Aywun Silver Series A1-550S Power Supply Review

Load Testing

Test 1 (75.45W Load)

Rail	Load	Voltage	Ripple
12V	2.41A	12.12V	8.0mV
5V	5.09A	5.09V	10.4mV
3.3V	4.94A	3.36V	7.8mV
−12V	0.1A	−11.78V	13.2mV
5Vsb	0.51A	5.07V	7.8mV
AC Power	86.7W
Efficiency	87.02%
Power Factor	0.91
Intake Temp	32°C
Exhaust Temp	34°C

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Test 2 (162.47W Load)

Rail	Load	Voltage	Ripple
12V	9.43A	12.10V	15.0mV
5V	5.08A	5.08V	11.2mV
3.3V	4.93A	3.35V	7.8mV
−12V	0.1A	−11.85V	30.4mV
5Vsb	1.01A	5.04V	12.4mV
AC Power	180.73W
Efficiency	89.90%
Power Factor	0.93
Intake Temp	32°C
Exhaust Temp	37°C

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Test 3 (204.96W Load)

Rail	Load	Voltage	Ripple
12V	9.43A	12.08V	17.6mV
5V	10.12A	5.06V	11.4mV
3.3V	10.09A	3.33V	8.6mV
−12V	0.1A	−11.9V	39.0mV
5Vsb	1.01A	5.03V	12.8mV
AC Power	226.6W
Efficiency	90.45%
Power Factor	0.94
Intake Temp	32°C
Exhaust Temp	41°C

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Test 4 (259.04W Load)

Rail	Load	Voltage	Ripple
12V	13.94A	12.05V	23.8mV
5V	10.12A	5.06V	11.6mV
3.3V	10.09A	3.33V	9.8mV
−12V	0.1A	−11.95V	51.2mV
5Vsb	1.01A	5.03V	12.4mV
AC Power	287.05W
Efficiency	90.24%
Power Factor	0.94
Intake Temp	32°C
Exhaust Temp	42°C

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Test 5 (311.46W Load)

Rail	Load	Voltage	Ripple
12V	18.37A	12.02V	33.4mV
5V	10.1A	5.05V	12.2mV
3.3V	10.06A	3.32V	10.2mV
−12V	0.1A	−12.01V	64.4mV
5Vsb	1.0A	5.02V	12.6mV
AC Power	347.32W
Efficiency	89.76%
Power Factor	0.95
Intake Temp	32°C
Exhaust Temp	43°C

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Test 6 (366.06W Load)

Rail	Load	Voltage	Ripple
12V	22.95A	12.0V	41.2mV
5V	10.1A	5.05V	12.8mV
3.3V	10.06A	3.32V	10.2mV
−12V	0.1A	−12.06V	76.8mV
5Vsb	1.0A	5.02V	13.2mV
AC Power	410.18
Efficiency	89.24%
Power Factor	0.95
Intake Temp	33°C
Exhaust Temp	44°C

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Test 7 (394.74W Load)

Rail	Load	Voltage	Ripple
12V	22.95A	12.0V	46.0mV
5V	10.1A	5.05V	13.4mV
3.3V	10.06A	3.32V	10.8mV
−12V	0.1A	−12.08V	82.0mV
5Vsb	1.0A	5.02V	13.4mV
AC Power	443.28W
Efficiency	89.05%
Power Factor	0.95
Intake Temp	33°C
Exhaust Temp	45°C

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Test 8 (466.06W Load)

Rail	Load	Voltage	Ripple
12V	27.63A	11.99V	70.8mV
5V	15.09A	5.03V	15.4mV
3.3V	14.85A	3.30V	12.0mV
−12V	0.2A	−11.96V	109.4mV
5Vsb	1.5A	4.99V	14.0mV
AC Power	532.5W
Efficiency	87.52%
Power Factor	0.96
Intake Temp	34°C
Exhaust Temp	47°C

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Test 9 (524.0W Load)

Rail	Load	Voltage	Ripple
12V	32.19A	11.98V	113.4mV
5V	15.09A	5.03V	16.2mV
3.3V	14.85A	3.30V	12.2mV
−12V	0.3A	−11.88V	146.2mV
5Vsb	1.99A	4.98V	15.2mV
AC Power	606.92W
Efficiency	86.34%
Power Factor	0.96
Intake Temp	35°C
Exhaust Temp	49°C

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Test 10 (550.14W Load)

Rail	Load	Voltage	Ripple
12V	34.4A	11.97V	163.2mV
5V	15.09A	5.03V	17.2mV
3.3V	14.85A	3.30V	12.6mV
−12V	0.3A	−11.89V	194.0mV
5Vsb	1.99A	4.98V	15.4mV
AC Power	645.71W
Efficiency	85.20%
Power Factor	0.96
Intake Temp	35°C
Exhaust Temp	52°C

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Unlike my last Aywun unit, this one did actually manage to hold 550W load with no shutdowns or fireworks. The 12V rail read 12.12V during Test 1 and had dropped to 11.97V at full load, which equates to 0.12V (1%) worst-case regulation and a drop of 0.15V (1.25%). The 5V rail started out at 5.09V and finished up at 5.03V, which equates to 0.09V, or 1.8% regulation and a 0.06V or 1.2% drop. Last but not least, the 3.3V rail was at 3.36V in test 1 and right on 3.3V at full load, which equates to 0.06V, or 1.82% on both fronts. This is a good voltage regulation result, especially for a lower cost unit.

Efficiency was decent at low loads, but at full load, the unit was just barely maintaining 80 PLUS Silver efficiency. Since this unit was tested on 230V, it would have been nice to see slightly higher results than this. That said, however, I won’t score against it. It was still above the required 85%, and my power meter isn’t as precise as what Ecova use. This power supply ran hot in comparison to some others. By the time we hit 200W Load, we already had a difference of 9°C between the intake and exhaust temperatures. At full load, the difference had risen to 17°. That makes this the hottest running power supply I have tested since I started measuring the temperatures.

Rail	Test 9 (524.0W)	Test 10 (550.14W)
12V
5V
3.3V
−12V
5Vsb

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The ripple suppression is where this power supply really falls on its face (if an ATX power supply had a face). At full load, the 12V rail was reading 163.2mV – over 40mV above the maximum allowed in ATX specifications. For this reason, I opted not to overload this unit, since we already know what its maximum is. The −12V rail was even worse. At least it isn’t used on most modern PCs. The other rails all had excellent ripple suppression – with less than 20mV throughout the testing.

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