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2198-K53CK-D15M | Allen-Bradley Kinetix 5300 Universal Feedback Connector Kit
- Regular price
- $312.00
- Sale price
- $312.00
- Regular price
-
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Product Description P/N: 2198-K53CK-D15M
Description
The Allen-Bradley 2198-K53CK-D15M is a Kinetix 5300 Universal Feedback Connector Kit designed to streamline motor feedback connections between encoders and servo drives. This kit features a 15-pin male D-sub connector and is engineered for use with the Kinetix 5300 series of servo drives, providing a reliable interface for accurate feedback signal transmission.
Technical Specifications
|
Condition |
New/Never Used Surplus |
|---|---|
| Brand | Allen-Bradley |
|
Category |
Servo Motors and Components
|
|
Part Number |
2198-K53CK-D15M |
| Subcatecory |
Servo Add-On Modules
|
| Product Type | Feedback Connector Kit |
| Series | Kinetix 5300 |
| Connector Type | D-sub |
| Number of Pins | 15 |
| Gender | Male |
| Application | Encoder feedback to drive communication |
| Compatible Drive | Kinetix 5300 Servo Drive |
| Weight | 0.11 kgs |
Information About 2198-K53CK-D15M
The 2198-K53CK-D15M is part of Allen-Bradley's servo drive accessory portfolio, specifically tailored for Kinetix 5300 systems. It plays a vital role in transmitting feedback signals from motor encoders to the drive, supporting precise motor control and performance monitoring. Its D-sub form factor ensures secure, standardized connections in automation environments, helping to maintain system integrity and simplify installation.
Key Features:
-
15-Pin D-Sub Connector: Ensures standardized, secure motor feedback connections.
-
Male Connector Configuration: Designed to match compatible feedback ports on Kinetix 5300 drives.
-
Servo Drive Accessory: Optimized for use with Kinetix 5300 servo drive systems.
-
Reliable Signal Transmission: Enables accurate communication between the encoder and the drive.
-
Compact Design: Ideal for tight control cabinets and space-constrained installations.
The 2198-K53CK-D15M is ideal for machine automation environments where precise motor feedback integration is essential to maintaining high performance and operational accuracy.
Description
The Allen-Bradley 2198-K53CK-D15M is a Kinetix 5300 Universal Feedback Connector Kit designed to streamline motor feedback connections between encoders and servo drives. This kit features a 15-pin male D-sub connector and is engineered for use with the Kinetix 5300 series of servo drives, providing a reliable interface for accurate feedback signal transmission.
Technical Specifications
|
Condition |
New/Never Used Surplus |
|---|---|
| Brand | Allen-Bradley |
|
Category |
Servo Motors and Components
|
|
Part Number |
2198-K53CK-D15M |
| Subcatecory |
Servo Add-On Modules
|
| Product Type | Feedback Connector Kit |
| Series | Kinetix 5300 |
| Connector Type | D-sub |
| Number of Pins | 15 |
| Gender | Male |
| Application | Encoder feedback to drive communication |
| Compatible Drive | Kinetix 5300 Servo Drive |
| Weight | 0.11 kgs |
Information About 2198-K53CK-D15M
The 2198-K53CK-D15M is part of Allen-Bradley's servo drive accessory portfolio, specifically tailored for Kinetix 5300 systems. It plays a vital role in transmitting feedback signals from motor encoders to the drive, supporting precise motor control and performance monitoring. Its D-sub form factor ensures secure, standardized connections in automation environments, helping to maintain system integrity and simplify installation.
Key Features:
-
15-Pin D-Sub Connector: Ensures standardized, secure motor feedback connections.
-
Male Connector Configuration: Designed to match compatible feedback ports on Kinetix 5300 drives.
-
Servo Drive Accessory: Optimized for use with Kinetix 5300 servo drive systems.
-
Reliable Signal Transmission: Enables accurate communication between the encoder and the drive.
-
Compact Design: Ideal for tight control cabinets and space-constrained installations.
The 2198-K53CK-D15M is ideal for machine automation environments where precise motor feedback integration is essential to maintaining high performance and operational accuracy.