Cybenetics Test - Mistel Vision 650W (#2)

Mistel Vision 650W (#2)

MP18060100320

Lab ID494

Report:
Receipt Date: Jul 28, 2018
Test Date: Aug 8, 2018
Report Date: Aug 10, 2018

	115V	230V
效率評比

115V	230V
		噪音評比

Aristeidis Bitziopoulos, Laboratory General Manager

General Information

	Mistel
製造商 (OEM)	Shang Hung
	Vision
	MX650FL
	MP18060100320

(Vrms)	100-240
(Arms)	7.5
(Hz)	50-60
(W)	650
	ATX12V
	Fanless
	✗
	Fully Modular

Rail		3.3V	5V	12V	5VSB	-12V
Max. Power	Amps	20	20	54.1	3	0.3
Max. Power	Watts	100		649.2	15	3.6
Total Max. Power (W)		650

Electronic Loads	Chroma 6314A x2 63123A x6 63102A 63101A	Chroma 63601-5 x4 Chroma 63600-2 x2 63640-80-80 x20 63610-80-20 x2
AC Sources	Chroma 6530, Chroma 61604, Keysight AC6804B
Power Analyzers	N4L PPA1530 x2, 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
Testing Methodology	Cybenetics PSU Test Protocol

Modular Cables
Description	Cable Count	Connector Count (Total)	Gauge	In Cable Capacitors
ATX connector 20+4 pin (700mm)	1	1	18-22AWG	No
4+4 pin EPS12V (750mm)	1	1	18AWG	No
6+2 pin PCIe (600mm+120mm)	2	4	18AWG	No
SATA (400mm+120mm+120mm+120mm)	2	8	18AWG	No
4-pin Molex (400mm+120mm+120mm) / FDD (+100mm)	1	3 / 1	18-22AWG	No
RGB Cable (+400mm)	1	1	24AWG	No
AC Power Cord (1400mm) - C13 coupler	1	1	18AWG	-

Parts Description

General Data
Manufacturer (OEM)	Shang Hung (Taiwan)
Primary Side
Transient Filter	4x Y caps, 2x X caps, 2x CM chokes, 1x MOV (10D561K)
Bridge Rectifier(s)	2x GBJ2506 (600V, 25A @ 100°C)
Inrush Current Protection	NTC Thermistor & Relay
APFC Mosfets	2x Infineon IPA60R099P6 (650V, 24A @ 100°C, 0.099Ω @ 25°C)
APFC Boost Diode	1x G3S06510A (650V, 10A @ 150°C)
Hold-up Cap(s)	1x Nippon Chemi-Con (450V, 560uF, 105°C, KMW series, 2000h @ 105°C).
Main Switchers	4x Wuxi NCE Power Semiconductor NCE65T180F (650V, 13.2A @ 100°C, 0.180Ω @ 25°C)
APFC Controller	Champion CM6500UNX
Resonant Controller	Champion CM6901T6X
Topology	Primary side: Full Bridge & LLC Resonant Converter Secondary side: Synchronous Rectification & DC-DC converters
Secondary Side
+12V	4x Excelliance MOS EMP16N04HS (40V, 100A @ 100°C, 1.6mΩ)
5V & 3.3V	DC-DC Converters: Unknown number of FETs PWM Controllers: 1x UP3861
Filtering Capacitors	Electrolytics: Chemi-Con (1-5,000h @ 105 °C, KZE series), Chemi-Con (4-10,000h @ 105°C, KY series) Polymers: FPCAP, Chemi-Con
Supervisor IC	WT7527V (OVP, UVP, OCP, SCP, PG )
5VSB Circuit
Rectifying Diode	1045 DGAL
Standby PWM Controller	Excelliance EM8569

Test Results

Temperature & Compliance Info

(°C /°F)	30-32 / 86-89.6
	✓
	✓

Performance Summary

效率評比	PLATINUM
噪音評比	A++
(>1450 load combinations)	91.852%
Average Noise Output (>1450 Load Combinations)	6.00dBA
(>1450 Load Combinations)	0.946
Efficiency With 10W (≤500W) or 2% (>500W) Load	0.000%
	0.0741W
12V Ripple (Full Load)	25.19mV
5V Ripple (Full Load)	10.03mV
3.3V Ripple (Full Load)	21.02mV
5VSB Ripple (Full Load)	13.44mV
12V Load Regulation	0.12%
5V Load Regulation	0.76%
3.3V Load Regulation	0.72%
5VSB Load Regulation	3.03%
Inrush Current	56.811A
	24.50ms
AC Loss to PWR_OK Hold Up Time	20.50ms
PWR_OK Inactive to DC Loss Delay	4.00ms
PSU Timings: T1 (20% / 100%)	0.0ms	0.0ms
PSU Timings: T3 (20% / 100%)	0.0ms	0.0ms
OPP (0.00°C / 0.00°C)	0.00%	0.00%

Hold-Up Time (ms)	24.5
AC Loss to PWR_OK Hold Up Time (ms)	20.5
PWR_OK Inactive to DC Loss Delay (ms)	4

待機電源消耗

Graphs

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.

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.

Indicative Performance

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.

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

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A	0.230	68.657%	0.055
1	5.118V	0.335	68.657%	115.09V
2	0.090A	0.461	73.408%	0.099
2	5.117V	0.628	73.408%	115.09V
3	0.550A	2.808	77.249%	0.335
3	5.105V	3.635	77.249%	115.10V
4	1.000A	5.095	76.894%	0.406
4	5.095V	6.626	76.894%	115.10V
5	1.500A	7.625	76.795%	0.443
5	5.083V	9.929	76.795%	115.10V
6	3.000A	15.134	75.511%	0.491
6	5.044V	20.042	75.511%	115.09V

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A	0.230	61.828%	0.019
1	5.118V	0.372	61.828%	230.24V
2	0.090A	0.461	68.806%	0.033
2	5.117V	0.670	68.806%	230.24V
3	0.550A	2.808	76.015%	0.159
3	5.106V	3.694	76.015%	230.22V
4	1.000A	5.096	76.921%	0.240
4	5.095V	6.625	76.921%	230.22V
5	1.500A	7.625	77.059%	0.296
5	5.083V	9.895	77.059%	230.23V
6	3.000A	15.142	76.622%	0.375
6	5.047V	19.762	76.622%	230.23V