Hold-Up Time
Hold-up time represents the duration a PSU can maintain stable output as defined by the ATX specification without input power. This is very important when the quality of your electricity varies, and there are short drops in the supply (dips or brownouts).
In the oscilloscope screenshots below, the blue line is the AC input mains signal, the green line the "Power Good" signal, and the yellow line the +12V rail. The measured timing variable is listed as ΔX.
Hold-Up Time
AC Loss to PWR_OK Hold-Up Time
PWR_OK Inactive to DC Loss Delay
Hold-up time is incredibly long at 30.2 ms, and the power ok signal is accurate.
Timings for Alternative Sleep Mode (ASM)
Traditionally, sleep mode (S3) shuts the system off for a long time (minutes or hours) to reduce power consumption. However, this approach adds a few seconds of delay when resuming from standby. Microsoft recently introduced Modern Sleep, which brings the instant-on capability to PCs—just like your phone instantly turns on without any noticeable delay. Modern Sleep builds on the Alternative Sleep Mode capability, which Intel has defined. To support ASM, a power supply must wake up from sleep quickly to ensure system stability—think of it as the PSU's boot time.
Source: IntelTimings for Alternative Sleep Mode |
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Parameter | Description | Recommended Value |
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T0 | AC power-on time | < 2s |
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T1 | Power-on time | < 150 ms |
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T2 | Rise time | 0.2–20 ms |
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T3 | PWR_OK delay | 100–150 ms |
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T4 | PWR_OK rise time | < 10 ms |
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T5 | AC loss to PWR_OK hold-up time | > 16 ms |
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T6 | PWR_OK inactive to DC loss delay | > 1 ms |
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I measured T1 and T3 for the reviewed PSU at 20% and 100% load.
T1 (Power-on time) & T3 (PWR_OK delay) |
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Load | T1 | T3 |
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20% | 142 ms | 336 ms |
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100% | 146 ms | 334 ms |
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Power-on time should be below 100 ms to maximize compatibility with mainboards, and the PWR_OK delay is well above 150 ms, which means this PSU does not support Alternative Sleep Mode. I expected better results here.