8HJ00-0 Single Package Rooftop Gas Heating/Electric Cooling Units Wiring Diagrams UNIT WIRING DIAGRAMS Unit Volt-Ph-Hz Type From Label Fig. No. 8HJD/E/F00,005 08/0--60 Schematic/Component Arrangement 50HJ5008 60--60 Schematic/Component Arrangement 50HJ5009 8HJG/H/K/L/M/N00,005* 08/0--60 Schematic/Component Arrangement 50HJ5008 60--60 Schematic/Component Arrangement 50HJ5009 8HJE/F/R/T00,005 and 8HJS005 575--60 Schematic/Component Arrangement 50HJ5000 8HJD/E/F/L/M/N/R/S/T00-006 08/0--60 Schematic/Component Arrangement 50HJ5007 8HJG/H/K/L/M/N006* 08/0--60 Schematic/Component Arrangement 50HJ500 5 60--60 Schematic/Component Arrangement 50HJ5009 08/0--60 Schematic/Component Arrangement 50HJ500 5 8HJD/E/F/R/S/T006,007 60--60 Schematic/Component Arrangement 50HJ500 6 575--60 Schematic/Component Arrangement 50HJ500 7 08/0--60 Schematic/Component Arrangement 50HJ5096 8 8HJD/E/F/R/S/T008-0 60--60 Schematic/Component Arrangement 50HJ5097 9 575--60 Schematic/Component Arrangement 50HJ5098 0 *Low NOx/California Compliant Units. Applies to Low NOx Units. OPTION AND ACCESSORY WIRING Description 8HJ Unit Size Fig. No. Serial Number Apollo Controls Wiring Including Indoor Air Quality 00-0 From 9Gxxxxx Apollo Thermostat Wiring Typical 00-007 008-0 From 095Gxxxxx Convenience Outlet Schematic 00-0 From 0798Gxxxxx Durablade Economizer Wiring 00-0 5 From 95Gxxxxx* Differential Enthalpy Control (Durablade) 00-0 6 From 95Gxxxxx* Solid-State Enthalpy Control (Durablade) 00-0 7 From 95Gxxxxx* EconoMi$er Wiring 00-0 8 099Gxxxxx-070Gxxxxx EconoMi$er Dry Bulb Sensor Wiring 00-0 9 099Gxxxxx-070Gxxxxx EconoMi$er Enthalpy Sensor Wiring 00-0 0 099Gxxxxx-070Gxxxxx EconoMi$er Power Exhaust Wiring with the Switch in the Actuator 00-0 099Gxxxxx-50Gxxxxx EconoMi$er Power Exhaust Wiring with the Switch Outside the Actuator 00-0 50Gxxxxx-070Gxxxxx EconoMi$er Wiring 00-0 From 080Gxxxxx Differential Enthalpy Wiring (EconoMi$er) 00-0 From 080Gxxxxx Fire and Smoke Control Wiring (EconoMi$er) 00-0 5 From 080Gxxxxx Indoor Air Quality Sensor Wiring (EconoMi$er) 00-0 6 From 080Gxxxxx Power Exhaust, 08/0, 575 V Units (EconoMi$er) 00-0 7 From 080Gxxxxx Power Exhaust for 60 V Units (EconoMi$er) 00-0 8 From 080Gxxxxx EconoMi$er with PremierLink or -0 ma Control 00-0 9 From 080Gxxxxx Factory-Installed Non-fused Disconnect 00-0 0 From 095Gxxxxx MoistureMi$er Dehumidification Package Humidistat Wiring (Typical) 00-007 From 96Gxxxxx 008-0 From 96Gxxxxx Motormaster I Control Wiring Details 00-0 Motormaster II Control Wiring Schematic 00-007 008-0 5 Motormaster IV Control Wiring Schematic 00-007 6 008-0 7 Novar Controls Wiring (EMT05) 00-0 8 From 900Gxxxxx Novar Controls Wiring (EMT0) 00-0 9 From 900Gxxxxx PremierLink Controls Wiring 00-0 0 From 60Gxxxxx PremierLink Controls Wiring with Dual Terminal Block 00-0 From 00Gxxxxx PremierLink Controls with Dual Terminal Block and 6AQ 00-0 From 0Gxxxxx Smoke Detector Shutdown Single-Phase 00-0 From 080Gxxxxx Smoke Detector Shutdown Three-Phase 00-0 From 080Gxxxxx Time Guard II Device 00-0 5 Two-Position Damper Wiring 00-0 6 6AQ Energy Recycler Factory-Installed 6AQ Energy$Recycler Wiring COBRA Energy Recovery Units 008-0 7 0 8 From 90Gxxxxx Typical COBRA Energy Recycler Wiring with PremierLink Controls 00-0 9 00-007 Units: From 50Gxxxxx Typical COBRA Energy Recycler Wiring with Standard Controls 00-0 50 008-0 Units: From 90Gxxxxx Field-Installed 6AQ Energy$Recycler Accessory Wiring (Typical) 00-0 5 *Durablade Economizer was a factory-installed option (FIOP) until /5/0, it is currently available only as a field-installed accessory. EconoMi$er wiring in Fig. 8 is generic (for units produced from 5/99-/0) with the exception of the way the power exhaust switch is wired. Refer to Fig. and for more detailed power exhaust switch information. Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Book PC Catalog No. 5-8009 Printed in U.S.A. Form 8HJ-W Pg -0 Replaces: 8/50HJ-7W, Tab a 6a 8/50HJ-8W
OPERATING SEQUENCE Unit Produced Before /8/0 COOLING, UNITS WITHOUT ECONOMIZER When thermostat calls for cooling, terminals G and Y are energized. The indoor (evaporator) fan contactor (IFC), OFC (outdoor-fan contactor), and compressor contactor no. (C) are energized. Indoor (evaporator) fan motor (IFM), compressor no., and condenser fans start. The outdoor (condenser) fan motors (OFMs) run continuously while unit is cooling. For units with stages of cooling, if the thermostat calls for a second stage of cooling by energizing Y, compressor contactor no. (C) is energized and compressor no. starts. When the thermostat is satisfied, C and C are deenergized and the compressors and OFMs shut off. After a 0-second delay, the IFM shuts off. If the thermostat fan selector switch is in the ON position, the evaporator motor will run continuously. COOLING, UNITS WITH DURABLADE ECONO- MIZER When the outdoor-air temperature is above the outdoor-air thermostat (OAT) setting and the room thermostat calls for cooling, the compressor contactor no. is energized to start compressor no. and outdoor (condenser) fan motors (OFMs). The indoor (evaporator) fan motor (IFM) is energized and the economizer damper moves to the minimum position. Upon a further call for cooling, compressor contactor no. will be energized, starting compressor no.. After the thermostat is satisfied and the IFM is deenergized, the damper moves to the fully closed position. When the outdoor-air temperature is below the OAT setting and the thermostat calls for Y and G, the economizer damper moves to the minimum position when the evaporator fan starts. The first stage of cooling is provided by the economizer. If the supply-air temperature is above 57 F ( C), a switch on the supply-air thermostat is closed between the T terminal and the vac terminal. This causes the damper to continue to modulate open until the supply-air temperature falls below 55 F ( C) or the damper reaches the fully open position. When the supply-air temperature is between 55 F and 5 F ( C and C), the supply-air thermostat has open switches between the T and vac terminals and between the T and vac terminals. This causes the economizer damper to remain in an intermediate open position. If the supply-air temperature falls below 5 F ( C), a switch on the supply-air thermostat is closed between the T terminal and the vac terminal. This causes the damper to modulate closed until the supply-air temperature rises above 55 F ( C) or the damper reaches the minimum position. When the supply-air temperature is between 55 F and 57 F ( C and C), the supply-air thermostat has open switches between the T and vac terminals. This causes the economizer damper to remain in an intermediate open position. If the outdoor air alone cannot satisfy the cooling requirements of the conditioned space, economizer cooling is integrated with mechanical cooling, providing second-stage cooling. Compressor no. and condenser fans will be energized, and the position of the economizer damper will be determined by the supply-air temperature. Compressor no. is locked out. When the second stage of cooling is satisfied, the compressor and OFMs will be deenergized. The damper position will be determined by the supply-air temperature. When the first stage of cooling is satisfied, the IFM shuts off after a 0-second delay. The damper then moves to fully closed position. COOLING, UNITS WITH ECONOMI$ER When the outdoor-air temperature (OAT) is above the ECON SP set point and the room thermostat calls for Stage cooling (R to G + Y), the indoor (evaporator) fan motor (IFM) is energized and the EconoMi$er damper modulates to minimum position. The compressor contactor is energized to start the compressor and outdoor (condenser) fan motor (OFM). After the thermostat is satisfied, the damper modulates to the fully closed position when the IFM is deenergized. When the OAT is below the ECON SP setting and the room thermostat calls for Stage cooling (R to G + Y), the EconoMi$er modulates to the minimum position when the IFM is energized. The EconoMi$er provides Stage of cooling by modulating the return and outdoor air dampers to maintain a 55 F supply air set point. If the supply-air temperature (SAT) is greater than 57 F, the EconoMi$er modulates open, allowing a greater amount of outdoor air to enter the unit. If the SAT drops below 5 F, the outdoor air damper modulates closed to reduce the amount of outdoor air. When the SAT is between 5 and 57 F, the EconoMi$er maintains its position. If outdoor air alone cannot satisfy the cooling requirements of the conditioned space, and the OAT is above the MECH CLG LOCKOUT set point, the EconoMi$er integrates free cooling with mechanical cooling. This is accomplished by the strategies below. NOTE: Compressor has a -minute Minimum On, Minimum Off, and Interstage delay timer.. If Y is energized, and the room thermostat calls for Y (-stage thermostat), compressor no. and OFM are energized. The EconoMi$er damper is maintained at its current position.. If Y is energized for more than 0 minutes, and Y is not energized (whether or not a -stage thermostat is used), compressor no. and OFM are energized. The EconoMi$er damper is maintained at its current position.. If Y is energized, and compressor no. is already energized (see Step ) and the room thermostat calls for Y, the compressor contains to operate. If Y remains energized for more than 0 minutes, compressor no. is energized. NOTE: Compressor no. cannot be energized unless there is a signal for Y from the space thermostat.. If compressor no. is energized, and the Y signal from the thermostat is satisfied, compressors and are deenergized. Reasserting Y will start compressor no. and (after a 0-minute interstage delay) compressor no.. 5. If compressor no. is energized and the thermostat is satisfied, compressor no., the OFM, and IFM are deenergized and the EconoMi$er modulates closed. When the OAT is below the MECH CLG LOCKOUT set point, the compressors remain off. HEATING, UNITS WITHOUT ECONOMIZER When the thermostat calls for heating, terminal W is energized. In order to prevent thermostat short-cycling, the unit is locked into the Heating mode for at least minute when W is energized. The induced-draft motor (IDM) is then energized and the burner ignition sequence begins. The IFM is energized 5 seconds after a flame is ignited. When additional heat is needed, W is energized and the high-fire solenoid on the main gas valve (MGV) is energized. When the thermostat is satisfied and W and W are deenergized, the IFM stops after a 5-second time-off delay. HEATING, UNITS WITH ECONOMIZER/TWO- POSITION DAMPER When the thermostat calls for heating, terminal W is energized. In order to prevent thermostat short-cycling, the unit is locked into the Heating mode for at least minute when W is energized. The induced-draft motor is then energized and the burner ignition sequence begins. The IFM is energized 5 seconds after a flame is ignited and the damper moves to the minimum position. If the two-position damper is used, the outdoor-air damper opens to the minimum position whenever the evaporator fan runs. When additional heat is needed, W is energized and the high-fire solenoid on
the main gas valve (MGV) is energized. When the thermostat is satisfied and W and W are deenergized, the IFM stops after a 5-second time-off delay. The economizer damper then moves to the fully-closed position. When using continuous fan, the damper will remain in the minimum position. Units Produced After /7/0 COOLING UNITS WITHOUT ECONOMI$ER When thermostat calls for cooling, terminal G and Y are energized. The indoor-fan contactor (IFC), compressor contactor no. (C) and outdoor-fan contactor (OFC) are energized. Evaporator-fan motor, compressor no., and both condenser fans start. The outdoor-fan motor(s) run continuously while unit is cooling. When the thermostat is satisfied, C and C are deenergized and the compressors and outdoor (condenser) fan motors (OFM) shut off. After a 0-second delay, the indoor (evaporator) fan motor (IFM) shuts off. If the thermostat fan selector switch is in the ON position, the evaporator-fan motor will run continuously. HEATING UNITS WITHOUT ECONOMI$ER When the thermostat calls for heating, terminal W is energized. In order to prevent thermostat short-cycling, the unit is locked into the Heating mode for at least minute when W is energized. The induced-draft motor (IDM) is then energized and the burner ignition sequence begins. The indoor (evaporator) fan motor (IFM) is energized 5 seconds after a flame is ignited. On units equipped for two stages of heat, when additional heat is needed, W is energized and the high-fire solenoid on the main gas valve (MGV) is energized. When the thermostat is satisfied and W and W are deenergized, the IFM stops after a 5-second time-off delay. COOLING UNITS WITH ECONOMI$ER When free cooling is not available, the compressors will be controlled by the zone thermostat. When free cooling is available, the outdoor-air damper is positioned through the use of a Proportional-Integral (PI) control process to provide a 55 F supply-air temperature into the zone. If the mixed-air temperature is below the lower end of the set point of 50 F, then the outside-air dampers will modulate to minimum position. If the measured temperature is within the 50 to 56 F range, then the outside dampers will hold their current position. If the mixedair temperature is above 56 F, then the outside-air dampers will modulate open until the temperature is within range or they modulate to the fully open position. If outdoor air alone cannot satisfy the cooling requirements of the conditioned space, and the OAT is above the outdoor air mechanical lockout temperature set point (fixed; opens at 5 F, closes at 50 F), the EconoMi$er integrates free cooling with mechanical cooling as follows: Thermostat first stage call for cooling (Y) uses EconoMi$er damper for free cooling. Thermostat second stage call for cooling uses EconoMi$er damper for free cooling, plus compressor no. for mechanical cooling. NOTE: During EconoMi$er operation (damper above minimum position) compressor no. will not operate (sizes 008-0). The high ambient temperature (dry bulb) lockout (fixed): opens at 76 F, closes at 5 F. If the enthalpy of the outside air is too high, the outside air dampers will modulate to minimum position. If mechanical cooling is used with free cooling, the outdoorair damper will be locked into its current position when the compressor starts. If the increase in cooling capacity causes the supply-air temperature to drop below 5 F, then the outdoor-air damper position will be decreased to the minimum position. If the supply temperature continues to fall, the outdoor-air damper will close. If optional power exhaust is installed, as the outdoor-air damper opens and closes, the power exhaust fans will be energized and deenergized. If field-installed accessory CO sensors are connected to the EconoMi$er control, a PI-controlled demand ventilation strategy will begin to operate. As the CO level in the zone increases above the CO set point, the minimum position of the damper will be increased proportionally. As the CO level decreases because of the increase in fresh air, the outdoor-air damper will be proportionally closed. HEATING UNITS WITH ECONOMI$ER When the room temperature calls for heating, terminal W is energized. To prevent thermostat short-cycling, the unit is locked into the Heating mode for at least minute when W is energized. The induceddraft motor is energized and the burner ignition sequence begins. The indoor (evaporator) fan motor (IFM) is energized 5 seconds after a flame is ignited and the damper moves to the minimum position. On units equipped for two stages of heat, when additional heat is needed, W is energized and the high-fire solenoid on the main gas valve (MGV) is energized. When the thermostat is satisfied and W is deenergized, the IFM stops after a 5-second time-off delay. The economizer damper then moves to the fully closed position. When using continuous fan, the damper will remain in the minimum position. UNITS WITH MOISTUREMI$ER DEHUMIDIFICA- TION PACKAGE When thermostat calls for cooling, terminals G and Y are energized. The indoor (evaporator) fan motor (IFM), compressor (C), and outdoor (condenser) fan motor (OFM) start. The OFM runs continuously while the unit is in cooling. As shipped from the factory, MoistureMi$er dehumidification circuit is always energized. If MoistureMi$er circuit modulation is desired, a field-installed, wall-mounted LC Humidistat or humidistat are required. If the MoistureMi$er humidistat is installed and calls for the MoistureMiser subcooler coil to operate, the humidistat internal switch closes. This energizes and closes the liquid line solenoid valve coil (LLSV) of the MoistureMi$er circuit, forcing the hot liquid refrigerant of the liquid line to enter the subcooler coil. As the hot liquid passes through the subcooler coil, it is exposed to the cold supply airflow coming off from the evaporator coil and the liquid is further cooled to a temperature approaching the evaporator coil leaving-air temperature. The state of the refrigerant leaving the subcooler coil is a highly subcooled liquid refrigerant. The liquid then enters a thermostatic expansion valve (TXV) where the liquid is dropped to a lower pressure. The TXV does not have a pressure drop great enough to change the liquid to a -phase fluid. The TXV can throttle the pressure drop of the liquid refrigerant and maintain proper conditions at the compressor suction valve over a wide range of operating conditions. The liquid then enters a second fixed restrictor expansion device for a second pressure drop to a -phase fluid. The liquid proceeds to the evaporator coil at a temperature lower than normal cooling operation. This lower temperature is what increases the latent capacity of the rooftop. The -phase refrigerant passes through the evaporator and is changed into a vapor. The air passing over the evaporator coil will become colder than during normal operation as a result of the colder refrigerant temperatures. However, as it passes over the subcooler coil, the air will be warmed slightly. As the refrigerant leaves the evaporator, the refrigerant passes a low-pressure switch in the suction line. This lowpressure switch will de-activate the MoistureMi$er package when the suction pressure reaches 60 psig. The low-pressure switch is an added safety device to protect against evaporator coil freeze-up. The low-pressure switch will only de-activate and open the liquid line solenoid valve in the MoistureMi$er circuit. The compressors will continue to run as long as there is a call for cooling, regardless of the position of the low-pressure switch. The solenoid valve and the MoistureMi$er package
will be re-activated only when the call for cooling has been satisfied, the low-pressure switch has closed, and a new call for cooling exists. The crankcase heaters on the scroll compressor provide additional protection for the compressor due to the additional refrigerant charge in the subcooler. When the humidistat is satisfied, the humidistat internal switch opens cutting power to and opening the LLSV. The refrigerant is routed back through the evaporator and the subcooler coil is removed from the refrigerant loop. When the thermostat is satisfied, C is deenergized and the compressor and OFM shut off. After a 0-second delay, the IFM shuts off. If the thermostat fan selector switch is in the ON position, the IFM will run continuously. LEGEND AHA AWG C CAP CB CC CER CH,CCH CLO CO COC COH MS P CR CTD D DAT DB DDC DFT DM DX EC ECON EFC EPS EQUIP ER FC FPT FR FSS FU GND HM HPS HR Adjustable Heat Anticipator American Wire Gage Contactor, Compressor Capacitor Circuit Breaker Cooling Compensator Compressor Energy Recycler Relay Crankcase Heater Compressor Lockout Carbon Dioxide Cool Changeover Relay Heat Changeover Relay Common Communications Compressor Motor Cooling Relay, Compressor Relay Compressor Time Delay Diode Discharge Air Thermistor Defrost Board Direct Digital Controls Defrost Thermostat Damper Motor Direct Expansion Coil Sensor Enthalpy Control Economizer Exhaust Fan Contactor Emergency Power Supply (Nine Volt Battery) Equipment Economizer Relay Supply Air Contactor Freeze Protection Thermostat Fan Relay Filter Status Switch Fuse Ground Humidity Relay High-Pressure Switch Heater Relay HS Hall Effect Sensor HT Heat HU Humidistat HV High-Voltage I Ignitor IAQ Indoor Air Quality IDM Induced-Draft Motor IFC Indoor-Fan Contactor IFM Indoor-Fan Motor IFMOVL Indoor-Fan Motor Overload Switch IFR Indoor-Fan Relay IGC Integrated Gas Unit Controller LED Light-Emitting Diode LLSV Liquid Line Solenoid Valve LPS Low-Pressure Switch LS Limit Switch LTLO Low Temp Cooling Lockout MGV Main Gas Valve MTR Motor NC Normally Closed NO Normally Open OAT Outdoor-Air Thermostat OATC Outdoor Air Thermostat (Cool) OATH Outdoor Air Thermostat (Heat) OCR Occupied Relay OFC Outdoor-Fan Contactor OFM Outdoor-Fan Motor OLR Overload Relay P Plug PL Plug Assembly PWR Power QT Quadruple Terminal R Relay RS Rollout Switch RV Reversing Valve RVS Reversing Valve Solenoid SAT Supply-Air Thermostat, Standard Air Temperature SEN Sensor SW SW SW SW S-LPS TB TC TDR TEMP TH TRAN VTS VVT Switch Fully Open Switch Fully Closed Switch Minimum Vent Position Switch Maximum Vent Position Low-Pressure Switch (Subcooler Only) Terminal Block Thermostat-Cooling Time-Delay Relay Temperature Volume and Temperature Thermostat-Heating Transformer Carrier Temp System Variable Volume and Temperature Field Splice Marked Wire Terminal (Marked) Terminal (Unmarked) Terminal Block Splice Splice Marked Motormaster IV Controller (LH90000 Pressure Switch) Factory Wiring Field Control Wiring Field Power Wiring Accessory or Optional Wiring To indicate common potential only; not to represent wiring.. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent.. Three-phase motors are protected under primary single phasing conditions.. Thermostat: HH07AT70, 7 Subbase: HH9AZ76, 77, 78, and 79.. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent.. Three-phase motors are protected under primary single phasing conditions.. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent.. Three-phase motors are protected under primary single phasing conditions.. Thermostat: HH07AT70, 7, 7 and P7-78 Subbase: HH9AZ76, 78 and P7-88, 88.. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent.. Thermostat: HH07AT70, 7 Subbase: HH9AZ76, 77, 78, and 79.. Set heat anticipator at. amp for st stage and. amp for nd stage. NOTES FOR FIG. NOTES FOR FIG.,, 6,7 NOTES FOR FIG. 5, 8-0 NOTES FOR FIG.. Set heat anticipator at. amp for st stage and. amp for nd stage. 5. Use copper conductors only. 6. TRAN is wired for 0-v unit. If unit is to be run with 08-v power supply disconnect wire from 0-v tap () and connect to 08-v tap (). Insulate end of 0-v tap.. Thermostat: HH07AT70, 7 Subbase: HH9AZ76, 77, 78, and 79.. Set heat anticipator at. amp for st stage and. amp for nd stage. 5. Use copper conductors only.. Set heat anticipator for first stage at 0. amp, second stage at 0. amp. For 8HJ008 and 009 low heat, set both first and second stage at 0. amp. 5. Use copper conductors only. 6. TRAN is wired for 0-v unit. If unit is to run with 08 v power supply, disconnect wire from 0-v tap () and connect to 00-v tap (). Insulate end of 0-v tap.. Use copper conductors only. 5. TRAN is wired for 0-v unit. If unit is to be run with 08-v power supply disconnect wire from 0-v tap () and connect to 08-v tap (). Insulate end of 0-v tap.
Fig. Schematic/Component Arrangement, 8HJD/E/F/G/H/K/L/M00,005; 08/0--60 5
Fig. Schematic/Component Arrangement, 8HJD/E/F/G/H/K/L/M/N00-005, 8HJG/H/K/L/M/N006; 60--60 6
Fig. Schematic/Component Arrangement, 8HJE/F/R/T00-005, 8HJS005; 575--60 7
Fig. Schematic/Component Arrangement, 8HJD/E/F/L/M/N/R/S/T00-006; 08/0--60 8
Fig. 5 Schematic/Component Arrangement, 8HJG/H/L006, 8HJD/E/F/K/M/N/R/S/T006-007; 08/0--60 9
Fig. 6 Schematic/Component Arrangement, 8HJD/E/F/R/S/T006-007; 60--60 0
Fig. 7 Schematic/Component Arrangement, 8HJD/E/F/R/S/T006-007; 575--60
08/0--60 SCHEMATIC See legend on page. Fig. 8 Schematic/Component Arrangement, 8HJD/E/F/R/S/T008-0; 08/0--60
60--60 SCHEMATIC Fig. 9 Schematic/Component Arrangement, 8HJD/E/F/R/S/T008-0; 60--60
575--60 SCHEMATIC Fig. 0 Schematic/Component Arrangement, 8HJD/E/F/R/S/T008-0; 575--60
ECONOMI$ER OPTION/ACCESSORY TRAN VAC 0 VA (FIELD SUPPLIED) V GROUND H G VAC OR + - VDC 8 7 6 5 + + - -0VDC SIG (J5-) -0mA (J5-) NC NO ALARM RELAY CONTACTS DM GRN BLU PNK YEL WHT VAC GND CLG CLG CONTROLLER B Y Y G AO OAT OAH +5V RAT RAH +5V CO+ CO DAT REM POT LED TAN VIO WHT OAT EC ACCESSORY ONLY VIO PNK DAT NETWORK GRN INDOOR AIR QUALITY (CO ) SENSOR (ZCSENCO) TYPICAL WIRING DIAGRAM *Filter status switch and humidity sensor cannot function simultaneously. Only one sensor can be wired. Such as a CO sensor. **Set auxiliary option to IAQ Control per VTS or VVT Installation Instructions. Field-installed Jumpers between, and 5,7. NOTE: When single zone relay pack is used on a VVT Monitor Only System, the monitor thermostat cannot control a damper. REMOTE ROOM TEMP. SENSOR AUXILIARY RELAY** ADDITIONAL SENSORS* HUMIDITY SENSOR WHT GRN TSP0 TERMINAL NUMBER # # #0 # IAQ STATUS FAN STATUS OAT SAT DX WHT BLU YEL GRN 56 7 89 0 5 6 7 FAN RV COOL HEAT FIELD- INSTALLED JUMPERS SINGLE ZONE RELAY PACK WITH AUXILARY RELAY 0 9 8 7 6 5 FAN HEAT HEAT NC HEAT HEAT/FAN COOL COOL COOL R VAC/0 VA C GROUND TO CARRIER HVAC UNIT FIELD SUPPLIED WIRING FILTER STATUS GRN #0 # SINGLE ZONE RELAY PACK CIRCUIT BOARD Fig. Apollo Controls Wiring Including Indoor-Air Quality 5
Fig. Apollo Thermostat Wiring 8HJ00-007 (Typical) Fig. Apollo Thermostat Wiring 8HJ008-0 (Typical) 6
Fig. Convenience Outlet Schematic Fig. 5 Durablade Economizer Schematic 7
A B C D LED TR SO SR TR + + VAC SUPPLY FROM ECONOMIZER CONTROL SECTION ( TO TR, TO TR) TO SENSOR MOUNTED ON BACK OF CONTROL S (HH57AC078 + SENSOR) GRAY WIRE FROM ECONOMIZER HARNESS WIRE FROM ECONOMIZER SWITCH (NORMALLY CLOSED) NOTES:. Remove factory-installed jumper across SR and + before connecting wires from HH57AC078 sensor.. Switches shown in high outdoor-air enthalpy state. Terminals and close on low outdoor-air enthalpy relative to indoor air enthalpy. Fig. 6 Differential Enthalpy Control (Durablade Economizer) A B C D LED TR TR SO + SR + VAC SUPPLY FROM ECONOMIZER CONTROL } SECTION ( TO TR, TO TR) } TO SENSOR MOUNTED ON BACK OF CONTROL 60 ohm JUMPER GRAY WIRE FROM ECONOMIZER HARNESS WIRE FROM ECONOMIZER SWITCH (NORMALLY CLOSED) NOTE: Switches shown in high enthalpy state. Terminals and close on enthalpy decrease. Fig. 7 Solid-State Enthalpy Control (Durablade Economizer) *Wiring is generic for all EconoMi$ers with the exception of the actuator. Refer to Fig. and for specific actuator production dates. Fig. 8 EconoMi$er Wiring for Units Produced 5/6/999 through /5/00* 8
ECONOMI$ER CONTROLLER OAT OAH +5 V RAT RAH +5 V CO (+) CO DAT REM POT LED BROWN VIOLET WHITE BROWN VIOLET WHITE TEMP TEMP OUT PWR TEMP TEMP OUT PWR CO SENSOR V+ VAC SUPPLY AIR TEMPERATURE SENSOR PINK TEMP VIOLET TEMP OUTDOOR AIR SENSOR RETURN AIR SENSOR Fig. 9 EconoMi$er Dry Bulb Sensor Wiring Fig. 0 Wiring Diagram for Field-Installed Enthalpy Sensors 9
TO FUSED DISCONNECT GRAY YEL BLU GRAY HT0AH859 (575 VAC) H X X X H X HT0AH850 (60 VAC) H X H X H X H X SECONDARY 0VAC SECONDARY 0VAC FIELD SUPPLIED WIRING OR PRESSOR CONTACTOR 0VAC LT. BLUE 6 9 B x IN. HANDY BOX L BLUE L GREEN GND 0 VAC PHASE -PIN CONNECTOR PLUG L L GND BLUE GREEN BROWN FAN C GREEN/ YELLOW BLUE LT. BLUE 5 8 7 A 6 9 B R VAC -PIN CONNECTOR PLUG ORANGE YELLOW BROWN BROWN FAN C GREEN/ YELLOW 5 8 7 A R VAC Fig. EconoMi$er Power Exhaust with the Switch Inside the Actuator (Units Produced 5/6/999 - /5/00) BLUE WIRE TIE ANCHOR HOLE TOP SWITCH CAM POSITION INDICATOR TOP SWITCH BOTTOM SWITCH CONNECTS TO -PIN CONNECTOR IN ECONOMIZER + VAC TOP SWITCH NC NO BOTTOM SWITCH NC NO 0 ORANGE YELLOW BROWN CONNECTS TO THE -PIN CONNECTOR PLUG ON POWER EXHAUST Fig. EconoMi$er Power Exhaust with Switch Outside of Actuator (Units Produced /5/00 - /5/00)
ACTUATOR NOTE 9 RUN WHITE + + - - VAC HOT -0V OUT ECONOMISER CONTROLLER VAC S NOTE S MINIMUM POSITION ADJUSTMENT K K TR S O S R T P Q TR + + 5 T P Q TAN 80 OHM NOTE 6 RESISTOR VIOLET 60 OHM RESISTOR WHITE NOTE 5 BROWN NOTE ECONOMIZER DRY BULB SENSOR Compressor Lockout N.C. NOTE 7 GRAY BLUE YELLOW VIOLET PINK 5 8 6 7 0 9 BROWN GRAY BLUE YELLOW VIOLET NOTE 8 PINK WHITE BROWN ORANGE FREE COOL UNIT CONTROL EXHAUST FAN INDOOR FAN MAXIMUM POSITION ADJUSTMENT AQ SD AC PG AQ SD AC PG - + -0 VDC CO SENSOR NOTE } HARNESS AND PLUG NOTE NOTES:. The standard EconoMi$er is shipped with a fixed dry bulb sensor. (Open 67 F Close 5 F.) An adjustable dry bulb or enthalpy sensor can replace the fixed dry bulb. (See Note 6.). CO sensor is optional. Field-installed accessory. See rooftop price pages for ordering data and pricing. Power for CO sensor should be provided by field-supplied transformer.. The HVAC unit is shipped with a jumper plug attached to the EconoMi$er harness. Remove the jumper plug and save for future use if economizer is removed. Connect the male side of plug (shown above) to the female side in HVAC unit.. S is an electronic switch that closes when powered by a vac input. 5. Factory-installed 60-ohm, watt, 5% resistor should be removed only when a HH57AC078 enthalpy sensor or CROASENR00A00 adjustable dry bulb is added to SR and + for differential sensing. 6. When replacing the fixed dry bulb sensor with an enthalpy or adjustable dry bulb, remove the 80-ohm resistor. 7. Compressor lockout (Open 5 F Close 50 F). 8. See EconoMi$er Installation Instructions for details on locating and wiring supply air (mixed air) sensor. 9. Switch on actuator must be in run position for economizer to operate. 0. A -stage thermostat is recommended.. Before troubleshooting wiring, ensure that all the correct sensors have been installed (refer to EconoMi$er Installation Instructions). Fig. EconoMi$er Wiring (For Units Produced /8/00 - Present) ECONOMISER CONTROLLER SO + SR + TAN VIOLET TAN VIOLET + S + S HH57AC078 ENTHALPY OR CROASENPOOA00 ADJUSTABLE DRY BULB (NOTE ) HH57AC078 DIFFERENTIAL ENTHALPY OR CROASENPOOA00 DIFFERENTIAL ADJUSTABLE DRY BULB (NOTE ) NOTES:. Violet wire from SO terminal has a factory-installed 80-ohm in-line resistor. This resistor must be removed when replacing the standard fixed dry bulb with an optional enthalpy or adjustable dry bulb.. The standard economizer has a 60-ohm resistor between terminals SR and +. This resistor must be removed when adding differential enthalpy or differential adjustable dry bulb. Fig. Differential Enthalpy Wiring for EconoMi$er
ECONOMISER ACTUATOR WHITE + + - - ECONOMISER CONTROLLER VAC HOT VAC -0V OUT S S MINIMUM POSITION ADJUSTMENT FREE COOL UNIT CONTROL EXHAUST FAN INDOOR FAN K K MAXIMUM POSITION ADJUSTMENT TR S O S R T P Q AQ SD AC PG + + 5 P Q SD AC PG 80 OHM RESISTOR VIOLET 60 OHM RESISTOR WHITE BROWN ECONOMISER DRY BULB SENSOR Compressor Lockout N.C. FIRE AND SMOKE CONTROL SHUTDOWN AIR CHANGE PURGE Fig. 5 Fire and Smoke Control Wiring for EconoMi$er TR T AQ TAN GRAY BLUE YELLOW VIOLET PINK 5 8 6 7 0 9 HARNESS AND PLUG BROWN GRAY BLUE YELLOW VIOLET PINK WHITE BROWN ORANGE } Fig. 6 Indoor Air Quality Sensor Wiring for EconoMi$er
TO HVAC UNIT CONTROL BOX (SEE NOTE ) GREEN - YELLOW C BLUE EXH. FAN # GREEN - YELLOW GRD. C BLUE EXH. FAN # GRD. POWER LINE PLUG OR GREEN BROWN RELAY 6 7 9 A B BROWN TAN GRAY END SWITCH PLUG TO ECONOMISER ACTUATOR (SEE NOTE ) TAN TAN WHITE GRAY GRAY (SEE NOTE ) ECONOMISER CONTROLLER (SEE NOTE ) VAC HOT VAC + EXH FAN FIELD SUPPLIED x JUNCTION BOX TO 575V POWER GROUND 575V PRIMARY SECONDARY TRANSFORMER NO. HT0AH859 FOR 575-V POWER SUPPLY 0V FOR 08/0-V SEPARATE POWER SUPPLY FIELD SUPPLIED FUSED DISCONNECT NOTES:. 575 V transformer No. HT0AH859 is ordered separately from power exhaust.. EconoMi$er actuator and controller are shipped with the EconoMi$er not with power exhaust.. Connections from End Switch plug to the EconoMi$er controller are made by installer.. If a single power source is to be used, size wire to include power exhaust MCA and MOCP. Check MCA and MOCP when power exhaust is powered through the unit. Determine the new MCA including the power exhaust using the following formula: MCA New = MCA unit only + MCA of Power Exhaust For example, using a 8HJD006---5 unit with MCA = 8.9 and MOCP = 5, with CRPWREXH00A00 power exhaust. MCA New = 8.9 amps +.6 amps = 0.5 amps If the new MCA does not go over the MOCP published, then MOCP would not change. The MOCP in this example is 5 amps, the MCA New is below 5, therefore the MOCP is OK. If MCA New is larger than the published MOCP, raise the MOCP to the next larger size. For separate power, the MOCP for the power exhaust will be 5 amps per NEC. Fig. 7 EconoMi$er Power Exhaust Wiring 08/0 V and 575 V Units
RUN TO HVAC UNIT CONTROL BOX. (NOTE ) GREEN WHITE A WHITE GREEN GREEN-YELLOW GRAY GRAY BLUE 9 B WHITE GRD 5 6 5 6 7 POWER LINE PLUG OR EXH. FAN # BROWN 8 RELAY # 7 A EXH. FAN # BROWN 8 GRAY GRAY B BLUE RELAY # 9 TAN GRAY END SWITCH PLUG TO ECONOMISER ACTUATOR (NOTE ) TAN WHITE GRAY GRAY (NOTE ) ECONOMISER CONTROLLER (NOTE ) V HOT V + EXH FAN FIELD SUPPLIED x JUNCTION BOX GROUND FIELD SUPPLIED FUSED DISCONNECT SEPARATE POWER SOURCE NOTES:. 575 V transformer No. HT0AH859 is ordered separately from power exhaust.. EconoMi$er actuator and controller are shipped with the EconoMi$er not with power exhaust.. Connections from End Switch plug to the EconoMi$er controller are made by installer.. If a single power source is to be used, size wire to include power exhaust MCA and MOCP. Check MCA and MOCP when power exhaust is powered through the unit. Determine the new MCA including the power exhaust using the following formula: MCA New = MCA unit only + MCA of Power Exhaust For example, using a 8HJD006---5 unit with MCA = 8.9 and MOCP = 5, with CRPWREXH00A00 power exhaust. MCA New = 8.9 amps +.6 amps = 0.5 amps If the new MCA does not go over the MOCP published, then MOCP would not change. The MOCP in this example is 5 amps, the MCA New is below 5, therefore the MOCP is OK. If MCA New is larger than the published MOCP, raise the MOCP to the next larger size. For separate power, the MOCP for the power exhaust will be 5 amps per NEC. Fig. 8 EconoMi$er Power Exhaust Wiring 60 V Units
5 BLUE 500 OHM RESISTOR 8 NOTE NOTE 50HJ5057 ACTUATOR ASSEMBLY RUN - + OPTIONAL CO SENSOR - 0 ma OUTPUT VIOLET PINK YELLOW 6 7 0 9 DIRECT DRIVE ACTUATOR WHITE ECONOMISER PLUG NOTES:. Switch on actuator must be in run position for economizer to operate.. PremierLink control requires that the standard 50HJ50569 outside-air sensor be replaced by either the CROASENR00A00 dry bulb sensor or HH57A077 enthalpy sensor.. 50HJ5057 actuator consists of the 50HJ50567 actuator and a harness with 500-ohm resistor. Fig. 9 EconoMi$er Wiring (With PremierLink or -0 ma Control) Fig. 0 Factory-Installed Non-Fused Disconnect Wiring 5
Fig. Typical MoistureMi$er Dehumidification Package Humidistat Wiring, 8HJ00-007 (08/0-V Unit Shown) Fig. Typical MoistureMi$er Dehumidification Package Humidistat Wiring, 8HJ008-0 (08/0-V Unit Shown) 6
8/50HJ00-007 Fig. Motormaster I Control Wiring Details 8/50HJ008-0 NOTE: Motormaster II transformer is wired for 60-v supply; it must be rewired for 08/0-v application. Be sure to insulate unused tap. Refer to color code. Fig. Motormaster II Control Wiring Schematic Size 00-007 Units 7
NOTE: Motormaster II transformer is wired for 60-v supply; it must be rewired for 08/0-v application. Be sure to insulate unused tap. Refer to color code. Fig. 5 Motormaster II Control Wiring Schematic Size 008-0 Units OFM MM IV OUTDOOR FAN CONTACTOR OUTDOOR FAN CONTACTOR YEL 6 YEL OFM MM IV Fig. 6 Motormaster IV Control Wiring Schematic Sizes 00-007 YEL YEL H C F QT CAP YEL Fig. 7 Motormaster IV Control Wiring Schematic Sizes 008-0 OFM 8
Fig. 8 Novar Controls Wiring, EMT05 Fig. 9 Novar Controls Wiring, EMT0 9
PNK VIO OAT OPTIONAL ACCESSORY YEL BLU BLU YEL WHT 7 6 0 8 5 9 7 6 0 8 5 9 PNK VIO SAT GRA PNK SPACE TEMP./ SET POINT ADJUSTMENT BLU PNK VIO BLU INDOOR AIR QUALITY SENSOR WHT YEL BLU PNK GRA GRA ANALOG 0-0mA IN DISCRETE J6 J5 J J PWR HK50AA09 PremierLink J J9 J7 J8 MS 0-0mA PP/MP RELAYS WHT L IGC GAS HEATING UNIT ONLY CR BR GVR HV TRAN FAN LOGIC SAFETY LOGIC J IFO W G R RS RS LS LS CS CS GV GV CM BM L L L 5AMP FU RT YEL GVR FS WHT PNK WHT GRA PNK J C C WHT TR TR ACCUSENSOR ECONOMISER GRA GRA MUNICATIONS X FIELD MON LOGIC GRA CLO (00-007) P.S. (008-0) X OFC;C } LOGIC CLO P.S. POWER EXHAUST/ENERGY RECYCLER } PNK VIO IFC WHT VIO VIO VIO WHT WHT TB 5 A T IFR 6 T K D R TIMER COOLING UNIT ONLY B DDC CONTROL THERMOSTAT CONTROL CONNECTION CONNECTION BOARD BOARD R VAC R R G RMTOCC Y Y CMPSAFE Y Y Y FSD W W W SFS W W NOT USED G G YEL BLU PNK WHT CONNECTION BOARD R Y Y W W G C X * MGV D/P D W/M C W/H C/C PNK GAS HEATING UNIT ONLY 7 HP ONLY C HR HR C HR 9 8 6 5 GRA DEFROST BOARD OF OF DR DR R BLU R TL DR DFT C Y BLU O C C C VIO W C C X C X C X C *When connecting DDC or thermostat controls, wire to connection board. Do not wire directly to PremierLink board. Fig. 0 Typical PremierLink Controls Wiring 0
OAT PNK VIO YEL BLU 7 6 0 8 7 6 0 8 PNK VIO SAT Space Temp./ Set Point Adjustment Indoor Air Quality Sensor Outdoor Air Quality Sensor Power Exhaust/Energy Recycler TB - 5 6 7 8 BLU BLU VIO BLU PNK BLU GRN YEL BLU WHT PNK GRA GRA J6 ANAL OG J5 0-0 ma IN J DISCRETE J J PWR MS J9 0-0 ma HK50AA09 PremierLink J7 PP/MP J8 Relays BLU YEL WHT 5 9 5 9 GRA PNK RMTOCC CMPSAFE TB - GRN YEL PNK GRA TB - R WHT GRA PNK FSD BLU Y GRA SFS WHT Y 5 PNK W TR TR ACCUSENSOR EconomiSer - 0mA GRA GRA CCN Comm. 6 7 8 WHT 5 6 7 8 W G C X PNK WHT RTU Terminal Board Fig. PremierLink Controls with Dual Terminal Block (Units Produced 0/0 - Present)
Fig. PremierLink Controls with Dual Terminal Block and 6AQ Energy$Recycler
THERMOSTAT TERMINAL BOARD RC R SMOKE DETECTOR NOTE: Break the Red wire from terminal RC on thermostat to terminal R on the terminal board. IGC BOARD BM IFM SMOKE DETECTOR NOTE: Break the Black wire from terminal BM on the IGC board to the indoor-fan motor (IFM). Fig. Smoke Control Unit Shutdown Wiring (8HJ00-0 Single-Phase Units) THERMOSTAT TERMINAL BOARD RC R SMOKE DETECTOR NOTE: Break the Red wire from terminal RC on thermostat to terminal R on the terminal board. IGC BOARD IFO IFC SMOKE DETECTOR NOTE: Break the Black wire from terminal IFO on the IGC board to the IFC terminal. Fig. Smoke Control Unit Shutdown Wiring (8HJ00-0 -Phase Units)
TIME GUARD II T T T CLO FROM THERMOSTAT Y OR ECONOMIZER PRESSOR SAFETIES C or CR SINGLE PRESSOR UNITS TIME GUARD II T T T FROM THERMOSTAT Y OR ECONOMIZER DUAL PRESSOR UNITS PRESSOR SAFETIES Fig. 5 Time Guard II Control Wiring CR Fig. 6 Two-Position Damper Wiring
Fig. 7 Factory-Installed 6AQ Energy$Recycler, 08/0-V COBRA Energy Recovery Units Size 008-0 5
Fig. 8 Factory-Installed 6AQ Energy$Recycler, 08/0-V COBRA Energy Recovery Unit Size 0 6
BLU -0mA TB 5 6 7 8 TB R Y Y W W G C X HM OC W T STAT W W UNIT W CONTROL BOX PREMIERLINK CONTROLS CONTROL BOX HM HM HM R HUMIDISTAT 5 6 (+) WHT(GND) (-) CCN SEN SET SW (T56) (GND) BLU (SPT) SENSOR WIRING JUMPER TERMINALS AS SHOWN HG VAC OR + - VDC 8 7 6 5 + 0-0VDC SIG + - -0mA NC ALARM } RELAY NO CONTACTS Cool Warm SPACE TEMPERATURE SENSOR (ZCT56SPT) INDOOR AIR QUALITY (CO ) SENSOR Fig. 9 COBRA Energy Recycler Wiring with PremierLink Controls 7
BASE UNIT CONNECTION BOARD R Y Y W W G C X CONNECTION BOARD HM OC W T STAT W W UNIT W CONTROL BOX CONTROL BOX HM HM THERMOSTAT CONNECTION BOARD R C Y Y G W W OC DEHUM LIGHT MERCIAL THERMIDISTAT Fig. 50 COBRA Energy Recycler Wiring with Standard Controls 8
NOTES:. If any of the original wire furnished must be replaced, it must be replaced with type 90 C wire or its equivalent.. Use copper conductors only.. TRAN is wired for 0 v unit. If unit is to be run with 08 v power supply, disconnect wire from 0 v terminal and connect to 08 v terminal. Fig. 5 Typical Wiring Schematic for 6AQ Energy$Recycler as a Field-Installed Accessory 9
Copyright 00 Carrier Corporation Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Book PC Catalog No. 5-8009 Printed in U.S.A. Form 8HJ-W Pg 0-0 Replaces: 8/50HJ-7W, 8/50HJ-8W Tab a 6a