ASP34-2 REV1 recapping how-to
Posted: Mon Aug 13, 2018 10:27 pm
I recapped my ASP34-2 REV 1 PSU the other day, replacing 7 capacitors and the rectifier.
I thought I'd do a quick report to share my experience with anyone who would be interested.
So, I ordered the PSU upgrade kit for my ASP34-2. I have the revision and that particular revision wasn't mentioned in the shop at the time (Chris has put it online right after I mailed a picture of it to him).
As you can see on the picture below, there's one capacity (25V 1000uF) that isn't quite met specwise by the replacement capacitor (16V 2200uF). After mailing Chris, I was ensured that is posed no problem as the other revisions all have a 16V rated capacitor in that spot.
Here are the replacement parts from the PSU upgrade kit.
Before starting the upgrade, I measured the PSU under load using my oscilloscope.
I don't notice any screen dimming while disk access so I think my PSU isn't that bad as it is.
Okay, here we go.
Remove four screws as indicated:
Put the board straight up and desolder the two indicated points to disconnect the board from the support.
Now, the board is separed from the support.
You might want to use some desoldering ribbon to open up the holes so it'll be easier to stick the wires back in later.
Now, remove all components (capacitors and a rectifier) as indicated:
Again, you might want to use desoldering ribbon to keep the holes open.
I'm only using it after removing a part. I could use it to desolder the part as well but as desoldering lint can be quite expensive, I prefer removing the parts using the wiggling technique. By alternating a few times between legs, heating one while tilting the part into the opposite direction and vice-versa.
Now, place the replacement components.
I had to bend the legs of the rectifier a bit to fit the holes but luckily, no drilling was required (some other PSU types and revisions apparently have holes that are a little smaller).
I also had to bend the legs of the top-right capacitor because it's a bit larger than the original one and the board didn't account for the additional required space.
Finally, refresh all remaining soldering points on the board to make sure that none of them are on the verge of breaking.
Finished!
Finally, let's measure:
I can’t say it made much difference, other than 12V Vpp going from 140mV to 120mV.
I guess the PSU was pretty okay to begin with. At least I’ll be safe for many years to come!
I thought I'd do a quick report to share my experience with anyone who would be interested.
So, I ordered the PSU upgrade kit for my ASP34-2. I have the revision and that particular revision wasn't mentioned in the shop at the time (Chris has put it online right after I mailed a picture of it to him).
As you can see on the picture below, there's one capacity (25V 1000uF) that isn't quite met specwise by the replacement capacitor (16V 2200uF). After mailing Chris, I was ensured that is posed no problem as the other revisions all have a 16V rated capacitor in that spot.
Here are the replacement parts from the PSU upgrade kit.
Before starting the upgrade, I measured the PSU under load using my oscilloscope.
I don't notice any screen dimming while disk access so I think my PSU isn't that bad as it is.
Okay, here we go.
Remove four screws as indicated:
Put the board straight up and desolder the two indicated points to disconnect the board from the support.
Now, the board is separed from the support.
You might want to use some desoldering ribbon to open up the holes so it'll be easier to stick the wires back in later.
Now, remove all components (capacitors and a rectifier) as indicated:
Again, you might want to use desoldering ribbon to keep the holes open.
I'm only using it after removing a part. I could use it to desolder the part as well but as desoldering lint can be quite expensive, I prefer removing the parts using the wiggling technique. By alternating a few times between legs, heating one while tilting the part into the opposite direction and vice-versa.
Now, place the replacement components.
I had to bend the legs of the rectifier a bit to fit the holes but luckily, no drilling was required (some other PSU types and revisions apparently have holes that are a little smaller).
I also had to bend the legs of the top-right capacitor because it's a bit larger than the original one and the board didn't account for the additional required space.
Finally, refresh all remaining soldering points on the board to make sure that none of them are on the verge of breaking.
Finished!
Finally, let's measure:
I can’t say it made much difference, other than 12V Vpp going from 140mV to 120mV.
I guess the PSU was pretty okay to begin with. At least I’ll be safe for many years to come!