Cybenetics Test - FSP Technology Inc. ATX-600PNR-I

FSP Technology Inc. ATX-600PNR-I

S9311000452

Lab IDFS60001682

Report: 20PS1682A
Receipt Date: Jul 7, 2020
Test Date: Jul 13, 2020
Report Date: Jul 16, 2020

	115V	230V
效率評比

115V	230V
		噪音評比

Aristeidis Bitziopoulos, Laboratory General Manager

General Information

	FSP Technology
製造商 (OEM)	FSP


	S9311000452

(Vrms)	200-240
(Arms)	4.5
(Hz)	50-60
(W)	600
	ATX12V
	120mm Sleeve Bearing Fan (D12SH-12)
	✗
	Fixed cables

Rail		3.3V	5V	12V	5VSB	-12V
Max. Power	Amps	26	24	17	3.5	0.5
Max. Power	Watts	135		492	17.5	6
Total Max. Power (W)		600

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

Native Cables
Description	Cable Count	Connector Count (Total)	Gauge	In Cable Caps
ATX connector 20+4 pin (440mm)	1	1	18-24AWG	No
4+4 pin EPS12V (470mm)	1	1	18AWG	No
6+2 pin PCIe (470mm)	1	1	18AWG	No
SATA (440mm+150mm+150mm)	2	6	18AWG	No
4-pin Molex (440mm+150mm) / FDD (+150mm)	1	2 / 1	18-22AWG	No

Parts Description

General Data	-
Manufacturer (OEM)	FSP
PCB Type	Single Sided
Primary Side	-
Transient Filter	4x Y caps, 2x X caps, 2x CM chokes, 1x DM choke
Inrush Protection	-
Bridge Rectifier(s)	1x GBU606 (600V, 6A @ 100°C)
APFC MOSFET	1x JCS19N50FT
APFC Boost Diode	1x STMicroelectronics STTH8R06FP (600V, 8A @ 85°C)
Bulk Cap(s)	1x CapXon (420V, 270uF, 2,000h @ 85°C, LP)
Main Switchers	2x On Semiconductor FDPF16N50 (500V, 9.6A @ 100°C, Rds(on): 0.38Ohm)
PWM/PFC Combo Controller	Champion CM6800TX
Topology	Primary side: APFC, Double Forward Secondary side: Passive Rectification & Group Regulation
Secondary Side	-
+12V SBRs	2x MBR3060CT (60V, 30A @ 100°C)
5V & 3.3V SBRs	2x Lite On MBR2045CTW (45V, 20A @ 125°C) 1x Jilin Sino HBR3045A (45V, 30A @ 150°C)
Filtering Capacitors	Electrolytic: 6x CapXon (2-5,000h @ 105°C, KF), 1x CapXon (2,000h @ 105°C, KM), 2x Teapo (3-5,000h @ 105°C, SY), 2x Teapo (1,000h @ 105°C, SEK)
Supervisor IC	Weltrend WT7527 (OCP, OVP, UVP, SCP, PG)
Fan Model	Yate Loon D12SH-12 (120mm, 12V, 0.30A, Sleeve Bearing Fan)
5VSB Circuit	-
Standby PWM Controller	Power Integrations TNY277NP

Test Results

Temperature & Compliance Info

(°C /°F)	30-32 / 86-89.6
	ErP Lot 6 2010: ✓ ErP Lot 6 2013: Partially ErP Lot 3 2014 & CEC: Partially
	✓

Performance Summary 230V

效率評比
噪音評比	Standard
(>1450 load combinations)	83.548%
Average Noise Output (>1450 Load Combinations)	42.22dBA
(>1450 Load Combinations)	0.940
Efficiency With 10W (≤500W) or 2% (>500W) Load	0.000%
	0.2393W
12V Ripple (Full Load)	102.56mV
5V Ripple (Full Load)	15.49mV
3.3V Ripple (Full Load)	41.76mV
5VSB Ripple (Full Load)	34.47mV
12V Load Regulation	1.30%
5V Load Regulation	1.79%
3.3V Load Regulation	2.82%
5VSB Load Regulation	1.86%
Inrush Current	81.260A
12V Transient Response (150%)	0.00V
5V Transient Response (150%)	V
3.3V Transient Response (150%)	V
5VSB Transient Response (150%)	V
	13.50ms
AC Loss to PWR_OK Hold Up Time	10.10ms
PWR_OK Inactive to DC Loss Delay	3.40ms
PSU Timings: T1 (20% / 100%)	54.0ms	54.0ms
PSU Timings: T3 (20% / 100%)	272.0ms	272.0ms
OPP (0.00°C / 0.00°C)	90.00%	0.00%

Hold-Up Time (ms)	13.5
AC Loss to PWR_OK Hold Up Time (ms)	10.1
PWR_OK Inactive to DC Loss Delay (ms)	3.4

待機電源消耗

Tables 230V

Graphs 230V

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

230V

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

230V

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

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

230V

Test #	5VSB	DC/AC (Watts)	Efficiency	PF/AC Volts
1	0.045A	0.228	42.938%	0.033
1	5.054V	0.531	42.938%	230.34V
2	0.090A	0.455	55.353%	0.051
2	5.054V	0.822	55.353%	230.34V
3	0.550A	2.776	73.810%	0.188
3	5.046V	3.761	73.810%	230.33V
4	1.000A	5.040	75.472%	0.261
4	5.039V	6.678	75.472%	230.33V
5	1.500A	7.547	76.402%	0.306
5	5.030V	9.878	76.402%	230.33V
6	3.501A	17.486	75.511%	0.373
6	4.995V	23.157	75.511%	230.31V

Supplementary Tests (For Reference)

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	3.134A	2.006A	1.921A	0.994A	60.008	79.474%	1510	34.5	35.76°C	0.883
1	12.255V	4.988V	3.432V	5.032V	75.506	79.474%	1510	34.5	38.97°C	230.34V
2	7.285A	3.013A	2.894A	1.195A	120.041	84.443%	1640	37.2	36.09°C	0.919
2	12.235V	4.981V	3.421V	5.022V	142.156	84.443%	1640	37.2	39.86°C	230.35V
3	11.812A	3.514A	3.388A	1.397A	180.046	85.809%	1811	38.9	36.55°C	0.935
3	12.189V	4.982V	3.412V	5.013V	209.821	85.809%	1811	38.9	40.99°C	230.36V
4	16.367A	4.016A	3.881A	1.599A	240.055	86.043%	1905	41.4	36.80°C	0.946
4	12.149V	4.982V	3.402V	5.004V	278.995	86.043%	1905	41.4	41.82°C	230.37V
5	20.557A	5.031A	4.868A	1.802A	300.094	85.711%	2011	42.1	37.42°C	0.953
5	12.141V	4.971V	3.390V	4.994V	350.123	85.711%	2011	42.1	43.13°C	230.37V
6	24.739A	6.055A	5.862A	2.001A	360.022	85.154%	2043	42.4	37.55°C	0.959
6	12.136V	4.957V	3.378V	4.984V	422.791	85.154%	2043	42.4	43.99°C	230.38V
7	28.906A	7.085A	6.867A	2.212A	419.787	84.398%	2067	43.0	38.08°C	0.963
7	12.131V	4.943V	3.365V	4.973V	497.391	84.398%	2067	43.0	45.13°C	230.39V
8	33.159A	8.002A	7.878A	2.419A	479.741	83.500%	2087	43.6	39.00°C	0.966
8	12.120V	4.930V	3.351V	4.963V	574.538	83.500%	2087	43.6	46.99°C	230.41V
9	37.790A	8.632A	8.389A	2.421A	539.623	82.420%	2099	45.0	39.32°C	0.969
9	12.096V	4.925V	3.338V	4.957V	654.722	82.420%	2099	45.0	48.47°C	230.42V
CL1	0.118A	16.001A	16.000A	0.001A	129.303	75.193%	2191	44.5	37.11°C	0.925
CL1	13.406V	4.604V	3.378V	5.023V	171.962	75.193%	2191	44.5	43.47°C	230.39V
CL2	41.021A	0.999A	1.001A	1.000A	490.536	83.215%	2023	41.9	39.01°C	0.966
CL2	11.630V	5.097V	3.369V	4.998V	589.480	83.215%	2023	41.9	48.50°C	230.43V

The results above are not used in the certification process

230V

Test #	12V	5V	3.3V	5VSB	DC/AC (Watts)	Efficiency	Fan Speed (RPM)	PSU Noise (dB[A])	PF/AC Volts
1	1.215A	0.499A	0.481A	0.198A	19.996	67.295%	1317	31.7	0.757
1	12.213V	5.014V	3.441V	5.051V	29.714	67.295%	1317	31.7	230.36V
2	2.430A	0.997A	0.960A	0.397A	39.986	76.276%	1383	32.7	0.841
2	12.219V	5.006V	3.437V	5.045V	52.423	76.276%	1383	32.7	230.36V
3	3.645A	1.502A	1.442A	0.595A	60.016	80.352%	1515	34.7	0.882
3	12.224V	5.000V	3.433V	5.040V	74.691	80.352%	1515	34.7	230.34V
4	4.854A	2.003A	1.926A	0.795A	79.965	82.493%	1557	36.3	0.901
4	12.228V	4.994V	3.429V	5.034V	96.935	82.493%	1557	36.3	230.34V

The results above are not used in the certification process

230V

Test	12V	5V	3.3V	5VSB	Pass/Fail
10% Load	19.0 mV	6.9 mV	9.8 mV	18.4 mV	Pass
20% Load	22.3 mV	7.3 mV	11.0 mV	19.5 mV	Pass
30% Load	28.3 mV	8.2 mV	13.6 mV	20.1 mV	Pass
40% Load	36.8 mV	8.9 mV	17.0 mV	23.2 mV	Pass
50% Load	46.1 mV	10.3 mV	19.3 mV	24.5 mV	Pass
60% Load	57.3 mV	11.1 mV	22.7 mV	25.9 mV	Pass
70% Load	71.5 mV	13.3 mV	25.7 mV	32.0 mV	Pass
80% Load	86.3 mV	14.7 mV	38.7 mV	34.8 mV	Pass
90% Load	102.6 mV	15.5 mV	41.8 mV	37.5 mV	Pass
Crossload 1	14.9 mV	39.3 mV	26.6 mV	11.8 mV	Pass
Crossload 2	104.1 mV	19.6 mV	29.8 mV	34.9 mV	Pass

The results above are not used in the certification process

FSP Technology Inc. ATX-600PNR-I

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