Daikin RXS60F2V1B Сервис мануал онлайн
[Applied Models]
z Inverter Pair : Cooling Only
z Inverter Pair : Heat Pump
SiBE06 - 708
Inverter Pair
Floor Standing Type F-Series
Содержание
- Floor standing type f series 1
- Inverter pair 1
- Sibe06 708 1
- Cooling only indoor unit 2
- Heat pump indoor unit 2
- Inverter pair f series 2
- Outdoor unit 2
- Table of contents 2
- Function of thermistor 1 3 control specification 2 3
- Introduction v 3
- List of functions 3
- Main functions 0 3
- Part 1 list of functions 3
- Part 2 specifications 3
- Part 3 printed circuit board connector wiring diagram 1 3
- Part 4 function and control 9 3
- Printed circuit board connector wiring diagram 2 3
- Specifications 3
- Caution for diagnosis 2 2 problem symptoms and measures 3 3 service check function 4 4 troubleshooting 7 4
- Check 36 4
- Part 5 system configuration 1 4
- Part 6 service diagnosis 1 4
- System configuration 2 2 instruction 3 4
- Drawings flow charts v 5
- Index i 5
- Indoor unit 48 5
- Others 88 5
- Outdoor unit 50 class 65 5
- Part 7 removal procedure 47 5
- Part 8 others 87 5
- Part 9 appendix 91 5
- Piping diagrams 92 5
- Wiring diagrams 95 5
- Cautions regarding safety of workers 6
- Introduction 6
- Safety cautions 6
- Warning 6
- Caution 7
- Warning 7
- Cautions regarding safety of users 8
- Warning 8
- Caution 9
- Warning 9
- Caution 10
- Icons are used to attract the attention of the reader to specific information the meaning of each icon is described in the table below 10
- Used icons 10
- List of functions 12
- Part 1 list of functions 12
- Holding functions no functions 13
- List of functions 13
- List of functions sibe06 708 13
- Holding functions no functions 14
- List of functions 3 14
- Sibe06 708 list of functions 14
- Part 2 specifications 16
- Specifications 16
- Cooling only 17
- Hz 220 230 240v 17
- Specifications 17
- Specifications sibe06 708 17
- Hz 220 230 240v 18
- Sibe06 708 specifications 18
- Specifications 7 18
- Heat pump 19
- Hz 220 230 240v 19
- Specifications 19
- Specifications sibe06 708 19
- Hz 220 230 240v 20
- Sibe06 708 specifications 20
- Specifications 9 20
- Part 3 printed circuit board connector wiring diagram 22
- Printed circuit board connector wiring diagram 2 22
- Indoor unit 23
- Printed circuit board connector wiring diagram 23
- Pcb 2 control pcb 24
- Pcb 3 service pcb pcb 4 display pcb 24
- Pcb detail pcb 1 sensor pcb 24
- Printed circuit board connector wiring diagram 13 24
- Sibe06 708 printed circuit board connector wiring diagram 24
- Outdoor unit 25
- Rk x s 25 35 f 25
- Pcb 2 control pcb outdoor unit 26
- Pcb detail pcb 1 filter pcb 26
- Printed circuit board connector wiring diagram 15 26
- Sibe06 708 printed circuit board connector wiring diagram 26
- Rk x s 50 f 27
- Pcb 2 service monitor pcb 28
- Pcb detail pcb 1 main pcb outdoor unit 28
- Printed circuit board connector wiring diagram 17 28
- Sibe06 708 printed circuit board connector wiring diagram 28
- Function of thermistor 1 3 control specification 2 30
- Main functions 0 30
- Part 4 function and control 30
- Additional control parameters 31
- Drawing of inverter the following drawing shows a schematic view of the inverter principle 31
- Forced cooling operation 31
- Frequency principle 31
- Frequency restrictions 31
- Initial settings 31
- Inverter principle to regulate the capacity a frequency control is needed the inverter makes it possible to vary the rotation speed of the compressor the following table explains the conversion principle 31
- Main control parameters the compressor is frequency controlled during normal operation the target frequency is set by the following 2 parameters coming from the operating indoor unit 31
- Main functions 31
- Note see the list of functions for the functions applicable to different models 31
- The difference between the room temperature and the set temperature 31
- The load condition of the operating indoor unit 31
- The target frequency is adapted by additional parameters in the following cases 31
- Comfortable air conditioning a detailed adjustment is integrated to ensure a fixed room temperature it is possible to air condition with a small room temperature variation 32
- Energy saving heating and cooling once the set temperature is reached the energy saving operation enables to maintain the room temperature at low power 32
- Even during extreme cold weather the high capacity is achieved it is maintained even when the outside temperature is 2 c 32
- For more information refer to forced operation mode on page 32
- Forced cooling operation 32
- Frequency limits the following table shows the functions that define the minimum and maximum frequency 32
- Inverter features the inverter provides the following features 32
- Quick heating and quick cooling the compressor rotational speed is increased when starting the heating or cooling this enables a quick set temperature 32
- The regulating capacity can be changed according to the changes in the outside temperature and cooling heating load 32
- Auto swing the following table explains the auto swing process for heating cooling dry and fan 33
- The louvres made of elastic synthetic resin provide a wide range of airflow that guarantees a comfortable air distribution 33
- Wide angle louvers and auto swing 33
- Wide angle louvres 33
- Fan speed control for indoor units 34
- In case of inverter units the microcomputer automatically sets the temperature and fan settings the difference between the room temperature at startup and the temperature set by the microcomputer is divided into two zones then the unit operates in the dry mode with an appropriate capacity for each zone to maintain the temperature and humidity at a comfortable level 35
- Programme dry function 35
- Programme dry function removes humidity while preventing the room temperature from lowering since the microcomputer controls both the temperature and air flow volume the temperature adjustment and fan adjustment buttons are inoperable in this mode 35
- Zone a thermostat off 35
- Zone b zone b 35
- Zone c thermostat on 35
- Automatic operation 36
- Cooling dry 37
- Function and control 37
- Heating 37
- Main functions sibe06 708 37
- The monitoring time has passed while the temperature difference is in the zone b cooling dry 10 minutes heating 10 seconds 37
- The operation turns on in any zones except a 37
- The system resumes from defrost control in any zones except a 37
- The temperature difference is above the zone c after being in the zone a 37
- The temperature difference is in the zone a 37
- Thermostat control 37
- Thermostat control is based on the difference between the room temperature and the setpoint 37
- Thermostat off condition 37
- Thermostat on condition 37
- Night set mode 38
- Details of the control when powerful button is pushed in each operation mode the fan speed setting temperature will be converted to the following states in a period of twenty minutes 39
- Ex powerful operation in cooling mode 39
- Inverter powerful operation 39
- Outline in order to exploit the cooling and heating capacity to full extent operate the air conditioner by increasing the indoor fan rotating speed and the compressor frequency 39
- Hot start function 40
- Mold proof air filter prefilter 40
- On off button on indoor unit 40
- Other functions 40
- Signal receiving sign 40
- Titanium apatite photocatalytic air purifying filter 40
- Auto restart function 41
- Self diagnosis digital display 41
- Weekly timer 41
- Function of thermistor 42
- Control specification 43
- Control specification sibe06 708 43
- Detail 1 for heat pump model there are following modes stop cooling includes drying heating include defrosting 43
- Function and control 43
- Mode hierarchy 43
- Note unless specified otherwise an indoor dry operation command must be regarded as cooling operation 43
- Outline there are two modes the mode selected in user s place normal air conditioning mode and forced operation mode for installation and providing service 43
- Frequency control 44
- For limiting lower limit frequency management is carried out only when the frequency rises 45
- Frequency initial setting outline when starting the compressor or when conditions are varied due to the change of the room the frequency must be initialized according to the total of a maximum d value of the indoor unit and the q value of the indoor unit q value indoor unit output determined from indoor unit volume air flow rate and other factors 45
- Frequency management when other controls are functioning 45
- I control if the operating frequency is not change more than a certain fixed time adjust the frequency up and down according to the d value obtaining the fixed d value when the d value is small lower the frequency when the d value is large increase the frequency 45
- Indoor frequency command d signal the difference between a room temperature and the temperature set by the remote controller will be taken as the d signal and is used for frequency command 45
- Limit of frequency variation width when the difference between input current and input current drooping value is less than 1 a the frequency increase width must be limited 45
- P control calculate d value in each sampling time 20 seconds and adjust the frequency according to its difference from the frequency previously calculated 45
- Pi control determine frequency up down by d signal 45
- Th off thermostat off 45
- Upper and lower limit of frequency by pi control the frequency upper and lower limits are set depending on indoor unit when low noise commands come from the indoor unit or when outdoor unit low noise or quiet commands come from indoor unit the upper limit frequency must be lowered than the usual setting 45
- When frequency is drooping frequency management is carried out only when the frequency droops 45
- Controls at mode changing start up 46
- Preheating operation 46
- Four way valve switching 47
- Four way valve operation compensation 48
- 3 minutes stand by 49
- Compressor protection function 49
- Detail divide the zone 49
- Discharge pipe temperature control 49
- Drooping zone 49
- Keep zone 49
- Management within the zones 49
- Outline the discharge pipe temperature is used as the compressor s internal temperature if the discharge pipe temperature rises above a certain level the operating frequency upper limit is set to keep this temperature from going up further 49
- Prohibit to turn on the compressor for 3 minutes after turning it off except when defrosting 49
- Return zone heat exchanger thermistor temperature 49
- Stop zone 49
- Up zone 49
- When turning the compressor from off to on the upper limit of frequency must be set as follows the function must not be used when defrosting 49
- Input current control 50
- Freeze up protection control 51
- Heating peak cut control 51
- Defrost control 52
- Fan control 52
- Liquid compression protection function 2 52
- 35 class 53
- Control specification sibe06 708 53
- Function and control 53
- Detail the followings are the examples of control which function in each mode by the electronic expansion valve control 54
- Electronic expansion valve control 54
- Function and control 43 54
- Outline the following items are included in the electronic expansion valve control electronic expansion valve is fully closed 1 electronic expansion valve is fully closed when turning on the power 2 pressure equalizing control open control 1 electronic expansion valve control when starting operation 2 control when frequency changed 3 control for defrosting 4 control when a discharge pipe temperature is abnormally high 5 control when the discharge pipe thermistor is disconnected feedback control 1 discharge pipe temperature control 54
- Sibe06 708 control specification 54
- Disconnection of the discharge pipe thermistor 55
- Fully closing with power on 55
- High temperature of the discharge pipe 55
- Opening limit 55
- Pressure equalization control 55
- Starting operation control 55
- Control when frequency is changed 56
- Target discharge pipe temperature control 56
- Detection of overload and over current 57
- Insufficient gas control 57
- Malfunctions 57
- Sensor malfunction detection 57
- Detail forced cooling 58
- Forced operation mode 58
- Outline forced operating mode includes only forced cooling 58
- Additional function 59
- Compressor operating frequency is increased to pi max max hz of operating room and outdoor unit airflow rate is increased 59
- Power supply voltage is detected each time equipment operation starts 59
- Powerful operation mode 59
- Voltage detection function 59
- Facility setting switch cooling at low outdoor temperature 60
- Part 5 system configuration 62
- System configuration 2 2 instruction 3 62
- System configuration 63
- Caution 64
- Instruction 64
- Safety precautions 64
- Warning 64
- Consider nuisance to your neighbours from noises 65
- Electrical work 65
- Installation site 65
- System relocation 65
- Caution 66
- Indoor unit 66
- Names of parts 66
- Opening the front panel 66
- 35 class 50 class 67
- Indoor unit 67
- Outdoor unit 67
- 10 12 13 15 18 20 68
- 8 11 14 68
- Remote controller 68
- Attention 69
- Preparation before operation 69
- To fix the remote controller holder on the wall 69
- To operate the remote controller 69
- To set the batteries 69
- Preparation before operation 70
- To set the clock 70
- Please note 71
- Tips for saving energy 71
- Turn the breaker on 71
- Turning on the breaker closes the flap this is a normal procedure 71
- Auto dry cool heat fan operation 72
- To change the temperature setting 72
- To start operation 72
- To stop operation 72
- Press fan setting button 73
- To change the air flow rate setting 73
- Adjusting the air flow direction 74
- Notes on flap and louvers angle 74
- To adjust the horizontal blade flap 74
- To adjust the vertical blades louvers 74
- Air flow selection 75
- Caution 75
- When setting the air flow selection switch to 75
- When setting the air outlet selection switch to 75
- Powerful operation 76
- To cancel powerful operation 76
- To start powerful operation 76
- Outdoor unit quiet operation 77
- To cancel outdoor unit quiet operation 77
- To start outdoor unit quiet operation 77
- Econo operation 78
- To cancel econo operation 78
- To start econo operation 78
- Timer operation 79
- To cancel the off timer operation 79
- To use off timer operation 79
- Attention 80
- Timer operation 80
- To cancel on timer operation 80
- To combine on timer and off timer 80
- To use on timer operation 80
- To use weekly timer operation 81
- Weekly timer operation 81
- Press button to complete the setting 82
- Press next button 82
- Press select button to select the desired temperature 82
- Weekly timer operation 82
- Press weekly button to deactivate the weekly operation 83
- To cancel weekly timer operation 83
- Canceling all reservations 84
- Canceling individual reservations 84
- Confirming a reservation 84
- Hold the weekly button for 5 seconds 84
- Press button 84
- Press select button to select the day of the week and the reservation number to be confirmed 84
- Select the day of the week to be canceled with the select button 84
- Weekly timer operation 84
- Press button 85
- Press button 2 85
- Press copy button 85
- Setting weekly timer using copy mode 85
- Care and cleaning 86
- Caution 86
- Front panel 86
- Indoor unit outdoor unit and remote controller 86
- Air filter 87
- Filters 87
- Maintenance 87
- Replacement 87
- Titanium apatite photocatalytic air purifying filter 87
- After operation stops turn off the breaker for the room air conditioner 88
- Before a long idle period 88
- Clean the air filters and set them again 88
- Operate the fan only for several hours on a fine day to dry out the inside 88
- Take out batteries from the remote controller 88
- Case explanation 89
- These cases are not troubles 89
- Trouble shooting 89
- Troubleshooting 89
- Case check 90
- Check again 90
- Call the service shop immediately 91
- Disposal requirements 91
- The power cord is abnormally hot or damaged an abnormal sound is heard during operation the safety breaker a fuse or the earth leakage breaker cuts off the operation frequently a switch or a button often fails to work properly there is a burning smell water leaks from the indoor unit 91
- Turn the breaker off and call the service shop 91
- Warning 91
- We recommend periodical maintenance 91
- Caution for diagnosis 2 2 problem symptoms and measures 3 3 service check function 4 4 troubleshooting 7 92
- Check 36 92
- Part 6 service diagnosis 92
- Caution for diagnosis 93
- Problem symptoms and measures 94
- Check method 1 1 when the timer cancel button is held down for 5 seconds a 00 indication flashes on the temperature display section 95
- In the arc452a series remote controller the temperature display sections on the main unit indicate corresponding codes 95
- Note 1 a short beep and two consecutive beeps indicate non corresponding codes 2 to cancel the code display hold the timer cancel button down for 5 seconds the code display also cancels itself if the button is not pressed for 1 minute 95
- Press the timer cancel button repeatedly until a continuous beep is produced 95
- Service check function 95
- The code indication changes in the sequence shown below and notifies with a long beep 95
- Displayed only when system down occurs 98
- Error codes and description 98
- Troubleshooting 98
- Indoor unit pcb abnormality 99
- Freeze up protection control or high pressure control 100
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 101
- Check no 6 refer to p 39 101
- Service diagnosis 101
- Troubleshooting 101
- Troubleshooting sibe06 708 101
- Fan motor dc motor or related abnormality 102
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 103
- Check no 1 refer to p 36 103
- Service diagnosis 103
- Troubleshooting 103
- Troubleshooting sibe06 708 103
- Thermistor or related abnormality indoor unit 104
- Signal transmission error between indoor and outdoor units 105
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 106
- Check no 0 refer to p 42 106
- Service diagnosis 95 106
- Sibe06 708 troubleshooting 106
- Troubleshooting 106
- Indoor unit pcb defective 107
- Malfunction decision conditions 107
- Method of malfunction detection 107
- Remote controller display 107
- Service diagnosis 107
- Supposed causes 107
- The pair type and multi type are interconnected 107
- The supply power is detected for its requirements different from pair type and multi type by the indoor outdoor transmission signal 107
- Troubleshooting 107
- Troubleshooting sibe06 708 107
- Unspecified voltage between indoor and outdoor units 107
- Wrong indoor unit pcb mounted 107
- Wrong models interconnected 107
- Wrong outdoor unit pcb mounted or defective 107
- Outdoor unit pcb abnormality 108
- A compressor overload is detected through compressor ol 109
- Check no 1 refer to p 42 109
- Check no 4 refer to p 36 109
- Check no 5 refer to p 37 109
- Check no 6 refer to p 39 109
- Electronic expansion valve defective 109
- Four way valve malfunctioning 109
- If the compressor ol is activated twice the system will be shut down 109
- Malfunction decision conditions 109
- Method of malfunction detection 109
- Ol activation compressor overload 109
- Outdoor unit pcb defective 109
- Refrigerant shortage 109
- Remote controller display 109
- Service diagnosis 109
- Stop valve defective 109
- Supposed causes 109
- The error counter will reset itself if this or any other error does not occur during the following 60 minute compressor running time total time the operating temperature condition is not specified 109
- Troubleshooting 109
- Troubleshooting sibe06 708 109
- Water mixed in the local piping 109
- Compressor lock 110
- Dc fan lock 111
- 35 class 112
- An input over current is detected by checking the input current value with the compressor running 112
- Check no 7 refer to p 40 112
- Check no 8 refer to p 41 112
- Error detection due to outdoor unit pcb 112
- Input over current detection 112
- Malfunction decision conditions 112
- Method of malfunction detection 112
- Over current due to compressor failure 112
- Over current due to defective outdoor unit pcb 112
- Over current due to defective power transistor 112
- Over current due to short circuit 112
- Remote controller display 112
- Supposed causes 112
- The following current with the compressor running continues for 2 seconds cooling heating above 9 5a 112
- Troubleshooting 112
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 114
- Check no 4 refer to p 45 114
- Check no 7 refer to p 40 114
- Check no 8 refer to p 41 114
- Service diagnosis 103 114
- Sibe06 708 troubleshooting 114
- Troubleshooting 114
- 35 class 115
- Four way valve abnormality 115
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 116
- Check no 1 refer to p 42 116
- Check no 5 refer to p 37 116
- Check no 6 refer to p 39 116
- Service diagnosis 105 116
- Sibe06 708 troubleshooting 116
- Troubleshooting 116
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 118
- Check no 1 refer to p 42 118
- Check no 5 refer to p 37 118
- Check no 6 refer to p 39 118
- Service diagnosis 107 118
- Sibe06 708 troubleshooting 118
- Troubleshooting 118
- Discharge pipe temperature control 119
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 120
- Check no 1 refer to p 42 120
- Check no 4 refer to p 36 120
- Check no 6 refer to p 39 120
- Service diagnosis 109 120
- Sibe06 708 troubleshooting 120
- Troubleshooting 120
- High pressure control in cooling 121
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 122
- Check no 4 refer to p 36 122
- Check no 6 refer to p 39 122
- Check no 7 refer to p 40 122
- Check no 9 refer to p 41 122
- Service diagnosis 111 122
- Sibe06 708 troubleshooting 122
- Troubleshooting 122
- 35 class 123
- Compressor system sensor abnormality 123
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 125
- Service diagnosis 125
- Troubleshooting 125
- Troubleshooting sibe06 708 125
- A compressor startup failure is detected by checking the compressor running condition through the position detection circuit 126
- Check no 3 refer to p 43 126
- Clearing condition continuous run for about 10 minutes 35 class or 5 minutes 50 class 126
- Compressor itself defective 126
- Compressor relay cable disconnected 126
- Input voltage out of specification 126
- Malfunction decision conditions 126
- Method of malfunction detection 126
- Outdoor unit pcb defective 126
- Position sensor abnormality 126
- Remote controller display 126
- Service diagnosis 115 126
- Sibe06 708 troubleshooting 126
- Stop valve closed 126
- Supposed causes 126
- The compressor fails to start in about 15 seconds after the compressor run command signal is sent 126
- The system will be shut down if the error occurs 16 times 35 class or 8 times 50 class 126
- Troubleshooting 126
- Dc voltage current sensor abnormality 127
- Ct or related abnormality 128
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 129
- Check no 2 refer to p 43 129
- Service diagnosis 129
- Troubleshooting 129
- Troubleshooting sibe06 708 129
- P4 j3 j6 h9 130
- Thermistor or related abnormality outdoor unit 130
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 131
- Check no 6 refer to p 39 131
- Discharge pipe thermistor 131
- Outdoor air temperature thermistor 131
- Outdoor heat exchanger thermistor 131
- Radiation fin thermistor 131
- Service diagnosis 131
- Troubleshooting 131
- Troubleshooting sibe06 708 131
- Electrical box temperature rise 132
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 133
- Check no 6 refer to p 39 133
- Check no 7 refer to p 40 133
- Check no 9 refer to p 41 133
- Service diagnosis 133
- Troubleshooting 133
- Troubleshooting sibe06 708 133
- Value for 50 class 133
- 35 class 134
- Radiation fin temperature rise 134
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 135
- Check no 6 refer to p 39 135
- Check no 7 refer to p 40 135
- Check no 9 refer to p 41 135
- Service diagnosis 135
- Troubleshooting 135
- Troubleshooting sibe06 708 135
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 137
- Check no 6 refer to p 39 137
- Check no 7 refer to p 40 137
- Check no 9 refer to p 41 137
- Service diagnosis 137
- Troubleshooting 137
- Troubleshooting sibe06 708 137
- Output over current detection 138
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 139
- Check no 3 refer to p 43 139
- Check no 7 refer to p 40 139
- Check no 8 refer to p 41 139
- Note if the model doesn t have pm1 replace the outdoor unit pcb 139
- Service diagnosis 139
- Troubleshooting 139
- Troubleshooting sibe06 708 139
- 35 class 140
- Insufficient gas 140
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 141
- Check no 4 refer to p 36 141
- Check no 6 refer to p 39 141
- Service diagnosis 141
- Troubleshooting 141
- Troubleshooting sibe06 708 141
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 143
- Check no 4 refer to p 36 143
- Check no 6 refer to p 39 143
- Service diagnosis 143
- Troubleshooting 143
- Troubleshooting sibe06 708 143
- Low voltage detection or over voltage detection 144
- Caution be sure to turn off power switch before connect or disconnect connector or parts damage may be occurred 145
- Note if the model doesn t have pm1 replace the outdoor unit pcb 145
- Service diagnosis 145
- Troubleshooting 145
- Troubleshooting sibe06 708 145
- Signal transmission error on outdoor unit pcb 146
- Electronic expansion valve check 147
- Fan motor connector output check 147
- How to check 147
- Check no 5 25 35 class 148
- Four way valve performance check 148
- Service diagnosis 137 148
- Sibe06 708 check 148
- Check sibe06 708 149
- Service diagnosis 149
- Check no 6 remove the connectors of the thermistors on the pcb and measure the resistance of each thermistor using tester the relationship between normal temperature and resistance is shown in the graph and the table below 150
- Thermistor resistance check 150
- Check no 7 151
- Check sibe06 708 151
- Installation condition check 151
- Service diagnosis 151
- Check no 8 152
- Check no 9 152
- Discharge pressure check 152
- Outdoor unit fan system check with dc motor 152
- Service diagnosis 141 152
- Sibe06 708 check 152
- Check no 0 measure the power supply waveform between pins 1 and 3 on the terminal board and check the waveform disturbance 153
- Check no 1 153
- Check sibe06 708 153
- Check to see if the power supply waveform is a sine wave fig 153
- Check to see if there is waveform disturbance near the zero cross sections circled in fig 153
- Fig fig 153
- Inverter units refrigerant system check 153
- Power supply waveforms check 153
- Service diagnosis 153
- 35 class note check to make sure that the voltage between the terminal of power transistor and is approx 0 volt before checking power transistor 154
- Capacitor voltage check 154
- Check no 2 before this checking be sure to check the main circuit for short circuit 154
- Check no 3 154
- Checking the capacitor voltage 154
- Disconnect the compressor harness connector from the outdoor unit pcb to disengage the connector press the protrusion on the connector then follow the procedure below to measure resistance between power transistor and and the u v and w terminals of the compressor connector with a multi tester evaluate the measurement results for a pass fail judgment 154
- Power transistor check 154
- With the circuit breaker still on measure the voltage according to the drawing of the model in question be careful never to touch any live parts 154
- Checking the power transistor 155
- For the uvw make measurements at the faston terminal on the board or the relay connector 155
- If unavoidably necessary to touch a live part make sure the power transistor s supply voltage is below 50 v using the tester 155
- Never touch any live parts for at least 10 minutes after turning off the circuit breaker 155
- Main circuit electrolytic capacitor check 156
- Turning speed pulse input on the outdoor unit pcb check 156
- Indoor unit 48 158
- Outdoor unit 50 class 65 158
- Part 7 removal procedure 158
- Indoor unit 159
- Removal of the air filter front panel 159
- Removal of the horizontal blade 163
- Removal of the electrical box 164
- Removal of the pcb 166
- Indoor unit sibe06 708 169
- Removal procedure 169
- Remove the 2 screws 169
- Remove the control pcb 169
- Step procedure points 169
- Removal of the vertical blade 170
- Removal of the heat exchanger 173
- Removal of the fan rotor fan motor 174
- Outdoor unit 50 class 176
- Removal of the panels and plates 176
- Removal of the fan motor propeller fan 180
- Pull the fan motor out 183
- Put the lead wire through the back of the motor when reassembling so as not to be entangled with the propeller fan 183
- Removal of the electrical box 184
- Lift the electrical box and remove it 187
- Release the clamp and undo the wire from the hook 187
- Removal of the pcb 188
- Lift up and remove the pcb 190
- Loosen the 3 fixing screws for the main pcb 190
- Undo the 4 hooks 190
- Removal of the sound blanket 191
- Removal of the four way valve 193
- Removal of the compressor 195
- Others 88 198
- Part 8 others 198
- Others 199
- Test run from the remote controller 199
- How to set the different addresses 1 remove the front grille 2 live the sensor securing plate and remove the front metal plate cover 3 remove connectors 5p 6p and 7p 4 remove the electric box 1 screw 5 remove the thermistor 6 remove the side metal plate cover 8 tabs 7 cut the address jumper ja on the printed circuit board 8 cut the address jumper j4 in the remote controller 200
- Jumper setting 200
- Jumper settings 200
- When two indoor units are installed in one room the two wireless remote controllers can be set for different addresses 200
- When two units are installed in one room 200
- Part 9 appendix 202
- Piping diagrams 92 202
- Wiring diagrams 95 202
- Appendix 203
- Fvxs25fv1b fvxs35fv1b fvxs50fv1b 203
- Indoor units 203
- Piping diagrams 203
- Piping diagrams sibe06 708 203
- Appendix 193 204
- Outdoor units 204
- Rks25f2v1b rks35f2v1b 204
- Rks50f2v1b 204
- Sibe06 708 piping diagrams 204
- Appendix 205
- Piping diagrams sibe06 708 205
- Rxs25f2v1b rxs35f2v1b 205
- Rxs50f2v1b 205
- Appendix 195 206
- Fvxs25fv1b fvxs35fv1b fvxs50fv1b 206
- Indoor units 206
- Sibe06 708 wiring diagrams 206
- Wiring diagrams 206
- Appendix 207
- Condenser 207
- D056145 207
- Field wiring 207
- Fu1 mrm10 207
- Indoor 207
- Outdoor 207
- Outdoor discharge 207
- Outdoor units 207
- Rks25f2v1b rks35f2v1b rxs25f2v1b rxs35f2v1b 207
- Rks50f2v1b 207
- Wiring diagrams sibe06 708 207
- Appendix 197 208
- D056095 208
- Rxs50f2v1b 208
- Sibe06 708 wiring diagrams 208
- Numerics 210
- Drawings flow charts 214
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