I decided to do a full recap (replace all electrolytic capacitors). Well most of them. I actually left the radio and phono pcb as it was.
There are three Service Bulletins released by Yamaha for the CR2020. They all target the same problem area. Heat problem in the power supply area. One of them also target a problem with power switch waring out.
The main capacitor board is the worst heat producer. The PCB in this amp had become so hot that the PCB had become charcoal and the electrical traces lifted from the PCB.
Most of the heat is produced by four current limiting resistors. The original ones are mounted on the component side and in a way that generate heat in a bad spot. I googled the problem and found out that someone else had solved the problem. Mounting the heat generating components on the back of the PCB make it much easier for the heat to move away from the PCB.
-B and +B terminals are marked on the PCB. This is where the cables to the main board is soldered. They connect immediately to the capacitors. As a side note, I experienced the importance of isolation distance. After a full day of testing the amp and adjusting bias, I turned it off. The day after when turning it on, I heard a loud bang! It turned out that the +B cable was lying right on to the negative terminal of the capacitor. When switching on the amp the current flow to the capacitors is very high and thus the voltage shortly spikes. The voltage became so high that there was a spark through the cable isolation. After relocating the cable the problem was solved.
After the recap and restore was done, there was quite a hand full of retired components. All of them is not shown in the picture.
The capacitors where in a really bad shape.
Closing up on the relay one can see that the contact pads are missing on one side.
The under dimensioned transistors TR712 and TR715 (2SD234) was upgraded to TIP41C and mounted on a big metal surface close to the faceplate. In the image below one can also see the new relay and the new green capacitor board.
Here is a close-up on the capacitor board. The two big capacitors are new 5-pin snap-in type capacitors.
Image below is before restoration.
Main boards after restoration.
The power switch came in a plastic bag. It consist of a mechanical part and an electrical switch part. The mechanical part was in perfect condition but not the electrical part. I 3D-printed a small bracket that made it possible to mount a micro-switch (CSM40550) to the mechanical switch.
And a final picture of the result.
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ReplyDeleteI am also the owner of actually 2 Yamaha Cr2020's. The first one I acquired from an old friend, who asked me to take a look at it, as it wasn't even powering on. Indeed, one side of the power switch was not working.
ReplyDeleteI simply bypassed that half of the switch, and it was working fine and sounded great. In fact I liked the sound of this unit so much, I asked my friend if I could buy it from him. I had recently helped him wire up a Dolby 5 channel surround sound system in his entertainment room, and he was very satisfied, especially when watching movies on his new plasma TV and decoding the surround sound through his new sony unit was quite astounding as I'm old school vintage stereo orientated. But after the Yamaha was i storage for a time, as I moved into my new home. I first built a huge shelving system in my newly finished basement to be my own entertainment room. But when I pulled the Yamaha out of careful storage, I found it was dead. Very disappointed I went on to research and repair the unit. I guess I was in such a rush to hear my Yamaha playing again, I overlooked some section of my repair of the same power board, an she started smoking, and that's where stopped. Very upset with my mistake, I went and purchased another non-working CR2020 for quite a lot of money. Before I even had a chance to examine the second CR2020. It was discovered that I needed heart surgery right away, or let's just say, I would be posting right now.
Total recovery took a year, as memory loss and anxiety was prevalent in this situation. I hoped to get back to my Yamaha, but the power board as you have stated, is prone to lifting traces, and I'm afraid the one I attempted to repair, is beyond repair now. I would be very interested in purchasing a new board from you. But I am not a member of Facebook yet. I intend to join tonight USA EST and hope you can help me wit my dilemma. I have found the traces on the Yamaha to be very prone to lifting and I'm afraid to do a full re-cap without the proper de-soldering tool for this purpose. I have heard good reviews for the Hakko desoldering tool, but it is rather expensive. I'd like to know if you or others had experience with this tool, and does it help with de-soldering of vintage stereo component circuit boards.