Gamemax GP-400A rev.2 Power Supply: Cybenetics Efficiency and Noise Level Certification Report

Anex

Lab ID: 588

Receipt Date: Apr 17, 2019

Test Date: Apr 28, 2019

Report Date: May 1, 2019

DUT INFORMATION

Brand	Gamemax
Manufacturer (OEM)	Gamemax
Series	GP Series
Model Number	GP-400A rev.2
Serial Number	N/A
DUT Notes	N/A

DUT SPECIFICATIONS

Rated Voltage (Vrms)	100-240
Rated Current (Arms)	6-3
Rated Frequency (Hz)	50-60
Rated Power (W)	400
Type	ATX12V
Cooling	120mm Sleeve Bearing Fan (DF1202512SEL)
Semi-Passive Operation	X ❌
Cable Design	Fixed cables

POWER SPECIFICATIONS

Rail	Amps	Watts
3.3V	15	100
5V	15	288
12V	24	12.5
5VSB	2.5	6
-12V	0.5	N/A

Total Max. Power (W): 400

CABLES AND CONNECTORS

Captive Cables

Description	Cable Count	Connector Count (Total)	Gauge	In Cable Capacitors
ATX connector 20+4 pin (510mm)	1	1	18-22AWG	No
4+4 pin EPS12V (510mm)	1	1	18AWG	No
6+2 pin PCIe (430mm)	1	1	18AWG	No
SATA (430mm) / 4-pin Molex (+150mm)	1	1/1	18AWG	No
4-pin Molex (430mm) / SATA (+150mm+150mm)	1	1/2	18AWG	No

COMPONENT DETAILS

General Data

Manufacturer (OEM)	Gamemax
PCB Type	Single Layer

Primary Side

Transient Filter	4x Y caps, 2x X caps, 2x CM chokes, 1x MOV
Inrush Protection	NTC Thermistor
Bridge Rectifier(s)	1x GBU1506L (600V, 15A @ 100°C)
APFC MOSFETS	2x Champion GP18S50G (500V, 28A @ 150°C, 0.19Ω)
APFC Boost Diode	1x CREE C3D06060A (600V, 6A @ 154°C)
Hold-up Cap(s)	1x CapXon (400V, 270uF, 2000h @ 105°C, HP)
Main Switchers	2x Champion GP18S50G (500V, 28A @ 150°C, 0.19Ω)
Combo APFC/PWM Controller	Champion CM6805BSX
Topology	Primary side: Double Forward Secondary side: Group Regulation & Passive Rectification

Secondary Side

+12V MOSFETS	2x MOSPEC S60M60C SBR (60V, 60A)
5V & 3.3V	2x MOSPEC S40M45C SBR (45V, 40A)
Filtering Capacitors	Electrolytics: CapXon (2-5,000μF @ 105°C, KF), ChengX (2-4,000h @ 105°C, GR)
Supervisor IC	Grenergy GR8313 (OVP, UVP, SCP, PG)
Fan Model	Xin Zheng Heng Electronic DF1202512SEL (120mm, 12V, 0.10A, 1.2W, Sleeve Bearing)

5VSB Circuit

Rectifier	1x MOSPEC S60M60C SBR (60V, 60A) & CEF04N7G (700V, 4A, 3.3Ω)
Standby PWM Controller	Excelliance EM8569A

RESULTS

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

115V

Metric	Value
Average Efficiency	83.521%
Efficiency With 10W (≤500W) or 2% (>500W)	59.258%
Average Efficiency 5VSB	71.085%
Standby Power Consumption (W)	0.1111260
Average PF	0.992
Avg Noise Output	29.47 dB(A)
Efficiency Rating (ETA)	BRONZE
Noise Rating (LAMBDA)	A-

230V

Metric	Value
Average Efficiency	85.168%
Average Efficiency 5VSB	68.430%
Standby Power Consumption (W)	0.1944530
Average PF	0.922
Avg Noise Output	29.40 dB(A)
Efficiency Rating (ETA)	A-
Noise Rating (LAMBDA)	A-

TEST EQUIPMENT

Category	Equipment
Electronic Loads	Chroma 6314A x2, 63123A x6, 63102A, 63101A
AC Sources	Chroma 6530, Chroma 61604, Keysight AC6804B
Power Analyzers	N4L PPA1530x2, N4L PPA5530
Oscilloscopes	Picoscope 4444 & 3424, Keysight DSOX3024A, Rigol DS2072A
Voltmeter	Keithley 2015 THD 6.5 Digit
Sound Analyzer	Bruel & Kjaer 2250-L G4
Microphone	Bruel & Kjaer Type 4955-A, Bruel & Kjaer Type 4189
Data Loggers	Picoscope TC-08 x2, Labjack U3-HV x2

HOLD-UP TIME & POWER OK SIGNAL (230V)

Metric	Value
Hold-Up Time (ms)	17.2
AC Loss to PWR_OK Hold Up Time (ms)	12.2
PWR_OK Inactive to DC Loss Delay (ms)	5.0

EFFICIENCY UNDER HIGH AMBIENT TEMPERATURE (115V)

INFO: This graph depicts 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.

The graph displays efficiency percentages on the Y-axis (from 68% to 88%) against load wattage on the X-axis (from 0W to 450W). Two lines represent the efficiency for 115V input (blue) and 230V input (red), with a third line indicating compliance with (EU) No 617/2013 standards.

5VSB EFFICIENCY (115V)

INFO: This graph depicts the efficiency levels of the 5VSB rail with 115V and 230V input.

The graph shows 5VSB efficiency percentages on the Y-axis (from 46% to 74%) against load wattage on the X-axis (from 0W to 13W). Two lines represent the efficiency for 115V input (red) and 230V input (blue).

5VSB EFFICIENCY - 115V (ERP LOT 3/6 & CEC)

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A (5.106V)	0.230	52.511%	0.059 (115.10V)
2	0.090A (5.104V)	0.460	59.432%	0.101 (115.10V)
3	0.550A (5.091V)	2.800	69.756%	0.281 (115.10V)
4	1.000A (5.077V)	5.078	72.192%	0.325 (115.10V)
5	1.500A (5.062V)	7.594	72.517%	0.350 (115.10V)
6	2.500A (5.032V)	12.580	71.841%	0.380 (115.10V)

5VSB EFFICIENCY - 230V (ERP LOT 3/6 & CEC)

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A (5.106V)	0.230	43.977%	0.022 (230.22V)
2	0.090A (5.104V)	0.460	50.773%	0.037 (230.22V)
3	0.550A (5.090V)	2.800	67.994%	0.145 (230.22V)
4	1.000A (5.077V)	5.077	70.710%	0.207 (230.22V)
5	1.500A (5.062V)	7.593	70.195%	0.249 (230.22V)
6	2.500A (5.031V)	12.577	71.246%	0.291 (230.23V)

EFFICIENCY GRAPH 115V

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.

The graph shows efficiency zones color-coded from <70% (dark orange) to >94% (dark purple). The X-axis represents '+12V Combined Watts' (from 0W to 275W), and the Y-axis represents '5 & 3.3V Combined Watts' (from 0W to 100W).

NOISE GRAPH 115V

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.

The graph displays noise levels in dBA, color-coded from <6 (red) to >50 (dark purple). The X-axis represents '+12V Combined Watts' (from 0W to 275W), and the Y-axis represents '5 & 3.3V Combined Watts' (from 0W to 100W).

VAMPIRE POWER - 115V

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.

The graph plots 'Power (W)' on the Y-axis (ranging from 0.1096W to 0.1118W) against 'Seconds (s)' on the X-axis (from 0 to 1000). It shows the standby power consumption over time.

10-110% LOAD TESTS 115V

Test #	12V	5V	3.3V	5VSB	DC/AC (Watts)	Efficiency	Fan Speed (RPM)	PSU Noise (dB[A])	Temps (In/Out)	PF/AC Volts
1	1.488A	1.976A	1.959A	0.987A	39.977	76.480%	834	13.5	29.43°C	0.949 (115.11V)
2	3.945A	2.975A	2.946A	1.188A	79.639	82.278%	838	13.5	31.26°C	0.989 (115.11V)
3	6.741A	3.478A	3.430A	1.390A	119.187	84.598%	842	13.5	29.82°C	0.992 (115.10V)
4	9.606A	3.983A	3.948A	1.593A	159.609	85.612%	978	16.7	30.41°C	0.995 (115.10V)
5	12.101A	5.000A	4.946A	1.798A	199.729	85.766%	1204	22.3	32.84°C	0.997 (115.10V)
6	14.594A	6.024A	5.950A	2.003A	239.867	85.459%	1421	27.9	31.05°C	0.997 (115.11V)
7	17.060A	7.053A	6.955A	2.211A	279.575	84.884%	1605	31.8	33.86°C	0.998 (115.11V)
8	19.587A	8.092A	7.967A	2.420A	320.083	84.261%	1613	31.8	31.54°C	0.998 (115.11V)
9	22.469A	8.617A	8.464A	2.423A	359.395	83.754%	1616	32.0	34.49°C	0.998 (115.12V)
10	25.427A	9.142A	8.992A	2.530A	400.105	83.056%	1620	32.0	35.56°C	0.998 (115.12V)
11	28.776A	9.143A	9.009A	2.534A	440.126	82.383%	1622	31.8	36.17°C	0.998 (115.12V)
CL1	0.137A	12.002A	11.999A	0.000A	98.911	75.745%	1433	28.1	32.76°C	0.992 (115.13V)
CL2	23.999A	1.001A	0.999A	1.000A	301.128	86.099%	1574	31.1	37.20°C	0.998 (115.12V)

20-80W LOAD TESTS 115V

Test #	12V	5V	3.3V	5VSB	DC/AC (Watts)	Efficiency	Fan Speed (RPM)	PSU Noise (dB[A])	PF/AC Volts
1	1.170A	0.488A	0.473A	0.196A	19.436	68.572%	821	13.1	0.832 (115.11V)
2	2.404A	0.982A	0.978A	0.393A	39.848	78.642%	825	13.5	0.948 (115.11V)
3	3.575A	1.476A	1.453A	0.591A	59.370	82.108%	828	13.5	0.985 (115.11V)
4	4.806A	1.974A	1.962A	0.790A	79.760	83.458%	832	13.5	0.989 (115.11V)

RIPPLE MEASUREMENTS 115V

Test	12V	5V	3.3V	5VSB	Pass/Fail
10% Load	13.3 mV	11.6 mV	9.3 mV	22.7 mV	Pass
20% Load	17.3 mV	13.0 mV	11.9 mV	37.6 mV	Pass
30% Load	19.6 mV	14.2 mV	12.6 mV	39.7 mV	Pass
40% Load	22.0 mV	15.5 mV	13.8 mV	45.6 mV	Pass
50% Load	25.1 mV	18.1 mV	12.9 mV	33.6 mV	Pass
60% Load	29.6 mV	20.2 mV	12.4 mV	40.0 mV	Pass
70% Load	34.0 mV	22.9 mV	12.4 mV	46.9 mV	Pass
80% Load	36.6 mV	27.9 mV	16.7 mV	56.6 mV	Fail
90% Load	39.7 mV	29.7 mV	15.1 mV	63.0 mV	Fail
100% Load	46.2 mV	34.6 mV	15.8 mV	73.6 mV	Fail
110% Load	61.3 mV	39.5 mV	15.3 mV	71.1 mV	Fail
Crossload 1	24.0 mV	73.6 mV	18.3 mV	19.8 mV	Fail
Crossload 2	34.8 mV	21.1 mV	8.8 mV	30.6 mV	Pass

EFFICIENCY GRAPH 230V

NOISE GRAPH 230V

VAMPIRE POWER - 230V

The graph plots 'Power (W)' on the Y-axis (ranging from 0.192W to 0.208W) against 'Seconds (s)' on the X-axis (from 0 to 1000). It shows the standby power consumption over time.

10-110% LOAD TESTS 230V

Test #	12V	5V	3.3V	5VSB	DC/AC (Watts)	Efficiency	Fan Speed (RPM)	PSU Noise (dB[A])	Temps (In/Out)	PF/AC Volts
1	1.489A	1.974A	1.958A	0.987A	39.973	77.607%	835	13.5	29.09°C	0.531 (230.22V)
2	3.944A	2.975A	2.946A	1.188A	79.630	83.485%	838	13.5	31.18°C	0.765 (230.22V)
3	6.739A	3.479A	3.431A	1.390A	119.173	85.995%	843	13.5	29.73°C	0.882 (230.22V)
4	9.604A	3.983A	3.946A	1.593A	159.569	87.081%	967	15.4	32.26°C	0.957 (230.22V)
5	12.098A	5.000A	4.947A	1.798A	199.698	87.324%	1193	21.9	30.22°C	0.979 (230.22V)
6	14.590A	6.024A	5.949A	2.003A	239.799	87.148%	1403	26.9	33.40°C	0.986 (230.21V)
7	17.056A	7.054A	6.956A	2.211A	279.507	86.720%	1609	31.8	30.68°C	0.988 (230.22V)
8	19.583A	8.094A	7.966A	2.420A	320.010	86.288%	1615	31.8	34.26°C	0.990 (230.23V)
9	22.465A	8.617A	8.463A	2.424A	359.311	85.989%	1618	31.8	31.23°C	0.991 (230.21V)
10	25.422A	9.145A	8.992A	2.531A	400.026	85.525%	1622	31.8	35.23°C	0.992 (230.23V)
11	28.775A	9.142A	9.007A	2.535A	440.036	85.111%	1623	31.8	31.87°C	0.992 (230.23V)
CL1	0.133A	12.002A	11.997A	0.000A	98.841	77.080%	1450	28.2	36.35°C	0.854 (230.23V)
CL2	24.001A	1.001A	0.997A	1.000A	301.121	88.021%	1579	31.1	37.83°C	0.989 (230.23V)

20-80W LOAD TESTS 230V

Test #	12V	5V	3.3V	5VSB	DC/AC (Watts)	Efficiency	Fan Speed (RPM)	PSU Noise (dB[A])	PF/AC Volts
1	1.170A	0.487A	0.474A	0.196A	19.431	70.836%	824	13.5	0.397 (230.21V)
2	2.404A	0.982A	0.978A	0.393A	39.841	79.676%	824	13.5	0.552 (230.21V)
3	3.575A	1.476A	1.453A	0.591A	59.367	82.569%	827	13.5	0.667 (230.22V)
4	4.806A	1.973A	1.961A	0.790A	79.752	84.644%	832	13.5	0.761 (230.21V)

RIPPLE MEASUREMENTS 230V

Test	12V	5V	3.3V	5VSB	Pass/Fail
10% Load	13.4 mV	12.1 mV	9.8 mV	24.1 mV	Pass
20% Load	15.7 mV	12.6 mV	10.9 mV	37.6 mV	Pass
30% Load	18.5 mV	13.7 mV	11.6 mV	37.3 mV	Pass
40% Load	18.7 mV	14.8 mV	11.5 mV	41.6 mV	Pass
50% Load	21.7 mV	16.0 mV	11.8 mV	37.4 mV	Pass
60% Load	23.0 mV	18.0 mV	13.0 mV	41.2 mV	Pass
70% Load	26.8 mV	19.8 mV	14.1 mV	47.9 mV	Pass
80% Load	30.1 mV	25.0 mV	18.2 mV	52.5 mV	Fail
90% Load	33.7 mV	25.7 mV	18.4 mV	63.7 mV	Fail
100% Load	40.3 mV	30.0 mV	19.4 mV	62.5 mV	Fail
110% Load	49.3 mV	33.5 mV	19.0 mV	68.8 mV	Fail
Crossload 1	21.2 mV	56.8 mV	21.7 mV	19.9 mV	Fail
Crossload 2	27.4 mV	17.6 mV	10.6 mV	32.6 mV	Pass

CERTIFICATIONS

115V

CYBENETICS BRONZE CYBENETICS A-

230V

CYBENETICS A- (230V)

Important Notes

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.

Contact: info@cybenetics.com | Website: www.cybenetics.com

Address: 4004 MESA GEITONIA, LIMASSOL, CYPRUS

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Anex

DUT INFORMATION

DUT SPECIFICATIONS

POWER SPECIFICATIONS

CABLES AND CONNECTORS

Captive Cables

COMPONENT DETAILS

General Data

Primary Side

Secondary Side

5VSB Circuit

RESULTS

115V

230V

TEST EQUIPMENT

HOLD-UP TIME & POWER OK SIGNAL (230V)

EFFICIENCY UNDER HIGH AMBIENT TEMPERATURE (115V)

5VSB EFFICIENCY (115V)

5VSB EFFICIENCY - 115V (ERP LOT 3/6 & CEC)

5VSB EFFICIENCY - 230V (ERP LOT 3/6 & CEC)

EFFICIENCY GRAPH 115V

NOISE GRAPH 115V

VAMPIRE POWER - 115V

10-110% LOAD TESTS 115V

20-80W LOAD TESTS 115V

RIPPLE MEASUREMENTS 115V

EFFICIENCY GRAPH 230V

NOISE GRAPH 230V

VAMPIRE POWER - 230V

10-110% LOAD TESTS 230V

20-80W LOAD TESTS 230V

RIPPLE MEASUREMENTS 230V

CERTIFICATIONS

115V

230V

Important Notes

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