Ergebnisse
Stability: 12V |
12V CPU Loadless | | 12V Drives Loadless | | 12V GPU Loadless | | 12V CPU Low | | 12V Drives Low | | 12V GPU Low | | 12V CPU Mean load (350W) | | 12V Drives Mean load (350W) | | 12V GPU Mean load (350W) | | 12V CPU 100% rail (24A) | | 12V CPU Full load (1200W) | | 12V Drives Full load (1200W) | | 12V GPU Full load (1200W) | | |
| 0 14 7 | volts |
|
Stability: -12V |
Loadless | | Low | | Mean load (350W) | | Full load (550W) | | |
| -14 0 -7 | volts |
|
Stability: 5V |
Loadless | | Low | | Mean load (350W) | | 100% rail (30A) | | Full load (1200W) | | |
| 0 6 3 | volts |
|
Stability: 5V Stand-by |
Loadless | | Low | | Mean load (350W) | | Full load (1200W) | | |
| 0 6 3 | volts |
|
Stability: 3.3V |
Loadless | | Low | | Mean load (350W) | | 100% rail (30A) | | Full load (1200W) | | |
| 0 4 2 | volts |
|
Die 12V-Schinen blieben über den gesamten Test mehrheitlich stabil. Anders sieht es bei den 3.3V- und 5V-Schienen aus. Unter Volllast lagen sie um 7.1 bzw. 5.3% zu tief, toleriert wären 5% Abweichung.