The Allen-Bradley 2090-CSBM1DE-18AF17 is a single motor cable designed for use in Kinetix 5700 servo drive systems. It is part of the 2090-Series Single Motor Cables, which are designed to meet the current requirements of motor brake circuits on these systems. The cable is a hybrid cable with four power, two feedback (digital communication), and two brake conductors, making it suitable for applications that require both power and feedback signals.
Technical Specifications
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Construction:
- Outer diameter: approximately 15 mm
- Core color: white
- Cable length: 15 meters
- Drive-end connector type: drive-end, without connector kit, flying-lead (optimized for Kinetix 5500)
- Number of cores: 8
- With protective conductor: yes
- Core identification: color
- Color outer sheath: orange
- Conductor material: copper
- Conductor surface: tinned
- Color cable code: RAL2003
- Core color: white/blue
- Motor-end connector type: single speedTec DIN connector/li>
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Electrical:
- AWG size: 18
- Nominal voltage U: 1000 V
- Cable type: single motor power with brake wires
- Cable description: power with brake wires: 1000V hybrid cable with four power, two feedback (digital communication), and two brake conductors
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Mechanical:
- Nominal cross section conductor: 0.82 mm²
- Nominal cross section conductor (AWG): 1.62 kcmil
- Cable style: continuous-flexible
- Weight, approx: continuous-flex, power with brake wire: 0.228 kg/m
- Twisted cores: no
- Accessory component: cable
- Continuous bend radius: continuous flex: 10 times the cable diameter
- Features: low capacitance design to maximize system power density, speedtec connection system, encoder communication data pair with noise rejection, TPE jacket with mechanical and chemical properties, cable features overall tinned copper braid with aluminum/polymer insulation
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Environmental:
- Max. conductor temperature: 105 °C
Documentation
- Technical Data: KNX-TD004
- Publication Number: KNX-TD004
The documentation available for this product includes technical data and a publication number, which can be accessed through the Literature Library results.
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