REPAIRING AND NOT THROWING AWAY

Richtige Fernseher haben Röhren!

Richtige Fernseher haben Röhren!

In Brief: On this site you will find pictures and technical information about Service Modes, Circuit Diagrams, Firmware Update procedure, Disassemble procedure, Universal remote control set-up codes, Troubleshooting and more....

If you go into the profession, you will obtain or have access to a variety of tech tips databases HERE IT IS Master Electronics Repair !.

These are an excellent investment where the saying: 'time-is-money' rules. However, to learn, you need to develop a general troubleshooting approach - a logical, methodical, method of narrowing down the problem. A tech tip database might suggest: 'Replace C536' for a particular symptom. This is good advice for a specific problem on one model. However, what you really want to understand is why C536 was the cause and how to pinpoint the culprit in general even if you don't have a service manual or schematic and your tech tip database doesn't have an entry for your sick TV or VCR.

While schematics are nice, you won't always have them or be able to justify the purchase for a one-of repair. Therefore, in many cases, some reverse engineering will be necessary. The time will be well spent since even if you don't see another instance of the same model in your entire lifetime, you will have learned something in the process that can be applied to other equipment problems.
As always, when you get stuck, checking out a tech-tips database may quickly identify your problem and solution.In that case, you can greatly simplify your troubleshooting or at least confirm a diagnosis before ordering parts.

Happy repairing!
Today, the West is headed for the abyss. For the ultimate fate of our disposable society is for that society itself to be disposed of. And this will happen sooner, rather than later.

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..............The bitterness of poor quality is remembered long after the sweetness of todays funny gadgets low price has faded from memory........ . . . . . .....
Don't forget the past, the end of the world is upon us! Pretty soon it will all turn to dust!

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Friday, 8 March 2019

TCL INVERTER AIR-CONDITIONER ERROR CODES CAUSES AND SOLUTION

TCL INVERTER AIR-CONDITIONER ERROR CODES CAUSES AND SOLUTION

TCL INVERTER AIR-CONDITIONER

ERROR CODES CAUSES AND SOLUTION 

Troubleshooting

(1) Display E1 or E2:
1. Contact between indoor temperature sensor CN6 (RT, IPT) and slot
2. Measure the resistance on the two ends of indoor temperature sensor: (25 / 5K
Ω).
Replace the temperature sensor if the resistance is incurred to drift, open or short circuiting.
(2) Display E6
1. Check the indoor cross-flow fan blade
If the fan does not run, readjust the fan position until it can run smoothly.
2.If the motor insert (CN3, CN4) on indoor main PCB is in good contact with the slot
Insert again if loose
3. Startup capacitance value
Capacitance incorrect. Replace with a new capacitor.
(3) Display E3, E7, E8
1.If the temperature sensor on outdoor power source board is in good contact with the slot (CN1, CN2)
Insert again if loose.
2. Measure the resistance on the two ends of outdoor temperature sensor: Resistance of CN1 terminal sensor – (25 / 5K
Ω).
Replace the temperature sensor if the resistance is incurred to drift, open or short circuiting
(4) Display E4
1 Check the high-pressure and low-pressure valves.
If not open, open again to ensure the system circulation is smooth.
2 Check the system refrigerant (Start and run under cooling mode. When the compressor is started, check the outlet temperature for its change. If the change is not obvious after 5 minutes)
The system is in shortage of refrigerant. Test with pressure gauge, check the leakage point and recharge the refrigerant.
3.Check the evaporator coil temperature sensor (25 /5K Ω).
Replace the temperature sensor if the resistance is incurred to drift, open or short circuiting.
4. The above inspections are normal
1. The flow might be uneven for indoor system. Short circuit JP4 jumper of the indoor control board to shield this protection function (V1 – Indoor Main PCB).
2. The flow might be uneven for indoor system. Dial the JP4 switch of the outdoor power source board to position “1” to shield this protection function (V4 – Power Source Board).
Replace the indoor main PCB if the problem cannot be solved by using the above methods.
(5) Display EC
1. Check the contact of communication wire (CN5) between power source board and intelligent power module
Insert again if loose.
2. After the complete unit is energized, check the indicators on outdoor power source board and intelligent power module
The indicator on power source board blinks normal (bright for 1 second and dark for 1 second), but the indicator on intelligent power module does not work normally.
Replace the intelligent power module
If the fault remains unsolved, replace the power source board again
The indicator on intelligent power module blinks normal (bright for 1 second and dark for 1 second), but the indicator on power source board does not work normally
Replace the power source board
If the fault remains unsolved, replace the intelligent power module again.
(6) Display EP
1. Check the insert position CN3 of the compressor top temperature switch wires on outdoor power source board.
Insert again if loose.
No switch on compressor top
Jumper short-circuiting (This function not provided for 1 – 1.5P unit)
2. Compressor temperature. The temperature is very high, accompanied with bad smell.
Check the U, V and W wires of the compressor.
The correct sequence of U. V and W wiring shall be “red, white and blue”. Connect again if incorrect.
Check the system pressure.
The pressure is low. Add refrigerant to ensure the system pressure is normal
Check the outdoor ventilation and if there is any obstruction that affects the normal radiating of the air conditione
Install to the position as required in the Instruction Manual and ensure the air inlet and outlet of the outdoor unit is smooth.
 3.Compressor temperature: The temperature is not high. Short circuit CN3.
If the fault is solved after short circuiting, replace the shell temperature switch.
If the fault remains unsolved after replacing the shell temperature switch, please replace the outdoor power source board.
(7) Display EA
1 Check for refrigerant leakage
Find the leakage point and recharge the refrigerant
2 V1 inverter unit : Test the voltage of 5# pin to 2# pin on power factor correction
 If not higher than 0.4V, replace power factor correction
If higher than 0.4V, replace the intelligent power module
3. V2V3V4V5VP1VP2 inverter unit
Replace the outdoor power source board

(8) Display EU
1.V1 inverter unit: Communication wires between outdoor power source board and intelligent power module (CN5)
Insert again if loose.
If the fault remains unsolved after connection again, please replace the outdoor power source board.
If the fault remains unsolved after replacement of outdoor power source board, please replace the intelligent power module.
2.V2V3V4V5VP1VP2 Inverter Unit
Replace the outdoor power source board
(9) Display EE
1.Shut down the power supply and re-energize. If the fault remains, it is needed to check if the indoor EEPROM installation is loose or improper.
Fix again2. If the installation is good:
Replace the indoor main PCB firstly
3. If the fault remains unsolved after replacement of the indoor control board:
Outdoor power source board
(10) Display P1
1.Test the supply voltage if it is between 160V 260V AC .
It is normal protection if exceeding this range.
2.Test if the voltage between L and N terminal of outdoor unit is within 160V260V AC It is normal protection if exceeding this range.
3. If the voltage is normal: Replace the outdoor power source board
(11) Display P2
1.Check if the outdoor fan motor is stopped due to overheat protection, or damaged, and if the fan capacitor
Replace the damaged capacitor and the damaged outdoor fan motor.
2. power source board or intelligent power module damaged
VP1-- Replace the power source board
V1-- Replace the intelligent power module.
V4 and VP2-- Replace the intelligent power module.
(12) Display P4
1.Check if the air inlet and outlet of outdoor unit is blocked by any obstructions.
Install to the position as required in the Instruction Manual and ensure the air inlet and outlet of the outdoor unit is smooth.
2. Check the system for shortage of refrigerant.
Add refrigerant
3.Check if the exhaust temperature sensor is drifted, short circuited or open circuited. (25 /20K Ω).
Replace the exhaust temperature sensor
4.Control board damaged
Replace the outdoor power source board.
(13) Display P5
1.Check if the air inlet and outlet of indoor unit is blocked by any obstructions.
Install to the position as required in the Instruction Manual and ensure the air inlet and outlet of the outdoor unit is smooth.
2, Check the system for shortage of refrigerant.
Add refrigerant
3.Check if the exhaust temperature sensor is drifted, short circuited or open circuited. (Measure the resistance of the resistors on two ends of indoor temperature sensor: (25 / 5K Ω).
Replace room temperature sensor (IRT) and Indoor pipe (coil) temperature sensor (IPT)
4. Control board damaged
Replace the indoor control board
(14) Display P6
1. Check if the air inlet and outlet of outdoor unit is blocked by any obstructions.
Install to the position as required in the Instruction Manual and ensure the air inlet and outlet of the outdoor unit is smooth.
2. Check the system for shortage of refrigerant.
Add refrigerant
3. Check if the outdoor evaporator coil temperature sensor is drifted, short circuited or open circuited (25 /5K Ω).
Replace the outdoor coil temperature sensor.
4. Control board damaged
Replace the outdoor power source board.
(15) Display P7
1.Check if the air inlet and outlet of outdoor unit is blocked by any obstructions.
Install to the position as required in the Instruction Manual and ensure the air inlet and outlet of the outdoor unit is smooth.
2. Check the system for shortage of refrigerant.
Add refrigerant
3.Check if the exhaust temperature sensor is drifted, short circuited or open circuited. (Measure the resistance of the resistors on two ends of indoor temperature sensor: (25 / 5K Ω).
Replace the Room temperature sensor(IRT) and Indoor pipe(coil) temperature sensor(IPT)
(16) Display P8
1.The compressor cannot run under cooling mode when the outdoor temperature is lower than -1 , or run under heating mode when the outdoor temperature is higher than 33 , whilst the compressor alarms P8 protection.
Normal protection function
2.If the temperature is not within the protective range above,. Use the multimeter to measure the resistors on the two ends of outdoor intake temperature sensor (CN1) (25 /5K Ω).
Replace the sensor if it is incurred to drift, open circuiting or short circuiting.
Other faults
1) The indoor unit works normally but the outdoor unit does not work. Cause Analysis:
a) If fault code is displayed: If yes, treat according to fault code. If no, check according to the following steps.
b) If the outdoor fan runs normally (The outdoor fan is started 5 seconds before the compressor is started, and it is stopped 15 seconds after the compressor is stopped), the client might make wrong judgment on that the outdoor unit does not work because the compressor working frequency is low or the system is in shortage of refrigerant. Check the system cooling / heating effect and confirm if the system is in shortage of refrigerant.
c) Check if the resistance of each temperature sensor is drifted (See appendix for the temperature sensor parameters): If yes, replace the temperature sensor.
d) Check if the JP3 jumper of indoor control board is soldered. If not, solder the jumper. Then restart the unit and check what protection code will be displayed. Treat according to the fault code.
e) Check if the indoor / outdoor and circuit board wiring. Check if the connection is secure. Please tighten the wires.
2) The outdoor unit is stopped when the air conditioner has run for a period of time Cause Analysis:
a) If any fault is displayed after stop: If yes, treat according to fault code. If not, check according to Step (b).
b) Check if the supply voltage is normal, including the voltage change when the air condition is started. If the voltage is unstable or changes too heavily, please check the power source. If no problem, check according to Step (c).
c) Check if the temperature sensors are normal (See appendix for the temperature sensor parameters). Check if the resistance is drifted, open circuited or short circuited. If yes, replace the sensor. If normal, check according to Step (d).
d) Check if the indoor / outdoor circuit connection and power connection are in good contact. If no, tighten the connection wires. If yes, check according to Step (e).
e) Check if the JP3 jumper of indoor control board is soldered. If not, solder the jumper. Then restart the unit and check what protection code will be displayed. Treat according to the fault code.
f) Check if the refrigerant is too much or too less. If yes, add refrigerant.
3) The air conditioner is tripped when it is started.
Cause Analysis:
a) Check if the user's power source plug is correctly connected (for example, the ground wire might be wrongly connected as the neutral wire)
b) Check if the indoor / outdoor circuit and the wiring terminal are correctly connected, and if there is short circuiting.
c) Check if the outdoor circuit board, wiring terminal and power connection wires are damaged, and if there is short circuiting to the metal parts.
d) Check if the rectifier bridge of outdoor controller (See appendix for its bridge) is short circuited (The short circuiting of rectifier bridge will probably cause tripping error).
4) The complete unit does not work Cause Analysis:
a) If fault code is displayed: If yes, treat according to fault code. If no, check according to Step (2).
b) Check if the power plug is electrified. If no, check the power source. If yes, check if the
controller fuse is good.. If no, replace the fuse. If yes, check according to Step (3).
c) Check if the resistance of the sensors on indoor and outdoor units is drifted. If yes, replace the sensor. If no, check according to Step (4).
d) Check if the indoor and outdoor communication is failed. The step is same as that for check
when the indoor unit works normally but the outdoor unit does not work.