e-VGA GeForce 6200 [128-P2-N361] – with bad VENT-LESS Sacon FZ… FIXED!
Naturally a continuation of this thread… I bought a GeForce 6200 with bad Sacon FZ caps that didn’t have any vents on them! Fun, easy, recap project, even though the video card itself is not worth much. So let’s get down to the pictures/details…
The video card itself looked like this when I got it (click links to see pictures):
https://www.badcaps.net/forum/attach...1&d=1400270134
…yup, those Sacon FZ caps are leaning quite hard due to pushing out their bungs. Here’s a better view:
https://www.badcaps.net/forum/attach...1&d=1400270134
The best part is, I almost didn’t need to desolder these caps in order to remove them. They pushed out their bungs so hard that two of them already had their legs half-way pulled out from the vias on the board. I think I understand what Sacon was trying to do now with these vent-less caps. Basically, as the cap bulges and pushes out its bung, it also breaks away its solder joints and falls off, thus leaving only the “good” caps behind. Brilliant!
We also have us some silver Sacon SZ. These are the bulging caps on the upper-right corner of the video card.
https://www.badcaps.net/forum/attach...1&d=1400270134
I gave the video card a Sacon, be-gone treatment, and here’s the result:
https://www.badcaps.net/forum/attach...1&d=1400270134
Much better… but ugh, they left quite a mess, didn’t they? I tried scrubbing with alcohol (IPA, 99.9%), but that electrolyte must have gotten baked on there or something. It was tough taking it off. Acetone did the trick, though. On a related note, the stock thermal compound on the GPU heatsink was that pink chewing gum crap that wouldn’t wipe with IPA either. Acetone proved to be a good friend here again.
Anyways, back to caps. Two mug shots of the bad boys:
https://www.badcaps.net/forum/attach...1&d=1400270386
https://www.badcaps.net/forum/attach...1&d=1400270386
Looks like a c_hegge style type of execution won’t bring the joyful banging sounds here as they have already released their pressure. But I still have a few “creative” ideas
.
And a backside shot:
https://www.badcaps.net/forum/attach...1&d=1400270386
Finally… the recap job:
https://www.badcaps.net/forum/attach...1&d=1400270386
As you can see, I like diversity quite a bit. In that mix of caps, there are some Nichicons, Fujitsu, Sanyo, and Rubycon. To put it in better words, I don’t like to discriminate against caps, as long as they are Japanese and of high quality and reliability . That said, they are all used caps. But I am sure this won’t be a problem as I’ve done this for many of my personal repairs before. I also decided to leave the Lelon OCR caps alone. These are 16 V, 330 uF, 10 mm diameter, and they filter the 12V rail from the PCI-E connector (C17 and C14 on the board).
Some detailed breakdown:
C30, C17, and C14 ---> 12V rail filter. C30 is before a PI coil L3, and C17 and C14 after it. C30 was a Sacon FZ 16 V 470 uF, but as you can see from the picture above, I just removed it and didn’t replace it with anything. I probably will in the future. I just didn’t have any decent 16 V caps in 8 mm diameter on hand. That cap is not all that critical.
Next, C38, C47, and C48 ---> GPU V_core filter (buck type). About 1.33V when powered.
I used 2x Fujitsu FP-CAP RE 4 V, 820 uF and a single Nichicon HZ 6.3 V, 2200 uF. All 10 mm diameter. The Nichicon has a 2005 datecode (H0533), so it may or may not be good. Most are, but a few I had did bulge after sitting un-used. So that’s a bit experimental here, but the Fujitsu’s should take care even if the Nichi went down. 2.5V caps might work fine here too, if anyone ever decides to save such an old card.
C29 ---> GPU Vtt voltage. It’s linearly stepped-down from GPU V_core and is about 1.2V. Just about any cap will do here. I used an SMD Nichicon (what series??) 4 V, 1000 uF. This was a bit of an experiment here as well. I have quite a few of these (pulled from bad PS3 boards) and since I often need 1000 uF in 8 mm diameter for motherboards, I wanted to see if these would work in a pinch for low-voltage rails (such as RAM Vdd and Vtt). I don’t think these are low ESR, but I’m not sure. In any case, GPU Vtt is a linear rail, so it makes no difference what you use here. Many of the nVidia GeFoce 6 and 7 series use this setup.
C23 ---> possibly 12V to 5V step-down DC-DC rail. It’s a buck type. Used a Sanyo WF 16 V 1500 uF from an Xbox 360 12V filter. Never used these before, so this was an experiment too
.
C215 ---> 3.3V rail from PCI-E connector. It’s the input filter to the APL1581 linear regulator that feeds the RAM. Originally a Sacon SZ 6.3 V, 1000 uF. Now a Rubycon MFZ 6.3 V 820 uF.
C135 ---> RAM Vdd voltage. Output filter cap for APL1581 regulator. Was a Sacon SZ like above, but I replaced it with another SMD Nichicon 4 V, 1000 uF cap.
After all of this recapping, I stress-tested the video card with some games. It does pretty well with Colin McRae Rally 2004 @ 1024x768 maxed out (minus AA). Portal, however, brought this video card to its knees – that is, the video card worked just fine, but I was getting terrible framerates on certain levels even at 800x600.
Also worth mentioning is that the fan on this video card is quite loud. There is no temperature controller – it runs on full blast at 12 V all the time. Not only that, but the GPU itself actually still runs very hot – 58C idling at desktop and 70C playing games. And that’s with a 24-25C (about 75-76F) room temperature! My guess is either the GPU heatsink is crap (it does have a very dull and rough finish) or my cheap thermal compound is crap. I’m thinking the former, since I’ve used that same thermal compound on other video cards, and they didn’t seem to get that hot… Namely, I’ve done two GeFoce 7600 with it, and both run about 45C idle and 55C stressed. I guess, we will see when I try a copper-base heatsink on it.
Anyways. Overall, I still think this was a fun little recapping project. Good enough for a test PCI-E video card since it has both DVI and VGA outputs. I might donate it to a classmate of mine
The video card itself looked like this when I got it (click links to see pictures):
https://www.badcaps.net/forum/attach...1&d=1400270134
…yup, those Sacon FZ caps are leaning quite hard due to pushing out their bungs. Here’s a better view:
https://www.badcaps.net/forum/attach...1&d=1400270134
The best part is, I almost didn’t need to desolder these caps in order to remove them. They pushed out their bungs so hard that two of them already had their legs half-way pulled out from the vias on the board. I think I understand what Sacon was trying to do now with these vent-less caps. Basically, as the cap bulges and pushes out its bung, it also breaks away its solder joints and falls off, thus leaving only the “good” caps behind. Brilliant!
We also have us some silver Sacon SZ. These are the bulging caps on the upper-right corner of the video card.
https://www.badcaps.net/forum/attach...1&d=1400270134
I gave the video card a Sacon, be-gone treatment, and here’s the result:
https://www.badcaps.net/forum/attach...1&d=1400270134
Much better… but ugh, they left quite a mess, didn’t they? I tried scrubbing with alcohol (IPA, 99.9%), but that electrolyte must have gotten baked on there or something. It was tough taking it off. Acetone did the trick, though. On a related note, the stock thermal compound on the GPU heatsink was that pink chewing gum crap that wouldn’t wipe with IPA either. Acetone proved to be a good friend here again.
Anyways, back to caps. Two mug shots of the bad boys:
https://www.badcaps.net/forum/attach...1&d=1400270386
https://www.badcaps.net/forum/attach...1&d=1400270386
Looks like a c_hegge style type of execution won’t bring the joyful banging sounds here as they have already released their pressure. But I still have a few “creative” ideas
.And a backside shot:
https://www.badcaps.net/forum/attach...1&d=1400270386
Finally… the recap job:
https://www.badcaps.net/forum/attach...1&d=1400270386
As you can see, I like diversity quite a bit. In that mix of caps, there are some Nichicons, Fujitsu, Sanyo, and Rubycon. To put it in better words, I don’t like to discriminate against caps, as long as they are Japanese and of high quality and reliability
. That said, they are all used caps. But I am sure this won’t be a problem as I’ve done this for many of my personal repairs before. I also decided to leave the Lelon OCR caps alone. These are 16 V, 330 uF, 10 mm diameter, and they filter the 12V rail from the PCI-E connector (C17 and C14 on the board). Some detailed breakdown:
C30, C17, and C14 ---> 12V rail filter. C30 is before a PI coil L3, and C17 and C14 after it. C30 was a Sacon FZ 16 V 470 uF, but as you can see from the picture above, I just removed it and didn’t replace it with anything. I probably will in the future. I just didn’t have any decent 16 V caps in 8 mm diameter on hand. That cap is not all that critical.
Next, C38, C47, and C48 ---> GPU V_core filter (buck type). About 1.33V when powered.
I used 2x Fujitsu FP-CAP RE 4 V, 820 uF and a single Nichicon HZ 6.3 V, 2200 uF. All 10 mm diameter. The Nichicon has a 2005 datecode (H0533), so it may or may not be good. Most are, but a few I had did bulge after sitting un-used. So that’s a bit experimental here, but the Fujitsu’s should take care even if the Nichi went down. 2.5V caps might work fine here too, if anyone ever decides to save such an old card.
C29 ---> GPU Vtt voltage. It’s linearly stepped-down from GPU V_core and is about 1.2V. Just about any cap will do here. I used an SMD Nichicon (what series??) 4 V, 1000 uF. This was a bit of an experiment here as well. I have quite a few of these (pulled from bad PS3 boards) and since I often need 1000 uF in 8 mm diameter for motherboards, I wanted to see if these would work in a pinch for low-voltage rails (such as RAM Vdd and Vtt). I don’t think these are low ESR, but I’m not sure. In any case, GPU Vtt is a linear rail, so it makes no difference what you use here. Many of the nVidia GeFoce 6 and 7 series use this setup.
C23 ---> possibly 12V to 5V step-down DC-DC rail. It’s a buck type. Used a Sanyo WF 16 V 1500 uF from an Xbox 360 12V filter. Never used these before, so this was an experiment too
.C215 ---> 3.3V rail from PCI-E connector. It’s the input filter to the APL1581 linear regulator that feeds the RAM. Originally a Sacon SZ 6.3 V, 1000 uF. Now a Rubycon MFZ 6.3 V 820 uF.
C135 ---> RAM Vdd voltage. Output filter cap for APL1581 regulator. Was a Sacon SZ like above, but I replaced it with another SMD Nichicon 4 V, 1000 uF cap.
After all of this recapping, I stress-tested the video card with some games. It does pretty well with Colin McRae Rally 2004 @ 1024x768 maxed out (minus AA). Portal, however, brought this video card to its knees – that is, the video card worked just fine, but I was getting terrible framerates on certain levels even at 800x600.
Also worth mentioning is that the fan on this video card is quite loud. There is no temperature controller – it runs on full blast at 12 V all the time. Not only that, but the GPU itself actually still runs very hot – 58C idling at desktop and 70C playing games. And that’s with a 24-25C (about 75-76F) room temperature! My guess is either the GPU heatsink is crap (it does have a very dull and rough finish) or my cheap thermal compound is crap. I’m thinking the former, since I’ve used that same thermal compound on other video cards, and they didn’t seem to get that hot… Namely, I’ve done two GeFoce 7600 with it, and both run about 45C idle and 55C stressed. I guess, we will see when I try a copper-base heatsink on it.
Anyways. Overall, I still think this was a fun little recapping project. Good enough for a test PCI-E video card since it has both DVI and VGA outputs. I might donate it to a classmate of mine
Attached Files
), wetting the paper/foil inside with water, and closing them back up again, then applying power 
.
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