The part number VPL-A1152F-PK14AA is a Kinetix VPL low-inertia servo motor from Rockwell Automation. It is designed for high-performance applications that require precise control and fast response times. Here is a breakdown of the key features and specifications:
Technical Specifications
- Frame Size: 115mm Bolt Circle Frame Size
- Rated Speed: 4500-6600 RPM
- Winding: F Winding
- Magnet Stacks: 2 (Two) Magnet Stacks
- Encoder: 18 bit Single-turn Digital High Resolution Encoder
- Shaft: Keyless Shaft
- Connector: Single SpeedTec Din Connector
- Holding Brake: 24V DC Holding Brake
- Shaft Seal: IP66 Shaft Seal Fitted
Alarm/ Error Codes
The documentation provided does not specify any alarm or error codes for this particular part number. However, it is common for servo motors to have specific error codes that indicate issues such as motor overload, overheating, or communication errors. These codes are typically found in the user manual or technical documentation specific to the motor model.
User Manual
The user manual for the Kinetix VPL low-inertia servo motor is available from Rockwell Automation. It provides detailed information on the motor's operation, installation, and maintenance, as well as troubleshooting and error handling procedures.
Troubleshooting
Troubleshooting for the Kinetix VPL low-inertia servo motor typically involves checking for issues related to motor performance, communication, and power supply. The user manual provides guidance on how to diagnose and resolve common problems, such as motor overload, overheating, or communication errors.
Programming
The Kinetix VPL low-inertia servo motor is designed to be used with Rockwell Automation's control systems, such as the ControlLogix or CompactLogix controllers. Programming for these systems typically involves using the company's programming software, such as RSLogix 5000 or RSLogix 500, to configure the motor's operation and integrate it with other system components.
Installation
The installation of the Kinetix VPL low-inertia servo motor typically involves mounting the motor to a suitable base or frame, connecting it to the control system, and configuring the motor's operation according to the specific application requirements. The user manual provides detailed instructions on the installation process, including electrical connections and mechanical mounting procedures.