Wester547 wrote:EDIT: Also, I noticed that the fan is blowing/sucking cold air in the PSU rather than blowing hot air out... not sure if that's more or less effective.
I wrote:...obstructing the front of the fan increases noise far more than the same obstruction behind the fan.
LongRunner wrote:why increase the height of the PSU from standard ATX while keeping the fan size the same???
Wester547 wrote:There was no lubricant left in the ADDA sleeve bearing fan, you say? So it must not have been spinning very fast at all until high loads? Or was it spinning about as fast as other temperature controlled and newer AD0812HS-A70GL fans you see used in PSUs?
Wester547 wrote:And it looks to me like +3.3V has its own transformer tap separate from the +5V rail... do you mean that the extra transformer tap is in fact sharing the +5V rail's transformer pin judging by the underside of the PCB? Or maybe it does have its own transformer tap but is still connected to the +5V output? My reason for asking is that linear regulating +5V to +3.3V would waste tons of power.
Wester547 wrote:That primary heatsink doesn't look bad to me at all... good thing that fan isn't mounted on the other end of the PSU, otherwise that passive PFC would be blocking lots of airflow to the primary side!
Wester547 wrote:I also think the FYP1010DN is freewheeling for the +12V rail. I don't know if that would make it good for 30A in forward topology? More like 26A at the most as evidenced by the review, perhaps closer to 24A-25A in warmer weather.
Wester547 wrote:It looks to me like they used an N-Channel Stripfet known as STP40NF03L to regulate the +3.3V rail. It also looks like Chicony's soldering quality has improved over time. Their soldering was not always this good and used to be average.
Wester547 wrote:( Any 3300uF Teapo SCs in there or was it 2200uF from what you saw (I spotted some 1000uFs in there)? And what was the bridge rectifier?
Wester547 wrote:Also, was the Chemi-con capacitor a KZH? And was it 2200uF or 1000uF?
Wester547 wrote:Also, the power factor is somewhat low for a P-PFC unit
Wester547 wrote:and judging by the datecode of those Teapo capacitors and the main transformer, this is a 2005 power supply?
Wester547 wrote:One last thing... you don't think a wire grille would be more open for the fan?
Forward is also somewhat inefficient because the use of half-wave rectification on the output, but you can make up for that by overspecing lots. +3.3V has its own transformer pin... but isn't the amount of power on the +3.3V rail still in part limited by the +5V rail or is it different in a linear regulated design?c_hegge wrote:You're right. I have fixed up that bit. The 3.3V rail does have it's own transformer pin (it was the freewheeling side that was shared ) I don't know how I made that mistake. In any case, though, it definitely uses linear conversion, which probably explains why it was so inefficient, despite being a forward design.
Wester547 wrote:And well, to my knowledge, +5V and +3.3V in older, group regulated designs at least, share the same transformer output, so you can't draw some power from the +5V rail without having less available on the +3.3V rail as well (which is the reason for the combined +5V/+3.3V rating - in a sense, they are more limited by the combined rating than by the full ability of the main transformer). I was wondering if the same applied for +3.3V linear regulated circuits (since it has its own transformer tap in this case)?
Wester547 wrote:Also, in the Hipro, is the +12V rail missing a PI filter coil or is it just hard to see in the images (if it is, I would imagine those two 2200uF 16V Teapo SCs would have to be in parallel to achieve such low ripple)?
c_hegge (in the review) wrote:...bearings...
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