SATA (445mm+105mm+105mm+105mm) / 4-pin Molex (+100mm)
2
8 / 2
18AWG
No
Modular Cables
AC Power Cord (1395mm) - C13 coupler
1
1
18AWG
-
Test Results
Temperature & Compliance Info
Temperature Range (°C /°F)
30-32 / 86-89.6
ErP Lot 3/6 Ready
✓
(EU) No 617/2013 Compliance
✓
ALPM (Alternative Low Power Mode) compatible
✓
ATX v3.1 PSU Power Excursion
✓
Performance Summary
Efficiency Rating
SILVER
Noise Rating
Standard+
Average Efficiency (>1450 load combinations)
86.252%
Average Noise Output (>1450 Load Combinations)
35.21dBA
Average PF (>1450 Load Combinations)
0.986
Efficiency With 10W (≤500W) or 2% (>500W) Load
61.262%
Standby Power Consumption
0.0311W
12V Ripple (Full Load)
33.00mV
5V Ripple (Full Load)
19.95mV
3.3V Ripple (Full Load)
18.49mV
5VSB Ripple (Full Load)
17.69mV
12V Load Regulation
0.68%
5V Load Regulation
0.45%
3.3V Load Regulation
0.76%
5VSB Load Regulation
3.59%
Inrush Current
47.460A
Efficiency Rating
SILVER
Noise Rating
Standard++
Average Efficiency (>1450 load combinations)
88.600%
Average Noise Output (>1450 Load Combinations)
34.65dBA
Average PF (>1450 Load Combinations)
0.949
Efficiency With 10W (≤500W) or 2% (>500W) Load
60.197%
Standby Power Consumption
0.0673W
12V Ripple (Full Load)
30.95mV
5V Ripple (Full Load)
18.24mV
3.3V Ripple (Full Load)
17.39mV
5VSB Ripple (Full Load)
13.92mV
12V Load Regulation
0.69%
5V Load Regulation
0.45%
3.3V Load Regulation
0.73%
5VSB Load Regulation
3.63%
Inrush Current
73.840A
12V Transient Response (200%)
11.35V
5V Transient Response (200%)
5.046V
3.3V Transient Response (200%)
3.223V
5VSB Transient Response (200%)
4.929V
Hold-Up Time & Power Ok Signal
15.80ms
AC Loss to PWR_OK Hold Up Time
14.40ms
PWR_OK Inactive to DC Loss Delay
1.40ms
PSU Timings: T1 (20% / 100%)
27.0ms
27.0ms
PSU Timings: T3 (20% / 100%)
117.0ms
118.0ms
OPP (25.64°C / 43.22°C)
115.51%
121.57%
Hold-Up Time & Power Ok Signal
Hold-Up Time (ms)
15.8
AC Loss to PWR_OK Hold Up Time (ms)
14.4
PWR_OK Inactive to DC Loss Delay (ms)
1.4
Vampire Power
Tables
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
115.17 V
115.16 V
113.85 V
115.20 V
116.15 V
PASS
Mains Frequency:
60.00 Hz
59.99 Hz
59.40 Hz
60.01 Hz
60.60 Hz
PASS
Mains Voltage CF:
1.415
1.415
1.340
1.416
1.490
PASS
Mains Voltage THD:
0.13 %
0.10 %
N/A
0.15 %
2.00 %
PASS
Real Power:
0.031 W
0.007 W
N/A
0.047 W
N/A
N/A
Apparent Power:
8.439 W
8.435 W
N/A
8.446 W
N/A
N/A
Power Factor:
0.005
N/A
N/A
N/A
N/A
N/A
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
230.38 V
230.38 V
227.70 V
230.42 V
232.30 V
PASS
Mains Frequency:
50.00 Hz
50.00 Hz
49.50 Hz
50.00 Hz
50.50 Hz
PASS
Mains Voltage CF:
1.415
1.415
1.340
1.416
1.490
PASS
Mains Voltage THD:
0.14 %
0.13 %
N/A
0.16 %
2.00 %
PASS
Real Power:
0.067 W
0.057 W
N/A
0.079 W
N/A
N/A
Apparent Power:
28.249 W
28.236 W
N/A
28.264 W
N/A
N/A
Power Factor:
0.002
N/A
N/A
N/A
N/A
N/A
Graphs
Efficiency Graph
INFO
This graph depicts the PSU`s efficiency throughout its entire operational range. For the generation of the efficiency and noise graphs we set our loaders to auto mode through our custom-made software before trying thousands of possible load combinations
INFO
This graph depicts the PSU`s efficiency throughout its entire operational range. For the generation of the efficiency and noise graphs we set our loaders to auto mode through our custom-made software before trying thousands of possible load combinations
Noise Graph
INFO
The PSU`s noise in its entire operational range and under 30-32 °C ambient is depicted in this graph. The X axis represents the load on the +12V rail(s) while the Y axis is the load on the minor rails
INFO
The PSU`s noise in its entire operational range and under 30-32 °C ambient is depicted in this graph. The X axis represents the load on the +12V rail(s) while the Y axis is the load on the minor rails
Indicative Performance
Efficiency under high ambient temperature
INFO
The PSU`s efficiency under high ambient temperatures with 115V and 230V input. For this graph the results of the 10-110% load regulation table are used
5VSB Efficiency
INFO
This graph depicts the efficiency levels of the 5VSB rail with 115V and 230V input
5VSB Efficiency (ERP LOT 3/6 & CEC)
Test #
5VSB
DC/AC (Watts)
Efficiency
PF/AC Volts
1
0.041A
0.211
68.954%
0.030
5.107V
0.306
115.20V
2
0.087A
0.442
75.685%
0.058
5.107V
0.584
115.20V
3
0.541A
2.759
79.925%
0.265
5.096V
3.452
115.18V
4
1.001A
5.091
77.892%
0.371
5.085V
6.536
115.18V
5
1.501A
7.613
77.692%
0.427
5.072V
9.799
115.18V
6
2.500A
12.617
75.370%
0.482
5.046V
16.740
115.19V
Test #
5VSB
DC/AC (Watts)
Efficiency
PF/AC Volts
1
0.045A
0.228W
63.341%
0.013
5.056V
0.36W
230.45V
2
0.09A
0.455W
70.397%
0.023
5.054V
0.647W
230.42V
3
0.55A
2.773W
80.563%
0.116
5.04V
3.44W
230.41V
4
1A
5.028W
82.083%
0.191
5.026V
6.127W
230.4V
5
1.5A
7.519W
82.102%
0.257
5.011V
9.159W
230.4V
6
3.001A
14.896W
81.232%
0.369
4.964V
18.339W
230.39V
Supplementary Tests (For Reference)
Typical Load Tests
Test
12V
5V
3.3V
5VSB
DC/AC (Watts)
Efficiency
Fan Speed (RPM)
PSU Noise (dB[A])
Temps (In/Out)
PF/AC Volts
10%
3.595A
1.963A
1.992A
0.997A
65.01
82.817%
1052
24.8
40.16°C
0.968
12.073V
5.096V
3.313V
5.016V
78.498
44.37°C
115.14V
20%
8.212A
2.946A
2.991A
1.2A
129.97
87.3%
1059
25.2
40.73°C
0.976
12.065V
5.094V
3.31V
5.002V
148.881
45.32°C
115.13V
30%
13.181A
3.438A
3.492A
1.404A
194.979
88.394%
1064
25.4
41.21°C
0.98
12.057V
5.092V
3.308V
4.988V
220.579
46.29°C
115.11V
40%
18.163A
3.93A
3.993A
1.609A
260.069
88.523%
1070
25.6
41.8°C
0.985
12.049V
5.09V
3.306V
4.974V
293.785
47.4°C
115.1V
50%
22.801A
4.915A
4.995A
1.816A
325.069
88.078%
1226
29.0
42.26°C
0.989
12.041V
5.088V
3.304V
4.958V
369.069
48.29°C
115.07V
60%
27.408A
5.902A
5.999A
2.001A
389.502
87.46%
1536
36.0
42.68°C
0.991
12.033V
5.085V
3.301V
4.944V
445.354
49.21°C
115.06V
70%
32.086A
6.89A
7.005A
2.233A
454.914
86.716%
1830
40.6
43.37°C
0.992
12.024V
5.082V
3.298V
4.928V
524.608
50.43°C
115.04V
80%
36.770A
7.876A
8.011A
2.34A
519.706
85.845%
2021
43.3
43.83°C
0.993
12.015V
5.079V
3.295V
4.915V
605.401
51.85°C
115.02V
90%
41.862A
8.372A
8.504A
2.448A
585.137
84.93%
2095
44.3
44.25°C
0.993
12.007V
5.077V
3.293V
4.903V
688.958
53.25°C
115V
100%
46.699A
8.868A
9.027A
3.079A
649.999
83.774%
2104
44.4
45.79°C
0.994
11.998V
5.075V
3.29V
4.873V
775.897
55.88°C
114.98V
110%
51.411A
9.858A
10.128A
3.085A
714.639
82.49%
2106
44.4
46.54°C
0.994
11.988V
5.073V
3.288V
4.863V
866.335
57.46°C
114.97V
CL1
0.116A
11.842A
12.012A
0A
101.307
81.221%
1096
25.9
40.29°C
0.983
12.058V
5.084V
3.305V
5.028V
124.734
48.73°C
115.14V
CL2
0.116A
19.692A
0A
0A
101.397
80.431%
1094
25.9
40.33°C
0.982
12.064V
5.078V
3.315V
5.036V
126.066
46.94°C
115.14V
CL3
0.116A
0A
19.989A
0A
67.391
75.261%
1063
25.3
40.24°C
0.977
12.062V
5.1V
3.301V
5.032V
89.541
46°C
115.14V
CL4
54.084A
0A
0A
0A
649.746
84.711%
2095
44.2
45.33°C
0.994
12.014V
5.09V
3.3V
4.988V
767.024
58.99°C
114.98V
The results above are not used in the certification process
Test
12V
5V
3.3V
5VSB
DC/AC (Watts)
Efficiency
Fan Speed (RPM)
PSU Noise (dB[A])
Temps (In/Out)
PF/AC Volts
10%
3.594A
1.962A
1.992A
0.997A
64.998
84.25%
1056
25.1
40.33°C
0.84
12.075V
5.097V
3.313V
5.017V
77.151
44.53°C
230.37V
20%
8.208A
2.945A
2.991A
1.2A
129.939
88.918%
1060
25.2
40.71°C
0.922
12.066V
5.094V
3.31V
5.002V
146.135
45.22°C
230.36V
30%
13.178A
3.438A
3.492A
1.404A
194.954
90.309%
1065
25.4
41.14°C
0.94
12.058V
5.092V
3.307V
4.988V
215.872
46.17°C
230.36V
40%
18.160A
3.93A
3.994A
1.609A
260.048
90.583%
1073
25.5
41.84°C
0.956
12.050V
5.09V
3.305V
4.974V
287.084
47.36°C
230.36V
50%
22.797A
4.915A
4.996A
1.815A
325.035
90.341%
1185
28.3
42.18°C
0.961
12.042V
5.088V
3.303V
4.959V
359.787
48.28°C
230.35V
60%
27.394A
5.901A
6A
2A
389.355
89.907%
1505
35.2
42.63°C
0.967
12.034V
5.085V
3.3V
4.944V
433.063
49.17°C
230.34V
70%
32.070A
6.888A
7.006A
2.232A
454.766
89.391%
1775
39.8
43.08°C
0.972
12.025V
5.083V
3.297V
4.928V
508.743
50.14°C
230.33V
80%
36.754A
7.874A
8.013A
2.34A
519.559
88.796%
1989
43.0
43.75°C
0.975
12.016V
5.079V
3.294V
4.915V
585.112
51.89°C
230.32V
90%
41.850A
8.371A
8.505A
2.448A
585.032
88.136%
2097
44.3
44.69°C
0.977
12.008V
5.077V
3.292V
4.903V
663.78
53.78°C
230.32V
100%
46.695A
8.866A
9.028A
3.079A
649.948
87.268%
2107
44.5
45.75°C
0.979
11.998V
5.076V
3.29V
4.872V
744.758
55.79°C
230.33V
110%
51.407A
9.855A
10.132A
3.085A
714.618
86.552%
2102
44.4
46.85°C
0.98
11.989V
5.074V
3.286V
4.863V
825.656
57.7°C
230.32V
CL1
0.116A
11.826A
12.015A
0A
101.311
82.588%
1105
26.3
40.5°C
0.905
12.057V
5.091V
3.304V
5.028V
122.67
49.31°C
230.39V
CL2
0.116A
19.656A
0A
0A
101.401
81.819%
1092
25.9
40.22°C
0.906
12.062V
5.087V
3.315V
5.036V
123.934
45.16°C
230.4V
CL3
0.116A
0A
19.999A
0A
67.395
76.373%
1060
25.2
41.34°C
0.859
12.061V
5.099V
3.3V
5.032V
88.246
44.76°C
230.4V
CL4
54.096A
0A
0A
0A
649.823
88.256%
2088
44.2
45.88°C
0.978
12.012V
5.087V
3.299V
4.987V
736.301
58.89°C
230.34V
The results above are not used in the certification process
Light Load Tests
Test
12V
5V
3.3V
5VSB
DC/AC (Watts)
Efficiency
Fan Speed (RPM)
PSU Noise (dB[A])
Temps (In/Out)
PF/AC Volts
20W
1.230A
0.49A
0.498A
0.198A
20.007
68.97%
1037
24.6
36.57°C
0.927
12.079V
5.098V
3.315V
5.048V
28.999
39.65°C
115.16V
40W
2.707A
0.687A
0.697A
0.298A
40.004
78.524%
1041
24.7
37.14°C
0.96
12.077V
5.098V
3.314V
5.043V
50.943
40.46°C
115.15V
60W
4.185A
0.883A
0.896A
0.397A
60.003
82.728%
1045
24.7
38.71°C
0.965
12.075V
5.098V
3.314V
5.038V
72.531
42.25°C
115.15V
80W
5.660A
1.08A
1.096A
0.497A
79.971
85.359%
1049
24.8
39.41°C
0.982
12.073V
5.097V
3.313V
5.032V
93.69
43.34°C
115.14V
The results above are not used in the certification process
Test
12V
5V
3.3V
5VSB
DC/AC (Watts)
Efficiency
Fan Speed (RPM)
PSU Noise (dB[A])
Temps (In/Out)
PF/AC Volts
20W
1.230A
0.49A
0.498A
0.198A
20
68.884%
1032
24.5
36.52°C
0.607
12.081V
5.099V
3.314V
5.049V
29.035
39.62°C
230.39V
40W
2.706A
0.687A
0.697A
0.297A
39.997
79.322%
1038
24.6
37.78°C
0.762
12.079V
5.098V
3.313V
5.044V
50.427
41.08°C
230.38V
60W
4.184A
0.883A
0.896A
0.397A
59.995
84.105%
1046
24.7
38.79°C
0.829
12.076V
5.098V
3.313V
5.038V
71.334
42.38°C
230.37V
80W
5.658A
1.079A
1.096A
0.497A
79.95
86.591%
1050
24.8
39.02°C
0.865
12.074V
5.097V
3.312V
5.033V
92.329
42.82°C
230.37V
The results above are not used in the certification process
Ripple Measurements
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
13.13mV
9.85mV
8.04mV
9.02mV
Pass
20% Load
13.38mV
10.71mV
8.09mV
9.53mV
Pass
30% Load
14.50mV
11.53mV
8.59mV
9.99mV
Pass
40% Load
16.13mV
12.09mV
9.31mV
10.60mV
Pass
50% Load
16.49mV
13.01mV
9.81mV
11.51mV
Pass
60% Load
20.15mV
14.08mV
10.48mV
12.58mV
Pass
70% Load
20.40mV
15.91mV
10.99mV
12.99mV
Pass
80% Load
21.78mV
16.17mV
16.12mV
13.60mV
Pass
90% Load
23.00mV
16.88mV
16.43mV
14.37mV
Pass
100% Load
33.00mV
19.95mV
18.49mV
17.69mV
Pass
110% Load
37.77mV
20.82mV
20.49mV
19.01mV
Pass
Crossload1
15.69mV
16.05mV
18.28mV
10.17mV
Pass
Crossload2
13.74mV
16.17mV
9.61mV
10.39mV
Pass
Crossload3
13.74mV
10.81mV
20.14mV
8.05mV
Pass
Crossload4
36.43mV
16.76mV
12.83mV
13.04mV
Pass
The results above are not used in the certification process
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
11.29mV
7.96mV
6.46mV
6.22mV
Pass
20% Load
11.65mV
8.31mV
6.46mV
7.90mV
Pass
30% Load
13.64mV
9.39mV
6.81mV
7.49mV
Pass
40% Load
14.40mV
10.56mV
6.81mV
8.15mV
Pass
50% Load
14.91mV
10.71mV
7.63mV
9.22mV
Pass
60% Load
17.25mV
11.53mV
7.98mV
9.63mV
Pass
70% Load
17.76mV
12.34mV
9.26mV
10.09mV
Pass
80% Load
20.05mV
13.87mV
14.95mV
11.16mV
Pass
90% Load
21.57mV
14.33mV
15.11mV
10.80mV
Pass
100% Load
30.95mV
18.24mV
17.39mV
13.92mV
Pass
110% Load
35.87mV
18.01mV
19.16mV
15.47mV
Pass
Crossload1
13.17mV
14.44mV
17.81mV
7.56mV
Pass
Crossload2
11.86mV
14.08mV
8.24mV
8.10mV
Pass
Crossload3
11.65mV
8.73mV
18.87mV
5.66mV
Pass
Crossload4
33.50mV
13.48mV
10.27mV
9.25mV
Pass
The results above are not used in the certification process
Gamer Storm PL650D
Top side
Power specifications label
All data and graphs included in this test report can be used by any individual on the following conditions: › It should be mentioned that the test results are provided by Cybenetics › The link to the original test results document should be provided in any case
Cybenetics offers the ETA and Lambda voluntary certification programs, through which the efficient and silent power supplies are promoted
