Master Electronics Repair !

Welcome to Master Electronics Repair! website.Here you will find:Service Modes, Circuit Diagrams,Service manuals, Firmware Update procedure, Disassemble procedure, Universal remote control setup codes, Troubleshooting, Diagnosing, Measuring, and more.... of many of LCD/LED TV/Displays,others various electronic apparates,trough many technical notes and tips/tricks to help repairing/fixing Troubles/ faults,for electrical technicians.This site helps you to save the Earth from electronic waste!

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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Wednesday 6 March 2019

TCL 40-E371C4-PWA1XG - SMPS POWER SUPPLY - TROUBLESHOOTING - SCHEMATIC DIAGRAM - LCD TELEVISION REPAIR AND SERVICE

TCL 40-E371C4-PWA1XG - SMPS power supply - troubleshooting - schematic diagram - LCD television repair and service

Category: LCD Television Repair and Service

Contents of this article

Troubleshooting the power supply
FSFR1700XS Details
FAN7930 Details
Power supply Schematic

TCL 40-E371C4-PWA1XG

TROUBLESHOOTING

1. Fuse blowing

Check Diode D1 > D4 for any short

Check the IGBT K12A50D For any short.

Replace FAN7930 Pwm driver

2. Power supply doesn’t starts

Check the resistors R307,R308,R309,R310 , is any of them is open or not . This resistor network provides the staring supply to FAN7930.

Replace FAN7930 , FSFR1700XS

Check the diode at the secondary side or the SMPS for any short.

FSFR1700XS

The FSFR-XS series includes highly integrated power switches designed for high-efﬁciency half-bridge resonant converters. Offering everything necessary to build a reliable and robust resonant converter, the FSFR- XS series simplifies designs while improving productivity and performance. The FSFR-XS series combines power MOSFETs with fast-recovery type body diodes, a high- side gate-drive circuit, an accurate current controlled oscillator, frequency limit circuit, soft-start, and built-in protection functions. The high-side gate-drive circuit has common-mode noise cancellation capability, which guarantees stable operation with excellent noise immunity. The fast-recovery body diode of the MOSFETs improves reliability against abnormal operation conditions, while minimizing the effect of reverse recovery. Using the zero-voltage-switching (ZVS) technique dramatically reduces the switching losses and signiﬁcantly improves efficiency. The ZVS also reduces the switching noise noticeably, which allows a small- sized Electromagnetic Interference (EMI) ﬁlter. The FSFR-XS series can be applied to resonant converter topologies such as series resonant, parallel resonant, and LLC resonant converters.

PIN CONFIGURATION OF FSFR1700XS

1 VDL - This is the drain of the high-side MOSFET, typically connected to the input DC link voltage

2 AR - This pin is for discharging the external soft-start capacitor when any protections are triggered. When the voltage of this pin drops to 0.2 V, all protections are reset and the controller starts to operate again.

3 RT- This pin programs the switching frequency. Typically, an opto-coupler is connected to cont the switching frequency for the output voltage regulation.

4 CS - This pin senses the current ﬂowing through the low-side MOSFET. Typically, negative voltage is applied on this pin.

5 SG - This pin is the control ground.

6 PG - This pin is the power ground. This pin is connected to the source of the low-side MOSFET.

7 LVCC - This pin is the supply voltage of the control IC.

8 NC - No connection.

9 HVCC - This is the supply voltage of the high-side gate-drive circuit IC.

10 VCTR - This is the drain of the low-side MOSFET. Typically, a transformer is connected to this pin.

FAN7930

The FAN7930 is an active power factor correction (PFC) controller for boost PFC applications that operate in critical conduction mode (CRM). It uses a voltage-mode PWM that compares an internal ramp signal with the error amplifier output to generate a MOSFET turn-off signal. Because the voltage-mode CRM PFC controller does not need rectiﬁed AC line voltage information, it saves the power loss of an input voltage sensing network necessary for a current-mode CRM PFC controller. FAN793O provides over-voltage protection, open- feedback protection, over-current protection, input- voltage-absent detection, and under-voltage lockout protection. The PFC-ready pin can be used to trigger other power stages when PFC output voltage reaches the proper level with hysteresis. The FAN7930 can be disabled if the INV pin voltage is lower than O.45\/ and the operating current decreases to a very low level. Using a new variable on-time control method, THD is lower than the conventional CRM boost PFC ICs.

PIN CONFIGURATION OF FAN7930

1 INV

This pin is the inverting input of the error amplifier. The output voltage of the boost PFC converter should be resistively divided to 2.5V.

2 RDY

This pin is used to detect PFC output voltage reaching a pre-determined value. When output voltage reaches 89% of rated output voltage, this pin is pulled HIGH, which is an (open drain) output type.

3 COMP

This pin is the output of the transconductance error amplifier. Components for the output voltage compensation should be connected between this pin and GND.

4 CS

This pin is the input of the over-current protection comparator. The MOSFET current is sensed using a sensing resistor and the resulting voltage is applied to this pin. An internal RC filter is included to filter switching noise.

5 ZCD

This pin is the input of the zero-current detection block. If the voltage of this pin goes higher than 1.5V, then goes lower than 1.4V, the MOSFET is turned on.

6 GND

This pin is used for the ground potential of all the pins. For proper operation, the signal ground and the power ground should be separated.

7 OUT

This pin is the gate drive output. The peak sourcing and sinking current levels are +500mA and - 800mA, respectively. For proper operation, the stray inductance in the gate driving path must be minimized.

8 Vcc

This is the IC supply pin. IC current and MOSFET drive current are supplied using this pin.

POWER SUPPLY SCHEMATIC DIAGRAM

PFC SECTION

SMPS SECTION

CLICK ON THE IMAGES TO ZOOM IN