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REVIEWED BLD -LOCKED BLD2024-1269+Manufacturer_Specifications_and_Installation_Instructions+9.26.2024_2.55.59_PM+4526664AWARNING: RECOGNIZE THIS SYMBOL AS AN INDICATION OF IMPORTANT SAFETY INFORMATION AWARNING THESE INSTRUCTIONS ARE INTENDED AS AN AID TO QUALIFIED, LICENSED SERVICE PERSONNEL FOR PROPER INSTALLATION, ADJUSTMENT, AND OPERATION OF THIS UNIT. READ THESE INSTRUCTIONS THOROUGHLY BEFORE ATTEMPTING INSTALLATION OR OPERATION. FAILURE TO FOLLOW THESE INSTRUCTIONS MAY RESULT IN IMPROPER INSTALLATION, ADJUSTMENT, SERVICE, OR MAINTENANCE POSSIBLY RESULTING IN FIRE, ELECTRICAL SHOCK, PROPERTY DAMAGE, PERSONAL INJURY, OR DEATH. Do not destroy this manual. Please read carefully and keep in a safe place for future reference by a serviceman. [ ] indicates metric conversions. 92-105074-04-02 (3/15) Printed in USA R-41 OA HEAT PUMP OUTDOOR UNITS INSTALLATION INSTRU(TIONS RP13 (13 SEER) RP14 (14 SEER) AND RP15 (15 SEER) C ISO 9001:2008 CONTENTS Important SafetyInformation ............................................. 3 GeneralInformation ........................................ 4-7 Checking Product Received ........................................4 Application...................................................................4 Electrical and Physical Data ..................................... 5-6 Specifications............................................................... 7 Proper Installation........................................................7 Installation....................................................8-19 Choosinga Location......................................8-10 Operational Issues........................................................8 Corrosive Environment.................................................8 For Units With Space Limitations.........................................................9 Customer Satisfaction Issues......................................9 Start-Up......................................................29-33 Start-Up......................................................................29 Checking Airflow........................................................29 Evacuation Procedure ............................................... 30 Final Leak Testing.......................................................30 Checking Refrigerant Charge ...................................... 31-33 Charging Units With R-410A Refrigerant............................................31 Confirm ID Airflow and Coils Are Clean...................................................31 Measurement Device Setup.......................................31 Charging by Weight....................................................31 Gross Charging by Pressures....................................32 Final Charge by Subcooling.......................................32 Finishing Up Installation.............................................33 Unit Mounting...............................................................9 Components and Controls ............................... 34 Factory -Preferred Tie -Down Method.........................................................9 Snow Depth Table......................................................10 Tools and Refrigerant.......................................11 Tools Required for Installing and Servicing R-410A Models ...... Specifications of R-410A...........................................11 Quick -Reference Guidefor R-410A.......................................................11 ....................................11 Replacement Units ........... Indoor Coil........................................................12 Location.................................. ................................12 ....................................12 Interconnecting Tubing................................12-26 Refrigerant Level Adjustment..................................... 12 Maximum Length of Lines..........................................12 Outdoor Unit Installed Above or Below Indoor Coil ................................. 13-26 Tubing Installation......................................................24 Tubing Connections...................................................25 LeakTesting...............................................................26 Wiring.........................................................27-28 ControlWiring............................................................27 Conventional 24 VAC Thermostat Control Wiring ..... Typical Thermostat Wiring Diagrams .........................27 Power Wiring .......................... ....................................28 Grounding................................................................... 28 Compressor Crankcase Heat(CCH)......................................34 Hard -Start Components....................................34 High- and Low -Pressure Controls (HPC and LPC)....................................34 Demand Defrost ................................................... 35-36 Accessories..................................................... 37 Remote Outdoor E IMPORTANT SAFETY INFORMATION AWARNINGS: • These instructions are intended as an aid to qualified, licensed service personnel for proper installation, adjustment, and operation of this unit. Read these instructions thoroughly before attempting installation or operation. Failure to follow these instructions may result in improper installation, adjustment, service, or maintenance possibly resulting in fire, electrical shock, property damage, personal injury, or death. • The unit must be permanently grounded. Failure to do so can cause electrical shock resulting in severe personal injury or death. • Turn off electric power at the fuse box or service panel before making any electrical connections. • Complete the ground connection before making line voltage connections. Failure to do so can result in electrical shock, severe personal injury, or death. • Disconnect all power to unit before starting maintenance. Failure to do so can cause electrical shock resulting in severe personal injury or death. • Never assume the unit is properly wired and/or grounded. Always test the unit cabinet with a noncontact voltage detector available at most electrical supply houses or home centers before removing access panels or coming into contact with the unit cabinet. • Do not use oxygen to purge lines or pressurize system for leak test. Oxygen reacts violently with oil, which can cause an explosion resulting in severe personal injury or death. • The top of the scroll compressor shell is hot. Touching the compressor top may result in serious personal injury. • The manufacturer's warranty does not cover any damage or defect to the unit caused by the attachment or use of any components, accessories, or devices (other than those authorized by the manufacturer) into, onto, or in conjunction with the heat pump. You should be aware that the use of unauthorized components, accessories, or devices may adversely affect the operation of the heat pump and may also endanger life and property. The manufacturer disclaims any responsibility for such loss or injury resulting from the use of such unauthorized components, accessories, or devices. ACAUTIONS: • R-410A systems operate at approximately 60% higher pressures (1.6 times) than R-22 systems. Do not use R-22 service equipment or components on R-410A equipment. Use appropriate care when using this refrigerant. Failure to exercise care may result in equipment damage or personal injury. • Only match this outdoor unit with a matched indoor coil or air handler approved for use with this outdoor unit per the unit manufacturer's specification sheet. The use of unmatched coils or air handler will likely result in a charge imbalance between the cooling and heating modes which can cause unsatisfactory operation including a high-pressure switch lockout condition. • Only use indoor coils approved for use on R-410A systems. An R-22 coil will have a TXV or fixed restrictor device that is not designed to operate properly in an R-410A system and will result in serious operational issues. The R-22 coil could also contain mineral oil which is incompatible with the POE oil used in R-410A systems and could result in reliability issues with the compressor and TXVs. • When coil is installed over a finished ceiling and/or living area, it is required that a secondary sheet metal condensate pan be constructed and installed under the entire unit. Failure to do so can result in property damage. • The compressor has an internal overload protector. Under some conditions, it can take up to 2 hours for this overload to reset. Make sure overload has had time to reset before condemning the compressor. • UNIT MAY START SUDDENLY AND WITHOUT WARNING. A flashing red light on the heat pump/ defrost control indicates a call for unit operation is present at the heat pump/defrost control. The heat pump/defrost control will attempt to start unit after the anti -short cycle time expires, when a high or low pressure control automatically resets, or when the heat pump/defrost control exits the lockout mode as the temperature rises above 5°F. 3 GENERAL INFORMATION AWARNING: Improper installation, or installation not made in accordance with these instructions, can result in unsatisfactory operation and/or dangerous conditions and can cause the related warranty not to apply. The RP series of heat pumps are designed to operate with standard 24 VAC thermostats and air handlers or gas furnaces. This installation instruction manual contains complete instructions for installation and setup using conventional 24 VAC controls. Please refer to the manufacturer's specification sheets for complete performance data, thermostat, and accessory listings. The information contained in this manual has been prepared to assist in the proper installation, operation, and maintenance of the air conditioning system. Read this manual and any instructions packaged with separate equipment required to make up the system prior to installation. Homeowner should retain this manual for future reference. To achieve optimum efficiency and capacity, the matching indoor cooling coils listed in the manufacturer's specification sheet must be used for this model heat pump. Checking Product Received Upon receiving unit, inspect it for any shipping damage. Claims for damage, either apparent or concealed, should be filed immediately with the shipping company. Check model number, electrical characteristics, and accessories to determine if they are correct. Check system components (indoor coil, outdoor unit, air handler/furnace, etc.) to make sure they are properly matched. Application Before specifying any heat pump equipment, a survey of the structure and a heat loss and heat gain calculation must be made. A heat loss calculation involves identifying all surfaces and openings that lose heat to the surrounding air and quantifying that heat loss. A cooling heat gain calculation makes similar measurements and determines the amount of heat needed to be removed. A heat gain calculation also calculates the extra heat load caused by sunlight and by humidity removal. These factors must be considered before selecting a heat pump system to provide year-round comfort. The Air Conditioning Contractors of America (ACCA) J Manual method of load calculation is one recognized procedure for determining the heating and cooling load. After the proper equipment combination has been selected, satisfying both sensible and latent requirements, the system must be properly installed. Only then can the unit provide the comfort it was designed to provide. There are several factors that installers must consider. • Outdoor unit location • Indoor unit blower speed and airflow • Proper equipment evacuation • Supply and return air duct design and sizing • Refrigerant charge • System air balancing • Diffuser and return air grille location and sizing 4 GENERAL INFORMATION Electrical and Physical Data i ELECTRICAL PHYSICAL Model Number Voltage Phase Freq Compressor Fan Motor Full Load Amperes (FLA) Minimum Circuit Ampacity Amperes Fuse or HACR Circuit Breaker Outdoor Coil Refrig. Per Circuit (oZ ) [g] Weight Rated Load Amperes (RLA) LockedRotor Amperes (LRA) Face Area Sq. Ft. [m ] No. Rows CFM [Us] Net Lbs. [ kgl Shipping Lbs. [kg] Minimum Amperes Maximum Amperes RP1336ACINA 208-230 3 60 10.4 73.0 0.60 14 20/20 20/20 14.82 [1.38] 1 3333 [1573] 111 [3146] 171 F7.61 184 [83.51 RP1342ACl NA 208-230 3 60 13.5 88.0 1.00 18 25/25 30/30 14.82 [1.38] 1 2933 [1384] 155 [4394] 201 [91.2] 208 [94.3] RP1348ACINA 208-230 3 60 13.7 83.1 1.20 19 25/25 30/30 19.76 [1.84] 1 4055 [1913] 143 [40541 227 [103.01 234 [106.11 RP1360ACI NA 208-230 3 60 15.9 110.0 1.00 21 25/25 35/35 1 24.23 [2.25] 1 1 4780 [P255] 232 [6577] 262 [118.8] 269 [122.0] RP1336ADINA 460 3 60 5.8 38.0 0.50 8 15/15 15115 14.82 [1.38] 1 3333 [1573] 111 [31461 171 F7.61 178 [80.1 RP1342ADl NA 460 3 60 6.0 44.0 0.50 8 15/15 15115 14.82 [1.38] 1 2933 [1384] 155 [4394] 201 [91.2] 208 [94.3] RP134MDl NA 460 3 60 6.2 41.0 0.60 9 15/15 15/15 19.76 [1.84] 1 4055 [1913] 143 [4054] 227 [103.01 234 [106.11 RP1360ADINA 460 3 60 7.1 52.0 0.50 10 15115 15/15 24.23 [2.25] 1 4780 [2255] 232 [65717] 262 [118.8] 269 [122.0] RP14 ELECTRICAL PHYSICAL Model Number Voltage Phase Freq Compressor Fan Motor Full Load Amperes (FLA) Minimum Circuit Ampacity Amperes Fuse or HACR Circuit Breaker Outdoor Coil Refrig. Per Circuit (oz.) [g] Weight Rated Load Amperes (RLA) Lacked Rotor Amperes (LRA) Face Area Sq. R. [m�] No. Rows CFM [Us] Net Lbs. [kg] Shipping Lbs. [kg] Minimum Amperes Maximum Amperes RP1418AJlNA 208-230 1 60 9/9 48.0 0.70 12 15/15 20/20 9.06 [0.84] 1 2411 [1137] 97 [27501 151 [68.5] 158 F1.71 RP1424AJl NA 208-230 1 60 10.3/10.3 61.6 0.70 14 20/20 20/20 9.06 [0.84] 1 2411 [1137] 89 [2523] 146 [66.2] 153 [69.41 RP1430AJl NA 208-230 1 60 14.1 /14.1 73.0 0.70 19 25/25 30/30 11.14 [1.03] 1 2535 [1196] 106 [3005] 155 [70.31 162 [73.5] RP1436AJINA 208-230 1 60 16.7/16.7 79.0 0.60 22 30/30 35/35 14.82 [1.38] 1 3333 [1573] 111 [3146] 177 [80.3] 184 [83.51 RP1442AJlNA 208-230 1 60 17.9117.9 112.0 0.90 24 30/30 40/40 14.82 [1.38] 1 2933 [1384] 155 [4394] 201 [91.2] 208 [94.31 RP144W1 NA 208-230 1 60 21.8/21.8 117.0 1.20 29 35135 50/50 19.76 [1.82] 1 4055 [1913] 143 [4054] 227 [103.0] 234 [106.1] RP1460AJl NA 208/230 1 60 23.7/23.7 152.5 1.00 31 40/40 50/50 24.23 [2.25] 1 4780 [2255] 232 [6577] 262 [118.81 269 [122.0] RP1436ACINA 208-230 3 60 10.4 73.0 0.60 14 20/20 20/20 14.82 [1.38] 1 3333 [1573] 111 [3146] 177 [80.3] 184 [83.51 RP1442AClNA 208-230 3 60 13.5 88.0 1.00 18 25/25 30/30 14.82 [1.38] 1 2933 [13841 155 [4394] 201 [91.2] 208 [94.31 RP144BAClNA 208-230 3 60 13.7 83.1 1.20 19 25125 30/30 19.76 [1.84] 1 4055 [1913] 143 [4054] 227 [103.0] 234 [106.1] RP1460ACl NA 208-230 3 60 15.9 110.0 1.00 21 25/25 35/35 24.23 [2.25] 1 4780 [2255] 232 [6577] 262 [118.81 269 [122.0] RP1436ADl NA 460 3 60 5.8 38.0 0.50 8 15/15 15/15 14.82 [1.38] 1 3333 [1573] 111 [3146] 177 [80.3] 184 [83.5] RP1442AD1 NA 460 3 60 6.0 44.0 0.50 8 15/15 15/15 14.82 [1.38] 1 2933 [13841 155 [4394] 201 [91.4 208 [94.31 RP1448AD1 NA 460 3 60 6.2 41.0 0.60 9 15/15 15/15 19.76 [1.84] 1 4055 [1913] 143 [4054] 227 [103.0] 234 [106.1] RP1460AD1 NA 460 3 60 7.1 52.0 0.50 10 15/15 15/15 24.23 [2.25] 1 4780 [2255] 232 [6577] 262 [118.8] 269 [122.0] RP15 ELECTRICAL PHYSICAL Model Number Voltage Phase Freq Compressor Fan Motor Full Load Amperes (FLA) Minimum Circuit Ampacity Amperes Fuse or HACR Circuit Breaker Outdoor Coil Refrig. Per iri Circut c [g] Weight Rated Load Amperes (RLA) Locked Rotor Amperes (LRA) Face Area Sq. Ft. [m) No. Rows CFM [US] Net Lbs. [kg] Shipping Lbs. [kg] Minimum Amperes Maximum Amperes RP1518AJl NA 208-230 1 60 9/9 48.0 0.70 12 15/15 20/20 9.06 [0.84] 1 2411 [1131 97 [2750] 149 [67.6] 156 [70.8] RP1518BJl NA 208-230 1 60 9/9 47.5 0.70 12 1 15/15 20/20 9.06 [0.84] 1 2411 [1137] 99 [2806] 149 [67.6] 156 [70.8] RP1524AJl NA 208-230 1 60 10.3/10.3 61.6 0.70 14 20/20 20/20 11.14 [1.03] 1 2478 [11691 88 [2495] 152 [68.9] 159 V2.1 ] RP1524BJl NA 208-230 1 60 10.9/10.9 62.9 0.70 15 20/20 25/25 11.14 [1.03] 1 2478 [1691 105 [2971 152 [68.91 159 V2.11 RP1530AJl NA 208-230 1 60 14.1/14.1 73.0 1.00 19 25/25 30/30 17.29 [1.61] 1 3852 [1817] 122 [3459] 191 [86.6] 198 [89.8] RP1530BJl NA 208-230 1 60 12.8/12.8 67.8 1.00 18 25/25 25/25 17.29 [1.61] 1 3852 [1817] 116 [3288] 191 [86.6] 198 [89.8] RP1536AJI NA 208-230 1 60 15.4/15.4 83.9 2.80 22 30130 35/35 19.76 [1.84] 1 3121 [14721 118 [3345] 199 [90.3] 206 [93.4] RP1542AJl NA 208-230 1 60 17.9/17.9 112.0 1.00 24 30/30 40/40 19.76 [1.84] 1 3815 [1800] 139 [3941] 221 [100.2] 228 [103.4] RP1548AJl NA 208-230 1 60 18.5/18.5 124.0 2.80 26 35/35 40/40 24.23 [P.25] 1 4379 [2066] 188 [53301 257 [116.6] 264 [119.7] RP1560AJl NA 208-230 1 60 23.7/23.7 152.5 1.00 31 40/40 50/50 28.26 [2.62] 1 3654 [1724] 212 [6010] 278 [126.11 285 [129.31 RP1536AClNA 208-230 3 60 10.4 73.0 2.80 16 20/20 25/25 19.76 [1.84] 1 3121 [1472] 124 [3515] 199 [90.3] 206 [93.4] RP1542ACl NA 208-230 3 60 13.5 88.0 1.00 18 25/25 30/30 19.76 [1.84] 1 3815 [18001 145 [41101 221 [100.4 228 [103.41 RP1548ACl NA 208-230 3 60 13.8 83.1 2.80 21 25/25 30/30 24.23 [2.25] 1 4379 [2066] 194 [55001 257 [116.6] 264 [119.7] RP1560ACl NA 208-230 3 60 15.9 110.0 1.00 21 25/25 35/35 28.26 [2.62] 1 3654 [1724] 223 [6321] 278 [126.11 285 [129.3] GENERAL INFORMATION R P 14 24 A J 1 N T MINOR SERIES CONTROLS C - COMMUNICATING N - NON -COMMUNICATING TYPE 1 - SINGLE STAGE P - PISTON VOLTAGE J = 1 PH, 208-230/60 C = 3 PH, 208-230/60 D = 3 PH, 460/60 MAJOR SERIES CAPACITY 18 = 18000 BTU/HR [5.28 kW] 24 = 24000 BTU/HR [7.03 kW] 30 = 30000 BTU/HR [8.79 kW] 36 = 36000 BTU/HR [10.55 kW] 42 = 42000 BTU/HR [12.31 kW] 48 = 48000 BTU/HR [14.07 kW] 60 = 60000 BTU/HR [17.58 kW] 13 SEER 14 SEER 15 SEER HEAT PUMP BRAND ALLOW 60" [1524mm] OF CLEARANCE 6" 1152 mm] OF CLEARANCE ALL SIDES 12" [305 mm] RECOMMENDED 3VICE PANELS/ ET CONNECTIONS / H & LOW VOLTAGE ;ESS ALLOW [610 mm] OF :ARANCE ST-A1226-02-00 0 GENERAL INFORMATION -0 Specifications DIMENSIONAL DATA RP13 18, 24, 30 36,42 48 60 Height "H" inches (mm) 25 (635) 27 (686) 35 (889) 39 (991) Length "L" inches (mm) 29.75 756 33.75 857 33.75 857 35.75 908 Width "W" inches (mm) 29.75 (756) 33.75 (857) 33.75 (857) 35.75 (908) RP14 18, 24, 30 36,42 48 60 Height "H" inches (mm) 25 (635) 27 (686) 35 (889) 39 (991) Length "L" inches (mm) 29.75 756 33.75 857 33.75 857 35.75 908 Width "W" inches (mm) 29.75 (756) 33.75 (857) 33.75 (857) 35.75 (908) RP15 18,24 30 36,42 48 60 Height "H" inches (mm) 25 (635) 27 (686) 27 (686) 31 (787) 35 (889) Length "L" inches (mm) 29.75 756 29.75 756 33.75 857 33.75 857 35.75 908 Width "W" inches (mm) 29.75 (756) 29.75 (756) 33.75 (857) 33.75 (857) 35.75 (908) Proper Installation Proper sizing and installation of this equipment is critical to achieve optimal performance. Use the information in this Installation Instruction Manual and reference the applicable manufacturer's specification sheet when installing this product. IMPORTANT: This product has been designed and manufactured to meet ENERGY STAR criteria for energy efficiency when matched with appropriate indoor components. However, proper refrigerant charge and proper airflow are critical to achieve rated capacity and efficiency. Installation of this product should follow the manufacturer's refrigerant charging and airflow instructions. Failure to confirm proper charge and airflow may reduce energy efficiency and shorten equipment life. MATCH ALL COMPONENTS: • OUTDOOR UNIT • INDOOR COIL • INDOOR AIR HANDLER/FURNACE • REFRIGERANT LINES • INDOOR THERMOSTAT 7 INSTALLATION 0 Choosing a Location IMPORTANT. -Consult local and national building codes and ordinances for special installation requirements. Following location information will provide longer life and simplified servicing of the outdoor heat pump. NOTICE: These units must be installed outdoors. No ductwork can be attached, or other modifications made, to the discharge grille. Modifications will affect performance or operation. Operational Issues IMPORTANT: Locate the unit in a manner that will not prevent, impair, or compromise the performance of other equipment installed in proximity to the unit. Maintain all required minimum distances to gas and electric meters, dryer vents, and exhaust and inlet openings. In the absence of national codes or manufacturers' recommendations, local code recommendations and requirements will take precedence. • Refrigerant piping and wiring should be properly sized and kept as short as possible to avoid capacity losses and increased operating costs. • Locate the unit where water runoff will not create a problem with the equipment. Position the unit away from the drip edge of the roof whenever possible. Units are weatherized, but can be affected by the following: • Water pouring into the unit from the junction of rooflines, without protective guttering. Large volumes of water entering the heat pump while in operation can impact fan blade or motor life, and coil damage may occur to a heat pump if moisture cannot drain from the unit under freezing conditions. • Freezing moisture or sleeting conditions can cause the cabinet to ice -over prematurely and prevent heat pump operation, requiring backup heat, which generally results in less economical operation. • Closely follow the clearance recommendations on page 8. • 24" [61.0 cm] to the service panel access • 60" [152.4 cm] above heat pump fan discharge (unit top) to prevent recirculation • 6" [15.2 cm] to heat pump coil grille air inlets with 12" [30.5 cm] minimum recommended Corrosive Environment The metal parts of this unit may be subject to rust or deterioration if exposed to a corrosive environment. This oxidation could shorten the equipment's useful life. Corrosive elements include, but are not limited to, salt spray, fog or mist in seacoast areas, sulphur or chlorine from lawn watering systems, and various chemical contaminants from industries such as paper mills and petroleum refineries. If the unit is to be installed in an area where contaminants are likely to be a problem, special attention should be given to the equipment location and exposure. • Avoid having lawn sprinkler heads spray directly on the unit cabinet. • In coastal areas, locate the unit on the side of the building away from the waterfront. • Shielding provided by a fence or shrubs may give some protection, but cannot violate minimum airflow and service access clearances. • Elevating the unit off its slab or base enough to allow air circulation will help avoid holding water against the base pan. AWARNING: Disconnect all power to unit before starting maintenance. Failure to do so can cause electrical shock resulting in severe personal injury or death. Regular maintenance will reduce the buildup of contaminants and help to protect the unit's finish. • Frequent washing of the cabinet, fan blade, and coil with fresh water will remove most of the salt or other contaminants that build up on the unit. • Regular cleaning and waxing of the cabinet with a good automobile polish will provide some protection. • A good liquid cleaner may be used several times a year to remove matter that will not wash off with water. 0 -0 Choosing a Location (cont.) For Units With Space Limitations In the event that a space limitation exists, we will permit the following clearances: Single -Unit Applications: Clearances below 6" [15.2 cm] will reduce unit capacity and efficiency. Do not reduce the 60" [152.4 cm] discharge or the 24" [61.0 cm] service clearances. Multiple -Unit Applications: When multiple condenser grille sides are aligned, a 6" [15.2 cm] clearance is recommended for 1.5 and 2 ton models and 9" [22.9 cm] for 2.5 ton to 5 ton models. Two combined clearances below the minimum will reduce capacity and efficiency. Do not reduce the 60" [152.4 cm] discharge or 24" [61.0 cm] service clearances. I "BOVE ON MMMMMMMME FI1W;M,0 AIR INLET LOUVERS ALLOW 6' [152 mm] Min. OF CLEARANCE ALL SIDES 12" [305 mm] RECOMMENDEC SERVICE PANELS/ __e�� INLET CONNECTIONS " /HIGH & LOW VOLTAGEACCESS ALLOW 24" [610 mm] OF ST-A1226-04-00 CLEARANCE Customer Satisfaction Issues • The heat pump should be located away from the living, sleeping, and recreational spaces of the owner and those spaces on adjoining property. • To prevent noise transmission, the mounting pad for the outdoor unit should not be connected to the structure and should be located a sufficient distance above grade to prevent ground water from entering the unit. Unit Mounting AWARNING: Secure an elevated unit and its elevating stand in order to prevent tipping. Failure to do so may result in severe personal injury or death. Elevation of Unit If elevating the heat pump, either on a flat roof or on a slab, observe the following guidelines. INSTALLATION • If elevating a unit on a flat roof, use 4" x 4" [10.2 cm x 10.2 cm] or equivalent stringers positioned to distribute unit weight evenly and prevent noise and vibration. • Where snowfall is anticipated, raise the unit above the base pad to prevent ice buildup and coil damage. Mount the unit high enough to be above the average accumulated area snowfall. See "Ground Snow Depth" chart on page 9 for representative snow depths. NOTICE: Do not block drain openings on bottom of unit. • If unit must be elevated because of anticipated snowfall, secure unit and elevating stand such that unit and/or stand will not tip over or fall off. Keep in mind that someone may try to climb on unit. Factory -Preferred Tie -Down Method for High Wind or Seismic Loads IMPORTANT: The manufacturer- approved/recommended method is a guide to securing equipment for wind and seismic loads. Other methods might provide the same result, but the manufacturer method is the only one endorsed by the manufacturer for securing equipment where wind or earthquake damage can occur. Additional information is available in the PTS (Product Technical Support) section of the manufacturer's Web sites Rheemote.net, MyRheem.com, or MyRuud.com and can be found as a listing under each outdoor model. If you do not have access to this site, your distributor can offer assistance. E INSTALLATION Choosing J a Location (cont.) >= o - a GROUND SNOW DEPTH - INCHES CD ALABAMA INDIANA MINNESOTA NEW MEXICO PENNSYLVANIA VIRGINIA Huntsville 7 Evansville 12 Duluth 64 Albuquerque 4 Allentown 23 Dulles Airport 19 ARIZONA Fort Wayne 17 International Falls 43 Clayton 10 Erie 19 Lynchburg 16 Flagstaff 48 Indianapolis 21 Minneapolis/St. Paul 50 Roswell 8 Harrisburg 23 National Airport 18 Prescott 3 South Bend 44 Rochester 50 NEW YORK Philadelphia 16 Norfolk 9 Winslow 7 IOWA St. Cloud 53 Albany 25 Pittsburgh 22 Richmond 12 ARKANSAS Burlington 17 MISSISSIPPI Binghamton 35 Scranton 16 Roanoke 17 Ft. Smith 5 Des Moines 22 Jackson 3 Buffalo 42 Williamsport 20 WASHINGTON Little Rock 6 Dubuque 38 MISSOURI NYC - Kennedy Airport 18 RHODE ISLAND Olympia 24 CALIFORNIA Sioux City 33 Columbia 21 NYC - LaGuardia Airport 18 Providence 21 Quillayute 24 Blue Canyon 25 Waterloo 36 Kansas City 18 Rochester 38 SOUTH CAROLINA Seattle -Tacoma 14 Mt. Shasta 69 KANSAS St. Louis 16 Syracuse 35 Columbia 12 Spokane 41 COLORADO Concordia 23 Springfield 14 NORTH CAROLINA Greenville 4 Stampede Pass 51 Alamosa 15 Dodge City 12 MONTANA Asheville 12 SOUTH DAKOTA Yakima 25 Colorado Springs 14 Goodland 14 Billings 17 Cape Hattaras 5 Aberdeen 42 WEST VIRGINIA Denver 15 Topeka 19 Glasgow 17 Charlotte 10 Huron 43 Beckley 51 Grand Junction 16 Wichita 11 Great Falls 16 Greensboro 11 Rapid City 14 Charleston 20 Pueblo 7 KENTUCKY Havre 24 Raleigh -Durham 10 Sioux Falls 38 Elkins 21 CONNECTICUT Covington 12 Helena 18 Wilmington 9 TENNESSEE Huntington 15 Bridgeport 23 Lexington 12 Kalispell 53 Winston-Salem 17 Bristol 8 WISCONSIN Hartford 29 Louisville 11 Missoula 23 NORTH DAKOTA Chattanooga 6 Green Bay 36 New Haven 15 MAINE NEBRASKA Bismarck 25 Knoxville 8 La Crosse 32 DELAWARE Caribou 100 Grand Island 30 Fargo 34 Memphis 5 Madison 32 Wilmington 13 Portland 62 Lincoln 20 Williston 25 Nashville 8 Milwaukee 32 GEORGIA MARYLAND Norfolk 29 OHIO TEXAS WYOMING Athens 5 Baltimore 17 North Platte 15 Akron -Canton 15 Abilene 6 Casper 10 Macon 8 MASSACHUSETTS Omaha 20 Cleveland 16 Amarillo 10 Cheyenne 15 IDAHO Boston 30 Scottsbluff 11 Columbus 10 Dallas 3 Lander 20 Boise 6 Nantucket 18 Valentine 22 Dayton 11 ElPaso 5 Sheridan 25 Lewiston 9 Worcester 35 NEVADA Mansfield 17 Fort Worth 6 0 Pocatello 7 MICHIGAN Elko 20 Toledo Express 8 Lubbock 10 ILLINOIS Alpena 53 Ely 9 Youngstown 12 Midland 2 Chicago O'Hare 18 Detroit City 9 Reno 11 OKLAHOMA San Antonio 3 Chicago 22 Detroit Airport 17 Winnemucca 6 Oklahoma City 5 Wichita Falls 5 Moline 17 Detroit -Willow Run 21 NEW HAMPSHIRE Tulsa 8 UTAH Peoria 16 Flint 28 Concord 66 OREGON Milford 16 Rockford 25 Grand Rapids 37 NEW JERSEY Burns City 24 Salt Lake City 8 Springfield 23 Houghton Lake 56 Atlantic City 11 Eugene 17 Wendover 3 Lansing 42 Newark 15 Medford 8 VERMONT Marquette 53 Pendleton 11 Burlington 37 Muskegon 43 Portland 10 Sault Ste. Marie 80 Salem 7 NOTICE: Local records and experience must be considered when establishing the unit installation height. There is a 2% probability that the ground snow depth shown in this table will be exceeded annually. Drifts have not been considered. This data represents 184 National Weather Service locations at which measurements are made and assumes a nationwide snow density of 12 lb./ft.3 10 -0 Tools and Refrigerant Tools Required for Installing and Servicing R-410A Models Manifold Sets: - Up to 800 PSIG High -Side - Up to 250 PSIG Low -Side - 550 PSIG Low -Side Retard Manifold Hoses: - Service Pressure Rating of 800 PSIG Recovery Cylinders: - 400 PSIG Pressure Rating - Dept. of Transportation 4BA400 or BW400 Ambient and Tube Thermometers � Crescent Wrench Allen Wrench Manifold - Gauge Set Reclaimer Nitrogen ACAUTION: R-410A systems operate at higher pressures than R-22 systems. Do not use R-22 service equipment or components on R-410A equipment. Specifications of R-410A Application: R-410A is not a drop -in replacement for R-22. Equipment designs must accommodate its higher pressures. It cannot be retrofitted into R-22 heat pumps. Physical Properties: R-410A has an atmospheric boiling point of-62.9°F [-52.7°C] and its saturation pressure at 770F [25°C] is 224.5 psig. Composition: R-410A is a near-azeotropic mixture of 50% by weight difluoromethane (HFC- 32) and 50% by weight pentafluoroethane (HFC- 125). INSTALLATION Pressure: The pressure of R-410A is approximately 60% (1.6 times) greater than R-22. Recovery and recycle equipment, pumps, hoses, and the like must have design pressure ratings appropriate for R-410A. Manifold sets need to range up to 800 psig high -side and 250 psig low -side with a 550 psig low -side retard. Hoses need to have a service pressure rating of 800 psig. Recovery cylinders need to have a 400 psig service pressure rating, DOT 4BA400 or DOT BW400. Combustibility: At pressures above 1 atmosphere, a mixture of R-410A and air can become combustible. R-410A and air should never be mixed in tanks or supply lines or be allowed to accumulate in storage tanks. Leak checking should never be done with a mixture of R-410A and air. Leak -checking can be performed safely with nitrogen or a mixture of R-410A and nitrogen. Quick -Reference Guide For R-410A • R-410A refrigerant operates at approximately 60% higher pressure (1.6 times) than R-22. Ensure that servicing equipment is designed to operate with R-410A. • R-410A refrigerant cylinders are light rose in color. • R-410A, as with other HFCs, is only compatible with POE oils. • Vacuum pumps will not remove moisture from POE oil used in R-410A systems. • R-410A systems are to be charged with liquid refrigerants. Prior to March 1999, R-410A refrigerant cylinders had a dip tube. These cylinders should be kept upright for equipment charging. Post -March 1999 cylinders do not have a dip tube and should be inverted to ensure liquid charging of the equipment. • Do not install a suction line filter drier in the liquid line. • A factory -approved biflow liquid line filter drier is shipped with every unit and must be installed in the liquid line at the time of installation. Only manufacturer -approved liquid line filter driers can be used. These are Sporlan (CW083S) and Alco (80K083S) driers. These filter driers are rated for minimum working pressure of 600 psig. The filter drier will only have adequate moisture -holding capacity if the system is properly evacuated. • Desiccant (drying agent) must be compatible for POE oils and R-410A refrigerant. 0 0 u 11 INSTALLATION 0 Replacement Units To prevent failure of a new unit, the existing line set must be correctly sized and cleaned or replaced. Care must be exercised that the expansion device is not plugged. For new and replacement units, a liquid line filter drier must be installed and refrigerant tubing must be properly sized. Test the oil for acid. If positive, a suction line filter drier is mandatory. -0 Indoor Coil ACAUTION: Only use evaporators approved for use on R-410A systems that are specifically matched with the outdoor unit per the manufacturer's specification sheets. Use of existing R-22 evaporators can introduce mineral oil to the R-410A refrigerant, forming two different liquids and decreasing oil return to the compressor. This can result in compressor failure. REFER TO INDOOR COIL MANUFACTURER'S INSTALLATION INSTRUCTIONS. IMPORTANT: The manufacturer is not responsible for the performance and operation of a mismatched system or for a match listed with another manufacturer's coil. NOTICE: All outdoor units must be installed with a matched TXV indoor coil. Refer to manufacturer's outdoor unit specification sheet for approved indoor coils. -0 Interconnecting Tubing The purpose of this section is to specify the best construction/sizing practices for installing interconnection tubing between the indoor and outdoor unit. Refrigerant Level Adjustment All units are factory -charged with R-410A refrigerant to cover 15 feet of standard size interconnecting liquid and vapor lines with a required field installed filter drier. Adjustment of charge may be necessary even if the application has exactly 15 feet of line set due to other installation variables such as pressure drop, vertical lift, and indoor coil size. For different lengths, adjust the charge as indicated below. IMPORTANT. -When replacing an R-22 unit with an R-410A unit, either replace the line set or ensure that residual mineral oil is drained from existing lines including oil trapped in low spots. The thermostatic expansion valve in the matching coil is specifically designed to operate with R-410A. DO NOT use an R-22 TXV or evaporator. The existing evaporator must be replaced with the factory -specified TXV evaporator specifically designed for R-410A. Location Do not install the indoor coil in the return duct system of a gas or oil furnace. Provide a service inlet to the coil for inspection and cleaning. Keep the coil pitched toward the drain connection. ACAUTION: When coil is installed over a finished ceiling and/or living area, it is required that a secondary condensate pan be installed under entire unit. Failure to do so can result in property damage. • 1/4" ± .3 oz./foot [6.4 mm ± 8.5 g/.30 m] • 5/16" ± .4 oz./foot [7.9 mm ± 11.3 g/.30 m] • 3/8" ± .6 oz./foot [9.5 mm ± 17.0 g/.30 m] • 1/2" ± 1.2 oz./foot [12.7 mm ± 34.0 g/.30 m] • 6 oz. required factory supplied field -installed filter drier. Charge Adjustment = (Line Set (oz./ft.) x Total Length) — Factory Charge for Line Set Example: A three ton heat pump unit with factory installed 3/8" liquid service valve requires 75 ft. of line set with a liquid line diameter of 1/2". Factory Charge for Line Set = 15 ft. x .6 oz. = 9 oz. Charge Adjustment = (1.2 oz. x 75 ft.) — 9 oz. _ + 81 oz. 12 -0 Interconnecting Tubing (cont.) Interconnecting Tubing and Fitting Losses Refrigerant tubing is measured in terms of actual length and equivalent length. Actual length is used for refrigerant charge applications. Equivalent length takes into account pressure losses from INSTALLATION tubing length, fittings, vertical separation, acces- sories, and filter dryers. The table below references different commonly used equivalent lengths. Table 1 Equivalent Length for Fittings (ft) Line Size (in) 90° Short Radius Elbow 90° Long Radius Elbow 450 Elbow Solenoid Valve Check Valve Site Glass Filter Dryer 3/8 1.3 0.8 0.3 6 4 0.4 6 1/2 1.4 0.9 0.4 9 5 0.6 6 5/8 1.5 1 0.5 12 6 0.8 6 3/4 1.9 1.3 0.6 14 7 0.9 6 7/8 2.3 1.5 0.7 15 8 1 6 1-1/8 2.7 1.8 0.9 22 12 1.5 6 Liquid Line Selection The purpose of the liquid line is to transport warm sub -cooled liquid refrigerant from the outdoor unit to the indoor unit. It is important not to allow the refrigerant to flash any superheated vapor prior to the expansion device of the indoor coil. The flashing of refrigerant can occur for the following reasons: • Low refrigerant charge • Improperly selected liquid line size • Absorption of heat prior to expansion device • Excessive vertical rise between the condenser and evaporator Table 2 lists the equivalent length per 25' of liquid line at various diameters up to 300'. The total pres- sure drop allowed for the liquid line is 50 PSI. The procedure for selecting the proper liquid line is as follows: • Measure the total amount of vertical rise • Measure the total amount of liquid line needed • Add all of the equivalent lengths associated with any fittings or accessories using the table above. • Add the total length and fitting pressure drop. This will equal your total equivalent length. • Round -down the total eauivalent lenath to the closest value in Table 2. • Reference Table 2 to verify the rounded -down value of the calculated equivalent length is com- patible with the required vertical rise and diam- eter of liquid line. Note: Elevation is defined as the highest point of the line set to the lowest c 27 ca n 13 INSTALLATION OInterconnecting Tubing (cont.) Example: A 3-Ton heat pump unit is installed 50' below the ID unit, requires a 75' of 1/2" diameter liquid line, and 4 90' LR elbows. • Fitting Equivalent Length (ft.) = 4 x .9 = 3.6' • Total Equivalent Length (ft.) = 75' + 3.6' = 78.6' • Rounded -down value (ft.) = 75' This application is acceptable because the 50' vertical rise is less than the maximum rise of 75' for this application. The application is also considered to have a long line set. Reference the long line set section of the 1&0 for detail. Liquid Line Size R410A Liquid Line Elevation (Above or Below) Indoor Coil System Size Liquid Line Capacity Connection Size (inch Size (Inch O.D.) (mm] Total Equivalent Length - Feet [m] 25 [7.62] 1 50 [15.2 75 [22.86] 100 [30,48] 1 125 [45.72] 1 150 [45,72] 1 175 [53.34] 1 200 [60,96] 1 225 [68,58] 1 250 [76,20] 1 275 [83,82] 1 300 [91,441 Model I.D.) [mm] Maximum Vertical Separation - Feet [m] 114 [6.35] 25 [7.62] 1 N/R I E/R I N/R I N/R I N/R I N/R I N/R I N/R I N/R I N/R I N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 6 8.29] 45 [13.72] 35 [10.67] 20 [6.1] 5 [1.52] N/R N/R N/R N/R N/R 37 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 86] 80 [24.38] 80 [24.38] 75 [22.86] 70 [21.34] 65 [19.81] 60 [18.29] 55 [16.761 50 [15.241 45 [13.72] 7116 [11.121 25 [7.62] 1 50 [15.2 75 [22.8 95 [28.96] 1 90 [27.43] 1 90 [27.43] 1 85 [25.91] 1 85 [25.91] 1 85 [25.91] 1 80 [24.38] 1 80 [24.381 80 [24.381 112 [12.711 25 [7.62] 1 50 [15.2 75 [22.8 95 [28.96] 1 95 [28.96] 1 95 [28.96] 1 95 [28.96] 1 95 [28.96] 1 95 [28.96] 1 90 [27.43] 1 90 [27.431 90 [27.431 (Exerpt from Table 2, page 17) Long Line Set Applications Long line set applications are defined as applica- tions that require accessories or alternate construc- tion methods. The following are special consider- ations that need to be addressed when installing a as long line set application: c • Additional refrigerant charge • Fitting losses and maximum equivalent length considerations • Refrigerant migration during the off cycle • Oil return to the compressor • Capacity losses • System oil level adjustment Table 2 is used to determine if the application is considered to have a long line set. The region of the chart that is shaded grey is considered to be a long line set application. Oil Level Adjustments for Long Line Set Applications Additional oil will need to be added for long line set applications. (Ref. Table 2). Below is the equation for the oil level adjustment and the compressor name plate oil charge for the different od units. Oil to be Added = [(Charge Adjustment + OD Unit Name Plate Charge (oz.)) x (0.022) - [(0.10) x (Compressor Name Plate Oil Charge (oz.))] Example: An application requires 125ft of line set with a liquid line diameter of 3/8", Charge Adjust- ment = 52.4 oz., Name Plate Charge = 107 oz., Name Plate Oil Charge = 25 oz., Oil to be Added = ((52.4 oz. +107 oz.) x .022) - (.10 x 25 oz.) = 1.0 oz. OD Model Compressor Name Plate Oil Charge (oz) Factory Installed CCH RP1336AC ZP31K5E-TF5-13R 42 N RP1342AC ZP36K5E-TF5-13R 42 Y RP1348AC ZP42K5E-TF5-13R 42 N RP1360AG ZP49K6E-TF5-130 42 Y RP1336AD ZP31K5E-TFD-1313 42 N RP1342AD ZP36K5E-TFD-1313 42 Y RP1348AD ZP42K5E-TFD-13R 42 Y RP1360AD ZP49K6E-TFD-130 42 Y OD Model Compressor Name Plate Oil Charge (oz) Factory Installed CCH RP1436AC ZP31K5E-TF5-13R 42 N RP1442AC ZP36K5E-TF5-13R 42 Y RP1448AC ZP42K5E-TF5-13R 42 N RP1460AG ZP49K6E-TF5-130 42 Y RP1436AD ZP31 K5E-TFD-1 3R 42 N RP1442AD ZP36K5E-TFD-13R 42 Y RP1448AD ZP42K5E-TFD-13R 42 Y RP1460AD ZP49K6E-TFD-130 42 Y OD Model Compressor Name Plate Oil Charge (oz) Factory Installed CCH RP1418AJ ZP16K5E-PFV-1313 21 N RP1442AJ ZP21 K6E-PFV-1 30 21 N RP1430AJ ZP25K5E-PFV-13R 25 N RP1436AJ ZP31 K5E-PFV-13R 21 N RP1442AJ ZP36K5E-PFV-13R 42 N RP1448AJ ZP42K5E-PFV-13R 42 Y RP1460AJ ZP49K6E-PFV-130 42 N 14 -0 Interconnecting Tubing (cont.) 0o model Compressor Name Plate Oil Charge (oz) Factory Installed CCH RP1518AJ ZP16K5E-PFV-1313 21 N RP1518BJ ZP14K6E-PFV-130 21 N RP1524AJ ZP21 K5E-PFV-1 3R 21 N RP1524BJ ZP20K6E-PFV-130 21 N RP1530AJ ZP25K5E-PFV-1313 25 N RP1530BJ ZP24K6E-PFV-130 25 N RP1536AJ ZP31 K6E-PFV-1 30 21 N RP1542AJ ZP36K5E-PFV-1313 42 N RP1548AJ ZP40K6E-PFV-130 42 N RP1560AJ ZP49K6E-PFV-130 42 Y RP1536AC ZP31K6E-TF5-130 21 N RP1542AC ZP36K5E-TF5-13R 42 N RP1548AC ZP40K6E-TF5-130 42 Y RP1560AC ZP49K6E-TF5-130 42 Y Suction Line Selection Purpose of the suction line is to return superheated vapor to the condensing unit from the evaporator. Proper suction line sizing is important because it plays an important role in returning oil to the com- pressor to prevent potential damage to the bear- ings, valves, and scroll sets. Also, an improperly sized suction line can dramatically reduce capacity NSTALLATION and performance of the system. The procedure for selecting the proper suction line is as follows: • The total amount of suction line needed • Add all of the equivalent lengths associated witl- any fittings or accessories using the table on previous page. • Add the total length and fitting pressure drop. This will equal your total equivalent length. • Reference Table 2 to verify that the calculated equivalent length falls within the compatibility region of the chart. • Verify Table 3 to verify the capacity difference is compatible with the application. Refrigerant Migration During Off Cycle Long line set applications can require a consider- able amount of additional refrigerant. This addition- al refrigerant needs to be managed throughout the entire ambient operating envelope that the system will go through during its life cycle. Off -Cycle mi- gration is where excess refrigerant condenses and migrates to the lowest part of the system. Exces- sive build-up of refrigerant at the compressor will result in poor reliability and noisy operation during startup. This section demonstrates the required accessories and unit configuration for different ap- plications. OUTDOOR UNIT LEVEL OR NEAR LEVELTO INDOOR SECTION LINE SET 15 INSTALLATION -0 Interconnecting Tubing (cont.) For applications that are considered to have a long line set with the outdoor unit and indoor unit on the same level the following is required: • TXV or EEV on the indoor unit • Start components may be required depending upon quality of voltage (consistantly <200vac at outdoor unit) • Crankcase heater (Some models have factory in- stalled CCH's. Refer to tables on pages 14 and 15.) • Insulated liquid and suction line • Vapor line should slope toward the indoor unit • Follow the proper line sizing, equivalent length, charging requirements, and oil level adjustments spelled out in this document and the outdoor units 1&O • Verify at least 50F sub -cooling at the ID unit prior to throttling device OUTDOOR UNIT BELOW INDOOR SECTION LINE SET For applications that are considered to have a long line set with the outdoor unit below the indoor unit the following is required: • TXV or EEV at the IDunit • Crankcase heater (Some models have factory installed CCH's. Refer to tables on pages 14 and 15.) • Start components may be required depending upon quality of voltage (consistantly <200vac at OD unit) • Refrigerant lines should be routed even with the top of the ID coil or an inverted trap is to be ap- plied (refer to figure 4). • Insulated liquid and suction line • Follow the proper line sizing, equivalent length, charging requirements, and oil level adjustments spelled out in this document and the outdoor units 1&O • Measure pressure at the liquid line service valve and prior to expansion device. Verify that it is not greater than 50 PSI • For elevations greater that 25' can expect a lower sub -cooling 16 P_ 0 Interconnecting Tubing (cont.) OUTDOOR UNIT ABOVE INDOOR SECTION LINE SET For applications that are considered to have a long line set with the outdoor unit above the indoor unit the following is required: • TXV at the indoor unit • Crankcase heater (Some models have factory installed CCH's. Refer to tables on pages 14 and 15.) • Start components maybe required depending upon quality of voltage (consistantly <200 vac at outdoor unit) INSTALLATION Insulated liquid and suction line Follow the proper line sizing, equivalent length, charging requirements, and oil level adjustments spelled out in this document and the outdoor units 1&O Verify at least 5°F sub -cooling at the ID unit prior to throttling device 17 Z INSTALLATION '0 "" Interconnecting Tubing R-410A System Ca acit Model p y Liquid Line Size Connection Size Inch ( I.D. ) Liquid Line Size (Inch O.D.) O. Liquid Line Selection Chart Elevation (Above or Below) Indoor Coil Total Equivalent Length -Feet [m] [mm] 25 [7.62] 1 50 [15.24] 1 75 [22.86] 1 100 [30.48] 1 125 [45.72] 1 150 [45.72] 1 175 [53.34] 1 200 [60.96] 1 225 [68.58] 1 250 [76.20] 275 [83.82] 300 [91.44] Maximum Vertical Separation - Feet [m] 1/4 [6.35] 25 [7.62] 50 [15.24] 30 [9.14] 10 [3.05] N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 75 [22.86] 80 [24.381 75 [22.86] 70 [21.341 60 [18.29] 55 [16.761 50 [15.241 45 [13.72] 35 [10.67] 30 [9.14] RP1324 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 75 [22.86] 95 [28.961 95 [28.96] 95 [28.96] 90 [27.43] 90 [27.43] 85 [25.911 85 [25.911 80 [24.38] 80 [24.38] 7/16 [11.121 25 [7.62] 50 [15.241 75 [22.861 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 95 [28.961 95 [28.961 95 [28.961 1/2 [12.71] 25 [7.62] 50 [15.241 75 [22.861 100 [30.48] 100 [30.481 100 [30.48] 100 [30.48] 100 [30.481 100 [30.48] 100 [30.481 100 [30.48] 100 [30.481 1/4 [6.35] 25 [7.62] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.241 55 [16.76] 1 45 [13.721 30 [9.14] 20 [6.1] N/R N/R N/R N/R N/R N/R RP1336 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 75 [22.86] 75 [22.86] 70 [21.34] 70 [21.34] 65 [19.81] 60 [18.29] 55 [16.761 50 [15.24] 45 [13.72] 40 [12.19] 7/16 [11.121 25 [7.62] 50 [15.241 75 [22.861 85 [25.911 85 [25.911 85 [25.911 80 [24.381 80 [24.381 80 [24.381 75 [22.861 75 [22.861 70 [21.341 1/2 [12.71] 25 [7.62] 50 [15.24] 75 [22.86] 90 [27.43] 90 [27.43] 90 [27.43] 90 [27.43] 85 [25.911 85 [25.911 85 [25.91] 85 [25.91] 85 [25.911 1/4 [6.35] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 35 [10.671 10 [3.05] N/R N/R N/R N/R N/R N/R N/R N/R N/R RP1348 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 55 [16.76] 45 [13.72] 40 [12.19] 30 [9.14] 25 [7.62] 15 [4.57] 10 [3.05] N/R N/R N/R 7/16 [11.121 25 [7.62] 50 [15.241 70 [21.341 65 [19.811 60 [18.291 60 [18.291 55 [16.761 50 [15.241 50 [15.241 45 [13.721 45 [13.721 40 [12.191 1/2 [12.71] 25 [7.62] 50 [15.24] 75 [22.86] 1 70 [21.341 70 [21.34] 70 [21.341 65 [19.811 65 [19.81] 65 [19.811 65 [19.81] 60 [18.29] 60 [18.291 1/4 [6.35] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 10 [3.05] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R RP1360 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 40 [12.19] 30 [9.14] 20 [6.1] 10 [3.05] N/R N/R N/R N/R N/R N/R 7/16 [11.12 25 [7.62] 50 [15.241 60 [18.291 55 [16.761 50 [15.241 45 [13.721 40 [12.191 40 [12.191 35 [10.671 30 [9.14] 25 [7.62] 20 [6.1] 1/2 [12.71] ] 25 [7.62] 1 50 [15.241 65 [19.81] 65 [19.811 60 [18.29] 60 [18.29] 60 [18.291 55 [16.761 55 [16.761 50 [15.24] 50 [15.24] 1 50 [15.24] NOTES: N/R = Application not recommended. Grey =This application is acceptable, but the long line guidelines must be followed. Reference Long Line Set section in the 1&0 6uipi 00 T Tubing INSTALLATION 41. Interconnectinq Tubin R-410A System Capacity Model p Ty Liquid Line Size Connection Size (Inch I.D. ) [mm] Liquid Line Size (Inch O.D.) [mm] Liquid Line Selection Chart Elevation (Above or Below) Indoor Coil Total Equivalent Length - Feet [m] 25 [7.62] 50 [15.24] 75 [22.86] 100 [30,48] 125 [45.72] 1 150 [45.72] 1 175 [53.34] 200 [60.96] 225 [68.58] 1 250 [76.20] 1 275 [83.82] 1 300 [91.44] Maximum Vertical Separation - Feet [m] 1/4 6.35 25 [7.621 50 15.24 60 18.29 50 15.24 35 10.67 20 6.11 N/R N/R N/R N/R NIR N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 75 [22.861 90 [27.431 85 [25.911 85 [25.91] 80 [24.381 75 [22.861 70 [21.341 70 [21.34] 65 [19.811 60 [18.291 3/8- [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 75 [22.861 100 [30.481 100 [30.481 100 [30.481 95 [28.961 95 [28.961 95 [28.961 90 [27.431 90 [27.431 90 [27.431 RP1418 7/16 [11.121 25 [7.62] 50 [15.241 75 [22.861 100 [30.481 105 [32] 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 1/2 [12.711 25 [7.62] 50 [15.241 75 [22.861 100 [30.481 105 [32] 105 [32] 105 [32] 105 [32] 105 [32] 105 [32] 100 [30.481 100 [30.481 1/4 6.35 25 7.62 50 [15.24] 30 [9.14] 10 [3.05] N/R N/R N/R N/R N/R NIR N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.241 75 [22.861 80 [24.381 75 [22.86] 70 [21.34] 60 [18.291 55 [16.761 50 [15.241 45 [13.721 35 [10.67] 30 [9.14] RP1424 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.861 95 [28.961 95 [28.96] 95 [28.96] 90 [27.431 90 [27.431 85 [25.911 85 [25.911 80 [24.381 80 [24.381 7116 [11.12] 1 25 [7.62] 1 50 [15.24] 75 [22.861 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 95 [28.961 95 [28.961 95 [28.961 112 [12.711 25 [7.62] 1 50 [15.241 75 [22.861 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 1/4 [6.35] 25 [7.62] 30[9.14] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.241 75 [22.861 65 [19.811 55 [16.761 50 [15.241 40 [12.191 30 [9.14] 25 [7.62] 15 [4.57] 5 [1.52] N/R RP1430 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.861 90 [27.431 85 [25.91] 80 [24.381 80 [24.381 75 [22.861 75 [22.861 70 [21.341 65 [19.81] 65 [19.811 7/16 [11.12] 25 [7.62] 50 [15.24] 75 [22.861 95 [28.96] 1 95 [28.961 90 [27.431 90 [27.431 90 [27.431 90 [27.431 85 [25.911 85 [25.911 85 [25.911 1/2 [12.711 25 [7.62] 50 [15.241 75 [22.861 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 90 [27.43] 1/4 [6.35] 25 [7.62] N/R I N/R N/R N/R N/R N/R N/R N/R NIR N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 55 [16.761 45 [13.72] 30 [9.14] 20 [6.1] N/R N/R N/R N/R N/R N/R RP1436 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.86] 75 [22.861 70 [21.341 70 [21.341 65 [19.811 60 [18.291 55 [16.761 50 [15.241 45 [13.721 40 [12.191 7/16 [11.121 25 [7.62] 50 [15.24] 75 [22.861 85 [25.911 85 [25.91] 85 [25.91] 80 [24.381 80 [24.381 80 [24.381 75 [22.86] 75 [22.861 70 [21.341 1/2 [12.71] 25 [7.62] 50 [15.241 75 [22.861 90 [27.431 90 [27.431 90 [27.431 90 [27.431 85 [25.911 85 [25.911 85 [25.911 85 [25.911 85 [25.911 1/4 6.35 5 1.52 N/R N/R N/R NIR N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 40 [12.19] 25 [7.62] 5 [1.52] N/R N/R N/R N/R N/R N/R N/R N/R RP1442 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 60 [18.291 50 [15.24] 45 [13.72] 40 [12.191 35 [10.671 30 [9.14] 20 [6.1] 15 [4.57] 10 [3.05] N/R 7/16 [11.12] 25 [7.62] 50 [15.241 70 [21.341 65 [19.811 65 [19.811 60 [18.291 60 [18.291 55 [16.761 55 [16.761 50 [15.241 50 [15.241 45 [13.721 1/2 [12.71] 25 [7.62] 50 [15.24] 70 [21.341 70 [21.34] 70 [21.34] 70 [21.34] 65 [19.81] 65 [19.811 65 [19.811 65 [19.81] 60 [18.291 60 [18.29] 1/4 6.35 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 35 [10.67] 10 [3.05] N/R NIR N/R N/R N/R N/R NIR N/R N/R RP1448 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 55 [16.761 45 [13.721 40 [12.19] 30 [9.14] 25 [7.62] 15 [4.57] 10 [3.05] NIR N/R N/R 7116 [11.121 25 [7.62] 50 [15.241 70 [21.341 65 [19.811 60 [18.291 60 [18.291 55 [16.761 50 [15.241 50 [15.241 45 [13.721 45 [13.721 40 [12.191 1/2 [12.711 25 [7.62] 50 [15.241 75 [22.86] 1 70 [21.341 70 [21.341 70 [21.341 65 [19.811 65 [19.811 65 [19.811 65 [19.811 60 [18.291 60 [18.291 1/4 [6.35] N/R N/R N/R N/R N/R N/R N/R N/R N/R NIR N/R N/R 5/16[7.94] 25[7.62] 10[3.05] N/R N/R NIR N/R N/R N/R N/R NIR N/R N/R RP1460 3/8" [9.53] 318 [9.53] 25 [7.62] 50 [15.241 40 [12.191 30 [9.14] 20 [6.1] 10 [3.05] N/R N/R N/R N/R N/R N/R 7/16 [11.12] 25 [7.62] 50 [15.24] 60 [18.291 55 [16.761 50 [15.24] 45 [13.72] 40'12.19] 40 [12.191 35 [10.671 30 [9.14] 25 [7.62] 20 [6.1] 1/2 [12.71] 25 [7.62] 50 [15.24] 65 [19.81] 65 [19.81] 60 [18.29] 60 [18.29] 60 [18.29] 55 [16.76] 1 55 [16.76] 1 50 [15.24] 1 50 [15.24] 1 50 [15.24] NOTES: N/R = Application not recommended. Grey =This application is acceptable, but the long line guidelines must be followed. Reference Long Line Set section in the 1&0 INSTALLATION Interconnecting Tubing R-410A System Ca aci Model p tY Liquid Line Size Connection Size Inch I.D. ( ) [mm] Liquid Line Size (Inch O.D.) mm]h O. Liquid Line Size Elevation Above or Below Indoor Coil Total Equivalent Length -Feet [m] 25 [7.62] 1 50 [15.241 75 [22.86] 1 100 [30.48] 1 125 [45.72] 1 150 [45.72] 1 175 [53.34] 1 200 [60.96] 1 225 [68.58] 1 250 [76.20] 1 275 [83.82] 1 300 [91.441 Maximum Vertical Separation - Feet [m] 1/4 [6.351 25 7.62 50 15.241 60 18.291 50 15.24 35 10.67 20[6.1] N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 75 [22.86] 90 [27.431 85 [25.91] 85 [25.91] 80 [24.38] 75 [22.861 70 [21.34] 70 [21.34] 65 [19.81] 60 [18.29] RP1518A 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 75 [22.86] 100 [30.48] 100 [30.48] 100 [30.48] 95 [28.96] 95 [28.96] 95 [28.96] 90 [27.43] 90 [27.43] 90 [27.43] 7/16 [11.12] 25 [7.62] 50 [15.24] 75 [22.861 100 [30.481 105 [321 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 100 [30.481 1/2 [12.71] 25 [7.62] 50 [15.24] 75 [22.86] 100 [30.48] 105 [32] 105 [32] 105 [32] 105 [32] 105 [32] 105 [32] 100 [30.48] 100 [30.48] 1/4 [6.35] 25 [7.62] 50 [15.241 55 [16.761 40 [12.191 25 [7.62] 10 [3.05] N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 17.62] 50 [15.24] 75 [22.86] 85 [25.91] 80 [24.38] 80 [24.38] 75 [22.86] 70 [21.34] 65 [19.81] 60 [18.29] 60 [18.29] 55 [16.76] RP1518B 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.861 95 [28.961 95 [28.96] 95 [28.961 90 [27.431 90 [27.431 90 [27.431 85 [25.911 85 [25.911 85 [25.911 7/16 [11.12] 25 [7.62] 50 [15.241 75 [22.86] 100 [30.48] 100 [30.48] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.961 1/2 [12.711 25 [7.62] 50 [15.24] 75 [22.861 100 [30.48] 100 [30.48] 100 [30.481 100 [30.48] 100 [30.48] 100 [30.48] 100 [30.48] 100 [30.48] 95 [28.96] 1/4 6.35 25 7.621 50 [15.241 30 [9.14] N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.241 75 [22.861 80 [24.381 70 [21.341 65 [19.811 60 [18.291 50 [15.241 45 [13.721 40 [12.19] 35 [10.671 25 [7.62] RP1524A 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.861 95 [28.961 90 [27.431 90 [27.431 90 [27.431 85 [25.911 85 [25.911 80 [24.381 80 [24.381 75 [22.861 7/16 [11.12] 25 [7.62] 50 [15.24] 75 [22.86] 100 [30.48] 100 [30.48] 95 [28.96] 95 [28.96] 95 [28.961 95 [28.961 95 [28.96] 95 [28.96] 90 [27.43] 1/2 [12.711 25 [7.62] 50 [15.241 75 [22.861 100 [30.481 100 [30.481 100 [30.481 100 [30.48] 100 [30.48] 100 [30.48] 100 [30.481 95 [28.961 95 [28.961 1/4 [6.35] 25 [7.62] 50 [15.24] 30 [9.14] 10 [3.05] N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 1 25 [7.62] 50 [15.241 75 [22.86] 1 80 [24.381 75 [22.861 65 [19.81] 1 60 [18.29] 1 55 [16.761 50 [15.241 45 [13.72] 1 35 [10.671 30 [9.14] RP1524B 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.24] 75 [22.86] 95 [28.96] 90 [27.43] 90 [27.43] 90 [27.43] 85 [25.91] 85 [25.91] 80 [24.38] 80 [24.38] 75 [22.86] 7/16 [11.121 25 [7.621 50 [15.241 75 [22.861 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 95 [28.961 90 [27.431 112 [12.71] 25 [7.62] 50 [15.24] 75 [22.86] 100 [30.48] 100 [30.48] 100 [30.48] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 1/4 [6.35] 25 [7.621 30 [9.14] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 70 [21.34] 60 [18.29] 55 [16.76] 45 [13.72] 35 [10.671 30 [9.14] 20 [6.1] 10 [3.05] N/R N/R RP1530A 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.861 85 [25.911 80 [24.381 80 [24.381 75 [22.861 70 [21.341 70 [21.341 65 [19.811 65 [19.811 60 [18.291 7/16 [11.12] 25 [7.62] 50 [15.24] 75 [22.86] 90 [27.43] 90 [27.43] 90 [27.43] 85 [25.91] 85 [25.91] 85 [25.91] 85 [25.91] 80 [24.38] 80 [24.38] 1/2 [12.711 25 [7.62] 50 [15.241 75 [22.861 95 [28.96] 95 [28.96] 90 [27.43] 90 [27.43] 90 [27.431 90 [27.43] 90 [27.43] 90 [27.43] 90 [27.43] 1/4 6.35 25 7.62 30 9.141 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.241 70 [21.341 65 [19.811 55 [16.761 45 [13.721 40 [12.191 30 [9.14] 20 [6.1] 15 [4.57] N/R N/R RP1530B 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 75 [22.86] 85 [25.91] 80 [24.38] 80 [24.38] 75 [22.86] 75 [22.86] 70 [21.34] 70 [21.34] 65 [19.81] 60 [18.29] 7/16 [11.12] 25 [7.62] 50 [15.24] 75 [22.86] 90 [27.43] 90 [27.43] 90 [27.43] 90 [27.43] 85 [25.911 85 [25.911 85 [25.91] 85 [25.911 80 [24.38] 1/2 [12.71] 1 25 [7.62] 1 50 [15.24] 75 [22.861 95 [28.961 95 [28.961 95 [28.961 95 [28.961 90 [27.431 90 [27.431 90 [27.431 90 [27.431 90 [27.431 1/4 [6.35] 25 17.62] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 17.621 50 [15.24] 1 65 [19.81] 50 [15.241 40 [12.19] 25 [7.62] 15 [4.57] N/R N/R N/R N/R N/R RP1536A 3/8" [9.53] 3/8 [9.53] 25 17.62] 50 [15.241 75 [22.861 85 [25.911 80 [24.38] 75 [22.86] 70 [21.34] 65 [19.811 65 [19.81] 60 [18.29] 55 [16.76] 1 50 [15.24] 7/16 [11.121 25 17.621 50 [15.241 75 [22.861 95 [28.961 95 [28.961 90 [27.431 90 [27.431 85 [25.911 85 [25.911 85 [25.911 80 [24.381 80 [24.381 1/2 [12.71] 25 [7.62] 50 [15.24] 75 [22.86] 100 [30.48] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 95 [28.96] 90 [27.43] 90 [27.43] 1/4 [6.35] 25 [7.62] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.24] 45 [13.721 30 [9.14] 10 [3.05] N/R N/R N/R N/R N/R N/R N/R RP1542A 3/8" [9.53] 3/8 [9.53] 25 [7.621 50 [15.241 75 [22.861 75 [22.861 65 [19.811 60 [18.291 55 [16.761 50 [15.241 45 [13.721 40 [12.191 30 [9.14] 25 [7.62] 7/16 [11.12] 25 [7.62] 50 [15.24] 75 [22.86] 85 [25.91] 85 [25.91] 80 [24.38] 80 [24.38] 75 [22.86] 75 [22.86] 70 [21.34] 70 [21.34] 65 [19.81] 1/2 [12.711 25 [7.62] 50 [15.241 75 [22.861 90 [27.431 90 [27.431 90 [27.431 90 [27.431 85 [25.911 85 [25.911 85 [25.91] 85 [25.91] 80 [24.38] 1/4 6.35 10 3.05 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 50 [15.241 30 [9.14] 10 [3.05] N/R N/R N/R N/R N/R N/R N/R N/R RP1548A 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 70 [21.34] 1 65 [19.81] 55 [16.76] 50 [15.24] 40 [12.19] 35 [10.67] 30 [9.14] 20 [6.1] 15 [4.57] 10 [3.05] 7/16 [11.12] 25 [7.62] 50 [15.241 75 [22.86] 80 [24.381 75 [22.86] 75 [22.861 70 [21.341 70 [21.341 65 [19.81] 60 [18.29] 60 [18.29] 55 [16.76] 1/2 [12.71] 25 [7.62] 50 [15.241 75 [22.861 85 [25.911 85 [25.911 80 [24.381 80 [24.381 80 [24.381 80 [24.381 75 [22.86] 75 [22.861 75 [22.861 1/4[6.35] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/16 [7.94] 25 [7.62] 10 [3.05] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R RP1560A 3/8" [9.53] 3/8 [9.53] 25 [7.62] 50 [15.241 40 [12.19] 30 [9.14] 20 [6.1] 10 [3.05] N/R N/R N/R N/R N/R N/R 7/16 [11.121 25 [7.62] 50 [15.241 55 [16.761 50 [15.241 50 [15.24] 45 [13.721 40 [12.191 35 [10.671 30 [9.14] 25 [7.62] 25 [7.62] 20 [6.1] 1/2 [12.71] 25 [7.62] 50 [15.24] 60 [18.29] 60 [18.29] 60 [18.29] 55 [16.76] 55 [16.76] 50 [15.24] 50 [15.24] 50 [15.24] 45 [13.72] 45 [13.72] NOTES: N/R =Application not recommended. Grey = This application is acceptable, but the long line guidelines must be followed. Reference Long Line Set section in the 1&0. T N INSTALLATION Interconnecting Tubing (cont.) R-410ASystem Capacity Model Vapor Line Connection Size (Inch I.D.) [mm] Vapor Line Size (Inch O.D.) [mm] Suction Line Selection Chart Capacity Multiplier Table Total Equivalent Length - Feet [m] 25 [7.62] 50 [15.24] 1 75 [22.86] 1 100 [30.48] 1 125 [45.72] 1 150 [45.72] 175 [53.34] 200 [60.96] 1 225 [68.58] 1 250 [76.20] 1 275 [83.82] 300 [91.44] 5/8 [15.881 0.99 0.99 0.98 0.98 0.97 0.97 0.96 0.96 0.96 0.95 0.95 0.94 3/4 [19.051 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.99 0.99 0.99 0.99 RP1324 3/4" [19.06] 7/8 [22.231 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.01 1.01 1.01 1.01 1.01 1 [25.4] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 1-1/8 [28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.881 0.99 0.97 0.95 0.93 0.92 0.91 0.9 0.9 0.9 0.87 0.87 0.86 3/4 [19.051 1.00 0.99 0.98 0.98 0.97 0.97 0.97 0.96 0.96 0.95 0.94 0.94 RP1336 3/4" [19.061 7/8 [22.23] 1.00 1.00 1.00 1.00 0.99 1 0.99 0.99 0.99 1 0.99 0.98 0.98 0.98 1 [25.4] 1.01 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1-1/8 [28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.88] 0.97 0.95 0.94 0.92 0.89 0.88 0.86 0.86 0.84 N/R N/R N/R 3/4 [19.05] 0.99 0.99 0.98 0.97 0.96 0.96 0.95 0.94 0.93 N/R N/R N/R RP1348 7/8^ [22.221 7/8 [22.231 1.00 0.99 0.99 0.99 0.98 0.98 0.98 0.97 0.97 N/R N/R N/R 1 [25.4] 1.00 1.00 1.00 0.99 0.99 1.00 0.99 1.00 0.99 N/R N/R N/R 1-1/8 [28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.881 0.98 0.94 0.92 0.9 0.88 0.85 N/R N/R N/R N/R N/R N/R 3/4 [19.051 1.00 0.99 0.98 0.96 0.95 0.94 N/R N/R N/R N/R N/R N/R RP1360 7/8"[22.22] 7/8 [22.231 1.00 1.00 1.00 0.99 0.99 0.98 N/R N/R N/R N/R N/R N/R 1 [25.4] 1.01 1.00 1.01 1.01 1.00 1.00 N/R N/R N/R N/R N/R N/R 1-1/8[28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R NOTES: N/R = Application not recommended. INSTALLATION Interconnecting Tubing (cont.) R-410A System Capacity Model p y Vapor Line Connection Size Inch I.D. � ) [mm] Vapor Line Size (Inch O.D.) [mm] Suction Line Selection Chart Capacity Multiplier Table Total Equivalent Length -Feet [m] 25 [7.62] 50 [15.24] 75 122.86) 100 [30.48] 125 [45.72] 150 [45.72] 1 175 [53.34] 1 200 [60.96] 225 [68.58] 250 [76.20] 275 [83.82] 300 [91.441 5/8 15.88 1.00 0.99 0.99 0.99 0.99 0.98 0.98 0.98 0.97 0.97 0.97 0.97 3/4 [19.051 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 RP1416 3/4" [19.061 7/8 [22.231 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 1 [25.4] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 1-1/8 [28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 518 [15.881 0.99 0.99 0.98 0.98 0.97 0.97 0.96 0.96 0.96 0.95 0.95 0.94 3/4 [19.051 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.99 0.99 0.99 0.99 RP1424 3/4" [19.06] 7/8 [22.231 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.01 1.01 1.01 1.01 1.01 1 [25.4] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 1-1/8 [28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.881 0.99 0.98 0.97 0.96 0.96 0.94 0.93 0.93 0.93 0.91 0.91 0.9 3/4 [19.051 1.00 1.00 1.00 0.99 0.98 0.98 0.98 0.98 0.98 0.97 0.96 0.96 RP1430 3/4" [19.061 7/8 [22.231 1.00 1.01 1.01 1.00 1.00 1.01 1.01 1.00 1.00 1.00 1.00 0.99 1 [25.4] 1.00 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.00 1-1/8 [28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.881 0.99 0.97 0.95 0.93 0.92 0.91 0.9 1 0.9 0.9 0.87 0.87 0.86 3/4 [19.051 1.00 0.99 0.98 0.98 0.97 0.97 0.97 0.96 0.96 0.95 0.94 0.94 RP1436 3/4" [19.061 7/8 [22.231 1.00 1.00 1 1.00 1.00 0.99 0.99 0.99 0.99 0.99 0.98 0.98 0.98 1 [25.4] 1.01 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1-1/8 [28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.881 0.98 0.97 0.95 0.94 0.92 0.91 0.89 0.88 0.87 0.86 0.85 N/R 3/4 [19.05] 0.99 0.98 0.98 0.98 0.97 0.97 0.96 0.96 0.95 0.95 0.94 N/R RP1442 7/8" [22.22] 7/8 [22.23] 1 1.00 1.00 1.00 1 0.99 1.00 0.99 0.99 0.99 0.98 0.98 0.98 N/R 1 [25.4] 1.01 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.99 0.99 1.00 N/R 1-1/8 [28.581 1.01 1.01 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.01 1.01 N/R 5/8 [15.881 0.97 0.95 0.94 0.92 0.89 0.88 0.86 0.86 0.84 N/R N/R N/R 3/4 [19.051 0.99 0.99 0.98 0.97 0.96 0.96 0.95 0.94 0.93 N/R N/R N/R RP1446 7/8° [22.221 7/8 [22.231 1.00 0.99 0.99 0.99 0.98 0.98 0.98 0.97 0.97 N/R N/R N/R 1 [25.4] 1.00 1.00 1.00 0.99 0.99 1.00 0.99 1.00 0.99 N/R N/R N/R 1-1/8 [28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 15.88 0.98 0.94 0.92 0.9 1 0.88 0.85 N/R N/R N/R N/R N/R N/R 3/4 [19.051 1.00 0.99 0.98 0.96 1 0.95 0.94 N/R N/R N/R N/R N/R N/R RP1460 7/8"[22.22] 7/8 [22.23] 1.00 1.00 1.00 0.99 0.99 0.98 N/R N/R N/R N/R NIR N/R 1 [25.4] 1.01 1.00 1.01 1.01 1.00 1.00 N/R N/R N/R N/R N/R N/R 1-1/8128.581 1 N/R I N/R I N/R I N/R I N/R I N/R I N/R NIR I N/R N/R I N/R I N/R NOTES: N/R = Application not recommended. 1I 7 u INSTALLATION 1 Interconnecting Tubing (cont.) R-410A System Capacity Model Vapor Line Connection Size (Inch I.D.) [mm] Vapor Line Size (Inch O.D.) [mm] Vapor Line Selection Chart Capacity Multiplier Table Total Equivalent Length - Feet [m] 25 [7.62] 50 [15.24] 1 75 [22.86] 1 100 [30.48] 1 125 [45.72] 1 150 [45.72] 1 175 [53.34] 1 200 [60.96] 1 225 [68.58) 250 [76.20] 1 275 [83.82] 1 300 [91.44] 5/8 [15.881 1.00 1.00 1.00 0.99 0.99 0.98 0.98 0.98 0.97 0.97 0.97 0.97 3/4 [19.05] 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 RP1518A 3/4" [19.061 7/8 [22.231 N/R NIR N/R N/R NIR N/R N/R NIR N/R N/R NIR N/R 1 [25.4] N/R N/R N/R N/R N/R N/R N/R NIR N/R N/R N/R N/R 1-1/8[28.581 N/R NIR N/R N/R NIR N/R N/R NIR N/R N/R NIR N/R 5/8 [15.881 1.00 0.99 0.99 0.98 0.98 0.98 0.98 0.96 0.97 0.97 0.97 0.96 3/4 [19.05] 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.98 0.99 1.00 0.99 RP1518B 3/4" [19.061 7/8 [22.231 N/R N/R N/R N/R N/R N/R N/R NIR N/R N/R NIR N/R 1 [25.4] N/R N/R N/R N/R N/R NIR N/R N/R N/R N/R NIR N/R 8[28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 15.88 1.00 0.99 0.98 0.98 0.97 0.97 0.96 0.96 0.95 0.95 0.94 0.93 [19.05]1.00 1.00 1.00 0.99 1.00 0.99 0.99 1.00 0.99 0.99 0.99 0.99 RP1524A 3/4" [19.061 :5/8 [22.231 1.00 1.00 1.00 1.00 0.99 1.00 1.00 1.00 1.00 1.00 1.01 1.01 [25.4] N/R N/R N/R N/R N/R NIR N/R NIR N/R N/R NIR N/R 8[28.58] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 5/8 [15.881 0.99 0.99 0.98 0.98 0.97 0.97 0.96 0.96 0.97 0.95 0.94 0.94 3/4 [19.051 1.00 1.00 1 1.00 1.00 1.00 1 1.00 0.99 0.99 1 0.99 0.99 0.99 1 0.99 RP1524B 3/4" [19.061 7/8 [22.231 1.00 1.00 1.00 1.01 1.01 1.00 1.00 1.00 1.00 1.01 1.00 1.01 1 [25.4] N/R N/R NIR N/R N/R N/R N/R NIR N/R N/R NIR N/R 1-1/8[28.58] N/R N/R N/R N/R NIR N/R N/R N/R N/R N/R NIR N/R 518 [15.881 0.99 0.98 0.97 0.95 0.94 0.94 0.93 0.92 0.91 0.91 0.9 0.88 3/4 [19.051 1.00 1.00 0.99 0.98 0.98 0.98 0.97 0.97 0.97 0.96 0.96 0.95 RP1530A 3/4" [19.061 7/8 [22.231 1.00 1.00 1.00 1.00 1.00 0.99 0.99 0.98 0.98 0.98 0.98 0.98 1 [25.4] 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.99 0.99 1-1/8[28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R NIR N/R 518 [15.881 0.99 0.98 0.97 0.96 0.96 0.95 0.94 0.92 0.92 0.91 0.9 0.89 3/4 [19.051 1.00 0.99 0.99 0.99 0.97 0.97 0.98 0.98 0.97 0.97 0.96 0.96 RP1530B 3/4" [19.061 7/8 [22.231 1.00 0.99 1.00 1.00 0.99 0.99 0.99 0.99 0.99 0.98 0.99 0.98 1 [25.4] N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R NIR N/R 1-1/8[28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 518 [15.881 1.00 0.97 0.97 0.95 0.94 0.93 0.91 0.92 0.91 0.88 0.87 0.86 3/4 [19.051 1.00 1.00 0.99 0.98 0.99 0.99 0.98 0.97 0.97 0.96 0.96 0.95 RP1536A 3/4" [19.061 7/8 [22.231 1.01 1.01 1.01 1.00 1.00 1.00 1.00 1.00 1.00 0.99 0.98 0.98 1 [25.4] 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1.00 1.00 1.00 1.00 1.01 1-1/8[28.581 N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R N/R 518 [15.881 1.00 0.98 0.96 0.95 0.94 0.92 0.91 0.89 0.88 0.87 0.86 0.85 3/4 [19.051 1.01 1.01 1.00 0.99 0.99 0.98 0.97 0.97 0.96 0.95 0.95 0.94 RP1542A 3/4" [19.06] 7/8 [22.231 1.00 1.01 1.01 1.01 1 1.01 1.01 1.01 1.00 0.99 1.00 1 1.00 0.99 1 [25.4] 1.03 1.02 1.02 1.02 1.02 1.01 1.01 1.01 1.01 1.01 1.01 1.01 1-1/8 [28.581 1.03 1.03 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.02 1.01 1.01 5/8 [15.881 0.99 0.96 0.94 0.92 0.91 0.89 0.87 0.86 0.84 0.83 0.82 0.8 3/4 [19.051 1.01 1.00 0.99 0.97 0.97 0.96 0.95 0.94 0.94 0.93 0.92 0.92 RP1548A 3/4" [19.061 7/8 [22.231 1.00 1.01 1.01 1.00 1.00 0.99 0.99 0.99 0.98 0.98 0.97 0.97 1 [25.4] N/R NIR N/R N/R NIR N/R N/R NIR N/R N/R NIR N/R 1-1/8[28.581 N/R N/R N/R N/R N/R N/R N/R NIR N/R N/R NIR N/R 5/8 [15.881 0.79 0.99 0.95 0.93 0.91 0.89 N/R N/R N/R N/R N/R NIR 3/4 [19.051 0.9 1.01 1 1.00 0.99 0.97 0.96 N/R N/R N/R N/R NIR N/R RP1560A 3/4"[19.06] 7/8 [22.231 1.00 1.01 1.01 1.01 1.00 1.00 N/R N/R N/R N/R NIR N/R 1 [25.4] 1.00 1.02 1.01 1.01 1.01 1.01 N/R N/R N/R N/R NIR N/R 1-1/8[28.58] N/R NIR N/R N/R N/R N/R N/R N/R N/R N/R NIR N/R E] NOTES: N/R = Application not recommended. All calculations assume a 3/8" liquid line M N INSTALLATION -0 Interconnecting Tubing (cont.) Tubing Installation Observe the following when installing correctly sized type "L" refrigerant tubing between the condensing unit and evaporator coil: • Check the tables on page 12 for the correct suction line size and liquid line size. • If a portion of the liquid line passes through a very hot area where liquid refrigerant can be heated to form vapor, insulating the liquid line is required. • Use clean, dehydrated, sealed refrigeration - grade tubing. • Always keep tubing sealed until tubing is in place and connections are to be made. • A high -quality biflow filter drier is included with all R-410A heat pump units and must be installed in the liquid line upon unit installation. • When replacing an R-22 system with an R-410A system and the line set is not replaced, use a flush kit available through aftermarket stores such as Prostock. • If tubing has been cut, make sure ends are deburred while holding in a position to prevent chips from falling into tubing. Burrs such as those caused by tubing cutters can affect performance dramatically, particularly on small liquid line sizes. • For best operation, keep tubing run as short as possible with a minimum number of elbows or bends. • Locations where the tubing will be exposed to mechanical damage should be avoided. If it is necessary to use such locations, the copper tubing should be housed to prevent damage. 24 0 Interconnecting Tubing (cont.) • If tubing is to be run underground, it must be run in a sealed watertight chase. • Use care in routing tubing and do not kink or twist. Use a good tubing bender on the vapor line to prevent kinking. + O+ TEMPORARY • PERMANENT HANGER HANGER • • Route the tubing using temporary hangers; then straighten the tubing and install permanent hangers. Line must be adequately supported. • If the vapor line comes in contact with inside walls, ceiling, or flooring, the vibration of the vapor line in the heating mode will result in noise inside the structure. • Blow out the liquid and vapor lines with dry nitrogen before connecting to the outdoor unit and indoor coil. Any debris in the line set will end up plugging the expansion device. Tubing Connections Indoor coils have only a holding charge of dry nitrogen. Keep all tube ends sealed until connections are to be made. • Use type "L" copper refrigeration tubing. Braze the connections with the following alloys: - copper to copper, 5% silver minimum - copper to steel or brass, 15% silver minimum INSTALLATION • Be certain both refrigerant shutoff valves at the outdoor unit are closed. • Remove the caps and Schrader cores from the pressure ports to protect seals from heat damage. Both the Schrader valves and the service valves have seals that may be damaged by excessive heat. • Clean the inside of the fittings and outside of the tubing with a clean, dry cloth before soldering. Clean out debris, chips, dirt, etc., that enters tubing or service valve connections. • Wrap valves with a wet rag or thermal barrier compound before applying heat. c 27 ca 25 INSTALLATION *Interconnecting Tubing (cont.) • Braze the tubing between the outdoor unit and indoor coil. Flow dry nitrogen into a pressure port and through the tubing while brazing, but do not allow pressure inside tubing which can result in leaks. Once the system is full of nitrogen, the nitrogen regulator should be turned off to avoid pressuring the system. • After brazing, use an appropriate heatsink material to cool the joint. • Reinstall the Schrader cores into both pressure ports. • Do not allow the vapor line and liquid line to be in contact with each other. This causes an undesirable heat transfer resulting in capacity loss and increased power consumption. Leak Testing Indoor coils have only a holding charge of dry nitrogen. Keep all tube ends sealed until connections are to be made. AWARNING: Do not use oxygen to purge lines or pressurize system for leak test. Oxygen reacts violently with oil, which can cause an explosion resulting in severe personal injury or death. • Pressurize line set and coil through service fittings with dry nitrogen to 150 PSIG maximum. Close nitrogen tank valve, let system sit for at least 15 minutes, and check to see if the pressure has dropped. If the pressure has dropped, check for leaks at the line set braze joints with soap bubbles and repair leak as necessary. Repeat pressure test. If line set and coil hold pressure, proceed with line set and coil evacuation (see page 21). The vapor line must be insulated for its entire length to prevent dripping (sweating) and prevent performance losses. Closed -cell foam insulation such as Armaflex and Rubatex° are satisfactory insulations for this purpose. Use 1/2" [12.7 mm] minimum insulation thickness. Additional insulation may be required for long runs. 26 -0 Control Wiring AWARNING: Turn off electric power at the fuse box or service panel before making any electrical connections. Also, the ground connection must be completed before making line voltage connections. Failure to do so can result in electrical shock, severe personal injury, or death. Control Wiring Running low -voltage wires in conduit with line voltage power wires is not recommended. Low - voltage wiring may be run through the insulated plastic bushing provided in the 7/8" [19 mm] hole in the base panel, up to and attached to the pigtails from the bottom of the control box. Conduit can be run to the base panel if desired by removing the insulated bushing. A thermostat and a 24-volt, 40 VA minimum transformer are required for the control circuit of the system. The furnace or the air handler transformer may be used if sufficient. See the wiring diagram for reference. Use "Wire Size" table on this page to size the 24-volt control wiring. Do not use phone cord to connect indoor and outdoor units and thermostat. This could damage the controls and may not be adequately sized for the control's electrical load. WIRING FIELD WIRE SIZE FOR 24-VOLT THERMOSTAT CIRCUITS Thermostat SOLID COPPER WIRE — AWG. oad (amps) 3.0 18 16 14 12 10 10 10 2.5 18 16 14 12 10 10 10 2.0 18 16 14 12 10 10 10 20 50 100 150 200 250 300 [61 [151 [301 [461 [51 ] [761 [91 ] Length of Run — Feet [m] (1) (1) vvlre lengtn equals twice the run alstance. NOTICE: Do not use control wiring smaller than No. 18 AWG between thermostat and outdoor unit. Typical Noncommunicating Thermostat Wiring Diagrams The following figures show the typical wiring diagrams for RMT, RHIV air handlers and 1-stage heat pump and dual fuel applications with a gas furnace and 1-stage heat pump. Cooling and heat pump airflows may need to be adjusted for homeowner comfort once the system is operational. WIRE COLOR CODE BK - BLACK GY - GRAY W - WHITE BR - BROWN O - ORANGE Y -YELLOW BL - BLUE PR - PURPLE G - GREEN R - RED TYPICAL CONTROL WIRING FOR AIR HANDLER Heat Pump Thermostat Optional Field Installed jumper (see note 1) *Ifmaximum outlet rise desired, it is recommended that W1 and V W2 bejumpered together. OPTIONAL Air Handler WH/BL 1 STAGE HEAT r r ' ' C ' Heat Pump G GR/BK 1 _ _ _ _ _ _ I I I Outdoor Unit r l r r I I l l I l , L Y1 -+------'-+ r - ------+------ � r r --- - - - --- r /r�,N: Y WH/BK I I I - — — — — — — — — — '" BL B 1 I U — — — — — — — — — — — — - — — - —' C r r — R ' PR m, I r r *Not present on all C aR +-------------------0- + - - - -- , I air -handler models. I 1 ' � YL/BL 1 I I I — — — — — — — — — — — 46— — — — — — — — ' I I 1 1 4 WIRING INFORMATION Line Voltage -Field Installed— — — — -Factory Standard — 1 '----- ---------------- I ------- - - - - -' NOTES: 1. Jumper "E" to "W2" on thermostat to transfer control of supplemental heat to 1 st stage when the emergency heat switch is on. 2. This wire turns on elec- tric heat strip during defrost, omit for most economical operation. WIRE COLOR CODE BK = BLACK BL = BLUE BR = BROWN GR = GREEN PR = PURPLE RD = RED WH = WHITE YL = YELLOW WIRING -0 Control Wiring (cont.) TYPICAL 1-STAGE DUAL FUEL THERMOSTAT AND DUAL -FUEL APPLICATION Typical One -Stage Furnace Heat Pump Thermostat Control Outdoor Unit o-(� -------------------- a ------------------- o R V-------------------- --------------------- 0 BR a ------- -------- o Y )q Y/BL -------------------- ll ---------------Op PR 13) - -------------------- o a-------------------- ----- ---------------------- o BL a-------- ; a 2 FT. (3.7 M ) Outdoor Sensor (2) NOTES: (1) FOR PROGRAMMING THERMOSTAT IN DUAL -FUEL APPLICATION, SEE THERMOSTAT INSTALLATION INFORMATION. (2) FOR REMOTE SENSOR INSTALLATION, SEE THERMOSTAT INSTALLATION INFORMATION. (3) OPTIONAL PLENUM SENSOR. (4) EMERGENCY HEAT (E) CONNECTION MAY NOT BE ALLOWED BY LOCAL CODES. Field wiring must comply with the National Electric Code (C.E.C. in Canada) and any applicable local code. Power Wiring It is important that proper electrical power from a� a commercial utility is available at the heat pump •� contactor. Voltage ranges for operation are shown below. VOLTAGE RANGES (60 HZ) Nameplate Voltage Operating Voltage Range at Maximum Load Design Conditions for Compressors Copeland 208/230 (1 Phase) 187 - 253 208/230 (3 Phase) 187 - 253 460 414 - 506 575 517 633 Install a branch circuit disconnect within sight of the unit and of adequate size to handle the starting current (see "Electrical Data" on page 5.) Power wiring must be run in a rain -tight conduit. Conduit must be run through the connector panel below the access cover (see page 6) and attached to the bottom of the control box. Connect power wiring to line -voltage lugs located in the outdoor heat pump unit electrical box. (See wiring diagram attached to unit access panel.) Check all electrical connections, including factory wiring within the unit and make sure all connections are tight. DO NOT connect aluminum field wire to the Comfort ControP terminals. Grounding AWARNING: The unit must be permanently grounded. Failure to do so can cause electrical shock resulting in severe personal injury or death. A grounding lug is provided near the line -voltage power entrance for a ground wire. 28 Start -Up M 01 OOJ �2 At initial start-up or after extended shutdown periods, make sure the crankcase heater is energized for at least 12 hours before the compressor is started. (Disconnect switch is on and wall thermostat is off.) 0 Checking Airflow The air distribution system has the greatest effect on airflow. The duct system is totally controlled by the contractor. For this reason, the contractor should use only industry -recognized procedures. The correct air quantity is critical to air conditioning systems. Proper operation, efficiency, compressor life, and humidity control depend on the correct balance between indoor load and outdoor unit capacity. Excessive indoor airflow increases the possibility of high humidity problems. Low indoor airflow reduces total capacity and can cause coil icing. Serious harm can be done to the compressor by low airflow, such as that caused by refrigerant flooding. Heat pump systems require a specified airflow. Each ton of cooling requires between 320 and 450 cubic feet of air per minute (CFM). See the manufacturer's spec sheet for rated airflow for the system being installed. Duct design and construction should be carefully done. System performance can be lowered dramatically through bad planning or workmanship. Air supply diffusers must be selected and located carefully. They must be sized and positioned to deliver treated air along the perimeter of the space. If they are too small for their intended airflow, they become noisy. If they are not located properly, they cause drafts. Return air grilles must be properly sized to carry air back to the blower. If they are too small, they also cause noise. The installers should balance the air distribution system to ensure proper quiet airflow to all rooms in the home. This ensures a comfortable living space. START-UP Even though the unit is factory -charged with Refrigerant-410A, the charge must be checked to the charge table attached to the service panel and adjusted, if required. Allow a minimum of 15 minutes of run time before analyzing charge. ACAUTION: Single -pole contactors are used on all standard single-phase units through 5 tons. Caution must be exercised when servicing as only one leg of the power supply is broken by the contactor. These simple mathematical formulas can be used to determine the CFM in a residential or light commercial system. Electric resistance heaters can use: CFM = volts x amps x 3.413 SHC x temp rise Gas furnaces can use: CFM = Output Capacity in BTUH' SHC x temp rise *Refer to furnace data plate for furnace output capacity. SHC = Sensible Heat Constant (see table below) An air velocity meter or airflow hood can give a more accurate reading of the system CFM. The measurement for temperature rise should be performed at the indoor coil inlet and near the outlet, but out of direct line of sight of the heater element or heat exchanger. For best results, measure air temperature at multiple points and average the measurements to obtain coil inlet and outlet temperatures. ALTITUDE (FEET) SENSIBLE HEAT CONSTANT (SHC) ALTITUDE (FEET) SENSIBLE HEAT CONSTANT (SHC) Sea Level 1.08 6000 0.87 500 1.07 7000 0.84 1000 1.05 8000 0.81 2000 1.01 9000 0.78 3000 0.97 10000 0.75 4000 0.94 15000 0.61 5000 1 0.90 1 20000 1 0.50 29 a 0 START-UP _* Evacuation and Leak Testing Evacuation Procedure Evacuation is the most important part of the entire service procedure. The life and efficiency of the equipment is dependent upon the thoroughness exercised by the serviceman when evacuating air and moisture from the system. Air or nitrogen in the system causes high condensing temperatures and pressure, resulting in increased power input and nonverifiable performance. Moisture chemically reacts with the refrigerant and oil to form corrosive hydrofluoric acid. This attacks motor windings and parts, causing breakdown. • After the system has been leak -checked and proven sealed, connect the vacuum pump and evacuate system to 500 microns and hold 500 microns or less for at least 15 minutes. The vacuum pump must be connected to both the high and low sides of the system by connecting to the two pressure ports. Use the largest size connections available since restrictive service connections may lead to false readings because of pressure drop through the fittings. • After adequate evacuation, open both service valves by removing both brass service valve caps with an adjustable wrench. Insert a 3/16" [5 mm] or 5/16" [8 mm] hex wrench into the stem and turn counterclockwise until the wrench stops. • Gauges must be connected at this point to check and adjust charge. Do not replace caps yet. IMPORTANT: Compressors (especially scroll type) should never be used to evacuate the air conditioning system because internal electrical arcing may result in a damaged or failed compressor. Never run a scroll compressor while the system is in a vacuum or compressor failure will occur. Final Leak Testing After the unit has been properly evacuated and service valves opened, a halogen leak detector should be used to detect leaks in the system. All piping within the heat pump, evaporator, and interconnecting tubing should be checked for leaks. If a leak is detected, the refrigerant should be recovered before repairing the leak. The Clean Air Act prohibits releasing refrigerant into the atmosphere. 30 0 Checking Refrigerant Charge Charge for all systems should be checked against the Charging Chart inside the access panel cover. AWARNING: The top of the scroll compressor shell is hot. Touching the compressor top may result in serious personal injury. IMPORTANT: Use factory -approved charging method as outlined on the next page to ensure proper system charge. NOTICE: The optimum refrigerant charge for any outdoor unit matched with an indoor coil/air handler is affected by the application. Therefore, charging data has been developed to assist the field technician in optimizing the charge for all mounting configurations (UF — Upflow, DF — Downflow, LH — Left -Hand Discharge, and RH — Right -Hand Discharge). Refer to the charging chart inside the access panel cover on the unit and choose the appropriate column for the specific application being installed or serviced. New installations utilizing either an RCF indoor coil installed on a gas furnace or an RH series air handler in the downflow or horizontal right-hand discharge may require removal of refrigerant since the factory charge could result in an overcharge condition. Charging Units With R-410A Refrigerant ACAUTION: R-410A pressures are approximately 60% higher (1.6 times) than R-22 pressures. Use appropriate care when using this refrigerant. Failure to exercise care may result in equipment damage or personal injury. Charge for all systems should be checked against the Charging Chart inside the access panel cover. IMPORTANT: Do not operate the compressor without charge in the system. Addition of R-410A will raise high -side pressures (liquid and discharge). NOTICE: System maintenance is to be performed by a qualified and certified technician. The following method is used for charging systems in the cooling and heating mode. All steps listed should be performed to ensure proper charge has been set. For measuring pressures, the service valve port on the liquid valve (small valve) and the service port on the suction line between the reversing valve and compressor are to be used. START-UP Confirm ID Airflow and Coils Are Clean Confirm adequate indoor supply airflow prior to starting the system. See the Technical Specification Sheet for rated airflow for each ID/OD unit match. Air filter(s) and coils (indoor and outdoor) are to be clean and free of frost prior to starting the system. Supply airflow must be between 320 and 450 cfm per rated cooling ton prior to adjusting system charge. If a humidification system is installed, disengage it from operation prior to charge adjustment. Verify that the outdoor unit is operating in second stage and the indoor air mover is delivering the second -stage airflow for this system size. Refer to the "Checking Airflow" section of this manual for further instruction. NOTICE: Verify system components are matched according to the outdoor unit Specification Sheet. Measurement Device Setup 1. With an R-410A gauge set, attach the high- pressure hose to the access fitting on the liquid line (small) service valve at the OD unit. 2. Attach the low-pressure hose to the common suction port connected to the common suction line between the reversing valve and compressor. 3. Attach a temperature probe within 6" [15.2 cm] outside of the unit on the copper liquid line (small line). For more accurate measurements, clean the copper line prior to measurement and use a calibrated clamp -on temperature probe or an insulated surface thermocouple. Charging by Weight NOTICE: Adjust the system charge by weight for the straight length of the refrigerant line set. For a new installation, evacuation of inter- connecting tubing and indoor coil is adequate; otherwise, evacuate the entire system. Use the factory charge shown in "Electrical and Physical Data" on page 5 of these instructions or on the unit data plate. Note that the charge value includes charge required for 15 ft. [4.6 m] of standard -size interconnecting liquid line without a filter drier. Calculate actual charge required with installed liquid line size and length using: 1/4" [6.4 mm] O.D. = .3 oz./ft. [8.5 g/.30 m] 5/16" [7.9 mm] O.D. = .4 oz./ft. [11.3 g/.30 m] 3/8" [9.5 mm] O.D. = .6 oz./ft. [17.0 g/.30 m] 1/2" [12.7 mm] O.D. = 1.2 oz./ft. [34.0 g/.30 m] Add 6 oz. for field -installed filter drier. 31 CD CD cam' Im a START-UP 0 Checking Refrigerant Charge (cont.) With an accurate scale (+/- 1 oz. [28.3 g]) or volumetric charging device, adjust charge difference between that shown on the unit data plate and that calculated for the new system installation. If the entire system has been evacuated, add the total calculated charge. IMPORTANT. -Charging by weight is not always accurate since the application can affect the optimum refrigerant charge. Charging by weight is considered a starting point ONLY. Always check the charge by using the Charging Chart and adjust as necessary. CHARGING BY LIQUID SUBCOOLING MUST BE USED FOR FINAL CHARGE ADJUSTMENT. With thermostat in the "Off" position, turn on the power to the furnace or air handler and the heat pump. Start the heat pump and the furnace or air handler with the thermostat. Verify that the outdoor unit is operating in second stage and the indoor air mover is delivering the correct airflow for the system size. Gross Charging by Pressures 1. Following airflow verification and charge weigh- in, run the unit for a minimum of 15 minutes prior to noting pressures and temperature. IMPORTANT: Indoor conditions as measured at the indoor coil must be within 2°F [1.1 °C] of the following during gross charge (pressure) evaluation: Cooling Mode: 80°F [26.7°C] Dry Bulb Heating Mode: 70OF [21.1 °C] Dry Bulb NOTICE: If the Indoor temperature is above or below this range, run the system to bring the temperature down or run the electric heat/furnace to bring the temperature within this range. System pressure values provided in the Charging Chart for outdoor dry bulbs corresponding to conditions outside of these ranges are provided as reference ONLY. 2. Note the Outdoor Dry Bulb Temperature, ODDB° _ °F L—°C]. Unit charging is recommended under the following outdoor conditions ONLY: Cooling Mode ONLY. 550F [12.8°C] outdoor dry bulb and above Heating Mode ONLY: Between 40°F [4.4°C] and 60°F [15.6°C] outdoor dry bulb 3. Locate and note the design pressures. The correct liquid and vapor pressures are found at the intersection of the installed system and the outdoor ambient temperature on the Charging Chart located inside the access panel cover. Liquid Pressure: = psig; Vapor Pressure = psig NOTICE: The refrigerant pressures provided are for gross charge check ONLY. These pressure values are typical, but may vary due to application. Evaporator load (indoor coil in cooling mode/outdoor coil in heating mode) will cause pressures to deviate. Note that all systems have unique pressure curves. The variation in the slope and value is determined by the component selection for that indoor/outdoor matched system. The variation from system to system seen in the table is normal. The values listed are for the applicable indoor coil match ONLY! 4. If the measured liquid pressure is below the listed requirement for the given outdoor and indoor conditions, add charge. If the measured liquid pressure is above the listed requirement for the given outdoor and indoor conditions, remove charge. Final Charge by Subcooling 1. After gross charging, note the designed subcooling value. The correct subcooling value is found at the intersection of the installed system and the outdoor ambient temperature on the Charging Chart located inside the access panel cover. SC° from Charging Chart = °F L—°C]. IMPORTANT: Indoor conditions as measured at the indoor coil are required to be between 70OF [21.1 °C] and 80OF [26.7°C] dry bulb for fine-tuned unit charge adjustment. Unit charging is recommended under the following outdoor conditions ONLY: Cooling Mode ONLY. 55°F [12.8°C] outdoor dry bulb and above Heating Mode ONLY: Between 40OF [4.4°C] and 60OF [15.6°C] outdoor dry bulb 32 0 Checking Refrigerant Charge (cont.) NOTICE: If the indoor temperature is above or below the recommended range, run the system to bring the temperature down or run the electric heat/furnace to bring the temperature up. System subcooling values provided in the Charging Chart for outdoor dry bulbs corresponding to conditions outside of the above range are provided as reference ONLY. 2. Note the measured Liquid Pressure, Pliq = psig, as measured from the liquid (small) service valve. Use the Temperature Pressure Chart below to note the corresponding saturation temperature for R-410A at the measured liquid pressure. Liquid Saturation Temperature, SAT°= OF L__°C]. 3. Note the liquid line temperature, Liq° _ °F L-'C], as measured from a temperature probe located within 6" [15.2 cm] outside of the unit on the copper liquid line (small line). It is recommended to use a calibrated clamp - on temperature probe or an insulated surface thermocouple. 4. Subtract the liquid line temperature from the saturation temperature to calculate subcooling. SAT° OF L-'C] - Liq° °F °C] _ SC° OF [ °C] 5. Adjust charge to obtain the specified subcooling value. If the measured subcool is below the listed START-UP requirement for the given outdoor and indoor conditions, add charge. If the measured subcool is above the listed requirement for the given outdoor and indoor conditions, remove charge. Finishing Up Installation • Disconnect pressure gauges from pressure ports; then replace the pressure port caps and tighten adequately to seal caps. Do not overtighten. • Replace the service valve caps finger -tight and then tighten with an open-end wrench adequately to seal caps. Do not overtighten. • Replace control box cover and service panel and install screws to secure service panel. • Restore power to unit at disconnect if required. • Configure indoor thermostat per the thermostat installation instructions and set thermostat to desired mode and temperature. NOTICE: Systems should not be fine- tune charged below 40°F [4.4°C] outdoor dry bulb. IMPORTANT: Excessive use of elbows in the refrigerant line set can produce excessive pressure drop. Follow industry best practices for installation. Installation and commissioning of this equipment is to be performed by trained and qualified HVAC professionals. For technical assistance, contact your Distributor Service Coordinator. TEMPERATURE PRESSURE CHART SATURATION TEMP (Deg. F) [Deg. C] R-410A PSIG SATURATION TEMP (Deg. F) [Deg. C] R-410A PSIG SATURATION TEMP (Deg. F) [Deg. C] R-410A PSIG SATURATION TEMP (Deg. F) [Deg. C] R-410A PSIG -150 [-101 ] - -30 [-34] 17.9 35 [2] 107.5 100 [38] 317.4 -140 [-96] - -25 [-32] 22.0 40 [4] 118.5 105 [41 ] 340.6 -130 [-90] - -20 [-29] 26.4 45 [7] 130.2 110 [43] 365.1 -120 [-84] - -15 [-26] 31.3 50 [10] 142.7 115 [46] 390.9 -110 [-79] - -10 [-23] 36.5 55 [13] 156.0 120 [49] 418.0 -100 [-73] - -5 [-21] 42.2 60 [16] 170.1 125 [52] 446.5 -90 [-68] - 0 [-18] 48.4 65 [18] 185.1 130 [54] 476.5 -80 [-62] - 5 [-15] 55.1 70 [21 ] 201.0 135 [57] 508.0 -70 [-57] - 10 [-12] 62.4 75 [24] 217.8 140 [60] 541.2 -60 [-51 ] 0.4 15 [-9] 70.2 80 [27] 235.6 145 [63] 576.0 -50 [-46] 5.1 20 [-7] 78.5 85 [29] 254.5 150 [66] 612.8 -40 [-40] 10.9 25 [-4] 87.5 90 [32] 274.3 -35 [-37] 14.2 30 [-1 ] 1 97.2 1 95 [35] 1 295.3 33 c a.> c 0 IIZ E 0 v COMPONENTS AND CONTROLS -0 Compressor Crankcase Heat (CCH) While scroll compressors usually do not require crankcase heaters, there are instances when a heater should be added. Refrigerant migration during the off cycle can result in a noisy start up. Add a crankcase heater to minimize refrigeration migration, and to help eliminate any start up noise or bearing "wash out." NOTE: The installation of a crankcase heater is recommended if the system charge exceeds the values in the table below. The 5 ton model comes with a crankcase heater factory installed. MAXIMUM SYSTEM CHARGE VALUES Model Size* Compressor Model Number Charge Limit Without Crankcase Heater* RP1336AC ZP31 K5E-TF5-13R 9.6 1bs. RP7342AC ZP36K5E-TF5-13R 9.6 lbs. RP134BAC ZP42K5E-TF5-13R 12 Ibs. RP1360AC ZP49K6E-TF5-130 12 Ibs. RP1336AD ZP31 K5E-TFD-13R 9.6 Ibs. RP1342AD ZP36K5E-TFD-13R 9.6 Ibs. RP1348AD ZP42K5E-TFD-13R 12 Ibs. RP1360AD ZP49K6E-TFD-130 12 Ibs. I MAXIMUM SYSTEM CHARGE VALUES Model Size* Compressor Model Number Charge Limit Without Crankcase Heater* RP1418AJ ZP16K5E-PFV-13R 9.6 lbs. RP1424AJ ZP21 K6E-PFV-130 9.6 lbs. RP1430AJ ZP25K5E-PFV-13R 9.6 lbs. RP1436AJ ZP31K5E-PFV-13R 9.6 lbs. RP1442AJ ZP36K5E-PFV-13R 9.6 Ibs. RP1448AJ ZP42K5E-PFV-13R 12 lbs. RP1460AJ ZP49K6E-PFV-130 12 Ibs. RP1436AC ZP31 K5E-TF5-13R 9.6 Ibs. RP1442AC ZP36K5E-TF5-13R 9.6 Ibs. RP1448AC ZP42K5E-TF5-13R 12 lbs. RP1460AC ZP49K6E-TF5-130 12 lbs. RP1436AD ZP31 K5E-TFD-13R 9.6 Ibs. RP1442AD ZP36K53-TFD-13R 9.6 Ibs. RP1448AD ZP42K5E-TFD-13R 12 lbs. RP1460AD ZP49K6E-TFD-130 12 lbs. -0 Hard -Start Components Start components are not usually required with the scroll compressors used in heat pumps, but are available for special cases and where II heaters are located on the lower half of the compressor shell. Its purpose is to drive refrigerant from the compressor shell during long cycles, thus preventing damage to the oompressor during start-up. At initial start-up or after extended shutdown periods, make sure the heater is energized for at least 12 hours before the compressor is started. (Disconnect switch on and wall thermostat off.) I MAXIMUM SYSTEM CHARGE VALUES I Model Size* Compressor Model Number Charge Limit Without Crankcase Heater* RP1518AJ ZP16K5E-PFV-13R 9.6 Ibs. RP1518BJ ZP14K6E-PFV-130 9.6 lbs. RP1524AJ ZP21K5E-PFV-13R 9.6 lbs. RP1524BJ ZP20K6E-PFV-130 9.6 lbs. RP1530AJ ZP25K5E-PFV-13R 9.6 lbs. RP1530BJ ZP24K6E-PFV-130 9.6 lbs. RP1536AJ ZP31 K6E-PFV-1 30 9.6 lbs. RP1542AJ ZP36K5E-PFV-13R 9.6 Ibs. RP1548AJ ZP40K6E-PFV-130 12 lbs. RP1560AJ ZP49K6E-PFV-130 12 Ibs. RP1536AC ZP31K6E-TF5-130 9.6 Ibs. RP1542AC ZP36K5E-TF5-13R 9.6 lbs. RP154BAC ZP40K6E-TF5-130 12 lbs. RP1560AC ZP49K63-TF5-130 12 lbs. start components are desirable to reduce light dimming. Hard start components are available through Prostock. 0 High- and Low -Pressure Controls (HPC and LPC) Standard on RP14: These controls keep the compressor from operating in pressure ranges which can cause damage to the compressor. Both controls are in the low -voltage control circuit. The high-pressure control (HPC) is an automatic - reset which opens near 610 PSIG and closes near 420 PSIG. The low-pressure control (LPC) is an automatic - reset which opens near 15 PSIG and closes near 40 PSIG. ACAUTION: The compressor has an internal overload protector. Under some conditions, it can take up to 2 hours for this overload to reset. Make sure overload has had time to reset before condemning the compressor. 34 COMPONENTS AND CONTROLS 0 Demand Defrost Control (cont.) The demand defrost control monitors the outdoor ambient temperature, outdoor coil temperature and the compressor run time to determine when a defrost cycle is required. Enhanced Feature Demand Defrost Control This defrost control has high and low pressure control inputs with unique pressure switch logic built into the microprocessor to provide compressor and system protection without nuisance lockouts. The control cycles the compressor off for 30 seconds at the beginning and the end of the defrost cycle to eliminate the increased compressor noise caused by rapidly changing system pressures when the reversing valve switches. See next page for diagnostic flash codes and sensor resistance values at various temperatures. Defrost Initiation A defrost will be initiated when the three conditions below are satisfied: 1. The outdoor coil temperature is below 350F as measured by a good coil sensor, 2. The compressor has operated for at least 34 minutes with the outdoor coil temperature below 350F and 3. The measured difference between the ambient temperature and the outdoor coil temperature is greater than the calculated difference determined by the microprocessor. Defrost Termination Once a defrost is initiated, the defrost will continue until fourteen minutes has elapsed or the coil temperature has reached the selected termination temperature. The factory setting is 70OF but can be changed to 50°F, 60OF or 80OF by relocating the jumper on the control board. Temperature Sensors The coil sensor is located on the outdoor coil at the point fed by the distribution tubes from the expansion device (short 3/8" dia. Tube). The ambient air sensor is located outside the control box so it can sense outdoor temperatures. If the ambient sensor fails, the defrost control will initiate a defrost every 34 minutes of compressor run time with the coil temperature below 35°F. If the coil sensor fails, the defrost control will not initiate a defrost. Test Mode The test mode is initiated by shorting the TEST pins. The unit must have an active heat pump heating call to enter the test mode. In this mode of operation, the enable temperature is ignored and all timers are sped up. To initiate a manual defrost, short and hold the TEST pins. Remove the short when the system switches to defrost mode after the compressor noise abatement delay. The defrost will terminate on time (14 minutes) or when the termination temperature has been reached. Test Sequence of Operation: 1) Provide a heating call to the heat pump. 2) Short test pins to bypass anti -short cycle timer. (If unit is running, this step is not necessary.) 3) Short test pins and hold them shorted to enter defrost mode. 4) Release test pins once control exits noise abatement delay. 5) Monitor coil temperature when control exits defrost. 6) Unit should return to heating mode. Trouble Shooting Demand Defrost During the test mode the coil temperature should be monitored. If the system exits defrost at approximately the termination temperature, the control is operating normally. If not, one item to check is the coil and ambient temperature sensor resistance, using the temperature/resistance chart. Immerse the sensor in water and measure the resistance of the sensor. At 350F the resistance of the sensor should be approximately 30,000 ohms. Ensure that the coil sensor is properly installed that it is not loose or touching the cabinet. High/Low Pressure Control Monitoring - Enhanced Defrost Control Only Status of high and low pressure controls is monitored by the enhanced feature demand defrost control and the following actions are taken. High Pressure Control - Provides active protection in both cooling and heating modes at all outdoor ambient temperatures. The high pressure control is an automatic reset type and 35 COMPONENTS AND CONTROLS 0 Demand Defrost Control (cont.) opens at approximately 610 psig and closes at approximately 420 psig. The compressor and fan motor will stop when the high pressure control opens and will start again if the high side pressure drops to approximately 420 psig where the automatic reset high pressure control resets. If the high pressure control opens 3 times within a particular call for heating or cooling operation, the defrost control will lock out compressor and outdoor fan operation. Low Pressure Control - Provides active protection in both heating and cooling modes at all outdoor ambient temperatures. The low pressure control is an automatic reset type and opens at approximately 15 psig and closes at approximately 40 psig. Operation is slightly different between cooling and heating modes. Cooling Mode: The compressor and fan motor will stop when the low pressure control opens and will start again when the low side pressure rises to approximately 40 psig when the low pressure control automatically resets. If the low pressure switch opens 3 times within a particular call for cooling operation, the defrost control will lock out compressor and fan operation. Heating Mode: The compressor and fan motor will stop when the low pressure control opens and will start again when the low side pressure rises to approximately 40 psig when the low pressure automatically resets. If the low pressure switch trips 3 times within 120 minutes of operation during a particular call for heating operation, the defrost control will lock out compressor and outdoor fan operation. If the lock out due to low pressure occurs at an outdoor ambient temperature below 5°F, the defrost control will automatically exit the lockout mode when the outdoor ambient temperature rises 5°F. This feature is necessary since the low pressure control could possibly have opened due to the outdoor ambient being very low rather than an actual system fault. Exiting Lock -Out Mode: To exit the lock -out mode, remove 24 volts to the defrost control by removing power to the indoor air handler/furnace or by shoting the two defrost control test pins together. ENHANCED FEATURE DEFROST CONTROL DIAGNOSTIC CODES LED 1 LED 2 Control Board Status OFF OFF No Power ON ON Coil Sensor Failure OFF ON Ambient Sensor Failure FLASH FLASH Normal OFF FLASH Low Pressure Lockout short test pins to reset FLASH OFF Hi h Pressure Lockout short test pins to reset ON FLASH Low Pressure Control Open FLASH ON High Pressure Control Open Alternate Flashing 5 Minute Time Delay Sensor Temperature vs. Resistance Table: Degrees C Degrees F Ohms -20 -4 96,974 -10 14 55,298 0 32 32,650 10 50 19,903 20 68 12,493 25 77 10,000 30 86 8,056 40 104 5,324 36 AWARNING: Turn off electric power at the fuse box or service panel before making any electrical connections. Also, the ground connection must be completed before making line voltage connections. Failure to do so can result in electrical shock, severe personal injury, or death. Time Delay Control (TDC) The time delay (TDC) is in the low voltage control circuit. When the compressor shuts off due to a power failure or thermostat operation, this control keeps it off at least 5 minutes which allows the system pressure to equalize, thus not damaging the compressor or blowing fuses on start-up. Remote Outdoor Temperature Model (Part No. 47-102709-03) This is a kit that has a longer remote sensor that can be installed away from the outdoor unit for better thermostat temperature display. AUESSORIES Heat Pump Thermostat Warning Light Kit RXPX-DO1 This component senses a compressor lock out and tells the thermostat service light to come on. This will let the homeowner know that service is needed on the system. NOTE: Warning light on thermostat will come on during a 5 minute compressor time delay and for 5 seconds during defrost while the compressor is off. Homeowner should only be concerned if light stays on for more than 5 minutes. Low Ambient Control (LAC) (Part No. RXAD-AO8) This component senses compressor head pressure and shuts the heat pump fan off when the head pressure drops to approximately 250 PSIG. This allows the unit to build a sufficient head pressure at lower outdoor ambient (down to 0°F [-180Cj) in order to maintain system balance and obtain improved capacity. Low ambient control should be used on all equipment operated below 70°F [21 °C} ambient. 37 DIAGNOSTICS Cooling Mechanical Checks Flowchart Outdoor Unit Running? Go to Electrical Checks Flowchart Pressure Problems? Ivy Dirty Outdoor Coil Low on Charge Dirty Filters Inoperative Outdoor Fan Open IPR Valve Dirty Indoor Coil Overcharge Low Ambient Temperature Inadequate Indoor Airflow Recirculation of Outdoor Air Bad Compressor Inoperative Indoor Blower FNonc. Outdoor Check Valve Closed Low on Charge HigherThan Ambient Air Entering Outdoor Coil Restricted Indoor Metering Device Restricted Indoor Metering Device Wrong Outdoor Fan Rotation Restricted Filter Drier Restriction in System Recirculation of Indoor Air Wrong Indoor Blower Rotation u Inadequate Ducts CD �7 a Outdoor Check Valve Closed 0 Restricted Filter Drier 38 DIAGNOSTI(S Heating Mechanical Checks Flowchart Outdoor Unit Running? • Go to Electrical Checks Flowchart Pressure Problems? Dirty Indoor Coil Low on Charge Dirty Outdoor Coil Inoperative Indoor Fan Open IRP Valve Inadequate Outdoor Airflow Overcharge Low Indoor Temperature Inoperative Outdoor Fan Motor Noncondensibles Compressor Low on Charge Wrong Indoor Fan Rotation Indoor Check Valve Closed Restricted Outdoor Metering Device Dirty Filters Restricted Outdoor Metering Device Restriction in System Inadequate Ducts Restricted Filter Drier Recirculation of Outdoor Air Reversing Valve Failure Wrong Outdoor Blower Rotation Outdoor Check Valve Closed Restricted Filter Drier 0—� �9 r�1 DIAGNOSTICS Defrost Mechanical Checks Flowchart Reversing Valve 1 ( Poor Sensor 1 ( Wrong Defrost Control 1 l Stuck J l Location J l Timer Setting J No Defrost Timer Wrong Defrost Control Poor Sensor Control Power Timer Setting Location Failed Defrost Failed Defrost Relay Low System Control (doesn't stop O.D. Fan) Charge Failed Defrost Relay Thermostat Satisfies Wind During Defrost in Defrost Affecting Loose Defrost Sensor 40 DIAGNOSTICS General Troubleshooting Chart AWARNING: Disconnect all power to unit before servicing. Contactor may break only one side. Failure to shut off power can cause electrical shock resulting in personal injury or death. SYMPTOM POSSIBLE CAUSE REMEDY Unit will not run - Power off or loose electrical connection - Check for correct voltage at line voltage connections in condensing unit. - Thermostat out of calibration — set too high - Reset. - Defective control board - Check control board diagnostic codes. - Replace fuses/reset breaker. - Blown fuses/tripped breaker - Check wiring. Replace transformer. - Transformer defective - Reset. Also see high head pressure remedy. The high- - High-pressure control open pressure control opens at 610 PSIG. - Miswiring of communications (communication - Check communication wiring. light on continuously) Outdoor fan runs, - Run or start capacitor defective - Replace. compressor doesn't - Start relay defective - Replace. - Loose connection - Check for correct voltage at compressor. Check and tighten all connections. - Compressor stuck, grounded or open motor - Wait at least 3 hours for overload to reset. If still open, winding, open internal overload. replace the compressor. - Low -voltage condition - Add start kit components. Insufficient cooling - Improperly sized unit - Recalculate load. - Improper indoor airflow - Check. Should be approximately 400 CFM per ton. - Incorrect refrigerant charge - Charge per procedure attached to unit service panel. - Air, noncondensibles, or moisture in system - Recover refrigerant. Evacuate and recharge. Add filter drier. Compressor short - Incorrect voltage - At compressor terminals, voltage must be ± 10% of cycles nameplate marking when unit is operating. - Defective overload protector - Replace. Check for correct voltage. - Refrigerant undercharge - Add refrigerant. Registers sweat - Low indoor airflow - Increase speed of blower or reduce restriction. Replace air filter. High head, low vapor - Restriction in liquid line, expansion device, or - Remove or replace defective component. pressures filter drier - Bad TXV - Replace TXV. High head, high - Dirty outdoor coil - Clean coil. or normal vapor - Refrigerant overcharge - Correct system charge. pressure — Cooling - Outdoor fan not running - Repair or replace. mode - Air or noncondensibles in system - Recover refrigerant. Evacuate and recharge. Low head, high vapor - Bad TXV - Replace TXV. pressures - Bad compressor - Replace compressor. Low vapor, cool - Low indoor airflow - Increase speed of blower or reduce restriction. compressor, iced Replace air filter. indoor coil - Operating below 65°F outdoors - Add Low Ambient Kit. - Moisture in system - Recover refrigerant. Evacuate and recharge. Add filter drier. High vapor pressure - Excessive load - Recheck load calculation. - Defective compressor - Replace. Fluctuating head and - TXV hunting - Check TXV bulb clamp. Check air distribution on coil. vapor pressures Replace TXV. - Air or noncondensibles in system - Recover refrigerant. Evacuate and recharge. Gurgle or pulsing - Air or noncondensibles in system - Recover refrigerant. Evacuate and recharge. noise at expansion device or liquid line a c= O N 41 Vf V 0 c CD a 42 DIAGNOSTICS Service Analyzer Charts COMPRESSOR SYMPTOMPOSSIBLE High superheat (greater than 15°F [-9°C] at coil) OVERHEATING Low charge Check system charge. Faulty metering device Restricted cap tube, TEV (TXV) Power element superheat out of adjustment internally Foreign matter stopping flow High internal load Hot air (attic) entering return Heat source on; miswired or faulty control Restriction in liquid line Drier plugged. Line kinked. Low head pressure Low charge Operating in low ambient temperatures Suction or liquid line subjected to high heat source Hot attic Hot water line Low line voltage Loose wire connections Check wiring. Power company problem, transformer Have problem corrected before diagnosis continues. Undersized wire feeding unit Correct and complete diagnosis. High line voltage Power company problem Have problem corrected. High head pressure Overcharge Check system charge. Dirty heat pump coil Clean coil. Faulty or wrong size heat pump fan motor Replace fan motor. Faulty fan blade or wrong rotation Replace fan blade. Replace with correct rotation motor. Recirculation of air Correct installation. Additional heat source Check for dryer vent near unit. Check for recirculation from other equipment. Noncondensibles Recover refrigerant. Evacuate and recharge system. Equipment not matched Correct mismatch. Short cycling of com- pressor Faulty pressure control Replace pressure control. Loose wiring Check unit wiring. Thermostat Located in supply air stream Differential setting too close Customer misuse TEV Internal foreign matter Power element failure Valve too small Distributor tube/tubes restricted Distributor tube Restricted with foreign matter Kinked I.D. reduced from previous compressor failure DIAGNOSTICS Service Analyzer Charts COMPRESSOR OVERHEATING (cont.) SYMPTOM Short cycling of compressor (cont.) POSSIBLE CAUSE Low charge - CHECK • REMEDIES Check system charge. Low evaporator airflow Dirty coil Dirty filter Duct too small or restricted Faulty run capacitor Replace. Faulty internal overload Replace compressor. Faulty Compressor Valves Fast equalization/Low pressure difference Replace compressor and examine system to locate reason. ELECTRICAL SYMPTOM Voltage present on load side of com- pressor contactor and compressor won't run POSSIBLE CAUSE Compressor start components - CHECK • REMEDIES Check start capacitor. Check potential relay. Run capacitor Check with ohmmeter Internal overload Allow time to reset. Compressor windings Check for correct ohms. Voltage present on line side of com- pressor contactor only Thermostat Check for control voltage to contactor coil. Compressor control circuit High-pressure switch Low-pressure switch Ambient thermostat Solid-state protection control or internal thermal sensors Compressor timed off/on control or interlock No voltage on line side of compressor contactor Blown fuses or tripped circuit breaker Check for short in wiring or unit. Improper wiring Recheck wiring diagram. Improper voltage High voltage Wrong unit Power supply problem Low voltage Wrong unit Power supply problem Wiring undersized Loose connections Single Phasing (3 phase) Check incoming power and fusing. FLOODED STARTS SYMPTOM Liquid in the com- pressor shell POSSIBLE Faulty or missing crankcase heater • - REMEDIES Replace crankcase heater. Too much liquid in system Incorrect piping Check piping guidelines. Overcharge Check and adjust charge. 43 Vf V 0 c CD a DIAGNOSTICS Service Analyzer Charts CONTAMINATION SYMPTOMPOSSIBLE Moisture Poor evacuation on installation or during service In each case, the cure is the same. Recover refrigerant. Add filter drier, evacuate, and recharge. High head pressure Noncondensibles air Unusual head and suction readings Wrong refrigerant or mixed refrigerants Foreign matter - copper filings Copper tubing cuttings Copper oxide Dirty copper piping or nitrogen not used when brazing Welding scale Nitrogen not used during brazing Soldering flux Adding flux before seating copper partway Excess soft solder Wrong solder material LOSS OF LUBRICATION SYMPTOMPOSSIBLE Compressor failures Line tubing too large Reduce pipe size to improve oil return. Low suction pressure Low charge Check system charge. Refrigerant leaks Repair and recharge. Cold, noisy compressor - Slugging Dilution of oil with refrigerant Observe piping guidelines. Noisy compressor Migration Check crankcase heater. Cold, sweating compressor Flooding Check system charge. Low load Reduced airflow Dirty filter Dirty coil Wrong duct size Restricted duct Thermostat setting Advise customer. Short cycling of compressor Faulty high- or low-pressure control Replace control. Loose wiring Check all control wires. Thermostat In supply air stream, out of calibration Customer misuse SLUGGING SYMPTOM• On start-up Incorrect piping Review pipe size guidelines. TEV hunting when Faulty TEV Replace TEV. running 44 DIAGNOSTICS Service Analyzer Charts FLOODING Loose sensing bulb Secure the bulb and insulate. Poor system control Bulb in wrong location Relocate bulb. using a TEV Wrong size TEV Use correct replacement. Improper superheat setting (less than 5°F [-15°C]) Replace TEV. THERMOSTATIC EXPANSION VALVES Moisture freezing and blocking valve Dirt or foreign material blocking valve Low refrigerant charge Vapor bubbles in liquid line High Superheat, Low Suction Pressure (superheat over Misapplication of internally equalized valve Plugged external equalizer line Undersized TEV Loss of charge from power head sensing bulb Charge migration from sensing bulb to power head (Warm power head with warm, wet cloth. Does valve operate correctly now?) Moisture causing valve to stick open. Dirt or foreign material causing valve to stick open TEV seat leak (a gurgling or hissing sound is Valve feeds too much heard AT THE TEV during the off cycle, if this is refrigerant, with low the cause). NOT APPLICABLE TO BLEED PORT superheat and higher VALVES. than normal suction Oversized TEV pressure Incorrect sensing bulb location Low superheat adjustment Incorrectly installed, or restricted external equalizer line Recover charge, install filter -drier, evacuate system, recharge. Recover charge, install filter -drier, evacuate system, recharge. Correct the charge. Remove restriction in liquid line. Correct the refrigerant charge. Remove noncondensible gases. Size liquid line correctly. Use correct TEV. Remove external equalizer line restriction. Replace with correct valve. Replace power head or complete TEV. Ensure TEV is warmer than sensing bulb Recover refrigerant, replace filter -drier, evacuate system, and recharge. Recover refrigerant, replace filter drier, evacuate system, and recharge. Replace the TEV Install correct TEV. Install bulb with two mounting straps, in 2:00 or 4:00 position on suction line, with insulation. Replace TEV. Remove restriction, or relocate external equalizer 45 DIAGNOSTICS Service Analyzer Charts THERMOSTATIC EXPANSION VALVES (cont.) SYMPTOMPOSSIBLE Refrigerant drainage from flooded evaporator Install trap riser to the top of the evaporator coil. Inoperable crankcase heater or crankcase heater needed Replace or add crankcase heater. Compressor flood back upon start-up Any of the causes listed under symptoms of Any of the solutions listed under solutions of Electrical Electrical problems on page 45 problems on page 45 Unequal evaporator circuit loading Ensure airflow is equally distributed through evaporator. Check for blocked distributor tubes. Superheat is low to normal with low suction pressure Low load or airflow entering evaporator coil Ensure blower is moving proper air CFM. Remove/Correct any airflow restriction. Expansion valve is oversized Install correct TEV. Sensing bulb is affected by liquid refrigerant or Relocate sensing bulb in another position around the Superheat and refrigerant oil flowing through suction line circumference of the suction line. suction pressure Unequal refrigerant flow through evaporator Ensure sensing bulb is located properly. fluctuate (valve is circuits hunting) Check for blocked distributor tubes. Moisture freezing and partially blocking TEV Recover refrigerant, change filter -drier, evacuate system, and recharge. External equalizer line not connected or line Connect equalizer line in proper location, or remove any plugged blockage. Valve does not regulate at all Sensing bulb lost its operating charge Replace TEV. Valve body damaged during soldering or by Replace TEV. improper installation 46 DIAGNOSTICS COOLING MODE TROUBLESHOOTING TIPS INDICATORS SYSTEM DISCHARGE SUCTION SUPERHEAT SUBCOOLING COMPRESSOR PROBLEM PRESSURE PRESSURE Normal: 5°-15°F Normal: See AMPS [-15' — -9°C] Charging Chart Overcharge High High Low High High Undercharge Low Low High Low Low Liquid Restriction (Drier) Low Low High High Low Low Indoor Airflow Low Low Low Low Low Dirty Outdoor Coil High High Low Low High Low Outdoor Ambient Temperature Low Low High High Low Inefficient Compressor Low High High High Low Indoor TXV Feeler Bulb Charge Lost Low Low High High Low Poorly Insulated Indoor Sensing Bulb High High Low Low High HEATING MODE TROUBLESHOOTING TIPS INDICATORS SYSTEM DISCHARGE SUCTION SUPERHEAT SUBCOOLING COMPRESSOR PROBLEM PRESSURE PRESSURE Normal: 5°-15°F Normal: See AMPS [-15' — -9°C] Charging Chart Overcharge High High OK High High Undercharge Low Low OK or High Low Low Liquid Restriction (Drier) Low Low High High Low Low Outdoor Airflow Low Low Low Low Low Dirty Indoor Coil High High Low Low High Low Indoor Ambient Temperature Low Low OK High Low Inefficient Compressor Low High High High Low Outdoor TXV Feeler Bulb Charge Lost Low Low High High Low Poorly Insulated Outdoor Sensing High High Low Low High Bulb 47 8 Wiring Diagrams I Q vo I 17 R—.r.—R —�. SC® L1 CLH L 0 5—•BK---4•—.— (OPT) CC GND CC iI T1 T3 I SL COM 5 SR 2 1 BR FAN RC !A, SR RES OFM 0 0 BK I 1 R I C COMP COMP Qs PR CC F' .c. Q IR _ I � S BK G/Y GND BK I I Y BR I I FAN 2 H C F RC 1 CCH •—.—.— .—.—.—.—.—.—.—.—. — i� AN (OPTI I I I LAR LAC 01 .—.---�-----gK------—-—-—-—-—— BK—.-.J I BK -_BK I I GND. —_ -FAN _---_—_—I � I r--------------------------- L MOTOR HPC cc I I YI OUT • I y I I LPC (OPT) I I Wfl I I I I r_—_—_—_—_—_—_—_—_—_—_—_—_—_- I I CC CC YI OUT (OPT) r_—_— WR I I Y I (OPTI LAC HPC TEST � LL L I— J DFC BR Y BL' JBL I PRESS OLEO I I OLEO 2I I I I HPC HPC _—_—_—_—_—_ BK 1 3 —. J I BR LPC BR 70801—_—_—_J-- fLAT) 2 —I e RV DFC SBi60I LPC LPLCD----1 C I NO RV BK DBK C B Y L I I I I Y PR BR RV � Al � DS BK BK qB DS AS Y BL PR R BR 0 L BK BK A5 5 8 AA,,!7 A WIRING DIAGRAM WIRING SCHEMATIC COMPONENT CODE NOTES: WIRING INFORMATION WIRE COLOR CODE AS AMBIENT SENSOR 1. CONNECTORS SUITABLE FOR USE WITH COPPER CONDUCTORS ONLY. LINE VOLTAGE BK__BLACK GY GRAY RRED CC COMPRESSOR CONTACTOR CCH CRANKCASE HEATER 2. COMPRESSOR MOTOR THERMALLY PROTEL TED AND ALL 3 PHASE ARE -FACTORY STANDARD -- BR__BROWN 0___ORANGE W WHITE COMP COMPRESSOR PROTECTED UNDER PRIMARY SINGLE PHASE CONDITIONS. -FACTORY OPTION — ' — ' — " _ BL__BLUE PKPINK Y OFC DEFROST CONTROL OS DEFROST COIL SENSOR 3. CONNECT FIELD WIRING IN GROUNDED RAINTIGHT CONDUIT To 60 HERTZ FUSE DISCONNECT, VOLTAGE AND PHASE PER RATING PLATE. -FIELD INSTALLED — — — — — — __YELLOW G... GREEN PR PURPLE ON HIGH PRES.ASSIB UT -OUT CONTROL HP C HIGH AMBIENT LA L LOW AMBIENT COOLING CONTROL 4. LOW VOLTAGE CIRCUIT TO 8E N.E.C. CLASS 2 WITH A CLASS 2 LOW VOLTAGE -FACTORY STANDARD ELECTRICAL WIRING DIAGRAM LAR LOW AMBIENT RELAY LPC LOW PRESSURE CUT OUT CONTROL TRANSFORMER 24 VOLT, 6B HERTZ. -FACTORY OPTION ------- OFM OUTDOOR FAN MOTOR OPT OPTIONAL 5. TO THERMOSTAT SUB-BASE,REFER TO SYSTEM SCHEMATICS OR SCHEMATICS ON INDOOR SECTION FOR LOW VOLTAGE CONTROL WIRING. -FIELD INSTALLED — — — — — — REMOTE HEAT PUMP RC RUN CAPACITOR RV REVERSING VALVE SC START CAPACITOR 6. THIS WIRE IS USED TO TURN ON STRIP HEAT DURING DEFROST. OMIT CONNECTION FOR MOST ECONOMICAL OPERATION. REPLACEMENT WIRE -MUST BE THE SAME SIZE AND TYPE OF SINGLE PHASE SR START RELAY WR WARNING RELAY 7. TO HEAT PUMP MONITOR 2.5 VA.MAX.WHEN USED. INSULATION AS ORIGINAL (105 C MIN.) DEMAND DEFROST CONTROL B. THIS COMPONENT IS ENERGIZED IN HEATING MODE. WARNING 9. IF LAC/LAR IS NOT USEO,CONNECT BLACK WIRE FROM OFM TO -CABINET MUST BE PERMANENTLY Y A Y DATE DWG. NO. REV DFC FAN MOTOR. GROUNDED AND CONFORM TO I.E.C., N.E.C., 10. BLACK WIRE FROM SR (5)TO CC (TI) DELETED WHEN PTCR IS USED. C.E.C. AND LOCAL CODES AS APPLICABLE. MCB 8-25-05 90-101229-03 09 0 M !) Z r m D cn Cm G cn 0 D Z 9 0 0 M U) ZE ^Z VI TOCCH _ - .6 - - - - - - - - - - ---------1 3Q AUX 7 , CCH 1 � e Ll L GND GND CC CC CC I CC T, T2 T3 G/V GND ., INN u � ._BK .� RC I I FIELD INSTALLED COMP BR� AUX CCH OFN I 0 G 'BK• I AN BK I CC LI I••F _ 1 COMP PR 9AN 20 R i I 2 1 BK LAR LAC OFM 1 BR I-L- -__� I I I RC r - BK - BK I I I I I GND. _- FA _- N _-_-_-_-I (OPT) ' I I I I MOTOR r----- Yl OUT I I I I WR OUT [[ YI OUT DFC J I I HPC HPC LPC r I IIII I (OPT) LA BR HPC TEST BL• IBL I Y OILED 2 I I I I I I I LPC F LPL / 1 BR PRESS OLEO 1 C I BK LAR 1 B ' LPC I I I I I I RV (OPT) 2 —-BR 70 80 R °° D I RV _____—I RV DFC 50 60 D I I I I I C B I Y C e- I IIII BK Y BK JBL 0 I 0 R LY IIII0 R L DS AS BL PR R BR 0 L Y PR BR RV BK BK QQ Q5 5 8 ©� 4 DS BK BK AS WIRING DIAGRAM WIRING SCHEMATIC COMPONENT CODE NOTES: WIRING INFORMATION WIRE COLOR CODE AS AMBIENT SENSOR L CONNECTORS SUITABLE FOR USE WITH COPPER CONDUCTORS ONLY. LINE VOLTAGE BK__BLACK PK__PINK AU AUXILIARY SWITCH 2. COMPRESSOR MOTOR THERMALLY PROTECTED AND ALL 3 PHASE ARE -FACTORY STANDARD BR__BPR__PURPLE CC COMPRESSOR CONTACTOR CCH CRANKCASE HEATER PROTECTED UNDER PRIMARY SINGLE PHASE CONDITIONS. -FACTORY OPTION — • — • — • • BL__BLUE BLUE RRED COMP COMPRESSOR 3. CONNECT FIELD WIRING IN GROUNDED flA1NTIGHT CONDUIT To se -FIELD INSTALLED — — — — — — G--- GREEN WWHITE DFC DEFROST CONTROL DS DEFROST COIL SENSOR HERTZ FUSE DISCONNECT, VOLTAGE AND PHASE PER HATING PLATE. LOW VOLTAGE GY__GRAY Y___YELLOW GND GROUND. CHASSIS 4. LOW VOLTAGE CIRCUIT TO BE N.E.C. CLASS 2 WITH A CLASS 2 -FACTORY STANDARD O ORANGE ELECTRICAL WIRING DIAGRAM HP C HIGH PRES.CUT-OUT CONTROL LA c LOW AMBIENT COOLING CONTROL TRANSFORMER 24 VOLT.60 HERTZ. -FACTORY oPTIDN------- LAR LOW AMBIENT RELAY LPC LOW PRESSURE CUT OUT CONTROL 5. TO THERMOSTAT SUB-BASE,REFER TO SYSTEM SCHEMATICS OR SCHEMATICS ON INDOOR SECTION FOR LOW VOLTAGE CONTROL WIRING. -FIELD INSTALLED — — — — — — REMOTE HEAT PUMP OFM OUTDOOR FAN MOTOR OPT OPTIONAL RC RUN CAPACITOR 6. THIS WIRE 15 USED TO TURN ON STRIP HEAT DURING DEFROST. OMIT CONNECTION FOR MOST ECONOMICAL OPERATION. REPLACEMENT WIRE -MUST BE THE SAME SIZE AND TYPE OF rn 21U 8 2 3 �/ V THREE PHASE RV REVERSING VALVE SSTART CAPACITOR C 7. TO HEAT PUMP MONITOR 2.5 VA.MAX.WHEN USED. INSULATION AS ORIGINAL (105 C'MIN.) DEMAND DEFROST CONTROL SR START RELAY 8. THIS COMPONENT IS ENERGIZED IN HEATING MODE. WARNING WR WARNING RELAY 9. IF LAC/LAR IS NOT USED. CONNECT BLACK WIRE FROM OFM To -CABINET MUST BE PERMANENTLY DR, Br APP. BY DATE DWG. NO. REV DFC FAN MOTOR. GROUNDED AND CONFORM TO I.E.C., N.E.C., C.E.C. AND LOCAL CODES AS APPLICABLE. MCB ';-Is-05 90-101229-05 88 G.: D En m N O N f✓J O C O v m r in v ' a c-> ppv a swoJonia Gulilm 0 Wiring Diagrams _ :---- - --- I AUX CCH - - - - - - - - - - 1 7 ITO CA I CCH G/Y GND 1 CC 1 - ��- ' No L1 GND L CC CC CC CCH.— .—.—.—.--BK—.—.—.—.—.—.—.—.—.—.—.—.—.— Tl 2 T3 EDIT) �1 I •—•—• —•—•—•—•—BK—•—•—•—•—•—•—•—•-- --•i RC 8R� OFM 1• 0 U + ,� I FIELD INSTALLED COMP BK CCH 8K I CC I 14---- I FCOMP PR DR R—_ i 3 2 1 BK � I LAR LAC 3K—.—.—.—.—.—. I{ 3 I I I OFM l BL I RC OR I I I I Y (OPT) IBR I I I I I_—_—_—_—_—_—_—_—_—_—_ WR I GND. —_—_—_—_—_—_—_—_—_ I I — — — — — — —I BR I (OPT) DR I I HPC FAN I BL MOTOR I I - I I I Q CC Wfl II GG Y]OUT FAN l Y MOTOR Y1 OUT I Y I L-- I I I I I �-- DFC J I LPC HPC HPC _— -— -— - —- —- I (OPT) LAC HPC TES7BRBL•IgLILL OLEO 2 I I I I I I LPC LPC / I I I BR PRESS O LED 1 + - — _ — _ — _ I C BK LAR 1 3 LPC I I I I I RV U I (OPT) 0 2 —.—.� _ _ _ _ _ —I BR �B ee R °60 RV RV OF C 50 D I I I I I C1TI D--, Ce BKDS0 BL R L I I I I L PR R BR 0 L Y PR BR I I I I I RV BK BK Q Q 0 B 0 0 A,BK DS BK AS WIRING DIAGRAM WIRING SCHEMATIC COMPONENT CODE NOTES: WIRING INFORMATION WIRE COLOR CODE AS AMBIENT SENSOR 1. CONNECTORS SUITABLE FOR USE WITH COPPER CONDUCTORS ONLY. LINE VOLTAGE BK--BLACK PK PINK AUX AUXILIARY SWITCH 2. COMPRESSOR MOTOR THERMALLY PROTECTED AND ALL 3 PHASE ARE -FACTORY STANDARD BR --BROWN PR PURPLE CCH COMPRESSORHEATERCTOR PROTECTED UNDER PRIMARY SINGLE PHASE CONDITIONS. -FACTORY OPTION —' —' —' BLBLUE R—RED COMP COMPRESSOR DEFROST 3. CONNECT FIELD WIRING IN GROUNDED RAINTIGHT CONDUIT TO 60 -FIELD INSTALLED — — — — — — G___GREEN W---WHITE DR DEFROST RELAY HERTZ HERTZ FUSE DISCONNECT, VOLTAGE AND PHASE PER RATING PLATE. LOW VOLTAGE GY--GRAY DS DEFROST COIL SENSOR 4. LOW VOLTAGE CIRCUIT TO BE N.E.C. CLASS 2 WITH A CLASS 2 -FACTORY STANDARD 0 ORANGE Y---YELLOW HPC HIGH PRES.CUTND GROUND. CHA -OUT CONTROL TRANSFORMER 24 VOLT, 60 HERTZ. -FACTORY OPTION ------ ELECTRICAL WIRING DIAGRAM LAC LOW AMBIENT COOLING CONTROL LAR LOW AMBIENT RELAY OFC LOW PRESSURE OUT OUT CONTROL OFM FAN 5. TO THERMOSTAT SUB-BASE,REFER TO SYSTEM SCHEMATICS OR SCHEMATICS ON INDOOR SECTION FOR LOW VOLTAGE CONTROL WIRING. 6. THIS WIRE IS USED TO TURN ON STRIP HEAT DURING DEFROST. -FIELD INSTALLED - - - - - - REPLACEMENT WIRE REMOTE HEAT PUMP OUTDOOR MOTOR OPT OPTIONAL CAPACITOR OMIT CONNECTION FOR MOST ECONOMICAL OPERATION. -MUST BE THE SAME SIZE AND TYPE OF 460V/575V THREE PHASE RV REVERSIG VALVE SC START CAPACITOR SR START RELAY 7. TO HEAT PUMP MONITOR 2.5 VA.MAX.WHEN USED. B. THIS COMPONENT IS ENERGIZED IN HEATING MODE. INSULATION AS ORIGINAL (105 CMIN.) WARNING DEMAND DEFROST CONTROL WR WARNING RELAY 9, IF LAC/LAR IS NOT USED, CONNECT BLACK WIRE FROM OFM TO -CABINET MUST BE PERMANENTLY DFC FAN MOTOR. GROUNDED AND CONFORM TO I.E.C., N.E.C., v A Y DATE DWG. NO. REV C.E.C. AND LOCAL CODES AS APPLICABLE. MCB 9-19-05 90-101229-07 09 51 52 CM 0315