Protection Features
| OCP (Cold @ 26°C) | 12V: 97.2A (137.29%), 12.085V 5V: 25.5A (127.5%), 4.948V 3.3V: 25.9A (129.5%), 3.271V 5VSB: 4.8A (160%), 4.962V |
| OCP (Hot @ 44°C) | 12V: 87.6A (123.73%), 12.103V 5V: 24.6A (123%), 4.948V 3.3V: 24.6A (123%), 3.273V 5VSB: 4.8A (160%),4.936V |
| OPP (Cold @ 26°C) | 1175.06W (138.31%) |
| OPP (Hot @ 43°C) | 1060.39W (124.81%) |
| OTP | ✓ (137°C @ heat sink) |
| 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 Thermistor & Bypass relay |
The protection features are correctly set, although, ideally, the 12V rail’s OCP at cold conditions could be slightly lower, between 130% and 135%. The OCP and OPP triggering points under high temperatures are notably lower, effectively protecting the PSU. All the other major protection features are present and work well.
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My 9060XT 16GB graphics card has a typical board power (TBP) of 160W to 182W, which requires 13.3A to 15.2A of current. The card uses a 6+2 pin PCIe connector (600mm), but many power supplies use a mix of 16AWG and 18AWG wires for these connectors. Will the 18AWG wires be able to safely handle that much current?
3x gauges handle this current so it is ok.
please mate would you do a review Zalman Teramax II ATX 3.0 ?
will try to do so ok!
–“…and it managed to pass all tests”
Well, I see one red flag on the minor rail. If I’m counting it right, it’s just 0.42% out of 5% tolerance (5.42% under 3.3V)… or I miss something?