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Wentai Aidan 1616 W Review - The Corsair AX1600i Challenger?
Cross Load Tests »Test Setup
Primary Rails Load Regulation
The following charts show the voltage values of the main rails, recorded over a range from 60 W to the maximum specified load, and the deviation (in percent) for the same load range. Tight load regulation is an important characteristic for every power supply because it allows for constant voltage levels despite changes in load.
5VSB Regulation
Hold-up Time
Hold-up time represents the amount of time—usually measured in milliseconds—a PSU can maintain output regulations as defined by the ATX specification without input power. Hold-up time is the amount of time the system can continue to run without shutting down or rebooting during a power interruption. In the following screenshots, the blue line is the mains signal, the green line is the "Power Good" signal, and the yellow line represents the +12 V rail.
Inrush Current
Inrush current, or switch-on surge, refers to the maximum, instantaneous input current drawn by an electrical device when it is first turned on. High enough inrush current can cause the tripping of circuit breakers and fuses, and may also damage switches, relays, and bridge rectifiers. As a result, the lower the inrush current of a PSU right as it is turned on, the better.
10-110% Load Testing
These tests reveal the PSU's load regulation and efficiency levels under high ambient temperatures. They also show how the fan-speed profile behaves under tough operating conditions.| Load Regulation & Efficiency Testing Data - Wentai Aidan - T1616 | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Test | 12 V | 5 V | 3.3 V | 5VSB | Power (DC/AC) | Efficiency | Fan Speed | PSU Noise | Temp (In/Out) | PF/AC Volts |
| 10% Load | 11.635A | 1.971A | 1.960A | 0.989A | 161.597W | 91.719% | 0 RPM | <6.0 dB(A) | 45.80°C | 0.827 |
| 12.033V | 5.071V | 3.367V | 5.054V | 176.187W | 40.02°C | 230.18V | ||||
| 20% Load | 24.273A | 2.964A | 2.947A | 1.190A | 323.249W | 94.756% | 0 RPM | <6.0 dB(A) | 47.05°C | 0.894 |
| 12.044V | 5.063V | 3.358V | 5.044V | 341.140W | 40.94°C | 230.19V | ||||
| 30% Load | 37.172A | 3.461A | 3.447A | 1.391A | 484.060W | 95.777% | 0 RPM | <6.0 dB(A) | 48.38°C | 0.945 |
| 12.052V | 5.058V | 3.352V | 5.035V | 505.401W | 41.30°C | 230.19V | ||||
| 40% Load | 50.195A | 3.959A | 3.946A | 1.592A | 646.050W | 95.950% | 0 RPM | <6.0 dB(A) | 49.32°C | 0.960 |
| 12.050V | 5.052V | 3.345V | 5.025V | 673.322W | 41.79°C | 230.20V | ||||
| 50% Load | 62.793A | 4.957A | 4.946A | 1.795A | 807.788W | 95.792% | 0 RPM | <6.0 dB(A) | 50.19°C | 0.967 |
| 12.060V | 5.044V | 3.336V | 5.015V | 843.269W | 42.22°C | 230.19V | ||||
| 60% Load | 75.473A | 5.959A | 5.952A | 1.999A | 969.483W | 95.446% | 768 RPM | 29.4 dB(A) | 42.48°C | 0.977 |
| 12.053V | 5.035V | 3.327V | 5.003V | 1015.745W | 51.09°C | 230.20V | ||||
| 70% Load | 88.007A | 6.966A | 6.965A | 2.204A | 1130.830W | 94.931% | 767 RPM | 29.4 dB(A) | 43.04°C | 0.983 |
| 12.064V | 5.026V | 3.317V | 4.991V | 1191.208W | 52.01°C | 230.20V | ||||
| 80% Load | 100.593A | 7.974A | 7.979A | 2.410A | 1292.962W | 94.346% | 1114 RPM | 37.7 dB(A) | 43.83°C | 0.986 |
| 12.074V | 5.017V | 3.308V | 4.980V | 1370.453W | 53.32°C | 230.20V | ||||
| 90% Load | 113.657A | 8.483A | 8.481A | 2.413A | 1453.891W | 93.758% | 1264 RPM | 40.9 dB(A) | 44.16°C | 0.988 |
| 12.066V | 5.011V | 3.301V | 4.974V | 1550.689W | 54.34°C | 230.20V | ||||
| 100% Load | 126.575A | 8.995A | 9.016A | 3.028A | 1615.955W | 93.119% | 1401 RPM | 43.6 dB(A) | 45.11°C | 0.987 |
| 12.058V | 5.004V | 3.294V | 4.955V | 1735.374W | 55.62°C | 230.20V | ||||
| 110% Load | 140.095A | 9.003A | 9.031A | 3.031A | 1777.996W | 92.560% | 2203 RPM | 52.5 dB(A) | 46.85°C | 0.987 |
| 12.051V | 5.000V | 3.288V | 4.950V | 1920.904W | 57.67°C | 230.20V | ||||
| Crossload 1 | 0.104A | 12.002A | 11.999A | 0.000A | 101.566W | 81.774% | 0 RPM | <6.0 dB(A) | 50.46°C | 0.778 |
| 12.031V | 5.031V | 3.328V | 5.056V | 124.203W | 42.77°C | 230.23V | ||||
| Crossload 2 | 134.672A | 1.000A | 1.001A | 1.000A | 1637.398W | 93.328% | 1420 RPM | 52.5 dB(A) | 45.01°C | 0.987 |
| 12.059V | 5.041V | 3.329V | 5.015V | 1754.453W | 55.90°C | 230.20V | ||||
Besides 230 V input, I also fully tested with 115 V and 100 V input. Unfortunately, the PSU was unable to handle the full load with 100 V input, as well as 110% load with 115 V input.
Light Load Testing
In the following tests, we measure the PSU's efficiency at loads significantly lower than 10 percent of its maximum capacity (the lowest load the 80 PLUS standard measures). This is important for representing when a PC is idle with its power-saving features turned on.| Efficiency at Low Loads - Wentai Aidan - T1616 | |||||||||
|---|---|---|---|---|---|---|---|---|---|
| Test # | 12 V | 5 V | 3.3 V | 5 VSB | Power (DC/AC) | Efficiency | Fan Speed | PSU Noise | PF/AC Volts |
| 1 | 2.896A | 0.492A | 0.489A | 0.197A | 40.029W | 71.107% | 0 RPM | <6.0 dB(A) | 0.476 |
| 12.045V | 5.078V | 3.375V | 5.073V | 56.294W | 230.21V | ||||
| 2 | 4.126A | 0.985A | 0.976A | 0.395A | 59.979W | 77.124% | 0 RPM | <6.0 dB(A) | 0.703 |
| 12.042V | 5.076V | 3.373V | 5.069V | 77.770W | 230.21V | ||||
| 3 | 5.362A | 1.477A | 1.468A | 0.593A | 80.008W | 81.417% | 0 RPM | <6.0 dB(A) | 0.743 |
| 12.041V | 5.074V | 3.370V | 5.064V | 98.269W | 230.21V | ||||
| 4 | 6.599A | 1.971A | 1.959A | 0.791A | 100.040W | 84.826% | 0 RPM | <6.0 dB(A) | 0.773 |
| 12.039V | 5.071V | 3.368V | 5.058V | 117.935W | 230.21V | ||||
Ultra-Light Load Testing
The applied load in this test is only 10 W for PSUs with 500 W and less capacity. For stronger units, we dial in 2% of the maximum-rated capacity. We only run this test with 115 V input.| Efficiency at Low Loads - Wentai Aidan - T1616 | |||||||||
|---|---|---|---|---|---|---|---|---|---|
| Test # | 12 V | 5 V | 3.3 V | 5 VSB | Power (DC/AC) | Efficiency | Fan Speed | PSU Noise | PF/AC Volts |
| 1 | 2.512A | 0.225A | 0.227A | 0.056A | 32.438W | 77.432% | 0 RPM | <6.0 dB(A) | 0.880 |
| 12.040V | 5.082V | 3.378V | 5.080V | 41.892W | 115.12V | ||||
Efficiency
Using the results we gathered so far, we plotted a chart showing the PSU's efficiency at low loads, and loads from 10 to 110 percent of its maximum-rated capacity.
Although efficiency with 2% of the load is very high, it wasn't all that high with the 40 to 100 W load range. With 20% to 100% of its maximum-rated-capacity, the Wentai PSU is the second-best PSU in our charts.
5VSB Efficiency
| 5VSB Efficiency - Wentai Aidan - T1616 | ||||
|---|---|---|---|---|
| Test # | 5VSB | Power (DC/AC) | Efficiency | PF/AC Volts |
| 1 | 0.100A | 0.499W | 72.953% | 0.025 |
| 4.992V | 0.684W | 230.23V | ||
| 2 | 0.250A | 1.248W | 78.639% | 0.055 |
| 4.989V | 1.587W | 230.23V | ||
| 3 | 0.550A | 2.741W | 80.927% | 0.113 |
| 4.982V | 3.387W | 230.23V | ||
| 4 | 1.000A | 4.973W | 81.928% | 0.188 |
| 4.972V | 6.070W | 230.23V | ||
| 5 | 1.500A | 7.443W | 82.307% | 0.253 |
| 4.962V | 9.043W | 230.23V | ||
| 6 | 3.000A | 14.785W | 82.016% | 0.370 |
| 4.928V | 18.027W | 230.23V | ||
The 5VSB rail is very efficient.
Power Consumption in Idle and Standby
| Idle / Standby - Wentai Aidan - T1616 | ||||||
|---|---|---|---|---|---|---|
| Mode | 12 V | 5 V | 3.3 V | 5VSB | Power (AC) | PF/AC Volts |
| Idle | 12.051V | 5.080V | 3.378V | 5.078V | 7.430W | 0.214 |
| 230.2V | ||||||
| Standby | 0.071W | 0.003 | ||||
| 230.2V | ||||||
Fan RPM, Delta Temperature and Output Noise
The following results were obtained at 37–47 °C ambient.
The following results were obtained at 30–32 °C ambient.
Jul 8th, 2024 19:46 EDT
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