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2090-CFBM7DF-CEAA09 | Allen-Bradley Non-Flex Motor Feedback Cable, 9m
- Regular price
- $229.00
- Sale price
- $229.00
- Regular price
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Product Description P/N: 2090-CFBM7DF-CEAA09
Description
Allen Bradley 2090-CFBM7DF-CEAA09 Standard (Non-Flex) Motor Feedback Cable, Motor/Actuator End: SpeedTec DIN (M7) Connector, Drive End: Flying-lead, Designed for Motors with High-resolution Absolute-position Encoders, Length 9m
Technical Specifications
| Brand | Allen-Bradley |
| Category | Servo Products |
| Part Number | 2090-CFBM7DF-CEAA09 |
| Subcategory | Servo Cable and Accessory |
| Cable Function | Motor Feedback Only |
| Cable Length | 9 Meters |
| Cable Options | SIN/COS High-Resolution/Resolver Encoder Type |
| Drive End Connector Type | Drive-end, Flying-lead |
| Flex Type | Standard (Non-Flex) |
| Motor End Connector Type | SpeedTec DIN Connector |
| Special Features | Threaded DIN Connector |
| Sub Brand Name | MP Series |
| Type | Servo Feedback Cable |
Information About 2090-CFBM7DF-CEAA09
The Allen-Bradley 2090-CFBM7DF-CEAA09 is a 9-meter Non-Flex Motor Feedback Cable designed for precise servo feedback applications. With a focus on motor feedback, it ensures accurate data transmission over its length. The cable supports SIN/COS High-Resolution/Resolver Encoder Type and features a Drive-end Connector with a flying-lead design, promoting flexibility in installation.
Part of the MP Series and featuring a SpeedTec DIN Connector at the motor end, this cable is tailored for servo applications requiring reliability and precision. The Standard (Non-Flex) Flex Type enhances durability and resistance to wear. The threaded DIN Connector, along with its servo-specific design, ensures a secure and stable connection in dynamic industrial environments.
This Allen-Bradley cable is a critical component for servo systems, offering a 9-meter length to accommodate various installation requirements. Its design characteristics, such as the Drive-end Connector Type, special features like the threaded DIN Connector, and non-flex construction, make it a reliable choice for demanding applications where precise motor feedback is essential.
Description
Allen Bradley 2090-CFBM7DF-CEAA09 Standard (Non-Flex) Motor Feedback Cable, Motor/Actuator End: SpeedTec DIN (M7) Connector, Drive End: Flying-lead, Designed for Motors with High-resolution Absolute-position Encoders, Length 9m
Technical Specifications
| Brand | Allen-Bradley |
| Category | Servo Products |
| Part Number | 2090-CFBM7DF-CEAA09 |
| Subcategory | Servo Cable and Accessory |
| Cable Function | Motor Feedback Only |
| Cable Length | 9 Meters |
| Cable Options | SIN/COS High-Resolution/Resolver Encoder Type |
| Drive End Connector Type | Drive-end, Flying-lead |
| Flex Type | Standard (Non-Flex) |
| Motor End Connector Type | SpeedTec DIN Connector |
| Special Features | Threaded DIN Connector |
| Sub Brand Name | MP Series |
| Type | Servo Feedback Cable |
Information About 2090-CFBM7DF-CEAA09
The Allen-Bradley 2090-CFBM7DF-CEAA09 is a 9-meter Non-Flex Motor Feedback Cable designed for precise servo feedback applications. With a focus on motor feedback, it ensures accurate data transmission over its length. The cable supports SIN/COS High-Resolution/Resolver Encoder Type and features a Drive-end Connector with a flying-lead design, promoting flexibility in installation.
Part of the MP Series and featuring a SpeedTec DIN Connector at the motor end, this cable is tailored for servo applications requiring reliability and precision. The Standard (Non-Flex) Flex Type enhances durability and resistance to wear. The threaded DIN Connector, along with its servo-specific design, ensures a secure and stable connection in dynamic industrial environments.
This Allen-Bradley cable is a critical component for servo systems, offering a 9-meter length to accommodate various installation requirements. Its design characteristics, such as the Drive-end Connector Type, special features like the threaded DIN Connector, and non-flex construction, make it a reliable choice for demanding applications where precise motor feedback is essential.