Advanced Transient Response Tests

In these tests, we monitor the response of the PSU in two different scenarios. First, a transient load (10 A at +12V, 5 A at 5V, 5 A at 3.3V, and 0.5 A at 5VSB) is applied to the PSU for 200 ms while the latter is working at a 20% load state. In the second scenario, the PSU, while working at 50% load, is hit by the same transient load. In both tests, we measure the voltage drops that the transient load causes using our oscilloscope. The voltages should remain within the regulation limits defined by the ATX specification. We must stress here that the above tests are crucial since they simulate transient loads that a PSU is very likely to handle (e.g., booting a RAID array, an instant 100% load of CPU/VGAs, etc.). We call these tests "Advanced Transient Response Tests", and they are designed to be very tough to master, especially for PSUs with capacities lower than 500 W.





Deviations on the +12V rail were small on both tests, much lower than 1%. This is the kind of performance we expect from a very good unit. Voltage drops on the minor rails were well controlled. The 3.3V rail registered the highest deviation amongst all rails, but it still didn't exceed 3.5%.

Below, you will find the oscilloscope screenshots that we took during Advanced Transient Response Testing.

Transient Response at 20% Load

Transient Response at 50% Load

Turn-On Transient Tests

We measure the response of the PSU in simpler scenarios of transient loads--during the power-on phase of the PSU--in the next set of tests. In the first test, we turn the PSU off, dial the maximum current that the 5VSB can output, and then switch on the PSU. In the second test, we dial the maximum load that +12V can handle and start the PSU while the PSU is in standby mode. In the last test, while the PSU is completely switched off (we cut off power or switch off the PSU's on/off switch), we dial the maximum load that the +12V rail can handle before switching the PSU on from the loader and restoring power. The ATX specification states that recorded spikes on all rails should not exceed 10% of their nominal values (e.g., +10% for 12V is 13.2V and 5.5V for 5V).


The only noticeable overshoot was registered during the last test, but it was still much lower than even the nominal voltage of the specific rail. That said, the slopes of both +12V tests aren't that smooth, and the same tests also had a rise time that was a little longer than we would like, but it was still within the specified limits.