Protection Features
OCP (Cold @ 24.4°C) | 12V: 62.00A (135.37%), 12.020V 5V: 29.2A (146.00%), 5.045V 3.3V: 30.5A (152.50%), 3.334V 5VSB: 3.8A (126.67%), 4.946V |
OCP (Hot @ 41.2°C) | 12V: 62.00A (135.37%), 12.038V 5V: 29.2A (146.00%), 5.045V 3.3V: 30.9A (154.50%), 3.332V 5VSB: 3.8A (126.67%), 4.939V |
OPP (Cold @ 28.9°C) | 736.60W (133.93%) |
OPP (Hot @ 40.1°C) | 736.59W (133.92%) |
OTP | ✓ (155°C @ Secondary Side) |
SCP | 12V to Earth: ✓ 5V to Earth: ✓ 3.3V to Earth: ✓ 5VSB to Earth: ✓ -12V to Earth: ✓ |
PWR_OK | Proper Operation |
NLO | ✓ |
Fan Failure Protection | ✗ |
SIP | Surge: MOV Inrush: NTC & Bypass Relay |
The 12V rail’s overcurrent protection is set above 130% because this low-capacity unit has to cope with increased power spikes that last long. The problem is that it is identical in cold and hot conditions. Typically, OCP should be set lower at high temperatures to protect the unit effectively. The same goes for the minor rails, which generally have sky-high OCP triggering points.
The OPP triggering point is reasonably set, but again, the setting is identical at cold and hot temperatures, so it doesn’t effectively protect the PSU. Lastly, all other essential protection features are present and work well.
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Can you do a review of the Thermalright TP-1000/1200? There’s a frustratingly low amount of information about it. Thanks in advance.
If I manage to find them sure.