Cybenetics Test - Cooler Master G GOLD 550 V2 (MWE GOLD 550 V3 Non-Modular)

Cooler Master G GOLD 550 V2 (MWE GOLD 550 V3 Non-Modular)

Serial NumberMPE5502ACAAGEU1241400151

Lab IDCM55002484

Certification ID252484

Test Result Report ID: 24PS2484A
Certificate Issue Date: Jul 1, 2024

	115V	230V
Scheme: ETA-EMI PSU

115V	230V
		Scheme: LAMBDA PSU

Outside Validation Scope

Aristeidis Bitziopoulos, Certification Body General Manager

General Information

Main Specs

Product Identification Details
Brand	Cooler Master
Model	G GOLD 550 V2 (MWE GOLD 550 V3 Non-Modular)
OEM	Gospower
Serial Number	MPE5502ACAAGEU1241400151
Product Specifications
Manufacturer
Rated Voltage (Vrms)	100-240
Rated Current (Arms)	8-4
Rated Frequency (Hz)	50-60
Rated Power (W)	550
Operating Temperature (Continuous Full Load) (°C)
Type	ATX12V
Cable Design	Fixed cables
Warranty
Cybenetics
Dimensions (W x H x D)
Weight
Cooling	120mm Fluid Dynamic Bearing Fan (HA1225H12F-Z)
Semi-Passive Operation	✓
Cybenetics Testing Information
Lab ID	CM55002484
Date of receipt	May 29, 2024
Testing Date	Jun 19, 2024
Report Issued Date	Jul 1, 2024
Engineer Name	-
Authorized By the Laboratory Technical Manager	Aristeidis Bitziopoulos
Signature

Cables and Connectors(Non-accredited measurements)

Captive Cables
Description	Cable Count	Connector Count (Total)	Gauge	In Cable Capacitors
ATX connector 24 pin (500mm)	1	1	18AWG	No
4+4 pin EPS12V (580mm)	1	1	18AWG	No
6+2 pin PCIe (600mm+125mm)	1	2	16-18AWG	No
SATA (410mm+150mm+150mm)	2	6	18AWG	No
4-pin Molex (400mm+150mm+150mm)	1	3	18AWG	No
Modular Cables
AC Power Cord (1380mm) - C13 coupler	1	1	18AWG	-

Protection Features(Non-accredited measurements)

Over Voltage Protection	✓
Under Voltage Protection	✓
Over Power Protection	✓
Over Current (+12V) Protection	✓
Over Temperature Protection	✓
Short Circuit Protection	✓
Surge Protection	✓

Power Specifications(Manufacturer)

Rail		3.3V	5V	12V	5VSB	-12V
Max. Power	Amps	20	20	45.8	3	0.3
Max. Power	Watts	120		549.6	15	3.6
Total Max. Power (W)		550

Parts Description

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

Accredited
Average Efficiency (>1450 load combinations)	87.721%
Average Noise Output (>1450 Load Combinations)	22.82dBA
Average PF (>1450 Load Combinations)	0.977
Efficiency With 10W (≤500W) or 2% (>500W) Load	71.339%
Standby Power Consumption	0.0743W
Non-Accredited
12V Ripple (Full Load)	73.10mV
5V Ripple (Full Load)	22.02mV
3.3V Ripple (Full Load)	18.33mV
5VSB Ripple (Full Load)	44.44mV
12V Load Regulation	1.42%
5V Load Regulation	2.99%
3.3V Load Regulation	3.44%
5VSB Load Regulation	3.99%
Inrush Current	65.900A

Accredited
Average Efficiency (>1450 load combinations)	89.325%
Average Noise Output (>1450 Load Combinations)	25.86dBA
Average PF (>1450 Load Combinations)	0.899
Efficiency With 10W (≤500W) or 2% (>500W) Load	73.187%
Standby Power Consumption	0.2015W
Non-Accredited
12V Ripple (Full Load)	71.21mV
5V Ripple (Full Load)	21.57mV
3.3V Ripple (Full Load)	18.04mV
5VSB Ripple (Full Load)	43.03mV
12V Load Regulation	1.45%
5V Load Regulation	3.01%
3.3V Load Regulation	3.47%
5VSB Load Regulation	4.01%
Inrush Current	132.900A
12V Transient Response (150%)	11.75V
5V Transient Response (150%)	4.967V
3.3V Transient Response (150%)	3.222V
5VSB Transient Response (150%)	4.998V
Hold-Up Time & Power Ok Signal	16.40ms
AC Loss to PWR_OK Hold Up Time	14.40ms
PWR_OK Inactive to DC Loss Delay	2.00ms
PSU Timings: T1 (20% / 100%)	45.0ms	45.0ms
PSU Timings: T3 (20% / 100%)	126.0ms	127.0ms
12V OCP (26.4°C / 43.0°C)	69.00A (150.66%), 11.925V	68.80A (150.22%), 11.948V
5V OCP (26.4°C / 43.0°C)	25.9A (129.50%), 4.967V	25.2A (126.00%), 4.969V
3.3V OCP (26.4°C / 43.0°C)	30A (150.00%), 3.289V	30A (150.00%), 3.287V
5VSB OCP (26.4°C / 43.0°C)	4.2A (140.00%), 5.019V	4.2A (140.00%), 5.002V
OPP (26.28°C / 43.42°C)	150.00%	150.00%

Hold-Up Time & Power Ok Signal

Hold-Up Time (ms)	16.4
AC Loss to PWR_OK Hold Up Time (ms)	14.4
PWR_OK Inactive to DC Loss Delay (ms)	2

Vampire Power

Tables

Detailed Results
	Average	Min	Limit Min	Max	Limit Max	Result
Mains Voltage RMS:	115.07 V	115.04 V	113.85 V	115.11 V	116.15 V	PASS
Mains Frequency:	60.00 Hz	59.95 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 %	0.09 %	N/A	0.18 %	2.00 %	PASS
Real Power:	0.074 W	0.017 W	N/A	0.103 W	N/A	N/A
Apparent Power:	15.970 W	15.896 W	N/A	16.056 W	N/A	N/A
Power Factor:	0.004	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	230.93 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	1.419	1.490	PASS
Mains Voltage THD:	0.17 %	0.14 %	N/A	0.26 %	2.00 %	PASS
Real Power:	0.201 W	0.162 W	N/A	0.284 W	N/A	N/A
Apparent Power:	52.685 W	52.427 W	N/A	52.949 W	N/A	N/A
Power Factor:	0.004	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

5VSB Efficiency (ERP LOT 3/6 & CEC)

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A	0.232W	57.559%	0.025
1	5.147V	0.404W	57.559%	114.86V
2	0.09A	0.463W	67.282%	0.043
2	5.146V	0.688W	67.282%	114.86V
3	0.55A	2.823W	77.222%	0.202
3	5.132V	3.656W	77.222%	114.86V
4	1A	5.119W	77.843%	0.306
4	5.119V	6.576W	77.843%	114.86V
5	1.5A	7.656W	77.841%	0.371
5	5.103V	9.835W	77.841%	114.86V
6	3A	15.173W	75.488%	0.461
6	5.057V	20.1W	75.488%	114.86V

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A	0.232W	43.948%	0.01
1	5.145V	0.527W	43.948%	229.94V
2	0.09A	0.463W	58.714%	0.015
2	5.144V	0.781W	58.714%	229.95V
3	0.55A	2.822W	75.848%	0.068
3	5.13V	3.713W	75.848%	229.95V
4	1A	5.118W	77.314%	0.117
4	5.118V	6.625W	77.314%	229.95V
5	1.5A	7.655W	78.142%	0.165
5	5.103V	9.793W	78.142%	229.94V
6	3A	15.175W	77.013%	0.276
6	5.058V	19.703W	77.013%	229.94V

Protection Features

OCP (Cold @ 26.4°C)	12V: 69.00A (150.66%), 11.925V 5V: 25.9A (129.50%), 4.967V 3.3V: 30A (150.00%), 3.289V 5VSB: 4.2A (140.00%), 5.019V
OCP (Hot) @ 43.0°C)	12V: 68.80A (150.22%), 11.948V 5V: 25.2A (126.00%), 4.969V 3.3V: 30A (150.00%), 3.287V 5VSB: 4.2A (140.00%), 5.002V
OPP (Cold @ 26.3°C)	824.99W (150.00%)
OPP (Hot @ 43.4°C)	825.00W (150.00%)
OTP	✓ (110°C @ Secondary Side)
SCP	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