Keystone Jack Cat6 Wiring Diagram – Everything You Need to Know

Keystone Jack Cat6 Wiring Diagram – Everything You Need to Know

The Basics of Cat6 Wiring

Before we dive into the keystone jack wiring diagram, it’s important to understand some basics about Cat6 wiring. Cat6 cables are Ethernet cables that are used to connect devices within a network. They are capable of transmitting data at high speeds and can support frequencies of up to 250MHz. This makes them ideal for applications that require high-speed data transfer, such as gaming, streaming, and file sharing.

When it comes to wiring Cat6 cables, there are two primary methods: T568A and T568B. The T568A standard has a green/white wire on pin 1, a solid green wire on pin 2, an orange/white wire on pin 3, a solid blue wire on pin 4, a blue/white wire on pin 5, a solid orange wire on pin 6, a brown/white wire on pin 7, and a solid brown wire on pin 8. The T568B standard, on the other hand, has an orange/white wire on pin 1, a solid orange wire on pin 2, a green/white wire on pin 3, a solid blue wire on pin 4, a blue/white wire on pin 5, a solid green wire on pin 6, a brown/white wire on pin 7, and a solid brown wire on pin 8.

Both standards are widely used, but T568B is more common in North America while T568A is more common in Europe and other parts of the world. The important thing is to use the same standard on both ends of the cable to ensure proper communication between devices.

Now that we have a basic understanding of Cat6 wiring, let’s take a look at the keystone jack wiring diagram.

The Keystone Jack Cat6 Wiring Diagram

A keystone jack is a modular connector that is used to terminate Cat6 cables. It is designed to snap into a keystone wall plate or patch panel for easy installation. The wiring diagram for a keystone jack Cat6 is as follows:

Pin Number Color Function
1 Green/White Tx+ (Transmit Positive)
2 Green Tx- (Transmit Negative)
3 Orange/White Rx+ (Receive Positive)
4 Blue Unused
5 Blue/White Unused
6 Orange Rx- (Receive Negative)
7 Brown/White Unused
8 Brown Unused

As you can see, the keystone jack Cat6 wiring diagram follows the T568B standard, which is the most common in North America. The green/white wire is on pin 1, the solid green wire is on pin 2, the orange/white wire is on pin 3, the solid blue wire is on pin 4, the blue/white wire is on pin 5, the solid orange wire is on pin 6, and the brown/white wire, brown wire and unused wire are on pins 7 and 8.

How to Wire a Keystone Jack Cat6

Wiring a keystone jack Cat6 is a relatively simple process, but it does require some attention to detail. Here’s a step-by-step guide:

  1. Strip about an inch of the outer jacket from the Cat6 cable using a wire stripper.
  2. Untwist the pairs and straighten them out.
  3. Arrange the wires according to the T568B standard (green/white, green, orange/white, blue, blue/white, orange, brown/white, brown).
  4. Trim the wires to the same length.
  5. Insert the wires into the keystone jack according to the color code (green/white on pin 1, green on pin 2, orange/white on pin 3, blue on pin 4, blue/white on pin 5, orange on pin 6, brown/white on pin 7, brown on pin 8).
  6. Use a punchdown tool to secure the wires in place.
  7. Snap the keystone jack into a keystone wall plate or patch panel.

That’s it! Your keystone jack Cat6 is now wired and ready to go.

FAQ

What is a keystone jack?

A keystone jack is a modular connector that is used to terminate Ethernet cables. It is designed to snap into a keystone wall plate or patch panel for easy installation.

What is Cat6 wiring?

Cat6 wiring refers to the process of connecting Cat6 Ethernet cables to devices within a network. It involves following a specific color code (such as T568A or T568B) to ensure proper communication between devices.

What are the benefits of using Cat6 cables?

Cat6 cables are capable of transmitting data at high speeds and can support frequencies of up to 250MHz. This makes them ideal for applications that require high-speed data transfer, such as gaming, streaming, and file sharing.