Allen-Bradley 2090-CFBM6DF-CBAA20

The part number 2090-CFBM6DF-CBAA20 refers to a specific type of cable designed for use with Rockwell Automation's Kinetix 2090 servo drives. This cable is a feedback cable, which is used to transmit signals from the motor or actuator back to the drive for control and monitoring purposes.

Technical Specifications

The cable is designed for use in industrial environments and is rated for continuous operation at 30V. It has a circular plastic connector at the motor end and flying leads at the drive end. The cable is available in various lengths, with the length specified in meters.

Alarm/Error Codes

The cable does not have any built-in alarm or error codes. Any issues with the cable or its connection would typically be detected by the drive or other connected devices, which would then generate error messages or alarms.

User Manuals

The user manual for the Kinetix 2090 servo drives, which includes information on the installation and use of the 2090-CFBM6DF-CBAA20 cable, can be found on the Rockwell Automation website. The manual provides detailed instructions on how to connect the cable, troubleshoot common issues, and program the drive for optimal performance.

Troubleshooting

Troubleshooting issues with the 2090-CFBM6DF-CBAA20 cable typically involves checking the connections and ensuring that they are secure and not damaged. If the issue persists, it may be necessary to consult the user manual or contact Rockwell Automation technical support for further assistance.

Programming

The programming of the Kinetix 2090 servo drives, including the configuration of the 2090-CFBM6DF-CBAA20 cable, is typically done using Rockwell Automation's software tools, such as the Kinetix 2090 Drive Configuration Software. This software allows users to set up the drive's parameters, including the cable configuration, and monitor its performance.

Installation

The installation of the 2090-CFBM6DF-CBAA20 cable involves connecting the circular plastic connector at the motor end to the motor or actuator and the flying leads at the drive end to the drive. The cable should be routed in a way that minimizes bending and stress, and the connections should be secured firmly to prevent damage or disconnection. The cable should also be shielded to prevent electromagnetic interference (EMI) and ensure reliable signal transmission.