google.com,pub-1990720073119592, DIRECT, f08c47fec0942fa0 Fix Screen and Firmware

Saturday, January 15, 2022

No Display Solved





Blank Image ,Mute Screen, No Display Fault Repair By Student 

YouTube Link



Other Case in China Brand 32" Panel

Samsung LED TV use this panel mostly used in China brand TV. 


Fault : No Display Blank Image , Backlight works good ,sound coming good.

Cure: When test panel vcc12v is coming good also 3.3v supply is good .

In this panel most common problem of gate drive tracks going short inside the glass we need to cut one by one .


Solution in this picture .



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Knowledge Videos




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Sureh Rehman With Translation



Thursday, January 13, 2022

Car Cooling Fan Circuit Diagram


 Here I can show you different Car Cooling Circuit Diagram you can see I.Cs and FETs how can it's works and how you can Substitute these circuit as per your requirement.

Tuesday, January 11, 2022

Panel: LSC400HN02-705 T-CON: 15Y_40GF11BMB7S4LV0.1 LTF6482 RT6936 RT6929



 Panel: LSC400HN02-705

T-CON: 15Y_40GF11BMB7S4LV0.1
LTF6482
RT6936
RT6929






CY-HH032AGSV1V

T-con RUNTK DUNTK5524TP + ​​RUNTK DUNTK5525TP IC101: BD8174MU, IC201: BM9098.
VIN12V: 12V;
RIN0 - / + ... RIN3 - / +: 1.2V;
SCL_S, SDA_S: 2.96V;
WP: 3.27V;
VH255: 15.16V;
VH159: 11.49V;
VH127: 11.23V;
VH0: 8.96V;
FS: 0.02V;
REV: 1.65V;
LS_SPWB, LS_SCPWB: 0.16V;
CLKIN +: 1.26V;
CLKIN-: 1.2V;
GSLOP_REF: 2.24V;
VLS: 15.6V;
VCOM: 7.3V;
VGH: 35.1V;
SLOPE_THR: 1.8V;
SCP: 0.01V;
VCORE1.5: 1.5V;
VGH_PG: 3.29V;
DIO7_8: 0.01V;
VCC_3.3: 3.3V;
VL0: 7.88V;
VL63: 5.49V;
VL127: 5.00V;
VL159: 4.66V;
DIO8_9: 0.01V;
DIO9_10: 0.01V;
GSLOP: 0.54V
RESET_N: 1.49V;
GOE: 0.02V;
GSP1: 0.04V;
GSP2: 0.02V;
V / D: 3.29V;
GCK: 0.79V;
VD_MPD: 0.01V;
SCL_M, SDA_M: 3V;
WP_N: 3.27V;
BUS_ENI: 0V;
AGING_ENI: 0V;
WR_IN: 3.3V;
VGH_SLOPE: 33.1V;
VGL: -0.59V.

T-CON TT5461B03-2-C-1 Voltage

Information ic DC DC
-----------------------------
M236HGE-L20-X
IC:CM2719A.TPS65148C.
----------------------------
V236BJ1-XC01
IC:CM1801B.CM501.CM601.P2003EVG
----------------------------
LM238WF1-SLA P/N 6870S-1605C
IC:SW06600ISWL-0133A.SM4033A.404RP.RT9164A
----------------------------
T260XW04 V3 26T05-C00
IC:RM5101.AUO-11303.BD8160EFV.I7824DA.AAT1910.
----------------------------
LC260EXN-SCA1 P/N 6870S-0955A
IC:LG5804.TPS65192.MAX9668E.MAX17113E.MAX16814.S393.SUT290.
----------------------------
ST2751A02-1-XC-2
IC:CS11103.i1991.i1142HS.5562A.
----------------------------
V290BJ1-XC01
IC:CM1801B.CM501.CM601.4435A
----------------------------
V290BJ1-XC01
IC:CM1801B.CM501. CM601.1577.P2003EVG
---------------------------
MT3151A04-1-XC-C ST3151A04-9 VER2.1
IC:6861AAQ.HX8915-E.CS11103.
----------------------------
MT3151A05-5-XC-5
IC:CS11103.CS801.CS902.
----------------------------
*MT3151A05-1-XC-7
IC:CS11002.i1991.6861AAQ
----------------------------
MT3151A04-1-XC-9
IC:5562A.CS11102.1572.
----------------------------
A320AP20S4LV0.4
IC:SM4108.043Z
----------------------------
HV320WX2-261_X-PCB-X0.0
IC:NT71182WFG-100.MAX17126B.i7975.
----------------------------
HV320WXC-200_X-PCB-X0.0
IC:NT71182MFG-100.MAX17126B.i7979.i2111.
----------------------------
HV320WHB-N5K
IC:HX8872-E.6861AAQ.17975.i7824HS
----------------------------
T320XVN02.9 32T24-COC
IC:AUO-11303.AUO-P301-16.AUO-61422.i7238.
----------------------------
T320HVN03.0 32T36-S05 S04
IC:G1564.RM5103.
----------------------------
T320HVN04.0 32T37-C01 32T37-S00
IC:AUO-12309.P301-40.AUO-G1422.RT8901B.ATH336.464RK. G1564.
----------------------------
LC320DXJ(SF)(A9) P/N:6870S-1702A
IC:TL2357ML.SM4053.432FK.404RP.
----------------------------
P320HVN02.0 CTRL BD 32P06-C01
IC:AUO-12309.S302-19.P302-11
----------------------------
P320HVN02.0 XL 32P06-S00
IC:AUO-G1422
----------------------------
HV320WHB-N5K
IC:HX8872-E.6861AAQ.i7975.1H-4E.i7824HS.
----------------------------
V320BJ7-PE1
IC:CM1801B.CM508.CM608.
----------------------------
LSF320AN01-A06
IC:LAXC021T2B-Q1.RT6906B.i7987.
----------------------------
LC320DXJ(SF)(A9)
DESC:ROW2.1 32HD SONY ver 1.0 rev
P/N:6870S-1702A
IC:TL2357ML.SM4053.
----------------------------
V390HJ1-XC01
IC:CM2801B.CM501.P2003EVG.
----------------------------
LSF400AM01-G01
IC:SM4151
----------------------------
LSY400HN01-002
IC:LTF62B0.RT6929.RT6930.
----------------------------
LSY400HN01-201 15Y_S40FF11MB7S4LV0.2
IC:LTF6280.RT6930.RT6929.
----------------------------
LSY400HN01-304 15Y_S40FF11MB7S4LV0.
IC:LTF6280.RT6929.RT6930
----------------------------
LSY400HN01-A03 15_S40FF11MB7S4LV0.1
IC:LTF6280.RT6929.RT6930
----------------------------
LSY400HM02-A02 KSZ80_0B_S4LV0.2
IC:LQF6041T0B-01.BM81204.RT6503A
----------------------------
LSY400HM03-A2 14Y_40FMB7S4LV0.2
IC:LTF6080.RT6917.81224.8024.
----------------------------
V400HJ6-PE1 Rev.C1
IC:CM2801C.CM508.CM603
----------------------------
T420HVN04.3
IC:AUO-12309.AUO-61422.M106-28.P301-16.ATH22064DM.
----------------------------
CPWBX5409TP RUNTK DUNTK
IC:BD8174MU.BM9098.
----------------------------
LK315T3HB7K RUNTK DUNTK 5414
IC:BM9098.BD8174MU
----------------------------
HV490FHB-N8L 49 FHD GOA XPCB-L 47-6001549
IC:HX8894-D.RT6914.HX8915-E.i7824HS.ICN7211BL24C32A.JAGR.
----------------------------
HV490FHB-N8L 49 FHD GOA XPCB-L 47-6001549
IC:HX8894-D.HX8915-E.T21F2583B.GT432B-2ZU.JAGR.i7824HS.RT6914.
----------------------------
V500HJ1-XRME1
IC:CM2801C.CM508.CM608.S5507P
-----------------------------





Monday, January 10, 2022

EK735351099A



 EK735351099a cof data







My YouTube channel

Samsung Tcon Voltages Testing


EK73510Z004A









 NT39329H-C0258
 NT39541H-C02L3A


Sunday, January 9, 2022

V500HJ1-PE8 Repair Help



 HV320FHB-N10 Voltages Data




My YouTube channel

Samsung Tcon Voltages Testing


EK73510Z004A



V500HJ1-PE8




Panel Type: V500HJ1-PE8 Repair Help

Fault: No Display Problem Solved

Solution: Found Short PF  Capacitor on Panel Scalar Board .

Cure: Replace PF Capacitor and Fix the problem.






LTA320WS-LH2



 LTA320WS-LH2 Voltages Details Guide By Imran Ashraf Support

 YouTube channel

Samsung Tcon Voltages Testing


EK73510Z004A







 LTA320WS-LH2 Voltages Details Guide By Imran Ashraf Support










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Saturday, January 8, 2022

High-Voltage Level-Shifting Scan Driver

 Dual, High-Voltage Scan Driver for TFT



GOFF Rapid Discharge Function (DISH Input)

The DISH input controls a switch between GOFF and 

AGND. When DISH is pulled below ground by at least 

1V, VGOFF is rapidly discharged to AGND. Typically 

DISH is capacitively coupled to VDD so that if VDD falls 

suddenly, VGOFF is quickly discharged to AGND.

Thermal-Overload Protection

The thermal-overload protection prevents excessive 

power dissipation from overheating the device. When 

the junction temperature exceeds TJ = +160°C, a thermal sensor immediately shuts down the scan driver outputs. The outputs are set to high impedance. Once the 

device cools down by approximately 15°C, the device 

reactivates.

The thermal-overload protection protects the IC in the 

event of overheat conditions. For continuous operation, 

do not exceed the absolute maximum junction temperature rating of TJ = +150°C.

 Applications Information

Power Dissipation

An IC’s maximum power dissipation depends on the 

thermal resistance from the die to the ambient environment and the ambient temperature. The thermal resistance depends on the IC package, PCB copper area, 



other thermal mass, and airflow.

The MAX17109, with its exposed backside pad soldered 

to 1in2 of PCB copper, can dissipate about 34.5mW into 

+70°C still air. More PCB copper, cooler ambient air, and 

more airflow increase the possible dissipation, while 

less copper or warmer air decreases the IC’s dissipation capability.

Scan Driver Outputs

The power dissipated by the scan driver outputs (CKV1, 

CKVB1, STVP1, CKV2, CKVB2, and STVP2) depends on 

the scan frequency, the capacitive load, and the difference between the GON and GOFF supply voltages:

where fSCAN is the scan frequency of the panel, CPANEL 

is the panel model capacitive load, VGON and VGOFF

are the positive gate-on and negative gate-off voltages.

If both scan drivers operate at a frequency of fSCAN = 

50kHz, the load of the six outputs is CPANEL = 5nF, and 

the supply voltage difference is VGON - VGOFF = 30V, 

then the power dissipated is 1.35W.

PCB Layout and Grounding

Careful PCB layout is important for proper operation. 

Use the following guidelines for good PCB layout:

1) Place the GON, GOFF, and VDD pin bypass capacitors as close as possible to the device. The ground 

connections of the GON, GOFF, and VDD bypass 

capacitors should be connected directly to the 

AGND pin with a wide trace.

2) Avoid using vias in the high-current paths. If vias 

are unavoidable, use many vias in parallel to reduce 

resistance and inductance.

3) Connect the MAX17109’s exposed paddle to AGND 

copper plane and the copper plane area should be 

maximized to improve thermal dissipation.

4) Minimize the length and maximize the width of the 

traces between the CKV, CKVB, and STV output nodes 

and the panel load for best transient responses.

Refer to the MAX17109 evaluation kit for an example of proper board.


Dual, High-Voltage Scan Driver for TFT LCD

______________________________________________

High-Voltage Level-Shifting Scan Driver

The MAX17109 includes two, 3-channel, high-voltage, 

level-shifting scan drivers. The scan driver outputs 

(CKV1, CKV2, CKVB1, CKVB2, STVP1, and STVP2) 

swing between the power-supply rails (VGON and 

VGOFF) according to their corresponding input logic 

levels. The states of the CKV1, CKVB1, and STVP1 outputs are determined by the input logic levels present on 

OE, OECON, STV1, and CPV1. The states of the CKV2, 

CKVB2, and STVP2 outputs are determined by the input 

logic levels present on OE, OECON, STV2, and CPV2 

(See Figure 3, Tables 1 and 2.)

STV1 and STV2 are the vertical timing signals. CPV1 

and CPV2 are the horizontal timing signals. OE is the 

output-enable signal. OECON is a timing signal derived 

through an RC filter from OE that blanks OE if OE stays 

high for too long. These signals have CMOS input logic 

levels set by the VDD supply voltage. CKV1 and CKV2 

are scan clock outputs, which are complementary to 

scan clock outputs CKVB1 and CKVB2, respectively. 

STVP1 and STVP2 are the output scan start signals. 

These output signals swing from VGON to VGOFF, which 

have a maximum upper level of +40V, a minimum lower 

level of -30V, and a combined maximum range of VGON

- VGOFF = 65V. Their low output impedance enables 

them to swiftly drive capacitive loads. The input pins 

CKVCS1, CKVBSC1, CKVBCS2, and CKVBCS2 allow 

the charge in the panel equivalent capacitors to be 

shared. This reduces the power loss in state transition. 


 General Description

The MAX17109 includes two high-voltage, level-shifting 

scan drivers for TFT panel integrated gate logic. Each 

scan driver has 2 channels that switch complementarily. The scan driver outputs swing from +40V to 

-30V and can swiftly drive capacitive loads. To save 

power, the scan driver’s complementary outputs share 

the charge of their capacitive load before they change 

states.

The MAX17109 is available in a 32-pin, 5mm x 5mm, 

thin QFN package with a maximum thickness of 0.8mm 

for ultra-thin LCD panels.

 Applications

Notebook Computer Displays

LCD Monitor and TV Panels

 Features

♦ +40V to -30V Output Swing Range

♦ Fast Slew Rate for High Capacitive Load

♦ Load Charge Sharing for Power Saving

♦ 32-Pin, 5mm x 5mm, Thin QFN Package