Transient Response
20% Load – 20ms
| Advanced Transient Response 20% - 50 Hz - No Caps | ||||
| Voltage | Before | After | Change | Pass/Fail |
| 12V | 12.125V | 11.933V | 1.58% | Pass |
| 5V | 5.097V | 4.988V | 2.14% | Pass |
| 3.3V | 3.325V | 3.171V | 4.62% | Pass |
| 5VSB | 5.003V | 4.944V | 1.18% | Pass |
50% Load -20ms
| Advanced Transient Response 50% - 50 Hz - No Caps | ||||
| Voltage | Before | After | Change | Pass/Fail |
| 12V | 12.105V | 11.912V | 1.59% | Pass |
| 5V | 5.089V | 4.974V | 2.26% | Pass |
| 3.3V | 3.318V | 3.158V | 4.83% | Pass |
| 5VSB | 4.971V | 4.909V | 1.25% | Pass |
The transient response with normal loads is not competitive at 12V, the most critical rail, and the same applies to 3.3V. On the other hand, it is decent at 5V.
Transient Response ATX v3.1 Tests
The PSU passes all ATX v3.1 transient response tests.
The 12V rail’s performance is decent at high transient loads.
Pages:
Yello, I’m in India and only have two same priced PSU options: MSI MAG A750GL and Deepcool PN750M, everything else is priced at 1.5 to 2 times these psu. They are almost identical units, but I’m still confused which to get. Which would you suggest?
THANKS! 😁
MSI
Hi Aris, quick clarification, when I asked about the MSI A750GL vs PN750M (under the GLS review), did you mean the GL or the GLS model in your reply? I only have the GL variant available.
The one you had in your answer.