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Allen-Bradley 1786-RPFM ControlNet Modular Repeater Medium Distance Fiber Module

The Allen-Bradley 1786-RPFM, also cataloged as the 1786-RPFM ControlNet Modular Repeater Medium Distance Fiber Module, operates as a dedicated hardware component for physical-layer network conversion within 1786 ControlNet system networks.

Hardware Specifications

Parameter Specification
Model 1786-RPFM
Brand Allen-Bradley
Origin United States
Weight 0.55 lbs (0.25 kg)
Dimensions 6.9 cm x 11.1 cm x 10.12 cm
Operating Temp 0 deg C to +60 deg C
Power Consumption 400 mA maximum backplane current draw @ 5 VDC
Communication Rate 5 Mbps
Operating Voltage 5 VDC (Class 2 operational power provided from 1786-RPA adapter)
Media Type 62.5/125 um multimode fiber optic cabling
Channels Dual fiber optic channels
Wavelength 1300 nm
Attenuation Limit Less than 13.3 dB per fiber link
Connector Type ST-type (plastic or ceramic)
Status Indicators Channel 1 Status (Green), Channel 2 Status (Green)
Environmental Rating Pollution Degree 2, Overvoltage Category II
Operating Altitude Up to 2000 m without derating
Vibration Profile 5 g @ 10-500 Hz per IEC 68-2-6
Relative Humidity 5% to 95% non-condensing

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

The Allen-Bradley 1786-RPFM routes serialized data packets across extended topologies, functioning alongside high-level industrial systems managed via Profinet / EtherNet/IP deterministic networks. The dual fiber optic channels isolate network transmissions from electromagnetic fields while preserving a constant 5 Mbps execution rate. Because the unit derives its 5 VDC source directly through the 1786-RPA repeater bus interface, its 400 mA backplane allocation must be strictly integrated into system layout engineering. Proper power distribution profiles prevent local loop drops and maintain continuous data delivery limits when modifying external I/O density scaling.

Frequently Asked Questions

Q: Can the 1786-RPFM module be hot-swapped or inserted under power?

A: No. The hosting 1786-RPA adapter assembly must be entirely powered down before inserting or removing the fiber module. Disconnection during active backplane bus operation can cause electrical transient corruption or break the ring configuration, dropping network nodes.

Q: What are the physical housing demands required to maintain the specific environmental certifications?

A: The module is open-style and must be mounted within a closed industrial automation enclosure accessible only by a specialized tool. This maintains the mandatory Pollution Degree 2 rating and blocks conductive particulates or moisture from compromising the internal circuitry.

Field Installation Guidelines

  • Module Interface Coupling: Prior to DIN rail snapping, align the side-plane pin array of the module to the 1786-RPA adapter receptacle. Push together firmly until the structural locking tabs seat without bending the connection pins.
  • Fiber Optic Bend Tolerances: Maintain the minimum bend radius specifications specified for the 62.5/125 um multimode optical fiber. Avoid sharp pinches or tight loop routing within wire trays to prevent localized signal attenuation exceeding the 13.3 dB threshold.
  • ST Bayonet Termination: Insert the ST-type fiber connectors directly into the optical transmitter/receiver ports. Push and turn the outer collar clockwise until the integrated bayonet pin locks into position to avoid alignment-induced optical loss.
  • Status LED Validation: Following initial power application, verify that both Channel 1 and Channel 2 status LEDs display continuous green. A dark or flashing indicator signals a break in physical fiber continuity, inverted Tx/Rx lines, or attenuation outside operational boundaries.

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