Mitsubishi Electronics P500YMF-C manuals
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When we buy new device such as Mitsubishi Electronics P500YMF-C we often through away most of the documentation but the warranty.
Very often issues with Mitsubishi Electronics P500YMF-C begin only after the warranty period ends and you may want to find how to repair it or just do some service work.
Even oftener it is hard to remember what does each function in Air Conditioner Mitsubishi Electronics P500YMF-C is responsible for and what options to choose for expected result.
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Mitsubishi Electronics P500YMF-C Specifications
148 pages 3.06 Mb
Service Handbook3 Contents4 Safety precautionsBefore installation and electric work Symbols used in the text Symbols used in the illustrations 5 1111 1PRECAUTIONS FOR DEVICES THAT USE R407C REFRIGERANT 11 2222 2COMPONENT OF EQUIPMENT[1] Appearance of Components [2] Refrigerant Circuit Diagram and Thermal Sensor PURY-P400, 500YMF-C 19 *20 CMB-P108, 1010, 1013, 1016V-FA21 CMB-P108V-FB21CMB-P1081010V-FA1 2 3 1 2 3 SVM1 SVM2 EARTHTB01 LEV1 220~240V 22V TB02 TR CN12 CN02 CN38 CONT.board ~220V~240V 50/60HzCN36 CN46 SV4A SV3A SV2A SV2C SV7B SV8B SV9B SV10B Symbol explanation 23 <Note1:TB02 is terminal block for transmission. Transformer Thermistor sensor Expansion valve Pressure sensor TB01 TB02 >X14 SV7A SV8A SV9A SV10A SV7C SV8C SV9C SV10CSV1B SV1A SV1C SV2B SV3C SV3B SV4C SV4B SV5B SV5A SV5C SV6B SV6A SV6C Power source Transmission line Shield wire DC 30VLEV3 LEV1 CNP1 CNP3 CN03 CN13 CN10 CN11 CN07 CN05 TH11 TH12 TH15 TH16 PS1 PS3 M2 M1 CN26 CN27 CN28 CN29 CN30 CN31 TB01 CN35 CN32 CN33 CN34CN39X36 X37 X15 X16 X38 X39 X19 X20 CN52CN53 F01 250VAC 6.3A F T8T9 T7 T10 T1 T5 T4 T3 T2 T6PE Fuse AC250V 6.3A F F01 Terminal T1 ~ 10 SVM1, 2 Solenoid valve Terminal block (for Transmission) Terminal block (for power source) NameSymbol SV1 ~ 10A SV1 ~ 10B SV1 ~ 10C TR TH11, 12, 15, 16 LEV1, 3 PS1, 3Never connect power line to it. 22SVM2 Never connect power line to it. Symbol explanation 24 <Symbol SV1 ~ 16A SVM1, 2 T1 ~ 16 Solenoid valve T3 T4 T16 EARTHPE CONT.board CNVCC2 CN43 CNOUT4 CNVCC1 CN13 CN10 CN11 CN32TH11 TH12 TH15 PS3 M1 CN27 CN28 CN29 CN30 CN31 220~240V CNTR SV4A SV3A SV2A SV2C SV12A SV13A SV14A SV15A SV16A ~220V~240V 50/60Hz CMB-P10131016V-FAPower sourceN L TB01TB01 SVM1 SV11B SV11A SV11C SV16C SV16B SV15C SV15B SV14C SV14B SV13C SV13B SV12C SV12B SV7B SV8B SV9B SV10B SV7A SV8A SV9A SV10A SV7C SV8C SV9C SV10CSV1B SV1A SV1C SV2B SV3C SV3B SV4C SV4B SV5B SV5A SV5C SV6B SV6A SV6C CN36 CN46 Transmission line Shield wireCN35CN26 CN38 M2 TB02 TR 22V PS1 TH16 CN33 CN34CN05CN07 CN02 CN03 CNP3 CNP1 LEV1LEV3 DC 30VX36 X37 X15 X16 X38 X17 X18 CN40 CN41 CNOUT2 CN42 CN44 CN45 CNOUT1 CNOUT3 CN12 CN39 RELAY10 board F01 250VAC 6.3A F T15 T14 T13 T12 T11 T8T9 T7 T10 T1 T5 T2 T63 2 1 Terminal PS1, 3SV1 ~ 16B SV1 ~ 16C Fuse AC250V 6.3A FF01 Pressure sensor Terminal block (for power source) Terminal block (for Transmission) TB01 TB02 >Transformer Thermistor sensor Expansion valve TR LEV1, 3 TH11, 12, 15, 16Note1:TB02 is terminal block for transmission. 23CMB-P108V-FBSV7B SV8B Symbol explanation 25 <Note1:TB02 is terminal block for transmission. Thermistor sensor Expansion valve TB01 TB02 EARTH T3 T4 >X14 TB01 220~240V 22V TB02 TR CN12 CN02 CN38 CONT.board ~220V~240V 50/60HzSV4A SV3A SV2A SV2C SV7A SV8A SV7C SV8CSV1B SV1A SV1C SV2B SV3C SV3B SV4C SV4B SV5B SV5A SV5C SV6B SV6A SV6C Power source Transmission line Shield wire DC 30VLEV3 CN03 CN13 CN10 CN11 CN07 TH12 TH15 M2 M1 CN26 CN27 CN28 CN29 CN30 CN31 TB01 RELAY4 Board CN32 CN33 F01 250VAC 6.3A F T8 T7 T1 T5 T2 T6Terminal T1 ~ 8 Terminal block (for Transmission) Terminal block (for power source) TransformerName SymbolSV1 ~ 8A SV1 ~ 8B SV1 ~ 8C TR TH12, 15LEV3Never connect power line to it. 24 26 [4] Standard Operation Data1 Cooling operation 27 252 Heating operation 26 28 [5] Function of Dip SW and Rotary SW(1) Outdoor unit PURY-P400500YMF-C. 1Variable capacity unit MAIN board 29 27(2) Indoor unit DIP SW1, 3 Model P71 P80 P100 P125 P140 P200 P250 Capacity (model name) code 14 16 20 25 28 40 50 SW2 setting Model P20 P25 P32 P40 P50 P63 Capacity (model name) code 45681013 SW2 setting 28 Setting of DIP SW4 Setting of DIP SW5 Model Circuit board used SW4 Switch Function Operation by switch Switch set timing 30 220V 240V 31 3333 3TEST RUN 36 4GROUPING REGISTRATION OF INDOOR UNITS WITH M-NET REMOTE CONTROLLER 41 * 42 5555 5CONTROL[1] Control of Outdoor Unit [1]- 1 PURY-P400500 YMF-C47 TH9Four-way valveIndoor heat Outdoor heat exchanger Separate compressor Accumulator CS circuit TH2 LPS Heat exchangerexchanger Flow control valve 48 Start of initial operation modeInitial operation mode is finished. Step 1 Pause Step Step 2 Step 3 62 6666 6REFRIGERANT AMOUNT ADJUSTMENT[1] Operating Characteristics and Refrigerant Amount [2] Adjustment and Judgement of Refrigerant Amount 64 [3] Refrigerant Volume Adjustment Mode Operation65 63(2) Refrigerant adjustment in Cooling season (Flow chart) In case of PURY-P400, 500YMF-CYES NO Adjustment starts. Adjustment completed. 66 64(3) Refrigerant adjustment in heating season (Flow chart) In case of PURY-P400, 500YMF-C 68 7777 7TROUBLESHOOTING[1] Principal Parts75 7376 7477 751 10~50 2 10~50 3 10~50 110~50 210~50 310~50 1 2 3 +Tester Tester -+ Tester - Tester + 78 76(2) Trouble and remedy of remote controller (In the case of MA remote controller) Check method and handling 79 77Check method and handling *1 As for transformer checks, It is subject to the failure judgment method of main parts in 4.5. 80 7881 79(In the case of M-NET remote controller) 82 80Checking method & countermeasure In case MELANS is not used 83 8184 8285 8386 84Check for earthing Checking for wiring method 87 8588 8689 8790 88A1A2 1/L1 3/L2 5/L3 2/T1 4/T2 6/T3 91 IPM118 UW
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