The Allen-Bradley 1786-RPFM/A, also cataloged as the 1786-RPFM Ring Repeater, operates as a dedicated hardware component for network physical-layer conversion within ControlNet System networks.
| Parameter | Specification |
| Model | 1786-RPFM/A |
| Brand | Allen-Bradley |
| Origin | United States |
| Weight | 0.57 lbs (0.26 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 via 1786-RPA adapter) |
| Media Type | Multimode fiber optic (62.5/125 um) |
| Channels | Dual fiber optic channels |
| Wavelength | 1300 nm |
| Maximum Cable Distance | Up to 3000 m |
| Attenuation Limit | Less than 13.3 dB per fiber link |
| Connector Type | ST-type (plastic or ceramic) |
| Indicators | Channel 1 Status (Green), Channel 2 Status (Green) |
| Environmental Limits | Pollution Degree 2, Overvoltage Category II, up to 2000 m altitude |
| Vibration Tolerance | 5 g @ 10-500 Hz per IEC 68-2-6 |
| Relative Humidity | 5% to 95% non-condensing |
The Allen-Bradley 1786-RPFM/A executes signal re-transmission routines over 1300 nm optical infrastructure to extend control segments alongside synchronous platforms linked through Profinet / EtherNet/IP deterministic networks. The dual fiber optic channels transition electrical backplane data packets into optical pulses at a fixed communication rate of 5 Mbps. This expansion layer interacts directly with the hosting 1786-RPA repeater bus. The 400 mA current limit on the 5 VDC internal line directly governs the local I/O density scaling inside the modular assembly, preserving specific propagation times across long-distance topologies up to 3000 m.
Q: Does the 1786-RPFM/A hardware interface permit hot-swap procedures while active communication is passing through the repeater chassis?
A: No. This module does not support hot-swap capabilities. De-energize the primary 1786-RPA adapter assembly before seating or unseating the module from the slot. Disconnection under power interrupts the optical ring link, resulting in immediate network failure and potential backplane driver damage.
Q: What are the degradation thresholds allowed for the fiber optic connections on this specific hardware?
A: The optical budget enforces a strict attenuation limit of less than 13.3 dB per complete fiber link. Any combination of fiber run lengths, physical splices, and ST-type connector insertions exceeding this value will cause packet dropouts and affect network execution.
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