Protechnic Electric MGA12012XF-O25 (120mm, 12V, 0.52A, Fluid Dynamic Bearing Fan)
5VSB Circuit
-
Rectifier
1x NIKO-SEM P1006BD (60V, 42A @ 100°C, Rds(on): 10mOhm) FET
Standby PWM Controller
Power Integrations INN2603K
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
✓
Performance Summary
Efficiency Rating
PLATINUM
Noise Rating
Standard++
Average Efficiency (>1450 load combinations)
90.310%
Average Noise Output (>1450 Load Combinations)
33.19dBA
Average PF (>1450 Load Combinations)
0.990
Efficiency With 10W (≤500W) or 2% (>500W) Load
70.164%
Standby Power Consumption
0.0582W
12V Ripple (Full Load)
21.01mV
5V Ripple (Full Load)
11.56mV
3.3V Ripple (Full Load)
11.99mV
5VSB Ripple (Full Load)
16.74mV
12V Load Regulation
0.73%
5V Load Regulation
0.72%
3.3V Load Regulation
0.66%
5VSB Load Regulation
2.67%
Inrush Current
66.650A
Efficiency Rating
PLATINUM
Noise Rating
Standard++
Average Efficiency (>1450 load combinations)
92.358%
Average Noise Output (>1450 Load Combinations)
31.79dBA
Average PF (>1450 Load Combinations)
0.954
Efficiency With 10W (≤500W) or 2% (>500W) Load
0.000%
Standby Power Consumption
0.1679W
12V Ripple (Full Load)
22.28mV
5V Ripple (Full Load)
11.70mV
3.3V Ripple (Full Load)
11.99mV
5VSB Ripple (Full Load)
17.29mV
12V Load Regulation
0.74%
5V Load Regulation
0.72%
3.3V Load Regulation
0.72%
5VSB Load Regulation
2.71%
Inrush Current
83.040A
Hold-Up Time & Power Ok Signal
23.70ms
AC Loss to PWR_OK Hold Up Time
18.70ms
PWR_OK Inactive to DC Loss Delay
5.00ms
PSU Timings: T1 (20% / 100%)
47.0ms
43.0ms
PSU Timings: T3 (20% / 100%)
129.0ms
129.0ms
OPP (23.50°C / 43.57°C)
129.16%
125.88%
Hold-Up Time & Power Ok Signal
Hold-Up Time (ms)
23.7
AC Loss to PWR_OK Hold Up Time (ms)
18.7
PWR_OK Inactive to DC Loss Delay (ms)
5
Vampire Power
Tables
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
115.17 V
115.13 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:
1.416
1.415
1.340
1.418
1.490
PASS
Mains Voltage THD:
0.13 %
0.10 %
N/A
0.17 %
2.00 %
PASS
Real Power:
0.058 W
0.051 W
N/A
0.067 W
N/A
N/A
Apparent Power:
10.245 W
10.135 W
N/A
10.358 W
N/A
N/A
Power Factor:
0.006
N/A
N/A
N/A
N/A
N/A
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
230.33 V
230.21 V
227.70 V
230.36 V
232.30 V
PASS
Mains Frequency:
50.00 Hz
49.99 Hz
49.50 Hz
50.01 Hz
50.50 Hz
PASS
Mains Voltage CF:
1.416
1.415
1.340
1.417
1.490
PASS
Mains Voltage THD:
0.12 %
0.10 %
N/A
0.22 %
2.00 %
PASS
Real Power:
0.168 W
0.148 W
N/A
0.193 W
N/A
N/A
Apparent Power:
34.544 W
34.233 W
N/A
34.836 W
N/A
N/A
Power Factor:
0.005
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
0.045A
0.231W
69.45%
0.032
5.127V
0.333W
115.16V
2
0.09A
0.461W
75.955%
0.058
5.125V
0.607W
115.17V
3
0.55A
2.813W
81.626%
0.26
5.115V
3.446W
115.16V
4
1A
5.107W
79.616%
0.357
5.107V
6.415W
115.16V
5
1.5A
7.644W
79.448%
0.412
5.096V
9.622W
115.16V
6
2.999A
15.16W
78.969%
0.477
5.055V
19.198W
115.16V
Test #
5VSB
DC/AC (Watts)
Efficiency
PF/AC Volts
1
0.045A
0.231W
51.412%
0.013
5.128V
0.449W
230.32V
2
0.09A
0.461W
63.243%
0.021
5.125V
0.729W
230.32V
3
0.55A
2.813W
78.164%
0.1
5.116V
3.599W
230.31V
4
1A
5.099W
79.741%
0.165
5.099V
6.394W
230.32V
5
1.5A
7.635W
80.929%
0.219
5.09V
9.438W
230.31V
6
2.999A
15.18W
79.277%
0.327
5.061V
19.15W
230.32V
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%
6.374A
1.936A
1.958A
0.98A
99.987
88.011%
0
<6.0
44.64°C
0.971
12.298V
5.165V
3.371V
5.103V
113.606
40.33°C
115.14V
20%
13.754A
2.907A
2.939A
1.178A
199.926
91.314%
0
<6.0
45.75°C
0.991
12.290V
5.16V
3.368V
5.094V
218.946
40.95°C
115.11V
30%
21.487A
3.394A
3.43A
1.377A
299.965
92.273%
0
<6.0
46.35°C
0.994
12.282V
5.157V
3.367V
5.085V
325.085
41.23°C
115.08V
40%
29.184A
3.88A
3.922A
1.576A
399.492
92.427%
0
<6.0
47.75°C
0.995
12.277V
5.154V
3.366V
5.075V
432.222
42.12°C
115.05V
50%
36.559A
4.853A
4.903A
1.777A
499.227
92.164%
0
<6.0
49.13°C
0.995
12.274V
5.152V
3.365V
5.066V
541.676
43.02°C
115.02V
60%
44.092A
5.831A
5.895A
1.982A
599.759
91.601%
1236
30.2
43.16°C
0.996
12.246V
5.146V
3.359V
5.045V
654.748
49.87°C
114.98V
70%
51.496A
6.808A
6.882A
2.184A
699.465
91.089%
1405
34.7
43.43°C
0.995
12.241V
5.142V
3.357V
5.034V
767.891
50.58°C
114.95V
80%
59.004A
7.787A
7.868A
2.288A
799.488
90.442%
1717
39.8
43.73°C
0.995
12.229V
5.138V
3.354V
5.024V
883.981
51.78°C
114.91V
90%
66.840A
8.276A
8.351A
2.392A
899.243
89.713%
2040
44.7
44.56°C
0.994
12.221V
5.134V
3.352V
5.014V
1002.344
53.66°C
114.87V
100%
74.494A
8.769A
8.864A
3.005A
999.212
88.953%
2343
47.5
46.24°C
0.994
12.210V
5.131V
3.35V
4.99V
1123.303
56.37°C
114.84V
110%
82.078A
9.752A
9.946A
3.009A
1099.856
87.97%
2683
50.8
46.55°C
0.994
12.203V
5.127V
3.347V
4.983V
1250.246
57.43°C
114.8V
CL1
0.112A
14.013A
14.163A
0A
121.278
85.802%
0
<6.0
47.97°C
0.98
12.308V
5.152V
3.367V
5.119V
141.341
42.83°C
115.13V
CL2
0.112A
23.299A
0A
0A
121.381
84.245%
0
<6.0
49.51°C
0.981
12.308V
5.151V
3.368V
5.124V
144.075
43.12°C
115.13V
CL3
0.112A
0A
23.45A
0A
80.57
79.28%
0
<6.0
51.83°C
0.967
12.299V
5.164V
3.377V
5.114V
101.638
44.64°C
115.14V
CL4
81.835A
0A
0A
0A
999.846
89.444%
2277
47.5
45.19°C
0.994
12.218V
5.144V
3.358V
5.073V
1117.842
55.16°C
114.85V
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%
6.374A
1.936A
1.957A
0.98A
99.987
89.432%
0
<6.0
44.75°C
0.819
12.300V
5.166V
3.372V
5.103V
111.8
40.36°C
230.31V
20%
13.752A
2.906A
2.938A
1.178A
199.928
92.732%
0
<6.0
45.32°C
0.928
12.291V
5.161V
3.37V
5.092V
215.595
40.61°C
230.3V
30%
21.487A
3.393A
3.43A
1.376A
299.966
93.681%
0
<6.0
45.89°C
0.96
12.283V
5.158V
3.368V
5.085V
320.196
40.86°C
230.29V
40%
29.186A
3.88A
3.921A
1.576A
399.48
93.935%
0
<6.0
47.21°C
0.974
12.276V
5.155V
3.366V
5.075V
425.272
41.76°C
230.27V
50%
36.573A
4.853A
4.904A
1.777A
499.213
93.891%
0
<6.0
48.35°C
0.979
12.268V
5.152V
3.365V
5.063V
531.688
42.54°C
230.26V
60%
44.090A
5.83A
5.894A
1.982A
599.774
93.489%
1238
30.2
42.79°C
0.983
12.247V
5.146V
3.36V
5.044V
641.526
49.12°C
230.25V
70%
51.508A
6.808A
6.882A
2.185A
699.474
93.221%
1400
34.7
43.13°C
0.983
12.238V
5.142V
3.357V
5.032V
750.345
50.27°C
230.23V
80%
59.017A
7.787A
7.869A
2.289A
799.515
92.837%
1701
39.3
43.43°C
0.982
12.227V
5.138V
3.354V
5.022V
861.198
51.44°C
230.22V
90%
66.856A
8.277A
8.353A
2.393A
899.301
92.406%
2051
45.3
44.23°C
0.981
12.218V
5.134V
3.351V
5.013V
973.208
53.9°C
230.21V
100%
74.504A
8.77A
8.865A
3.006A
999.306
91.89%
2351
47.6
45.35°C
0.981
12.210V
5.131V
3.349V
4.989V
1087.509
55.55°C
230.2V
110%
82.098A
9.752A
9.947A
3.011A
1099.919
91.326%
2674
50.8
46.35°C
0.98
12.200V
5.127V
3.347V
4.982V
1204.383
57.28°C
230.17V
CL1
0.113A
14.013A
14.164A
0A
121.282
87.213%
0
<6.0
48.95°C
0.865
12.306V
5.153V
3.367V
5.117V
139.065
42.56°C
230.31V
CL2
0.112A
23.302A
0A
0A
121.385
85.726%
1243
30.2
43.91°C
0.869
12.307V
5.15V
3.367V
5.123V
141.603
51.21°C
230.31V
CL3
0.112A
0A
23.464A
0A
80.572
80.399%
0
<6.0
52.7°C
0.791
12.298V
5.164V
3.375V
5.114V
100.214
44.55°C
230.31V
CL4
81.847A
0A
0A
0A
999.878
92.363%
2303
47.6
55.29°C
0.981
12.216V
5.146V
3.359V
5.073V
1082.55
45.34°C
230.19V
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
1.207A
0.484A
0.489A
0.195A
19.99
69.134%
0
<6.0
40.23°C
0.788
12.299V
5.168V
3.372V
5.123V
28.913
37.15°C
115.17V
40W
2.657A
0.677A
0.685A
0.293A
39.99
80.216%
0
<6.0
41.24°C
0.9
12.299V
5.167V
3.372V
5.12V
49.851
37.87°C
115.16V
60W
4.108A
0.871A
0.881A
0.391A
59.989
84.662%
0
<6.0
41.61°C
0.941
12.298V
5.167V
3.372V
5.117V
70.856
37.86°C
115.15V
80W
5.554A
1.064A
1.076A
0.489A
79.935
86.967%
0
<6.0
43.76°C
0.96
12.298V
5.166V
3.372V
5.114V
91.915
39.79°C
115.15V
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
1.206A
0.484A
0.489A
0.195A
19.991
70.336%
0
<6.0
39.64°C
0.439
12.300V
5.168V
3.372V
5.124V
28.42
36.62°C
230.33V
40W
2.657A
0.677A
0.685A
0.293A
39.991
81.414%
0
<6.0
40.11°C
0.577
12.300V
5.168V
3.372V
5.121V
49.12
36.73°C
230.32V
60W
4.108A
0.871A
0.881A
0.391A
59.991
85.914%
0
<6.0
42.4°C
0.685
12.300V
5.167V
3.372V
5.118V
69.827
38.88°C
230.32V
80W
5.554A
1.064A
1.076A
0.489A
79.935
88.403%
0
<6.0
42.73°C
0.763
12.300V
5.167V
3.373V
5.115V
90.422
38.92°C
230.32V
The results above are not used in the certification process
Ripple Measurements
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
5.92mV
4.72mV
4.90mV
8.35mV
Pass
20% Load
6.56mV
5.49mV
5.96mV
22.26mV
Pass
30% Load
7.04mV
5.54mV
6.52mV
12.90mV
Pass
40% Load
7.54mV
5.90mV
6.32mV
12.20mV
Pass
50% Load
8.28mV
7.32mV
7.23mV
23.43mV
Pass
60% Load
11.95mV
6.86mV
7.68mV
23.78mV
Pass
70% Load
13.17mV
9.05mV
7.99mV
25.00mV
Pass
80% Load
13.42mV
9.50mV
9.05mV
13.16mV
Pass
90% Load
12.15mV
11.54mV
10.46mV
22.92mV
Pass
100% Load
21.01mV
11.56mV
11.99mV
16.74mV
Pass
110% Load
27.89mV
11.55mV
12.88mV
17.74mV
Pass
Crossload1
8.84mV
6.08mV
7.75mV
8.73mV
Pass
Crossload2
6.13mV
5.33mV
6.32mV
7.74mV
Pass
Crossload3
5.57mV
5.64mV
7.43mV
18.72mV
Pass
Crossload4
20.89mV
11.58mV
10.64mV
8.49mV
Pass
The results above are not used in the certification process
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
5.62mV
8.84mV
7.48mV
22.06mV
Pass
20% Load
5.72mV
4.68mV
5.31mV
8.15mV
Pass
30% Load
6.58mV
5.49mV
6.37mV
12.70mV
Pass
40% Load
7.04mV
5.54mV
6.52mV
11.54mV
Pass
50% Load
7.98mV
6.25mV
6.93mV
12.40mV
Pass
60% Load
11.14mV
10.42mV
9.51mV
22.67mV
Pass
70% Load
11.95mV
8.74mV
8.34mV
12.70mV
Pass
80% Load
11.75mV
13.21mV
9.76mV
25.81mV
Pass
90% Load
14.79mV
11.43mV
11.22mV
13.76mV
Pass
100% Load
22.28mV
11.70mV
11.99mV
17.29mV
Pass
110% Load
26.04mV
11.72mV
12.70mV
18.26mV
Pass
Crossload1
8.34mV
6.02mV
7.49mV
8.77mV
Pass
Crossload2
6.18mV
5.59mV
6.37mV
7.28mV
Pass
Crossload3
5.67mV
5.69mV
6.73mV
6.78mV
Pass
Crossload4
22.24mV
11.69mV
10.24mV
11.00mV
Pass
The results above are not used in the certification process
EVGA SuperNOVA 1000 G7
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
