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AFAIK you would struggle to fit the UHP-200-12 in the HT5. I asked @K888D about the same a while back, and while there is a theoretical possibility of fitting it across the front, it'll be a tight squeeze. The MeanWell RPS-200-12-C is a far better choice as such. I ordered my HT5 just a few days ago, and received my RPS-200-12-C around the same time - I'll be sure to post a build log once things start coming together Also, as [USER=641]@NateDawg72[/USER] mentions above, the ripple spec is important (too high ripple can/will cause system instability and even kill hardware over time). The RPS-200-12-C is well within the ATX ripple spec at 100mVp-p (spec) and 91.6mVp-p (test report).On a side note, I also ordered an UHP-350-12 for use in another system, which is also specced and tested above the ATX limit for ripple (something like 200/140 mVp-p IIRC), and I plan to add a capacitor across its output to reduce the ripple. An important point here, though, is that I'm lucky enough to have an electrical engineer for a brother, who has promised to test this on an oscilloscope to make sure that it's actually safe. I wouldn't trust it otherwise. (It's also worth mentioning that adding a huge capacitor to the output of a switch mode PSU can cause it to start oscillating its voltage output, which ... well, isn't good. Components expecting DC should not be getting AC.) I'll report back once I get the PSU sent to him so he can test it.
AFAIK you would struggle to fit the UHP-200-12 in the HT5. I asked @K888D about the same a while back, and while there is a theoretical possibility of fitting it across the front, it'll be a tight squeeze. The MeanWell RPS-200-12-C is a far better choice as such. I ordered my HT5 just a few days ago, and received my RPS-200-12-C around the same time - I'll be sure to post a build log once things start coming together
Also, as [USER=641]@NateDawg72[/USER] mentions above, the ripple spec is important (too high ripple can/will cause system instability and even kill hardware over time). The RPS-200-12-C is well within the ATX ripple spec at 100mVp-p (spec) and 91.6mVp-p (test report).
On a side note, I also ordered an UHP-350-12 for use in another system, which is also specced and tested above the ATX limit for ripple (something like 200/140 mVp-p IIRC), and I plan to add a capacitor across its output to reduce the ripple. An important point here, though, is that I'm lucky enough to have an electrical engineer for a brother, who has promised to test this on an oscilloscope to make sure that it's actually safe. I wouldn't trust it otherwise. (It's also worth mentioning that adding a huge capacitor to the output of a switch mode PSU can cause it to start oscillating its voltage output, which ... well, isn't good. Components expecting DC should not be getting AC.) I'll report back once I get the PSU sent to him so he can test it.
