Ergebnisse 680W-Modell
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 (18A) | | 12V Drives 100% rail (18A) | | 12V GPU 100% rail (18A) | | 12V CPU Full load (680W) | | 12V Drives Full load (680W) | | 12V GPU Full load (680W) | | |
| 0 14 7 | volts |
|
Stability: -12V |
Loadless | | Low | | Mean load (350W) | | Full load (680W) | | |
| -14 0 -7 | volts |
|
Stability: 5V |
Loadless | | Low | | Mean load (350W) | | 100% rail (28A) | | Full load (680W) | | |
| 0 6 3 | volts |
|
Stability: 5V Stand-by |
Loadless | | Low | | Mean load (350W) | | Full load (680W) | | |
| 0 6 3 | volts |
|
Stability: 3.3V |
Loadless | | Low | | Mean load (350W) | | 100% rail (30A) | | Full load (680W) | | |
| 0 4 2 | volts |
|
Ergebnisse 880W-Modell
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 (2x18A) | | 12V Drives 100% rail (30A) | | 12V GPU 100% rail (30A) | | 12V CPU Full load (880W) | | 12V Drives Full load (880W) | | 12V GPU Full load (880W) | | |
| 0 14 7 | volts |
|
Stability: -12V |
Loadless | | Low | | Mean load (350W) | | Full load (880W) | | |
| -14 0 -7 | volts |
|
Stability: 5V |
Loadless | | Low | | Mean load (350W) | | 100% rail (30A) | | Full load (880W) | | |
| 0 6 3 | volts |
|
Stability: 5V Stand-by |
Loadless | | Low | | Mean load (350W) | | Full load (880W) | | |
| 0 6 3 | volts |
|
Stability: 3.3V |
Loadless | | Low | | Mean load (350W) | | 100% rail (30A) | | Full load (880W) | | |
| 0 4 2 | volts |
|
Bei beiden Modellen und auch beim kürzlich getesteten TypeM bricht einzig die 3.3V-Schiene unter Volllast etwas ein und zwar um 5.3 bzw. 5.4%. Die 12V-Schienen bleiben hingegen überaus stabil.