Cables and Connectors(Non-accredited measurements)
Modular Cables
Description
Cable Count
Connector Count (Total)
Gauge
In Cable Capacitors
ATX connector 24 pin (650mm)
1
1
16-22AWG
No
4+4 pin EPS12V (650mm)
1
1
16AWG
No
8 pin EPS12V (650mm)
1
1
16AWG
No
6+2 pin PCIe (550mm)
5
5
18AWG
No
12+4 pin PCIe (650mm) (600W)
1
1
16-28AWG
No
SATA (510mm+115mm+115mm+115mm)
4
16
18AWG
No
4-pin Molex (510mm+120mm+120mm+120mm)
1
4
18AWG
No
AC Power Cord (1380mm) - C13 coupler
1
1
17AWG
-
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
PLATINUM
Noise Rating
A
Average Efficiency (>1450 load combinations)
90.089%
Average Noise Output (>1450 Load Combinations)
20.10dBA
Average PF (>1450 Load Combinations)
0.987
Efficiency With 10W (≤500W) or 2% (>500W) Load
66.693%
Standby Power Consumption
0.0262W
12V Ripple (Full Load)
40.27mV
5V Ripple (Full Load)
8.42mV
3.3V Ripple (Full Load)
13.30mV
5VSB Ripple (Full Load)
9.08mV
12V Load Regulation
1.26%
5V Load Regulation
1.72%
3.3V Load Regulation
3.18%
5VSB Load Regulation
4.04%
Inrush Current
Too low to detect
Efficiency Rating
PLATINUM
Noise Rating
A+
Average Efficiency (>1450 load combinations)
92.454%
Average Noise Output (>1450 Load Combinations)
19.34dBA
Average PF (>1450 Load Combinations)
0.939
Efficiency With 10W (≤500W) or 2% (>500W) Load
67.598%
Standby Power Consumption
0.1473W
12V Ripple (Full Load)
40.71mV
5V Ripple (Full Load)
8.80mV
3.3V Ripple (Full Load)
13.82mV
5VSB Ripple (Full Load)
9.76mV
12V Load Regulation
1.29%
5V Load Regulation
1.74%
3.3V Load Regulation
3.21%
5VSB Load Regulation
4.04%
Inrush Current
Too low to detect
12V Transient Response (200%)
11.25V
5V Transient Response (200%)
4.973V
3.3V Transient Response (200%)
3.136V
5VSB Transient Response (200%)
4.920V
Hold-Up Time & Power Ok Signal
23.00ms
AC Loss to PWR_OK Hold Up Time
20.80ms
PWR_OK Inactive to DC Loss Delay
2.20ms
PSU Timings: T1 (20% / 100%)
66.0ms
35.0ms
PSU Timings: T3 (20% / 100%)
114.0ms
113.0ms
12V OCP (30.4°C / 44.0°C)
141.80A (130.93%), 12.032V
140.64A (129.86%), 12.034V
5V OCP (30.4°C / 44.0°C)
25.4A (127.00%), 5.033V
24.6A (123.00%), 5.036V
3.3V OCP (30.4°C / 44.0°C)
26.6A (133.00%), 3.296V
25.9A (129.50%), 3.297V
5VSB OCP (30.4°C / 44.0°C)
5.6A (186.67%), 4.997V
5.2A (173.33%), 5V
OPP (31.62°C / 44.13°C)
129.20%
129.21%
Hold-Up Time & Power Ok Signal
Hold-Up Time (ms)
23
AC Loss to PWR_OK Hold Up Time (ms)
20.8
PWR_OK Inactive to DC Loss Delay (ms)
2.2
Vampire Power
Tables
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
115.07 V
115.05 V
113.85 V
115.11 V
116.15 V
PASS
Mains Frequency:
60.00 Hz
60.00 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:
0.026 W
0.009 W
N/A
0.045 W
N/A
N/A
Apparent Power:
23.854 W
23.756 W
N/A
23.947 W
N/A
N/A
Power Factor:
0.001
N/A
N/A
N/A
N/A
N/A
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
231.03 V
230.95 V
227.70 V
231.10 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:
1.417
1.416
1.340
1.418
1.490
PASS
Mains Voltage THD:
0.17 %
0.15 %
N/A
0.25 %
2.00 %
PASS
Real Power:
0.147 W
0.110 W
N/A
0.205 W
N/A
N/A
Apparent Power:
80.937 W
80.576 W
N/A
81.253 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
Conducted Emissions EN55032 & CISPR 32
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
12V to Earth: ✓ 5V to Earth: ✓ 3.3V to Earth: ✓ 5VSB to Earth: ✓ -12V to Earth: ✓
PWR_OK
Proper Operation
NLO
✓
Fan Failure Protection
✗
SIP
Surge: MOV Inrush: NTC & Bypass Relay
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%
8.898A
1.966A
1.961A
0.972A
130.031
87.712%
336
<6.0
40.24°C
0.951
12.186V
5.087V
3.367V
5.143V
148.264
44.49°C
114.97V
20%
18.823A
2.955A
2.95A
1.171A
259.998
91.25%
824
15.5
40.65°C
0.986
12.170V
5.077V
3.356V
5.127V
284.928
44.12°C
114.94V
30%
29.107A
3.453A
3.452A
1.37A
389.892
91.982%
948
20.0
41.18°C
0.994
12.156V
5.07V
3.346V
5.111V
423.882
44.66°C
114.9V
40%
39.421A
3.952A
3.956A
1.571A
519.876
92.299%
1078
37.0
41.81°C
0.993
12.143V
5.062V
3.337V
5.094V
563.243
46.19°C
114.88V
50%
49.433A
4.949A
4.961A
1.773A
650.06
92.158%
1199
27.9
42.03°C
0.996
12.128V
5.053V
3.326V
5.077V
705.377
46.99°C
114.84V
60%
59.462A
5.95A
5.974A
1.977A
780.231
91.375%
1320
30.9
42.64°C
0.998
12.116V
5.043V
3.315V
5.059V
853.881
48.09°C
114.8V
70%
69.514A
6.955A
6.993A
2.183A
910.33
90.731%
1462
33.9
43.47°C
0.998
12.101V
5.034V
3.304V
5.041V
1003.338
49.27°C
114.76V
80%
79.592A
7.963A
8.019A
2.289A
1039.965
90.167%
1587
36.3
43.86°C
0.999
12.088V
5.024V
3.293V
5.026V
1153.374
50°C
114.72V
90%
90.089A
8.475A
8.531A
2.395A
1170.244
89.579%
1665
37.6
44.32°C
0.999
12.074V
5.016V
3.283V
5.012V
1306.381
50.41°C
114.68V
100%
100.351A
8.989A
9.078A
3.013A
1299.871
88.889%
1830
40.5
45.23°C
0.999
12.059V
5.008V
3.272V
4.979V
1462.364
52.36°C
114.64V
110%
110.564A
10.006A
10.214A
3.021A
1430.081
88.187%
1969
42.4
46.64°C
1
12.045V
4.998V
3.26V
4.966V
1621.682
53.38°C
114.59V
CL1
0.117A
14.291A
14.307A
0A
121.331
82.481%
1405
32.7
40.76°C
0.953
12.187V
5.053V
3.334V
5.163V
147.096
45.55°C
114.94V
CL2
0.115A
19.808A
0A
0A
101.412
81.231%
1063
36.7
41.17°C
0.934
12.193V
5.049V
3.368V
5.173V
124.843
44.95°C
114.94V
CL3
0.115A
0A
19.819A
0A
67.408
73.136%
904
18.3
40.99°C
0.889
12.207V
5.087V
3.33V
5.168V
92.17
44.8°C
114.95V
CL4
107.758A
0A
0A
0A
1300.291
89.797%
1608
36.6
45.45°C
0.999
12.066V
5.036V
3.299V
5.096V
1448.028
51.96°C
114.63V
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%
8.897A
1.966A
1.961A
0.973A
130.035
87.681%
819
15.3
40.17°C
0.741
12.187V
5.087V
3.367V
5.143V
148.31
43.45°C
230.07V
20%
18.824A
2.955A
2.95A
1.171A
260.007
92.296%
822
15.4
40.62°C
0.901
12.171V
5.078V
3.356V
5.126V
281.712
43.3°C
230.06V
30%
29.109A
3.453A
3.452A
1.37A
389.913
93.698%
948
20.0
41.06°C
0.949
12.156V
5.07V
3.346V
5.111V
416.139
43.77°C
230.05V
40%
39.423A
3.952A
3.956A
1.571A
519.894
94.179%
1071
36.9
41.72°C
0.97
12.142V
5.062V
3.337V
5.094V
552.03
44.62°C
230.03V
50%
49.432A
4.949A
4.961A
1.773A
650.05
94.275%
1195
27.8
42.43°C
0.98
12.128V
5.053V
3.326V
5.077V
689.523
45.48°C
230.02V
60%
59.462A
5.95A
5.974A
1.977A
780.214
93.844%
1347
31.5
42.86°C
0.98
12.115V
5.044V
3.315V
5.059V
831.387
46.49°C
230.01V
70%
69.515A
6.955A
6.993A
2.183A
910.304
93.75%
1456
33.8
43.09°C
0.985
12.101V
5.034V
3.304V
5.041V
970.986
46.87°C
229.99V
80%
79.595A
7.963A
8.018A
2.289A
1039.95
93.567%
1596
36.4
43.89°C
0.988
12.087V
5.025V
3.293V
5.026V
1111.452
47.81°C
229.97V
90%
90.096A
8.475A
8.53A
2.395A
1170.237
93.342%
1727
38.6
44.85°C
0.991
12.073V
5.016V
3.283V
5.012V
1253.699
48.72°C
229.95V
100%
100.356A
8.988A
9.077A
3.014A
1299.863
93.039%
1829
40.5
45.47°C
0.992
12.058V
5.008V
3.272V
4.978V
1397.101
49.62°C
229.93V
110%
110.574A
10.006A
10.214A
3.021A
1430.073
92.691%
1995
42.7
46.29°C
0.994
12.044V
4.998V
3.26V
4.966V
1542.835
51.2°C
229.91V
CL1
0.117A
14.291A
14.307A
0A
121.331
82.692%
1342
31.4
41.77°C
0.739
12.188V
5.053V
3.334V
5.163V
146.727
45.08°C
230.05V
CL2
0.115A
19.808A
0A
0A
101.411
80.783%
972
20.9
41.04°C
0.685
12.199V
5.049V
3.368V
5.173V
125.534
43.85°C
230.05V
CL3
0.115A
0A
19.818A
0A
67.404
74.194%
845
16.1
40.19°C
0.561
12.207V
5.087V
3.33V
5.169V
90.841
43.32°C
230.05V
CL4
107.767A
0A
0A
0A
1300.353
93.553%
1765
39.3
45.52°C
0.992
12.066V
5.035V
3.299V
5.095V
1389.964
49.82°C
229.92V
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
1.216A
0.491A
0.489A
0.193A
20.009
61.229%
0
<6.0
41.92°C
0.522
12.212V
5.094V
3.376V
5.18V
32.705
36.56°C
114.97V
40W
2.678A
0.687A
0.684A
0.29A
40.008
73.279%
0
<6.0
41.47°C
0.753
12.211V
5.094V
3.375V
5.175V
54.596
37.33°C
114.96V
60W
4.139A
0.884A
0.88A
0.387A
60.007
78.504%
0
<6.0
44.17°C
0.847
12.210V
5.093V
3.374V
5.17V
76.439
38.23°C
114.95V
80W
5.598A
1.081A
1.077A
0.484A
79.975
81.956%
0
<6.0
45.96°C
0.897
12.208V
5.092V
3.372V
5.164V
97.581
39.63°C
114.95V
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
1.217A
0.491A
0.489A
0.193A
20.012
63.045%
0
<6.0
43.38°C
0.31
12.214V
5.095V
3.377V
5.179V
31.753
36.75°C
230.05V
40W
2.678A
0.687A
0.684A
0.29A
40.009
74.26%
0
<6.0
45.06°C
0.364
12.212V
5.094V
3.375V
5.174V
53.891
37.21°C
230.08V
60W
4.138A
0.884A
0.88A
0.387A
60.007
79.472%
0
<6.0
46.56°C
0.475
12.211V
5.093V
3.374V
5.169V
75.499
38.54°C
230.07V
80W
5.598A
1.08A
1.076A
0.484A
79.977
82.584%
0
<6.0
41.72°C
0.593
12.210V
5.092V
3.372V
5.163V
96.845
39.45°C
230.07V
The results above are not used in the certification process
Ripple Measurements
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
20.9 mV
6.1 mV
4.0 mV
7.0 mV
Pass
20% Load
25.0 mV
6.8 mV
4.8 mV
8.1 mV
Pass
30% Load
27.5 mV
9.0 mV
7.9 mV
6.7 mV
Pass
40% Load
28.4 mV
9.4 mV
8.7 mV
6.2 mV
Pass
50% Load
30.5 mV
6.4 mV
5.6 mV
6.8 mV
Pass
60% Load
30.9 mV
6.8 mV
6.6 mV
7.2 mV
Pass
70% Load
30.5 mV
8.4 mV
9.2 mV
7.4 mV
Pass
80% Load
31.2 mV
8.3 mV
12.6 mV
7.7 mV
Pass
90% Load
31.3 mV
8.4 mV
13.3 mV
8.0 mV
Pass
100% Load
40.3 mV
8.4 mV
13.3 mV
9.1 mV
Pass
110% Load
41.6 mV
8.2 mV
14.3 mV
9.4 mV
Pass
Crossload 1
24.7 mV
7.4 mV
12.2 mV
10.1 mV
Pass
Crossload 2
17.7 mV
6.9 mV
4.1 mV
9.3 mV
Pass
Crossload 3
6.8 mV
5.8 mV
13.5 mV
5.7 mV
Pass
Crossload 4
39.7 mV
7.7 mV
7.6 mV
10.5 mV
Pass
The results above are not used in the certification process
Test
12V
5V
3.3V
5VSB
Pass/Fail
10% Load
29.7 mV
6.3 mV
4.1 mV
7.9 mV
Pass
20% Load
26.9 mV
6.6 mV
4.5 mV
7.7 mV
Pass
30% Load
28.8 mV
10.0 mV
8.2 mV
7.0 mV
Pass
40% Load
31.0 mV
9.5 mV
8.2 mV
6.2 mV
Pass
50% Load
32.8 mV
7.0 mV
6.7 mV
6.5 mV
Pass
60% Load
32.2 mV
6.5 mV
7.0 mV
8.0 mV
Pass
70% Load
31.8 mV
8.3 mV
9.4 mV
7.4 mV
Pass
80% Load
33.0 mV
8.8 mV
13.4 mV
8.0 mV
Pass
90% Load
33.0 mV
8.7 mV
13.4 mV
7.9 mV
Pass
100% Load
40.7 mV
8.8 mV
13.8 mV
9.8 mV
Pass
110% Load
41.6 mV
7.7 mV
13.6 mV
9.0 mV
Pass
Crossload 1
35.5 mV
6.8 mV
11.9 mV
6.7 mV
Pass
Crossload 2
25.2 mV
6.5 mV
4.2 mV
6.1 mV
Pass
Crossload 3
6.8 mV
6.0 mV
14.1 mV
9.0 mV
Pass
Crossload 4
40.2 mV
7.4 mV
8.9 mV
10.2 mV
Pass
The results above are not used in the certification process
Cooler Master V1300 Platinum V2
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
Outside Validation Scope
