Factory Packaged Controls Coil Products Two Head Pressure Module Orion No.:OE370-23-HP2C 1 2 3 4 www.aaon.com www.orioncontrols.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE COOL A & B ENABLE MON WattMaster Label #LB102081-B Rev.: 1H RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC COND. A ENABLE COND. B ENABLE LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED COOLA ENABLE COOL B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 24 VAC RC
Table of Contents OVERVIEW... 3 Overview...3 Features...3 INSTALLATION AND WIRING... 4 Environmental Requirements...4 Mounting...4 Power Supply...4 Important Wiring Considerations...5 VCM-X / SA Controller to Wiring...6 Controller to Wiring...8 Stand-Alone Wiring...10 Type Selection...10 SEQUENCE OF OPERATION... 11 Inputs and Outputs... 11 Stand-Alone Input Commands... 11 Input Commands (VCM-X Connection)...12 Modes of Operation...12 TROUBLESHOOTING... 15 Head Pressure Module Valve/Fan Position Troubleshooting...15 Troubleshooting for Stand Alone Mode...16 Pressure Transducer Troubleshooting...17 Using LEDs to Verify Operation...18 LED Diagnostics...19 Other Checks...19 APPENDIX FOR VERSION 1.04 AND EARLIER... 20 VCM-X / SA Connection Wiring...20 Stand-Alone Wiring...21 Type Selection...22 Refrigerant Selection...23 PART NUMBER CROSS REFERENCE TABLE PART DESCRIPTION ORION AAON COIL VCM-X OE370-23-HP2C 30310 VCM-X Modular Controller - Coil OE332-23E-VCMX-MOD-C TBA VCM-X Modular Controller - Coil OE332-23-VCMX-MOD-C 30553 VCM-X WSHP Controller - Coil OE332-23E-VCMX-WSHP-C TBA VCM-X WSHP Controller - Coil OE332-23-VCMX-WSHP-C 30526 Distribution Module - Coil OE365-23-EBD-C 30312 www.aaon.com WattMaster Controls Inc. 8500 NW River Park Drive Parkville, MO 64152 Toll Free Phone: 866-918-1100 PH: (816) 505-1100 FAX: (816) 505-1101 E-mail: mail@wattmaster.com Visit our web site at www.orioncontrols.com Copyright November 2013 WattMaster Controls, Inc. AAON is a registered trademark of AAON, Inc., Tulsa, OK. WattMaster Form : AA-HP2C-C-TGD-01L Neither WattMaster Controls, Inc. nor AAON assumes any responsibility for errors or omissions in this document. This document is subject to change without notice.
Module Overview Overview NOTE: Software version 1.04 and earlier contain a few differences from version 1.05 and later. For version 1.04 and earlier details, please see the Appendix. The version number can be found on the upper right of your module. The (OE370-23-HP2C) monitors four individual head pressure transducers and controls two Fans or Water Valves on units with two physically separate condenser sections. The highest reading of head pressure transducers 1 & 2 controls Signal A. The highest reading of head pressure transducers 3 & 4 controls Signal B. If this is a heat pump unit, the module is able to detect when the unit is in Heat Pump Heating mode and will force the condenser signal to 100% until it leaves this mode. The is designed to work standalone by using its OPTIONS dip switch to adjust the Head Pressure setpoint. Up to (2) s can also be daisychained together and connected to the VCM-X Modular or VCM-X WSHP Controller using the Distribution Module, allowing the Module(s) to receive setpoints from the Controllers, or the Module(s) can be daisy-chained together and directly connected to the VCM-X Modular or VCM-X WSHP Controller. See chart on page 2 for part numbers. The also provides a pulse width modulation (PWM) signal or voltage output signal to control the condenser fans. The requires a 24 VAC power connection with an appropriate VA rating. Features The provides the following: Can be operated stand alone or up to (2) modules can be daisy-chained together and connected to a VCM-X Modular or VCM-X WSHP Controller using the Distribution Module to interface Up to (2) modules can be daisy-chained together and directly connected to a VCM-X Modular or VCM-X WSHP Controller Monitors up to four individual head pressure transducers Provides control of Output Signals based on the highest reading of head pressure transducers Capable of monitoring a Reverse Valve Signal Forces Fans to 100% while in the Heat Pump Heating Mode NOTE: The contains no user-serviceable parts. Contact qualified technical personnel if your Module is not operating correctly. 2 R53 1 2 4 8 OFF SW1 PWR 1 1003 10uF 1003 2 10uF C2 3 4 ADDRESS R7 4 300 R9 3 4 3 4 5 6 1003 10uF 1003 10uF 4 300 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C WattMaster Label #LB102081 Rev.: 1H COND. A ENABLE COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL PWM1 PWM2 LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 24 VAC RC 4 R50 D3 D4 D12 D13 SERIAL # 4751 1 0 9 8 4751 4751 SW2 OFF 4751 R54 TB3 Rc RELAYS PWM1 PWM2 ANALOG C20 OPTIONS M.01uF Figure 1: 3
1003 10uF 1003 10uF 1003 10uF 1003 10uF 4 300 4 300.01uF Installation & Wiring Environmental Requirements The needs to be installed in an environment that can maintain a temperature range between -30 F and 150 F and not exceed 90% RH levels (non-condensing). Mounting The is housed in a plastic enclosure. It is designed to be mounted by using the 3 mounting holes in the enclosure base. It is important to mount the module in a location that is free from extreme high or low temperatures, moisture, dust, and dirt. Be careful not to damage the electronic components when mounting the module. See Figure 2 for Module dimensions (in inches). Power Supply The requires a 24 VAC power connection with an appropriate VA rating. If you will be connecting the to any of the VCM-X series controllers, one of the most important checks to make before powering up the system for the first time is to make sure that the controller is configured properly for your application. Refer to the VCM-X Controller or VCM-X Modular Controller for more information. WARNING: Observe polarity! All boards must be wired -to- and 24 VAC-to-VAC. Failure to observe polarity could result in damage to the boards. 5.71 0.18 DIA. TYP. 0.29 2 R53 1 www.aaon.com RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC COND. A ENABLE COND. B ENABLE RELAY MON RC R54 4751 4751 4751 4751 1 D3 D4 D12 D13 TB3 5.64 5.04 1 2 4 8 C2 R7 R9 3 4 3 4 5 ADDRESS 6 OFF SW1 PWR 2 3 4 Orion No.:OE370-23-HP2C 1 2 3 4 Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON WattMaster Label #LB102081 Rev.: 1H LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED AAON Coil No.: 30310 COND. A NAL COND. B NAL NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 24 VAC 4 R50 SERIAL # PWM1 PWM2 SW2 Rc RELAYS ANALOG OPTIONS OFF 0 9 8 M C20 2.07 0.55 Note: Height is 1.49 inches. 4.14 Figure 2: Dimensions 4
Installation & Wiring Important Wiring Considerations Please read carefully and apply the following information when wiring the : 1. To operate the, you must connect power to the 24 VAC input terminal block. 2. Each Pressure Transducer must have its own 18-gauge shielded twisted pair cable. The Drain Wire must be the Gnd signal for the transducer. 3. When the 2-10 VDC Analog Output is being used to control the Fan Speed or Water Valve Percentage, the cable must be 18-gauge shielded wire, and the Drain Wire must be the Gnd signal. 4. If the Pulse Width Modulation (PWM) Output is being used to directly control the ECM 142 motor, the wires do not need to be shielded and can be any 18-gauge wire. 5. Check all wiring leads at the terminal block for tightness. Be sure that wire strands do not stick out and touch adjacent terminals. Confirm that all transducers required for your system are mounted in the appropriate location and wired into the correct terminals. WARNING: Be sure all controllers and modules are powered down before connecting or disconnecting HSSC cables. NOTE: ALL RELAY OUTPUTS ARE NORMALLY OPEN AND RATED FOR 24 VAC POWER ONLY - 1 AMP MAXIMUM LOAD CONDENSER A ENABLE Head Pressure Transducers 0-667 PSI (One Per Refrigerant Circuit) OE370-23-HP2C-C CONDENSER B ENABLE HVAC UNIT CONNECTION Signal A V V V V CONDENSER ON/OFF (Y1 CALL) COOLING ENABLE (O CALL) Set ADDRESS Dip Switch 1 to ON for Water Cooled or to OFF for Air Cooled. Currently showing OFF for Air Cooled. Set ADDRESS Dip Switch 3 to ON to disable Circuit B alarms when only one is Used. Currently showing OFF. ADDRESS Dip Switch 4 should always be set to ON to make reversing valve "ON to Cool / OFF to Heat". Currently showing ON. PWR 1 2 3 4 ADDRESS 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C WattMaster Label #LB102081 Rev.: 1H COND. A ENABLE LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 24 VAC 24 VAC RC Rc PWM1 PWM2 RELAYS ANALOG OPTIONS M M Signal B Fan A ECM Motor OPTIONS Dip Switch is Used for Setting the Head Pressure Setpoint if Not Using Default Setpoint. Fan B ECM Motor Line Voltage WARNING!! Observe Polarity! All boards must be wired with -to- and 24 VAC-to-24 VAC. Failure to observe polarity could result in damage to the boards. 24 VAC Transformer 3 VA Minimum Figure 3: Wiring Diagram Revised 7/26/11 5
AI1 SET AI2 SET AI3 SET AI4 SET AI5 SET AI7 SET AI1 SET AI2 SET AI3 SET AI4 SET AI5 SET AI7 SET VCM-X Controller to Wiring VCM-X Modular or VCM-X WSHP Controller to Two Head Pressure Module Wiring Up to (2) s can be daisy-chained together and connected to the Distribution Module using a modular HSSC cable. The requires a 24 VAC power connection with an appropriate VA rating. The Distribution Module connects to the VCM-X Modular Controller, VCM-X WSHP Controller, VCM-X Expansion Module, or 12 Relay Expansion Module using the I 2 C port. See Figure 4 below for wiring. Any Module can be connected to each of the four Distribution Module s output ports or can be daisy-chained together using HSSC cables. For Stand Alone Applications, Connect To System Manager. For Network Applications Connect To Next Controller And/Or MiniLink PD On Local Loop. Local Loop RS-485 9600 Baud All Comm Loop Wiring Is Straight Thru T to T, R to R & SHLD to SHLD OE332-23-VCMX-WSHP VCM-X WSHP Controller Note: All Relay Outputs Are Normally Open And Rated For 24 VAC Power Only. 1 Amp Maximum Load. R - 24VAC G - Fan ON/OFF Only See Individual Component Wiring Diagrams For Detailed Wiring Of Analog Inputs And Outputs AI1 AI2 AI3 AI4 AI5 AI7 Relay Output Contacts Through R5 May Be User-Configured For The Following: 1 - Heating Stages 2 - See Note 1 Below 3 - Warm-up Mode Command (VAV Boxes) 4 - Reversing Valve (Air To Air Heat Pumps) 5 - Reheat Control (Dehumidification) 6 - Exhaust Fan Interlock 7 - Preheater For Low Ambient Protection 8 - Alarm 9 - Override 10 - Occupied 11 - OA Damper 12 - Heat Wheel 13 - Emergency Heat Note: 1.) When Using the HP2C Module, All Compressors Will Be Wired From the Protection Module, Not the VCM-X Controller. 2.) A Total Of 20 Relays Are Available By Adding Relay Expansion Modules. All Expansion Module Relay Outputs Are User- Configurable As Listed Above. 24 VAC Line Voltage 24VAC Size Transformer For Correct Total Load. VCM-X Controller = 8 VA Connect To Distribution Module Jumpers Splice If Required Connect To Digital Room Sensor And/Or Digital CO2 Sensor Line Voltage OE271 Static Pressure Transducer Connect FRP Tubing To High Pressure Port (Bottom Tube) and Route To Static Pressure Pickup Probe Located In Unit Discharge. Leave Port Marked Lo Open To Atmosphere Connect To Distribution Module or Expansion Module(s) (When Used) Warning: 24 VAC Must Be Connected So That All Ground Wires Remain Common. Failure To Do So Will Result In Damage To The Controllers. Figure 4: VCM-X WSHP Controller to Wiring Diagram 6
485 DRV PWR M VCM-X Controller to Wiring If using a spliced terminal connection for longer runs, one module can be connected to the Distribution Module and any additional modules would be daisy-chained to the first module. For more information, refer to the Distribution Module. WARNING: Be sure all controllers and modules are powered down before connecting or disconnecting HSSC cables. NOTE: Contact Factory for the correct HSSC cable length for your application. Cables are available in ¼, ½, 1, 2, 3, 4, and 5 Meter lengths and 100 and 150 Foot lengths. NOTE: ALL RELAY OUTPUTS ARE NORMALLY OPEN AND RATED FOR 24 VAC POWER ONLY - 1 AMP MAXIMUM LOAD CONDENSER A ENABLE YS102308 REV 1 I2C TO M DIST. BOA OUTPUT M SHLD -M VDC INPUT M SHLD -M 24VAC PWR OE365-23-EBD Distribution Module Head Pressure Transducers 0-667 PSI (One Per Refrigerant Circuit) V V V V Set ADDRESS Dip Switch 1 to ON for Water Cooled or to OFF for Air Cooled. Currently showing OFF for Air Cooled. If Using (2) Modules, Set ADDRESS Dip Switch 2 to OFF for Address 1 or to ON for Address 2. Set to OFF if Using (1) Module. Currently showing OFF. OE370-23-HP2C-C 1 2 3 4 ADDRESS 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON WattMaster Label #LB102081 Rev.: 1H RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C COND. A ENABLE COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 24 VAC RC 24 VAC Rc RELAYS ANALOG PWM1 PWM2 OPTIONS M Line Voltage CONDENSER B ENABLE HVAC UNIT CONNECTION Signal A Signal B Fan A ECM Motor Fan B ECM Motor OPTIONS Dip Switch Setting Not Required When Connected To VCM-X Modular, VCM-X WSHP or SA Controller WARNING!! Observe Polarity! All boards must be wired with -to- and 24 VACto-24 VAC. Failure to observe polarity could result in damage to the boards. Modular Cable Connect To VCM-X WSHP or VCM-X Modular Controller, Set ADDRESS Dip Switch 3 to ON to disable Circuit B alarms when only one is Used. Currently showing OFF. ADDRESS Dip Switch 4 should always be set to ON to make reversing valve "ON to Cool / OFF to Heat". Currently showing ON. HSSC Cable Connect To Distribution Module HSSC Cable WARNING!! Observe Polarity! All boards must be wired with -to- and 24 VAC-to-24 VAC. Failure to observe polarity could result in damage to the boards. 24 VAC Transformer 3 VA Minimum Connect To Other WattMaster-Approved Expansion Module(s) Figure 4, cont.: VCM-X WSHP Controller to Wiring Diagram 7
M Controller to Wiring VCM-X Modular or VCM-X WSHP Controller to Two Head Pressure Module Wiring Up to (2) s can be daisy-chained together and connected to the Controller using a modular HSSC cable. The requires a 24 VAC power connection with an appropriate VA rating. See Figure 5 below for wiring. Any Module can be connected to the Controller s port or can be daisy-chained together using HSSC cables. NOTE: Contact Factory for the correct HSSC cable length for your application. Cables are available in ¼, ½, 1, 2, 3, 4, and 5 Meter lengths and 100 and 150 Foot lengths. NOTE: ALL RELAY OUTPUTS ARE NORMALLY OPEN AND RATED FOR 24 VAC POWER ONLY - 1 AMP MAXIMUM LOAD Head Pressure Transducers 0-667 PSI (One Per Refrigerant Circuit) Set ADDRESS Dip Switch 1 to ON for Water Cooled or to OFF for Air Cooled. Currently showing OFF for Air Cooled. If Using (2) Modules, Set ADDRESS Dip Switch 2 to OFF for Address 1 or to ON for Address 2. Set to OFF if Using (1) Module. Currently showing OFF. Set ADDRESS Dip Switch 3 to ON to disable Circuit B alarms when only one is Used. Currently showing OFF. V V V V PWR OE370-23-HP2C-C 1 2 3 4 ADDRESS 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON WattMaster Label #LB102081 Rev.: 1H RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C COND. A ENABLE COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 24 VAC 24 VAC RC Rc PWM1 PWM2 RELAYS ANALOG OPTIONS M Line Voltage CONDENSER A ENABLE CONDENSER B ENABLE HVAC UNIT CONNECTION Signal A Signal B Fan A ECM Motor Fan B ECM Motor OPTIONS Dip Switch Setting Not Required When Connected To VCM-X Controller or SA Controller ADDRESS Dip Switch 4 should always be set to ON to make reversing valve "ON to Cool / OFF to Heat". Currently showing ON. 24 VAC Transformer 3 VA Minimum Connect To Other WattMaster-Approved Expansion Module(s) HSSC Cable WARNING!! Observe Polarity! All boards must be wired with -to- and 24 VAC-to-24 VAC. Failure to observe polarity could result in damage to the boards. HSSC Cable Connect To VCM-X Controller Figure 5: VCM-X Controller to Wiring Diagram 8
AI1 SET AI2 SET AI3 SET AI4 SET AI5 SET AI7 SET 2 2 Controller to Wiring WARNING: Be sure all controllers and modules are powered down before connecting or disconnecting HSSC cables. For Stand Alone Applications, Connect To System Manager. For Network Applications Connect To Next Controller And/Or MiniLink PD On Local Loop. Local Loop RS-485 9600 Baud OE332-23E-VCMX-MOD-C VCM-X Modular Controller Note: All Relay Outputs Are Normally Open And Rated For 24 VAC Power Only. 1 Amp Maximum Load. All Comm Loop Wiring Is Straight Thru T to T, R to R & SHLD to SHLD RS-485 MUNICATION LOOP. WIRE R TO R, T TO T SHLD TO SHLD www.aaon.com RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC RELAY MON FAN RELAY 2 RELAY 3 RELAY 4 R - 24VAC G - Fan ON/OFF Only RELAY 5 HSSC Cable Connect To VCM-X Port See Individual Component Wiring Diagrams For Detailed Wiring Of Analog Inputs And www.orioncontrols.com VCM-X MODULAR CONTROLLER AAON No.: Orion No.:OE332-23E-VCMX-MOD-C AI1 = SPC (SPACE TEMPERATURE SENSOR) AI2 = SAT (SUPPLY AIR TEMPERATURE SENSOR) AI3 = RAT (RETURN AIR TEMPERATURE SENSOR) AI4 = OAT (OUTDOOR AIR TEMPERATURE SENSOR) AI5 = SUCTION SENSOR (FROM EXP. MODULE) AI7 = SPACE TEMPERATURE SENSOR SLIDE ADJUST OR VOLTAGE RESET SOURCE A01 = ECONOMIZER (2-10 VDC OUTPUT) A02 = SUPPLY FAN VFD (0-10 VDC OUTPUT) CONNECTOR ANALOG INPUT JUMPER LED BLINK CODES SETTINGS THERM US1 US2 4-20mA AI1 0-10V NORMAL OPERATION 0 1 0-5V SAT FAIL 1 2 THERM OAT FAIL 2 2 4-20mA AI2 0-10V SPC FAIL 3 2 0-5V MODULE 4 2 THERM MECH COOL FAIL 1 3 4-20mA AI3 0-10V MECH HEAT FAIL 2 3 0-5V FAN PROOF FAIL 3 3 THERM DIRTY FILTER 4 3 4-20mA AI4 0-10V EMERGENCY SHUTDOWN 5 3 0-5V LOW SAT 1 4 THERM HIGH SAT 2 4 AI5 4-20mA CONT. TEMP COOL FAIL 3 4 0-10V 0-5V CONT. TEMP HEAT FAIL 4 4 Relay Output Contacts Through R5 May Be User-Configured For The Following: 1 - Heating Stages 2 - Cooling Stages 3 - Warm-up Mode Command (VAV Boxes) 4 - Reversing Valve (Air To Air Heat Pumps) 5 - Reheat Control (Dehumidification) 6 - Exhaust Fan Interlock 7 - Preheater For Low Ambient Protection 8 - Alarm 9 - Override 10 - Occupied 11 - OA Damper 12 - Heat Wheel 13 - Emergency Heat Note: 1.) When Using the HP2C Module, All Compressors Will Be Wired From the Protection Module, Not the VCM-X Controller. Note: A Total Of 20 Relays Are Available By Adding Relay Expansion Modules. All Expansion Module Relay Outputs Are User Configurable As Listed Above. THERM PUSH BUTTON OVR 1 5 4-20mA AI7 ZONE OVR 2 5 0-10V 0-5V OUTPUT FORCE ACTIVE 0 6 ANALOG INPUT JUMPER SETTINGS 24 VAC POWER ONLY MUST BE SET AS SHOWN FOR WARNING! POLARITY MUST BE OBSERVED PROPER OPERATION OR THE CONTROLLER WILL BE DAMAGED IC WattMaster Label #LB102073-01-A Rev.: 1A IC EXPANSION IC DIGITAL SENSOR Line Voltage 24VAC Size Transformer For Correct Total Load. VCM-X Controller = 8 VA Jumpers Splice If Required OE271 Static Pressure Transducer Connect To Digital Room Sensor And/Or Digital CO2 Sensor Connect To Expansion Module(s) (When Used) Warning: 24 VAC Must Be Connected So That All Ground Wires Remain Common. Failure To Do So Will Result In Damage To The Controllers. Connect FRP Tubing To High Pressure Port (Bottom Tube) and Route To Static Pressure Pickup Probe Located In Unit Discharge. Leave Port Marked Lo Open To Atmosphere Figure 5, cont.: VCM-X Controller to Wiring Diagram 9
Stand-Alone Wiring Stand-Alone Wiring To operate the as Stand Alone, connect the Module to a 24 VAC connection with an appropriate VA rating. See Figure 6 for wiring. Type Selection As shown in Figure 6, set ADDRESS dip switch 1 to ON for water cooled or to OFF for air cooled. Refer to page 11 for further instructions. Check all wiring leads at the terminal block for tightness. Be sure that wire strands do not stick out and touch adjacent terminals. Confirm that all transducers required for your system are mounted in the appropriate location and wired into the correct terminals. NOTE: ALL RELAY OUTPUTS ARE NORMALLY OPEN AND RATED FOR 24 VAC POWER ONLY - 1 AMP MAXIMUM LOAD CONDENSER A ENABLE Head Pressure Transducers 0-667 PSI (One Per Refrigerant Circuit) OE370-23-HP2C-C CONDENSER B ENABLE HVAC UNIT CONNECTION Signal A V V V V CONDENSER ON/OFF (Y1 CALL) COOLING ENABLE (O CALL) Set ADDRESS Dip Switch 1 to ON for Water Cooled or to OFF for Air Cooled. Currently showing OFF for Air Cooled. Set ADDRESS Dip Switch 3 to ON to disable Circuit B alarms when only one is Used. Currently showing OFF. ADDRESS Dip Switch 4 should always be set to ON to make reversing valve "ON to Cool / OFF to Heat". Currently showing ON. PWR 1 2 3 4 ADDRESS 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C WattMaster Label #LB102081 Rev.: 1H COND. A ENABLE LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 24 VAC 24 VAC RC Rc PWM1 PWM2 RELAYS ANALOG OPTIONS M M Signal B Fan A ECM Motor OPTIONS Dip Switch is Used for Setting the Head Pressure Setpoint if Not Using Default Setpoint. Fan B ECM Motor Line Voltage WARNING!! Observe Polarity! All boards must be wired with -to- and 24 VAC-to-24 VAC. Failure to observe polarity could result in damage to the boards. 24 VAC Transformer 3 VA Minimum Figure 6: as Stand-Alone 10 Revised 7/26/11
Sequence of Operation General The following inputs and outputs are available on the Two Head Pressure Module. See Table 1 below to reference the Input/ Output Map. Binary Inputs 1 Fans A & B On/Off (24 VAC Wet Input) 2 Cooling Enable (24 VAC Wet Input) 1 2 3 4 Binary Outputs A Enable Relay (Dry Contact Output Rated for 24 VAC) Cooling Enable (Dry Contact Output Rated for 24 VAC) B Enable Relay (Dry Contact Output Rated for 24 VAC) Cooling Enable (Dry Contact Output Rated for 24 VAC) Analog Inputs 1 Head Pressure #1 (0-667 PSI Sensor) 2 Head Pressure #2 (0-667 PSI Sensor) 3 Head Pressure #3 (0-667 PSI Sensor) 4 Head Pressure #4 (0-667 PSI Sensor) Analog Outputs (0-10 or 2-10 VDC) 1 Signal A (AOUT 1) 2 Signal B (AOUT 2) PWM Output 1 ECM 142 PWM Input (0-100% Duty Cycle) 2 ECM 142 PWM Input (0-100% Duty Cycle) Table 1: Inputs & Outputs Stand-Alone Input Commands On/Off A 24 volt signal to Binary Input #1 initiates the Enable function. Typically, the source for this signal is the Y call from the thermostat calling for a compressor to run. Cooling Enable On/Off A 24 volt signal to Binary Input #2 initiates the Cooling Enable On function. Typically, the source for this signal is the O call from the thermostat. A signal on this input indicates indicates the reversing valve has been energized and that the unit is in the Cooling Mode. Head Pressure Setpoint The Head Pressure Setpoint is set using the OPTIONS Dip Switches. See Table 2. The Default Setpoint for an Air Cooled is 340 for 410-A refrigerant. The Default Setpoint for a Water Cooled is 235 for 410-A refrigerant. Set the OPTIONS Dip Switch to 0 if using these Default Settings. In addition, if using the Default Settings, you must set the Address Dip Switch. See ADDRESS Dip Switch below. You must cycle power after setting Dip Switch values. NOTE: The only setpoint available for adjustment by the contractor is the Head Pressure Setpoint. The rest of the setpoints described can only be changed by the factory. ADDRESS Dip Switch Settings for Type Selection When using the OPTIONS Dip Switch to set the Head Pressure Setpoint, you must also set the ADDRESS Dip Switch to designate the type of condenser you are using. Set ADDRESS Dip Switch 1 to ON for a Water Cooled or to OFF for an Air Cooled. If set to ON for a Water Cooled, the Analog Output Signal will be 2-10 VDC for the Water Valve. If set to OFF for an Air Cooled, the Analog Output Signal will be 0-10 VDC for the Fan. You must cycle power after setting Dip Switch values. See Figure 6 for ADDRESS Dip Switch location and Table 3 for Setting information. 11
Sequence of Operation Input Commands (VCM-X Connection) On/Off Instead of a hard wired input signal to the Enable input, the VCM-X Modular or VCM-X WSHP Controller communicates to the Module via communications. This signal indicates the compressor(s) are called to run and drives the condenser A & B On/ Off function. Cooling Enable On/Off As with the Signal On/Off function, the VCM-X Modular or VCM-X WSHP Controller communicates to the Module via communications and signals that the reversing valve has been energized and that cooling has been enabled. NOTE: When the term ON is used, it means there is either 24 VAC on the appropriate Binary Input or a call-to-run signal is being received from a VCM-X series controller. When the term OFF is used, it means there is either 0 VAC on the appropriate Binary Input or the call-to-run signal from a VCM-X series controller has been removed. Modes of Operation OFF Mode The Head Pressure Control Board is in the OFF Mode when the Input Signal is OFF. In this mode, all relays are off, the Analog Output is 0 VDC, and the PWM Output is 0% Duty Cycle. Cooling Mode The Head Pressure Control board is in the Cooling Mode when the Input Signal is ON and the Cooling Enable signal is ON. The Enable Relays will energize to enable the Fans or Water Valves, and the Cool Enable Relays will energize. In a water system, the Water Flow Valve will start at 75% for 3 minutes. In an air system, the Signal will go to 50% for 30 seconds. The Output Signals will then automatically adjust between 0 and 100% to maintain the desired Head Pressure Setpoint. The Output Signals can be a 0-10 VDC, 2-10 VDC or 0-100% PWM signal provided by the appropriate output. Both outputs mirror each other. NOTE: The Cooling enable outputs are for indication only and are not wired to anything. Sensor Reading Routine The is used on units with two physically separate condenser sections. Up to two Head Pressure Sensors can be monitored in each section. The highest of the two readings in each section will be used to control the condenser fan(s) in that section. Air from the condenser fan(s) in each section flows through both condenser coils. As a result, if you modulate the fan(s) based on the highest reading, you will have enough air flow for both coils. The highest reading of Head Pressure Sensors 1 & 2 controls Fan A. The highest reading of Head Pressure Sensors 3 & 4 controls Fan B. Heat Pump Mode The Head Pressure Control Module is in the Heat Pump Mode when the Input Signal is ON and the Cooling Enable signal is OFF. In this mode, the Output Signals will go to 100% and remain there until the unit leaves this mode. 12
Sequence of Operation OPTIONS Dip Switch Settings Head Pressure Setpoint Air Cooled Water Cooled Binary Value 10-A 10-A 0 340 (DEFAULT) 235 (DEFAULT) 1 260 210 2 270 220 3 280 230 4 290 240 5 300 250 6 310 260 7 320 270 8 330 280 9 340 290 10 350 300 11 360 310 12 370 320 13 380 330 14 390 340 15 400 350 NOTE: You must cycle power after setting Dip Switch values. Table 2: OPTIONS Dip Switch/Head Pressure Setpoint Settings for Stand-Alone Operation ADDRESS Dip Switch Settings Switch 1 Switch 2 Default SP Description of Default Head Pressure Setpoint 0 0 340 Air Cooled using 10-A Refrigerant 1 0 235 Water Cooled using 10-A Refrigerant Switch 1 determines Air or Water Cooled NOTE: You must cycle power after setting Dip Switch values. Table 3: ADDRESS Dip Switch Type Settings for Stand-Alone Operation 13
Sequence of Operation Switch ADDRESS Dip Switch 2 Settings Description OFF Address 1 if Using (2) Head Pressure Modules (Set to OFF if using only (1) Head Pressure Module) ON Address 2 if Using (2) Head Pressure Modules Table 4: ADDRESS Dip Switch Address Settings When Connected to VCM-X / SA Switch ADDRESS Dip Switch 3 Settings OFF Enable Circuit B Alarm ON Description Disable Circuit B Alarm when only one condenser is used. Table 5: ADDRESS Dip Switch 3 Settings ADDRESS Dip Switch 4 Settings Switch Description ON Reversing Valve On to Cool / Off to Heat OFF Reversing Valve On to Heat / Off to Cool This Dip Switch should be set to ON for AAON Coil operations. Table 6: ADDRESS Dip Switch 4 Settings for Reversing Valve 14 Revised 11/2/11
Troubleshooting Head Pressure Module Valve/Fan Position Troubleshooting If configured for Water valve: Aout Signal is 2 to 10 volts. 2 volts = 0% valve position or fully closed 10 volts = 100% valve position or fully open PWM signal is not used for water valve but does modulate. At Startup for cooling, valve will open to 75% or 8 volts for 3 minutes then will modulate every 30 seconds to try to maintain head pressure setpoint. For heating, valve will open and stay at 100%. If configured for Air Fan: Aout Signal is 0 to 10 volts. Minimum fan speed is 1.5 volts. ( 15%) Maximum fan speed is 10 volts. ( 100%) Anything less than 1.5 volts the fan will be off. PWM- Safeties: 0 volts = 100% fan speed 6 volts = 75% fan speed 12 volts = 50% fan speed 18 volts = 25% fan speed 20.4 volts = 15% fan speed Above 20.4 volts = 0% fan speed At Startup for cooling, fan will start at 50% then will modulate every 30 seconds to try to maintain head pressure setpoint. For heating, fan will run and stay at 100%. If head pressure signal is above 500 psig, fan will go to 100% (high pressure safety). If head pressure signal is below 1 psig, fan will go to 100% (assuming bad sensor). PWM signal is 0 to 100% PWM (to ground) will always read 24 vdc. PWM- (to ground) can be measured for volts dc and this formula will tell you the percentage signal: (24 measured value)/24 (measured value = PWM- to ground) Revised 11/5/13 15
Troubleshooting Troubleshooting for Stand Alone Mode If you suspect or encounter general problems during operation of the while in Stand Alone Mode, follow the Troubleshooting Flowchart in Figure 7 below. Start Here Head Pressure Control Troubleshooting Flowchart (Stand Alone Mode) Yes Is LED Blinking? No Verify Incoming Power No No Is There 24VAC @ PWR Testpoint? Is A or B Fan or Water Valve Operating? No Is ERROR LED Blinking? Yes Call WattMaster Technical Support Yes Yes Is ERROR LED Blinking? No Note: LED will blink the # of Good sensors connected Yes 1 Blink = None of the Sensors are Detected Check wiring on all sensors Measure DC Volts between x & for all sensors Compare readings to chart Call AAON Technical Support 2 Blinks=High Pressure on one of the Sensors (More than 600 PSI) Check Refrigerant Charge on All Circuits 3 Blinks = Lo Pressure On one of the Sensors Less than 35 PSI Check Refrigerant Charge on All Circuits Fan Speed or Water Valve Position Will Be at 100% Yes Are Heat Enable Inputs A& B Active? Yes Is LED blinking correct # of Sensors? No No Check wiring on all sensors Lower Monitor DC Volts on AOut 1 & 2 AOut 1 & 2 Voltage should Modulate Down to a Min voltage of 0VDC (See Sequence) Pressure is?? than Setpoint? Same There will be No Change on AO ut 1 & 2 Higher Monitor DC Volts on AOut 1 & AOut 2 AOut 1 & 2 Voltage Should Modulate Up to a Max Voltage of 10VDC (See Sequence) Measure DC Volts between x & for All sensors. Compare readings. to chart Call AAON Technical Support Figure 7: Troubleshooting Diagram 16
Troubleshooting Pressure Transducer Troubleshooting If you suspect there is a problem with the Module related to pressure transducer measurements, reference Table 7 below. Pressure Sensor Chart Voltage Pressure Voltage Pressure 0.5 0 2.6 350 0.6 17 2.7 367 0.7 33 2.8 384 0.8 50 2.9 400 0.9 67 3.0 417 1.0 83 3.1 434 1.1 100 3.2 450 1.2 117 3.3 467 1.3 133 3.4 484 1.4 150 3.5 500 1.5 167 3.6 517 1.6 183 3.7 534 1.7 200 3.8 550 1.8 217 3.9 567 1.9 233 4.0 584 2.0 250 4.1 600 2.1 267 4.2 617 2.2 283 4.3 634 2.3 300 4.4 650 2.4 317 4.5 667 2.5 334 Table 7: Transducer Chart 17
Troubleshooting Using LEDs to Verify Operation The is equipped with LEDs that can be used to verify operation and perform troubleshooting. There are LEDs for communication, operation modes, diagnostic codes, and relays. The has eight LEDs one for power, one for operation status, one for communication, one for alarms, and four for compressor relays. See Figure 8 for the LED locations. The LEDs associated with these inputs and outputs allow you to see what is active without using a voltmeter. Status LEDs Module LEDs - This LED will light up whenever A Enable Relay is enabled and will stay lit as long as the relay is active. - This LED will light up when the Heating Enable A is enabled and will stay lit as long as the Heating Enable A is active. - This LED will light up whenever B Enable Relay is enabled and will stay lit as long as the relay is active. - This LED will light up when the Heating Enable B is enabled and will stay lit as long as the Heating Enable B is active. M - This LED will light up to indicate Communications with the VCM-X series controller. If Communications are established, the M LED will blink. You should not see this LED light up in stand-alone mode, because there would be no communications with the VCM-X series controller. - This is the diagnostic blink code LED. It will light up and blink out diagnostic codes. See Table 8 below for Diagnostic Blink Code descriptions. The blink code descriptions are also located on the Module s front cover. No. of Blinks Status 0 No Problems 1 No Sensors Detected 2 High Head Pressure Detected 3 Low Head Pressure Detected Table 8: LED Blink Codes - This is the status blink code LED. It will light up and first blink the address of the Module. It will then blink out the quantity of sensors installed. See Table 9 below for Status Blink Code descriptions. The blink code descriptions are also located on the Module s front cover. No. of Blinks Random Status Blinks Quantity of Sensors Installed Table 9: LED Blink Codes Figure 8: LED Locations 18
Troubleshooting LED Diagnostics PWR LED: When the is powered up, the PWR LED (located below the address switches) should light up and stay on continuously. If it does not light up, check to be sure that the power wiring is connected to the board, the connections are tight, and the VCM-X series controller is powered. If after making all these checks, the PWR LED does not light up, the module is probably defective. M LED: When the is powered up while in Stand Alone Mode, the M LED does not light up. When the module is connected to a VCM-X series controller, the M LED should light up, indicating Communications. Each time Communications are detected, this LED should continuously blink on and off, for a half second. This LED should never stop checking for a Communications signal. If it does not light up, check to be sure that the power wiring is connected to the board, the connections are tight, and the VCM-X series controller is powered. If after making all these checks, the M LED does not light up, the board is probably defective. LED: As previously described, when the module is first powered up, the LED will blink out the number of installed sensors LED: As previously described, this LED will blink on and off to indicate alarms and diagnostics. Other Checks NOTE: The contains no user-serviceable parts. Contact qualified technical personnel if your module is not operating correctly. 19
Appendix for Version 1.04 and Earlier Version 1.04 and Earlier Version 1.04 and earlier have several differences from version 1.07 and later. Please refer to the Dipswitches in Figures 9 & 10 and the Tables 10 & 11 for detailed information. VCM-X / SA Connection Version 1.04 and earlier do not utilize Dipswitch 2 when the module is connected to a VCM-X or SA Series Controller. NOTE: ALL RELAY OUTPUTS ARE NORMALLY OPEN AND RATED FOR 24 VAC POWER ONLY - 1 AMP MAXIMUM LOAD Head Pressure Transducers 0-667 PSI (One Per Refrigerant Circuit) Set ADDRESS Dip Switch 1 to ON for Water Cooled or to OFF for Air Cooled. Currently showing OFF for Air Cooled. If Using (2) Modules, Set ADDRESS Dip Switch 2 to OFF for Address 1 or to ON for Address 2. ADDRESS Dip Switch 4 should always be set to ON to make reversing valve "ON to Cool / OFF to Heat". Currently showing ON. V V V V PWR OE370-23-HP2C-C 1 2 3 4 ADDRESS 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON WattMaster Label #LB102081 Rev.: 1H RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C COND. A ENABLE COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 PWM1 PWM2 24 VAC 24 VAC RC Rc RELAYS ANALOG OPTIONS M M Line Voltage 24 VAC Transformer 3 VA Minimum CONDENSER A ENABLE CONDENSER B ENABLE HVAC UNIT CONNECTION Signal A Signal B Fan A ECM Motor Fan B ECM Motor OPTIONS Dip Switch Setting Not Required When Connected To VCM-X Controller or SA Controller Connect To Other WattMaster-Approved Expansion Module(s) HSSC Cable WARNING!! Ob P l it! All HSSC Cable Connect To VCM-X Controller Figure 9: Version 1.04 and Earlier One Head Pressure Module Wiring Diagram (VCM-X / SA Connection) 20
Appendix for Version 1.04 and Earlier Stand-Alone Wiring Versions 1.01 through 1.04 utilize Dipswitch 2 in stand-alone mode for refrigeration selection. See Tables 10 & 11 for further information. NOTE: ALL RELAY OUTPUTS ARE NORMALLY OPEN AND RATED FOR 24 VAC POWER ONLY - 1 AMP MAXIMUM LOAD CONDENSER A ENABLE Head Pressure Transducers 0-667 PSI (One Per Refrigerant Circuit) OE370-23-HP2C-C CONDENSER B ENABLE HVAC UNIT CONNECTION Signal A V V V V CONDENSER ON/OFF (Y1 CALL) COOLING ENABLE (O CALL) Set ADDRESS Dip Switch 1 to ON for Water Cooled or to OFF for Air Cooled. Currently showing OFF for Air Cooled. Set ADDRESS Dip Switch 2 to OFF for 10-A Refrigerant or to ON for 2 Refrigerant. Currently showing OFF for 10-A Refrigerant. Set ADDRESS Dip Switch 3 to ON to disable Circuit B alarms when only one is Used. Currently showing OFF. PWR 1 2 3 4 ADDRESS 1 2 3 4 www.aaon.com Circuit A1 TRANSDUCER #1 Circuit A2 TRANSDUCER #2 Circuit B1 TRANSDUCER #3 Circuit B2 TRANSDUCER #4 COND. A & B ENABLE MON WattMaster Label #LB102081 Rev.: 1H RELAY CONTACT RATING IS 1 AMP MAX @ 24 VAC Orion No.:OE370-23-HP2C COND. A ENABLE COND. B ENABLE RELAY MON AAON Coil No.: 30310 COND. A NAL COND. B NAL LED BLINK CODES BLINKS QTY. OF SENSORS INSTALLED NO PROBLEMS 0 NO SENSORS DETECTED 1 HIGH DETECTED 2 LOW DETECTED 3 PWM1 PWM2 PWM1 PWM2 24 VAC 24 VAC RC Rc RELAYS ANALOG OPTIONS M M Signal B Fan A ECM Motor OPTIONS Dip Switch is Used for Setting the Head Pressure Setpoint if Not Using Default Setpoint. Fan B ECM Motor ADDRESS Dip Switch 4 should always be set to ON to make reversing valve "ON to Cool / OFF to Heat". Currently showing ON. WARNING!! Observe Polarity! All boards must be wired with -to- and 24 VAC-to-24 VAC. Failure to observe polarity could result in damage to the boards. 24 VAC Transformer 3 VA Minimum Line Voltage Figure 10: Version 1.04 and Earlier One Head Pressure Module Wiring Diagram (Stand-Alone) 21
Appendix for Version 1.04 and Earlier OPTIONS Dip Switch Settings Air Cooled Head Pressure Setpoint Water Cooled Binary Value 10-A 2 10-A 2 0 340 (DEFAULT) 200 (DEFAULT) 235 (DEFAULT) 145 (DEFAULT) 1 260 160 210 110 2 270 170 220 120 3 280 180 230 130 4 290 190 240 140 5 300 200 250 150 6 310 210 260 160 7 320 220 270 170 8 330 230 280 180 9 340 240 290 190 10 350 250 300 200 11 360 260 310 210 12 370 270 320 220 13 380 280 330 230 14 390 290 340 240 15 400 300 350 250 NOTE: 2 refrigerant can only be used with the versions 1.01 through 1.04. You must cycle power after setting Dip Switch values. Table 10: OPTIONS Dip Switch/Head Pressure Setpoint Settings for Stand-Alone Operation 22
Appendix for Version 1.04 and Earlier ADDRESS Dip Switch 1 & 2 Settings Switch 1 Switch 2 Default SP Description of Default Head Pressure Setpoint OFF OFF 340 Air Cooled using 10-A Refrigerant OFF ON 200 Air Cooled using 2 Refrigerant ON OFF 235 Water Cooled using 10-A Refrigerant ON ON 145 Water Cooled using 2 Refrigerant Switch 1 determines Air or Water Cooled Switch 2 determines 10-A or 2 refrigerant NOTE: 2 refrigerant can only be used with the versions 1.01 through 1.04. You must cycle power after setting Dip Switch values. Table 11: ADDRESS Dip Switch Refrigerant and Type Settings for Stand-Alone Operation 23
www.aaon.com AAON Coil Products 203 Gum Springs Road Longview, TX 75602-1721 Ph: (903) 236-4403 Fax: (903) 236-4463 WattMaster Manual Form No: AA-HP2C-C-TGD-01L