CC-Link is a fieldbus system that is widely used in the industrial automation industry. The system allows for fast and reliable communication between various devices in a control network. One of the key aspects of using CC-Link is the wiring diagram. In this article, we will provide an in-depth guide on CC-Link wiring diagrams and cover everything you need to know.
What is a CC-Link Wiring Diagram?
A CC-Link wiring diagram is a schematic representation of the physical connections between various devices in a CC-Link network. The diagram shows how the devices are connected, their addresses, and the type of signals that are being transmitted. The wiring diagram is essential when designing, installing, and troubleshooting a CC-Link network.
It is important to note that the wiring diagram may vary depending on the type of CC-Link system being used. There are two main types of CC-Link systems; CC-Link IE and CC-Link.
CC-Link IE Wiring Diagram
CC-Link IE is the high-speed version of CC-Link and is used for real-time control applications. The wiring diagram for CC-Link IE is typically more complex than CC-Link due to the faster communication speeds and the need for high-speed switches.
The CC-Link IE wiring diagram typically includes the following components:
| Component | Description |
|---|---|
| Device | The device that is connected to the network |
| Cable | The cable used to connect the device to the network |
| Switch | The switch used to connect multiple devices to the network |
| IE Field Basic Station | The basic station used in CC-Link IE |
| IE Field Head Station | The head station used in CC-Link IE |
The wiring diagram for CC-Link IE is typically more complex than CC-Link due to the faster communication speeds and the need for high-speed switches.
CC-Link Wiring Diagram
CC-Link is the standard version of the CC-Link system and is used for general-purpose control applications. The wiring diagram for CC-Link is typically simpler than CC-Link IE as it does not require high-speed switches.
The CC-Link wiring diagram typically includes the following components:
| Component | Description |
|---|---|
| Device | The device that is connected to the network |
| Cable | The cable used to connect the device to the network |
| Station | The station used in CC-Link |
How to Create a CC-Link Wiring Diagram
Creating a CC-Link wiring diagram requires the following steps:
Step 1: Identify the Devices
The first step is to identify the devices that will be connected to the CC-Link network. This includes all the sensors, actuators, switches, and controllers that will be used in the system.
Step 2: Select the Cable
The next step is to select the cable that will be used to connect the devices to the network. The type of cable will depend on the distance between the devices and the speed of communication required. It is important to select the appropriate cable to ensure reliable communication.
Step 3: Determine the Station Type
The station type will depend on the type of CC-Link system being used. For CC-Link IE, the station type will be either Basic or Head. For CC-Link, the station type will generally be a Remote Device Station (RDS) or a Local Device Station (LDS).
Step 4: Determine the Addresses
Each device on the CC-Link network must have a unique address. The addresses are used to identify the devices and ensure that the correct signals are being transmitted. The addresses can be set using DIP switches or software configuration.
Step 5: Connect the Devices
Once the devices, cable, station type, and addresses have been determined, the devices can be connected to the CC-Link network. This should be done according to the wiring diagram to ensure that the correct connections are made.
FAQs
What is CC-Link?
CC-Link is a fieldbus system that is widely used in the industrial automation industry. The system allows for fast and reliable communication between various devices in a control network.
What is a CC-Link Wiring Diagram?
A CC-Link wiring diagram is a schematic representation of the physical connections between various devices in a CC-Link network. The diagram shows how the devices are connected, their addresses, and the type of signals that are being transmitted.
What are the Components of a CC-Link Wiring Diagram?
The components of a CC-Link wiring diagram depend on the type of CC-Link system being used. For CC-Link IE, the wiring diagram typically includes devices, cables, switches, basic and head stations. For CC-Link, the wiring diagram typically includes devices, cables, and stations.
How to Create a CC-Link Wiring Diagram?
Creating a CC-Link wiring diagram requires the following steps: identifying the devices, selecting the cable, determining the station type, determining the addresses, and connecting the devices according to the wiring diagram.
What are the Benefits of Using CC-Link?
The benefits of using CC-Link include fast and reliable communication, reduced wiring and installation costs, and increased flexibility and scalability.
Conclusion
A CC-Link wiring diagram is an essential tool when designing, installing, and troubleshooting a CC-Link network. By following the steps outlined in this article, you can create a wiring diagram that ensures reliable communication between all devices in your control network. Remember to select the appropriate cable, station type, and addresses, and connect the devices according to the wiring diagram.
