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Specifications I Project �. F „- _.<, a c D o a l d� i l l e Job# Date ` •.:.'. , -,,• s FACILITY SOLUTIONS By . ' Page Of AUG 2 1 2012 C'P( 1 i9 1 7 r I r I s i , , ? D. F N J-r o h - 1 I, AJ ;^ NJ a R. � l c w, A- 11111 I � ;Hill f I ! I i I i I 1 1 I i I 1 I ff r I 1 I 6 3 1 ; _ I� I 1 1 I � { 1 1 i i ( 1 __I-----177 __ 1 } I 1 I 1 i 1 1 I{ # 1 1 I i 11 F I 1 ' � i 1 , _ 1 I i 3 / ! 6 X p, , i , I f i-s I I 1 , � 1 ' ' I } • i - ' I i 1' i 1 _f�kr 1 1 1 1 i i I i 1 Hi 1= i I _�f_. ° I 1 i ; -+ - I - __`I l I I j �___I I I 1, � I I I 1, ) t 1 1 1 1 1 , I 1 1 , t 7 ; 3 ` H { I uf - � , I F j E I ! y f i ii l; L! 1 3 i I { 1 I ; 1 ( I j ; 1 1 S i - 1 i �d�. �vi i k I 1 i . _ _ _-�_., 1 ., _ ! _......1........_+_ I I 1 i 1 e._ _ .fjRi1s �1 _.- .____/�"iO _�.1 �,x / `1�X_....a3_�• : _ I t 9 d I i 1 11 `j LEh9j ;-_— I f 1 I , ( ;_.�.. I i 1 ' tf i j i 1 I 1 j I t = I 1 I 0 1 ' I I I 1 1 1 i 1 1 1 ( 1 l i`° 111 I 1 ; –&—H—i,---4 '• 1 1 s 1 1 1 i 1 3 1 �'� ; 1 I 1 1 1 1 I (' O' . 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X £.. `Com & Pac° I ComPac® II l g 2 $ 4 iin _. .0--.. m C� rva r lie cal VV all Mount Air r"�' rs p - A IR%CEL` Inc - � NLD IN G H ! a 15090012 REGISTERED t _ .. ,.... ,..f.,031,4: ;, i ; • iiie IS FW 4 1o'1 !i4f . • Models AVPA24- 30- 36- 42- 48 -60 -72 (Single Stage Compressor) ` e f geran ; gar Models AVPSA36- 42 -48 -60 (2 -Stage Compressor) _ ;, , Models HVEA24- 30- 36- 42 -49 -60 (Single Stage Compressor) N, Models HVESA36- 42 -49 -60 (2 -Stage Compressor) General Description _- � -:l: .;,- ■ The Marvair® ComPac® I and ComPac® II air ' =_ -.` X40 ' - < t conditioners are used primarily to cool electronic and 4, ' -, ` =, communication equipment shelters. Due to the high -- internal heat load, these shelters require cooling even 'j w; ,,,,; , ' , . , yY. a "' , when outside temperatures drop below 60 °F (15°C) -' `. ° ' f The ComPac I and ComPac II air conditioners have the r ' -, . necessary controls and components for operation during y y x ,'_ W. . , , ' " -' , ,, - er P`s , ;.'•= - t p these (less than 60 °F [15 °C]) temperatures. All models b r;: use the non -ozone depleting R -41OA refrigerant. ::: The primary difference between the ComPac I and the [,,,i,.". . "� �- -t' '_ Y' P r Y 1 ComPac II units is that the ComPac° II air conditioner ' r. ' r has a factory installed economizer. When coo and dry, °"4 ji the economizer uses outside air to cool the shelter. The k- i economizer provides temperature control, energy cost _•, savings, and increased reliability by decreasing the "-4' operating hours of the compressor and the condenser fan. ;. The ComPac I and ComPac II air conditioners are problem •' ;, Fo_` , solvers for a wide range of conditions and applications. - _.. -- ,, To insure proper operation and optimum performance, AVPA36ACA - 1O0C - " all economizers are non - removable, factory installed and tested. "` 0. In addition, factory and field installed accessories can be used to meet TL 1 specific requirements. "` " °`° SA L'' The HVEA and HVESA models are Marvair's most efficient wall mount air conditioners. Pl. -t F. Electronically commutated outdoor fan motors combined with highly efficient scroll. , compressors result in Energy Efficiency Ratios (EER's) of up to 13.1. u ' Models AVPSA36- 42 -48 -60 and HVESA36- 42 -49 -60 have a 2 -stage compressor with first z stage cooling approximately 65% of the total cooling capacity. The 2-stage compressor ,F 9 9 PP Y 9 P Y• 9 P provides lower start-up amps which can be critical when operating with a generator. The rt two stage compressor can also reduce energy costs and is able to more precisely match the <E s ,; cooling capacity of the air conditioner with the heat load in the shelter. Both ComPac I and r -. ComPac II units are available with 2 stage compressors. See page 3 for a description of the V. operation of the 2 -stage units when they are used with the CommStat 3 SCTM thermostat/ :, controller in a lead /lag installation. , ?u . Safety Listed and Energy Certified „ : n z� , y All ComPac air conditioners are built to UL standard 1995, 2nd edition and CAN /CSA LL'.` ° '' ' ,l �4� C22, No. 236 -5, 2nd edition. For energy efficiency and performance, the units are tested ; A , and rated in accordance to the ANSI /ARI (Air- Conditioning and Refrigeration Institute) :: t , Standard 390- 2003 (Single Package Vertical Units). All units meet or exceed the efficiency requirements of ANSI /ASHRAE /IESNA 90.1.2007. The ComPac I and ComPac II air .. • : ;. conditioners are commercial units and are not intended for use in residential applications. *ComPac® II air conditioner only _ r, 1 ComPac PDS 1.” s"" supersedes 1.2010 Standard Feature_ Designed for Operation in Low • Three minute delay on make for galvanneal steel for maximum Ambient Conditions short cycle protection. cabinet life. (Other finishes are • Low ambient control cycles Remote Alarm Capability available.) condenser fan to maintain proper • Dry contacts can be used for Ease of Service refrigerant pressures. Allows remote alarm or notification upon • Service access valves are operation in mechanical cooling air conditioner lockout. standard. (compressor) down to ODF (-18 Note: low temperature Ease of Installation • Standard 2" (50 mm) pleated filter operation is affected by ambient • Sloped top with flashing eliminates changeable from outside. conditions, e.g. wind and humidity. need of rainhood. • All major components are readily • Three minute by-pass of the • Built -in mounting flanges facilitate accessible. low pressure switch for start- installation and minimize chance • Front Control Panel allows easy up of compressor when outdoor of water leaks. access and complies with NEC temperatures are below 55 °F • Supply and return openings clearance codes on redundant (13 °C). exactly match previous models. side -by -side systems. • Factory built -in economizer.* • Factory installed disconnect on • LEDs indicate operational status High Efficiency all 208/230v units, optional 460V and fault conditions. • High efficiency compressor. units. • Lanced fins and rifled tubing on Rugged Construction many condenser & evaporator • Copper tube, aluminum fin coils. evaporator & condenser coils. Built -in Reliability • Factory installed heaters on • High pressure switch and low discharge side of evaporator coil pressure switch with lockout (optional) protects refrigerant circuit. • Baked on neutral beige finish over *ComPac® II air conditioner only A Marvair® First -- Factory Installed Economizer Marvair's ComPac® II air conditioner has been the industry standard since its introduction in 1986. Tens of thousands of ComPac II air conditioners are in operation from the metropolitan areas of North America to the deserts of the Mid -East to the Siberian tundra. Here's how the economizer works: On a signal from the wall mounted indoor thermostat that cooling is required, either mechanical cooling with the compressor or free cooling with the economizer is provided. A factory installed enthalpy controller determines whether the outside air is sufficiently cool and dry to be used for cooling. If suitable, the compressor is locked out and the economizer damper opens to bring in outside air. Integral pressure relief allows the interior air to exit the shelter, permitting outside air to enter the shelter. The temperature at which the economizer opens is adjustable from 53 °F (12 °C) at 50% Relative Humidity to 78 °F (26 °C) at 50% Relative Humidity. After the enthalpy control has activated and outside air is being brought into the building, the mixed air sensor measures the temperature of the air entering the indoor blower and then modulates the economizer damper to mix the right proportion of cool outside air with warm indoor air to maintain 50 -56 °F (10 - 13 °C) air being delivered to the building. This prevents shocking the electronic components with cold outside air. The compressor is not permitted to operate when the economizer is functioning. If the outside air becomes too hot or humid, the economizer damper closes completely, or to a minimum open position with an optional minimum position potentiometer, and mechanical cooling is activated. AVPA & HVEA PDS 1/2011 2 Savings with an Economizer The following table shows the annual electrical cost of cooling a 10 ft. x 20 ft. x 9 ft. (3m x 6m x 2.7m) shelter in nine cities in the US. Costs are shown for an air conditioner without an economizer (ComPac I units), for an air conditioner with an economizer (ComPac II units) and the savings. The savings do not include any demand charges. The savings are based on the electrical usage of a five ton air conditioner and an electric rate of $.10 per kilowatt -hour, the approximate average commercial rate in the US. Hours of Operation Atlanta, GA Boston, MA Chicago, IL Dallas, TX Denver, CO Houston, TX Annual Compressor & Condenser Motor Run Time 6,531 6,348 6,361 6,628 6,472 6,655 without Economizer (Hrs.) Annual Compressor & Condenser Motor Run Time 3,841 2,153 2,424 3,798 750 4,970 with Economizer (Hrs.) Run Time Savings with the Economimizer (Hrs.) _ 2,690 4,195 3,937 2,830 5,722 1,685 Annual `CostsSavinq (3)" of 9' :0'EER'unif =witfi °antECOnoieizer fCbmPaelli)xsat Annual Operating Cost 9.0 EER Unit without Economizer ($) $4,100.00 $3,985.00 $4,792.00 $4,161.00 $3,657.00 $4,178.00 Annual Operating Cost 9.0 EER with Economizer , $2,685.00 $1,784.00 $2,315.00 $2,671.00 $940.00 $3,291.00 Annual Savings using 9.0 EER Unit with Economizer $1,415.00 $2,201.00 $2,477.00 $1,490.00 $2,717.00 $887.00 Hours of Operation Los Angeles, CA Miami, FL Phoenix, AZ Pittsburgh, PA Seattle, WA St. Louis, MO Annual Compressor & Condenser Motor Run 6,467 6,779 6,765 6,386 6,465 6,472 Time without Economizer (Hrs•) Annual Compressor & Condenser Motor Run 3,862 6,391 3,106 1,929 1,654 2,716 Time with Economizer (Hrs.) Run Time Savings with the Economimizer (Hrs.) 2,605 388 3,659 4,457 4,811 3,756 AiiiiivalxGosts = =Savlriq' =($)x unit witFi anfEC` onomize� <'(ComFacaIl)s:sl�?�''�� Annual Operating Cost 9.0 EER Unit without Economizer ($) $4,060.00 $4,255.00 $4,247.00 $4,009.00 $3,653.00 $4,063.00 Annual Operating Cost 9.0 EER with Economizer $2,686.00 $4,051.00 $2,315.00 $1,667.00 $1,368.00 $2,090.00 Annual Savings using 9.0 EER Unit with Economizer $1,374.00 $204.00 $1,932.00 $2,342.00 $2,285.00 $1,973.00 Shelter Metrics: Air Conditioner Metrics: • 10' x 20' x 9' building •ComPac II Economizer setting: 57 (wet bulb) •Internal heat gain (electronics load): 12,000 watts. •A /C unit capacity: 60,000 BTUH (5 tons) with 1 -stage compressor • Building surface area (excluding floor area): 740 ft •Nominal EER (unit efficiency): 9.0 (models AVPA) • R -Value of walls and ceiling: R -12 •Cost of power: $.10 per KWH •Internal shelter temperature (Thermostat set point): 75 Operation of the 2 -Stage Compressor Air Conditioners with a CommStat 3 SCTM Lead /Lag Thermostat Controller Marvair offers selected models of air conditioners with 2 -stage compressors. These units can provide substantial energy savings and better control of temperature and humidity by matching the cooling requirement with the performance of the air conditioner. First stage is typically 65% of the total (2- stage) capacity of the air conditioner. When operated from power supplied by a generator, starting the air conditioner in 1 -stage means lower start -up amps. When two, 2 -stage air conditioners are controlled by a CommStat 3 SC lead /lag controller in a redundant application, one of the air conditioners is the lead unit and the second is the lag unit. On a call for cooling, the lead unit starts operation in the 1 -stage (low capacity). If the temperature in the building continues to rise above the set point temperature, the 1 -stage (low capacity) of the lag unit will be initiated. When the temperature in the building drops to the set point, the air conditioners will turn off. On a subsequent call for cooling the process will repeat. If the set point temperature is not reached with 1 -stage capacity operation of both air conditioners after approximately six minutes (this time period is field adjustable), the lead air conditioner will commence operation in 2 -stage (full capacity). If the temperature in the building continues to rise past the setpoint, the lag unit will switch to 2 -stage cooling approximately six minutes (field adjustable) after it began operation. At that time, both air conditioners are operating in maximum capacity. When the temperature in the building is satisfied, both units will turn off. If the units have economizers (ComPac II air conditioners), the enthalpy sensor determines whether to use outside air or use mechanical cooling. When the economizer is used, the compressors do not operate. 3 AVPA & HVEA PDS 1/2011 Controllers and Thermostats Controllers LL357D4 Lead /Lag Controller CommStat 4 Telecom HVAC Controller Two stage heat and cool thermostat with solid state P/N S/7846 module for redundant operation. (See the LL357D4 The CommStat 4 HVAC controller is designed Product Data Sheet for details.) specifically for controlling two redundant air CommStat 3 SC Lead /Lag Controller conditioners, heat pumps or air conditioners with Used with Marvair air conditioners with two -stage 2 -stage compressors in a telecommunication shelter. compressors. See page 3 for a description on the The CommStat 4 has seven outputs for remote operation of the CommStat 3 SC. alarms or notification. Status LED's indicate HEAT, COOL, POWER and the LEAD unit. When a fault is Thermostats & Thermostat Guards detected, an alarm LED flashes and the LCD screen Note: All air conditioners with 2 -stage compressors, displays the fault. models AVPSA and HVESA, require a 2 stage cooling thermostat. The CommStat 4 uses RS -485 communications Thermostat P/N 50123 via a RJ11 jack. It is capable of interfacing with a Digital thermostat. 1 stage heat, 1 stage cool. 7 day secondary control board which can interpret Marvair's programmable. Fan switch: Auto & On. Auto - change communication protocol and provide Internet over. Keypad lockout. Non - volatile program memory. capability. It can be daisy chained with up to two Thermostat P/N 50107 additional CommStat 4 controllers for controlling up to six air conditioners in one shelter. When two Digital thermostat. 2 stage heat, 2 stage cool. 7 day or three CommStat 4 controllers are daisy chained programmable. Fan switch: Auto & On. Auto change together, one is the MASTER and the other controllers over. Status LED's. Backlit display. Programmable fan. are the SLAVES. Any settings to the MASTER unit Non - volatile program memory. immediately take effect on the SLAVE unit(s). See Thermostat Guard P/N 50092 the CommStat 4 Product Data Sheet for complete Thermostat guard for use with the 50123 and details. 50107 thermostats. CommStat3TM Lead /Lag Microprocessor Controller Thermostat P/N 50186 P/N S/04581 Digital, non - programmable thermostat. 1 stage cool Solid state controller designed to operate a fully or and 1 stage heat. Auto - changeover. partially redundant air conditioning system. Insures Digital Humidistat P/N 50254 equal wear on both air conditioners while allowing the To be used with units with hot gas or electric lag unit to assist upon demand. Lead/ lag changeover reheat. Programmable dehumidistatand ventilation is factory set at 7 days, but is field programmable controller. Time of day can be set for dehumidifier in 1/2 day increments from 1/2 to 7 days. The or ventilation to run. Permanent memory retention CommStat 3TM Controller has LED's to indicate status of set points.Humidity sensor can be field calibrated. & function, digital display of temperature, a comfort High & low dehumidification set points. Outdoor override button for energy savings, five alarm temperature and humidity sensor included. °F or °C relays, a built in temperature sensor and is fully selectable. programmable. See CommStat 3TM Controller Product Data Sheet for details on operation & installation. Accessories Supply Grilles Return Filter Grilles For AVPA24 Used when filter must be changed from the interior. 20" x 8" (508 mm x 203 mm) P/N 80674 Not recommended for ComPac® II air conditioner. For AVPA30,36 and HVEA24 Note: Filter used in Return Filter Grille is 1" (25 mm) 28" x 8" (711 mm x 203 mm) P/N 80675 thick. For AVPA24 For AVPA42,48,60,72 and HVEA30, 36, 42, 49, 60 20" x 12" (508 mm x 305 mm) P/N 80671 30" x 10" (762 mm x 254 mm) P/N 80676 Return Grilles For AVPA30,36 and HVEA24 For AVPA24 28" x 14" (711 mm x 356 mm) P/N 80672 20" x 12" (508 mm x 305 mm) P/N 80677 For AVPA42,48,60,72 and HVEA30, 36, 42, 49, 60 For AVPA30,36 and HVEA24 30" x 16" (762 mm x 406 mm) P/N 80673 28" x 14" (711 mm x 356 mm) P/N 80678 For AVPA42,48,60,72 and HVEA30, 36, 42, 49, 60 30" x 16" (762 mm x 406 mm) P/N 80679 AVPA & HVEA PDS 1/2011 4 Accessories (cont'd) Security Cages. Deters theft of the air conditioner and components. s - fis C • onstructed of 1" by 11 gauge square tube and 3/4 ", #9 expanded metal. Hinges and latch are made from steel plate. The complete cage is powder coated - 'per vi 11 for longevity and to match the color of Marvair air conditioners. Field installed. T • ^"fix Options The ComPac® I and ComPac® II air conditioners to replace a 2 -1/2 or 3 ton ComPac II unit. Curb were designed and are built to stringent requirements transitions supply and return openings of the 3 -1/2, 4 of the communications /electronic shelter. Applications and 5 ton units to the smaller openings. occur that have special requirements. Numerous Economizer Damper Control - ComPac® II A/C options are available for the ComPac I and ComPac II only - A minimum position potentiometer that can air conditioners that meet these special needs. be adjusted to prevent the economizer damper Hard Start Kit - Used on single phase equipment to from closing completely. This control ensures that give the compressor higher starting torque under low whenever the evaporator fan is operating, fresh air voltage conditions. (Field installed only) (Note: Not is being introduced into the building. Field or factory recommended for use on scroll compressors.) installed. Dehumidification - ComPac® I and ComPac® II A/C Hot Gas By -pass - ComPac® I A/C Only - Used - Humidity controller overrides thermostat and allows in specialty applications; i.e., Magnetic Resonance electric heat to operate simultaneously with cooling. Imaging (MRI) buildings, to prevent magnetic voltage See Dehumidification Application Bulletin for details. disturbance caused by compressor cycling. Hot Note: The electrical characteristics and requirements gas by -pass option packages are available to allow of air conditioners with the dehumidification option operation to 20 °F ( -7 °C). Please refer to Hot Gas By- are different from standard air conditioners. Refer pass Application Bulletin for details. Not available on to the appropriate Summary Rating Charts for the the AVPA24. electrical characteristics of units with Electric Reheat. High Filtration - Units are built with larger Coastal Environment Package - ComPac® I A/C blowers /motors for use with higher efficiency filters only - Recommended for units to be installed near with MERV ratings of 11, 13 and 14 when tested to an ocean or on seacoast. Includes corrosion resistant ASHRAE 52.2. Units with economizers have a prefilter fasteners, sealed or partially sealed condenser fan on the outside air. motor, protective coating applied to all exposed Color - ComPac® I and ComPac® II air conditioners internal copper and metal in the in the condenser are available in five different cabinet colors -the section and an impregnated polyurethane or a standard Marvair® beige and white, gray, brown phenolic coating on the condenser coil. See Coastal and dark bronze. The standard cabinet's sides, Environmental Technical Bulletin for more details. top and front panels are constructed of 20 gauge External Low Noise Blower (ELNB) - ComPac® I painted steel. As an option, these panels can be built and ComPac® II A/C - A field installed kit that of 16 gauge steel in beige & gray or .050 stucco consists of a condenser air hood, a centrifugal aluminum. When the 16 gauge painted steel or the blower, controls and a compressor jacket to reduce aluminum is used, only the side, top and front panels the sound level by up to 6 dbA of Marvair ComPac are 16 gauge or aluminum. Contact your Marvair air conditioners. Available for models AVP30 -60. See representative for color chips. The cabinet can also External Low Noise Blower Product Data Sheet for be constructed of type 316 stainless steel. Two details. stainless steel cabinet constructions are available- the ComPac® II Air Conditioner Transition Curb complete cabinet, including most internal sheet metal - ComPac II A/C only - A sheet metal curb that or only the exterior sheet metal. enables a 3 -1/2, 4 or 5 ton ComPac II air conditioner 5 AVPA & HVEA PDS 1/2011 Options (cont'd) Protective Coil Coatings - Either the condenser Sealed Condenser Fan Motors - Recommended on or evaporator coil can be coated, however, coating units to be installed corrosive sites, e.g., near the of the evaporator coil is not common. For harsh ocean and in deserts with blowing sand. Available on conditions, e.g., power plants, paper mills or sites all units. were the unit will be exposed to salt water, the Compressor Sound Jacket - To reduce sound of coil should be coated with either an impregnated compressor. polyurethane or a phenolic. The coatings are sprayed on and pass 3,000 hours of B117 salt fog test. Note: Extreme Duty Package (HVEA & HVESA air Cooling capacity may be reduced by up to 5% on conditioners only) units with coated coils. Allows Marvair® air conditioners to operate in extremely cold and hot ambient conditions. The Factory Installed Disconnects on 460V Units - Extreme Duty Kit is always factory installed and is Factory installed disconnects are standard on all 208- available on all HVEA air conditioners.ComPac Iunits 230V, 2 through 6 ton units. As an option, all 460V. without an economizer will operate from 0 °F to 130 °F units may be ordered with a disconnect. ( -18° to 54 °C). ComPac II units with an economizer Extended Warranty - A first year labor - Silver, and will operate from -20 °F to 130 °F ( -29° to 54 °C). a two year labor - Gold, are available. The Extreme Duty Package includes a suction Dirty Filter Indicator - A factory installed option line accumulator, thermal expansion valve (TXV), that measures the difference in pressure across crankcase heater, hard start kit, an auto reset the internal filter and illuminates a LED when the highpressure switch and an outdoor thermostat and pressure exceeds the desired difference. fan cycle switch. The fan cycle control is standard Single Point Power Entry - A field installed on all ComPac air conditioners and operates based option that allows a single power entry into the air upon the liquid line pressure. The outside thermostat conditioner. Single point power entry should only be opens whenever the outside temperature is below selected when the air conditioner has two electrical 50 °F (10 °C) and closes when the outside temperature circuits. See the Summary Ratings Charts for units is 50 °F (10 °C) or higher. Whenever the temperature with two electrical circuits. is below 50 °F (10 °C), the fan cycle switch is in the Phase Monitor - Monitors 30 power supply and will circuit; when temperatures are 50 °F (10 °C) or higher, the fan cycle switch is not in the circuit. The outdoor turn the air conditioner off if power supply is not thermostat is used with a TXV to prevent excessive phased properly. Not required on 10 units. cycling or "hunting" of the TXV. Thermal Expansion Valve - Available on all ComPac air conditioners. Allows operation in hot ambient temperatures, Control Box The internal control board in the ComPac® air conditioners simplifies wiring, consolidates several of the electrical functions onto one device and improves the reliability of the air conditioner. In addition, the control board has LED's that indicate operational status and fault conditions. LED Indicator Lights COLOR TYPE STATUS DESCRIPTION Green Power Constant On 24 VAC power has been applied Constant On Normal operation Red Status 1 Blink High pressure switch has opened twice 2 Blinks Low pressure switch has opened twice 3 Blinks Freeze stat (optional) - indoor coil temperature is below 35 °F (1 °C) Modes of Operation Normal Start-up: On a call for cooling, and the with the high pressure switch closed, the cooling system (compressor, indoor blower motor and outdoor fan motor) will be energized. (Note: See the Delay on Make feature). The cooling system will remain energized during the three minute low pressure switch bypass cycle. If the low pressure is closed, the cooling system will continue to operate after the three - minute bypass. If the low pressure switch is open after the three - minute bypass, the cooling system will be de- energized. Lockout Mode: If either the high or low pressure switch opens twice on the same call for cooling, the control board enters into the lockout mode. In the lockout mode, the compressor is turned off, the alarm output is energized and the status LED's will blink to indicate which fault has occurred. If there is a call for air flow, AVPA & HVEA PDS 1/2011 6 the indoor blower will remain energized. When the lockout condition has cleared, the unit will reset if the demand of the thermostat is removed or when power is reset. The ComPac® air conditioners are factory wired for normally open contacts. The user can now have normally closed contacts by moving a wire on the control board. Delay on Make: On initial power up or on resumption of power, the air conditioner will wait .03 to 10 minutes from a call for cooling before allowing the contactor to energize. Model Identification ®VP S A • AC T _ Te _ _ T Refrigerant Power Supply Special Option Code A = R410A A = 208/230V,10,60Hz R = Electric Reheat C = 208.230V,30,60Hz U = Scroll Comp. D = 460V,30,60Hz Nominal Cooling. 24 = 24,000 BTUH 30 = 30,000 BTUH Configuration 2 - Stage 36 = 36,000 BTUH N = compac® I A/C Compressor 42 = 42,000 BTUH C = ComPac® II A/C 48/49 = 48,000 BTUH 60 = 60,000 BTUH 72 = 72,000 BTUH A = Air Source Vertical Package System Type Electric Heat - kW H = High Efficiency Vertical Package Air Conditioner 000 = No Heat 090 = 9 kW 040 =4kW 100 =10 kW 050 =5kW 150 =15 kW 080 - 8 kW Certified Efficiency & Capacity Ratings at ANSI/AHRI Standard 390 - AVPA Air Conditioners with Single Stage pressor Model Number AVPA24 AVPA30 AVPA36 AVPA42 AVPA48 AVPA60 AVPA72 AVPA72 ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA (lp) ACC /ACD (30) Cooling BTUH' 24,000 29,000 35,000 42,000 46,500 56,000 62,500 70,000 EER' 9.10 9.40 9.40 9.00 9.00 9.00 10.20 10.00 Rated Air Flow (CFM') 840 1,000 1,220 1,550 1,760 1,850 2,050 2,050 ESP"@ Rated Conditions 0.10 0.15 0.15 0.15 0.20 0.20 0.20 _ 0.20 'Cooling & EER rated at 95 °F (35 °C) outdoor and 80 °F DB/67° WB (26.5 °C DB /19.5 °C WB) return air 'EER= Energy Efficiency Ratio 'CFM =Cubic Feet per Minute "ESP = External Static Pressure Ratings are with no outside air. Performance will be affected by altitude. Ratings are at 230 volts for 208/230 volt units ( "A" & "C" models) and 460 volts for "D" models. Operation of units at a different voltage from that of the rating point will affect performance and air flow. • Sensible Total Heat Ratio @ 95 °F (35 °C) Outside Air AVPA Air Conditioners with Single Stage Compressor AVPA24 AVPA30 AVPA36 AVPA42 AVPA48 AVPA60 AVPA72 AVPA72 Model Number ACAIACCIACD ACAIACCIACD ACAIACCIACD ACAIACCIACD ACAIACCIACD ACAIACCIACD ACA ACCIACD Total Capacity 24,000 29,000 35,000 42,000 46,500 56,000 62,500 70,000 Sensible Heat Ratio 0.71 0.75 0.69 0.75 0.76 0.70 0.70 0.66 Sensible Capacity 16,950 21,740 24,155 31,640 35,125 39,000 43,815 46,190 Rated Air Flow (CFM') 840 _ 1,000 1,220 1,550 1,760 1,850 2,050 2,050 'CFM =Cubic Feet per Minute Sensible heat ratios based upon ANSI /AHRI std. 390 outdoor air conditions of 95 °F (35 °C) and 80 °F DB/67° WB (26.5 °C DB /19.5 °C WB) return air. Cooling Performance (BTUH) at Various Outdoor Temperatures AVPA Air Conditioners with Single Stage Compressor Model Number Outdoor Temperature 75 °F / 24 °C 80 °F / 26.5 °C 85 °F / 29 °C 90 °F / 32 °C 95 °F / 35 °C 100 °F / 38 °C 105 °F / 40.5 °C 110 °F / 43.3 °C 115 °F / 46 °C AVPA24AC 27,840 26,880 25,920 24,960 24,000 23,040 22,080 21,120 20,640 • AVPA30AC 33,640 32,480 31,320 30,160 29,000 27,840 26,680 25,520 24,940 AVPA36AC 40,600 39,200 37,800 36,400 35,000 33,600 32,200 30,800 30,100 AVPA42AC 48,720 47,040 45,360 43,680 42,000 40,320 38,640 36,960 36,120 AVPA48AC 53,940 52,080 50,220 48,360 46,500 44,640 42,780 40,920 39,900 AVPA6OAC 64,960 62,720 60,480 58,240 56,000 53,760 51,520 49,280 48,160 AVPA72ACA' 72,500 70,000 67,500 65,000 62,500 60,000 57,500 55,000 53,750 AVPA72ACC', ACD' 81,200 78,400 75,600 72,800 70,000 67,200 64,400 61,600 60,200 208/230v. 10 °208/230v. 30 '460v. 30 Based upon ANSI /AHRI std. 390 return air conditions of 80 °F DB /67° WB (26.5 °C DB /19.5 °C WB) at various outdoor temperatures. Return air at rated airflow. 7 AVPA & HVEA PDS 1/2011 Electrical Characteristics - Compressor Fan & Blower Motors - AVPA Air Conditioners with Single Stage Compressor • COMPRESSOR OUTDOOR FAN MOTOR INDOOR FAN MOTOR BASIC - - MODEL VOLTS -HZ -PH RLA LRA MCC VOLTS RPM FLA HP VOLTS RPM FLA HP AVPA24ACA 208/230 -60 -1 12.8 64.0 20.0 208/230 -60 -1 1075 1.5 1/5 208/230 -60 -1 1075 1.5 1/5 • AVPA30ACA 208/230 -60 -1 14.1 77.0 22.0 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1075 2.5 1/4 AVPA36ACA 208/230 -60 -1 17.9 112.0 28.0 208/230 -60-1 1075 1.8 1/4 208/230 -60 -1 1075 2.5 1/4 AVPA42ACA 208/230 -60 -1 19.8 109.0 31.0 208/230-60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPA48ACA 208/230 -60 -1 21.8 117.0 34.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPA60ACA 208/230-60 -1 26.2 134.0 41.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 5.2 3/4 AVPA72ACA 208/230 -60 -1 30.1 158.0 47.0 208/230 -60 -1 825 2.9 1/2 208/230 -60-1 1075 5.2 3/4 AVPA24ACC 208/230 -60-3 8.3 61.0 13.0 208/230 -60 -1 1075 1.5 1/5 208/230 -60 -1 1075 1.5 1/5 AVPA30ACC 208/230 -60 -3 9.0 71.0 14.0 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1075 2.5 1/4 AVPA36ACC 208/230 -60 -3 13.2 88.0 20.6 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1075 2.5 1/4 AVPA42ACC 208/230 -60 -3 13.6 83.1 21.2 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPA48ACC 208/230 -60-3 13.7 83.1 21.4 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPA60ACC 208/230 -60 -3 15.6 111.0 24.4 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 5.2 3/4 AVPA72ACC 208/230 -60 -3 22.4 149.0 35.0 208/230 -60 -1 825 2.9 1/2 208/230 -60 -1 1075 5.2 3/4 AVPA24ACD 460 -60 -3 5.1 28.0 8.0 208/230 -60 -1 1075 1.5 1/5 208/230 -60 -1 1075 1.5 1/5 AVPA30ACD 460 -60 -3 5.6 38.0 8.8 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1075 2.5 1/4 AVPA36ACD 460 -60 -3 6.0 44.0 9.3 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1075 2,5 1/4 AVPA42ACD 460 -60 -3 6.1 41.0 9.5 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPA48ACD 460 -60 -3 6.2 41.0 9.7 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPA60ACD 460 -60 -3 7.7 52.0 12.1 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 5.2 3/4 AVPA72ACD 460 -60 -3 10.6 75.0 16.5 208/230-60 -1 825 2.9 1/2 208/230 -60 -1 1075 5.2 3/4 RLA = Rated Load Amps LRA = Locked Rotor Amps MCC = Maximum Continuous Current FLA = Full Load Amps RPM = Revolutions per Minute HP = Horse Power All 460V units have a step down transformer for 230V motors. Summary Electrical Ratings (Wire Sizing) - AVPA Air C nditioners with Single Stage Compressor Manual Damper ("N") or Economizer ( "C ") Outside Air ELECT. HEAT 000 = None 040 = 4 kw 050 = 5 kw 060 = 6 kw 080 = 8 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS AVPA24ACA 208 -230/1 19.0 30 22.4 30 27.5 30 32.8 35 43.1 45 53.6 60 AVPA30ACA 208-230/1 21.9 35 23.4 35 28.5 35 33.8 35 44.1 45 54.6 60 23.4 35 41.6 45 28.5 35 52.1 60 AVPA36ACA 208 -230/1 26.7 40 26.7 40 28.5 40 33.8 40 44.1 45 54.6 60 26.7 40 41.6 45 28.5 40 52.1 60 AVPA42ACA 208 -230/1 30.7 50 30.7 50 55.2 60 30.7 50 41.6 45 30.7 50 52.1 60 AVPA48ACA 208 -230/1 33.2 50 33.2 50 55.2 60 33.2 50 41.6 45 33.2 50 52.1 60 AVPA60ACA 208 -230/1 40.8 60 40.8 60 57.3 60 40.8 60 41.6 45 40.8 60 52.1 60 AVPA72ACA 208 -230/1 45.6 60 45.6 60 57.3 60 45.6 60 41.6 45 45.6 60 52.1 60 AVPA24ACC 208-230/3 13.4 20 19.5 20 28.6 30 37.6 40 AVPA30ACC 208 -230/3 15.6 20 20.5 25 29.6 30 38.6 40 47.6 50 AVPA36ACC 208 -230/3 20.8 30 20.8 30 29.6 30 38.6 40 47.6 50 AVPA42ACC 208 -230/3 22.9 35 22.9 35 30.2 35 39.2 40 48.2 50 AVPA48ACC 208 -230/3 23.0 35 23.0 35 30.2 35 39.2 40 48.2 50 AVPA60ACC 208 -230/3 27.5 40 27.5 40 32.3 40 41.3 45 50.3 60 AVPA72ACC 208 -230/3 36.1 50 36.1 50 36.1 50 41.3 50 50.3 60 AVPA24ACD 460/3 7.9 15 9.8 15 14.3 15 18.8 20 23.3 25 AVPA30ACD 460/3 9.2 15 10.3 15 14.8 15 19.3 20 23.8 25 AVPA36ACD 460/3 9.7 15 10.3 15 14.8 15 19.3 20 23.8 25 • AVPA42ACD 460/3 10.6 15 10.6 15 15.1 20 19.6 20 24.1 25 AVPA48ACD 460/3 10.7 15 . 10.6 15 15.1 20 19.6 20 24.1 25 AVPA60ACD 460/3 13.6 20 13.6 20 16.1 20 20.6 25 25.1 30 AVPA72ACD 460/3 17.3 25 17.3 25 17.3 25 20.6 25 25.1 30 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker. MCA and MFS at 240V for "A" & "C" models. For 460V units co. models), MCA & MFS calculated at 460V. All 460V units have a step down transformer for 230V motors AVPA & HVEA PDS 1/2011 8 Summary Electrical Ratings (Wire Sizing) - AVPA Air Conditioners with Single Stage Compressor GreenWheef Energy Recovery Ventilator ( "H") ELECT. HEAT 000 = None 040 = 4 kw 050 = 5 kw 060 = 6 kw 080 = 8 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 • MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS AVPA24ACA 208 -230/1 21.2 30 24.6 30 29.7 30 35.0 35 45.3 50 55.8 60 AVPA30ACA 208 -230/1 24.1 35 25.6 35 30.7 35 36.0 40 46.3 50 56.8 60 24.1 35 41.6 45 30.7 35 52.1 60 AVPA36ACA 208 -230/1 28.9 45 28.9 45 30.7 45 36.0 45 46.3 50 56.8 60 28.9 45 41.6 45 30.7 45 52.1 60 AVPA42ACA 208 -230/1 32.9 50 32.9 50 57.4 60 32.9 50 41.6 45 32.9 50 52.1 60 AVPA48ACA 208 -230/1 35.4 50 35.4 50 57.4 60 35.4 50 41.6 45 35.4 50 52.1 60 " AVPA6OACA 208 -230/1 43.0 60 43.0 60 59.5 60 43.0 60 41.6 45 43.0 60 52.1 60 AVPA72ACA 208 -230/1 47.9 60 47.9 60 59.5 60 47.9 60 41.6 45 47.9 60 52.1 60 • AVPA24ACC 208 -230/3 15.6 20 21.7 25 30.8 35 39.8 40 AVPA30ACC 208 -230/3 17.8 25 22.7 25 31.8 35 40.8 45 49.8 50 AVPA36ACC 208 -230/3 23.0 35 23.0 35 31.8 35 40.8 45 49.8 50 AVPA42ACC 208 -230/3 25.1 35 ' 25.1 35 32.4 35 41.4 45 50.4 60 AVPA48ACC 208 -230/3 25.2 35 25.2 35 32.4 35 41.4 45 50.4 60 AVPA60ACC 208 -230/3 29.7 45 29.7 45 34.5 45 43.5 45 52.5 60 AVPA72ACC 208 -230/3 38.3 60 38.3 60 38.3 60 43.5 60 52.5 60 AVPA24ACD 460/3 9.0 15 10.9 15 15.4 20 19.9 20 24.4 25 AVPA30ACD 460/3 10.3 15 11.4 15 15.9 20 20.4 25 24.9 25 AVPA36ACD 460/3 10.8 15 11.4 15 15.9 20 20.4 25 24.9 25 AVPA42ACD 460/3 11.7 15 11.7 15 16.2 20 20.7 25 25.2 30 AVPA48ACD 460/3 11.8 15 11.8 15 16.2 20 20.7 25 25.2 30 AVPA60ACD 460/3 14.7 20 14.7 20 17.2 20 21.7 25 26.2 30 AVPA72ACD 460/3 18.4 25 18.4 25 17.2 25 21.7 25 26.2 30 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker. MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ("D" models), MCA & MFS calculated at 460V. All 460V units have a step down transformer for 230V motors. Summary Electrical Ratings (Wire Sizing) - AVPA Air Conditioners with Single Stage Compressor and Electric Reheat ( "R ") ELECT. HEAT 000 = 040 = 050 = 5 kw 060 = 6 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw None 4 kw 8 kw Reheat (ACA) 10 kw Reheat (ACA) BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS AVPA24ACA 208 -230/1 19.0 30 39.9 40 45.0 45 50.3 60 19.0 30 52.1 60 AVPA30ACA 208 -230/1 21.9 35 42.8 45 47.9 50 53.2 60 21.9 35 52.1 60 23.4 35 41.6 45 28.5 35 52.1 60 AVPA36ACA 208 -230/1 26.7 40 47.6 50 52.7 60 57.9 60 26.7 40 52.1 60 26.7 40 41.6 45 28.5 40 52.1 60 AVPA42ACA 208 -230/1 30.7 50 30.7 50 26.0 30 30.7 50 52.1 60 30.7 50 41.6 45 30.7 50 52.1 60 AVPA48ACA 208 -230/1 33.2 50 33.2 50 26.0 30 33.2 50 52.1 60 33.2 50 41.6 45 33.2 50 52.1 60 AVPA60ACA 208 -230/1 40.8 60 40.8 60 26.0 30 40 8 60 52.1 60 40.8 60 41.6 45 40.8 60 52.1 60 AVPA72ACA 208-230/1_45.6 60 45.6 60 26.0 30 45.6 60 52.1 60 45.6 60 41.6 45 45.6_60 52.1 60 AVPA24ACC 208 -230/3 13.4 20 31.4 35 40.5 45 49.5 50 13.4 20 45.1 50 AVPA3OACC 208 -230/3 15.6 20 33.6 35 42.7 45 51.7 60 15.6 20 45.1 50 AVPA36ACC 208 -230/3 20.8 30 38.8 40 47.9 50 56.9 60 20.8 30 45.1 50 AVPA42ACC 208 -230/3 22.9 35 40.9 45 50.0 60 22.9 35 36.1 40 22.9 35 45.1 50 AVPA48ACC 208 -230/3 23.0 35 41.0 45 50.2 60 23.0 35 36.1 40 23.0 35 45.1 50 AVPA60ACC 208 -230/3 27.5 40 45.5 SO 54.6 60 27.5 40 36.1 40 27.5 40 45.1 50 AVPA72ACC 208 -230/3 36.1 50 54.1 60 36.1 50 36.1 40 36.1 50 45.1 50 AVPA24ACD 460/3 7.9 15 16.9 20 21.4 25 25.9 30 30.4 35 AVPA30ACD 460/3 9.2 15 18.2 20 22.7 25 27.2 30 31.7 35 AVPA36ACD 460/3 9.7 15 18.7 20 23.2 25 27.7 30 32.2 35 AVPA42ACD 460/3 10.6 15 19.6 20 23.3 25 28.6 30 33.1 35 AVPA48ACD 460/3 10.7 15 19.7 20 24.2 25 28.7 30 33.2 35 AVPA60ACD 460/3 13.6 20 22.6 25 27.1 30 31.6 35 36.1 40 AVPA72ACD 460/3 17.3 25 26.3 30 30.8 35 35.3 40 39.8 40 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ("D" models), MCA & MFS calculated at 460V All 460V units have a step down transformer for 230V motors 9 AVPA & HVEA PDS 1/2011 Unit Load Amps (Heating)- AVPA Air Conditioners with Single Stage Compressor MODEL VOLTAGE CURRENT LOAD OF RESISTIVE HEATING ELEMENTS ONLY (AMPS) TOTAL MAXIMUM HEATING AMPS (STANDARD UNIT) PHASE AMPS NUMBER HERTZ AC' IBM' 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW AVPA24ACA 208 - 230/1/60 15.7 1.5 16.7 20.8 25.0 33.3 n/a 41.7 n/a n/a 18.2 22.3 26.5 34.8 n/a 43.2 n/a n/a • AVPA3OACA 208- 230/1/60 18.4 2.5 16.7 20.8 25.0 33.3 n/a 41.7 50.0 62.5 19.2 23.3 27.5 35.8 n/a 44.2 52.5 65.0 AVPA36ACA 208- 230/1/60 22.2 2.5 16.7 20.8 25.0 33.3 n/a 41.7 50.0 62.5 19.2 23.3 27.5 35.8 n/a 44.2 52.5 65.0 AVPA42ACA 208 - 230/1/60 25.7 3.1 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 23.9 n/a n/a n/a 44.8 53.1 65.6 AVPA48ACA 208 - 230/1/60 27.7 3.1 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 23.9 n/a n/a n/a 44.8 53.1 65.6 AVPA6OACA 208- 230/1/60 34.2 5.2 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 26.0 n/a n/a n/a 46.9 55.2 67.7 AVPA72ACA 208 - 230/1/60 38.2 5.2 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 26.0 n/a n/a n/a 46.9 55.2 67.7 AVPA24ACC 208- 230/3/60 11.2 1.5 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 15.9 n/a 23.2 n/a 30.4 37.6 AVPA3OACC 208 - 230/3/60 13.3 2.5 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 16.9 n/a 24.2 n/a 31.4 38.6 AVPA36ACC 208 - 230/3/60 17.5 2.5 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 16.9 n/a 24.2 n/a 31.4 38.6 AVPA42ACC 208- 230/3/60 19.5 3.1 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.5 n/a 24.8 n/a 32.0 39.2 AVPA48ACC 208 - 230/3/60 19.6 3.1 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.5 n/a 24.8 n/a 32.0 39.2 AVPA6OACC 208 - 230/3/60 23.6 5.2 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 19.6 n/a 26.9 n/a 34.1 41.3 AVPA72ACC 208 - 230/3/60 30.5 5.2 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 19.6 n/a 26.9 n/a 34.1 41.3 AVPA24ACD 460/3/60 6.6 0.8 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.0 n/a 11.6 n/a 15.2 18.8 AVPA3OACD 460/3/60 7.8 1.3 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.5 n/a 12.1 n/a 15.7 19.3 AVPA36ACD 460/3/60 8.2 1.3 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.5 n/a 12.1 n/a 15.7 19.3 AVPA42ACD 460/3/60 9.1 1.6 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.8 n/a 12.4 n/a 16.0 19.6 AVPA48ACD 460/3/60 9.2 1.6 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.8 n/a 12.4 n/a 16.0 19.6 AVPA60ACD 460/3/60 11.7 2.6 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 9.8 n/a 13.4 n/a 17.0 20.6 AVPA72ACD 460/3/60 14.7 2.6 n/a n/a 7.2 n/a 10.8 n/a 14,4 18.0 n/a n/a 9.8 n/a 13.4 n/a 17.0 20.6 Heating kW rated at 240v. for "A" &"C" models. Derate heat ouptput by 25% for operation on 208v. Total heating amps for all 10 units with 15 kW of heat includes both circuits ( #1 & #2). Heater kW rated at 480v. for all "D" models. Note: 30 models contain single phase motor loads. Values shown are maximum phase loads. Loads are not equally balanced on each phase. Total heating and cooling amps include motor loads. 'AC =AV Conditioner 'IBM= Indoor Blower Motor "r - '.$r. Certified Efficiency & Capacity Ratings at ANSI/AHRI Standard 390 - AVPSA Air Conditioners with 2 -Stage Compressor Model Number AVPSA36 AVPSA42 AVPSA48 AVPSA60 ACA I ACC I ACD ACA I ACC ACD ACA I ACC I ACD ACA ACC I ACD Cooling BTUH' -2nd Stage 33,600 38,000 44,000 53,000 EER' -2nd Stage 9.75 9.00 9.00 9.00 Integrated Part Load Value' 13.0 11.6 11.6 11.6 Rated Air Flow (CFM ") 1,220 1,520 1,760 1,850 ESP' @ Rated Conditions 0.15 0.15 0.20 0.20 'Cooling & EER rated at 95 ° F (35 °C) outdoor and 80 °F D8/67° WB (26.5 °C DB /19.5 °C WB) return air 'EER= Energy Efficiency Ratio 'Integrated Part Load Value is an integrated efficiency measure from 1st and 2nd stage capacity modulation. 'CFM =Cubic Feet per Minute 'ESP = External Static Pressure Ratings are with no outside air. Performance will be affected by altitude. Ratings are at 230 volts for 208/230 volt units ( "A" & "C" models) and 460 volts for "D" models. Operation of units at a different voltage from that of the rating point will affect performance and air flow. Sensible Total Heat Ratio @ 95 °F (35 °C) Outside Air _ - AVPSA Air Conditioners with 2 -Stage Compressors Model Number AVPSA36 AVPSA42 AVPSA48 AVPSA60 ACA I ACC I ACD ACA 1 ACC I ACD ACA I ACC I ACD ACA I ACC I ACD Total Capacity 33,600 38,000 44,000 53,000 Sensible Heat Ratio 0.69 0.75 0.75 0.70 Sensible Capacity 23,130 28,500 33,100 37,250 Rated Air Flow (CFM') _ 1,220 1,520 _ 1,760 _ 1,850 'CFM =Cubic Feet per Minute Sensible heat ratios based upon ANSI /AHRI std. 390 outdoor air conditions of 95 °F (35 °C) & 80 °F DB /67° WB (26.5 °C DB /19.5 °C WB) return air. AVPA & HVEA PDS 1/2011 10 Stage 2 Cooling Performance (BTUH) at Various Outdoor Temperatures - AVPSA Air Conditioners with 2 -Stage Compressor Model Number Outdoor Temperature 75 °F / 24 °C 80°F! • 26.5 °C 85 °F / 29 °C 90 °F / 32 °C 95 °F / 35 °C 100 °F / 38 °C 105 °F / 40.5 °C 110 °F / 43.3 °C 115 °F / 46 °C AVPSA36AC 38,980 37,630 36,290 34,940 33,600 32,260 30,910 29,570 28,900 AVPSA42AC 44,080 42,560 41,040 39,520 38,000 36,480 34,960 33,440 32,680 AVPSA48AC 51,040 49,280 47,520 45,760 44,000 42,240 40,480 38,720 37,840 AVPSA6OAC _ 61,480 _ 59,360 57,240 55,120 53,000 50,880 _ 48,760 46,640 45,580 Based upon ANSI /AHRI std. 390 return air conditions of 80 °F DB /67° WB (26.5 °C DB /19.5 °C WB) at various outdoor temperatures. Return air at rated airflow. Electrical Characteristics - Compressor, Fan & Blower Motors - AVPSA Air Conditioners with 2 -Stage Compressor BASIC COMPRESSOR OUTDOOR FAN MOTOR INDOOR FAN MOTOR MODEL VOLTS -HZ -PH RLA LRA MCC VOLTS RPM FLA HP VOLTS RPM FLA HP AVPSA36ACA 208/230 -60 -1 16.6 82.0 26.0 208/230 -60 -1 825 1.8 1/3 208/230 -60 -1 1075 2.5 1/4 AVPSA42ACA 208/230 -60 -1 16.6 96.0 26.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPSA48ACA 208/230 -60 -1 21.1 96.0 33.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPSA6OACA 208/230 -60 -1 25.6 118.0 40.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 5.2 3/4 AVPSA36ACC 208/230 -60 -3 11.1 58.0 17.4 208/230 -60 -1 825 1.8 1/3 208/230 -60 -1 1075 2.5 1/4 AVPSA42ACC 208/230 -60 -3 13.4 88.0 21.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPSA48ACC 208/230 -60 -3 13.4 88.0 21.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPSA6OACC 208/230 -60 -3 17.6 123.0 27.5 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 5.2 3/4 AVPSA36ACD 460-60 -3 4.5 29.0 7.0 208/230 -60 -1 825 1.8 1/3 208/230 -60 -1 1075 2.5 1/4 AVPSA42ACD 460 -60 -3 6.1 44.0 9.5 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPSA48ACD 460 -60 -3 6.4 41.0 10.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 3.1 1/2 AVPSA6OACD 460 -60 -3 9.0 62.0 14.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1075 5.2 3/4 RLA = Rated Load Amps LRA = Locked Rotor Amps MCC = Maximum Continuous Current FLA = Full Load Amps RPM = Revolutions per Minute HP = Horse Power All 460V units have a step down transformer for 230V motors. Summary Electrical Ratings (Wire Sizing) - AVPSA Air Conditioners with 2 -Stage Compressor Manual Damper ( "N ") or Economizer ( "C ") Outside Air ELECT. HEAT 000 = None 040 = 4 kw 050 = 5 kw 060 = 6 kw 080 = 8 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS AVPSA36ACA 208 -230/1 25.1 40 25.1 40 28.5 40 33.8 40 44.1 45 54.6 60 25.1 40 41.6 45 28.5 40 52.1 60 AVPSA42ACA 208 -230/1 26.7 40 29.1 40 55.2 60 26.7 40 41.6 45 29.1 40 52.1 60 AVPSA48ACA 208 -230/1 32.3 50 32.3 50 55.2 60 32.3 50 41.6 45 32.3 50 52.1 60 AVPSA6OACA 208 -230/1 40.0 60 40.0 60 57.3 60 40.0 60 41.6 45 40.0 60 52.1 60 AVPSA36ACC 208 -230/3 18.2 25 22.3 25 29.6 30 38.6 40 47.6 50 AVPSA42ACC 208 -230/3 22.7 35 23.9 35 30.2 35 39.2 40 48.2 50 AVPSA48ACC 208 -230/3 22.7 35 , 23.9 35 30.2 35 39.2 40 48.2 50 AVPSA6OACC 208 -230/3 30.0 40 ' 30.0 40 32.3 40 41.3 45 50.3 60 AVPSA36ACD 460/3 7.8 15 10.3 15 14.8 15 19.3 20 23.8 25 AVPSA42ACD 460/3 10.6 15 10.6 15 15.1 20 19.6 20 24.1 25 AVPSA48ACD 460/3 11.0 15 10.6 15 15.1 20 19.6 20 24.1 25 AVPSA6OACD 460/3 15.3 20 15.3 20 16.1 20 20.6 25 25.1 30 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection MCA = Minimum Circuit Ampacity (Wire Size Amps) MFS = Maximum Fuse Size or HACR circuit breaker. MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ( "D" models), MCA & MFS calculated at 460V All 460V units have a step down transformer for 230V motors 11 AVPA & HVEA PDS 1/2011 Summary Electrical Ratings (Wire Sizing) - AVPSA Air Conditioners with 2 -Stage Compressor and Electric Reheat ( "R ") ELECT. HEAT 000 = 040 = 050 = 5 kw 060 = 6 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw None 4 kw 8 kw Reheat (ACA) 10 kw Reheat (ACA) BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS AVPSA36ACA 208 -230/1 25.1 40 46.2 50 51.1 60 56.3 60 25.1 40 52.1 60 25.1 40 41.6 45 25.1 40 52.1 60 AVPSA42ACA 208 -230/1 26.7 40 26.7 40 26.0 30 26.7 40 52.1 60 26.7 40 41.6 45 26.7 40 52.1 60 AVPSA48ACA 208 -230/1 32.3 50 32.3 50 26.0 30 32.3 50 52.1 60 32.3 50 41.6 45 32.3 50 52.1 60 AVPSA6OACA 208 -230/1 40.0 60 40.0 60 26.0 30 40.0 60 52.1 60 40.0 60 41.6 45 40.0 60 52.1 60 AVPSA36ACC 208 -230/3 18.2 25 36.2 40 45.3 50 54.3 60 18.2 25 45.1 50 AVPSA42ACC 208 -230/3 22.7 35 40.7 45 49.8 50 22.7 35 36.1 40 22.7 35 45.1 50 AVPSA48ACC 208 -230/3 22.7 35 40.7 45 49.8 50 22.7 35 36.1 40 22.7 35 45.1 50 AVPSA6OACC 206 -230/3 30.0 40 48.0 50 57.1 60 30.0 40 36.1 40 30.0 40 45.1 50 AVPSA36ACD 460/3 7.8 15 16.8 20 21.3 25 25.8 30 30.3 35 AVPSA42ACD 460/3 10.6 15 19.6 20 24.1 25 28.6 30 33.1 35 AVPSA48ACD 460/3 11.0 15 20.0 25 24.5 25 29.0 30 33.5 35 AVPSA6OACD 460/3 15.3 20 24.3 25 28.8 30 33.3 35 37.8 40 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker. MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ("D" models), MCA & MFS calculated at 460V All 460V units have a step down transformer for 230V motors Unit Load Amps (Heating) - AVPSA Air Conditioners with 2 -Stage Compressor VOLTAGE CURRENT LOAD OF RESISTIVE HEATING ELEMENTS ONLY (AMPS) TOTAL MAXIMUM HEATING AMPS (STANDARD UNIT) MODEL PHASE AMPS NUMBER HERTZ AC' IBM' 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW AVPSA36ACA 208- 230/1/60 20.9 2.5 16.7 20.8 25.0 33.3 n/a 41.7 50.0 62.5 19.2 23.3 27.5 35.8 n/a 44.2 52.5 65.0 AVPSA42ACA 206 230/1/60 22,5 3.1 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 23.9 n/a n/a n/a 44.8 53.1 65.6 AVPSA48ACA 208- 230/1/60 27.0 3.1 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 23.9 n/a n/a n/a 44.8 53.1 65.6 AVPSA60ACA 208- 230/1/60 33.6 5.2 n/a 20 8 . n/a n/a n/a 41.7 50.0 62.5 n/a 26.0 n/a n/a n/a 46.9 55.2 67.7 AVPSA36ACC 208- 230/3/60 15.4 2.5 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 16.9 n/a 24.2 n/a 31.4 38.6 AVPSA42ACC 208- 230/3/60 19.3 3.1 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.5 n/a 24.8 n/a 32.0 39.2 AVPSA48ACC 208- 230/3/60 19.3 3.1 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.5 n/a 24.8 n/a 32.0 39.2 AVPSA60ACC 208 - 230/3/60 25.6 5.2 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 19.6 n/a 26.9 n/a 34.1 41.3 AVPSA36ACD 460/3/60 6.7 1.3 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.5 n/a 12.1 n/a 15.7 19.3 AVPSA42ACD 460/3/60 9.1 1.6 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8 8 n/a 12.4 n/a 16.0 19.6 AVPSA48ACD 460/3/60 9.4 1.6 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8,8 n/a 12.4 n/a 16.0 19.6 AVPSA60ACD 460/3/60 13.0 2.6 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 9.8 n/a 13.4 n/a 17.0 20.6 Heating kW rated at 240v. for "A" & "C" models. Derate heat ouptput by 25% for operation on 208v. Total heating amps for all 1.0 units with 15 kW of heat includes both circuits ( #1 & #2). Heater kW rated at 480v. for all "D" models. Note: 3o models contain single phase motor loads. Values shown are maximum phase loads. Loads are not equally balanced on each phase. Total heating and cooling amps include motor loads. S AC =Air Conditioner nIBM= Indoor Blower Motor AVPA & HVEA PDS 1/2011 12 HVEA High Efficiency it Conditioners Certified Efficiency & Capacity Ratings at ANSI /AHRI Standard . 390 - HVEA Air Conditioners with Single Stage Compressor HVEA24 HVEA30 HVEA36 HVEA42 HVEA49 HVEA60 Model Number ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA r ACC ACD Cooling BTUH' 23,600 29,000 35,600 39,500 49,000 59,000 EERn 11.00 11.10 11.00 10.60 11.70 10.70 Rated Air Flow (CFM') 800 1,000 1,300 1,400 1,750 1,900 ESP' @ Rated Conditions 0.10 0.15 0.15 0.15 0.20 _ 0.20 Cooling & EER rated at 95 °F (35 ° C) outdoor and 80 °F DB /67° WB (26.5 ° C DB /19.5 ° C WB) return air °EER= Energy Efficiency Ratio 'CFM =Cubic Feet per Minute "ESP= External Static Pressure Ratings are with no outside air. Performance will be affected by altitude. Ratings are at 230 volts for 208/230 volt units ( "A" & "C" models) and 460 volts for "D" models. Operation of units at a different voltage from that of the rating point will affect performance and air flow. Sensible Total Heat Ratio @ 95°F (35 °C) Outside Air DB HVEA Air Conditioners with Single Stage Compressor HVEA24 HVEA30 HVEA36 HVEA42 HVEA49 HVEA6O Model Number ACA I ACC I ACD ACA I ACC I .ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD Total Capacity 23,600 29,000 35,600 39,500 49,000 59,000 Sensible Heat Ratio 0.74 0.76 0.76 0.74 0.74 0.73 Sensible Capacity 17,435 22,020 26,945 29,090 36,175 42,875 Rated Air Flow (CFM') 800 1,000 - 1,300 1,400 1,750 _ 1,900 'CFM =Cubic Feet per Minute Sensible heat ratios based upon ANSI /AHRI std. 390 outdoor air conditions of 95 °F (35 °C) and 80 °F DB/67 WB (26.5 ° C DB /19.5 ° C WB) return air. _ Cooling Performance (BTUH) at Various Outdoor Temperatures - HVEA Air Conditioners with Single Stage Compressor Model Number Outdoor Temperature 75 °F / 24 °C 80 °F / 26.5 °C 85 °F / 29 °C 90 °F / 32 °C 95 °F / 35 °C 100 °F / 38 °C 105 °F / 40.5 °C 110 °F / 43.3 °C 115 °F / 46 °C HVEA24AC 27,375 26,430 25,490 24,545 23,600 22,655 21,710 20,770 20,295 HVEA3OAC 33,640 32,480 31,320 30,160 29,000 27,840 26,680 25,520 24,940 HVEA36AC 41,295 39,870 38,450 37,025 35,600 34,175 32,750 31,320 30,615 HVEA42AC 45,820 44,240 42,660 41,080 39,500 37,920 36,340 34,760 33,970 HVEA49AC 56,840 54,880 52,920 50,960 49,000 47,040 45,080 43,120 42,140 HVEA6OAC 68,440 66,080 63,720 61,360 59,000 56,640 54,280 51,920 50,740 '208/230v. 10 '208/230v. 30 '460v. 30 Based upon ANSI /AHRI std. 390 return air conditions of 80 ° F DB /67° WB (26.5 °C DB /19.5 ° C WE) at various outdoor temperatures. Return air at rated airflow. Electrical Characteristics - Compressor Fan Blower Motors HVEA Air Conditioners with Single Stage Compressor COMPRESSOR OUTDOOR FAN MOTOR INDOOR FAN MOTOR BASIC - - MODEL VOLTS -HZ -PH RLA LRA MCC VOLTS RPM FLA HP VOLTS RPM FLA HP HVEA24ACA 208/230 -60 -1 13.4 58.3 21.0 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1500 2.8 1/3 HVEA30ACA 208/230 -60 -1 12.8 64.0 20.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 I-IVEA36ACA 208/230 -60 -1 16.6 79.0 26.0 208/230 -60 -1 825 2.8 1/3 208/230 -60-1 1500 2.8 1/2 HVEA42ACA 208/230 -60 -1 19.8 109.0 31.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA49ACA 208/230 -60 -1 21.8 117.0 34.0 208/230 -60-1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVEA60ACA 208/230 -60 -1 26.4 134.0 41.2 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVEA24ACC 208/230 -60 -3 7.7 55.4 12.1 208/230 -60 -1 1075 1.8 1/4 208/230 -60-1 1500 2.8 1/3 HVEA30ACC 208/230 -60 -3 8.3 61.0 13.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA36ACC 208/230 -60 -3 10.4 88.0 16.3 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA42ACC 208/230 -60 -3 13.6 83.1 21.2 208/230 -60 -1 • 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA49ACC 208/230 -60 -3 13.7 83.1 21.4 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVEA60ACC 208/230 -60 -3 15.9 111.0 24.9 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVEA24ACD 460 -60 -3 4.0 28.0 6.2 208/230 -60 -1 1075 1.8 1/4 208/230 -60 -1 1500 2.8 1/3 HVEA30ACD 460-60 -3 5.1 28.0 8.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA36ACD 460 -60 -3 5.8 38.0 9.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA42ACD 460 -60 -3 6.1 41.0 9.5 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVEA49ACD 460 -60 -3 6.2 41.0 9.7 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVEA60ACD 460 -60 -3 7.7 52.0 12.1 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 RLA = Rated Load Amps LRA = Locked Rotor Amps MCC = Maximum Continuous Current FLA = Full Load Amps RPM = Revolutions per Minute HP = Horse Power All 460V units have a step down transformer for 230V motors. 13 AVPA & HVEA PDS 1/2011 Summary Electrical Ratings (Wire Sizing) - HVEA Air Conditioners with Single Stage Compressor Manual Damper ( "N ") or Economizer ( "C ") Outside Air ELECT. HEAT 000 = None 040 = 4 kw 050 = 5 kw 060 = 6 kw 080 = 8 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 7_15 kw BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 ' MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS HVEA24ACA 208 -230/1 21.4 30 23.7 30 28.8 30 34.1 35 44.4 45 54.9 60 HVEA3OACA 208 -230/1 21.6 30 23.7 30 28.8 30 34.1 35 44.4 45 54.9 60 23.7 30 41.6 45 28.8 30 52.1 60 HVEA36ACA 208 -230/1 26.4 40 26.4 40 28.8 40 34.1 40 44.4 45 54.9 60 26.4 40 - 41.6 45 28.8 40 52.1 60 HVEA42ACA 208 -230/1 30.4 50 30.4 50 54.9 60 30.4 50 41.6 45 30.4 50 52,1 60 HVEA49ACA 208 -230/1 34.4 50 34.4 50 56.4 60 34.4 50 41.6 45 34.4 50 52.1 60 HVEA6OACA 208 -230/1 40.1 60 40.1 60 56.4 60 40.1 60 41.6 45 40.1 60 52.1 60 HVEA24ACC 208 -230/3 14.2 20 20.8 20 29.9 30 38.9 40 HVEA3OACC 208 -230/3 16.0 20 20.8 20 29.9 30 38.9 40 47.9 50 HVEA36ACC 208 -230/3 18.6 25 20.8 25 29.9 30 38.9 40 47.9 50 HVEA42ACC 208 -230/3 22.6 35 22.6 35 29.9 35 38.9 40 47.9 50 HVEA49ACC 208 -230/3 24.2 35 24.2 35 31.4 35 40.4 45 49.4 50 HVEA6OACC 208 -230/3 27.0 40 27.0 40 31.4 40 40.4 45 49.4 50 HVEA24ACD 460/3 7.3 15 10.4 15 14.9 15 19.4 20 23.9 25 HVEA30ACD 460/3 9.2 15 10.4 15 14.9 15 19.4 20 23.9 25 HVEA36ACD 460/3 10.1 15 10.4 15 14.9 15 19.4 20 23.9 25 HVEA42ACD 460/3 10.4 15 10.4 15 14.9 15 19.4 20 23.9 25 HVEA49ACD 460/3 11.3 15 11.3 15 15.7 20 20.2 25 24.7 25 HVEA6OACD 460/3 13.2 20 13.2 20 15.7 20 20.2 25 24.7 25 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker. MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ( "D" models), MCA& MFS calculated at 460V. All 460V units have a step down transformer for 230V motors. Summary Electrical Ratings (Wire Sizing) - IVEA Air Conditioners with Single Stage Compressor and Electric Reheat ( "R ") ELECT. HEAT 000 = 040 = 050 = 5 kw 060 = 6 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw None 4 kw 8 kw Reheat (ACA) 10 kw Reheat (ACA) BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS HVEA24ACA 208 -230/1 21.4 30 42.2 45 47.4 50 52.6 60 21.4 30 52.1 60 HVEA3OACA 208 -230/1 21.6 30 42.5 45 47.6 50 52.9 60 21.6 30 52.1 60 21.6 30 41.6 45 21.6 30 52.1 60 HVEA36ACA 208 -230/1 26.4 40 47.2 50 52.4 60 57.6 60 26.4 40 52.1 60 26.4 40 41.6 45 26.4 40 52.1 60 ` HVEA42ACA 208 -230/1 30.4 50 30.4 50 26.0 30 30.4 50 52.1 60 30.4 50 41.6 45 30.4 50 52.1 60 HVEA49ACA 208 -230/1 34.4 50 34.4 50 26.0 30 34.4 50 52.1 60 34.4 50 41.6 45 34.4 50 52.1 60 HVEA6OACA 208 -230/1 40.1 60 40.1 60 26.0 30 40.1 60 52.1 60 40.1 60 41.6 45 40.1 60 52.1 60 HVEA24ACC 208 -230/3 14.2 20 32.2 35 41.4 45 50.4 60 14.2 20 45.1 50 • HVEA3OACC 208 -230/3 16.0 20 34.0 35 43.1 45 52.1 60 16.0 20 45.1 50 HVEA36ACC 208 -230/3 18.6 25 36.6 40 45.7 50 54.7 60 18.6 25 45.1 50 HVEA42ACC 208 -230/3 22.6 35 40.6 45 49.7 50 22.6 35 36.1 40 22.6 35 45.1 50 HVEA49ACC 208 -230/3 24.2 35 42.2 45 51.4 60 24.2 35 36.1 40 24.2 35 45.1 50 HVEA6OACC 208 -230/3 27.0 40 45.0 50 54.1 60 27.0 40 36.1 40 27.0 40 45.1 50 HVEA24ACD 460/3 7.3 15 16.3 20 20.8 25 25.3 30 29.8 30 HVEA3OACD 460/3 9.2 15 18.2 20 22.7 25 27.2 30 31.7 35 HVEA36ACD 460/3 10.1 15 19 1 20 23.6 25 28.1 30 32.6 35 HVEA42ACD 460/3 10.4 15 19.4 20 23.9 25 28.4 30 32.9 35 HVEA49ACD 460/3 11.3 15 20.3 25 24.8 25 29.3 30 33.8 35 HVEA6OACD 46 0/3 13.2 20 22.2 25 26.7 30 31.2 35 35.7 40 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (VJre Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker MCA and MFS calculated at 240V for "A" & "C" models. For 460V units • ( "D" models), MCA & MFS calculated at 460V. All 460V units have a step down transformer for 230V motors. AVPA & HVEA PDS 1/2011 14 Unit Load Amps (Heating)- HVEA Air Conditioners with Single Stage Compressor VOLTAGE CURRENT LOAD OF RESISTIVE HEATING ELEMENTS ONLY (AMPS) TOTAL MAXIMUM HEATING AMPS (STANDARD UNIT) MODEL PHASE AMPS NUMBER HERTZ AC' IBM' 04 kW 05 kW 06 kW O8 kW 09 kW 10 kW 12 kW 15 kW 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW HVEA24ACA 208- 230/1/60 18.0 2.8 16.7 20.8 25.0 33.3 n/a 41.7 n/a n/a 19.5 23.6 27.8 36.1 n/a 44.5 n/a n/a HVEA3OACA 208- 230/1/60 18.4 2.8 16.7 20.8 25.0 33.3 n/a 41.7 50.0 62.5 19.5 23.6 27.8 36.1 n/a 44.5 52.8 65.3 HVEA36ACA 208- 230/1/60 22.2 2.8 16.7 20.8 25.0 33.3 n/a 41.7 50.0 62.5 19.5 23.6 27.8 36.1 n/a 44.5 52.8 65.3 HVEA42ACA 208- 230/1/60 25.4 2.8 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 23.6 n/a n/a n/a 44.5 52.8 65.3 HVEA49ACA 208- 230/1/60 28.9 4.3 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 25.1 n/a n/a n/a 46.0 54.3 66.8 HVEA6OACA 208 - 230/1/60 33.5 4.3 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 25.1 n/a n/a n/a 46.0 54.3 66.8 HVEA24ACC 208- 230/3/60 12.3 2.8 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.2 n/a 24.5 n/a 31.7 38.9 HVEA3OACC 208- 230/3/60 13.9 2.8 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.2 n/a 24.5 n/a 31.7 38.9 HVEA36ACC 208- 230/3/60 16.0 2.8 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.2 n/a 24.5 n/a 31.7 38.9 HVEA42ACC 208- 230/3/60 19.2 2.8 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.2 n/a 24.5 n/a 31.7 38.9 HVEA49ACC 208- 230/3/60 20.8 4.3 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 18.7 n/a 26.0 n/a 33.2 40.4 HVEA6OACC 208 - 230/3/60 23.0 4.3 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 18.7 n/a 26.0 n/a 33.2 40.4 HVEA24ACD 460/3/60 6.3 1.4 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.6 n/a 12.2 n/a 15.8 19.4 HVEA3OACD 460/3/60 7.9 1.4 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.6 n/a 12.2 n/a 15.8 19.4 HVEA36ACD 460/3/60 8.6 1.4 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.6 n/a 12.2 n/a 15.8 19.4 HVEA42ACD 460/3/60 8.9 1.4 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.6 n/a 12.2 n/a 15.8 19.4 HVEA49ACD 460/3/60 9.8 2.2 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 9.4 n/a 13.0 n/a 16.6 20.2 HVEA6OACD 460/3/60 11.3 2.2 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 9.4 n/a 13.0 n/a 16.6 20.2 Heating kW rated at 240v. for "A" & "C" models, berate heat ouptput by 25% for operation on 208v. Total heating amps for all 10 units with 15 kW of heat includes both circuits ( #1 & #2). Heater kW rated at 480v. for all "D" models. Note: 30 models contain single phase motor loads. Values shown are maximum phase loads. Loads are not equally balanced on each phase. Total heating and cooling amps include motor loads. 'AC =Air Conditioner 'IBM= Indoor Blower Motor Certified Efficiency & Capacity Ratings at ANSI/AHRI Standard 390 - HVESA Air Conditioners with 2 -Stage Compressor HVESA36 HVESA42 HVESA49 HVESA60 Model Number ACA I ACC J ACD ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD Cooling BTUH' -2nd Stage 35,000 38,000 46,000 56,500 EER' -2nd Stage 11.00 10.70 12.00 10.50 Integrated Part Load Value' 16.0 14.8 16.3 14.8 Rated Air Flow (CFM•) 1,050 1,200 1,800 1,900 • ESP' C Rated Conditions 0.15 0.15 0.20 _ 0.20 'Cooling & EER rated at 95 °F (35 °C) outdoor and 80 °F DB /67° WB (26.5 °C DB /19.5 °C WB) return air ' EER= Energy Efficiency Ratio 'Integrated Part Load Value is an integrated efficiency measure from 1st and 2nd stage capacity modulation. 4 CFM =Cubic Feet per Minute 'ESP = External Static Pressure Ratings are with no outside air. Performance will be affected by altitude. Ratings are at 230 volts for 208/230 volt units ( "A" & "C" models) and 460 volts for "D" models. Operation of units at a different voltage from that of the rating point will affect performance and air flow. Sensible Total Heat Ratio @ 95°F (35 °C) Outside Air = - HVESA Air Conditioners with 2 - Stage Compressor HVESA36 HVESA42 HVESA49 HVESA60 Model Number ACA I ACC I ACD ACA I ACC I ACD ACA I ACC I ACD ACA 1 ACC I ACD Total Capacity 35,000 38,000 46,000 56,500 Sensible Heat Ratio 0.75 0.77 0.80 0.79 Sensible Capacity 26,135 29,125 36,950 44,755 Rated Air Flow (CFM') 1,050 1,200 1,800 1,900 'CFM =Cubic Feet per Minute Sensible heat ratios based upon ANSI /AHRI std. 390 outdoor air conditions of 95 °F (35 °C) and 80 °F DB/67° WB (26.5 °C DB /19.5 °C WB) return air. Stage 2 Cooling Performance (BTUH) at Various Outdoor Temperatures - HVESA Air Conditioners with 2 -Stage Compressor Model Number _ Outdoor Temperature 75 °F / 24 °C 80 °F / 26.5 °C 85 °F / 29 °C 90 °F / 32 °C 95 °F / 35 °C 100 °F / 38 °C 105 ° F / 40.5 °C 110 °F / 43.3 °C 115 °F / 46 °C HVESA36AC 40,600 39,200 37,800 36,400 35,000 33,600 32,200 30,800 30,100 HVESA42AC 44,080 42,560 41,040 39,520 38,000 36,480 34,960 33,440 32,680 HVESA49AC 56,840 54,880 52,920 50,960 49,000 47,040 45,080 43,120 42,140 HVESA6OAC 65,540 63,280 61,020 58,760 56,500 54,240 51,980 49,720 48,590 Based upon ANSI /AHRI std. 390 return air conditions of 80 °F DB/67° WB (26.5 °C DB /19.5 °C WB) at various outdoor temperatures. Return air at rated airflow. 15 AVPA & HVEA PDS 1/2011 Electrical Characteristics - Compressor Fan & Blower Motors HVESA Air Conditioners with 2 -Stage Compressors COMPRESSOR OUTDOOR FAN MOTOR INDOOR FAN MOTOR BASIC - MODEL VOLTS -HZ -PH RLA LRA MCC VOLTS RPM FLA HP VOLTS RPM FLA HP HVESA36ACA 208/230-60 -1 16.6 82.0 26.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVESA42ACA 208/230-60 -1 16.6 96.0 26.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVESA49ACA 208/230-60 -1 21.1 96.0 33.0 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVESA60ACA 208/230-60 -1 25.6 118.0 40.0 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 - HVESA36ACC 208/230 -60 -3 11.1 58.0 17.4 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVESA42ACC 208/230 -60 -3 13.4 88.0 21.0 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVESA49ACC 208/230 -60 -3 13.4 88.0 21.0 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVESA60ACC 208/230-60 -3 17.6 123.0 27.5 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVESA36ACD 460 -60 -3 4.5 29.0 7.0 208/230 -60 -1 825 2.8 1/3 208/230-60-1 1500 2.8 1/2 HVESA42ACD 460 -60 -3 6.1 44.0 9.5 208/230 -60 -1 825 2.8 1/3 208/230 -60 -1 1500 2.8 1/2 HVESA49ACD 460-60-3 6.4 41.0 10.0 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 HVESA60ACD 460 -60 -3 9.0 62.0 14.0 208/230 -60 -1 825 2.8 1/2 208/230 -60 -1 1500 4.3 3/4 RLA = Rated Load Amps LRA = Locked Rotor Amps MCC = Maximum Continuous Current FLA = Full Load Amps RPM = Revolutions per Minute HP = Horse Power All 460V units have a step down transformer for 230V motors. Summary Electrical Ratings (Wire Sizing) - HVESA Air Conditioners with 2 -Stage Compressor Manual Damper ("N") or Economizer ( "C ") Outside Air ELECT. HEAT 000 = None 040 = 4 kw 050 = 5 kw 060 = 6 kw 080 = 8 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS HVESA36ACA 208 -230/1 26.4 40 26.4 40 28.8 40 34.1 40 44.4 45 54.9 60 26.4 40 41.6 45 27.8 40 52.1 60 HVESA42ACA 208 -230/1 26.4 40 28.8 40 54.9 60 26.4 40 41.6 45 27.8 40 52.1 60 HVESA49ACA 208 -230/1 33.5 50 33.5 50 56.4 60 33.5 50 41.6 45 33.5 50 52.1 60 HVESA60ACA 208 -230/1 39.4 60 39.4 60 56.4 60 39.4 60 41.6 45 39.4 60 52.1 60 HVESA36ACC 208 -230/3 19.5 25 20.8 25 29.9 30 38.9 40 47.9 50 HVESA42ACC 208 -230/3 22.4 30 22.4 30 29.9 30 38.9 40 47.9 50 HVESA49ACC 208 -230/3 23.9 35 23.9 35 31.4 35 40.4 45 49.4 50 HVESA60ACC 208 -230/3 29.4 45 30.0 45 31.4 45 40.4 45 49.4 50 HVESA36ACD 460/3 8.4 15 10.4 15 14.9 15 19.4 20 23.9 25 HVESA42ACD 460/3 10.4 15 10.4 15 14.9 15 19.4 20 23.9 25 HVESA49ACD 460/3 11.6 15 11.6 15 15.7 20 20.2 25 24.7 25 HVESA60ACD 460/3 14.8 20 14.8 20 15.7 20 20.2 25 24.7 25 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ("D" models), MCA & MFS calculated at 460V All 460V units have a step down transformer for 230V motors AVPA & HVEA PDS 1/2011 16 Summary Electrical Ratings (Wire Sizing) - HVESA Air Conditioners with 2 -Stage Compressor with Electric Reheat ( "R ") ELECT. HEAT 000 = 040 = 050 = 5 kw 060 = 6 kw 090 = 9 kw 100 = 10 kw 120 = 12 kw 150 = 15 kw None 4 kw 8 kw Reheat (ACA) 10 kw Reheat (ACA) BASIC VOLTAGE CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #1 CKT #1 CKT #2 CKT #1 CKT #2 CKT #1 CKT #2 MODEL PHASE MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS MCA MFS HVESA36ACA 208 -230/1 26.4 40 47.2 50 52.4 60 57.6 60 26.4 40 52.1 60 26.4 40 41.6 45 26.4 40 52.1 60 HVESA42ACA 208 -230/1 26.4 40 52.4 60 57.6 60 26.4 40 52.1 60 26.4 40 41.6 45 26.4 40 52.1 60 HVESA49ACA 208-230/1 33.5 50 33.5 50 26.0 30 33.5 50 52.1 60 33.5 50 41.6 45 33.5 50 52.1 60 HVESA6OACA 208 -230/1 39.4 60 39.4 60 26.0 30 39.4 60 52.1 60 39.4 60 41.6 45 39.4 60 52.1 60 HVESA36ACC 208 -230/3 19.5 25 37.5 40 46.6 50 55.6 60 19.5 25 45.1 50 HVESA42ACC 208 -230/3 22.4 30 40.4 45 49.5 50 58.5 60 22.4 30 45.1 50 HVESA49ACC 208 -230/3 23.9 35 41.9 45 51.0 60 23.9 35 36.1 40 23.9 35 45.1 50 HVESA6OACC 208 -230/3 29.4 45 47.1 50 56.2 60 29.4 45 36.1 40 29.4 45 45.1 50 HVESA36ACD 460/3 8.4 15 17.4 20 21.9 25 26.4 30 30.9 35 HVESA42ACD 460/3 10.4 15 19.4 20 23.9 25 28.4 30 32.9 35 HVESA49ACD 460/3 11.6 15 20.6 25 25.1 30 29.6 30 34.1 35 HVESA6OACD 460/3 14.8 20 23.8 25 28.3 30 32.8 35 37.3 40 This chart should be used as a general guideline for estimating the conductor size and overcurrent protection. Always refer to the data label on the unit for sizing the conductors and overcurrent protection. . MCA = Minimum Circuit Ampacity (Wire Size Amps). MFS = Maximum Fuse Size or HACR circuit breaker MCA and MFS calculated at 240V for "A" & "C" models. For 460V units ( "D" models), MCA & MFS calculated at 460V All 460V units have a step down transformer for 230V motors. Unit Load Amps (Heating) - HVESA Air Conditioners with 2 -Stage Compressor VOLTAGE CURRENT LOAD OF RESISTIVE HEATING ELEMENTS ONLY (AMPS) TOTAL MAXIMUM HEATING AMPS (STANDARD UNIT) MODEL PHASE AMPS NUMBER HERTZ AC' IOM' 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW 04 kW 05 kW 06 kW 08 kW 09 kW 10 kW 12 kW 15 kW HVEA36ACA 208-230/1/60 22.4 2.8 16.7 20.8 25.0 33.3 n/a 41.7 50.0 62.5 19.5 23.6 27.8 36.1 n/a 44.5 52.8 65.3 HVEA42ACA 208 - 230/1/60 22.4 2.8 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 23.6 n/a n/a n/a 44.5 52.8 65.3 HVEA49ACA 208- 230/1/60 28.2 4.3 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 25.1 n/a n/a n/a 46.0 54.3 66.8 HVEA6OACA 208- 230/1/60 32.7 4.3 n/a 20.8 n/a n/a n/a 41.7 50.0 62.5 n/a 25.1 n/a n/a n/a 46.0 54.3 66.8 HVEA36ACC 208- 230/3/60 16.7 2.8 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.2 n/a 24.5 n/a 31.7 38.9 HVEA42ACC 208-230/3/60 19.0 2.8 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 17.2 n/a 24.5 n/a 31.7 38.9 HVEA49ACC 208- 230/3/60 20.5 4.3 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 18.7 n/a 26.0 n/a 33.2 40.4 HVEA6OACC 208- 230/3/60 24.7 4.3 n/a n/a 14.4 n/a 21.7 n/a 28.9 36.1 n/a n/a 18.7 n/a 26.0 n/a 33.2 40.4 HVEA36ACD 460/3/60 7.3 1.4 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.6 n/a 12.2 n/a 15.8 19.4 HVEA42ACD 460/3/60 8.9 1.4 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 8.6 n/a 12.2 n/a 15.8 19.4 HVEA49ACD 460/3/60 10.0 2.2 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 9.4 n/a 13.0 n/a 16.6 20.2 HVEA6OACD 460/3/60 12.6 2.2 n/a n/a 7.2 n/a 10.8 n/a 14.4 18.0 n/a n/a 9.4 n/a 13.0 n/a 16.6 20.2 Heating kW rated at 240v. for "A" & "C" models. Derate heat ouptput by 25% for operation on 208v. Total heating amps for all 10 units with 15 kW of heat includes both circuits ( #1 & #2). Heater kW rated at 480v. for all "D" models. Note: 3o models contain single phase motor loads. Values shown are maximum phase loads. Loads are not equally balanced on each phase. Total heating and cooling amps include motor loads. 'AC =Air Conditioner 'IBM= Indoor Blower Motor 17 AVPA & HVEA PDS 1/2011 DIMENSIONS - AVPA24 -36, AVPSA24 -36 and HVEA24, HVESA24 i ID < 17.00 ' � � 1 1 CICMOUN 1 r7/8 I Q 432 mm 22 mm 1 > 3 ✓ D H T WI Z 16 1/4 OA ® • .. HEATER ACCESS 413 mm SIDE FRESH AIR VENTS 119 ONLY ON UNITS WITH E VENTILATION CONFIGURATIONS M 1 CIRCUIT 'C' �,8. ' ' ' S ' � 16 1/4 2 CI BREAKER o f 41 3mm 7 D -.- 13 3/16 1 11/16 ACCESS 81 mm F 43 mm 69.W 1-.- CI DJ - 0 181 1/2 mm — t 1753 mm 89 mm ) ) :...—=---.—.=-- 1 7 0 b td a 16 1/4 1 ........_. • • • 1 11/16 J f H 413 mm 1 =1 > eigligli 43 mm a � $20 '+qua 36 622 mm ••• •• '•••• AIR _ 26.000 G AIR AIR : • • • • .;t INLET 660mm 16 1/4 � INLET OUTLET } m ' • • 19 mm MO I I L \ 1 1 1 A L 2.00 FLANGE WIDTH 51 mm e) L.H. SIDE FRONT R.H. SIDE BACK 0 0. W MODEL A D E F G H* M r AVPA24/ IN 39 -3/8 8 20 -1/2 12 27 -3/4 20 37 -7/8 AVPSA24 MM 1000 203 521 305 705 508 962 3 a: AVPA30.36/ IN 44 -9/16 8 18 14 28 -1/2 28 43 -1/16 AVPSA30.36 MM 1132 203 457 356 724 711 1094 HVEA24! IN 44 -9/16 8 18 14 28 -1/2 28 43 -1/16 PI- N HVESA24 MM 1132 203 457 356 724 711 1094 , rbs *H DIM IS CENTERED BETWEEN A DIM W AVPA24 /AVPSA24 AVPA30 /36,AVPSA30/36 & HVEA24, HVESA24 BOTTOM MOUNTING BRACKET BOTTOM MOUNTING BRACKET E E E . E 0318'(10mm) E E e 5 E a m 03/8'L10mm) ° " E \ E �° E E ' d F, TYP .Eo d e b 5 m 2 F- TY 4-9/16' (1I6mm) 01 J 4 -3/16' 4.188 _ — 4- 9/16'1116mm)— . 3- 9/16'191mm � I 106mm) 3- 91'(91mm) ) L ( 0 — 1 -1/16' l7mm) i- 1/16 0000 — ( E N E m E ; A C E I X 0 q m E 4^ =E 0 C ^ ' E C a5 $5 .® y 2 n 1- 5/8'141mm) IJ SHIP WEIGHT ( / FILTER SIZE MODEL AVPNAVPSA HVENHVESA MODEL AVPAIAVPSA24 AVPAIAVPSA30 /36 HVEAIHVESA24 24 50 36 24 FILTER SIZE (IN) 16x25x2 16 x30x2 16x30x1 COMPAC I (LBSIKG) 274/125 355/160 355/160 375/171 COMPAC II (LBSIKG) 286/130 365/170 365/170 405/184 FILTER SIZE (MM 406 x 635 x 51 406 x 762 x 51 406 x 762 x 25 DIMENSIONS - AVPA42 -60, AVPSA42 -60 and HVEA30 -42, HVESA30 -42 I _ 0 A - M - Fri A 3 B MOUNTING HOLES CTR. TO CTR. > eM I.- L F 2.00 3/8 SO (10 PLC'S) W (� ��a 51 mm - - 10 mm H ~ • I SUPPLY AIR DUCT Dill W 3 HEATER .. 'w • • ACCE 6�A COVER 4A . 3/4" X 1" E E 19 mm x 25 mm SIDE FRESH AIR VENTS ELECTRICAL ONLY ON UNITS WITH BREAKER K.O.'S VENTILATION CONFIGURATIONS q�, • I ds ' ACCESS C COVER O T I 7s.00 c . � S AIR I • P H R 1981 mm ed III_ "'1I N F I F so ao • 0 •� ._ RETURN AIR DUCT 152a mm 7-*/ U K • = ELECTRICAL K.O.'S 4 3/4" X 1" 1087 mm EN AIR C= �� N 0 19 mm x25 mm OUTLET G G 24.00 • CIO AIR al 610 mm . INNLET + 0 0 152 mm 6.00 M 3� • r H -1 I- -1.500 FLANGE WIDTH .�q 314 " (19 mm)I. D. 38 mm by DRAIN DJ 13 FRONT R.H. SIDE BACK ei y 3750 (6 PLC'S) d� + o mm - A 4.azs 2.z5 + mm m s7 m m } .50 J I. .„„, . 19 .75 19.75 38 mm 502 mm 5 02 mm 41 41,0 u CO 1050 mm rx BOTTOM MTG. BRKT. W /MTG. HOLE LOCATIONS MODEL A B C D E F G H* I J K L M N 0 P Q R n Oa AVPA42.60 /AVPSA42.60 IN 45 -1/8 22 -5/8 86.00 10.00 30.00 16.00 26 -1/2 30.00 1 -5/16 40 -9/16 38 -9/16 1 -1/8 43 -1/2 32 -3/8 30 -3/8 1 -1/4 83 -5/16 1 -3/4 0 M HVEA30 42IHVESA30 - MM 1146 575 2184 254 762 406 673 762 33 1030 979 29 1105 822 772 32 2118 44 Z 0. . *H DIM IS CENTERED BETWEEN A DIM 7,p: 0 < 0 9. SHIP WEIGHT (LBS /KG) FILTER SIZE -I AVPAIAVPSA HVENHVESA MODEL 42 48 60 30 36 42 MODEL AVPAIAVPSA42148160 HVEAIHVESA30136142 ti COMPAC I (LBS /KG) _ 495/225 521/240 535/245. 560/255 560/255 560/255 FILTER SIZE (IN) 22 x 36-1/2 x 2 22 x 36-1/2 x 2 COMPAC II (LBSIKG) 5271240 5521250 565/260 590/268 590/268 590/268 FILTER SIZE (MM 559 x 927 x 51 559 x 927 x 51 _ r -'z`7' ,e -cvr 'xc'' ` �- -�R „.. ,z- ,�,. r a w. ,�. s . } A W 4 � .4 � - ' ti- s0. 7 i f i a �2 �' '' .' '_ s y _ '� - » ,may ^. r '+ 'yg - Vez,--17-„i.;,-,Z4a--.0.d.:_;-,- ;:: 1,:7 :, tt �� £ ' t i'o-° `. w k y. a` '.�� Y �i. . ` -. £, - : d� .-.. '.. .65700 i a' .,., ,.Cc - , . 1`.Y, x- . ,-,,, ,. - , .., i._ ,- y..-_ n.-..-:..0 - - . L• r:'. ..c':,....:.: °- ._ Y - .. :-,:"..-•:•t',`:--5.,`.. i .t..ni -rt w,.v,-3 Dimensional Data - AVPA72 AVPSA72 and HVEA49 /6®, HVESA49/60 ComPac® I & ComPac® II Air Conditioners 44 -7/8' 1140mm 7 -9/16' 29 -3/4' 7 -9/16' I. 43 -1/8' 1192 mm 756 mm 192 mml r1 -5/16' 1095 mm 33 mm 6 __ ) • 45mm • Supply Air I 30" x 10" (No Inel) '1 L __� 762 mm x254 mm !! 17'12• 44 m • . 3/8" (10 mm) Diameter Mou nang • • Holes • . 30 -1 /4' 766 mm 17 12 445 mm Pull Otsconnect 2- 11/16' 2- 11/16' 94-5/16' Access Door 17 -12' 68 mm Realm Air fie mm 2395 mm • 30• x 16' (Nominal) ':_ rem) 2' 51 93 -1/18' 762 mm x406 mm `., •(it mm) 2364 mm • • \ Electrical KO's / • ^ 17 -12' Pi* ‹ ^ \ 445 mm • • • • 40 -3/8• 1 ` \1 11 �� 102. mm �»))D))1))))�� 457 mm Fn • • Cued • , 3 -1/4' (83 mm) I.D D 1 41 -3/4 Ii I } 1061 mm BACK VIEW FRONT VIEW 2• 2 . (` -- • —f- r 13 mm 9 -3/4' 248 mm — I — 2'(51mm) ' - -- • 3750 (6 PLC'S) • lJ 1 4.625 2.25 1 1 1 30 -114' � } .50J 19.75 19.75 --'y 768 mm rElecbtcal 4150 Slots in I Knockout C2 only BOTTOM MTG. BRKT. W /MTG. HOLE LOCATIONS 2-7/13 73 (mm) 1 12 1 58m a') = o SHIP WEIGHT (LBS /KG) 15 -3/4' } � 4 1. 00 mm — AVPN NI4 AVPSA HVEVESA L_ MODEL 72 49 60 _ - Damper COMPAC I (LBS /KG) 600/272 610/277 625/284 Hood COMPAC II (LBSIKGI 640 /290 625/284 640/290 T (Cl only) 46-616• FILTER SIZE � - 1176 mm 35-5/16 897mm . -- — -- _ = MODEL AVPNAVPSA72 IiVENHVESA49160 FILTER SIZE (IN) 18 x 24 x 2 18 x 40 x 1 Coil Guam - _ = FILTER SIZE (MM) 452 x 610 x 51 457 x 1016 x 25 Air Inlet ° . Both Sides — —' I z7s/e• 694 mm . LEFT SIDE VIEW Please consult the Marvair® website at www.marvair.com for the latest product literature. Complete installation instructions are in the ComPac® Air Conditioners I &O Manual. Detailed dimensional data is available upon request. A complete warranty statement can be found in each product's Installation /Operation Manual, on our website or by contacting Marvair at 229 - 273 -3636. As part of the Marvair continuous improvement program, specifications are subject to change without notice. P.O. Box 400 • Cordele, GA 31010 /larva i r® 156 Seedling Drive • Cordele, GA 31015 Ph: 229- 273 -3636 • Fax: 229 - 273 -5154 "' "'•' "` , Email: marvair @airxcel.com • Internet: www.marvair.com AVPA &. PDS 1/2011 20 R AUG 21 2012 Ci3YQFT/GAp EPA J -N Of VlSK) tt ___ –_- — - - _ - - - -__ CNNN IIN FENCE p Il i I 4 /,� I _ ' I – GENERAL NOTES ' • PORTLAND O _I NN -- __ , - Y' ,�R.,cE wm, E„mu EucmC (POE) �__ mu 4 - � i OT., ESE PPARR N R a � _ . J R ' c N, EXis ? r STOP SHED EXIST HOUSE _ - - - I II' - 1 _ s ii orb o •^^` TELEPHONE WO HaR soxwns 3e. Nurrtax ,z , 1 I • �I NORaaxrk OR VW,. sw.,umN .;r< d CO NiN NER -- i ucm vo ma A sm ELBOW. FOP MKS ucEmxc ,w w f %151\ , L� " 1 PO J C ,3 : . a SHED 11 II 1 i ioos k� - W NOTES THIS SHEET ra„5;1 �� piµ O� COORDI PLAC +' ilk ` EcnOO+c 'I O aM OF VAULT INSTALLATION NON CONCA.S,. ' - �' DOCK , � Ili , 0 PROVIDE or . e ,wsoxuPP Pn m u. s saROS PER POE a w. iEMS WETIAND BQUNOL0X� 'I--. x � II 1 01 • c — pO R +.COO O. ox. oous,E -..,i vim_ run um PROVIDE OONr.O,OT OR 1 I ©� ® ! I I ! I — o oo�, AMN D PRIMARY E P NER,.00, ,s, sE R U w I p -=,- �I ..- I r:1 „ �� ' l - I II 1 ., ,, , ''' )_ /____ ii, 1 -__x T O I , ' f — 0111111 jl : I j '1 W PAO —' co CO 1 I a CO X —; z I 1 '� w � a — EEUn 1oD- iq`. k !I a I § w }g ® SITE P • N ® ® PARTIAL SITE PLAN /® Q O 0 W J I El AT FULL SCALE IF fr COES NOT MEASURE, MKS. SCALE ACCORDINGLY , 51 - IEET 1 OF a, ea 0 0 © p • � CLE1. "�+�, �u�xuu cri+ v.'w Ax¢ ID O ONE- o ONE-LINE DIAGRAM NOTES w i a. 800A MCA AO. 2 w, °. EEL Roxrxm lzl a -, /rc. -L/ ` •�CE `x DIE ' O. 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BJ aEW o woPN , m,1 co,...,„, s, FCU PRCp )I D © Tx euc AMOR.. MOR.. w.Mxc'ms�'A vJ y;?�' U r' - ® ©° VOLUME COMLST FAN S1wL u.',NATE .(S) WM. CPI AND YELLOW FnEns E W LVNwMG wo, DETECTOR CAUTION MIT MU. SOUND. 0 RR v.D ,w m NG DEITC,OREACHES my Ffl m oon Fa m �a Y• K DX HYDROGEN 177 ©O� •J � •'. [1]-...- wW,.SEMD OFD eY uEMw� BE Pao • INSTALLED IHm�,IG APPROVED, 9..IF WM+S. 'An2gNO MOORS. ° ..a OS NODa eD, w 1:BUaeN.n) OR PP APPnorc u EQON. F n TC AND DO NOT SNOW NJ. OFTSETS Boas 2 - G : 0© ,r ° v m Q DE Ormc,cnuw m .N A.D CAP ^. .D oozy, i .uortr.E ADO.. e E� 11„...ORatsPoiN " • WI" v _ .MODEL APPROVED awl 2 © ( 9 p - _ - - - - - - - - - - -- wcc -e OR - sD oR ° ixn AT NO ..01.1. ..01.1. cos - T ° P.M F - " w 2oD D,NP ww „ " � <_ : - .r. SW. F OPEN UPON LOSS of Pam EMT. v.. pm., E rs DI TS � ©00 ��. �.:. � �.�.n.. , m I FMB OF SIDE .A,DRE msoR cum AND N A. EQUIPMENT MO WITERVES CURRENT „N x D. N ecru, E.....,...._ ©o ° v ° Azt o © ..a, '� p t O _BOOT TES-530 ixsB .. r.. ,,,, 0 ijii I r vv© p yr SUPPLY AND J /A Rm. rt. UNEs. B �wNnN M . OB xo M �.— • BY TERNS �P N Dn DmBM BE RED RED _,. v . Oo p AC UNIT SEQUENCE OF OPERATION s AT a s REQUEST. O ' TED PvawNn ON EQUIPMENT MO ,r v 0O© BE ASSIGNED µ M.O., OEw As TM"_ -. N IN 1•001/ L,- x„NBEx CONVEY STMED ON JS ° _ I � ; � v LAC "` O ON N , NR B S U TM Z D DOCTOR E,xE4,a TO ,aa NE. of (rump) 'w" s,M "` LL ROTATE � AoJ wn UiT E n rn F>as, row. _ R� t O rlaiak J- - - " = O � -�' a. ) UNT (DEFAULT NO FINISHES. PA NA DR (MORE) w.• ID (MOM R. I. ODD PANEL SHALL WIGTON THE FAN WATIS AND K. CALL N II.. MT. DN ALL . .... i NR L CUT wNL on nPE �xSTAUATDx B,L M.A. zE s TQO A ,un m .S NmU xD ELECT. MOTORS 3.1 MVE .17-24 THERMAL °MERLON] PROM.. OR FAILS nE` ° OP COMM De "TEMPERATURE DBnm. «SU o o�S. Eli /' B A,N� a PRO.. AN PP.! ,UPPUEws OF EQUIPMENT NSTN,m ON wRN AREL 9111111 e A,�GHPNICAL PLAN ® P. P. UBC SEE.. 20Ne KOURENE,TS. s""` B` "s`"10 to MISCELLANEOUS EQUIPMENT SCHEDULE BATTERY VENTILATION CALCULATION UJ 091 DESCRIPTION 5 TON NR CONOMONER WM1 FACTORY MULLED E,L< oMR. HYDROGEN ,me , B R00 ■ z. • ,NQ 5 m _rq; se /500 * 5 W S .0- ,S) F r. z P,u0m M.S. ''"'""'a "'Tx - 0.0111 WRINGS ■ z. . ,O AIMS p ALARM. H. w I. MCA CO QQ,Q n„ . B BmwDS N ,A aF03 . ,N ANPB (I) G ,i: 5, LEAD/MC / O UMNL U D °SPLAY AND WA. Cl) CO - z wo. -' 63 OF a) A N WILL BE -� I a .0 RATTE. VRIA MIS �/ QiaRF,,,RN DoD - FOR I') D, ds o SOPS I -30X OF MESE MOUNTS, Ui u' ,E N MAns w. AO DNT NHL ¢ F w ii ADM GROUND /11 O oHN %� CONNECTION REMOTE TE, TURE BEiT FOR DOC 3 TANN _,. _ �OT. R e Qo 0 J SLOPE TOWARD MAN SENSOR AT EOM. FAN VIGH .CNORAIT OwEPATOR LEG. DIRT E ,_ T w A u u u A Oz w NO. 113Z ® ABOVE GROUND TANK LL1l1� TO SAM TA, ,O,mo0 J M1 NQT w JRE •