Physical Specification | ||
Fan Bearing | HDB | |
Noise Level @ 20% | 0 dBA | |
Noise Level @ 50% | 17.8 dBA | |
Noise Level @ 100% | 24.9 dBA | |
Efficiency | 90% @ Typical Load | |
80 PLUS Rating | 80 PLUS Gold | |
ErP 2014 Lot 3 | Yes | |
Protections | OVP, OPP, OTP, SCP, OCP, UVP | |
Regulatory | TUV, CE, CCC, EAC, RCM, cTUVus, FCC, BSMI | |
ATX 24-Pin Connectors | 1 | |
EPS 4+4 Pin Connectors | 1 | |
EPS 8 Pin Connector | 1 | |
SATA Connectors | 12 | |
Peripheral 4-Pin Connectors | 4 | |
PCI-e 6+2 Pin Connectors | 4 | |
Technical Specification | ||
Input Frequency | 47-63Hz | |
Fan Speed | 1500 RPM | |
Operating Temperature | 0-50°C | |
Power Good Signal | 100 - 150 ms | |
Hold Up Time | >16ms at 100% Load | |
MTBF | >100,000 Hours | |
General | ||
Model | MWE Gold 750 V2 | |
Product Number | MPE-7501-AFAAG | |
ATX Version | ATX 12V | |
PFC | Active PFC | |
Wattage | 500 to 750W | |
Modular | Full Modular | |
80 Plus | Gold | |
Series | MWE Gold Series | |
Power | ||
Input Voltage | 90-264V | |
Input Current | 10-5A | |
Physical Description | ||
Dimensions | 160 x 150 x 86 mm | |
Fan Size | 120mm | |
Warranty Information | ||
Manufacturing Warranty | 03 Years |
Efficiency has always been one of the most important factors for users when choosing their power supply unit. While there are a range of efficiency options, 80 PLUS Gold has been the ideal choice for the last several years and continues to be seen as the standard for much of the world. The MWE Gold - V2 delivers an 80 PLUS Gold certification, guaranteeing a typical minimum efficiency of 90%.
While the original MWE Gold had a maximum operating temperature of only 45 degrees Celsius, the MWE Gold - V2 has improved upon this by delivering an additional 5 degrees to that limit. With this model, users will be able to push their power supply to 50 degrees Celsius safely. Such a high threshold greatly improves what's possible to accomplish with your PSU and your system in general. Overclocking and other high intensity applications become way more accessible when the system's power supply can take the heat.