ErP Lot 3/6 2010: ✓
ErP Lot 3/6 2013: ✓
ErP Lot 3/6 2014, CEC: Partially
(EU) No 617/2013 Compliance
✓
Performance Summary
Efficiency Rating
PLATINUM
Noise Rating
Standard++
Average Efficiency (>1450 load combinations)
89.569%
Average Noise Output (>1450 Load Combinations)
34.01dBA
Average PF (>1450 Load Combinations)
0.987
Efficiency With 10W (≤500W) or 2% (>500W) Load
0.000%
Standby Power Consumption
0.1368W
12V Ripple (Full Load)
12.57mV
5V Ripple (Full Load)
9.33mV
3.3V Ripple (Full Load)
10.42mV
5VSB Ripple (Full Load)
10.75mV
12V Load Regulation
0.07%
5V Load Regulation
0.24%
3.3V Load Regulation
0.27%
5VSB Load Regulation
1.52%
Inrush Current
26.848A
Efficiency Rating
BRONZE
Noise Rating
Standard+
Average Efficiency (>1450 load combinations)
91.084%
Average Noise Output (>1450 Load Combinations)
35.50dBA
Average PF (>1450 Load Combinations)
0.945
Efficiency With 10W (≤500W) or 2% (>500W) Load
0.000%
Standby Power Consumption
0.2319W
12V Ripple (Full Load)
11.30mV
5V Ripple (Full Load)
9.21mV
3.3V Ripple (Full Load)
10.88mV
5VSB Ripple (Full Load)
12.03mV
12V Load Regulation
0.10%
5V Load Regulation
0.24%
3.3V Load Regulation
0.24%
5VSB Load Regulation
1.54%
Inrush Current
88.005A
Hold-Up Time & Power Ok Signal
19.70ms
AC Loss to PWR_OK Hold Up Time
17.20ms
PWR_OK Inactive to DC Loss Delay
2.50ms
PSU Timings: T1 (20% / 100%)
0.0ms
0.0ms
PSU Timings: T3 (20% / 100%)
0.0ms
0.0ms
OPP (0.00°C / 0.00°C)
0.00%
0.00%
Hold-Up Time & Power Ok Signal
Hold-Up Time (ms)
19.7
AC Loss to PWR_OK Hold Up Time (ms)
17.2
PWR_OK Inactive to DC Loss Delay (ms)
2.5
Vampire Power
Tables
Graphs
INFO
This graph is generated by the PPA Standby Power Analysis software which takes full control of the power analyzer during the whole procedure. This application features all of the EN50564 & IEC62301 test limits for standby power software testing.
INFO
This graph is generated by the PPA Standby Power Analysis software which takes full control of the power analyzer during the whole procedure. This application features all of the EN50564 & IEC62301 test limits for standby power software testing.
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
0.045A
0.232
55.238%
0.028
5.149V
0.420
115.28V
2
0.090A
0.464
65.722%
0.048
5.147V
0.706
115.28V
3
0.550A
2.825
76.413%
0.215
5.137V
3.697
115.27V
4
1.000A
5.127
77.635%
0.316
5.127V
6.604
115.27V
5
1.500A
7.674
77.853%
0.382
5.115V
9.857
115.26V
6
3.000A
15.210
76.586%
0.470
5.070V
19.860
115.25V
Test #
5VSB
DC/AC (Watts)
Efficiency
PF/AC Volts
1
0.045A
0.232
45.490%
0.011
5.149V
0.510
230.85V
2
0.090A
0.464
57.928%
0.017
5.147V
0.801
230.85V
3
0.550A
2.826
73.882%
0.080
5.137V
3.825
230.84V
4
1.000A
5.127
76.057%
0.135
5.127V
6.741
230.84V
5
1.500A
7.674
77.398%
0.186
5.115V
9.915
230.84V
6
3.000A
15.245
78.208%
0.295
5.082V
19.493
230.84V
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
1
5.228A
1.998A
1.990A
0.976A
84.798
85.196%
1586
37.1
38.01°C
0.960
12.088V
5.006V
3.315V
5.126V
99.533
42.71°C
115.27V
2
11.455A
2.995A
2.986A
1.172A
169.347
89.230%
1653
38.1
38.63°C
0.979
12.086V
5.008V
3.316V
5.120V
189.788
43.43°C
115.16V
3
18.079A
3.494A
3.465A
1.369A
254.442
90.548%
1667
38.4
38.80°C
0.985
12.083V
5.009V
3.316V
5.115V
281.002
43.67°C
115.15V
4
24.705A
3.994A
3.980A
1.566A
339.665
90.991%
1688
38.7
39.53°C
0.990
12.081V
5.009V
3.316V
5.109V
373.296
44.71°C
115.02V
5
30.995A
4.990A
4.973A
1.764A
424.959
90.959%
1715
39.0
39.89°C
0.992
12.081V
5.011V
3.318V
5.103V
467.200
45.63°C
114.90V
6
37.217A
5.987A
5.965A
1.962A
509.506
90.723%
1760
39.6
40.44°C
0.994
12.083V
5.013V
3.319V
5.098V
561.609
46.38°C
114.87V
7
43.500A
6.982A
6.955A
2.161A
594.800
90.131%
1835
41.7
41.49°C
0.995
12.085V
5.014V
3.320V
5.092V
659.927
47.75°C
114.75V
8
49.789A
7.976A
7.946A
2.360A
680.155
89.486%
1902
42.4
42.77°C
0.996
12.086V
5.016V
3.322V
5.085V
760.065
49.31°C
114.71V
9
56.467A
8.474A
8.431A
2.361A
765.098
88.944%
1981
44.0
43.81°C
0.996
12.088V
5.017V
3.322V
5.084V
860.198
50.61°C
114.59V
10
62.889A
8.972A
8.941A
2.961A
849.923
88.242%
2075
45.2
45.33°C
0.996
12.088V
5.017V
3.322V
5.068V
963.176
53.02°C
114.45V
11
69.891A
8.974A
8.943A
2.962A
934.693
87.541%
2124
45.5
46.51°C
0.997
12.090V
5.016V
3.320V
5.066V
1067.725
55.13°C
114.40V
CL1
0.740A
14.004A
14.001A
0.000A
126.407
83.326%
1910
42.8
43.12°C
0.979
12.078V
5.040V
3.349V
5.147V
151.701
47.03°C
115.19V
CL2
70.847A
1.003A
1.000A
1.000A
870.033
88.690%
2019
44.6
44.45°C
0.996
12.091V
4.995V
3.298V
5.114V
980.978
51.70°C
114.42V
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
1
5.233A
1.998A
1.990A
0.976A
84.855
86.456%
1668
38.3
39.68°C
0.769
12.088V
5.006V
3.314V
5.125V
98.148
44.55°C
230.99V
2
11.460A
2.996A
2.984A
1.172A
169.382
90.408%
1738
39.2
40.40°C
0.892
12.084V
5.008V
3.316V
5.119V
187.353
45.90°C
230.94V
3
18.084A
3.494A
3.467A
1.369A
254.464
91.748%
1775
40.2
41.16°C
0.939
12.081V
5.008V
3.315V
5.113V
277.352
46.82°C
230.87V
4
24.716A
3.994A
3.981A
1.567A
339.675
92.279%
1832
41.7
41.82°C
0.962
12.076V
5.009V
3.315V
5.107V
368.097
47.70°C
230.81V
5
31.009A
4.992A
4.975A
1.764A
424.975
92.370%
1869
42.1
42.11°C
0.973
12.076V
5.011V
3.316V
5.101V
460.080
48.76°C
230.74V
6
37.236A
5.987A
5.969A
1.963A
509.506
92.283%
1915
43.5
42.93°C
0.978
12.077V
5.012V
3.317V
5.095V
552.115
49.96°C
230.68V
7
43.528A
6.982A
6.960A
2.162A
594.797
91.841%
1953
43.8
43.29°C
0.981
12.077V
5.014V
3.319V
5.089V
647.636
50.88°C
230.62V
8
49.812A
7.978A
7.952A
2.361A
680.141
91.548%
1982
44.0
43.97°C
0.983
12.080V
5.015V
3.320V
5.083V
742.934
51.89°C
230.56V
9
56.493A
8.476A
8.436A
2.362A
765.073
91.052%
2047
44.6
44.54°C
0.985
12.082V
5.016V
3.320V
5.081V
840.260
52.72°C
230.49V
10
62.914A
8.974A
8.947A
2.962A
849.901
90.512%
2117
45.7
45.96°C
0.987
12.083V
5.016V
3.319V
5.065V
938.992
54.85°C
230.42V
11
69.929A
8.976A
8.951A
2.964A
934.672
90.093%
2121
45.7
47.38°C
0.989
12.083V
5.015V
3.318V
5.063V
1037.452
56.86°C
230.45V
CL1
0.144A
14.003A
14.000A
0.000A
119.171
83.712%
1938
43.4
43.87°C
0.851
12.074V
5.040V
3.347V
5.146V
142.358
51.42°C
230.94V
CL2
70.831A
1.002A
1.000A
1.000A
869.406
90.990%
2075
45.2
46.08°C
0.987
12.085V
4.994V
3.297V
5.112V
955.500
54.67°C
230.42V
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])
PF/AC Volts
1
1.185A
0.497A
0.482A
0.194A
19.400
73.169%
0
<6.0
0.757
12.083V
5.004V
3.312V
5.146V
26.514
115.36V
2
2.446A
0.998A
0.995A
0.389A
39.841
82.085%
0
<6.0
0.882
12.081V
5.005V
3.313V
5.141V
48.536
115.33V
3
3.639A
1.497A
1.478A
0.584A
59.346
85.125%
0
<6.0
0.927
12.079V
5.005V
3.314V
5.136V
69.716
115.30V
4
4.899A
1.997A
1.990A
0.780A
79.813
84.917%
1653
38.1
0.956
12.087V
5.007V
3.315V
5.131V
93.989
115.28V
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])
PF/AC Volts
1
1.196A
0.499A
0.483A
0.194A
19.547
73.358%
0
<6.0
0.397
12.084V
5.003V
3.312V
5.145V
26.646
231.02V
2
2.455A
0.999A
0.996A
0.389A
39.957
82.737%
0
<6.0
0.565
12.081V
5.004V
3.313V
5.140V
48.294
231.02V
3
3.646A
1.499A
1.478A
0.584A
59.436
86.258%
0
<6.0
0.669
12.078V
5.005V
3.314V
5.135V
68.905
231.01V
4
4.906A
2.000A
1.992A
0.780A
79.881
86.032%
1723
39.1
0.751
12.080V
5.006V
3.315V
5.130V
92.850
231.00V
The results above are not used in the certification process
Ripple Measurements
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
5.2 mV
3.9 mV
3.6 mV
3.0 mV
Pass
20% Load
7.4 mV
4.3 mV
4.5 mV
3.3 mV
Pass
30% Load
8.4 mV
4.6 mV
4.8 mV
3.3 mV
Pass
40% Load
8.7 mV
4.8 mV
5.4 mV
4.0 mV
Pass
50% Load
9.3 mV
6.3 mV
6.4 mV
4.4 mV
Pass
60% Load
10.1 mV
6.5 mV
7.5 mV
4.3 mV
Pass
70% Load
10.9 mV
6.8 mV
7.9 mV
7.2 mV
Pass
80% Load
11.2 mV
7.9 mV
9.5 mV
7.2 mV
Pass
90% Load
11.8 mV
8.1 mV
10.3 mV
8.1 mV
Pass
100% Load
12.6 mV
9.3 mV
10.4 mV
10.8 mV
Pass
110% Load
13.1 mV
8.1 mV
10.8 mV
10.8 mV
Pass
Crossload 1
5.7 mV
7.7 mV
9.1 mV
13.5 mV
Pass
Crossload 2
11.9 mV
6.3 mV
7.4 mV
6.8 mV
Pass
The results above are not used in the certification process
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
4.8 mV
4.0 mV
4.0 mV
3.3 mV
Pass
20% Load
6.3 mV
4.7 mV
4.8 mV
4.0 mV
Pass
30% Load
7.2 mV
5.1 mV
5.2 mV
4.4 mV
Pass
40% Load
7.7 mV
5.3 mV
5.8 mV
5.0 mV
Pass
50% Load
8.3 mV
6.4 mV
6.7 mV
5.3 mV
Pass
60% Load
8.9 mV
6.9 mV
7.9 mV
5.7 mV
Pass
70% Load
9.7 mV
8.2 mV
8.7 mV
8.7 mV
Pass
80% Load
10.2 mV
8.0 mV
9.6 mV
9.0 mV
Pass
90% Load
10.5 mV
9.0 mV
10.1 mV
9.5 mV
Pass
100% Load
11.3 mV
9.2 mV
10.9 mV
12.0 mV
Pass
110% Load
12.1 mV
8.9 mV
11.2 mV
12.8 mV
Pass
Crossload 1
5.5 mV
8.1 mV
9.3 mV
14.1 mV
Pass
Crossload 2
10.1 mV
7.8 mV
8.0 mV
8.0 mV
Pass
The results above are not used in the certification process
EVGA SuperNOVA 850 G3 (#2)
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
