One day I returned home only to find that our Sony Wega TV (Model KV34HS420) was no longer working. It would respond to the remote control and begin to start to turn on, but then it would make a clicking sound and turn itself off before a picture appeared on the screen. After that, the standby/timer LED would continue blinking 6 or 7 times. This blinking LED is a diagnostic code, but its description of the potential issue provided little value. After reading a few dozen postings on the issue, a pattern began to emerge that made me hopeful that I could repair it myself.
We purchased this TV in 2005 while the jury was still out about which flat panel TV technology would eventually replace the tried-and-true CRT technology. Back then, the LCD and plasma flat panel displays still had viewing angle and reliability issues and cost 2 or 3 times as much as an equivalent-sized CRT model and so we just decided to replace our 15-year-old Sony CRT TV with a modern HD-capable CRT TV. I was hoping to get 15 years or more out of this $1500 investment before having to send it to the landfill. After all, this was a SONY, not some no-name brand that I’d expect to fail after only a few years. And tube TVs usually last a very long time. I have one in my basement I purchased in 1985 that is still working fine.
This TV has excellent picture quality and no restrictions in viewing angle, and other than its size and weight, I found it much better than what was available with flat panel technologies at the time. Its speakers provide excellent sound quality, much nicer than the tinny sound produced by some of the razor-thin flat panels. It sits in a corner and therefore takes up no more room than an equivalent size flat panel display. So, after only 6 years, I was wondering whether it would need to be replaced or if I could fix it. After a fair amount of forum reading, I found that this 6 or 7 LED blink code was a rather common problem, along with a common solution, namely to replace the MCZ3001DB integrated circuits known as IC8002 and IC6501 on the ‘D’ board. This chip is functionally identical to earlier versions of it known as MCZ3001D or MCZ3001DA. The forums had many people describing their success at making the repair, but pictures of this procedure were non-existent, hence the reason for this blog posting. Also, the level of difficulty and amount of work involved was not clearly described, so I hope to explain and show what I did so the reader can determine whether it is within his or her skill level to attempt this repair.
This TV weighs 200 lbs. I didn’t want to have to move it from its stand. Fortunately, it was possible to remove the entire back shell simply by removing all of its screws and sliding it off. There are a lot of screws, about a dozen around the periphery of the TV along with several more on the back panel, but fortunately, it’s a one-person job although it wouldn’t hurt to have a helper because the shell, although fairly lightweight, is bulky. Removing the shell allows access to the ‘D’ board.
After removing about a 17 screws, the rear shell can be slipped off.
The ‘D’ board is the one shown in the picture below. I should mention that before removing the cover, you must unplug the TV and give it a few hours for the high voltages to dissipate so as to avoid shock hazards. It’s best to unplug it and wait overnight, since if the TV is not working so there’s no need for it to remain connected to power.
The 'D' board shown above is held in with about 8 screws.
It wasn’t clear how to remove the board, or if it would be necessary to undo all of the wiring connections. Some of the connectors were easy to remove, but the 3 high voltage wires that connect to the CRT did not have easy-to-unplug connections. I eventually figured out that I didn’t need to remove those wires at all. There are a number of connectors that need to be flipped upward to disconnect the ‘D’ board from an adjacent board. It wasn’t clear at first how they worked, but if you feel around for a flange you can pull them upward, they’ll unsnap and pivot up 90 degrees like a draw bridge. Two of the connectors had latches on them that require squeezing the lever to unlatch it before they will come out. I unplugged all the other cables I could find, removed about 8 screws, and the board came out far enough to let me rotate it into a position where I could access the bottom of the board. It was necessary to use a stubby screw driver to remove one screw that was far forward, hidden between two connectors, and just under the CRT. To make that easier, you will notice that there are two plastic hooks, one on each side of the tray that the boards are mounted to that you can unlatch which allows all the PC boards to slide back about 4 inches. That makes the front screw easier to access, although you’ll still need that stubby screwdriver. (I’ve since added images of the latch and the board slid back at the end of this article.) After you get all the screws out, the board is still held in by a few plastic clamps on the edge which you can bend back a little to release the board. The board was still tethered by the high voltage connections, but I was able to fix it ‘in place’, by turning it over like shown in the image below.
Bottom of Sony 'D' board shown rotated in repair position. Note, it's not necessary to disconnect the wire with the suction-cup-like insulator on it.
Unsoldering the two ICs is not difficult if you use a spring loaded solder sucker like the one shown below. Do not waste your time trying to use solder wick or a bulb-type solder sucker for desoldering the chips. Search for YouTube videos with the word ‘desoldering’ if you’ve never desoldered a chip before to see how it works. Also, make sure that the soldering iron is a low-wattage type, and not too hot to avoid lifting the copper traces.
A spring loaded solder pump/sucker like this one works best to remove the solder.
Close up of IC6501 and IC8002 from bottom of board. Note each IC has two unsoldered pins.
Do NOT solder pins 13 or 17. If you're using a socket, it would be best to clip the legs in those holes off the socket.
Be aware that each chip has two pins are not soldered to the board. This is normal and so don’t try to solder those pins or the fix will not work. Take note of the orientation of the chips since there is a notch on one end facing the closest edge of the board. You do NOT want to install the chips backwards. Also, don’t solder the new chips in directly to the board. Use sockets in case you ever need to do this repair again, since having to unsolder these chips is most of the work. If they were socketed in the first place, you could replace them without having to solder or even having to remove the D board.
I wasn’t sure of the best way to purchase the ICs, since forum participants mentioned purchasing them on Ebay, where there are several China-based vendors offering MCZ3001DB chips but the shipping times from China vary considerably and can take from 10 days to 3 weeks. The vendor I chose was TriState Module because I wanted a U.S.-based company. They sent me a pair of ICs for around $20 including shipping charges. However, they no longer have these parts in stock and they are getting harder to find. I also needed a pair of 18-pin dip sockets which I found at the local Radio Shack for $.59 each. They look like the parts on the left in the image below:
After replacing the ICs with sockets, you’ll need to install the replacement ICs. Odds are that only one of the chips is bad, but since you won’t know which one, it’s best to just replace them both. It is necessary to squeeze the pins together to get the legs aligned with the holes in the sockets. This style of IC has its legs spread out by default, and so they won’t automatically align unless you pre-bend them inward just a little to align with the holes in the socket. Carefully examine the chips after you install them to make sure all the legs made it into the socket and that the little half-circle notch at the end of the chip is facing toward the near edge of the board as shown in the photo below.
IC8002 and IC6501 installed in their new sockets.
After re-installing the board and attaching all the cables, it would be a good idea to test it to make sure the repair worked before reinstalling the cover. If you unlatched the tray and slid the boards back to make access easier, you’ll need to put them back in position or else the remote control and on/off button won’t reach the board. With luck, your TV will be back up and running, avoiding a premature trip to the landfill. I can’t guarantee this fix will work for you, but the consensus on the forums is that it frequently fixes the 6 or 7 blink code problems on the Sony Wega flat screen CRT models.
I found the repair to be of intermediate difficulty, and the result was very gratifying when the TV turned on again. Our TV has now been working like new for more than 2 years, and if it ever happens again, I could fix it more easily thanks to the sockets that are installed. It felt good to resurrect a TV that has great picture and sound quality and, hopefully, a lot of life left in it.
And, in the event it doesn’t work for you, then maybe getting one of those new and improved flat panel TVs is your best alternative. 🙂
[UPDATE 2013-11-15] I mentioned earlier about the difficulty of finding and removing one of the screws under the CRT. Some of these TVs, including the model I repaired, have a set of latches that allow you to release the board and carrier and slide it back about 4″ to make that screw much easier to access. You can see it in the images below:
The D-board and its carrier have latches on both sides that can be lifted to slide the assembly backward about 4 inches.
D-board slid back 4″ into the repair position.
Chalk up another success story. By following Mr. Devlin’s instructions and the helpful tips left by others in this thread, I brought our Sony KV-40XBR800 back to life. And I have no previous soldering experience. I found the de-soldering tool with the bulb to be perfect for this job. I had the chips out in no time. The soldering phase went mostly smoothly, but I did need to re-solder a couple of pins and eliminate an unintended bridge. I believe the big difference to a novice like me was using relatively thin solder (I used Simple Solder.) That way I avoided melting too much solder onto the connections. Oh, and I held the sockets in place while I was working with blue painter’s tape. Many thanks again to all who have contributed to this thread.
Another satisfied customer! I started having problems with my Sony Wega not turning on after an extended power outage. Sometimes it blinked 6 times, sometimes 7 and occasionally 4.
At first, it was occasional. Then it became daily. And then it was hit or miss whether or not my TV would come on. I would unplug it overnight and hope it came on the following evening. Finally, I left it on, changing to a black screen station at night.
I sent to Lee for the chips and solder sucker. I borrowed a soldering iron from a friend at work and set aside my Saturday to work on the project.
I didn’t have any problems with getting all the screws out, however, I wasn’t able to put 2 screws back into the upper back of the TV when I closed it up because they were recessed too far.
Once the circuit board was accessible, I labeled the board and the plugs with numbers in black magic marker so I knew what went where. For me, the most difficult part was removing all the solder and getting the old chips out. I couldn’t get the chips out at first. I got the first one out after much tugging on the chip and reheating on the other side. I ended up leaving a few legs behind. The second chip I ended up breaking into 3 pieces to get it out after desoldering. Then I used the sucker on the chip side and the iron on the solder side to remove the rest of the solder and remaining legs. I would get a chip puller if I ever have to do anything like this again.
Resoldering was a breeze. I used very fine solder and there was no bleeding. I heated the hole for a few seconds before touching the solder down and I got some very nice solder points using very fine solder. I also attached the chip to the holder before I did my soldering and I clipped the non-used pins from the holder before installation.
I put the board back in place without securing it and plugged the TV in and – Voila! – it worked! I unplugged the TV and secured the board with some, but not all of the screws, put the back back on, rewired all the cables and I can now turn my TV off and on without any worries. I am so glad I found this website!
Hi, I am grappling with the 7-blink code for a Sony WEGA Model KV-32XBR400 . I see that one person posted about it, but not specifically enough.
1) I have found the MCZ3001D part at location IC8001. Good.
2) I cannot find the MCZ3001D part at location IC6501. I downloaded the service manual for my model TV (see model above). The service manual refers to IC6501 as related to the secondary power supply and shows a logic chart, but I haven’t been able to locate the actual IC6501 location in reality (on the actual board).
3) In seeking out IC6501, I came across another MCZ3001D part, but it is seated at IC6001.
4) In searching around, I also noticed what appears to be a blown capacitor? I am not sure my terminology is right. It looks like the top 1/3rd of a AAA battery (in caliber and height) and has a lot of yellow goo that apparently goo’d out of the top and has leaked down the side. A ton of it. If I push the good with a long wooden shish-kabob skewer, it is solid (dry) and some flakes off.
Anyone have advice for me? Should I bother with this project? Again, this is a 7-blink situation on KV-32XBR400 .
Other things tried:
1. Using the blow dryer worked the first time, but not on subsequent times.
2. Removing the cover and getting rid of all dust was completed and did not help.
3. Unplugging it for a day or 2 at a time only worked once or twice (before I tried the blow dryer trick).
Hi Margaret, If you see a capacitor with its electrolyte having leaked out, then that’s a component that has likely failed or is about to fail. Some people mistake the black rubbery stuff around the bases of some of the capacitors as the contents of the capacitor leaking out, but that is RTV that is put there for the purpose of keeping the capacitor from vibrating and breaking its legs during transport. If the top of the cap has bulged out and the stuff coming out is amber in color that looks like dried sap, you should write down the specs of the capacitor and replace it before going any further.
Lee: thank you so much for your quick reply! Just to clarify:
1. Yes, it’s coming from the top like yellow sap. So, I will replace that.
2. Are you recommending that the 7-blink issue, in my case, possibly is due to just the blown capacitor? Therefore, I should replace it ONLY and see if the T.V. before attempting the replacement of IC’s? Might not need new IC’s?
Now to figure out how to replace a blown capacitor.