ATX 6-pin 12V Power Connector Pinout
The ATX 6-pin 12V power connector pinout is a crucial component found on most modern computers. It provides power from the power supply to the motherboard, ensuring that all components receive the necessary voltage to function properly. Understanding the pinout is essential for anyone looking to build their own computer or upgrade an existing system.
The ATX 6-pin 12V power connector pinout consists of six pins, each denoted by a different color wire. The pinout is as follows:
Pin 1 (Yellow): +12V This pin carries the main power supply voltage, which is essential for the operation of the motherboard.
Pin 2 (Black): Ground This pin provides a return path for the current flowing to and from the motherboard.
Pin 3 (Black): Ground This pin provides another return path for the current flowing to and from the motherboard.
Pin 4 (Black): Ground This pin provides a third return path for the current flowing to and from the motherboard.
Pin 5 (Purple): +5VSB This pin carries a low-power standby voltage, used to power the motherboard when the system is shut down but still plugged in.
Pin 6 (Green): Power On This pin is used to turn on the power supply and initiate the boot process.
It is important to note that the ATX 6-pin 12V power connector pinout is not compatible with other power connectors. Attempting to use a non-standard power connector can damage the motherboard or other components in the system.
When connecting the ATX 6-pin 12V power connector, it is important to make sure that the pins are aligned correctly. Attempting to force the connector into the socket can result in bent pins or damage to the motherboard. Always make sure that the connector is oriented correctly and matches the socket on the motherboard before attempting to connect it.
In conclusion, the ATX 6-pin 12V power connector pinout is a critical component of modern computer systems. Understanding its function and correct installation is essential for anyone looking to build or upgrade their own system. By following the correct procedures and precautions, users can ensure that their computer systems function reliably and efficiently for years to come.