.34 2067 854 2.66 2343 905 3.02 2645 956 2.43 2971 978 3.62 3244 1000 3.81 3251 4200 817 2.49 2197 869 2.82 2479 920 3.19 2783 970 3.60 3099 992 3.80 3258 1015 4.00 3380 4250 826 2.58 2275 877 2.91 2554 928 3.28 2854 977 3.69 3165 999 3.90 3306 1022 4.10 3445 580D102 (8 TON) (cont) Standard Belt Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.2 1.4 1.6 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 2550 864 1.99 1761 920 2.39 2110 974 2.76 2428 2600 868 2.04 1805 921 2.41 2136 976 2.78 2445 2700 878 2.16 1910 928 2.45 2162 983 2.88 2529 2800 889 2.29 2023 937 2.57 2266 986 2.91 2554 2900 900 2.41 2128 947 2.70 2377 993 3.01 2637 . 3000 910 2.52 2223 958 2.85 2504 1002 3.15 2751 3100 920 2.64 2326 968 2.99 2620 1012 3.30 2870 3200 931 2.76 2428 979 3.13 2735 1023 3.47 3002 3300 942 2.89 2537 989 3.26 2839 1034 3.63 3121 3400 954 3.02 2645 1000 3.40 2948 1044 3.79 3237 3500 966 3.15 2751 1011 3.55 3062 1054 3.94 3340 3600 978 3.30 2870 1022 3.69 3165 1065 4.10 3445 3700 990 3.45 2987 1034 3.84 3272 1076 426 3544 3750 997 3.54 3055 1040 3.93 3333 1082 5.27 3609 3800 1003 3.62 3114 1045 4.01 3387 1087 4.43 3643 3900 1015 3.80 3244 1057 4.18 3495 1098 4.60 3733 4000 1028 3.99 3373 1070 4.36 3603 1110 4.78 3820 4100 1042 4.18 3495 1082 4.56 3713 1122 4.97 3902 4200 1055 4.38 3614 1095 4.76 3811 1134 5.16 3971 . 4250 1062 4.49 3676 1102 4.87 3860 1140 5.27 4006 LEGEND 5. Values include losses for filters, unit casing, and wet coils. See page 54 for Bhp Brake Horsepower Input to Fan accessory/FIOP static pressure information. B B hp - B rake Installed Option 6. Maximum continuous bhp is 2.4 and maximum continuous watts are 2120. Ex- Watts - Input Watts to Motor tensive motor and electrical testing on these units ensures that the full range of the motor can be utilized with confidence. Using your fan motors up to the watt- NOTES: age ratings shown will not result in nuisance tripping or premature motor fail - 1. Boldface indicates field - supplied drive required. (See Note 4.) ure. Unit warranty will not be affected. See Evaporator -Fan Motor Performance table on page 64 for additional information. 2. I I indicates field - supplied motor and drive required. 7. Use of a field-supplied motor may affect wire sizing. Contact your local repre- 3. indicates maximum usable bhp/watts. sentative for details. 4. Motor drive range is 685 to 935 rpm. All other rpms require a field - supplied 8. Interpolation is permissible. Do not extrapolate. drive. 9. Minimum allowable cfm is 300 cfm /ton. • 45 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS (cont) 580D120 (10 TON) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 1.2 Rpm Bhp W atts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts P P P P P P P P P P P 3000 552 0.68 661 632 0.87 810 701 1.05 956 761 1.22 1097 816 1.36 1216 871 1.54 1370 3100 565 0.74 708 644 0.93 859 711 1.12 1014 772 1.31 1173 825 1.45 1292 879 1.63 1447 3200 578 0.81 763 656 1.00 916 723 1.20 1081 782 1.39 1241 835 1.55 1378 887 1.71 1517 3300 591 0.88 818 668 1.08 973 734 1.28 1148 793 1.47 1310 845 1.65 1465 895 1.80 1595 3400 605 0.96 883 680 1.16 1047 745 1.36 1216 803 1.56 1387 856 1.75 1552 904 1.91 1691 3500 619 1.04 948 691 1.23 1106 755 1.44 1284 813 1.65 1465 867 1.86 1648 914 2.03 1796 3600 633 1.13 1022 703 1.31 1173 766 1.52 1353 824 1.74 1543 877 1.97 1744 924 2.15 1901 3700 648 1.23 1106 714 1.39 1241 777 1.61 1430 835 1.85 1639 887 2.07 1831 935 2.28 2015 3800 662 1.33 1190 726 1.51 1310 789 1.72 1526 846 1.95 1726 897 2.18 1927 946 2.40 2169 3900 677 1.44 1284 738 1.61 1387 801 1.82 1613 857 2.06 1823 908 2.29 2023 956 2.53 2282 4000 692 1.55 1378 750 1.73 1473 813 1.94 1718 868 2.17 1919 918 2.40 2119 967 2.66 2397 4100 707 1.67 1482 762 1.84 1560 825 2.05 1814 878 2.28 2015 929 2.53 2282 977 2.78 2505 4200 722 1.80 1595 775 1.97 1656 837 2.16 1910 889 2.40 2119 941 2.66 2397 987 2.91 2624 4300 737 1.94 1718 787 2.09 1761 848 2.27 2006 900 2.52 2273 952 2.80 2523 999 3.04 2744 4400 752 2.08 1840 800 2.21 1875 860 2.39 2110 912 2.66 2397 962 2.93 2642 1008 3.19 2885 4500 768 2.24 1980 814 2.35 1989 871 2.51 2265 924 2.80 2523 973 3.07 2772 1019 3.34 3029 4600 783 2.40 2119 827 2.50 2121 883 2.64 2380 937 2.95 2661 983 3.21 2904 - - - 4700 799 2.56 2309 841 2.64 2291 894 2.77 2496 949 3.10 2800 994 3.36 3049 - - - 4800 814 2.74 2469 855 2.80 2424 906 2.91 2624 961 3.26 2952 - - - - - - 4900 - - - 868 2.90 2578 918 3.05 2754 972 3.40 3088 - - - - - - 5000 - - - 883 3.10 2735 931 3.21 2904 - - - - - - - - - 580D120 (10 TON) (cont) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (in. wg) (Cfm) 1.4 1.6 1.8 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3000 918 1.67 1482 967 1.89 1736 1010 2.09 1903 1063 2.46 2221 3100 928 1.78 1478 973 1.94 1778 1018 2.17 1971 1070 2.51 2265 3200 937 1.90 1745 981 2.04 1861 1026 2.26 2048 1075 2.57 2318 3300 946 2.00 1828 991 2.16 1963 1032 2.32 2099 1080 2.64 2380 3400 953 2.10 1912 1000 2.29 2074 1041 2.44 2203 1083 2.65 2389 3500 961 2.20 1997 1009 2.41 2177 1051 2.57 2318 1090 2.74 2469 ' 3600 970 2.32 2099 1017 2.53 2282 1061 2.72 2451 1099 2.88 2596 3700 980 2.45 2212 1024 2.64 2380 1069 2.87 2587 1109 3.03 2735 3800 989 2.58 2326 1033 2.76 2487 1077 2.99 2698 1118 3.20 2895 3900 1000 2.73 2460 1042 2.91 2624 1085 3.12 2819 1127 3.36 3049 4000 1010 2.87 2587 1052 3.06 2763 1093 3.24 2933 - - - 4100 1021 3.02 2726 1062 3.22 2914 1102 3.41 3097 - - - 4200 1032 3.17 2866 1072 3.38 2971 - - - - - - 4300 1042 3.32 3010 - - - - - - - - - 4400 - - - - - - - - - - - - 4500 - - - - - - - - - - - - 4600 - - - - - - - - - - - - 4700 - - - - - - - - - - - - 4800 - - - - - - - - - - - - 4900 - - - - - - - - - - - - 5000 - - - - - - - - - - - - LEGEND 7. Values include losses for filters, unit casing, and wet coils. See page 54 for Bhp - Brake to Fan accessory/FIOP static pressure information. FIOP - Brake rake Horsepower Installed O Input 8. Maximum continuous bhp is 2.4 for the standard motor and 2.9 for the alter - Watts - Input Watts to Motor nate motor. Maximum continuous watts are 2120 for the standard motor and 2615 for the altemate motor. Extensive motor and electrical testing on these NOTES: units ensures that the full range of the motor can be utilized with confidence. 1. Boldface indicates field - supplied drive required. (See Note 6.) Using your fan motors up to the wattage ratings shown will not result in nui- 2. I I indicates alternate motor and/or drive required. sance tripping or premature motor failure. Unit warranty will not be affected. See Evaporator -Fan Motor Performance table on page 64 for additional 3. I I indicates field - supplied motor and drive required. information. 4. indicates maximum usable bhp /watts of standard motor and drive. 9. Use of a field - supplied motor may affect wire sizing. Contact your local rep - 5. indicates maximum usable bhp /watts of alternate motor and/or resentative for details. drive. 10. Interpolation is permissible. Do not extrapolate. 6. Standard drive range is 685 to 935 rpm. Alternate drive range is 835 to 11. Minimum allowable cfm is 300 cfm/ton. 1085 rpm. All other rpms require a field - supplied drive. 46 AIR DELIVERY - 580D036 -150 HORIZONTAL DISCHARGE UNITS (cont) 5800150 (12 TON) Airflow External Static Pressure (in. wg) (Cfm) 0 0.4 0.6 0.8 1.0 1.2 Rp Bh p Wa tts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3750 684 1. 1162 755 1.48 1353 816 1.70 1540 875 1.94 1738 933 2.23 1988 989 2.49 2219 3 800 6 91 1. 1194 761 1.52 1390 822 1.75 1582 880 1.98 1776 937 2.28 2035 993 2.55 2272 3 9 00 705 1.37 126 773 1.62 1473 834 1.86 1674 891 2.08 1862 947 2.39 2131 1002 2.66 2370 786 1.71 1548 847 1.97 1768 902 2.19 1957 957 2.50 2228 1011 2.79 2485 4 000 720 1. 1349 4 1 00 7 34 1.56 1423 800 1.82 1641 860 2.09 1871 914 2.31 2061 967 2.60 2316 1021 2.91 2593 4 74 9 1. 24 Standard and Alternate Belt Drive Motors 1 813 1.92 1725 873 2.21 1974 926 2.44 2175 978 2.71 2414 1030 3.04 2710 4300 764 1.77 1598 826 2.04 1828 886 2.33 2079 938 2.57 2290 989 2.83 2521 1040 3.18 2837 4400 779 1. 1691 840 2.16 1931 899 2.46 2193 951 2.71 2414 1000 2.96 2638 1050 3.31 2955 4 5 00 793 1.99 1785 854 2.28 2035 912 2.59 2307 963 2.86 2548 1012 3.09 2755 1061 3.43 3065 46 8 2.11 1888 868 2.42 2158 925 2.73 2459 975 3.00 2674 1024 3.25 2901 1071 3.56 3184 4 8 22 2.24 2000 882 2.56 2281 937 2.86 2548 988 3.16 2819 1036 3.42 3056 1082 3.70 3313 48 00 83 7 2.37 2114 896 2.71 2414 950 3.00 2674 1001 3.32 2964 1048 3.59 3212 1093 3.86 3461 4900 852 2.51 2237 910 2.86 2548 963 3.15 2810 1014 3.48 3111 1060 3.76 3368 1105 4.02 3609 5 000 867 2.65 2361 924 3.01 2683 977 3.30 2946 1027 3.65 3267 1073 3.94 3535 1117 4.20 3776 5100 882 2.79 2485 938 3.17 2828 990 3.46 3092 1040 3.82 3424 1085 4.12 3702 1129 4.40 3962 52 00 896 2.95 2629 952 3.33 2973 1003 3.63 3248 1053 4.00 3590 1098 4.30 3869 1141 4.60 4148 5300 m 911 3.11 2773 967 3.50 3129 1017 3.80 3405 1066 4.18 3757 1111 4.50 4055 1153 4.80 4335 54 00 926 3.27 2919 981 3.68 3294 1030 3.98 3572 1079 4.35 3916 1124 4.70 4270 1166 5.01 4531 5500 940 3.44 3074 995 3.86 3461 1044 4.17 3748 1092 4.54 4093 1137 4.91 4437 1178 5.22 4726 56 00 955 3.62 3239 1010 4.04 3627 1058 4.38 3943 1105 4.73 4270 1150 5.12 4633 1190 5.44 4930 5700 970 3.80 3405 1024 4.23 3804 1072 4.59 4139 1118 4.93 4456 1163 5.34 4837 1203 5.67 5143 5800 985 3.99 3581 1039 4.42 3981 1086 4.80 4335 1131 5.14 4652 1176 5.56 5041 - - - 5900 1000 4.18 3757 1053 4.62 4167 1100 5.02 4540 1144 5.36 4856 - - - - - - 6000 1015 4.39 3953 1068 4.83 4363 1114 525 4754 1158 5.58 5060 - - - - - - 6100 1030 4.59 4139 1083 5.04 4558 1128 5.48 4967 - - - - - - - - - 6250 1062 5.02 4560 1098 5.27 4763 1142 5.72 5182 - - - - - - - - - 5800150 (12/2 TON) (cont) Standard and Alternate Belt Drive Motors Airflow External Static Pressure (in. wg) (gym) 1.4 1.6 1.8 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 3750 1041 2.75 2445 1086 2.98 2634 1122 3.16 2819 1146 3.28 2928 3800 1046 2.81 2503 1092 3.05 2719 1129 3.25 2901 1156 3.39 3028 3900 1055 2.94 2620 1102 3.20 2855 1143 3.42 3056 1174 3.59 3212 4000 1064 3.07 2737 1112 3.34 2983 1155 3.59 3212 1190 3.80 3405 4100 1072 3.20 2855 1121 3.49 3120 1165 3.76 3368 1203 3.99 3581 4200 1081 3.34 2983 1130 3.64 3258 1175 3.92 3516 1215 4.18 3757 4300 1090 3.48 3111 1139 3.79 3396 1185 4.08 3664 1226 4.36 3925 4400 1100 3.63 3248 1148 3.94 3535 1194 4.25 3822 1236 4.54 4093 4500 1109 3.78 3387 1157 4.09 3674 1203 4.42 3981 1246 4.72 4260 4600 1119 3.93 3525 1166 4.26 3832 1212 4.58 4130 1255 4.91 4437 4700 1129 4.09 3674 1175 4.43 3990 _ 1221 4.76 4298 1264 5.09 4605 4800 1139 4.24 3813 1185 4.60 4148 1230 4,93 4456 1273 5.28 4782 4900 1150 4.38 3943 1194 4.77 4307 1239 5.12 4633 1282 5.47 4958 5000 1161 4.54 4093 1204 4.95 4475 1248 5.31 4810 1291 , 5.66 5133 5100 1172 4.71 4251 1214 5.13 4642 1257 5.51 4995 - - - 5200 1183 4.91 4419 1225 5.29 4791 1267 5.70 5170 - - - 5300 1194 5.08 4596 1236 5.47 4958 - - - - - - 5400 1206 5.29 4791 1247 5.65 5124 - - - - - - 5500 1218 5.52 4958 - - - - - - - - - 5600 1230 5.75 5124 - - - - - - - - - . 5700 - - - - - - - - - - - - 5800 - - - - - - - - - - - - 5900 - - - - - - - - - - - - 6000 - - - - - - - - - - - - 6100 - - - - - - - - - - - - 6250 - - - - - - - - - - - - LEGEND 7. Values include losses for filters, unit casing, and wet coils. See page 54 for Bhp - Brake Horsepower Input to Fan accessory/FIOP static pressure information. B B - Factory-Installed rakeHorsepower r Input 8. Maximum continuous bhp is 4.2 for the standard motor and 5.25 for the al- Watts - Input Watts to Motor ternate motor. The maximum continuous watts are 3775 for the standard mo- tor and 4400 for the alternate motor. Extensive motor and electrical testing on NOTES: these units ensures that the full range of the motor can be utilized with con - 1. Boldface indicates field - supplied drive required. (See Note 6.) fidence. Using your fan motors up to the wattage ratings shown will not result 2. I I indicates alternate motor and/or drive required. in nuisance tripping or premature motor failure. Unit warranty will not be af- fected. See Evaporator -Fan Motor Performance table on page 64 for addi- 3. ( I indicates field - supplied motor and drive required. tional information. 4. indicates maximum usable bhp /watts of standard motor and drive. 9. Use of afield- supplied motor may affect wire sizing. Contact your local rep - 5. indicates maximum usable bhp /watts of alternate motor and/or resentative for details. drive. 10. Interpolation is permissible. Do not extrapolate. 6. Standard motor drive range is 860 to 1080 rpm. Alternate motor drive range is 11 • Minimum allowable cfm is 300 cfm/ton. 900 to 1260 rpm. All other rpms require a field - supplied drive. 47 AIR DELIVERY - 579F180 -300 UNITS 579F180 (15 TON) Standard Belt -Drive Motor; 208/230 -V and 460 V Units Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 1.2 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts �� 4500 801 1.05 933 890 1.26 1119 971 1.46 1297 1050 1.67 1483 1125 1.88 1670 1200 2.12 1883 4800 843 1.25 1110 928 1.47 1306 1006 1.68 1492 1081 1.90 1687 1153 2.13 1892 1223 2.36 2096 5100 885 1.47 1306 968 1.70 1510 1043 1.93 1714 1114 2.16 1918 1183 2.40 2131 1250 2.64 2345 5400 927 1.71 1519 1008 1.95 1732 1080 2.20 1954 1148 2.44 2167 1214 2.69 2389 1279 2.94 2611 5700 971 1.98 1758 1049 2.24 1989 1118 2.50 2220 1134 2.75 2442 1247 3.01 2673 1309 3.28 2913 6000 1016 2.28 2025 1091 2.55 2265 1158 2.83 2513 1222 3.10 2753 1282 3.36 2984 1342 3.64 3233 6300 1059 2.60 2309 1133 2.89 2567 1198 3.17 2815 1259 3.46 3073 1318 3.74 3321 1375 4.02 3570 6600 1104 2.96 2629 1174 3.26 2895 1239 3.56 3162 1297 3.86 3428 1355 4.15 3686 - - - 6900 1150 3.35 2975 1218 3.67 3259 1281 3.98 3535 - - - - - - - - - 7200 1194 3.77 3348 1260 4.10 3641 - - - - - - - - - - - - 7500 1238 4.23 3758 - - - - - - - - - - - - - - - 579F180 (15 TON) (cont) Standard Belt -Drive Motor; 208/230 -V and 460-V Units Airflow External Static Pressure (in. wg) (Cfm) 1.4 1.6 1.8 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 4500 1275 2.39 2123 1349 2.70 2398 1421 3.03 2691 1490 3.39 3011 4800 1293 2.62 2327 1364 2.92 2593 1433 3.24 2877 1501 3.59 3188 5100 1316 2.90 2575 1382 3.18 2824 1448 3.49 3099 1514 3.86 3428 5400 1342 3.20 2842 1403 3.47 3082 1466 3.77 3348 1529 4.16 3694 5700 1370 3.54 3144 1429 3.81 3384 1487 4.11 3650 - - - 6000 1401 3.92 3481 1458 4.20 3730 - - - - - - 6300 - - - - - - - - - - - - 6600 - - - - - - - - - - - - 6900 - - - - - - - - - - - - 7200 - - - - - - - - - - - - 7500 - - - - - - - - - - - - LEGEND 5. Interpolation is permissible. Do not extrapolate. Bhp - Brake Horsepower Input to Fan 6. Maximum continuous bhp is 4.25 and the maximum continuous watts are 3775. B B - Factory -Installed Option Extensive motor and drive testing on these units ensures that the full horse - Watts - Input Watts to Motor power range of the motor can be utilized with confidence. Using your fan mo- tors up to the watts rating shown will not result in nuisance tripping or NOTES: premature motor failure. Unit warranty will not be affected. See Evaporator -Fan 1. Boldface indicates field - supplied drive is required. (See Note 3.) Motor Performance table on page 64 for additional information. 2. indicates maximum usable bhp /watts of standard motor and drive. 7. Values include losses for filters, unit casing, and wet coils. See page 54 for 3. Factory shipped motor drive range is 1227 to 1559 rpm. Other rpms require a accessory/FIOP static pressure information. field - supplied drive. 8. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 4. Static pressure losses (i.e., economizer) must be added to external static pres- sentative for details. sure before entering Air Delivery table. 9. Minimum allowable cfm is 300 cfm/ton. 48 AIR DELIVERY - 579F180 -300 UNITS (cont) 579F180 (15 TON) Standard Belt -Drive Motor, 575 -V Units Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 1.2 ' Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 4500 801 1.05 933 890 1.26 1119 971 1.46 1297 1050 1.67 1483 1125 1.88 1670 1200 2.12 1883 4800 843 1.25 1110 928 1.47 1306 1006 1.68 1492 1081 1.90 1687 1153 2.13 1892 1223 2.36 2096 5100 885 1.47 1306 968 1.70 1510 1043 1.93 1714 1114 2.16 1918 1183 2.40 2131 1250 2.64 2345 5400 927 1.71 1519 1008 1.95 1732 1080 2.20 1954 1148 2.44 2167 1214 2.69 2389 1279 2.94 2611 5700 971 1.98 1758 1049 2.24 1989 1118 2.50 2220 1134 2.75 2442 1247 3.01 2673 1309 3.28 2913 6000 1016 2.28 2025 1091 2.55 2265 1158 2.83 2513 1222 3.10 2753 1282 3.36 2984 - - - 6300 1059 2.60 2309 1133 2.89 2567 1198 3.17 2815 - - - - - - - - - 6600 1104 2.96 2629 1174 3.26 2895 - - - - - - - - - - - - • 6900 1150 3.35 2975 - - - - - - - - - - - - - - - 7200 - - - - - - - - - - - - - - - - - - 7500 - - - - - - - - - - - - - - - - - - 579F180 (15 TON) (cont) Standard Belt -Drive Motor, 575-V Units Airflow External Static Pressure (In. wg) (Cfm) 1.4 1.6 1.8 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 4500 1275 2.39 2123 1349 2.70 2398 1421 3.03 2691 1490 3.39 3011 4800 1293 2.62 2327 1364 2.92 2593 1433 3.24 2877 - - - 5100 1316 2.90 2575 1382 3.18 2824 - - - - - - 5400 1342 3.20 2842 - - - - - - - - - 5700 - - - - - - - - - - - - 6000 - - - - - - - - - - - - 6300 - - - - - - - - - - - - 6600 - - - - - - - - - - - - 6900 - - - - - - - - - - - - 7200 - - - - - - - - - - - - 7500 - - - - - - - - - - - - LEGEND 5. Interpolation is permissible. Do not extrapolate. P - Brake Horsepower Input to Fan 6. Maximum continuous bhp is 3.45 and the maximum continuous watts are 3065. Bh BI - Factory -Installed Option Extensive motor and drive testing on these units ensures that the full horse- s Watts - Input Watts to Motor power range of the motor can be utilized with confidence. Using your fan mo- tors up to the watts rating shown will not result in nuisance tripping or NOTES: premature motor failure. Unit warranty will not be affected. See Evaporator -Fan 1. Boldface indicates field - supplied drive is required. (See Note 3.) Motor Performance table on page 64 for additional information. 2. indicates maximum usable bhp /watts of standard motor and drive. 7. Values include losses for filters, unit casing, and wet coils. See page 54 for 3. Factory shipped motor drive range is 1201 to 1462 rpm. Other rpms require a accessory/FIOP static pressure information. field - supplied drive. 8. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 4. Static pressure losses (i.e., economizer) must be added to external static pres- sentative for details. sure before entering Air Delivery table. 9. Minimum allowable cfm is 300 cfm /ton. 1 • 49 AIR DELIVERY - 579F180 -300 UNITS (cont) 579F216 (18 TON) Standard Belt -Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.2 _ 0.4 0.6 0.8 1.0 1.2 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 5040 707 1.34 1237 805 1.72 1526 898 2.04 1830 986 2.42 2159 1071 2.82 2594 1153 3.22 2894 5500 717 1.40 1292 813 1.80 1585 905 2.10 1892 992 2.50 2223 1076 2.90 2680 1157 3.30 2962 6000 767 1.80 1617 858 2.20 1932 944 2.50 2256 1026 2.90 2600 1104 3.30 2967 1181 3.80 3358 6500 817 2.20 1992 903 2.60 2329 985 3.00 2673 1062 3.40 3031 1136 3.80 3410 1209 4.30 3811 7000 869 2.70 2427 950 3.10 2787 1028 3.50 3151 1102 3.90 3527 1172 4.40 3919 1241 4.80 4331 7200 889 2.94 2624 969 3.34 2993 1046 3.74 3366 1118 4.18 3749 1187 4.64 4147 1255 5.08 4564 7500 920 3.30 2919 998 3.70 3303 1073 4.10 3689 1143 4.60 4083 1210 5.00 4490 1275 5.50 4914 8000 973 3.90 3476 1047 4.30 3886 1119 4.80 4294 1186 5.30 4708 1250 5.70 5131 - - - 8500 1026 4.60 4102 1097 5.10 4635 1166 5.60 4967 - - - - - - - - - 9000 1079 5.40 4800 - - - - - - - - - - - - - - - 579F216 (18 TON) (cont) Standard Belt -Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.3 1.4 1.6 1.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 5400 1192 3.47 3095 1231 3.72 3296 1306 4.12 3716 1379 4.62 4153 5500 1196 3.55 3164 1234 3.80 3366 1309 4.20 3789 1381 4.70 4229 6000 1218 4.00 3565 1251 4.20 3772 1327 4.70 4206 1396 5.20 4658 6500 1244 4.50 4022 1279 4.70 4233 1348 5.20 4677 1415 5.80 5139 7000 1275 5.05 4547 1308 5.30 4762 - - - - - - 7200 1288 5.33 4783 - - - - - - - - - 7500 1307 5.75 5135 - - - - - - - - - 8000 - - - - - - - - - - - - 8500 - - - - - - - - - - - - 9000 - - - - - - - - - - - - LEGEND 5. Interpolation is permissible. Do not extrapolate. Brake Horsepower Input to Fan 6. Maximum continuous bhp is 5.9 and the maximum continuous watts are 5180. Bhp - B BIOP - Factory -Installed Option Extensive motor and drive testing on these units ensures that the full horse - Watts - Input Watts to Motor power range of the motor can be utilized with confidence. Using your fan mo- tors up to the watts rating shown will not result in nuisance tripping or NOTES: premature motor failure. Unit warranty will not be affected. See Evaporator -Fan 1. Boldface indicates field - supplied drive is required. (See Note 3.) Motor Performance table on page 64 for additional information. 2. indicates maximum usable bhp /watts of standard motor and drive. 7. Values include losses for filters, unit casing, and wet coils. See page 54 for 3. Factory shipped motor drive range is 1047 to 1251 rpm. Other rpms require a accessory/FIOP static pressure information. field - supplied drive. 8. Use of a field - supplied motor may affect wire sizing. Contact your local repre- 4. Static pressure losses (i.e., economizer) must be added to external static pres- sentative for details. sure before entering Air Delivery table. 9. Minimum allowable cfm is 300 cfm/ton. .1 50 AIR DELIVERY - 579F180 -300 UNITS (cont) 579F240 (20 TON) Standard Belt -Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 1.0 1.2 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 6000 767 1.80 1617 858 2.20 1932 944 2.50 2256 1026 2.90 2600 1104 3.30 2967 1181 3.80 3358 6500 817 2.20 1992 903 2.60 2329 985 3.00 2673 1062 3.40 3031 1136 3.80 3410 1209 4.30 3811 7000 869 2.70 2427 950 3.10 2787 1028 3.50 3151 1102 3.90 3527 1172 4.40 3919 1241 4.80 4331 7500 920 3.30 2919 998 3.70 3303 1073 4.10 3689 1143 4.60 4083 1210 5.00 4490 1275 5.50 4914 8000 973 3.90 3476 1047 4.30 3886 1119 4.80 4294 1186 5.30 4708 1250 5.70 5131 1313 6.20 5569 8500 1026 4.60 4102 1097 5.10 4635 1166 5.60 4967 1231 6.00 5401 1292 6.50 5843 1352 7.00 6297 9000 1079 5.40 4800 1147 5.90 5257 1214 6.40 5714 1276 6.90 6171 1336 7.40 6632 1393 7.90 7102 9500 1133 6.20 5576 1199 6.80 6058 1263 7.30 6540 1323 7.90 7018 1381 8.40 7500 1436 8.90 7988 10,000 1188 7.20 6432 1250 7.80 6939 1313 8.30 7444 1371 8.90 7946 1426 9.50 8449 - - - 579F240 (20 TON) (cont) Standard Belt -Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 1.4 1.6 1.8 1.9 2.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 6000 1255 4.20 3772 1327 4.70 4206 1396 5.20 4658 1431 5.45 4884 1465 5.70 5110 6500 1279 4.70 4233 1348 5.20 4677 1415 5.80 5139 1449 6.10 5370 1482 6.40 5601 7000 1308 5.30 4762 1373 5.80 5215 1437 6.40 5686 1469 6.70 5922 1501 7.00 6157 7500 1339 6.00 5356 1401 6.50 5818 1462 7.00 6298 1493 7.25 6538 1523 7.50 6778 8000 1373 6.70 6024 1433 7.30 6495 1493 7.80 6966 1523 8.05 7202 - - - 8500 1410 7.60 6765 1467 8.10 7248 1524 8.70 7731 - - - - - - 9000 1449 8.50 7584 1503 9.00 8033 - - - - - - - - - 9500 1488 9.40 8403 - - - - - - - - - - - - 10,000 - - - - - - - - - - - - - - - LEGEND 7. Maximum continuous bhp is 8.7 for 208/230 and 575 -v units and 9.5 for 460 -v units. The maximum continuous watts are 7915 for the 208/230 and 575 -v Bhp - Brake Horsepower Input to Fan IOP - Factory-Installed rakeHorsepower r Input units and 8640 for the 460 -v units. Extensive motor and drive testing on these Watts - Input Watts to Motor units ensures that the full horsepower range of the motor can be utilized with confidence. Using your fan motors up to the watts rating shown will not result NOTES: in nuisance tripping or premature motor failure. Unit warranty will not be af- 1. Boldface indicates field - supplied drive is required. (See Note 4.) fected. See Evaporator -Fan Motor Performance table on page 64 for addi- 2. indicates maximum usable bhp /watts of standard motor and drive. tional information. 8. Values include losses for filters, unit casing, and wet coils. See page 54 for 3. 1 indicates additional capability of the 460 -v motor. accessory/FIOP static pressure information. 4. Factory shipped motor drive range is 1238 to 1494 rpm. Other rpms require a 9. Use of a field - supplied motor may affect wire sizing. Contact your local rep - field- supplied drive. resentative for details. 5. Static pressure losses (i.e., economizer) must be added to external static 10. Minimum allowable cfm is 300 cfm /ton. pressure before entering Air Delivery table. 6. Interpolation is permissible. Do not extrapolate. 51 AIR DELIVERY - 579F180 -300 UNITS (cont) 579F300 (25 TON) Standard Belt -Drive Motor Airflow External Static Pressure (in. wg) (Cfm) 0.2 0.4 0.6 0.8 0.9 1.0 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 7,500 962 3.39 3123 1039 3.81 3,507 1111 4.23 3,895 1179 4.66 4,295 1212 4.89 4503 1245 5.11 4710 8,000 1017 4.04 3717 1091 4.48 4,126 1160 4.93 4,536 1225 5.38 4,954 1256 5.62 5170 1287 5.85 5386 8,500 1072 4.76 4385 1143 5.23 4,818 1209 5.70 5,250 1271 6.18 5,688 1302 6.42 5913 1332 6.66 6137 9,000 1128 5.57 5129 1196 6.07 5,587 1260 6.56 6,042 1320 7.06 6,501 1348 7.32 6735 1377 7.57 6968 9,500 1185 6.47 5955 1250 6.99 6,437 1311 7.51 6,915 1369 8.03 7,395 1396 8.30 7638 1424 8.56 7881 10,000 1241 7.45 6865 1304 8.00 7,372 1363 8.55 7,873 1419 9.09 8,376 1445 9.37 8629 1472 9.64 8882 10,500 1298 8.54 7865 1359 9.12 8,396 1415 9.69 8,921 1469 10.26 9,446 1495 10.55 9710 1521 10.83 9973 11,000 1355 9.72 8956 1414 10.33 9,512 1469 10.93 10,062 1521 11.52 10,609 - - - - - - 11,250 1384 10.36 9540 1441 10.97 10,107 1495 11.58 10,668 - - - - - - - - - 579F300 (25 TON) (cont) Standard Belt -Drive Motor Airflow External Static Pressure (In. wg) (Cfm) 1.2 1.3 1.4 1.6 1.8 Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts Rpm Bhp Watts 7,500 1309 5.58 5143 1341 5.83 5370 1372 6.08 5597 1434 6.59 6067 1494 7.12 6558 8,000 1349 6.33 5833 1379 6.59 6065 1409 6.84 6297 1467 7.36 6779 - - - • 8,500 1390 7.17 6600 1419 7.43 6839 1447 7.68 7077 1504 8.22 7571 - - - 9,000 1433 8.08 7446 1461 8.35 7692 1488 8.62 7938 - - - - - - 9,500 1478 9.10 8378 1505 9.37 8626 - - - - - - - - - 10,000 1524 10.20 9396 1550 10.48 9653 - - - - - - - - - 10,500 - - - - - - - - - - - - - - - 11,000 - - - - - - - - - - - - - - - 11,250 - - - - - - - - - - - - - - - LEGEND 7. Maximum continuous bhp is 10.26 for 208/230 and 575 -v units and 11.8 for Bhp - Brake Horsepower Input to Fan 460 -v units. The maximum continuous watts are 9510 for the 208/230 and p p 575 -v units and 11,000 for the 460 -v units. Extensive motor and drive testing FI P - Factory Installed Option on these units ensures that the full horsepower range of the motor can be uti- Watt s - Input Watts to Motor lized with confidence. Using your fan motors up to the watts rating shown will NOTES: not result in nuisance tripping or premature motor failure. Unit warranty will 1. Boldface indicates field - supplied drive is required. (See Note 4.) not be affected. See Evaporator -Fan Motor Performance table on page 64 for 2. indicates maximum usable bhp /watts of standard motor and drive. additional information. 8. Values include losses for filters, unit casing, and wet coils. See page 54 for . 3. I I indicates additional capability of the 460 v motor. accessory/FIOP static pressure information. 4. Factory shipped motor drive range is 1323 to 1579 rpm. Other rpms require a 9. Use of a field - supplied motor may affect wire sizing. Contact your local rep - field- supplied drive. resentative for details. 5. Static pressure losses (i.e., economizer) must be added to external static 10. Minimum allowable cfm is 300 cfm/ton. pressure before entering Air Delivery table. 6. Interpolation is permissible. Do not extrapolate. 52 579F180 -300 HORIZONTAL SUPPLY /RETURN FAN PERFORMANCE WITH 389210 -201 OR 389211 -201 HIGH STATIC REGAIN ADAPTER ,_ 25% VENT AIR/ e \,' w_ 0.8 ECONOMIZER - 07 - � eN t 0 HOOD "0 , w 0.6 AN ii, ' ° / o il o 0.5 - BLOCK -OFF � � 0 , , v w PAN �� ..e v 0.4 - Z - - - - 1 ¢ 2 0.3- ¢ Euuui O 02- . i cc AIR OUT / „ 0.1 - 4000 5000 6000 7000 8000 9000 10,000 11,000 HORIZONTAL SUPPLY C RB HIGH STATIC REGAIN CFM (389210 -201 OR 389211 -201) TRANSITION DUCT NOTE: The 389210 -201 or 389211 -201 high static regain adapter NOTE: The 389210 -201 or 389211 -201 horizontal supply /return accessory may be used to provide horizontal supply /return. adapter accessory improves 579F180 -300 fan performance by in- creasing external static pressure by amount shown above. AIR QUANTITY LIMITS UNIT MINIMUM CFM MAXIMUM CFM UNIT MINIMUM CFM MAXIMUM CFM 580D036 900 1500 580D120 3000 5,000 580D048 1200 2000 580D150 3750 6,250 580D060 1500 2500 579F180 4500 7,500 580D072 1800 3000 579F216 5400 9,000 ---, 580D090 2250 3750 579F240 6000 10,000 580D102 2550 4250 579F300 7000 11,250 SOUND POWER (Total Unit) SOUND A- WEIGHTED OCTAVE BANDS UNIT RATING (dB) (60 Hz) 63 125 250 500 1000 2000 4000 8000 j 580D036 -060 8.2 Bels 80.5 56.8 75.8 72.4 72.9 74.8 75.4 71.3 69.1 580D072 8.4 Bels 82.4 56.0 69.8 72.9 75.9 78.3 76.5 72.6 67.9 580D090,102 8.6 Bels 86.4 83.2 87.4 83.5 82.8 83.0 77.7 71.8 67.0 580D120 8.8 Bels 87.6 97.6 90.4 85.7 84.8 83.9 77.5 71.3 65.8 580D150 8.8 Bels 86.4 83.7 87.2 83.4 82.8 83.0 77.7 71.8 67.0 579F180 8.8 Bels 87.3 87.1 89.9 86.4 84.0 82.7 79.0 73.9 68.6 579F216 9.0 Bels 89.5 95.7 88.9 87.2 85.2 81.9 79.5 72.7 66.0 579F240 9.5 Bels 94.1 98.7 92.3 93.8 90.9 89.6 85.9 80.3 74.3 579F300 9.5 Bels 94.1 98.7 92.3 93.8 90.9 89.6 85.9 80.3 74.3 Bels - Sound Levels (1 bel = 10 decibels) 53 ACCESSORY /FIOP STATIC PRESSURE* (in. wg) - 580D036 -072 COMPONENT CFM 900 1200 1400 1600 1800 2000 2200 2400 2600 3000 Durablade Economizer 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.05 Parablade Economizer _ 0.08 0.10 0.17 0.26 0.33 0.34 0.36 0.40 0.44 - LEGEND FIOP - Factory- Installed Option The static pressure must be added to external static pressure. The sum and the evaporator entering -air cfm should then be used in conjunction with the Air Delivery tables to determine blower rpm and watts. ACCESSORY /FIOP STATIC PRESSURE* (in. wg) - 580D090 -150 COMPONENT CFM 2250 2500 3000 3500 4000 4500 5000 5500 6000 6250 Durablade Economizer 0.02 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.09 Parablade Economizer 0.22 0.25 0.35 0.49 0.61 - - - - - LEGEND FIOP - Factory- Installed Option The static pressure must be added to external static pressure. The sum and the evaporator entering -air cfm should then be used in conjunction with the Air Delivery tables to determine blower rpm and watts. ACCESSORY /FIOP STATIC PRESSURE* (in. wg) - 579F180 -300 COMPONENT CFM 4500 5000 5400 6000 7200 7500 9000 10,000 11,250 Economizer _ 0.04 0.05 0.06 0.07 0.09 0.10 0.11 0.12 0.14 LEGEND FIOP - Factory- Installed Option *The static pressure must be added to external static pressure. The sum and the evaporator entering -air cfm should then be used in conjunction with the Air Delivery tables to determine blower rpm and watts. FAN RPM AT MOTOR PULLEY SETTINGS* UNIT MOTOR PULLEY TURNS OPEN 0 IA 1 11/2 2 2% 3 3 4 4 5 5' 6 580D036t 1000 976 952 928 904 880 856 832 808 784 760 - - 580D048t 1185 1150 1115 1080 1045 1010 975 940 905 870 835 - - 580D060t 1300 1260 1220 1180 1140 1100 1060 1020 980 940 900 - - 580D072** 1460 1420 1380 1345 1305 1265 1225 1185 1150 1110 1070 - - 580D090** 840 815 790 765 740 715 690 665 635 615 590 - - 580D090tt 935 910 885 860 835 810 785 760 735 710 685 - - 580D102 ** 935 910 885 860 835 810 785 760 735 710 685 - - 580D120** 935 910 885 860 835 810 785 760 735 710 685 - - 580D120t 1085 1060 1035 1010 985 960 935 910 885 860 835 - - 580D150 ** 1080 1060 1035 1015 990 970 950 925 905 880 860 - - 580D150t 1260 1220 1185 1155 1130 1100 1075 1045 1015 990 960 930 900 579F180 (208/230,460 v) ** 1559 1526 1493 1460 1426 1393 1360 1327 1293 1260 1227 - - 579F180(575 v) ** 1462 1436 1410 1384 1358 1332 1305 1279 1253 1227 1201 - - . 579F216 ** 1251 1234 1217 1200 1183 1166 1149 1132 1115 1098 1081 1064 1047 579F240 ** 1494 1472 1451 1430 1408 1387 1366 1345 1323 1302 1281 1259 1238 579F300 ** II 11 1536 1515 1493 1472 1451 1430 1408 1387 1366 1344 1323 *Approximate fan rpm shown. tlndicates alternate motor and drive package. *Indicates standard motor and drive package. ttlndicates alternate drive package only. 110 not run this fan at less than 1 full turn open, as it will exceed the maximum allowable rpm of 1550. 54 ELECTRICAL DATA - 580DO36 -150 NOMINAL VOLTAGE COMPR OFM COMBUSTION DISCONNECT UNIT VOLTAGE IFM RANGE (ea) (ea) IFM FAN MOTOR POWER SUPPLY SIZE* 580D (60 Hz) TYPE Min Max RLA LRA Hp FLA FLA FLA MCA MOCPt FLA LRA 208/230 Std 2.8 25.3/25.3 35/35 24/24 97/97 (single phase) Alt 187 254 16.9 86.7 1/4 1.4 4.9 57 27.4/27.4 35/35 27/27 102/102 208/230 Std 2.8 18.8/18.8 25/25 18/18 76/76 036 (3 phase) Alt 187 254 11.7 65.0 1/4 1.4 4.9 57 20.9/20.9 25/25 21/21 80/80 (3 Tons) 460 Std 8.5 15 8 38 414 508 5.1 33.0 1/4 0.8 1.3 .30 (3 phase) Alt 2.1 9.3 15 9 41 575 Std 6.8 15 7 31 518 632 4.1 27.0 '/4 0.8 1.3 .30 (3 phase) Alt 2.1 7.4 15 7 34 208/230 Std 3.5 33.7/33.7 40/40 32/32 122/122 (single phase) Alt 187 254 23.0 110.0 1 /4 1.4 4.9 .57 35.1/35.1 45/45 34/34 125/125 208/230 Std 3.5 24.0/24.0 30/30 24/24 104/104 048 (3 phase) Alt 187 254 15.3 92.0 1 /4 1.4 4.9 57 25.4/25.4 30/30 25/25 107/107 (4 Tons) 460 Std 1.8 11.4 15 11 52 (3 phase) Alt 414 508 7.0 46.0 '/4 0.8 2 1 .30 11.7 15 11 54 575 Std 15 9 49 518 632 5.8 44.0 '/4 0.8 1.8 30 9.3 _ (3 phase) Alt 2.1 9.6 15 9 51 208/230 Std 5.9 42.7/42.7 50/50 43/43 155/155 (single phase) Alt 187 254 30.5 141.0 1/4 1.4 8 8 57 48.3/48.3 60/60 47/47 178/178 208/230 Std 187 254 17.7 110.0 1/4 1.4 5.9 .57 29.4/29.4 35/35 29/29 124/124 060 (3 phase) Alt 8.8 32.0/32.0 40/40 32/32 145/145 (5 Tons) 460 Std 3.2 14.8 20 15 63 (3 phase) Alt 414 508 8.6 55.0 1 /4 0.8 2 6 .30 14.2 20 14 73 575 Std 12.0 15 12 52 518 632 6.4 44.0 Y4 0.8 3.2 .30 (3 phase) Alt 2.6 11.4 15 12 62 208/230 Std 187 254 20.9 142.0 1/4 1.4 5.8 .57 33.3/33.3 40/40 32/32 187/187 (3 phase) 072 (6 Tons) (3 460se) Std 414 508 9.9 72.0 1 /4 0.8 2.6 .30 15.6 20 15 94 575 Std 518 632 7.9 58.0 1 /4 0.8 2.6 .30 14.6 15 12 76 (3 phase) 208/230 Std 187 254 13.6 73.4 1/4 1.4 5.8 .57 39.2/39.2 45/45 41/41 194/194 (3 phase) 090 460 Std 414 508 6.2 37.7 1/4 0.7 2.6 .30 18.0 25 19 99 (7 Tons) (3 phase) 575 Std 518 632 4.9 31.0 1/4 0.7 2.6 .30 14.2 20 15 81 (3 phase) 208/230 Std 187 254 15.8 92.0 1 /4 1.4 5.8 .57 44.2/44.2 50/50 46/46 231/231 (3 phase) 102 460 Std 414 508 7.4 46.0 1/4 0.7 2.6 .30 20.7 25 22 116 (8' Tons) (3 phase) (3 phase) Std 518 632 5.9 44.0 1/4 0.7 2.6 .30 16.5 20 17 107 208/230 Std 5.8 48.9/48.9 60/60 51/51 267/267 (3 phase) Alt 187 254 17.9 110.0 1/4 1.4 7.5 57 50.6/50.6 60/60 53/53 286/286 120 460 Std 2.6 23.4 30 24 134 (10 Tons)- (3 phase) Alt 414 508 8.6 55.0 1 /4 0.7 3.4 .30 24.2 30 25 173 575 Std 2.6 17.6 20 I 18 107 (3 phase) Alt 518 632 6.4 44.0 '/4 0.7 3 4 .30 18.2 20 19 139 208/230 Std 187 254 22.3 142.0 1 /4 1.4 10.61 .57 63.6/63.6 70/70 67/67 375/375 (3 phase) Alt 15.0 68.0/68.0 80/80 72/72 398/398 150 460 Std 4.8 29.6 40 31 i 190 (12 Tons) (3 phase) Alt 414 508 10.4 72.0 1 /4 0.7 7 4 .30 32.2 45 34 201 575 Std 4.8 26.6 30 28 154 (3 phase) Alt 518 632 9.5 58.5 1 /4 0.7 7 4 .30 28.6 35 30 162 See Legend and Notes on page 56. 55 ELECTRICAL DATA - 579F180 -300 NOMINAL VOLTAGE COMPRESSOR OFM IFM POWER COMBUSTION POWER SUPPLY UNIT VOLTAGE RANGE NO. 1 NO. 2 EXHAUST FAN MOTOR 579F - - (60 Hz) Min Max RLA LRA RLA LRA Oty Hp (ea) FLA FLA LRA FLA MCA MOCPt 208/230 - - 0.57 92/92 150/150 187 254 61.0 266 - - 3 '/z 1.70 10.5/10.5 (3 phase) 4.6 18.8 0.57 96/96 150/150 180 460 - - 0.30 42 70 414 508 28.0 120 - - 3 '/z 0.08 4.8 (15 Tons) (3 phase) 2.3 6.0 0.30 45 70 575 - - 0.57 35 50 (3 phase) 518 632 23.0 96 - - 3 1/2 0.75 3.9 2.1 4.8 0.57 37 60 208/230 - 0.57 94/94 125/125 187 254 35.6 198 28.2 160 3 '/z 1.70 15.8/15.8 (3 phase) 4.6 18.8 0.57 98/98 125/125 216 460 - - 0.30 47 60 414 508 17.8 99 14.1 80 3 '/z 0.80 7.9 (18 Tons) (3 phase) 2.3 6.0 0.30 49 60 575 - - 0.57 37 50 (3 phase) 518 632 14.3 79 11.3 64 3 '/z 0.75 6.0 2.1 4.8 0.57 40 50 208/230 - 0.57 116/116 150/150 187 254 35.6 198 35.6 198 2 1 5.50 25.0/25.0 (3 phase) 4.6 18.8 0.57 121/121 150/150 240 460 - 0.30 59 70 414 508 17.8 99 17.8 99 2 1 2.80 13.0 (20 Tons) (3 phase) 2.3 6.0 0.30 61 70 575 - - 0.57 49 60 (3 phase) 518 632 14.3 79 14.3 79 2 1 3.40 10.0 2.1 4.8 0.57 51 60 208/230 - 0.57 137/137 175/175 187 254 43.6 228 43.6 228 2 1 5.50 28.0/28.0 (3 phase) 4.6 18.8 0.57 142/142 175/175 300 460 - 0.30 70 90 414 508 22.1 114 22.1 114 2 1 2.80 14.6 (25 Tons) (3 phase) 2.3 6.0 0.30 72 90 - 575 518 632 17.9 91 17.9 91 2 1 3.40 13.0 _ - 0.57 60 70 (3 phase) 2.1 4.8 0.57 62 80 LEGEND 2. Unbalanced 3 -Phase Supply Voltage CSA - Canadian Standards Association Never operate a motor where a phase imbalance in supply voltage is greater FLA - Full Load Amps than 2 %. Use the following formula to determine the percent voltage imbalance. HACK - Heating, Air Conditioning and Refrigeration %Volta a Imbalance IFM - Indoor (Evaporator) Fan Motor Voltage - Locked Rotor Amps = 100 x max voltage deviation from average voltage. MCA - Minimum Circuit Amps average voltage MOCP - Maximum Overcurrent Protection NEC - National Electrical Code EXAMPLE: Supply voltage is 460 -3 -60. OFM - Outdoor (Condenser) Fan Motor RLA - Rated Load Amps A 8 C AB = 452 v UL - Underwriters' Laboratories BC = 464 v , *Used to determine minimum disconnect size per NEC. AC = 455 v 1 or HACR circuit breaker. 452 + 464 + 455 "The 579F240 and 300 high -heat units have 2 combustion -fan motors. Average Voltage = 3 MOTOR 1371 CI) 3 = 457 NOTE: The 575 -v 580D036 -150 units are CSA or UL, Canada only. Gm° t,sr€ . Determine maximum deviation from average voltage. 036 -150 Only 180 -300 Only 180 -300 Only (AB) 457 - 452 = 5 v (BC) 464 - 457 = 7 v (AC) 457 - 455 = 2 v Maximum deviation is 7 v. ® CO Determine percent voltage imbalance. .. C CO % Voltage Imbalance = 100 x - 7 457 036 -072 Only 090 -150 Only = 1.53% NOTES: This amount of phase imbalance is satisfactory as it is below the maximum al- l. In compliance with NEC requirements for multimotor and combination load towable 2 %. equipment (refer to NEC Articles 430 and 440), the overcurrent protective de- IMPORTANT: If the supply voltage phase imbalance is more than 2 %, contact vice for the unit shall be fuse or HACR breaker. Canadian units may be fuse or your local electric utility company immediately. circuit breaker. OPERATING SEQUENCE COOLING, UNITS WITHOUT ECONOMIZER - When thermostat Heating mode for at least 1 minute when W1 is energized. The calls for cooling, terminals G and Y1 are energized. The indoor induced -draft motor (IDM) is then energized and the burner ignition (evaporator) fan contactor (IFC) and compressor contactor no. 1 sequence begins. The indoor (evaporator) fan motor (IFM) is ener- (C1) are energized, and evaporator -fan motor, compressor no. 1 gized 45 seconds after a flame is ignited. On units equipped for two (580D036 -150 and 579F216 -300) or unloaded compressor stages of heat, when additional heat is needed, W2 is energized (579F180), and condenser fan(s) start. The condenser -fan motor(s) and the high -fire solenoid on the main gas valve (MGV) is ener- runs continuously while unit is cooling. For units with 2 stages of gized. When the thermostat is satisfied and W1 is deenergized, the cooling, if the thermostat calls for a second stage of cooling by en- IFM stops after a 45- second time -off delay. , ergizing Y2, compressor contactor no. 2 (C2) is energized and com- HEATING, UNITS WITHOUT ECONOMIZER (579F180 -300) pressor no. 2 starts (580D090 -150 and 579F216 -300) or compressor no. 1 runs fully loaded (579F180). NOTE: The 579F180 -300 units have 2 stages of heat. HEATING, UNITS WITHOUT ECONOMIZER (580D036 -150) - Set thermostat system switch at HEAT or AUTO. position and set When the thermostat calls for heating, terminal W1 is energized. M fan switch to AUTO. position for heating. order to prevent thermostat short- cycling, the unit is locked into the 56 OPERATING SEQUENCE (cont) When first -stage thermostat calls for heat, time -delay relay for After a 30- second delay, the IFM shuts off. If the thermostat evaporator fan begins timer sequence. Induced -draft relay closes, fan selector switch is in the ON position, the IFM will run and induced -draft motor starts. continuously. \ Pressure switch closes and pilot valve no. 1 opens, allowing gas to COOLING, UNITS WITH PARABLADE ECONOMIZER flow to the first stage pilot. Spark ignitor ignites pilot flame. Sensor (580D036 -060) — When the outdoor air is above the enthalpy con - detects flame and the main gas valve no. 1 opens. Gas flows to trol (EC) setting, and the room thermostat calls for cooling, and the main burners and first -stage burners ignite. Spark ignitor turns off. compressor contactor is energized to start the compressor and the When sequence is complete, time -delay relay closes and evapora- condenser -fan motor. The evaporator -fan motor is energized and tor fans start. the economizer damper moves to the minimum position. After the room thermostat is satisfied, the damper will spring return to the Second Stage — 579F180 -300 Low -Heat and 579F180 High- fully - closed position. Heat Units — With an additional heating call, the second stage When the outdoor air is below the (EC) setting and the thermostat thermostat closes. (The control relay closes during the first stage of calls for cooling, the economizer outdoor -air damper is opened pro - operation.) Pilot valve no. 2 opens, and the spark ignitor ignites pi portionally to maintain between 50 and 56 F at the mixed -air sensor. lot. The sensor detects a flame and energizes main gas valve coil If outdoor air alone cannot satisfy the cooling requirements, econo- no. 2, opening main gas valve no. 2. Gas flows to the main burners, mizer cooling is integrated with mechanical cooling. When the room and the second stage burners ignite. The spark ignitor turns off. thermostat is satisfied, the damper will spring return to the fully - When the second -stage thermostat is satisfied, the second -stage closed position. gas valve closes. COOLING, UNITS WITH PARABLADE ECONOMIZER When the first -stage thermostat is satisfied, the first -stage gas valve (580D072 -150) — When the outdoor air is above the enthalpy con - closes. The induced -draft motor turns off, the time relay opens, and trol (EC) setting, and the room thermostat calls for cooling, and the timer sequence begins. When the sequence is complete, the compressor contactor no. 1 is energized to start compressor no. 1 evaporator -fan motor turns off. and the condenser -fan motor. The evaporator -fan motor is ener- Second Stage — 579F240,300 High -Heat Units — With an addi- gized and the economizer damper moves to the minimum position. tional heating call, the second -stage thermostat closes. (The control Upon a further call for cooling, compressor contactor no. 2 is ener- relay closes during the first stage of operation.) The second -stage gized, starting compressor no. 2. After the room thermostat is sat - induced -draft relay closes, and the second -stage induced -draft mo- isfied, the damper will spring return to the fully - closed position. tor starts. When the outdoor -air temperature is below the EC setting and the The second -stage pressure switch closes and pilot valve no. 2 thermostat calls for cooling, the economizer outdoor -air damper is opens, allowing gas to flow to the second -stage pilot. Spark ignitor opened proportionally to maintain between 50 and 56 F at the ignites pilot flame. The sensor detects the flame, and main gas mixed -air sensor. If outdoor -air alone cannot satisfy the cooling re- valve no. 2 opens. Gas flows to main burners and second -stage quirements, economizer cooling is integrated with mechanical cool - burners ignite. Spark ignitor turns off. ing, and the second compressor is locked out. When the room When the second stage thermostat is satisfied, the second stage thermostat is satisfied, the damper will spring return to the fully - gas valve closes and the second -stage induced -draft motor turns closed position. off. COOLING, UNITS WITH ECONOMIZER (579F180 -300) — Upon a When the first stage thermostat is satisfied, the first stage gas valve call for cooling, when outdoor ambient is above the enthalpy control closes. The first -stage induced -draft motor turns off, the time relay setting, the economizer damper moves to VENT position. The com opens, and the timer sequence begins. When the sequence is com- pressor(s) and evaporator and condenser fans energize. plete, the evaporator -fan motor turns off. Upon a first call for cooling, when outdoor ambient is below the en- COOLING, UNITS WITH DURABLADE ECONOMIZER thalpy control setting, the evaporator fan starts and the economizer (580D036 -150) — When the outdoor -air temperature is above the is fully open. The compressor(s) remains off. OAT (outdoor -air thermostat) setting and the room thermostat calls Upon a second -stage call for cooling, compressor no. 1 is ener- for cooling, compressor contactor no. 1 is energized to start com- gized and mechanical cooling is integrated with economizer cool - pressor no. 1 and the outdoor (condenser) fan motor(s) (OFM). The ing. If the outdoor -air temperature drops below 50 F, a cooling indoor (evaporator) fan motor (IFM) is energized and the econo- lockout switch prevents the compressors from running. mizer damper moves to the minimum position. Upon a further call When supply -air temperature drops below a fixed set point, the for cooling, compressor contactor no. 2 will be energized, starting economizer damper modulates to maintain the temperature at the compressor no. 2 (090 -150). After the thermostat is satisfied, the fixed set point. < damper moves to the fully closed position when using an auto fan or A freeze protection thermostat (FPT) is located on the evaporator to the minimum position when using a continuous fan. coil. It detects frost build -up and turns off the compressors, allowing When the outdoor -air temperature is below the OAT setting and the the coil to clear. Once frost has melted, the compressors can be re- thermostat calls for cooling, the economizer dampers move to the energized. minimum position. If the supply -air temperature is above 57 F, the HEATING, UNITS WITH ECONOMIZER (580D036 -150) — When damper continues to open until it reaches the fully open position or the thermostat calls for heating, terminal W1 is energized. In order until the supply -air temperature drops below 52 F. to prevent thermostat short- cycling, the unit is locked into the Heat - When the supply -air temperature falls to between 57 F and 52 F, ing mode for at least 1 minute when W1 is energized. The induced - the damper will remain at an intermediate open position. If the draft motor is then energized and the burner ignition sequence supply -air temperature falls below 52 F, the damper will modulate begins. The indoor (evaporator) fan motor (IFM) is energized closed until it reaches the minimum position or until the supply -air 45 seconds after a flame is ignited and the damper moves to the temperature is above 52 F. When the thermostat is satisfied, the minimum position. On units equipped for two stages of heat, when damper will move to the fully closed position when using an auto fan additional heat is needed, W2 is energized and the high -fire sole - or to the minimum position when using a continuous fan. noid on the main gas valve (MGV) is energized. When the thermo- If the outdoor air alone cannot satisfy the cooling requirements of stat is satisfied and W1 is deenergized, the IFM stops after a the conditioned space, economizer cooling is integrated with me- 45 second time -off delay. The economizer damper then moves to chanical cooling, providing second -stage cooling. Compressor the fully closed position. When using continuous fan, the damper no. 1 and the condenser fan(s) will be energized and the position of will remain in the minimum position. the economizer damper will be determined by the supply -air tem- HEATING, UNITS WITH ECONOMIZER (579F180 -300) — perature. Compressor no. 2 is locked out. Outdoor -air damper stays at VENT position while evaporator fan is When the second stage of cooling is satisfied, the compressor and operating. Refer to Heating, Units Without Economizer (579F180- OFM will be deenergized. The damper position will be determined 300) section on page 56 for remainder of operating sequence. by the supply -air temperature. 57 TYPICAL WIRING SCHEMATIC — 580D036 -150 PL5-R fat TYO POSITION DAIOEO ASr T TftlT IPM 1110111 aK --I I K URN aK -+ -ac $IQ VOL 1...4 ac Sh .(4 aEO aC —(-{ FLU R1 "3.-- TI( IV POSITION OAEN A50 aV --i. (C-• 3 7 — — — — — — — — — — REDS . 1 MN_ aa-- 5 0E0 . ECOMONILEO Ec_,j ar I csl°�cu ROOFED PITH EC ■■ EON AST FOR srl �" -- PIE � 11 �TEL il�T I 10, 1 11 "' ` . sQ w l0 910 . I x , ORII aU s -��_ r , , 3, I Or I BAN 0.1.011 ' I 7 .1 ms z aU 7T 1, - oDN 1 t 10 WT INIT 019 E , ° E _ - - CL4ONIxm AR' - - - - - - - 12 CONNECTION -D JUICER - N RED Ca C14 OM 1 4 040 . a fAM a•s r„ 10 _ - 5, AUTO I ° T °�Qr ( � 1 ° - W KU— M to 0 1 - �- v� TEL- m Al I 0 ---a,. s wtaa —aa c 1 aFF i - r. T.� a� RED r • COL ' 1 1 4 T . I ANA —MK ,I3, n7 a AlITO • L + � I --CI>D — - 1 '� .- 509 au "Ea' •• , °� - — M PIN ay o OFF � I RED cN nm� c�► - - J ® � ^ I 1 uy = ao u�' Str 1 ZJ �N ulre \ aK 1 I 1 r0 ..._0. 1 1 PLS-R sAr EO ON Oar ELK I • L F UII STD PL6 Nil • _ 1 _ll__� I f /s:1 010 o • • • 00 BPM N i ° , , 1u L 0vR LS CA• uai I - 910 1 . 1I I�I _ Ewe' -- ' _ 1' I � ® �, Cli = Tx N1 a EAr p NA r T��TT L2> 11 1 I I - n:r T EL — � ' O G I D VAT I - - 1 I- - -• 1 • I o-aNWrELb L - - - _ J li IAN1 9N C ° I TEL 1 MI. ♦ . MX i1 ci _0. 2, I I ■ -11(4 STANDOFF PIE Ax l ■© 1 U , 14 1"a anN C TEL ' I RED 1 COIN 5, I NDA '� ., - - WA .O. BAN TRAY 1 OPTIONAL 1 (44 IOC NIS 12 1- - .01A- - I ^ COXo-aoiaC - p 0.KfaU Qj-- KU f ix L o See Legend on page 61. 58 TYPICAL WIRING SCHEMATIC — 579F180 -300 L2 - Q] TRANI • T92 3.2 AMPS / BIN 0 IFR I D e- ..... MN Ti TB2 I _ roR I o D RED -- 9x a)® }� BIN b' C2 1 RED IF BLK BIN ;i OFC 1 RED MI —RED RED 0 BiN *1 M1 I L51 i RED ELK RED BIN © TOR N F- (Lr10;--(TyP,4(aivw w •"• BLu O3.l BRN 0 11112 - �— � IWN �t OFC .1 © LS2 i) flu — D OWI O tt B01 H.. C2 OR ,OA r .__ - -- ® ORN 9RN it IFR 141 em 4) rat I • • 0 1 RI -T .�, I • ON 1 8LK 3>•- BK SN A RO o (C o rAN - � - - - -� 000. 91 ' Wr0 1 I 3' VIO t) 0 MN 14 182 1.1 a0 A1w 1 iC BLU Oi) ERN O RGV2 B.o �� I - ��77711111 1 I I C 1 CO m —I R' GRN -VEL 91 t 2 NM - 1 L.. (42 T • 1 o_ SN I C. p I —T - - - � VI0 Ono ON 11:. 0 7. • 0 _ 1 v1o� FACTORY o<r 0 - - �, 0.1 -11 0 YIO i) BIN ORGYI MI ps I .c or Orli) • O AT Q I 1 ` . ow r AUrO I 1 O I R11 -1 GRN C CD rcl 11 I I I I ea <E ERN 1LAI DM L - -� (a TRANI I 1 CC 1 ; ) eta 817 0 (001 I L -I• - - -- 9{�f -9.0 -< mt. )-BL (NOT USED) aM i) ., I pit RI-B V 0 BM * IFC FPI 1 1 1 ELU SA 3 rVIO --- -O MS L151 F'O -rVI0 .0 r •.- VIO 4)0 ERN a'• C2 • 0 BLU ° a Ka ono I _ FIELD THERMOSTAT 1 1 1 1 J a C a � 1 I 1 BRN J BIN 4) IOR IFc BM NOS2 1852 1 ` L [�— v1o�- D•{o- �O� -p-. 0 o a) ®9'. a' 1 1 ttoz A 0.I -6 BIN '1" C1 91 1 .14- _ - _ _ FB(� VEL >-M( R 1 0. 1 -9 I (91 1 orK I ELK Oeil BRN (4 TRAN I 901 0 TOR I" BIN RLI -1 ECONOMIZER OPTION /ACCESSORY I 1 �. « O 2A VAC TRI BLK "U 'R1i (< - 0 1 " � 1 0.K I RESISTOR SNti I • I RE51510R g BLU S I I I ' I K I I I VELA 2I I if ' II IS 1 I 0.0 LLLLLIIIII C I NNr a —NN* 3 A Z ' I-- I r I I RII( ISI « li MIXED AIR II SENSOR GRA_— {j Tin 1 o o 1 RI 1 I F Q F1 F1 T �NMI F051il ON «� MINIMUM I ROSITICM « O I I TDR SEQUENCE CHART I I 0 , 2 MIN I RIK 1 301C 1.11-90 -150 SEC ON 1 0-90 -I50 SEC - OH I OFF — - - - - -_ _ �_ -- _ - -_ _ -- - — _ J (BLACK DENOTES CLOSED CONTACTS) I I See Legend on page 61. 59 TYPICAL INSTALLATION — 580D090 -150 11 CONDENSER -FAN DISCHARGE AIR 1 1 1 1 1 1 1 , 1 - -�� am Em 1 1 ____� 1 p ° ° � —.l i ME — 1 — -13 ° �:,� 1.7'.'. ' ' "all 1.1 �� ! CONDENSER inw CONDENSATE �` \ COIL AIR INLET DRAIN rI� - (FIELD- ,� S., SUPPLIED) -p Ill `� ••• �� OUTDOOR - . • r ° °� NLETH AIR S. AIR HOOD p j ►\� %, LEGEND � � '.. ROOF CURB OUTDOOR AIRFLOW NA - gir 4 INDOOR AIRFLOW SUPPLY AIR RETURN AIR Vertical Discharge Ducting 1 1 1 1 1 1 1 1 1 1 I CONTROL WIRING CONDENSER -FAN BELT -DRIVE TERMINAL BOARD III1II1I1' DISCHARGE AIR MOTOR --� FIELD - SUPPLIED I - l r DISCONNECT ° PER NEC RETURN RETURN -° l 1 11 �"� _ `, ipx .\ AIR II il l W — _ 4 ... a X10 UM CONDENSER -COIL \ 1 �Ir� �� AIR INLET �` 11 J4 -4, I • . SUPPLY f _ ° I J I�' r _ J AIR ' POWER WIRIN \ ■ , " (_ i. ..1 �� , `�- '`� HEAT EXCHANGER ��° . TUBES I DIMPLED SLAB MOUNT �0 FROM MAIN NEC — Natiojal- Etectncal Code I m GAS SUPPLY CONTROL WIRING MANUAL GAS VALVE COMPRESSOR Horizontal Discharge Ducting 60 TYPICAL INSTALLATION — 579F180 -300 -jos_ iZ__ ..u_ 25 % AIR OR M-- °-••■•••—MINIMM —• ECONOMIZER HOOD -- - - - - - - --� -- Eminumimaimmummime -- -- --- --- —� _ — _ 1 �illll , . _- - _- --_-_-__Y - --__. _____I . - .-- ..-- - ---• Nrimmialei DISCONNECT PER NEC � � _ I � way fliik `. 1 �� HEAT EXCHANGER 11i \\ J�� ROOF CURB . • • . r----IF- ummw • ' • . 1 � \ /._ • j � ��Aif . in mimmo...6 � FROM MAIN , GAS SUPPLYa_�iiwwi jp CONTROL `' WIRING POWER WIRING 1 CONDENSATE DRAIN 1. SUPPLY AIR R ETURN AIR OUTDOOR AIRFLOW NEC — National Electrical Code n> INDOOR AIRFLOW NOTES: 1. Illustration shown is a general guide only and is not intended to include all details for any specific installation. 2. Installation must comply with all applicable codes. LEGEND FOR TYPICAL WIRING SCHEMATICS AHA — Adjustable Heat Anticipator IFM — Indoor Evaporator F an Mo tor SW4 — Switch Maximum Vent Position BKR W /AT — Breaks with Amp Turns IFR — Indoor TB F Relay TB — Terminal Block C — Contactor, Compressor IGC — Integ rated Gas Unit Controller TC — Thermostat Cooling CB — Circuit Breaker IP — Internal Protector TDR — Time -Delay Relay CC — Cooling Compensator L — Light TH — Thermostat Heating CH — Crankcase Heater LOR — Lockout Relay TRAN — Transformer CLO — Compressor Lockout LPS — Loss -of- Charge/ Low - Pressure CLS — Compressor Lockout Switch Switch Q Terminal (Marked) COMP — Compressor Motor LS — Limit Switch CR — Control Relay MAT — Mixed -Air Thermostat 0 Terminal (Unmarked) CT — Current Transformer MGV — Main Gas Valve DM — Damper Motor NC — Normally Closed Terminal Block DU — Dummy Terminal NO — Normally Open EC — Enthalpy Control OAT — Outdoor -Air Thermostat EQUIP — Equipment OFC — Outdoor (Condenser) Fan Contactor • Splice FPT — Freeze Protection Thermostat OFM — Outdoor (Condenser) Fan Motor FU — Fuse PGV — Pilot Gas Valve GND — Ground PL — Plug •<>• Splice (Marked) HPS — High - Pressure Switch PRI — Primary Factory Wiring — Heat Relay PS — Pressure Switch ry g HV — High Voltage QT — Quadruple Terminal - - - - Field Control Wiring I — gnitor R — Relay ICP — gnitor Control Pack RS — Rollout Switch - - -- Field Power Wiring IDM — nduced -Draft Motor SN — Sensor IDR — nduced -Draft Rela SW — Switch - -- Accessory or Optional Wiring IFC — ndoor (Evaporator Fan Contactor SW1 — Switch, Fully Open IFCB — ndoor ((Evaporator Fan Circuit SW2 — Switch, Fully Closed To Indicate Common Potential Breaker SW3 — Switch, Minimum Vent Position Only, Not To Represent Wiring 61 APPLICATION DATA 1. Ductwork (580D036 -150) — Secure vertical discharge 14. High Altitude — A change to the gas orifice may be required ductwork to roof curb. For horizontal discharge applica- at high altitudes. Refer to Altitude Compensation charts on tions, attach ductwork to unit, or field - supplied flanges can page 65. be attached to horizontal discharge openings and all duct- 15. Minimum Temperature — Air entering the heat exchanger work attached to flanges. in heating is 50 F continuous and 45 F intermittent. 2. Ductwork (579F180 -300) — Ductwork should be attached 16. Internal Unit Design — Due to the internal design (draw - to the curb on all units. Interior installation may proceed be- thru over the motor), air path, and specially designed mo- fore unit is set in place on roof. If ductwork will be attached tors, the full horsepower (maximum continuous bhp) listed to the unit, do not drill in condensate drain pan area — in the Specifications table and the notes following each Air leaks may result. See figures on page 63 for information on Delivery table can be utilized with extreme confidence. field - installed concentric ductwork when applicable. Using the motors with the values listed in the Specifications 3. To Convert from Vertical Discharge to Horizontal Discharge table will not result in nuisance tripping or premature motor (580D036 -150): failure. The unit warranty will not be affected. A. Remove Durablade economizer to gain access to return duct opening. OPTION AND ACCESSORY LIST B. Move the horizontal discharge duct opening covers to the vertical discharge openings. FACTORY FIELD - degrees (until the ITEM INSTALLED I C. Rotate Durablade economizer 90 de 9 ( OPTION ACCESSORY economizer motor faces the condenser section). Durablade and Standard D. Rotate the barometric relief damper 90 degrees (econo- Integrated Economizer X X mizer only). Parablade Economizer (036 - 150) X E. Install block - off plate over the opening on the access Manual Outdoor - Air Dampers X X' panel. Controls Upgrade Kit (036 - 150)t X X NOTE: Parablade economizer is for vertical discharge only. Alternate Drive (090) X Alternate Motor and Drive X 4. Thru- The -Curb Service Connections (180 -300 units) — (036 - 060, 120, 150) Roof curb connections allow field power wires, control Condenser Coil Grille (036 - 150) X wires, and gas supply to enter through the roof curb Two - Position Dampers X opening. Barometric Relief Damper (180 - 300) X 5. Thru- The -Bottom Electric Service Connections (036 -150 Roof Curbs (Vertical and Horizontal) X units) — The accessory connection kit must be used to al- Horizontal Adapter (180 - 300) X low field power and control wires to enter from the bottom of Thermostats and Subbases X the unit to ensure a watertight seal. Power Exhaust (180 - 300) X 6. Thermostat — Use of 2 -stage cooling thermostat is recom- Head Pressure Control Device X mended for all units. A 2 -stage cooling thermostat is re- Low Ambient Kits X quired on units with accessory economizer to provide lime Guard® 11 Control Circuit X integrated cooling. Thru- the - Bottom Power a 036 -150 X C onnection Package Heating -to- Cooling Changeover — All units are automatic 9 ( ) changeover from heating to cooling when automatic Enthalpy Control (036 - 150) X changeover thermostat and subbase are used. Enthalpy Control Sensor X 8. Airflow — Units are draw -thru on cooling and blow -thru on Condenser Coil Hail Guard X heating. Assembly (036 -150) LP (Liquid Propane) Conversion X 9. Maximum Airflow — To minimize the possibility of conden- Kits sate blow -off from evaporator, airflow through units should Flue Hood Protector (036 - 150) X not exceed 500 cfm /ton on size 036 -240 units, and 11,250 NO„ Reduction Kit (036 - 150) X cfm on size 300 units. Winter Start Time - Delay 10. Minimum Airflow — The minimum airflow for cooling is Relay (180 - 300) X 300 cfm /ton for 036 -240 units and 280 cfm /ton on 300 units. Fan/Filter Status Switch X 11. Minimum Ambient Cooling Operation Temperature Condenser Coil Salt X g p p Spray Protector (090 -150) (580D036 -150) — The cooling temperature for size 036- Hail Guard (036 - 150) X 150 standard units is 25 F. With accessory low- ambient kit, Flue Discharge units can operate at outdoor temperatures down to –20 F. Deflector (036 - 150) X 12. Minimum Ambient Cooling Operation Temperature *Available as an accessory on 580D036 -150 only. Factory- installed on (579F180 - 300) — Units are designed to operate at outdoor 180 -300 units whenever factory- installed economizer is not selected. temperatures down to 40 F for 579F180, 35 F for 579F216, tKit includes high - pressure, low- pressure /loss -of- charge, and freeze 25 F for 579F240, and 48 F for 579F300. To operate at protection switches. lower outdoor -air temperatures, see Trade Prices or con- tact your local representative for appropriate accessories. 13. Maximum Operating Outdoor -Air Temperature — For cool- ing, this temperature is 115 F on size 036 -150 units, 125 F on size 180, 240, 300 units, and 120 F on 216 units. 62 APPLICATION DATA (cont) s' -2 f°MAx. 579F216 -300 1 5 AMAX.------- 0 O M 1 oof r �' o Q 4' -6 / __ - - a _________H- 7 i " Allall _\ _ _ _ I i %Q, V 000000 - EXC HANGER I -\ � / Y SEE ' \ / SEE NOTE 2 4"MIN. / NOTE ' \ \ / / A 1 / / / \ / • \ / / / \ / - / • \ 1 / �_ i LO 1 0' ' -------------7-----./ --1 BAFFLE AIR OUT AIR IN AIR OUT NOTE: Dimensions A, A' and B, B' are obtained from field - supplied ceiling diffuser. NOTE: Do not drill in this area; damage to basepan may result in water leak. I I Shaded area indicates block -off panels. Concentric Duct Air Distribution Concentric Duct Details (579F180 -300 Only) (579F180 -300 Only) 0.3 Cr) 3 0.2- w CC co co w w ix a 0 0.1- H H co 0 3500 4000 4500 5000 CFM Fan Performance Using Accessory Power Exhaust (579F180 -300) 63 APPLICATION DATA (cont) EVAPORATOR -FAN MOTOR PERFORMANCE MAXIMUM MAXIMUM UNIT EVAPORATOR -FAN UNIT ACCEPTABLE ACCEPTABLE MAXIMUM MOTOR VOLTAGE CONTINUOUS OPERATING AMP DRAW BHP* WATTS 208/230 2.9 Standard 460 0.34 440 1.4 580D036 575 1.4 208/230 5.1 Alternate - 460 1.00 1000 2.3 575 2.3 208/230 3.7 Standard 460 0.75 850 1.9 _ 580D048 575 1.9 208/230 _ 5.1 Alternate 460 1.00 1000 2.3 575 2.3 208/230 6.2 Standard _ 460 1.20 1340 3.4 580D060 575 3.4 208/230 _ 6.1/9.2t Alternate _ 460 1.80 1921 2.7 _ 575 2.7 208/230 6.1 580D072 Standard _ 460 2.40 2120 2.7 _ 575 2.7 208/230 6.1 580D090 Standard 460 2.40 2120 2.7 _ 575 2.7 208/230 6.1 580D102 Standard 460 2.40 2120 2.7 575 2.7 208/230 6.1 Standard 460 2.40 2120 2.7 580D120 575 2.7 _ 208/230 7.9 Alternate 460 2.90 2615 3.6 575 3.6 208/230 12.6 Standard 460 4.20 3775 5.7 580D150 575 5.7 208/230 15.0 Alternate 460 5.25 4400 7.4 _ 575 7.4 208/230 10.5 4.25 3775 579F180 Standard 460 4.8 575 3.45 3065 3.9 208/230 15.8 579F216 Standard 460 5.90 5180 7.9 575 6.0 208/230 8.70 7915 22.0 579F240 Standard 460 9.50 8640 13.0 575 8.70 7915 10.0 208/230 10.26 9510 28.0 579F300 Standard 460 11.80 11,000 14.6 575 10.26 9510 13.0 LEGEND BHP - Brake Horsepower 'Extensive motor and electrical testing on these units ensures that the full horsepower range of the motors can be utilized with confidence. Using your fan motors up to the horsepower ratings shown in this table will not result in nuisance tripping or premature motor failure. Unit warranty will not be affected. tSingle phase /three phase. 64 APPLICATION DATA (cont) 0.30- - 0.80 - - - 0.25 0.70 0.60 07 1 r. 0.20' ch 3 of c 3 c 0.50 • a 0.I5 - - a0 o ¢ w 0 0.40 cc w w 0.10 � a a 0.30 0.05 0.20 0.00. 0.10 0 50 100 150 200 250 300 350 400 450 500 550 CFM Durablade Economizer Barometric Relief Damper Characteristics — 000 200 400 600 800 1000 1200 580D036 -150 CFM Parablade Economizer Barometric Relief Damper Characteristics — 580D090-150 0.90 - ALTITUDE COMPENSATION* — 036 -072 UNITS - 72,000 AND 115,000 150,000 BTUH 0.80 BTUH NOMINAL NOMINAL INPUT ELEVATION Natural Li uid Natural Liquid 0.70 (Ft) Gas Propane Gas Propane Orifice Orifice Orifice Orifice Bizet Bizet Bizet Bizet 3 0 0 -2,000 33 43 30 38 c 2,000 34 43 30 39 o 0 3,000 35 44 31 40 ¢ 050 4,000 36 44 32 41 w 5,000 36 44 33 42 cc 0.40 6,000 37 45 34 43 co w 7,000 37 45 35 43 a 0.30 8,000 38 46 36 44 9,000 39 47 37 44 020 10,000 41 48 38 45 11,000 43 48 39 45 0.10 12,000 44 49 40 46 13,000 44 49 41 47 14,000 45 50 42 47 0 100 200 300 400 500 600 700 800 *A the height above sea level increases, there is less oxygen per cubic foot of air. Therefore, heat input rate should be reduced at higher altitudes. CFM tOrifices available through your local distributor. Parablade Economizer Barometric Relief Damper Characteristics — 580D036 -072 65 APPLICATION DATA (cont) ALTITUDE COMPENSATION* - 090 -150 UNITS ALTITUDE COMPENSATION* - 180 -300 UNITS 125,000, 180,000, 250,000 BTUH ELEVATION NATURAL GAS AND 224,000 BTUH NOMINAL INPUT (Ft) Orifice Sizet ELEVATION NOMINAL INPUT 0 -2,000 33 (Ft) Natural Liquid Natural Liquid Gas Propane Gas Propane 2,000 35 Orifice Orifice Orifice Orifice 3,000 35 Sizet Sizet Sizet Sizet 4,000 36 0 -2,000 31 41 30 38 5,000 36 2,000 32 42 30 39 6,000 37 3,000 32 42 31 40 7,000 38 4,000 32 42 32 41 8,000 38 5,000 33 43 33 42 9,000 40 6,000 34 43 34 43 10,000 41 7,000 35 44 35 43 11,000 43 8,000 36 44 36 44 12,000 44 9,000 37 45 37 44 13,000 44 10,000 38 46 38 45 14,000 45 11,000 39 47 39 45 - 12,000 40 47 40 46 *As the height above sea level increases, there is less oxygen per cubic foot of air. Therefore, heat input rate should be reduced at higher 13,000 41 48 41 47 altitudes. 14,000 42 48 42 47 tOrifices available through your local distributor. *As the height above sea level increases, there is less oxygen per cubic foot of air. Therefore, heat input rate should be reduced at higher altitudes. tOrifices available through your local distributor. ALTITUDE DERATING FACTOR* - ALL UNITS ELEVATION MAXIMUM HEATING VALUE (Ft) (Btu/ft 0 -2,000 1,100 2,001 -3,000 1,050 3,001 -4,000 1,000 4,001 -5,000 950 5,001 -6,000 900 *Derating of the unit is not required unless the heating value of the gas exceeds the values listed in the table above, or if the elevation exceeds 6000 ft. Derating conditions must be 4% per thousand ft above sea level. For example, at 4000 ft, if the heating value of the gas exceeds 1000 Btu /ft the unit will require a 16% derating. For elevations above 6000 ft, the same formula applies. For example, at 7000 ft, the unit will require a 28% derating of the maximum heating value per the National Fuel Gas Code. 66 ENGINEERS' SPECIFICATION GUIDE — MODELS 580D036 -150 (3 TO 12 TONS) G ENERAL: Furnish and install single - package, outdoor rooftop- FILTER SECTION: Filter section shall consist of factory- mounted, electrically controlled, heating and cooling unit utiliz- installed low velocity, 2 -in. thick fiberglass throwaway filters of ing a reciprocating compressor(s) for cooling and gas commercially available sizes. Filter access panel shall be easy, combustion for heating duty. Unit shall discharge supply air ver- tool -less access. tically or horizontally as shown on the contract drawings. CONTROLS: Unit shall be complete with self- contained low - Nominal unit electrical characteristics shall be v, voltage control circuit. Safeties shall include compressor over ph, 60 Hz. The unit shall be capable of satisfactory op- temperature and overcurrent. eration within voltage limits of v to v. Heating section shall be provided with the following minimum COOLING CAPACITY: Total cooling capacity of the unit shall be protection: High temperature limit switch, induced -draft motor Btuh or greater, and sensible capacity shall be Btuh or speed sensor, flame rollout switch, and flame proving controls. greater at conditions of cfm evaporator air entering at OPTIONS: Factory- installed integrated economizer shall in- unit at F dry bulb, F wet bulb and condenser clude all hardware and controls to provide cooling using outdoor entering air of F dry bulb. Total design conditions shall air alone or in conjunction with mechanical cooling. Variable be a minimum of Btuh/Watt. The unit shall be capable sliding plate type economizer dampers shall be low leakage of cooling operation down to 25 F. type, not to exceed 3% leakage at 1.0 in. wg pressure differen- HEATING CAPACITY: Total heating capacity of the unit shall be tial. Economizer shall be capable of introducing up to 100% out - Btuh or greater with a gas input of Btuh. door air and shall be equipped with a barometric relief damper. CABINET: The cabinet shall be constructed of galvanized steel, Economizer controls shall be dry-bulb (variable sliding plate bonderized and coated with a prepainted, baked enamel finish. type economizer) or enthalpy (parallel- opposed blade type COMPRESSOR: Compressor shall be fully- hermetic type with economizer) type. Damper shall close on power loss. suitable vibration isolators. Other factory- installed options shall include: 50% manual CONDENSER SECTION: The condenser coils shall have alu outdoor -air damper, controls upgrade kit, and alternate high - minum plate fins mechanically bonded to seamless copper 036 0 motors (036-060, 120, 150) and /or drives ( tubes with all joints brazed. Condenser fan shall be direct - driven (036 06600, , 090, 0990, , 120, 12 , 150). propeller type and shall discharge air vertically. Fan shall have APPROVALS: The unit shall be CSA (036 -072) or UL, Canada permanently lubricated bearings. (090 -150) design certified and UL tested and certified. All wiring EVAPORATOR SECTION: Evaporator coils shall have alumi shall be in accordance with NEC and units shall meet ASHRAE Standard 62. The unit num plate fins mechanically bonded to seamless copper tubes 60 and 270. all be rated it accordance with shall be designed d to with all joints brazed. Evaporator fan shall be direct drive with 2 Standards 210/240 or or 3 speeds, or belt drive as shown on the equipment drawings. conform to NRCA standards. Innss ulaattioion n and adhesive shall to Belt drive shall include an adjustable -pitch motor pulley. Motor meet NFPA 90A requirements for flame spread and smoke generation. bearings shall be sealed, permanently lubricated, ball- bearing type. ACCESSORIES: Field- installed accessories shall include: Roof curb (14 in. or 24 in.), variable sliding plate type economizer, HEATING SECTION: The unit shall be equipped with an 50% manual damper, 25% and 100% two- position outdoor -air induced -draft combustion system with energy saving direct dampers, low ambient kit, short-cycle circuit protection, LP (liq- spark ignition and redundant main gas valve. The heat ex- uid propane) conversion kit, thermostats and subbases, flue changer shall be of the tubular section type constructed of a hood protector, condenser coil hail guard, NO reduction kit, minimum of 20 -gage steel coated with a nominal 1.2 mil controls upgrade kit, condenser coil grille, head pressure con - aluminum- silicone alloy for corrosion resistance. Burners shall trol, thru- the -bottom power connectors, condenser coil salt be of the in -shot type constructed of aluminum coated steel. spray protector, hail guard, fan /filter status switch, flue dis- REFRIGERANT SYSTEM: Refrigerant system shall include charge deflector, enthalpy control sensor, and enthalpy strainer assembly, fixed orifice feed system, and service gage control. connections on suction line, liquid line, and compressor dis- charge line, as well as internal high - pressure relief. 67 ENGINEERS' SPECIFICATION GUIDE — MODELS 579F180 -300 (15 TO 25 TONS) GENERAL: Furnish and install single - package, outdoor rooftop- REFRIGERANT SYSTEM: Refrigerant system shall include f il- mounted, electrically controlled, heating and cooling unit utiliz- ter drier, fixed orifice feed system, and service gage connec- ing reciprocating compressor(s) for cooling and gas combustion tions on suction line, liquid line, and compressor discharge line, for heating duty. Unit shall discharge supply air vertically or hori- as well as low- pressure and high - pressure protection. zontally as shown on the contract drawings. FILTER SECTION: Filter section shall consist of factory- Nominal unit electrical characteristics shall be v, installed low velocity, 2 -in. thick fiberglass throwaway filters of i 3 ph, 60 Hz. The unit shall be capable of satisfactory operation commercially available sizes. Filter access panel shall be easy within voltage limits of v to v. access. COOLING CAPACITY: Total cooling capacity of the unit shall be CONTROLS: Unit shall be complete with self- contained low- , Btuh or greater, and sensible capacity shall be Btuh or voltage control circuit. Safeties shall include compressor over - greater at conditions of cfm evaporator air entering at temperature and overcurrent. unit at F dry bulb, F wet bulb and condenser Heating section shall be provided with the following minimum entering air of F dry bulb. Total design conditions shall protection: High temperature limit switch, induced -draft pres- be a minimum of Btuh/Watt. sure switch, manual reset flame rollout switch and flame proving HEATING CAPACITY: Total heating capacity of the unit shall be controls. Btuh or greater with a gas input of Btuh. OPTIONS: Factory- installed integrated economizer shall in- CABINET: The cabinet shall be constructed of galvanized steel, clude all hardware and controls to provide cooling using outdoor bonderized and coated with a prepainted, baked enamel finish. air alone or in conjunction with mechanical cooling. Dampers shall be low leakage type, not to exceed 2% leakage at COMPRESSOR: Compressor(s) shall be of the semi - hermetic 1.0 in. wg pressure differential. Economizer shall be capable of type with crankcase heaters, suitable vibration isolators, and introducing up to 100% outdoor air and shall be equipped with a dual independent refrigeration circuits (216 -300) shall be gravity relief damper. Economizer controls shall be dry-bulb supplied. type. CONDENSER SECTION: The condenser coils shall have alu- On all units where the factory- installed economizer is not cho- minum plate fins mechanically bonded to seamless copper sen, the factory- installed manual outdoor -air damper shall be tubes with all joints brazed. Condenser fan shall be of the direct- included. driven propeller type and shall discharge air vertically. Fan shall APPROVALS: The unit shall be ETL and ETL, Canada tested have permanently lubricated bearings. and certified. All wiring shall be in accordance with NEC and EVAPORATOR SECTION: Evaporator coils shall have alumi- units shall meet ASHRAE Standard 62. The unit shall be rated in num plate fins mechanically bonded to seamless copper tubes accordance with ARI Standards 360 and 270. Units shall be de- with all joints brazed. Evaporator fan shall be belt driven as signed to conform to NRCA standards. Insulation and adhesive shown on the equipment drawings. Bearings shall be sealed, shall meet NFPA 90A requirements for flame spread and smoke permanently lubricated, bill- bearing type. generation. HEATING SECTION: The; unit shall be equipped with an ACCESSORIES: Field- installed accessories shall include: Roof induced -draft combustion_ sytem with energy saving intermit- curb (14 in. or 24 in.), horizontal adapter, economizer, two - tent spark ignition and redun ant main gas valve. The heat ex- position damper, low- ambient kit, short-cycle circuit protection, changer shall be of the tubular section type constructed of a thermostat and subbase, barometric relief damper, power ex- minimum of 20 -gage steel coated with a nominal 1.2 mil haust, head pressure control device, winter start time -delay re- aluminum- silicone alloy for corrosion resistance. Burners shall lay, fan /filter status switch, LP kit, and enthalpy control sensor. be of the in -shot type constructed of aluminum coated steel. B ryant SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE UNIT MUST BE INSTALLED IN ACCORDANCE Air Conditioning WITH INSTALLATION INSTRUCTIONS Bryant 1 Copyright 1996 Carrier Corporation Printed in U.S.A. 5/96 CATALOG NO. BY- 3258 -017