Indoor AW09TE1VHA AW12TE1VHA AW18TE2VHA AW24TE2VHA Out door 1U09TE1VHA 1U12TE1VHA 1U18TE2VHA 1U24TE2VHA - - - . . W ! "# $% &'% &'( V ) &*% '+% ',( VAC. Table of Contents - /! .................................................................................................
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Introduction Table of Contents INTRODUCTION PAGE 3 ENGLISH Safety Precautions ............................................................................................................................................................. 4 Warning and Caution Icons............................................................................................................................................................4 Introduction to System ................................................................
Safety Precautions ENGLISH · Read these Safety Precautions carefully to ensure correct installation. WARNING: Failure to follow any WARNING is likely to result in grave consequences such as death or serious injury. CAUTION: Failure to follow any CAUTION may in some cases result in grave consequences.
Introduction to System Introduction The inverter compressor system in the outdoor unit will vary the refrigerant flow and indoor air volume levels to match the cooling requirement inside the conditioned space. If an abnormal condition is detected by the system’s sensors, the system has the ability to take reactive measures. The outdoor unit features a variable speed rotary compressor, EEV metering device and DC fan motor. These systems use R410A refrigerant and PVE oil.
PAGE 6 INTRODUCTION
Outdoor Unit Controls & Components Table of Contents OUTDOOR UNIT CONTROLS & COMPONENTS PAGE 7 ENGLISH Outdoor Unit Introduction ................................................................................................................................................. 8 .................................................................................................................................... 8 Outdoor Main Control Board ..........................................
ENGLISH 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.
Outdoor Control Board PCB (1) (Outdoor Control PCB) CN1,CN2-Connector for power N and L CN3-Connector for ground 10 1 12 CN22-Connector for DC POWER 15V and 5V to the module board CN8,CN9-Connector for CN8 CN9 on the module board 9 14 2 CN21-Connector for fan motor 8 CN10-Connector for four way valve coil 3 CN18,CN20-Connector for thermistors CN23-Communication connector for control board and the module board CN24 ,CN26-Connector for P and N of the module board CN4-Connector
Compressor ENGLISH Terminal Block The 18K and 24K units are 208/230 volt single phase. The 9K and 12K units are 120 volt. All models use terminals 1 and 2 as incoming power wiring. Number 3 is the communication terminal and the 4th terminal is the ground connection. Be sure to match this wiring with the indoor unit terminals. The compressor is a three phase DC inverter driven rotary type. The compressor is capable of variable speed operation.
Discharge Temperature Sensor Outdoor Ambient Temperature Sensor ENGLISH The Discharge Temperature Sensor is a negative coefficient thermistor that senses the temperature of the compressor hot gas. The Main Control Board monitors the temperature of the compressor hot gas and will make inverter speed changes in response to input from this device. This sensor connects to the Main Control Board at PLUG CN20.
ENGLISH 4-Way Valve During COOL MODE operation, the valve meters low 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. When de-energized in COOL MODE, the valve will direct the refrigerant hot gas to the outdoor coil.
Indoor Unit Controls & Components Table of Contents INDOOR UNIT CONTROL S and COMPONENTS PAGE 13 ENGLISH Indoor Unit Introduction .................................................................................................................................................. 14 ..................................................................................................................................... 14 Indoor Control Board.......................................................................
ENGLISH 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.
Indoor Control Board ENGLISH 1 CN21, CN52-Connector for power N and L 10 SW1- Connector for Emergency operation ON/OFF switch SW2-1-Select remote code A or B 2-Select enable or disable room card. 3,4- Select EEPROM code 22,25,33 or 35 2 CN23-Connector for communication between 11 3 CN6-Connector for thermistors 12 CN3,CN1-Connector for Transformer 4 CN8, CN9-Connector for fan motor 13 FUSE1- Fuse 3.
Ambient Temperature Sensor ENGLISH Terminal Block The indoor unit terminal block receives electrical power from the outdoor unit. There are 4 connections for electrical wires. Terminals 1 and 2 are connected to terminals 1 and 2 of the outdoor unit. This wiring supplies power to the indoor unit. Terminal 3 is a communication wire. The indoor unit sends indoor air temperature, coil temperature and temperature setpoint information to the outdoor unit on this wire.
Stepper Motor and Louver Emergency Button ENGLISH 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 Tempo series Fan Motor If the remote control is non-functional, the Emergency Button can be accessed by swinging open the front of the wall unit. The button is located on the right side. Pushing this button will activate AUTO MODE operation.
PAGE 18 REMOTE CONTROL FUNCTIONS
Remote Control Functions Table of Contents REMOTE CONTROL FUNCTIONS PAGE 19 ENGLISH Remote Controller ...........................................................................................................................................................
Note: ! " der cooling or heating mode (not for auto or fan mode). ENGLISH Remote Controller Running the unit in QUIET mode for a long period of time may cause the room temperature to not reach the set # $ fan speed to a higher setting. 3 COOL Button % & $ # ' *+; + $ < fan speed according to room temperature.
Air Flow Direction Adjustment Press the SWING UP/DOWN button to choose the position of this setting. BLANK 0.5h TIMER ON TIMER OFF 0.5h TIMER ON-OFF 0.5h ENGLISH 0.5h TIMER OFF-ON Cancel TIMER ON setting: COOL/DRY: button once to cancel the TIMER ON. the OFF setting will look like this on the remote control display: HEAT: Caution: louver. Note: When turning the unit on, the remote control will automatically return the louver to the previous set swing position. When turnprior to closing.
According to the Time setting sequence of TIMER ON or ENGLISH by the contractor. C) Fan Mode - Is indicated by the 13 SLEEP Button Sleep mode changing the fan settings. button to enter additional button to Sleep Operation Mode 1. Press the ON/OFF button on the remote control to turn the unit on. Select the desired operating mode. rise 2°F above set temperature,after another hour,the button to enter adPress the EXTRA FUNCTION ditional options.
15 HEALTH Button Optimizing Performance Feature not available on this series. during operation Function: Setting and canceling timer and other functions. Do not block the air inlet or outlet 17 LOCK Button During cooling operation prevent direct sunlight with curtains or blinds Used to lock buttons and LCD display ENGLISH 16 18 LIGHT Button Wring excess water out of the cloth before wiping down the unit then completely remove all traces of detergent. 19 RESET Button remote.
ENGLISH Problem Cause and Solutions The system does not restart immediately The unit will wait for 3 minutes before starting if it is powered off or the electricity has been disconnected. Noise is heard Under some circumstances small sounds may be heard. A swishing or gurgling sound may be caused by refrigerant flowing through the piping. A small crackling sound indicates the casing is expanding or shrinking from temperature changes, such as during the defrost mode.
Sequence of Operation Table of Contents SEQUENCE of OPERATION PAGE 25 ENGLISH System Power .................................................................................................................................................................. 26 Cool Mode ........................................................................................................................................................................ 26 Overview.............................................................
Indoor Unit ENGLISH System Power The 240 VAC power for the system connects to terminals 1(N), 2(L), and ground of the outdoor unit terminal block. This terminal block also has terminals to connect power to the indoor unit. To enter the cool mode, point the infrared remote control at the indoor unit and press the power button, then press the COOL mode button if not already set to cool mode. NOTE: Mis-wiring of these connections may cause improper operation or damage to system components.
Temperature Sensors Four temperature sensors located in the outdoor unit provide temperature information to the outdoor unit main board for control of the system during cool mode. The outdoor ambient temperature sensor provides the temperature of the air drawn into the condenser coil of the outdoor unit. The defrost temperature sensor provides the temperature sensed at the output of the condenser coil. The suction line temperature sensor provides the temperature sensed at the incoming suction line pipe.
ENGLISH ambient and tube, provide information to the outdoor control board to monitor the coil and regulate the frequency of the compressor, EEV positioning, and outdoor fan speed to achieve the desired room temperature.
The compressor discharge sensor provides the temperature sensed at the discharge pipe of the compressor. The system will call to terminate heating when the indoor ambient temperature sensor is equal to or higher than 2°F above the room set temperature. The indoor control board will communicate to the outdoor control board to de-energize the compressor. The outdoor fan will run for 60 seconds before stopping. The 4-way valve will de-energize 2 minutes after the compressor stops.
ENGLISH Temperature Sensors Four temperature sensors located in the outdoor unit provide temperature information to the outdoor unit main board for control of the system during dry mode. The outdoor ambient temperature sensor provides the temperature of the air drawn into the condenser coil of the outdoor unit. The defrost temperature sensor provides the temperature sensed at the output of the condenser coil.
TC 149°F Fgh_t1 65 The compressor stops 59°F // ice_temp_3+5 Fgh_t1 2 Fgh_t2 2 N Decreasing the frequency rapidly Fgh_t2 138°F 59 P Decreasing the frequency slowly Fgh_t3 131°F 55 48°F Fgh_t3 2 Fgh_t5 117°F 47 R Increasing slowly 43°F 46°F // ice_temp_3+2 Keeping the frequency ENGLISH Q Prohibiting increasing the frequency Fgh_t4 124°F 51 Fgh_t4—2 Increasing slowly 43°F Fgh_t5—2 41°F Decreasing slowly 37°F Normal Decreasing rapidly ice_temp_1 32°F N P Stop Decreasing at the speed
PAGE 32 SEQUENCE OF OPERATION
Installation Table of Contents INSTALLATION PAGE 33 ENGLISH Step 1 - Preparation ......................................................................................................................................................... 34 ......................................................................................................................................................34 ......................................................
Step 1 - Preparation Procedure for Selecting the Location ENGLISH Required Tools for Installation ma } ture. Note: Outdoor sections cannot be stacked. If installing on a roof, install guard rails or fencing per local code. detector Flaring tool suitable for R410-A place. To avoid electrical interference, maintain at least 10 feet of clearance from the unit and control cable to televisions and radios.
Step 2 - Installation of the Indoor Unit Attaching the Mounting Plate to the Wall ENGLISH 2.1 Step 2.1 Using a stud sensor, locate and mark the stud positions in the wall where the indoor unit is to be mounted. 2.2 Step 2.2 Place the mounting plate on the wall in the desired location taking into account the minimum clearances necessary for proper operation. Step 2.1 Step 2.2 Step 2.3 Step 2.4 Step 2.5A Step 2.5B Step 2.6 Step 2.7 Step 2.8A Step 2.
Mounting the Indoor Unit Onto the Wall Plate ENGLISH 2.9 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. Rotate the lower portion of the indoor unit to the mounting plate, and lower the unit onto the lower hooks of the mounting plate. (Illustration 2) Verify the unit is secure. 2.10 Step 2.10 Step 2.9 Step - 2.
3.3 Step - 3.3 3.4 Step 3.3 Step 3.4 Step - 3.4 Replace the cover plate. Step 4 - Interconnecting the Indoor and Outdoor Units *See Steps 2.11 - 2.13 & 3.2 - 3.4 for connecting the electrical. CAUTION Outdoor unit Piping Indoor unit B B A The standard lineset length is 25ft. If the installation length is 0.2 oz/ft. for the 9K, 12K, 18K, and 24K model. (Illustr ation 4) A Outdoor unit % $ $ $ service valves. to chart. 4.
Step 5 - Leak Test and Evacuation ENGLISH 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. Do not use acetylene, oxygen or compressed air or mixtures containing them for pressure testing.
piping hole. Use a sealant to seal the piping hole opening to prevent weather elements from entering the building. (Illustration 6) Less than 5cm It becomes The end is imm- It waves. The gap with the There is the bad high midway. ersed in water. ground is too small smell from a sewer resulting in the failure of the condensate to exit the piping. Illustration 6 Step 6 - Charging See Steps 5.2 - 5.5 for evacuating the system prior to charging. The standard lineset length is 25ft. If the installation 0.
Section 7 - Explaining Operation to the End User ENGLISH Using the OPERATING INSTRUCTIONS, explain to the user how to use the system (the remote controller, removing for operation, etc.) Recommend that the user read the OPERATING INSTRUCTIONS carefully.
Section 9 - Seacoast Application ENGLISH T ]!G t r water$ ro r c e o t s.
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Error Codes & Problem Solving Table of Contents ERROR CODES & PROBLEM SOLVING PAGE 43 ENGLISH Error Codes and Description of Indoor Display..... ............................................................................................................ 44 Indoor Unit Display ......................................................................................................................................................................... 44 Indoor AC Fan Motor Malfunction ..........................
ENGLISH Indoor Unit Display Error codes will be display on the indoor unit in place of the set temperature.
Indoor AC Fan Motor Malfunction Indoor Display ENGLISH E14 This is caused by an indoor motor or indoor PCB fault Change indoor PCB and check if proper operation is restored No Indoor motor is faulty, change indoor motor Spare Parts: Indoor PCB Indoor motor Yes Fault corrected, resume system operation ERROR CODES & PROBLEM SOLVING PAGE 45
Outdoor DC Fan Motor Fault ENGLISH Outdoor Display LED1 Flashes 9 Times This is caused by an outdoor motor or outdoor PCB fault whether the outdoor motor plug connection is secure No Re-seat the plug Spare Parts: Outdoor PCB Outdoor motor Yes Restore power to the unit and turn system on in Cool mode. Does the fan motor operate? No Yes Measure for a voltage of 0-5V between pins 3 and 6 No Outdoor motor fault Yes 1.Measure for an approx.
IPM Protection Outdoor Display $ $ module # Spare Parts: ; $ # ? ? $ ? ? % refrigerant charge Over-current of the Compress
! " # $% $ ENGLISH Outdoor Display LED1 Flash 4 Times ]_ % > & % > & ' % G_ % ¡ ; % for secure connections ; + X ? ]# # " >% ] G G# # " ]>% G ^
$ # ' (! # Outdoor Display ENGLISH LED1 Flashes 6 Times # ? # Spare Parts: ; % ¡ ; % # " ^Z ]Z ? ; " &] ¡ &G ? ; % ERROR CODES & PROBLEM SOLVING PAGE 49
Overheat Protection for Discharge Temperature ENGLISH Outdoor Display LED1 Flashes 8 Times # % # ? Spare Parts: % # ; > G^Z* ? % ? % $ % ; % # ; $
Loss of Synchronism Detection Outdoor Display ENGLISH LED1 Flashes 18 or 19 Times ; # > ]# incorrect or has bad connections G# Spare Parts: % ? $ # & >] % ][!] ]= ? $ $ Indoor Unit Overload in Heating
ENGLISH Checking System Components NOTE: Component resistance readings shown in this section # + " } based on model being tested. | } G#Z[¢ # Step 3 Re-seat the plug on the connector at the conclusion of the test. Checking the DC Fan Motor Checking Outdoor Unit Components Testing of the following components requires the use of an ohmmeter and temperature probe. (Temperature probe is used during sensor testing only).
wiring and connections to the PFC Reactor as well as the PFC Reactor itself. Repair or replace as necessary. Step 1 Disconnect the Socket Protect plug from the control board connector for this test. Failure to do so may provide inaccurate readings. Coil sensor Ambient sensor Step 1 Disconnect the sensor plug from the control board for this test. Failure to do so may provide inaccurate readings. Step 2 Using a temperature probe, determine the temperature of the sensor being tested.
? ENGLISH £ --^[]#Y ^# ^[^#^ #Z ^^# ^# --? Pink ]^#Z ][# ][# ]]# Pink £ ^#[ Y#[ --- Step 3 X test. ! ( ! * " % Step 1 > >% * # * " inaccurate readings.
Reference Information Table of Contents REFERENCE INFORMATION PAGE 55 ENGLISH Outdoor Board Diagram ................................................................................................................................................... 56 Outdoor Board Schematic ................................................................................................................................................ 57 Indoor Board Diagram ................................................................
Outdoor Board Diagram ENGLISH 9-12K 287'225 :,5,1* ',$*5$0 % 9-12K ᴯᦒ ᢰᵟ㾱 ≲˖ ǃ仌㢢 ǃ⡸䶒䇮㖞ㅖ ਸ ḷ߶ ˗ ǃ⡸䶒Რ ᰐ⊑⢙˗ ǃঠࡧ ᆇփᲠ ˗ ǃᡰᴹ亩Ѫᗵ Ự亩˗ ǃᴹᇣ ⢙䍘ᓄㅖ ਸ ḷ߶ 4 + 5 ઼ 4 Ⲵ ޣ㾱 ≲DŽ ᓅ മ ᙫ ਧ ㆮ ᆇ ᰕ ᵏ ⡸ ⅑ ḷ䇠 ᣅ ᖡ ⌅ ᶀ ᯉ 㺘䶒 ⺜ ᓖ 3(7 仌 㢢 ᶀ ᯉቪ ረ W ༴ ᮠ ḷ䇠 䇮 䇑 + 5 ṑ ሩ ᇑ Ṩ ᐕ 㢪 ᴤ ᭩ ᮷Ԧਧ ᕐᔪ 䳴 㪓 ᲃ㦹 ᴤ᭩Ӫ ḷ߶ ॆ ᇑ ᇊ ᰕ ᵏ 4 + 5 5 2 + 6 ✝ ༴ ⨶ 4 + 5 н ᒢ 㜦 ঠࡧ૱ 䜘 ૱ 䘲 ⭘ ḷ߶ 䜘 ૱ 〠 ᖒ ᔿ 㺘 䶒 ༴ ⨶
Outdoor Board Schematic 9-12K ENGLISH REFERENCE INFORMATION PAGE 57
Outdoor Board Schematic Outdoor Board Schematic ENGLISH REFERENCE INFORMATION PAGE 58
CN23 5V 3 COM 2 GND 1 R98 10K +5V ( ) 5 6 CN33 2 White 1 R46 0 RV3 S14K350 RV2 R37 330 R36 1K 1 R47 +5V R48 10K COM 2K/2W R3 R33 2.
Indoor Board Diagram ENGLISH 09K-12K , 1 ' 2 2 5 : 5 , 1 * ' , $ * 5 $ 0 $ 75 $ 1 6 ) 2 5 0 ( 5 ' ,6 3 / $ < % 2 $ 5 ' 3 ,3 ,1 * 7 ( 0 3 6 ( 1 6 2 5 $ 0 % ,( 1 7 7 ( 0 3 6 ( 1 6 2 5 &1 &1 &1 &1 5 %/ & 1 5 2 2 0 & $ 5 ' & ( 1 7 5 $ / & 1 : ,) , & 2 1 7 5 2 / / ( 5 & 1 : ,5 ( ' & 2 1 7 5 2 / / ( 5 &1 (0 (5* (1 &< 6 : ,7 & + & 1 0 : &1 0 &1 a ) $ 1 0 2 7 2 5 & 1 8 3 ' 2 : 1 6 7 ( 3 0 2 7 2 5 & 1 )8 6( 7 $
HA AW12ES2VHA AW18ES2VHA AW24ES2 Indoor Board Diagram ENGLISH 18-24K 0 Fan motor & 1 & 1 & 1 &1 &1 1 )86( 7 $ 9$& : 5 %/ &1 / &1 &1 6 @ Fresh air @ Wire controller &1 &1 &1 &1 &1 ÿ &1 Ion generator Up-down stepmotor left stepmotor Room card @ &1 Wifi @ &1 6: &1 &1 EMERGENCY SWITCH RECEIVER DISPLAY &1 AMBIENT TEMP SENSOR PIPING TEMP SENSOR : % &1 5 < * 1 / & Right stepmotor < * %5 %/ *1' REFERENCE INFORMATION PAGE 61
ENGLISH Indoor Board Schematic 09-12K PAGE 62 REFERENCE INFORMATION
Indoor Board Schematic K- K ENGLISH CON001 0.1uF-275VAC RED CON002 1 D002 D001 D003 D004 RV1 TVR14561* 1N5399 1N5399 1N5399 1N5399 SCK084R72 310V CY1 2 1 C17 2 COMM_TX IC003 COMM_TX E1 220uF-25V-105 220uF-25V-105 E6 +12V CON13 1 RTB-1.5-2P CN30 0.1uF-275VAC CON003 200±10mm -Black CON004 200±10mm -Red LX1 CY2 2.2nF-250VAC +5V C4 0.1uF LB2271(32mH-0.35A) 2.2nF-250VAC 220V_L CX1 0.
Outdoor Board Diagram Module Board Schematic D208 LL4148 4.7U/16V C503 IC2 T600D C005 104 D204 LL4148 RES FWP TXD RXD MD1 5V GND C014 72 ,1'225 81,7 PC817A C016 472 C018 103 R015 C202 104 330 R206 1K 0 (/(&75,& '& )$1 :$< 9$/9( (;3$16,21 02725 9$/9( R016 1K MMBT9013 TR3 3 C017 223 330 &1 REFERENCE INFORMATION 3 2 1 䗮䆃 '21 7 728&+ &$3$&,725 (9(1 $)7(5 3/8* 2)) '$1*(5 2) (/(&75,& 6+2&. 7KH FDSDFLWRU UHWDLQV KLJK YROWDJH HYHQ DIWHU WKH SOXJ RII )RU \RXU VDIHW\ EH VXU
Ambient Sensor Tables ;<=>?<@ 9-12K Temp. °C M #\¢¥) ; \¢¥) #\¢¥) 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 -26.0 394.026 376.044 358.062 4.78 4.78 -25.0 369.606 352.922 336.238 4.73 4.73 -24.0 346.838 331.355 315.872 4.67 4.67 -23.0 325.602 311.229 296.856 4.62 4.62 -22.0 305.786 292.440 279.094 4.56 4.
Temp°F Temp. °C M #\¢¥) ; \¢¥) #\¢¥) Tolerance (°C) 3.0 71.505 69.288 67.071 3.20 3.20 4.0 67.759 65.693 63.627 3.15 3.15 5.0 64.230 62.304 60.378 3.09 3.09 6.0 60.903 59.108 57.313 3.04 3.04 7.0 57.767 56.094 54.421 2.98 2.98 8.0 54.808 53.249 51.690 2.93 2.93 9.0 52.017 50.564 49.111 2.87 2.87 10.0 49.383 48.029 46.675 2.82 2.82 11.0 46.896 45.635 44.374 2.76 2.76 12.0 44.548 43.373 42.198 2.71 2.71 13.0 42.331 41.236 40.141 2.
Ambient Sensor Tables Temp. °C M #\¢¥) ; \¢¥) #\¢¥) 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 2.79 44.0 10.178 9.898 9.618 2.83 2.83 45.0 9.766 9.493 9.220 2.88 2.88 46.0 9.373 9.107 8.841 2.92 2.92 47.0 8.998 8.739 8.480 2.96 2.96 48.0 8.640 8.388 8.136 3.01 3.01 49.0 8.299 8.053 7.
Ambient Sensor Tables Temp. °C M #\¢¥) ; \¢¥) #\¢¥) 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 4.36 80.0 2.659 2.547 2.435 4.41 4.41 81.0 2.573 2.463 2.353 4.45 4.45 82.0 2.488 2.381 2.274 4.49 4.49 83.0 2.407 2.303 2.199 4.54 4.54 84.0 2.329 2.227 2.125 4.58 4.58 85.0 2.253 2.154 2.054 4.63 4.
Pipe Sensor Tables 18-24K # J* # J% #\¢¥_ ; \¢¥_ #\¢¥_ \J%_ -22 X^Z ]Y#G] ]# ]^G#^Y[ X]# ]# XGZ#G XG ]# ]^#Y ]G#Z[ZY X]#^ ]# X][# XG[ ]Y#YZ ]^]#ZGG ]][#G^ X]#] ]#^ X]Y#Y XG ]^[#]G[ ]G#^^G ]]]#[GY X]#[ ]#] X]#[ -26 ]^Z#G^] ]]#^YY ]Z#[ X]#[ ]# X]^ XG ]GG#[[ ]]Z#YG ]ZZ#]^Y X]#[ ]#Y X]]#G XG ]]#GG ]Z#[[[G #[] X]#[^ ]#Y X# XG^ ]Z#] #][[ [#[]ZY X
ENGLISH Pipe Sensor Tables # J* # J% #\¢¥_ ; \¢¥_ #\¢¥_ 62.6 ] ]#[ ]#ZZ ]^#] \J%_ XZ#^ Z#G Y# ][ ]^#^Y ]^#][ ]G#Z] XZ#] Z# 66.
Pipe Sensor Tables # J% #\¢¥_ ; \¢¥_ #\¢¥_ \J%_ ] Y G#] G#G[ G#]] XG#^Y G#G] ]Z#[ 66 G#^[] G#GZ[ G#Z[Y XG# G#G ]G#Y Y G#^ZY[ G#]^[^ ]#[Z^ XG# G#G ]# Y[ G#G^ G#ZY ]#] XG# G#^ ]Y#G Y G#]YG G#ZZ^G ]#[]Y XG# G#^[ ][ Z G#Z[^ ]#^^ ]#Z[ XG# G#G ]#[ ] G#Z^^ ]#[[ ]#^G XG#Y^ G#Y ]Y]#Y G ]#] ]#[][Y ]#YY] XG#Y[ G# ]Y^# ^ ]#]]^ ]#Y] ]#YG] XG#^ G# ]Y#G
Ambient and Pipe Sensor Tables ENGLISH Temp. °F Temp. °C M #\¢¥) ; \¢¥) #\¢¥) Tolerance (°C) 235.4 113 0.62 0.5518 0.4907 -4.86 4.36 237.2 114 0.6043 0.5374 0.4775 -4.92 4.41 239 115 0.5891 0.5235 0.4648 -4.98 4.45 240.8 116 0.5743 0.51 0.4524 -5.04 4.5 242.6 117 0.56 0.4968 0.4404 -5.1 4.55 244.4 118 0.546 0.4841 0.4288 -5.16 4.6 246.2 119 0.5325 0.4717 0.4175 -5.22 4.65 248 120 0.5194 0.4597 0.4066 -5.28 4 .
Ambient, Defrosting and Pipe Sensor Tables Temp. °F Temp. °C M #\¢¥) ; \¢¥) #\¢¥) Tolerance (°C) 7 23.0284 21.8398 20.6939 -1.18 1.14 46 8 21.9714 20.8659 19.7982 -1.15 1.12 48 9 20.9688 19.9409 18.9463 -1.13 1.09 50 10 20.0176 19.0621 18.1358 -1.11 1.07 52 11 19.1149 18.2270 17.3646 -1.08 1.05 54 12 18.2580 17.4331 16.6305 -1.06 1.03 55 13 17.4442 16.6782 15.9315 -1.03 1.01 57 14 16.6711 15.9601 15.2657 -1.01 0.99 59 15 15.9366 15.
Ambient, Defrosting and Pipe Sensor Tables ENGLISH Temp. °F Temp. °C M #\¢¥) ; \¢¥) #\¢¥) Tolerance (°C) 131 55 3.4195 3.2085 3.0079 -1.91 1.82 133 56 3.3060 3.0989 2.9021 -1.95 1.85 135 57 3.1969 2.9935 2.8005 -2.00 1.89 136 58 3.0919 2.8922 2.7029 -2.04 1.93 138 59 2.9909 2.7948 2.6092 -2.08 1.97 140 60 2.8936 2.7012 2.5193 -2.13 2.01 142 61 2.8000 2.6112 2.4328 -2.17 2.05 144 62 2.7099 2.5246 2.3498 -2.22 2.09 145 63 2.6232 2.
Ambient, Defrosting and Pipe Sensor Tables Temp. °F Temp. °C M #\¢¥) ; \¢¥) #\¢¥) Tolerance (°C) 103 0.8061 0.7233 0.6484 -4.29 3.88 219 104 0.7848 0.7036 0.6303 -4.34 3.92 221 105 0.7641 0.6845 0.6127 -4.40 3.97 223 106 0.7441 0.6661 0.5957 -4.46 4.02 225 107 0.7247 0.6482 0.5792 -4.51 4.07 226 108 0.7059 0.6308 0.5632 -4.57 4.12 228 109 0.6877 0.6140 0.5478 -4.63 4.16 230 110 0.6700 0.5977 0.5328 -4.69 4.21 232 111 0.6528 0.5820 0.
ENGLISH Discharge Sensor Tables Temp.(°F) Temp.(°C) M #\¢¥) ; \¢¥) #\¢¥) 24.8 -4 2738.6777 2368.3158 2046.1961 Tolerance -2.6 2.26 26.6 -3 2581.6752 2236.3876 1935.5371 -2.58 2.25 28.4 -2 2434.5487 2112.5459 1831.4826 -2.56 2.24 30.2 -1 2296.623 1996.2509 1733.6024 -2.55 2.23 32 0 2167.273 1887.0018 1641.4966 -2.53 2.22 33.8 1 2045.9191 1784.3336 1554.7931 -2.52 2.21 35.6 2 1932.0242 1687.8144 1473.146 -2.5 2.2 37.4 3 1825.0899 1597.
Discharge Sensor Tables Temp.(°C) M #\¢¥) ; \¢¥) #\¢¥) 113 45 218.386 203.2887 189.0648 Tolerance -1.67 1.57 114.8 46 208.7855 194.6066 181.2273 -1.65 1.55 116.6 47 199.6531 186.3369 173.7524 -1.63 1.54 118.4 48 190.9639 178.4584 166.6217 -1.6 1.52 120.2 49 182.6945 170.9508 159.8181 -1.58 1.5 122 50 174.8228 163.7951 153.3249 -1.56 1.48 123.8 51 167.328 156.9733 147.1268 -1.53 1.46 125.6 52 160.1904 150.4683 141.209 -1.51 1.44 127.
ENGLISH Discharge Sensor Tables Temp.(°F) Temp.(°C) M #\¢¥) ; \¢¥) #\¢¥) 201.2 94 31.8302 30.4467 29.097 Tolerance -1.33 1.3 203 95 30.7933 29.4246 28.0915 -1.37 1.34 204.8 96 29.795 28.4417 27.1254 -1.41 1.37 206.6 97 28.8337 27.4961 26.197 -1.45 1.41 208.4 98 27.9078 26.5864 25.3048 -1.49 1.44 210.2 99 27.016 25.711 24.447 -1.53 1.48 212 100 26.1569 24.8685 23.6222 -1.57 1.52 213.8 101 25.329 24.0574 22.8291 -1.61 1.55 215.6 102 24.
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