Samsung LN46b530p7f – relay clicks and backlight cycling, sound OK
I got this TV a little over a year ago from a coworker from my previous job. It’s a Samsung 46” TV, model number LN46b530p7f.
Problem:
Backlight cycles On and Off.
Basically, when the TV is turned On, there is a relay click heard from the TV PS board. The relay cycles On and Off 4 times in about 2-3 second intervals. Each of those 4 times, the backlights also cycle On and Off with the relay. The screen TFT isn’t cracked/damaged and appears to work - I can see a “no signal” image when the backlights turn On briefly – though the image is a bit dull/dark. The greeting / turn Off chime works fine too, so the set has working sound. Also, when the backlights turn On, there is a faint buzzing heard from the inverter. I don’t know if it’s normal sound or not (I’ve seen some very noisy inverters before). But just noting it here anyways,
So is anyone familiar with this issue by any chance and what I might be the problem?
In terms of troubleshooting, the first thing I did is re-recap the power supply. Long story short, it was recapped by my colleague, but he did a little bit of a messy job and not with the most appropriate caps (Nichicon VZ general purpose caps and some Chang/Chong/X for the smaller caps). Picture of his “handiwork” attached below for comic relief.
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
Of course, all of the above “handiwork” is fixed now.
When I asked him about the original caps, he said he’s doesn’t remember if they looked bad or not. But he said that even after the recap job, the TV appeared to do the same thing as when he found it. So it’s quite possible the caps were not the issue in the first place. Nevertheless, I did a slightly better (but still temporary) recap job with a few low ESR caps mixed in with the GP Nichicons he had on there (which I checked were good, BTW.)
After this, I checked some of the power supply voltages on the main connector (the one between the PSU board and logic/video board) and connector CN1806 on the PSU, which goes to the inverter driver / balancer / feedback board.
Main connector voltages are as follows…
RAIL...............................TV in standby..........................TV On
INV ON/OFF (pin 23).................0.01 V...............cycles between 0 V and 5 V with relay click
[PS] ON/OFF (pin 1)..................0.01 V....................................1.17 V
STB 5.3V................................5.15 V....................................5.13 V
13Vs......................................0.3 V....................................13.03 V
5.3V......................................0.1 V.....................................5.13 V
13Vm.....................................0.4 V....................................12.78 V
DET_5V..................................0.22 V...............cycles between 0 and 2.8-3 V with relay
H_SYNC DC (AC)......................0.04 V (0 V)........................1.71 V (3 V)
CN1806 connector voltages from PS board to inverter driver / balancer board:
RAIL................................TV in standby.......................TV On
Vcc (pin 1)..............................0.07 V.................................10.5 V
LD..........................................0 V.....................................11.55 V
FB1 (DC measurement)...............0.02 mV..............................-0.54 mV when relay clicks on
FB1 (AC measurement)...............0.1 mV......................mostly ~0 mV, but sometimes 30-56 mV on the 3rd or 4th relay click
FB2 (DC measurement)...............0.02 mV.......................-6 mV when relay clicks on
FB2 (AC measurement)...............0.1 mV......................54 to 63 mV with relay clicks on
Other things I checked:
- Voltage on main input caps of the PS board are at ~167V DC when the TV is in standby, and 388.8V DC when the TV in On. Voltage is stable when the relay clicks On.
- Voltage measurement for FB1 and FB2 voltages was done across feedback resistors RF801 thru RF804. These resistors are 22 Ohms each, with RF801 and 802 in parallel (for 11 Ohms total) and 803 and 804 in parallel (for 11 Ohms total, again.)
- Feedback resistors RF801 thru RF804 above are in spec.
- Did a basic resistance + diode check on most feedback components for the inverter on the PS board, and they all appear okay.
- Inverter transformers on the PS board have nearly identical resistance, so they appear to be okay as well.
- Removed TFT panel and checked the CCFL tubes – all tubes light up when the inverter cycles On (i.e. when the relay clicks). None seem to be burned or darkened and they appear the same brightness, as far as I can tell from the quick power cycling.
I also already tried forcing the inverter on by raising the INV ON/OFF pin high, along with PS ON/OFF pin. The power supply voltages come up, and the relay clicks and stays On. But I get no light output from the backlight. I think the E_PWM and H_SYNC signals may have something to do with that, though, because when I ran that test, I had the logic/video board disconnected. Pulling E_PWM both high and low didn’t seem to make a difference.
With all of that said, are there any suggestions what else I should check or perhaps where else I might look? I’m thinking there must be something wrong with the CCFL inverter driver / balancer / feedback board. But I’m not sure what to check on there. Most SMD components measured fine on resistance and diode test. And the transformers on that board are hard to test, because IIRC when I last tested it some months ago, those smaller transformers have very short turns on their outputs and thus always read as nearly short-circuit.
Anyways, the PSU model / part number is IP-261603A [or BN44-00265A], if that’s of any help. I’ll try taking pictures of the driver / balancer and video / logic boards tomorrow. Speaking of the video / logic board – all regulators and MOSFETs measured okay.
Thanks for reading! Hope the TV can get fixed. I don’t really have much use for a second TV, but it’s been sitting around and taking space for too long.
Problem:
Backlight cycles On and Off.
Basically, when the TV is turned On, there is a relay click heard from the TV PS board. The relay cycles On and Off 4 times in about 2-3 second intervals. Each of those 4 times, the backlights also cycle On and Off with the relay. The screen TFT isn’t cracked/damaged and appears to work - I can see a “no signal” image when the backlights turn On briefly – though the image is a bit dull/dark. The greeting / turn Off chime works fine too, so the set has working sound. Also, when the backlights turn On, there is a faint buzzing heard from the inverter. I don’t know if it’s normal sound or not (I’ve seen some very noisy inverters before). But just noting it here anyways,
So is anyone familiar with this issue by any chance and what I might be the problem?
In terms of troubleshooting, the first thing I did is re-recap the power supply. Long story short, it was recapped by my colleague, but he did a little bit of a messy job and not with the most appropriate caps (Nichicon VZ general purpose caps and some Chang/Chong/X for the smaller caps). Picture of his “handiwork” attached below for comic relief.
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
https://www.badcaps.net/forum/attach...1&d=1547788861
Of course, all of the above “handiwork” is fixed now.
When I asked him about the original caps, he said he’s doesn’t remember if they looked bad or not. But he said that even after the recap job, the TV appeared to do the same thing as when he found it. So it’s quite possible the caps were not the issue in the first place. Nevertheless, I did a slightly better (but still temporary) recap job with a few low ESR caps mixed in with the GP Nichicons he had on there (which I checked were good, BTW.)
After this, I checked some of the power supply voltages on the main connector (the one between the PSU board and logic/video board) and connector CN1806 on the PSU, which goes to the inverter driver / balancer / feedback board.
Main connector voltages are as follows…
RAIL...............................TV in standby..........................TV On
INV ON/OFF (pin 23).................0.01 V...............cycles between 0 V and 5 V with relay click
[PS] ON/OFF (pin 1)..................0.01 V....................................1.17 V
STB 5.3V................................5.15 V....................................5.13 V
13Vs......................................0.3 V....................................13.03 V
5.3V......................................0.1 V.....................................5.13 V
13Vm.....................................0.4 V....................................12.78 V
DET_5V..................................0.22 V...............cycles between 0 and 2.8-3 V with relay
H_SYNC DC (AC)......................0.04 V (0 V)........................1.71 V (3 V)
CN1806 connector voltages from PS board to inverter driver / balancer board:
RAIL................................TV in standby.......................TV On
Vcc (pin 1)..............................0.07 V.................................10.5 V
LD..........................................0 V.....................................11.55 V
FB1 (DC measurement)...............0.02 mV..............................-0.54 mV when relay clicks on
FB1 (AC measurement)...............0.1 mV......................mostly ~0 mV, but sometimes 30-56 mV on the 3rd or 4th relay click
FB2 (DC measurement)...............0.02 mV.......................-6 mV when relay clicks on
FB2 (AC measurement)...............0.1 mV......................54 to 63 mV with relay clicks on
Other things I checked:
- Voltage on main input caps of the PS board are at ~167V DC when the TV is in standby, and 388.8V DC when the TV in On. Voltage is stable when the relay clicks On.
- Voltage measurement for FB1 and FB2 voltages was done across feedback resistors RF801 thru RF804. These resistors are 22 Ohms each, with RF801 and 802 in parallel (for 11 Ohms total) and 803 and 804 in parallel (for 11 Ohms total, again.)
- Feedback resistors RF801 thru RF804 above are in spec.
- Did a basic resistance + diode check on most feedback components for the inverter on the PS board, and they all appear okay.
- Inverter transformers on the PS board have nearly identical resistance, so they appear to be okay as well.
- Removed TFT panel and checked the CCFL tubes – all tubes light up when the inverter cycles On (i.e. when the relay clicks). None seem to be burned or darkened and they appear the same brightness, as far as I can tell from the quick power cycling.
I also already tried forcing the inverter on by raising the INV ON/OFF pin high, along with PS ON/OFF pin. The power supply voltages come up, and the relay clicks and stays On. But I get no light output from the backlight. I think the E_PWM and H_SYNC signals may have something to do with that, though, because when I ran that test, I had the logic/video board disconnected. Pulling E_PWM both high and low didn’t seem to make a difference.
With all of that said, are there any suggestions what else I should check or perhaps where else I might look? I’m thinking there must be something wrong with the CCFL inverter driver / balancer / feedback board. But I’m not sure what to check on there. Most SMD components measured fine on resistance and diode test. And the transformers on that board are hard to test, because IIRC when I last tested it some months ago, those smaller transformers have very short turns on their outputs and thus always read as nearly short-circuit.
Anyways, the PSU model / part number is IP-261603A [or BN44-00265A], if that’s of any help. I’ll try taking pictures of the driver / balancer and video / logic boards tomorrow. Speaking of the video / logic board – all regulators and MOSFETs measured okay.
Thanks for reading!
Hope the TV can get fixed. I don’t really have much use for a second TV, but it’s been sitting around and taking space for too long.
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