Haier AW09TE1VHA Service Manual
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Haier AW09TE1VHA Service Manual

Ductless split heat pump
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Indoor
Indoor
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PAGE 1

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Summary of Contents for Haier AW09TE1VHA

  • Page 1 'XFWOHVV 6SOLW +HDW 3XPS Indoor Indoor Out door Out door 1U09TE1VHA 1U09TE1VHA AW09TE1VHA AW09TE1VHA 1U12TE1VHA 1U12TE1VHA AW12TE1VHA AW12TE1VHA 1U18TE2VHA 1U18TE2VHA AW18TE2VHA AW18TE2VHA 6HUYLFH 0DQXDO 1U24TE2VHA 1U24TE2VHA AW24TE2VHA AW24TE2VHA 'XFWOHVV 6SOLW +HDW 3XPS ‡ 3OHDVH UHDG WKLV PDQXDO EHIRUH XVLQJ WKH DLU FRQGLWLRQHU 'HVLJQ PD\ YDU\ E\ PRGHO QXPEHU ‡...
  • Page 2 [This page intentionally left blank.]...

  • Page 3: Introduction

    Introduction Table of Contents Safety Precautions ................................4 4 ................................Warning and Caution Icons ................................Introduction to System ................................Specifications for Proper Operation Theory of Operation ................................INTRODUCTION PAGE 3...

  • Page 4: Safety Precautions

    Safety Precautions · Read these Safety Precautions carefully to ensure correct installation. Failure to follow any WARNING is likely to result in grave consequences such as death or serious injury. WARNING: Failure to follow any CAUTION may in some cases result in grave consequences. CAUTION: The following safety symbols are used throughout this manual: Be sure to observe this instruction...
  • Page 5 Introduction Introduction to System The inverter compressor system in the outdoor unit will vary Single Zone Ductless Split System Heat Pumps feature a wall the refrigerant flow and indoor air volume levels to match mounted indoor fan/evaporator unit that receives refrigerant the cooling requirement inside the conditioned space.
  • Page 6 >7KLV SDJH LQWHQWLRQDOO\ OHIW EODQN@ PAGE 6 INTRODUCTION...

  • Page 7: Table Of Contents

    Outdoor Unit Controls & Components Table of Contents Outdoor Unit Introduction ..............................8 2XWGRRU &RPSRQHQW ,GHQWL FDWLRQ ............................ 8 Outdoor Main Control Board .............................. 9 7HUPLQDO %ORFN .................................. 10 Reactor .................................... 10 Compressor ..................................10 Outdoor Fan Motor ................................10 Discharge Temperature Sensor ............................

  • Page 8: Outdoor Unit Introduction

    Outdoor Unit Introduction The outdoor condensing unit models are heat pump systems. The outdoor unit has two circuit boards, a Module Board that drives the compressor and a Main Control Board that manages system functions and inverter calculations. Temperature sensors monitor key temperatures throughout the system to manage operational decisions. 4-Way Valve Accumulator Compressor...

  • Page 9: Outdoor Main Control Board

    Outdoor Control Board PCB (1) (Outdoor Control PCB) CN1,CN2-Connector for power N and L CN3-Connector for ground CN22-Connector for DC POWER 15V and 5V to the module board CN8,CN9-Connector for CN8 CN9 on the module board CN21-Connector for fan motor CN10-Connector for four way valve coil CN18,CN20-Connector for thermistors CN23-Communication connector for control...

  • Page 10: 7Huplqdo %Orfn

    Compressor Terminal Block The 18K and 24K units are 208/230 volt single phase. The The compressor is a three phase DC inverter driven rotary 9K and 12K units are 120 volt. All models use terminals 1 type. The compressor is capable of variable speed operation. and 2 as incoming power wiring.

  • Page 11: Discharge Temperature Sensor

    Discharge Temperature Sensor Outdoor Ambient Temperature Sensor The Outdoor Ambient Temperature Sensor is a negative The Discharge Temperature Sensor is a negative coefficient coefficient thermistor that will change resistance in response thermistor that senses the temperature of the compressor to outdoor air temperature changes. The Main Control Board hot gas.

  • Page 12: 4-Way Valve

    During COOL MODE operation, the valve meters low 4-Way Valve pressure refrigerant to the indoor coil. During HEAT MODE operation, the valve meters low pressure refrigerant to the outdoor coil. Accumulator The 4-Way Valve redirects the flow of refrigerant in the piping circuit to allow the system to reverse the functions of the indoor and outdoor coils.
  • Page 13 Indoor Unit Controls & Components Table of Contents Indoor Unit Introduction ..............................14 ............................. 14 Indoor Control Board ................................ 15 Terminal Block .................................. 16 Display ..................................... 16 Ambient Temperature Sensor ............................16 Piping Temperature Sensor .............................. 16 Louver Motor ................................... 17 Fan Motor ..................................

  • Page 14: Terminal Block

    Indoor Unit Introduction The indoor unit is mounted high on the wall to provide conditioned air to the space.Features of the system include: variable speed blower operation that speeds up and slows down with changes in demand,moving louvers to direct air, indoor air temperature sensing, evaporator coil temperature sensing, consumer operation display,evaporator coil with metering device located in outdoor unit, and an emergency operation switch.

  • Page 15: Indoor Control Board

    Indoor Control Board CN21, CN52-Connector for power N and L SW1- Connector for Emergency operation ON/OFF switch SW2-1-Select remote code A or B CN23-Connector for communication between 2-Select enable or disable room card. indoor and outdoor unit 3,4- Select EEPROM code 22,25,33 or 35 CN6-Connector for thermistors CN3,CN1-Connector for Transformer CN8, CN9-Connector for fan motor...

  • Page 16: Terminal Block

    Terminal Block Ambient Temperature Sensor The indoor unit terminal block receives electrical power from the outdoor unit. There are 4 connections for electrical wires. The Room Ambient Temperature Sensor is a negative Terminals 1 and 2 are connected to terminals 1 and 2 of the coefficient thermistor that will decrease in resistance with outdoor unit.

  • Page 17: Louver Motor

    Stepper Motor and Louver Emergency Button The Stepper Motor moves the louver up and down. The motor is connected to the Indoor Control Board at Plug CN-11. Louver left and right funcution is not available for If the remote control is non-functional, the Emergency Tempo series Button can be accessed by swinging open the front of the wall unit.
  • Page 18 >7KLV SDJH LQWHQWLRQDOO\ OHIW EODQN@ PAGE 18 REMOTE CONTROL FUNCTIONS...
  • Page 19 Remote Control Functions Table of Contents Remote Controller ................................20 REMOTE CONTROL FUNCTIONS PAGE 19...
  • Page 20 Note: Remote Controller 785%248,(7 PRGHV DUH RQO\ DYDLODEOH ZKHQ WKH XQLW LV XQ- der cooling or heating mode (not for auto or fan mode). Running the unit in QUIET mode for a long period of time may cause the room temperature to not reach the set WHPSHUDWXUH ,I WKLV RFFXUV FDQFHO 48,(7 PRGH DQG VHW WKH fan speed to a higher setting.
  • Page 21 Air Flow Direction Adjustment this setting. Press the SWING UP/DOWN button to choose the position of BLANK 0.5h 0.5h 0.5h 0.5h TIMER OFF-ON TIMER ON TIMER OFF TIMER ON-OFF Cancel TIMER ON setting: COOL/DRY: button once to cancel the TIMER ON. the OFF setting HEAT: will look like this on the remote control display:...
  • Page 22 According to the Time setting sequence of TIMER ON or by the contractor. C) Fan Mode - Is indicated by the SLEEP Button Sleep mode changing the fan settings. button to enter additional button to 1. Press the ON/OFF button on the remote control to turn enter the sleep function.
  • Page 23 HEALTH Button Optimizing Performance Feature not available on this series. Do not block the air inlet during operation or outlet Function: Setting and canceling timer and other functions. LOCK Button During cooling operation prevent direct sunlight Used to lock buttons and LCD display with curtains or blinds LIGHT Button Wring excess water out of the cloth...
  • Page 24 Problem Cause and Solutions The system The unit will wait for 3 minutes before starting if it is powered off or the electricity has been does not restart disconnected. immediately Under some circumstances small sounds may be heard. A swishing or gurgling sound may be caused Noise is heard by refrigerant flowing through the piping.
  • Page 25 Sequence of Operation Table of Contents System Power .................................. 26 Cool Mode ..................................26 Overview ......................................26 Indoor Unit ..................................... 26 Temperature Sensors ..................................26 Communication ..................................... 26 Outdoor Unit ....................................26 Temperature Sensors ..................................27 Call to Terminate Cooling ................................27 Freeze Protection Function ................................

  • Page 26: System Power

    Indoor Unit System Power To enter the cool mode, point the infrared remote control at The 240 VAC power for the system connects to terminals the indoor unit and press the power button, then press the 1(N), 2(L), and ground of the outdoor unit terminal block. This COOL mode button if not already set to cool mode.

  • Page 27: Temperature Sensors

    operating parameter and the call is communicated from the The outdoor unit main board also controls the position of the indoor unit to the outdoor unit. EEV (Electronic Expansion Valve) to regulate the flow of refrigerant to the indoor unit evaporator The indoor unit louver will open using a stepper motor.

  • Page 28: Defrost

    ambient and tube, provide information to the outdoor control Temperature Sensors board to monitor the coil and regulate the frequency of The indoor unit has two sensors that provide temperature the compressor, EEV positioning, and outdoor fan speed to information to the indoor unit main board;anindoor ambient t achieve the desired room temperature.

  • Page 29: Call To Terminate Heating

    The compressor discharge sensor provides the temperature the indoor unit and press the power button, then press the sensed at the discharge pipe of the compressor. DRY mode button if not already set to dry mode. The signals received by the infrared receiver are relayed to Call to Terminate Heating the main board of the indoor unit to turn the system on and The system will call to terminate heating when the indoor...

  • Page 30: Temperature Sensors

    seconds. Temperature Sensors 2. The condenser maintains a temperature above 54°F for 5 Four temperature sensors located in the outdoor unit provide seconds. temperature information to the outdoor unit main board for control of the system during dry mode. Upon exiting the defrost cycle, the following conditions will take place: The outdoor ambient temperature sensor provides the temperature of the air drawn into the condenser coil of the...
  • Page 31 149°F The compressor stops Fgh_t1 65 59°F // ice_temp_3+5 Fgh_t1 2 138°F Fgh_t2 2 N Decreasing the frequency rapidly Fgh_t2 59 48°F Increasing slowly 131°F P Decreasing the frequency slowly Fgh_t3 Fgh_t3 2 46°F // ice_temp_3+2 124°F Fgh_t4—2 Q Prohibiting increasing the frequency Fgh_t4 Keeping the frequency 43°F R Increasing slowly...

  • Page 32: Sequence Of Operation

    >7KLV SDJH LQWHQWLRQDOO\ OHIW EODQN@ PAGE 32 SEQUENCE OF OPERATION...

  • Page 33: Qvw Doodwlrq

    Installation Table of Contents Step 1 - Preparation ................................. 34 5HTXLUHG 7RROV IRU ,QVWDOODWLRQ ..............................34 3URFHGXUH IRU 6HOHFWLQJ WKH /RFDWLRQ ............................34 &OHDUDQFHV RI ,QGRRU DQG 2XWGRRU 8QLWV .............................34 Step 2 - Installation of the Indoor Unit ..........................35 $WWDFKLQJ WKH 0RXQWLQJ 3ODWH WR WKH :DOO .............................35 0RXQWLQJ WKH ,QGRRU 8QLW 2QWR WKH :DOO 3ODWH ..........................36 (OHFWULFDO &RQQHFWLRQV IRU WKH ,QGRRU 8QLW ..........................36 Step 3 - Installation of the Outdoor Unit ...........................

  • Page 34: Step 1 - Preparation

    Step 1 - Preparation Required Tools for Installation Procedure for Selecting the Location ma\ EH D HFWHG E\ PRLVture. Note: Outdoor sections cannot be stacked. detector If installing on a roof, install guard rails or fencing per local code. Flaring tool suitable for R410-A place.

  • Page 35: Step 2 - Installation Of The Indoor Unit

    Step 2 - Installation of the Indoor Unit Attaching the Mounting Plate to the Wall Step 2.1 Using a stud sensor, locate and mark the stud positions in the wall where the indoor unit is to be mounted. Step 2.2 Place the mounting plate on the wall in the desired location taking into account the minimum clearances necessary for Step 2.1...

  • Page 36: 0Rxqwlqj Wkh ,Qgrru 8Qlw 2Qwr Wkh :Doo 3Odwh

    Mounting the Indoor Unit Onto the Wall Plate Step 2.9 With the top of the indoor unit closer to the wall, hang the indoor unit on the upper hooks of the mounting plate. Slide the unit slightly side to side to verify proper placement of the indoor unit on the mounting plate.

  • Page 37: Step 4 - Interconnecting The Indoor And Outdoor Units

    Step - 3.3 Connect the wiring for both the power source and indoor wiring. Wire the system according to applicable national / local codes. Verify that the wiring connections for the indoor unit match wire for wire. Step 3.3 Step 3.4 (1-1, 2-2, 3-3, Gnd-Gnd).

  • Page 38: 6Whs   /Hdn 7Hvw Dqg

    Step 5 - Leak Test and Evacuation Leak Test refrigerant leaks. Explosive conditions may occur. Use a leak test solution or other approved methods for leak testing. Failure to follow recommended safe leak test procedures could result In death Use only dry nitrogen with a pressure regulator for pressurizing unit.

  • Page 39: Step 6 - Charging

    piping hole. Use a sealant to seal the piping hole opening to prevent weather elements from entering the building. (Illustration 6) Less than Verify the condensate drain line has a constant pitch It becomes The end is imm- There is the bad It waves.

  • Page 40: Section 7 - Explaining Operation To The End User

    Recommend that the user read the OPERATING INSTRUCTIONS carefully. Section 8 - System System 09TE 12TE 18TE 24TE Model Name Outdoor 1U09TE1VHA 1U12TE1VHA 1U18TE2VHA 1U24TE2VHA Indoor AW09TE1VHA AW12TE1VHA AW18TE2VHA AW24TE2VHA Rated Capacity Btu/hr 9,000 12,000 18,000 24,000 Capacity Range Btu/hr 3,800~12,000 4,100~12,500 5,000~19,000 6,500~26,000...

  • Page 41: Section 9 - Seacoast Application

    Section 9 - Seacoast Application TKH RXWGRRU XQLW VKRXOG EH LQVWDOOHG  tR  PLOHV IrRP VDOW water XQOHVV WKH XQLW LV SroWHFWHG IrRP GLUHFW cRQWDFW ZLWK VHD EUHe]HV E\ EXLOGLQJV RU oWKHU VWUXFtXUHs. Sea breeze Sea breeze ,I \RX FDQQRW DYRLG LQVWDOOLQJ WKH RXWGRRU XQLW E\ WKH VHDVKRUH $ SroWHFWLRQ wDOO VKRXOG EH cRQVWUXFWHG ZLWK D VROLG PDWHULDO VXFK DV Protection walls cRQFUHWH tR EORFN WKH VHD EUHe]H DQG WKH KHLJKW DQG WKH ZLGWK RI WKH wall...
  • Page 42 [This page intentionally left blank.] >7KLV SDJH LQWHQWLRQDOO\ OHIW EODQN@ PAGE 42 INSTALLATION...
  • Page 43 Error Codes & Problem Solving Table of Contents ....... . .

  • Page 44: U D A C M M U D E14

    Indoor Unit Display Error codes will be display on the indoor unit in place of the set temperature. Code Indication Indoor Display panel code indication Outdoor Fault Description (LED1 Only For 498 and flash Other 498A display times) display (Red/Green Time Run Indoor and Communication fault between indoor Outdoor...
  • Page 45 Indoor AC Fan Motor Malfunction Indoor Display This is caused by an indoor motor or indoor PCB fault Spare Parts: Indoor PCB Change indoor PCB and Indoor motor Indoor motor is faulty, check if proper operation is change indoor motor restored Fault corrected, resume system operation...

  • Page 46: Outdoor Unit Display

    Outdoor DC Fan Motor Fault Outdoor Display LED1 Flashes 9 Times This is caused by an outdoor motor or outdoor PCB fault Spare Parts: Outdoor PCB Outdoor motor whether the outdoor motor plug Re-seat the plug connection is secure 1.Measure for an approx. voltage of 310V between Restore power to the unit and turn pins 1 and 3 of the motor...

  • Page 47: Ipm Protection

    IPM Protection Outdoor Display LED1 Flashes 2 Times 8QGHU WKLV HUURU SOHDVH HQVXUH WKH UHIULJHUDQW V\VWHP Spare Parts: SUHVVXUH LV QRUPDO ZLWK QR EORFNDJHV WKHQ UHSODFH SRZHU 3RZHU PRGXOH module 5HIULJHUDQW 7KH FRPSUHVVRU VWDUWV QRUPDOO\ EXW 7XUQ WKH XQLW RQ PDOIXQFWLRQV DUH UHSRUWHG DIWHU LW KDV ,V WKH HUURU GLVSOD\HG EHIRUH RSHUDWHG IRU D SHULRG RI WLPH...

  • Page 48: Outdoor Unit Display

    7KH &RPPXQLFDWLRQ )DXOW %HWZHHQ ,30 DQG 2XWGRRU 3&% Outdoor Display LED1 Flash 4 Times Spare Parts: 3RZHU PRGXOH  &KHFN WKH SOXJV RI 02'8/( &20 DQG 02'8/( 32:(5 RQ WKH 2XWGRRU 3&% RXWGRRU 3&% DQG ,30 PRGXOHV IRU VHFXUH FRQQHFWLRQV  &KHFN WKH 3 1 ZLUHV EHWZHHQ WKH RXWGRRU 3&% DQG ,30 PRGXOHV for secure connections $UH WKH FRQQHFWLRQV VHFXUH"...

  • Page 49: Outdoor Unit Display

    3RZHU 6XSSO\ 7RR +LJK RU 7RR /RZ Outdoor Display LED1 Flashes 6 Times 7XUQ WKH XQLW RQ <HV Spare Parts: ,V WKH FRPSUHVVRU RSHUDWLQJ 7KH SRZHU VXSSO\ LV XQVWDEOH 3RZHU PRGXOH QRUPDOO\" <HV &KHFN WKH 3 1 WHUPLQDOV RI WKH 5HSODFH SRZHU PRGXOH SRZHU VXSSO\ RQ WKH RXWGRRU 3&%...

  • Page 50: Outdoor Unit Display

    Overheat Protection for Discharge Temperature Outdoor Display LED1 Flashes 8 Times 7XUQ WKH XQLW RQ &KHFN WKH <HV Spare Parts: H[KDXVW WHPSHUDWXUH RI WKH 7KH SRZHU VXSSO\ LV XQVWDEOH 2XWGRRU 3&% FRPSUHVVRU ([KDXVW VHQVRU <HV 7KHUH LV ORVV RI UHIULJHUDQW 'RHV WKH WHPSHUDWXUH &KHFN UHIULJHUDQW FKDUJH H[FHHG ) VKRUWO\ DIWHU WKH...

  • Page 51: Outdoor Unit Display

    Loss of Synchronism Detection Outdoor Display LED1 Flashes 18 or 19 Times  7KH FRPSUHVVRU ZLULQJ LV 7XUQ WKH XQLW RQ Spare Parts: incorrect or has bad connections 'RHV WKH FRPSUHVVRU VWDUW" &RPSUHVVRU  7KH FRPSUHVVRU LV GDPDJHG 3RZHU PRGXOH <HV 7KH FRPSUHVVRU VWDUWV EXW VRRQ VWRSV /(' RQ WKH RXWGRRU 3&% VWDUWV EOLQNLQJ...

  • Page 52: Checking Outdoor Unit Components

    VLJQL FDQWO\ GL HUHQW IURP . 2KPV Checking System Components Step 3 NOTE: Component resistance readings shown in this section Re-seat the plug on the connector at the conclusion of the DUH IRU UHIHUHQFH RQO\ $FWXDO UHVLVWDQFH YDOXHV PD\ GL HU test.
  • Page 53 type being tested. wiring and connections to the PFC Reactor as well as the PFC Reactor itself. Repair or replace as necessary. Coil sensor Ambient sensor Step 3 Reconnect the wiring to the module board at the conclusion Step 1 of the test.
  • Page 54 %OXH *UH\ 2UDQJH <HOORZ Pink  2KP  2KP  2KP  2KP 2UDQJH  2KP  2KP  2KP  2KP  2KP <HOORZ  2KP Pink  2KP  2KP %OXH *UH\ Step 3 5HVHDW WKH SOXJ RQ WKH FRQQHFWRU DW WKH FRQFOXVLRQ RI WKH test.
  • Page 55 Reference Information Table of Contents Outdoor Board Diagram ..............................56 Outdoor Board Schematic ..............................57 Indoor Board Diagram ..............................61 Indoor Board Schematic ..............................62 Module Board Schematic ..............................64 Room and Pipe Sensor Tables ............................65 Ambient, Defrosting, Pipe Sensor Tables .......................... 68 Discharging Sensor Tables ...............................

  • Page 56: Outdoor Board Diagram

    Outdoor Board Diagram 9-12K 9-12K CN50 and @2 cannot exist at the same time but must keep one of them. PAGE 56 REFERENCE INFORMATION...

  • Page 57: Outdoor Board Schematic

    Outdoor Board Schematic 9-12K REFERENCE INFORMATION PAGE 57...
  • Page 58 Outdoor Board Schematic Outdoor Board Schematic REFERENCE INFORMATION PAGE 58...
  • Page 59 Outdoor Board Schematic 18-24K REFERENCE INFORMATION PAGE 5...
  • Page 60 Indoor Board Diagram 09K-12K REFERENCE INFORMATION PAGE 6...

  • Page 61: Indoor Board Diagram

    HA AW12ES2VHA AW18ES2VHA AW24ES2 Indoor Board Diagram 18-24K Fan motor Ion generator Fresh air W ire controller Up-down stepmotor left stepmotor Room card Wifi EMERGENCY SWITCH RECEIVER DISPLAY AMBIENT TEMP SENSOR PIPING TEMP SENSOR Right stepmotor PAGE 61 REFERENCE INFORMATION...

  • Page 62: Indoor Board Schematic

    Indoor Board Schematic 09-12K PAGE 62 REFERENCE INFORMATION...
  • Page 63 Indoor Board Schematic ZD001 18V -1W REFERENCE INFORMATION PAGE 6...

  • Page 64: Module Board Schematic

    Module Board Schematic Outdoor Board Diagram CN50 and @2 cannot exist at the same time but must keep one of them. AGE 64 REFERENCE INFORMATION...

  • Page 65: Room And Pipe Sensor Tables

    Ambient Sensor Tables . s 9-12K Temp°F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) -30.0 511.383 487.031 462.680 5.00 5.00 -29.0 478.574 456.022 433.470 4.95 4.95 -28.0 448.361 427.455 406.549 4.89 4.89 -27.0 420.230 400.844 381.458 4.84 4.84 -26.0 394.026...
  • Page 66 Ambient Sensor Tables Rome Sensor Tables Temp°F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 71.505 69.288 67.071 3.20 3.20 67.759 65.693 63.627 3.15 3.15 64.230 62.304 60.378 3.09 3.09 60.903 59.108 57.313 3.04 3.04 57.767 56.094 54.421 2.98 2.98 54.808...
  • Page 67 Ambient Sensor Tables Temp°F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 39.0 12.563 12.243 11.923 2.61 2.61 40.0 12.038 11.727 11.416 2.66 2.66 41.0 11.539 11.236 10.933 2.70 2.70 42.0 11.063 10.768 10.473 2.74 2.74 43.0 10.611 10.323 10.035 2.79...

  • Page 68: Ambient, Defrosting, Pipe Sensor Tables

    Ambient Sensor Tables Temp°F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 75.0 3.153 3.026 2.899 4.19 4.19 76.0 3.046 2.922 2.798 4.23 4.23 77.0 2.944 2.823 2.702 4.28 4.28 78.0 2.845 2.727 2.609 4.32 4.32 79.0 2.751 2.636 2.521 4.36...
  • Page 69 Pipe Sensor Tables 18-24K 5r . s %rr .s 7HPS r) 7HPS r& 0D[ . 1RUPDO . 0LQ . 7ROHUDQFH r&                      ...
  • Page 70 Pipe Sensor Tables 7HPS r) 7HPS r& 0D[ . 1RUPDO . 0LQ . 7ROHUDQFH r& 62.6           66.2                ...
  • Page 71 Pipe Sensor Tables 7HPS r) 7HPS r& 0D[ . 1RUPDO . 0LQ . 7ROHUDQFH r&                            ...

  • Page 72: Discharging Sensor Tables

    Ambient and Pipe Sensor Tables Temp. °F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 235.4 0.62 0.5518 0.4907 -4.86 4.36 237.2 0.6043 0.5374 0.4775 -4.92 4.41 0.5891 0.5235 0.4648 -4.98 4.45 240.8 0.5743 0.51 0.4524 -5.04 242.6 0.56 0.4968 0.4404...
  • Page 73 Ambient, Defrosting and Pipe Sensor Tables Temp. °F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 23.0284 21.8398 20.6939 -1.18 1.14 21.9714 20.8659 19.7982 -1.15 1.12 20.9688 19.9409 18.9463 -1.13 1.09 20.0176 19.0621 18.1358 -1.11 1.07 19.1149 18.2270 17.3646 -1.08 1.05...
  • Page 74 Ambient, Defrosting and Pipe Sensor Tables Temp. °F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 3.4195 3.2085 3.0079 -1.91 1.82 3.3060 3.0989 2.9021 -1.95 1.85 3.1969 2.9935 2.8005 -2.00 1.89 3.0919 2.8922 2.7029 -2.04 1.93 2.9909 2.7948 2.6092 -2.08 1.97...
  • Page 75 Ambient, Defrosting and Pipe Sensor Tables Temp. °F Temp. °C MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance (°C) 0.8061 0.7233 0.6484 -4.29 3.88 0.7848 0.7036 0.6303 -4.34 3.92 0.7641 0.6845 0.6127 -4.40 3.97 0.7441 0.6661 0.5957 -4.46 4.02 0.7247 0.6482 0.5792 -4.51 4.07...
  • Page 76 Discharge Sensor Tables Temp.(°F) Temp.(°C) MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance 24.8 2738.6777 2368.3158 2046.1961 -2.6 2.26 26.6 2581.6752 2236.3876 1935.5371 -2.58 2.25 28.4 2434.5487 2112.5459 1831.4826 -2.56 2.24 30.2 2296.623 1996.2509 1733.6024 -2.55 2.23 2167.273 1887.0018 1641.4966 -2.53 2.22 33.8 2045.9191...
  • Page 77 Discharge Sensor Tables Temp.(°F) Temp.(°C) MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance 218.386 203.2887 189.0648 -1.67 1.57 114.8 208.7855 194.6066 181.2273 -1.65 1.55 116.6 199.6531 186.3369 173.7524 -1.63 1.54 118.4 190.9639 178.4584 166.6217 -1.6 1.52 120.2 182.6945 170.9508 159.8181 -1.58 174.8228 163.7951 153.3249...
  • Page 78 Discharge Sensor Tables Temp.(°F) Temp.(°C) MD[ . ) 1RUPDO . ) 0LQ . ) Tolerance 201.2 31.8302 30.4467 29.097 -1.33 30.7933 29.4246 28.0915 -1.37 1.34 204.8 29.795 28.4417 27.1254 -1.41 1.37 206.6 28.8337 27.4961 26.197 -1.45 1.41 208.4 27.9078 26.5864 25.3048 -1.49 1.44 210.2 27.016 25.711...

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