CYBENETICS LTD Syrou 6, Latsia, 2231, Nicosia Cyprus
EVGA SuperNOVA 1600 T2 (#2)
Serial Number1703441610899001
Lab IDEV16001656
  • Report: 20PS1656A
  • Receipt Date: -
  • Test Date: May 19, 2020
  • Report Date: Jun 12, 2020
115V230V
Efficiency Rating
115V230V
Noise Rating
Aristeidis Bitziopoulos, Laboratory General Manager

General Information

DUT Information

BrandEVGA
Manufacturer (OEM)Super Flower
SeriesSuperNOVA
Model Number
Serial Number1703441610899001
DUT Notes

DUT Specifications

Rated Voltage (Vrms)115-240
Rated Current (Arms)17-10
Rated Frequency (Hz)50-60
Rated Power (W)1600
TypeATX12V
Cooling140mm Double Ball-Bearing Fan
(RL4Z B1402512EH)
Semi-Passive Operation✓ (selectable)
Cable DesignFully Modular

Power Specifications

Rail3.3V5V12V5VSB-12V
Max. PowerAmps2424133.330.5
Watts1201599.6156
Total Max. Power (W)1600

Test Equipment

Electronic Loads Chroma 63601-5 x4
Chroma 63600-2 x2
63640-80-80 x20
63610-80-20 x2
AC Sources Chroma 6530, Keysight AC6804B
Power Analyzers N4L PPA1530 x2
Sound Analyzer Bruel & Kjaer 2270 G4
Microphone Bruel & Kjaer Type 4955-A
Data Loggers Picoscope TC-08 x2, Labjack U3-HV x2
Tachometer UNI-T UT372 x2
Digital Multimeter Keysight U1273AX, Fluke 289, Keithley 2015 - THD
UPS CyberPower OLS3000E 3kVA x2
Transformer 3kVA x2
Testing Methodology Cybenetics PSU Test Protocol

Cables and Connectors

Modular Cables
Description Cable Count Connector Count (Total) Gauge In Cable Capacitors
ATX connector 20+4 pin (600mm) 1 1 16-22AWG Yes
4+4 pin EPS12V (750mm) 2 2 16-22AWG Yes
6+2 pin PCIe (750mm+150mm) 5 10 16-22AWG Yes
6+2 pin PCIe (750mm) 4 4 16-22AWG Yes
SATA (550mm+100mm+100mm+100mm) 3 12 18-20AWG No
SATA (550mm+100mm) / 4 pin Molex (+100mm+100mm) 1 2 / 2 18AWG No
4 pin Molex (550mm+100mm+100mm) 1 3 18AWG No
FDD Adapter (+100mm) 2 2 20AWG No
AC Power Cord (1720mm) - C19 coupler 1 1 16AWG -

Parts Description

General Data
Manufacturer (OEM) Super Flower
Platform Model Leadex Titanium
Primary Side
Transient Filter 6x Y caps, 2x X caps, 2x MC chokes, 1x MOV, NTC Thermistor
Inrush Protection NTC Thermistor & Relay
Bridge Rectifier(s) Bridgeless Design - 1x US30K80R & 8x Infineon MOSFETs
APFC MOSFETS 8x Infineon MOSFETs
APFC Boost Diodes 4x Infineon  IDL10G65C5 (650V, 10A @ 125°C)
Hold-up Cap(s) 4x Nippon Chemi-Con (400V, 390uF each. 1560uF combined, 2000h @ 105°C, KMW)
Main Switchers 4x Infineon IPP50R140CP (550V, 15A @ 100°C, 0.14Ohm)
APFC Controller SF29603
LLC Resonant Controller SFAA9013
Topology Primary side: Bridgeless PFC, Full-Bridge & LLC Resonant Controller
Secondary side: Synchronous Rectification & DC-DC converters
Secondary Side
+12V MOSFETS 12x Infineon  BSC027N04LS G (40V, 88A @ 100°C, 2.7mOhm)
5V & 3.3V DC-DC Converters: 8x Infineon IPD060N03Β (30V, 47A @ 100°C, 9.5mOhm)
PWM Controller:  APW7159C
Filtering Capacitors Electrolytics: Nippon Chemi-Con (1-5,000 @ 105°C, KZE ), Nippon Chemi-Con (4-10,000 @ 105°C, KY ), Nippon Chemi-Con (W, 105°C), Nippon Chemi-Con (1,000 @ 105°C, KRG )
Polymers: Nippon Chemi-Con
Supervisor IC AA9013 & LM324ADG
Fan Model Globe Fan RL4Z-B1402512EH
(140mm, 12V, 0.6A, 2000 RPM, 153.47 CFM, 39.5 dB(A), 70,000-hour MTBF)
5VSB Circuit
Rectifier 1x Mospec S10C60C SBR (60V, 10A)
Standby PWM Controller 29604

Test Results

Temperature & Compliance Info

Temperature Range (°C /°F)30-32 / 86-89.6
ErP Lot 3/6 ReadyErP Lot 6 2010: ✓
ErP Lot 6 2013: Partially
ErP Lot 3 2014 & CEC: ✓
(EU) No 617/2013 Compliance

Performance Summary

Hold-Up Time & Power Ok Signal

Hold-Up Time (ms)21
AC Loss to PWR_OK Hold Up Time (ms)19.2
PWR_OK Inactive to DC Loss Delay (ms)1.8

Vampire Power

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 0.229 57.975% 0.024
5.085V 0.395 115.13V
2 0.090A 0.458 68.155% 0.040
5.084V 0.672 115.13V
3 0.550A 2.792 78.361% 0.191
5.076V 3.563 115.12V
4 1.000A 5.069 79.451% 0.292
5.068V 6.380 115.13V
5 1.500A 7.589 79.909% 0.364
5.059V 9.497 115.13V
6 3.001A 15.085 78.756% 0.469
5.027V 19.154 115.13V
Test # 5VSB DC/AC (Watts) Efficiency PF/AC Volts
1 0.045A 0.229 44.902% 0.134
5.058V 0.510 230.28V
2 0.090A 0.458 57.828% 0.014
5.084V 0.792 230.28V
3 0.550A 2.793 75.283% 0.065
5.076V 3.710 230.27V
4 1.000A 5.068 77.469% 0.111
5.067V 6.542 230.28V
5 1.500A 7.589 78.716% 0.157
5.058V 9.641 230.27V
6 3.001A 15.093 79.693% 0.264
5.030V 18.939 230.28V

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 11.336A 1.988A 1.995A 0.988A 160.027 90.572% 0 <6.0 45.57°C 0.922
12.211V 5.027V 3.312V 5.062V 176.685 40.48°C 115.13V
2 23.694A 2.989A 2.997A 1.188A 320.098 93.057% 0 <6.0 47.43°C 0.971
12.205V 5.021V 3.304V 5.053V 343.979 41.30°C 115.12V
3 36.345A 3.489A 3.503A 1.388A 479.428 93.508% 0 <6.0 48.77°C 0.985
12.199V 5.017V 3.297V 5.044V 512.711 41.89°C 115.12V
4 49.090A 3.992A 4.011A 1.589A 639.814 93.474% 0 <6.0 50.15°C 0.991
12.194V 5.012V 3.291V 5.036V 684.481 42.49°C 115.11V
5 61.507A 4.998A 5.028A 1.791A 799.990 93.112% 1017 34.0 42.65°C 0.994
12.185V 5.006V 3.282V 5.028V 859.168 50.83°C 115.11V
6 73.924A 6.001A 6.050A 1.993A 960.064 92.501% 1022 34.3 42.71°C 0.996
12.178V 5.001V 3.273V 5.020V 1037.891 51.49°C 115.10V
7 86.311A 7.010A 7.083A 2.196A 1119.795 91.907% 1022 34.3 43.28°C 0.997
12.173V 4.995V 3.263V 5.011V 1218.395 52.38°C 115.09V
8 98.785A 8.003A 8.119A 2.400A 1280.249 90.956% 1582 46.4 43.96°C 0.997
12.167V 4.989V 3.252V 5.001V 1407.544 53.55°C 115.08V
9 111.616A 8.532A 8.631A 2.403A 1439.668 90.077% 2073 53.2 44.92°C 0.996
12.159V 4.983V 3.245V 4.996V 1598.259 55.22°C 115.08V
10 124.282A 9.044A 9.179A 3.014A 1600.006 88.986% 2065 53.1 45.79°C 0.993
12.152V 4.978V 3.236V 4.979V 1798.039 56.67°C 115.08V
11 137.524A 9.051A 9.196A 3.017A 1760.102 87.648% 2064 53.1 46.83°C 0.990
12.146V 4.974V 3.231V 4.973V 2008.158 58.41°C 115.07V
CL1 0.101A 14.005A 13.999A 0.000A 116.642 81.945% 1556 45.8 42.94°C 0.908
12.212V 4.996V 3.246V 5.076V 142.342 51.17°C 115.15V
CL2 133.355A 1.001A 1.001A 1.000A 1633.837 89.202% 2068 53.1 45.66°C 0.993
12.152V 4.998V 3.278V 5.022V 1831.623 56.07°C 115.08V

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 11.339A 1.990A 1.995A 0.988A 160.033 91.341% 0 <6.0 45.44°C 0.865
12.208V 5.026V 3.310V 5.062V 175.204 39.51°C 230.28V
2 23.701A 2.987A 3.001A 1.188A 320.101 93.981% 0 <6.0 46.22°C 0.922
12.202V 5.020V 3.300V 5.053V 340.603 40.01°C 230.28V
3 36.355A 3.490A 3.507A 1.388A 479.433 94.724% 0 <6.0 47.75°C 0.957
12.196V 5.015V 3.292V 5.044V 506.139 40.78°C 230.27V
4 49.100A 3.995A 4.019A 1.589A 639.796 94.914% 0 <6.0 49.15°C 0.974
12.191V 5.010V 3.285V 5.035V 674.082 41.57°C 230.26V
5 61.511A 4.997A 5.042A 1.791A 799.971 94.767% 1018 34.0 42.25°C 0.982
12.184V 5.004V 3.275V 5.027V 844.143 50.64°C 230.26V
6 73.941A 6.005A 6.068A 1.993A 960.058 94.461% 1019 34.1 42.69°C 0.987
12.175V 4.998V 3.265V 5.018V 1016.351 51.86°C 230.26V
7 86.344A 7.014A 7.101A 2.196A 1119.756 94.169% 1022 34.3 43.28°C 0.990
12.168V 4.992V 3.254V 5.010V 1189.088 52.82°C 230.26V
8 98.824A 8.005A 8.142A 2.401A 1280.213 93.528% 1584 46.4 44.13°C 0.992
12.162V 4.985V 3.243V 5.000V 1368.807 54.24°C 230.25V
9 111.651A 8.536A 8.656A 2.403A 1439.632 93.123% 2077 53.2 44.88°C 0.993
12.155V 4.980V 3.235V 4.995V 1545.945 55.64°C 230.25V
10 124.317A 9.047A 9.204A 3.014A 1600.044 92.721% 2061 53.1 45.71°C 0.995
12.149V 4.975V 3.227V 4.979V 1725.648 57.04°C 230.25V
11 137.560A 9.055A 9.217A 3.017A 1760.106 92.269% 2059 53.0 46.95°C 0.995
12.143V 4.971V 3.222V 4.974V 1907.571 58.72°C 230.26V
CL1 0.102A 14.005A 14.002A 0.000A 116.497 82.445% 1556 45.8 42.65°C 0.822
12.210V 4.993V 3.237V 5.076V 141.302 50.92°C 230.28V
CL2 133.358A 1.000A 0.999A 1.000A 1633.458 92.978% 2065 53.1 45.63°C 0.995
12.149V 4.997V 3.276V 5.023V 1756.824 57.37°C 230.24V

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 1.215A 0.498A 0.495A 0.197A 19.997 65.167% 0 <6.0 0.756
12.216V 5.035V 3.324V 5.083V 30.686 115.13V
2 2.430A 0.994A 0.994A 0.394A 39.987 77.499% 0 <6.0 0.826
12.215V 5.033V 3.321V 5.078V 51.597 115.13V
3 3.649A 1.490A 1.492A 0.592A 60.018 82.876% 0 <6.0 0.857
12.214V 5.031V 3.317V 5.074V 72.419 115.13V
4 4.861A 1.988A 1.991A 0.789A 79.969 85.581% 0 <6.0 0.876
12.214V 5.029V 3.314V 5.069V 93.442 115.13V

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 1.216A 0.497A 0.497A 0.197A 20.004 67.794% 0 <6.0 0.370
12.212V 5.034V 3.323V 5.083V 29.507 230.30V
2 2.432A 0.994A 0.992A 0.394A 39.993 78.603% 0 <6.0 0.531
12.211V 5.032V 3.319V 5.078V 50.880 230.30V
3 3.650A 1.491A 1.493A 0.592A 60.023 83.458% 0 <6.0 0.665
12.211V 5.030V 3.316V 5.073V 71.920 230.29V
4 4.862A 1.990A 1.992A 0.789A 79.972 86.166% 0 <6.0 0.743
12.211V 5.028V 3.312V 5.068V 92.812 230.28V

The results above are not used in the certification process

Ripple Measurements

Test12V5V3.3V5VSBPass/Fail
10% Load7.40mV8.60mV14.20mV6.20mVPass
20% Load8.00mV10.50mV15.80mV6.60mVPass
30% Load8.10mV12.10mV17.00mV7.20mVPass
40% Load8.40mV12.70mV18.60mV8.60mVPass
50% Load8.60mV15.00mV19.10mV9.30mVPass
60% Load9.20mV15.00mV19.80mV9.70mVPass
70% Load9.10mV16.50mV21.20mV10.70mVPass
80% Load9.70mV17.80mV25.00mV13.30mVPass
90% Load13.20mV23.30mV29.30mV17.20mVPass
100% Load17.50mV28.10mV36.10mV22.40mVPass
110% Load20.80mV31.40mV40.80mV24.70mVPass
Crossload17.00mV8.70mV17.00mV10.30mVPass
Crossload217.10mV27.80mV34.70mV21.50mVPass

The results above are not used in the certification process

Test12V5V3.3V5VSBPass/Fail
10% Load5.80mV7.10mV12.40mV5.80mVPass
20% Load6.90mV9.00mV15.20mV6.90mVPass
30% Load7.30mV10.70mV15.40mV7.90mVPass
40% Load7.90mV11.50mV17.60mV8.40mVPass
50% Load8.10mV13.50mV18.80mV9.40mVPass
60% Load8.50mV15.00mV19.30mV9.50mVPass
70% Load8.40mV15.10mV20.70mV10.40mVPass
80% Load8.50mV17.60mV22.60mV11.30mVPass
90% Load9.10mV17.70mV24.20mV13.00mVPass
100% Load11.00mV19.30mV27.20mV15.80mVPass
110% Load11.20mV21.80mV28.60mV17.30mVPass
Crossload16.10mV7.40mV14.60mV10.10mVPass
Crossload210.80mV20.20mV26.60mV15.40mVPass

The results above are not used in the certification process

EVGA SuperNOVA 1600 T2 (#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
CYBENETICS LTD Syrou 6, Latsia, 2231, Nicosia Cyprus
www.cybenetics.com - info@cybenetics.com