(In the meantime, I have analyzed this defect in more detail HERE)
The symptoms are 7 or 6 blinks of the standby LED. The service manual says:
A new SN board is prohibitively expensive. I did not find any under 230€ on eBay. In other models, Panasonic used to split the buffer board from the scan board. Here though, it is all in one and the buffers make it so expensive.
Luckily, there are repair kits on eBay tailored for this problem. I got one from GTV Watford in Great Britain. Including shipping it cost me 83€. The TV itself was only 45€.
The following image shows the shot parts on the TNPA5330 SN board. The red marks are the parts covered by the repair kit, the yellow mark is a transistor, which is not included in the repair kit.
That's not all. Due to the diodes and transistors going short on the SN board, the power supply board blew a fuse and two FETs also died. See next image. For this, GTV offers another repair kit.
My brand new pre-heating plate and hot air gun finally got something to work on:
I covered the capacitors with capton tape and heated the board up to around 140°C. With the hot air gun set to 420°C the SMD-mounted large semi-conductors came off quickly and without a problem. For soldering, I used solder paste and the same temperature settings. It is fun to see the big thingies snap into place once the paste has reached its melting point.
Replacing the fuse and the FETs on the power supply:
After replacing the large diodes and transistors, I ran a test and still got 7 blinks. So I fitted the remaining two parts from the kit also. They are a switcher IC and a double transistor. This pair occurs in all four energy recovery or sustain circuits, respectively.
I checked all the scan and energy recovery circuits again and lo and behold, I found Q451 with a short between Gate and Collector. It is part of the RECOVERY-L section. Apparently, it had been already pre-damaged and finally broke during my first test run.
In hindsight, it would have been cheaper to order two SS boards, which I think would cover even more than the necessary parts, instead of the repair kit.
This is what it looks like when one of the panel connectors is not seated properly. Thin horizontal lines all over the screen (the boxes are from the screen menu).
And now the Plasma does what it can do best: producing rich and beautiful colors:
It was quite some work this time:
To help with cooling, I glued small heatsinks on the large semiconductors and buffer chips. The heatsinks are not very powerful, but better than nothing at all. There is no space for large heatsinks, anyway.
A few words about the Panasonic service manual. The images for the boards and circuits are too small and not zoomable vector graphics and you can't see any of the small labels properly. Repairing a mainboard with this material is practically hopeless. The SN board is relatively simple and it did not matter. A mainboard is much more complex and you need all the fine details. Maybe there are copies around with better quality. I for sure did not find any.
The manuals from Sony and Philips which I have are much better. Personally, I would refrain from buying a defect Panasonic with a potential mainboard or logic board problem.
This TV is a keeper. It is missing DNLA features, but I will rather buy one of those Android quad-core devices with WiFi and HDMI, which have better performance and software on board than any of the Smart TVs out there.
Don't forget to improve the screws, folks! Replace the originals with new, longer screws with spring washers. Otherwise the same disaster might happen again.
