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Allen-Bradley 80026-053-04-R Fiber Optic Cable

The Allen-Bradley 80026-053-04-R, also cataloged as the 80026-053-04 Fiber Optic Cable, operates as a dedicated hardware component for low-loss duplex optical data transmission within distributed drive and controller networks. Configured for noise-immune feedback loops, this 5-meter physical assembly interconnects high-resolution encoder/resolver hardware interfaces to processing modules. The dual-channel cable structure isolates optical data packets from high-frequency electromagnetic fields, sustaining real-time signal velocity across dedicated hardware paths without signal degradation.

Hardware Specifications

Parameter Specification
Model 80026-053-04-R (Base Model: 80026-053-04)
Brand Allen-Bradley
Origin United States
Weight 0.15 lbs (2.0 kg shipping weight with packaging)
Dimensions 5 meters (Length)
Operating Temp -20 to +60 deg C (Standard industrial cable envelope)
Power Consumption None (Passive optical assembly)
Cable Type Duplex Fiber Optic Cable
Signal Propagation Low-loss optical transmission
Interface Application Encoder/Resolver feedback interfaces
Structure Dual-channel duplex core assembly

Profinet / EtherNet/IP Deterministic Networks and I/O Density Scaling

The passive optical media properties of the 80026-053-04-R directly support high-speed peripheral mapping within Profinet / EtherNet/IP deterministic networks. By substituting copper conductors with low-loss duplex fiber, the assembly prevents electrical ground loops and cross-talk during rapid I/O density scaling expansions. This data path stabilization maintains tight synchronization loops between fast encoder registers and remote processing nodes, ensuring deterministic backplane bus communication velocity metrics are maintained across high-density motor control groups.

Frequently Asked Questions

Q: Does this fiber optic cable require external electrical power for signal conditioning?

A: No. The assembly is a completely passive optical waveguide. It relies entirely on the optoelectronic transceivers embedded within the host Allen-Bradley drive or encoder interface module to perform electrical-to-optical signal conversion.

Q: Can the cable assembly be shortened or spliced in the field if the 5-meter length exceeds requirements?

A: No. Field splicing of this low-loss duplex industrial cable is not supported. Altering the factory-terminated optical connectors introduces high insertion losses and back-reflections, which can cause data packet corruption in the drive feedback loop.

Field Installation Guidelines

  • Minimum Bend Radius Constraints: Maintain a dynamic bend radius of no less than 50 mm during installation pulling procedures, and a static radius of 30 mm once fixed. Exceeding these limits causes micro-bending losses and permanently fractures the glass or plastic optical core.
  • Pulling Force Restrictions: Apply physical tension only to the outer structural strength members of the cable assembly during routing. Never pull directly on the pre-terminated optical connectors, as this disrupts the physical alignment of the polished end-faces.
  • Connector Contamination Control: Keep the protective dust caps installed on the duplex connectors until the exact moment of insertion into the transceiver ports. Clean all optical faces using lint-free specialized wipes and pure isopropyl alcohol before completing physical mating.
  • Separation From Power Conductors: While the optical fibers are immune to electromagnetic interference, route the cable through dedicated low-voltage conduits to prevent physical crushing or shearing hazards from heavy three-phase AC power cables sharing the same tray enclosure.

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