Aristeidis Bitziopoulos, Certification Body General Manager
General Information
DUT Information
Brand
abee
Hersteller (OEM)
Enhance
Series
-
Model Number
Serial Number
-
DUT Notes
The +12V and 3.3V rails drop too low during the 0.1ms (200%) ATX v3.x transient response test (10.906V and 3.119V, respectively). Therefore, the unit cannot get an ATX 3.x badge since both rails drop below the lowest limits.
Cables and Connectors(Non-accredited measurements)
Modular Cables
Description
Cable Count
Connector Count (Total)
Gauge
In Cable Capacitors
ATX connector 20+4 pin (790mm)
1
1
16-20AWG
No
4+4 pin EPS12V (810mm)
1
1
16AWG
No
8 pin EPS12V (805mm)
1
1
16AWG
No
6+2 pin PCIe (705mm)
2
2
16AWG
No
12+4 pin PCIe (700mm) (600W)
2
2
16-24AWG
No
SATA (505mm+125mm+125mm+125mm)
3
12
18AWG
No
4-pin Molex (505mm+120mm+120mm+120mm)
1
4
18AWG
No
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
✓
Performance Summary
Wirkungsgrad
PLATINUM
Lautstärkeklasse
Standard++
Average Efficiency (>1450 load combinations)
89.121%
Average Noise Output (>1450 Load Combinations)
33.28dBA
Average PF (>1450 Load Combinations)
0.992
Efficiency With 10W (≤500W) or 2% (>500W) Load
70.454%
Standby Power Consumption
0.0554W
12V Ripple (Full Load)
35.58mV
5V Ripple (Full Load)
23.09mV
3.3V Ripple (Full Load)
21.64mV
5VSB Ripple (Full Load)
10.74mV
12V Load Regulation
1.23%
5V Load Regulation
3.11%
3.3V Load Regulation
4.52%
5VSB Load Regulation
4.51%
Inrush Current
Too low to detect
Wirkungsgrad
PLATINUM
Lautstärkeklasse
Standard++
Average Efficiency (>1450 load combinations)
91.560%
Average Noise Output (>1450 Load Combinations)
32.38dBA
Average PF (>1450 Load Combinations)
0.952
Efficiency With 10W (≤500W) or 2% (>500W) Load
72.176%
Standby Power Consumption
0.1132W
12V Ripple (Full Load)
35.88mV
5V Ripple (Full Load)
22.71mV
3.3V Ripple (Full Load)
21.03mV
5VSB Ripple (Full Load)
10.58mV
12V Load Regulation
1.24%
5V Load Regulation
3.25%
3.3V Load Regulation
4.64%
5VSB Load Regulation
4.64%
Inrush Current
Too low to detect
12V Transient Response (200%)
10.90V
5V Transient Response (200%)
4.832V
3.3V Transient Response (200%)
3.119V
5VSB Transient Response (200%)
4.908V
Hold-Up Time & Power Ok Signal
17.90ms
AC Loss to PWR_OK Hold Up Time
15.30ms
PWR_OK Inactive to DC Loss Delay
2.60ms
PSU Timings: T1 (20% / 100%)
85.0ms
81.0ms
PSU Timings: T3 (20% / 100%)
127.0ms
127.0ms
12V OCP (30.5°C / 43.6°C)
143.40A (124.70%), 12.118V
143.00A (124.35%), 12.097V
5V OCP (30.5°C / 43.6°C)
29.8A (135.45%), 4.955V
29.7A (135.00%), 4.947V
3.3V OCP (30.5°C / 43.6°C)
30.9A (140.45%), 3.236V
30.9A (140.45%), 3.239V
5VSB OCP (30.5°C / 43.6°C)
6.6A (220.00%), 4.826V
6.6A (220.00%), 4.829V
OPP (28.79°C / 42.91°C)
133.55%
131.06%
Hold-Up Time & Power Ok Signal
Hold-Up Time (ms)
17.9
AC Loss to PWR_OK Hold Up Time (ms)
15.3
PWR_OK Inactive to DC Loss Delay (ms)
2.6
Stromverbrauch im Ruhezustand
Tables
Detailed Results
Average
Min
Limit Min
Max
Limit Max
Result
Mains Voltage RMS:
115.03 V
115.01 V
113.85 V
115.08 V
116.15 V
PASS
Mains Frequency:
60.00 Hz
59.94 Hz
59.40 Hz
60.02 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:
0.055 W
-0.006 W
N/A
0.101 W
N/A
N/A
Apparent Power:
15.193 W
15.080 W
N/A
15.312 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:
230.99 V
230.89 V
227.70 V
231.04 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
1.418
1.490
PASS
Mains Voltage THD:
0.17 %
0.15 %
N/A
0.23 %
2.00 %
PASS
Real Power:
0.113 W
0.068 W
N/A
0.172 W
N/A
N/A
Apparent Power:
51.765 W
51.449 W
N/A
52.027 W
N/A
N/A
Power Factor:
0.002
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
