background image

58

 O  Electromagnetic noise enters into TV sets or radios

Yes

Is the unit grounded?

No

Ground the unit.

Yes

Is the distance between the antennas 
and the indoor unit within 9.91 ft., or is 
the distance between the antennas and 
the outdoor unit within 9.91 ft.?

No

Extend the distance between the antennas and 
the indoor unit, and/or the antennas and the 
outdoor unit.

Is the distance between the TV sets or 
radios and the indoor unit within 3.28 
ft., or is the distance between the TV 
sets or radios and the outdoor unit 
within 9.91 ft.?

Yes

Extend the distance between the TV sets and/or 
radios and the indoor unit, or the TV sets or 
radios and the outdoor unit.

Are the antennas damaged?
Is the coaxial cable damaged?
Is there any poor contact in the anten-
na wiring?

Yes

No

No

Replace or repair the antenna.
Replace or repair the coaxial cable.

Is the indoor/outdoor connecting wire of 
the air conditioner and the wiring of the 
antennas close?

Yes

Extend the distance between the indoor/outdoor 
connecting wire of the air conditioner and the wir-
ing of the antennas.

No

Even if all of the above conditions are ful

fi

 lled, the electromagnetic noise may enter, depending on the electric 

fi

 eld strength 

or the installation condition (combination of speci

fi

 c conditions such as antennas or wiring).

Check the followings before asking for service.
1. Devices affected by the electromagnetic noise
  TV sets, radios (FM/AM broadcast, shortwave)
2. Channel, frequency, broadcast station affected by the electromagnetic noise
3. Channel, frequency, broadcast station unaffected by the electromagnetic noise
4. Layout of:
  indoor/outdoor unit of the air conditioner, indoor/outdoor wiring, grounding wire, antennas, wiring from antennas, receiver
5. Electric 

fi

 eld intensity of the broadcast station affected by the electromagnetic noise

6. Presence or absence of ampli

fi

 er such as booster

7. Operation condition of air conditioner when the electromagnetic noise enters in

1) Turn OFF the power supply once, and then turn ON the power supply. In this situation, check for the electromagnetic 

noise.

2) Within 3 minutes after turning ON the power supply, press OPERATE/STOP (ON/OFF) button on the remote controller for 

power ON, and check for the electromagnetic noise.

3) After a short time (3 minutes later after turning ON), the outdoor unit starts running. During operation, check for the elec-

tromagnetic noise.

4) Press OPERATE/STOP (ON/OFF) button on the remote controller for power OFF, when the outdoor unit stops but the 

indoor/outdoor communication still runs on. In this situation, check for the electromagnetic noise.

Summary of Contents for Mr.Slim MUZ-A17NA

Page 1: ... Models MUZ A09NA 1 U1 U2 MUZ A12NA U1 MUZ A15NA U1 MUZ A17NA U1 MUZ A24NA 1 U1 U2 MUY A15NA MUY A17NA MUY A24NA 1 U1 U2 MUZ GA24NA U1 MUY GA24NA SPLIT TYPE AIR CONDITIONERS OUTDOOR UNIT Indoor unit service manual MSZ A NA Series OB450 MSZ GA NA Series OB450 MUZ A09 12 15 17NA MUY A15 17NA NOTE RoHS compliant products have G mark on the spec name plate For servicing of RoHS compliant products refe...

Page 2: ...stors has been corrected Revision C 10 6 Test point diagram and voltage has been corrected 10 6 3 Outdoor electronic control P C board the chart of thermistor has been corrected Revision D MUZ A24NA 1 MUZ A24NA U2 and MUY A24NA 1 have been added Revision E MUZ GA24NA and MUY GA24NA have been added ...

Page 3: ...een changed AC DC 5 Compressor has been changed AC DC MUZ A09NA MUZ A09NA 1 MUZ A09NA U1 MUZ A09NA U2 1 Refrigerant system diagram has been changed MUZ A24NA MUZ A24NA 1 MUZ A24NA U1 MUZ A24NA U2 MUY A24NA MUY A24NA 1 1 Wiring diagram has been changed MUZ A24NA 1 MUZ GA24NA MUZ A24NA U2 MUZ GA24NA U1 MUY A24NA 1 MUY GA24NA 1 Compressor has been changed SNB130FPDH SNB130FQBH 2 Wiring diagram has be...

Page 4: ...handling Pseudo azeotropic refrigerant Single refrigerant Chlorine Not included Included Safety group ASHRAE A1 A1 A1 Molecular weight 72 6 86 5 Boiling point F 60 5 41 4 Steam pressure 77 F PSIG 225 82 136 34 Saturated steam density 77 F lb ft 3 3 995 2 772 Combustibility Non combustible Non combustible ODP 1 0 0 055 GWP 2 1730 1700 Refrigerant charge method From liquid phase in cylinder Gas phas...

Page 5: ...work to be used with R22 flare tool Vacuum pump adapter New Provided to prevent the back flow of oil This adapter enables you to use vac uum pumps Electronic scale for refrigerant charging New It is difficult to measure R410A with a charging cylinder because the refriger ant bubbles due to high pressure and high speed vaporization No Not Substitutable for R410A Yes Substitutable for R410A 2 Refrig...

Page 6: ...gerant inside the cylinder and the outdoor unit In this case capacity of the refrigeration cycle decreases or normal operation can be impossible However charging the liquid refrigerant all at once may cause the compressor to be locked Thus charge the refrigerant slowly Electronic scale for refrigerant charging Outdoor unit Refrigerant gas cylinder operating valve Refrigerant gas cylinder for R410A...

Page 7: ...ance at 68 F Ω 0 49 R L A 7 8 L R A 9 2 Refrigerant control Liner expansion valve Sound level 1 dB A 48 Defrost method Reverse cycle Dimensions W in 31 1 2 D in 11 1 4 H in 21 5 8 Weight Ib 82 75 82 External finish Munsell 3Y 7 8 1 1 Remote controller Wireless type Control voltage by built in transformer 12 24 VDC Refrigerant piping Not supplied Refrigerant pipe size Min wall thickness Liquid in 1...

Page 8: ...mpacity A 14 Fan motor F L A 0 52 Compressor Model SNB130FPDH Winding resistance at 68 F Ω 0 45 R L A 10 1 L R A 12 Refrigerant control Liner expansion valve Sound level 1 dB A 50 50 52 52 Defrost method 51 53 Dimensions W in 31 1 2 D in 11 1 4 H in 21 5 8 Weight Ib 88 External finish Munsell 3Y 7 8 1 1 Remote controller Wireless type Control voltage by built in transformer 12 24 VDC Refrigerant p...

Page 9: ...7 Fan motor F L A 0 93 Compressor Model SNB130FPDH SNB130FQBH Winding resistance at 68 F Ω 0 45 0 98 R L A 10 1 12 8 L R A 16 0 16 0 Refrigerant control Liner expansion valve Sound level 1 dB A 55 Defrost method Reverse cycle Dimensions W in 33 1 16 D in 13 H in 33 7 16 Weight Ib 128 117 External finish Munsell 3Y 7 8 1 1 Remote controller Wireless type Control voltage by built in transformer 12 2...

Page 10: ...rature Heating at minimum com pressor Speed 70 60 62 56 5 High temperature Heating at minimum com pressor Speed 70 60 47 43 Frost Accumulation at rated compressor Speed 70 60 35 33 Frost Accumulation at Intermediate com pressor Speed 5 70 60 35 33 5 At Intermediate compressor Speed Cooling rated compressor speed minimum compressor speed 3 minimum compressor speed OPERATING RANGE 1 POWER SUPPLY Rat...

Page 11: ...rain hole ø1 5 8 4 3 8 13 16 Oval hole REQUIRED SPACE Air in Liquid pipe 1 4 flared Gas pipe 3 8 flared MUZ A09 12NA 1 2 flared MUZ A15 17NA MUY A15 17NA 6 23 32 2 5 7 8 2 23 32 1 3 4 15 3 4 12 12 3 4 13 9 16 11 16 1 9 16 7 8 21 5 8 11 1 32 13 32 31 1 2 19 11 16 5 15 16 11 29 32 17 32 29 32 11 1 4 Air in handle Air in Air out 2 3 8 13 16 Oval hole Drain hole ø1 5 8 REQUIRED SPACE Basically open 4 ...

Page 12: ...12 MUZ A09NA MUZ A12NA MUZ A15NA MUZ A17NA 5 WIRING DIAGRAM ...

Page 13: ...13 MUY A15NA MUY A17NA ...

Page 14: ...14 MUZ A24NA MUZ A24NA U1 ...

Page 15: ...15 MUZ A24NA 1 MUZ A24NA U2 ...

Page 16: ...16 MUY A24NA ...

Page 17: ...17 MUY A24NA 1 ...

Page 18: ...18 MUZ GA24NA ...

Page 19: ...19 MUY GA24NA ...

Page 20: ...n valve Ambient temperature thermistor RT65 Muffler Muffler Muffler Outdoor heat exchanger Flared connection Defrost thermistor RT61 Discharge temperature thermistor RT62 Flared connection Stop valve with strainer Stop valve with service port Refrigerant flow in cooling Compressor 4 way valve Refrigerant flow in heating Refrigerant pipe ø3 8 with heat insulator Refrigerant pipe ø1 4 with heat insu...

Page 21: ...utdoor heat exchanger temperature thermistor RT68 Ambient temperature thermistor RT65 Strainer 100 O D 0 142 I D 0 094 1 31 32 ø3 6 ø2 4 50 MUY A24NA MUY GA24NA Outdoor heat exchanger Flared connection Discharge temperature thermistor RT62 Flared connection Stop valve Stop valve with service port Capillary tube Refrigerant flow in cooling Compressor Service port Service port 4 way valve Refrigeran...

Page 22: ...ng to the calculation Model Outdoor unit precharged Refrigerant piping length one way ft 25 30 40 50 60 65 MUZ A09NA MUZ A09NA U1 MUZ A12NA 2 lb 5 oz 0 1 62 4 86 8 10 11 34 12 96 MUZ A09NA 1 MUZ A09NA U2 2 lb MUZ A15NA MUY A15NA MUZ A17NA MUY A17NA 2 lb 7 oz Calculation X oz 1 62 5 oz ft Refrigerant piping length ft 25 Model Outdoor unit precharged Refrigerant piping length one way ft 25 30 40 50 ...

Page 23: ...5 1 56 15 0 9 8 1 69 14 0 9 1 1 79 12 8 8 3 1 88 63 16 4 12 8 1 35 15 2 11 9 1 50 14 1 11 0 1 61 12 8 10 0 1 72 11 7 9 2 1 79 MUY A17NA MUZ A17NA 71 19 8 10 3 1 84 18 5 9 6 2 02 17 4 9 0 2 17 16 2 8 4 2 29 14 9 7 7 2 38 67 18 8 12 2 1 74 17 5 11 4 1 91 16 2 10 5 2 07 15 1 9 8 2 19 13 9 9 0 2 30 63 17 7 13 8 1 66 16 4 12 8 1 83 15 2 11 9 1 98 13 9 10 8 2 11 12 6 9 9 2 19 MUY A24NA MUZ A24NA 71 27 0...

Page 24: ... 70 12 4 1 55 15 1 1 84 17 8 2 04 20 1 2 15 20 7 2 19 23 4 2 28 65 12 7 1 48 15 8 1 77 18 4 1 99 20 7 2 10 21 3 2 13 23 9 2 24 MUZ A24NA 75 13 5 1 75 16 8 2 06 20 1 2 29 22 6 2 41 23 3 2 44 26 4 2 54 70 14 3 1 69 17 4 2 01 20 5 2 23 23 2 2 35 23 9 2 40 27 0 2 49 65 14 6 1 62 18 2 1 94 21 2 2 17 23 9 2 29 24 6 2 33 27 6 2 44 MUZ GA24NA 75 10 2 1 26 13 5 1 59 16 8 1 87 20 1 2 09 22 6 2 19 23 3 2 23 ...

Page 25: ...3 Btu h 71 67 63 71 67 63 15 13 9 11 1 4 1 3 1 2 1 1 1 0 0 9 Indoor intake air WB temperature F Indoor intake air WB temperature F SHF at rating condition 0 70 318 CFM Airflow 65 75 85 95 105 115 Outdoor intake air DB temperature F Total power consumption kW Total capacity 10 3 Btu h 71 67 63 71 67 63 22 18 10 14 2 2 2 0 1 8 1 6 1 4 1 2 Indoor intake air WB temperature F Indoor intake air WB tempe...

Page 26: ...3 Btu h MUZ A15NA MUZ A17NA MUZ A24NA 10 12 14 16 18 20 22 24 26 28 30 32 65 70 75 75 70 65 568 CFM Airflow 15 5 25 35 45 55 Outdoor intake air WB temperature F Indoor intake air DB temperature F Total power consumption kW Total capacity 10 3 Btu h 1 0 1 2 1 4 1 6 1 8 2 0 2 2 2 4 Indoor intake air DB temperature F MUZ GA24NA This value of frequency is not the same as the actual frequency in operat...

Page 27: ...95 100 105 F 280 300 340 360 380 400 420 460 480 Indoor DB temperature F Outdoor ambient temperature 320 68 70 75 80 85 90 95 100 105 F 110 115 120 125 130 135 140 145 150 155 160 165 170 Suction pressure Outdoor ambient temperature Indoor DB temperature F PSIG 86 80 75 70 440 MUZ A15NA MUY A15NA 68 70 75 80 85 90 95 100 105 F 80 85 90 95 100 105 110 115 120 125 130 135 140 PSIG Condensing pressur...

Page 28: ...6 80 75 70 68 70 75 80 85 90 95 100 105 F 80 85 90 95 100 105 110 115 120 125 130 135 140 Suction pressure Outdoor ambient temperature Indoor DB temperature F PSIG 86 80 75 70 68 70 75 80 85 90 95 100 105 F 260 300 340 380 420 460 500 540 580 Indoor DB temperature F Outdoor ambient temperature MUZ GA24NA MUY GA24NA PSIG Condensing pressure 86 80 75 70 86 80 75 70 68 70 75 80 85 90 95 100 105 F 260...

Page 29: ... Condensing pressure Outdoor ambient temperature 14 20 25 30 35 40 45 50 55 60 65 70 F 340 320 300 280 260 240 360 380 400 440 420 460 480 Indoor DB temperature F 75 70 65 Suction pressure Outdoor ambient temperature 14 20 25 30 35 40 45 50 55 58Hz 58Hz 60 65 70 F 70 60 80 90 100 110 120 130 140 150 160 170 Indoor DB temperature F MUZ A09NA MUZ A09NA U1 MUZ A09NA 1 MUZ A09NA U2 75 70 60 PSIG PSIG ...

Page 30: ... 20 25 30 35 40 45 50 55 60 65 70 F 280 260 240 220 200 300 320 340 380 360 400 420 440 460 Indoor DB temperature F 75 70 65 Suction pressure Outdoor ambient temperature 14 20 25 30 35 40 45 50 55 58Hz 60 65 70 F 70 60 50 80 90 100 110 120 130 140 150 160 Indoor DB temperature F 58Hz MUZ A15NA 75 70 65 PSIG PSIG Condensing pressure Outdoor ambient temperature 14 20 25 30 35 40 45 50 55 60 65 70 F ...

Page 31: ... 340 360 380 75 70 65 PSIG Outdoor ambient temperature 15 5 20 10 25 30 35 40 45 50 55 60 65 70 F 58Hz Indoor DB temperature F 40 50 60 70 80 90 100 110 120 130 140 150 160 170 75 70 65 58Hz Indoor DB temperature F Outdoor ambient temperature 15 20 10 5 25 30 35 40 45 50 55 60 65 70 F ...

Page 32: ...8 4 59 5 03 4 54 Fan motor current A 0 37 0 34 0 33 0 30 0 37 0 34 Refrigerant circuit Condensing pressure PSIG 363 368 393 372 395 393 Suction pressure PSIG 144 109 144 102 124 103 Discharge temperature F 145 153 155 165 169 164 Condensing temperature F 107 108 113 109 112 113 Suction temperature F 55 37 56 38 54 35 Comp shell bottom temp F 140 147 149 159 163 158 Ref pipe length ft 25 25 Refrige...

Page 33: ...2 120 Comp current A 7 56 6 84 8 14 7 36 9 43 8 52 9 93 8 98 Fan motor current A 0 42 0 38 0 42 0 38 Refrigerant circuit Condensing pressure PSIG 425 458 442 493 Suction pressure PSIG 115 95 106 92 Discharge temperature F 182 180 189 194 Condensing temperature F 117 125 120 130 Suction temperature F 47 30 40 28 Comp shell bottom temp F 161 153 167 167 Ref pipe length ft 25 25 Refrigerant charge R4...

Page 34: ...447 2 087 Comp current A 12 81 11 59 11 10 10 04 10 82 9 78 9 32 8 43 Fan motor current A 0 80 0 72 0 80 0 72 0 64 0 59 Refrigerant circuit Condensing pressure PSIG 447 401 413 375 Suction pressure PSIG 107 92 130 103 Discharge temperature F 181 170 168 173 Condensing temperature F 121 115 119 112 Suction temperature F 37 29 43 31 Comp shell bottom temp F 161 148 160 164 Ref pipe length ft 25 Refr...

Page 35: ...150 Hz 0 0 0 5 1 0 1 5 0 50 100 150 Hz 0 0 0 5 1 0 1 5 0 50 100 150 Hz 0 0 0 5 1 0 1 5 2 0 0 50 100 150 Hz 0 0 0 5 1 0 1 5 2 0 Capacity correction factors Input correction factors Input correction factors Capacity correction factors Correction of Cooling capacity The operational frequency of compressor Correction of Cooling total input The operational frequency of compressor Correction of Heating ...

Page 36: ...0 50 100 150 0 0 0 5 1 0 1 5 Hz 0 50 100 150 0 0 0 5 1 0 1 5 Hz 0 50 100 150 0 0 0 5 1 0 1 5 Hz Capacity correction factors Input correction factors Input correction factors Capacity correction factors Correction of Cooling capacity The operational frequency of compressor Correction of Cooling total input The operational frequency of compressor Correction of Heating total input The operational fre...

Page 37: ...pressor has stopped running MUZ A09 12 15 17 MUY A15 17 Sensor Purpose Actuator Compressor LEV Outdoor fan motor R V coil Indoor fan motor Discharge temperature thermistor Protection Indoor coil temperature thermistor Cooling Coil frost prevention Heating High pressure protection Defrost thermistor Cooling High pressure protection Heating Defrosting Fin temperature thermistor Protection Ambient te...

Page 38: ...rol P C board 3 When removing the electrical parts be careful of the residual voltage of smoothing capacitor 4 When removing the electronic control P C board hold the edge of the board with care NOT to apply stress on the components 5 When connecting or disconnecting the connectors hold the housing of the connector DO NOT pull the lead wires Lead wiring Housing point 3 Troubleshooting procedure 1 ...

Page 39: ...operation display section of the remote controller is displayed after 3 seconds Press OPERATE STOP ON OFF button of the remote controller the set temperature is displayed with the remote controller headed towards the indoor unit 1 Judgment of indoor outdoor abnormality Before blinking does the left lamp of OPERATION INDICA TOR lamp stay ON for 3 seconds Stays ON for 3 seconds without beep The outd...

Page 40: ...ON again Press RESET button of the remote controller Repair the defective parts The outdoor unit is normal Release the failure mode recall function accord ing to the left mentioned procedure Deleting the memorized abnormal condition After repairing the unit recall the failure mode again according to Setting up the failure mode recall function 10 2 1 Press OPERATE STOP ON OFF button of the remote c...

Page 41: ...tor temperature exceeds 158 F 70 C in HEAT mode MUZ Defrost thermistor exceeds 158 F 70 C in COOL mode Check refrigerant circuit and refrigerant amount Check stop valve 7 time flash 2 5 seconds OFF Fin temperature P C board temperature 7 time flash 2 5 seconds OFF Temperature of fin temperature thermistor on the inverter P C board exceeds 180 F 82 C 09 12 188 F 86 5 C 15 17 or temperature of P C b...

Page 42: ...ssage Refer to 10 5 Check of outdoor fan motor P C board temperature 4 times Goes out The P C board temperature exceeds 158 F 70 C during operation 8 time flash Outdoor fan motor Lighting Lighting Failure occurs continuously three times within 30 seconds after the fan gets started Refer to 10 5 Check of outdoor fan motor 9 time flash Nonvolatile memory data Lighting 5 times Nonvolatile memory data...

Page 43: ... 10 time flash 2 5 seconds OFF Outdoor fan motor Outdoor fan has stopped 3 times in a row within 30 seconds after outdoor fan start up Refer to 10 5 Check of outdoor fan motor Refer to 10 5 Check of inverter P C board 12 12 timeflash 2 5 seconds OFF Each phase current of compressor Each phase current of compressor cannot be detected nor mally Refer to 10 5 How to check inverter compressor 13 13 ti...

Page 44: ...0 5 How to check in verter compressor Check the stop valve Check the power module PAM module Lock protection Overcurrent is detected within 30 minutes of compressor start up 11 3 times Goes out Discharge tempera ture protection Discharge temperature exceeds 241 F 116 C during opera tion and compressor stops Compressor can restart if discharge temperature thermistor reads 212 F 100 C or less 3 minu...

Page 45: ...ction The discharge temperature exceeds 212 F 100 C during op eration Check refrigerant circuit and refrig erant amount Refer to 10 5 Check of LEV Refer to 10 5 Check of outdoor thermistors 23 4 times Lighting Low discharge tem perature protection The frequency of the compressor is kept 80 Hz or more and the discharge temperature is kept under 102 F 39 C for more than 20 minutes Refer to 10 5 Chec...

Page 46: ...o warm it up Refer to 10 6 Test point diagram and voltage 1 Inverter P C board and 3 Outdoor electronic control P C board for the chart of thermistor Compressor MC Measure the resistance between the terminals with a tester Temperature 14 104 F Normal A09 12 A15 17 24 GA24 U V U W V W 0 43 0 53 Ω 0 39 0 49 Ω 0 86 1 06 Ω Outdoor fan motor MF Measure the resistance between the terminals with a tester...

Page 47: ...ter turning on the power supply start EMERGENCY OPERATION After the outdoor fan starts running wait for 1 minute or more before measur ing the voltage Output voltage is 50 130 V The voltage may differ according to the tester Is output balanced Yes No Is the input voltage to the outdoor electronic control P C board 370 V or more Yes No Replace the power board Turn off power supply of indoor and out...

Page 48: ...g the balance of voltage between the terminals Output voltage is 50 130 V The voltage may differ according to the tester Operation method Start cooling or heating operation by pressing EMERGENCY OPERATION switch on the indoor unit TEST RUN OPERATION Refer to 7 7 Measurement point at 3 points BLK U WHT V BLK U RED W WHT V RED W NOTE 1 Output voltage varies according to power supply voltage 2 Measur...

Page 49: ...rd Discharge temperature RT62 Between CN661 pin 3 and pin 4 Outdoor heat exchanger temperature RT68 Between CN661 pin 7 and pin 8 Ambient temperature RT65 Between CN663 pin 1 and pin 2 Fin temperature RT64 Between CN3 pin 1 and pin 2 Outdoor power board Replace the thermistor except RT64 When RT64 is abnormal replace the inverter P C board or the outdoor power board Replace the inverter P C board ...

Page 50: ...tted to R V coil Check if CN721 is connected Is there 208 230 VAC between CN721 and on the power P C board 3 minutes after the power supply is turned ON No Yes Replace the 4 way valve Unit operates COOL mode even if it is set to HEAT mode Is there 208 230 VAC between CN721 and on the power P C board 3 minutes after the power supply is turned ON Yes No Replace the 4 way valve Unit operates HEAT mod...

Page 51: ...coil No Replace the R V coil Replace the 4 way valve Replace the noise filter P C board Yes Replace the electronic control P C board Cooling operation does not work Is there voltage of 208 230 VAC between pin1 and pin 2 at connector CN912 Disconnect the lead wire leading to the compressor 3 minutes after turning on the power supply start EMERGENCY OPERATION in COOL mode 1 2 Turn OFF power supply o...

Page 52: ...hly Check the inverter P C board Refer to 10 5 Replace the outdoor fan motor Fixed to either 5 or 0 VDC No No Is the resistance between each ter minal of outdoor fan motor normal Refer to 10 4 Check the connection between the connector CN931 and CN932 Disconnect CN932 from outdoor electronic control P C board and turn on the power supply Rotate the outdoor fan motor manually and measure the voltag...

Page 53: ... 1 No Check the electric parts in main circuit Yes Yes No Disconnect the connector CN61 between compressor and intelligent power module Turn ON power supply and press EMERGENCY OPERATION switch Inverter P C board Solder side DB61 280 370 VDC Is there voltage of 208 230 VAC in the power supply terminal block Check the connecting of parts of main power supply circuit Check the power supply cable Tur...

Page 54: ...nverter P C board or the compressor Replace the power P C board Replace the power P C board Yes Yes No No When the current limiting resistor is open the rush current limiting relay X64 may not work properly Replace the noise filter P C board or the outdoor electronic control P C board Does LED on the outdoor electronic P C board light up Does the rush current limiting relay X64 work properly Norma...

Page 55: ...ansion valve Replace the inverter P C board Replace the LEV coil Replace the expansion valve Is LEV coil properly fixed to the expansion valve Does the resistance of LEV coil have the characteristics Refer to 10 4 Do you hear the expansion valve click click Do you feel the expansion valve vibrate on touching it Turn ON the power supply Preparation of the remote controller While pressing both OPERA...

Page 56: ...nnectors CN931 CN932 of outdoor fan motor If the connection is poor correct it Operate the outdoor unit by starting EMERGENCY OPERATION Check the LED indication on the in verter P C board Does the LED flash 10 time Replace the inverter P C board Check the corresponding parts following LED indication Refer to 10 3 Yes No Yes 10 time flash No Inverter P C board Solder side CN932 CN931 ...

Page 57: ...rn ON the power supply Does the LED on the inverter P C board or the outdoor electronic control P C board repeat 3 6 second OFF and 0 8 second ON quick blinking 3 Yes No Lighted or not lighted Replace the inverter P C board or the outdoor electronic control P C board 2 2 Be careful of the residual voltage of smoothing capacitor Turn OFF the power supply Remove the short circuit between outdoor ter...

Page 58: ...ength or the installation condition combination of specific conditions such as antennas or wiring Check the followings before asking for service 1 Devices affected by the electromagnetic noise TV sets radios FM AM broadcast shortwave 2 Channel frequency broadcast station affected by the electromagnetic noise 3 Channel frequency broadcast station unaffected by the electromagnetic noise 4 Layout of ...

Page 59: ...lace the outdoor elec tronic control P C board Turn OFF power supply before removing P C board Confirm LED1 indication lamp on the outdoor electronic con trol P C board Turn ON power supply Start operation Blink 6 times Replace the outdoor elec tronic control P C board Lighting Replace the outdoor elec tronic control P C board Blink 9 times Replace the power board Confirm LED1 indication lamp on t...

Page 60: ...n temperature thermistor RT64 CN642 Ambient temperature thermistor RT65 CN643 Discharge temperature thermistor RT62 CN641 Defrost thermistor RT61 CN641 LEV connector CN724 208 230V AC DB61 Connecting wire with power P C board CN725 Jumper wire for change in defrost setting JS Front side of unit DB61 280V 370V DC Smoothing capacitor C63C Smoothing capacitor C63A Smoothing capacitor C63B Rotational ...

Page 61: ...08 230 VAC Back side of unit MUZ A09NA MUZ A12NA MUZ A15NA MUZ A17NA MUY A15NA MUY A17NA Front side of unit Connecting wire with inverter P C board CN726 208 230 VAC Varistor NR63 Varistor NR62 Varistor NR64 2 Power P C board ...

Page 62: ...nput CN932 20 90 VAC GND 5V 5 VDC pulse wave To fan motor Defrost thermistor RT61 MUZ Discharge temperature thermistor RT62 Outdoor heat exchanger temperature thermistor RT68 Rush current relay R V coil 1 2V DC 15V 15V CN931 CN661 CN701 Signal transmission To power board 5 VDC pulse wave GND CN702 Signal reception From power board 5 VDC pulse wave GND power board CN781 CN795 12 VDC pulse wave LEV ...

Page 63: ...0Hz Input 208 230 VAC 60Hz Output CN901 To electronic control P C board MUZ A24NA MUY A24NA MUZ GA24NA MUY GA24NA F64 FUSE 2 A 250 V F911 FUSE MUZ 1 A 250 V 4 Noise filter P C board CN902 To power board CN903 To power board 208 230 VAC 60Hz Output NR64 VARISTOR ...

Page 64: ... reception From electronic control P C board 5 V DC pulse wave CN3 Fin temperature thermistor RT64 1 3 294 370 VDC Output Connect to the compressor Voltage among phases 5 to 180 V Connect to the ground CN5 Primary current detection Connect to the noise filter CN2 Connect to the controller board 1 5 Signal transmission To electronic control P C board 5 V DC pulse wave 2 5 Zero cross signal 3 4 Not ...

Page 65: ...e sleeve and check if there is a locking lever or not 2 The terminal with this connector has the locking mechanism Slide the sleeve Pull the terminal while pushing the locking lever Hold the sleeve and pull out the terminal slowly Connector Sleeve Locking lever DISASSEMBLY INSTRUCTIONS 11 Terminal with locking mechanism Detaching points The terminal which has the locking mechanism can be detached ...

Page 66: ...rew fixing the power P C board Photo 4 10 Disconnect all connectors and lead wires on the power P C board 11 Remove the power P C board from the inverter assembly Photo 3 Photo 4 Photo 5 3 Removing R V coil MUZ 1 Remove the top panel cabinet and service panel Refer to 1 2 Disconnect the power supply and indoor outdoor con necting wire and remove the back panel Refer to 1 3 Remove the inverter asse...

Page 67: ...r and 4 way valve 1 Remove the top panel cabinet and service panel Refer to 1 2 Disconnect the power supply and indoor outdoor con necting wire and remove the back panel Refer to 1 3 Remove the inverter assembly Refer to 2 4 Recover gas from the refrigerant circuit NOTE Recover gas from the pipes until the pressure gauge shows 0 PSIG 5 Detach the welded part of the suction and the dis charge pipe ...

Page 68: ...emove the top panel 6 Remove the valve cover 7 Remove the screws of the cabinet 8 Remove the cabinet 9 Remove the screws of the back panel 10 Remove the back panel Photo 3 Photo 1 Photo 2 Screws of the cabinet Screw of the top panel Screws of the cabinet Screws of the cabinet Screw of the service panel Screws of the top panel Screw of the valve cover Screw of the motor support Conduit plate Screws...

Page 69: ...e the inverter assembly 7 Disconnect all connectors and lead wires on the elec tronic control P C board 8 Remove the electronic control P C board from the inverter assembly 9 Remove the screws fixing the power board assembly 10 Disconnect all connectors and lead wires on the power board 11 Remove the power board from the inverter assembly 12 Disconnect all connectors and lead wires on the noise fi...

Page 70: ...om its holder Photo 5 6 Pull out the outdoor heat exchanger temperature ther mistor from its holder Photo 6 7 Pull out the ambient temperature thermistor from its holder Photo 6 Photo 5 Photo 6 5 Removing outdoor fan motor 1 Remove the top panel cabinet and service panel Refer to 1 2 Remove the back panel Refer to 1 3 Remove the inverter assembly Refer to 2 4 Remove the propeller 5 Remove the scre...

Page 71: ...SIG 5 Detach the welded part of the suction and the dis charge pipe connected with compressor Photo 9 6 Remove the compressor nuts 7 Remove the compressor 8 Detach the welded part of 4 way valve and pipe Photo 8 Photo 8 Photo 9 7 Removing the reactor 1 Remove the top panel Refer to 1 2 Disconnect the reactor lead wire 3 Remove the screws of the reactor and remove the reactor Photo 10 Screws of the...

Page 72: ... PARTS LIST non RoHS compliant 1 2 15 17 12 10 11 MUZ A09NA MUZ A12NA MUZ A15NA MUZ A17NA MUY A15NA MUY A17NA 1 OUTDOOR UNIT STRUCTURAL PARTS AND FUNCTIONAL PARTS 3 4 5 6 7 8 16 14 18 19 9 13 20 PARTS LIST 12 ...

Page 73: ...1 STOP VALVE GAS 1 1 E02 A56 661 1 1 1 1 8 E02 927 662 STOP VALVE LIQUID 1 1 1 1 1 1 9 E02 A49 245 SERVICE PANEL 1 1 1 1 1 1 10 E02 A54 233 BACK PANEL 1 1 1 1 1 1 11 E02 A54 640 EXPANSION VALVE 1 1 1 1 1 1 12 E02 927 493 EXPANSION VALVE COIL LEV 1 1 1 1 1 1 13 E02 A56 961 4 WAY VALVE 1 1 1 1 E02 A54 961 1 1 14 E02 929 523 CONDENSER NET 1 1 1 1 1 1 15 E02 A54 293 SEPARATOR 1 1 1 1 1 1 16 E02 929 51...

Page 74: ...74 8 1 4 MUZ A09NA MUZ A12NA MUZ A15NA MUZ A17NA MUY A15NA MUY A17NA 2 OUTDOOR UNIT ELECTRICAL PARTS 2 3 5 6 7 ...

Page 75: ...ER P C BOARD 1 1 1 1 1 1 3 E02 A54 490 R V COIL 21S4 1 1 1 1 4 E02 927 306 THERMISTOR SET RT61 RT62 1 1 1 1 1 1 DEFROST DISCHARGE 5 E02 927 308 AMBIENT TEMPERATURE THERMISTOR RT65 1 1 1 1 1 1 6 E02 A54 374 TERMINAL BLOCK TB1 1 1 1 1 1 1 2 P 7 E02 A55 374 TERMINAL BLOCK TB2 1 1 1 1 1 1 3 P 8 E02 A54 451 INVERTER P C BOARD 1 Including heat sink and RT64 E02 A55 451 1 E02 A56 451 1 1 E02 A57 451 1 1 ...

Page 76: ...76 4 18 1 12 8 10 2 5 7 6 16 14 19 20 21 22 23 28 29 30 3 MUZ A24NA MUY A24NA 3 OUTDOOR UNIT STRUCTURAL PARTS ELECTRICAL PARTS AND FUNCTIONAL PARTS 9 15 17 27 26 25 24 11 13 ...

Page 77: ...ORT 2 2 1 PC SET 14 E02 851 493 EXPANSION VALVE COIL LEV 1 1 15 E02 851 640 EXPANSION VALVE 1 1 16 E02 A58 490 R V COIL 21S4 1 17 E02 A56 961 4 WAY VALVE 1 1 18 E02 819 650 VALVE COVER 1 1 19 E02 819 245 SERVICE PANEL 1 1 20 E02 935 374 TERMINAL BLOCK TB2 1 1 3 P 21 E02 A53 374 TERMINAL BLOCK TB1 1 1 2 P 22 E02 851 337 REACTOR L 1 1 23 E02 A58 444 NOISE FILTER P C BOARD 1 E02 A53 444 1 24 E02 935 ...

Page 78: ...78 12 2 RoHS PARTS LIST RoHS compliant 1 2 15 17 12 10 11 MUZ A09NA MUZ A12NA MUZ A15NA MUZ A17NA MUY A15NA MUY A17NA 1 OUTDOOR UNIT STRUCTURAL PARTS AND FUNCTIONAL PARTS 3 4 5 6 7 8 16 14 18 19 9 13 20 ...

Page 79: ... 1 1 1 1 1 1 ø1 4 9 G E12 A49 245 SERVICE PANEL 1 1 1 1 1 1 1 1 1 1 1 1 10 G E12 A54 233 BACK PANEL 1 1 1 1 1 1 1 1 1 1 1 1 11 G E12 A54 640 EXPANSION VALVE 1 1 1 1 1 1 1 1 1 1 1 1 12 G E12 927 493 EXPANSION VALVE COIL LEV 1 1 1 1 1 1 1 1 1 1 1 1 13 G E12 A56 961 4 WAY VALVE 1 1 1 1 1 1 G E12 A54 961 1 1 1 1 1 1 14 G E12 929 523 CONDENSER NET 1 1 1 1 1 1 1 1 1 1 G E12 838 523 1 1 15 G E12 A54 293 ...

Page 80: ...80 8 1 4 MUZ A09NA MUZ A12NA MUZ A15NA MUZ A17NA MUY A15NA MUY A17NA 2 OUTDOOR UNIT ELECTRICAL PARTS 2 3 5 6 7 ...

Page 81: ...1 1 1 1 1 1 4 G E12 927 306 THERMISTOR SET RT61 RT62 1 1 1 1 1 1 1 1 1 1 1 1 DEFROST DISCHARGE 5 G E12 927 308 AMBIENT TEMPERATURE THERMISTOR RT65 1 1 1 1 1 1 1 1 1 1 1 1 6 G E12 A54 374 TERMINAL BLOCK TB1 1 1 1 1 1 1 1 1 1 1 1 1 2 P 7 G E12 A55 374 TERMINAL BLOCK TB2 1 1 1 1 1 1 1 1 1 1 1 1 3 P 8 G E12 A54 451 INVERTER P C BOARD 1 Including heat sink and RT64 G E12 B49 451 1 G E12 A55 451 1 G E12...

Page 82: ...82 4 18 1 12 8 10 2 5 7 6 16 14 19 20 21 22 23 28 29 30 3 MUZ A24NA MUY A24NA MUZ GA24NA MUY GA24NA 3 OUTDOOR UNIT STRUCTURAL PARTS ELECTRICAL PARTS AND FUNCTIONAL PARTS 9 15 17 27 26 25 24 11 13 ...

Page 83: ...N VALVE COIL LEV 1 1 1 1 1 1 1 1 1 15 G E12 851 640 EXPANSION VALVE 1 1 1 1 1 1 1 1 1 16 G E12 A58 490 R V COIL 21S4 1 1 1 1 1 1 17 G E12 A56 961 4 WAY VALVE 1 1 1 1 1 1 1 1 1 18 G E12 819 650 VALVE COVER 1 1 1 1 1 1 1 1 1 19 G E12 819 245 SERVICE PANEL 1 1 1 1 1 1 G E12 D20 245 1 1 1 20 G E12 935 374 TERMINAL BLOCK TB2 1 1 1 1 1 1 1 1 1 3 P 21 G E12 A53 374 TERMINAL BLOCK TB1 1 1 1 1 1 1 1 1 1 2 ...

Page 84: ...t 2006 MITSUBISHI ELECTRIC CO LTD Distributed in Mar 2009 No OB451 REVISED EDITION E 4 Distributed in May 2008 No OB451 REVISED EDITION D 6 Distributed in Nov 2007 No OB451 REVISED EDITION C 7 Distributed in Feb 2007 No OB451 REVISED EDITION B 7 Distributed in Sep 2006 No OB451 REVISED EDITION A 7 Distributed in Apr 2006 No OB451 7 Made in Japan New publication effective Mar 2009 Specifications su...

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