Moteur servo Allen-Bradley VPL-B1001M-CK12AA

Description

The Allen-Bradley VPL-B1001M-CK12AA is a high-performance Low-Inertia Servo Motor built within the Kinetix 5500 motion system framework. This permanent magnet rotary motor provides optimal synchronization and peak operational density for automated machinery requiring rapid acceleration and deceleration profiles. Operating on a 400 V class AC power feed, the assembly utilizes a single magnet stack design coupled with a smooth mechanical shaft output interface to minimize mechanical friction. For real-time position observation and control network integration, the unit features an absolute single-turn digital feedback encoder utilizing the Hiperface DSL communication protocol to transmit high-resolution motor performance data through a single cable structure.

Features

• Low-inertia permanent magnet architecture engineered explicitly for rapid acceleration and sudden deceleration dynamics.
• Single right-angle SpeedTec DIN connector capable of up to 325 degrees of rotation to simplify cable routing inside compact control panels.
• Integrated Hiperface DSL digital encoder protocol facilitating high-resolution, single-turn absolute feedback over a single connection interface.
• Standard mechanical mounting pilot setup designed to assist machine builders with accurate structural positioning and shaft alignment.

Applications

• High-speed industrial material handling and automated packaging networks.
• Precision multi-axis machine tool positioning and manufacturing assembly tables.
• Dynamic motion control applications within the Kinetix 5500 drive system platform.

Technical Specifications

Installation Guidelines

• Environmental Limits: Ensure the ambient operating temperature surrounding the housing does not exceed 40 Celsius (104 Fahrenheit) to prevent accelerated thermal winding degradation.
• Mounting Alignment: Use the built-in mounting pilot and the Type FF IEC metric free mounting holes to align the smooth shaft accurately with the driven machine load, reducing radial bearing wear.
• Orientation and Ingress Control: Note that moisture protection performance depends on installation alignment. Mounting the assembly with the shaft down provides optimized positioning, while horizontal configurations guard against vertical dripping water; avoid positioning the shaft pointing upward as it provides no protection against fluid entry.