The Fortron HYPER M 700 700W has a maximum capacity of 700 Watts.
It has an 80 Plus rating of Bronze, is built to be modular,, is built to be silent, and its dimensions (LxWxH) are 15cm x 14cm x 8.6cm.
|Release Date||13 Oct 2015||Height||8.6cm|
|Form Factor||ATX12V & EPS12V||Fan Size||120mm|
|80 Plus Rating||Bronze||Modular||yes|
|Input Voltage||200V - 240V||24 Pin Mobo Connector||yes|
|Input Frequency Range||50Hz - 60Hz||4+4 Pin CPU Connector||yes|
|+3.3V Output||20A||8 Pin Connectors||1|
|+5V Output||20A||6 Pin Connectors||4|
|+12V Output||53A||4 Pin Connectors||5|
The Fortron HYPER M 700 700W power supply has a maximum wattage output of 700W. This should run most PC builds with ease, but might not be enough for power hungry graphics card setups such as SLI or Crossfire combinations. Remember that a higher PSU capacity does not necessarily equate to a higher wattage output and a more expensive electricity bill. In fact, you may find that a higher capacity PSU will function more efficiently than a lower capacity PSU because it is dealing with a lower percentage of its maximum load - that is, it is not being stressed to the same extent.
The Fortron HYPER M 700 700W has an 80 Plus rating of Bronze. This means the PSU operates at average efficiency levels of at least 82%, 85%, and 82% for loads of 100%, 50%, and 20% respectively. Bronze is the fourth-best 80 Plus certificate available, and as such the Fortron HYPER M 700 700W is very efficient and is a decent PSU choice.
The dimensions of the Fortron HYPER M 700 700W (LxWxH) are 15cm x 14cm x 8.6cm. Make sure to compare these measurements against the case you desire if planning on using it in a build.
The Fortron HYPER M 700 700W is modular, meaning that cables can be taken out and connected back in as necessary. This can make cable management much easier, leading to a less chaotic build, and better airflow.
The Fortron HYPER M 700 700W is designed for low volumes, meaning that its constant drone while your PC is on would be less noticeable - ideal for those that prefer silent environments.