The GTX 960 is a popular choice among gamers due to its excellent performance and reasonable price.
However, it does have specific power requirements that must be met to ensure optimal performance.
A PSU with inadequate wattage can lead to system instability, crashes, and even damage to your components.
Well also discuss important factors to consider when choosing a PSU to ensure compatibility and efficiency.
Power supplies come in various wattages and form factors to suit different computer setups and power demands.
The wattage of a PSU refers to the maximum amount of power it can deliver to your components.
In addition to wattage, PSUs are also rated for efficiency.
The efficiency rating determines how effectively the PSU converts AC power to DC power.
PSUs are available in different modularities, including non-modular, semi-modular, and fully modular.
A non-modular PSU has all the cables permanently attached, while asemi-modular PSUhas some detachable cables.
Look for PSUs from well-known brands that offer good warranties and have positive reviews from users and experts.
The GTX 960 is a mid-range graphics card that offers a good balance between performance and power consumption.
Typically, a single GTX 960 graphics card requires a minimum of a400W PSU.
Some models may require slightly more power due to higher clock speeds or custom cooling solutions.
This will ensure that your PSU can handle the load and provide stable power delivery to your system.
When selecting a PSU, its important to consider other factors as well.
Look for a PSU from a reliable manufacturer with a solid reputation for producing high-quality and efficient power supplies.
Keep in mind that these recommendations are based on average power requirements and individual system configurations may vary.
These factors will ensure compatibility, reliability, and optimal performance for your system.
This ensures sufficient power delivery, stability, and headroom for other components, overclocking, and future upgrades.
These factors contribute to the overall performance, efficiency, and reliability of your system.
