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5417-392 - MicroNet I/O Interconnect Cable is available in stock which ships the same day.
5417-392 - MicroNet I/O Interconnect Cable comes in UNUSED as well as REBUILT condition.
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TECHNICAL SPECIFICATIONS:
Part Number: 5417-392
Manufacturer: Woodward
Series: MicroNet / MicroNet TMR System Architecture
Functional Designation: Analog / Discrete Control Hardware Interface Cable
Physical Cable Length: 7 Feet (Approximately 2.13 Meters)
Cable Classification: Double-Shielded Twisted-Pair Control Cable
Interface Connectors: High-density system mating connectors
Conductor Specification: Low-capacitance, industrial-grade multi-conductor configuration
Shielding Topology: Double-shielded (SSTP / industrial foil and braid insulation matrix)
Application Focus: MicroNet chassis-to-FTM (Field Terminal Module) signal distribution routing
Signal Compatibility: Low-voltage analog control and high-speed discrete logic pathways
Availability: In Stock
The 5417-392 is an industrial-grade MicroNet I/O Interconnect Cable manufactured by Woodward for the high-performance MicroNet and MicroNet TMR (Total Modular Redundancy) turbine control platforms. Measuring exactly 7 feet in length, this specialized communication link is engineered to pass vulnerable low-voltage analog inputs, actuator outputs, and discrete logical step signals between the primary processor/chassis I/O cards and external Field Terminal Modules (FTMs) without signal drop or electromagnetic corruption.
DOUBLE-SHIELDED SIGNAL INTEGRITY:
To withstand the severe electro-magnetic interference (EMI) and radio frequency interference (RFI) common to steam, gas, and industrial engine plant rooms, the I/O Interconnect Cable features a robust double-shielded architecture. By encasing low-capacitance internal twisted conductor pairs within independent foil layers and a master metallic braid, the cable prevents cross-talk between adjacent signal lines and maintains strict data transmission performance over its 7-foot run.
LOW-CAPACITANCE CHASSIS BUS INTEGRATION:
The internal structural parameters of the cable are specifically balanced to match the input/output impedance tolerances of Woodward's dense analog combo and discrete module profiles. This intentional capacitance limitation prevents signal phase lag and attenuation, guaranteeing that rapid trip commands, speed pick-up telemetry, or position sensor loop adjustments flow with sub-millisecond real-time response accuracy from field linkages directly back to the main control executive rack.
WHY BUY FROM WOC:
World of Controls is a specialized global authority in the lifecycle extension of active Woodward and GE automation systems, providing the 5417-392 in both UNUSED and REBUILT conditions to eliminate operational latency. Our legacy quality-assurance protocol involves extensive point-to-point pinout continuity charting, high-potential insulation resistance validation, connector pin layout alignment mapping, and industrial ESD-safe warehouse protection. By partnering with WOC, you secure reliable hardware solutions reinforced by 24/7 technical consultation and accelerated global logistics.
What is Woodward 5417-392?
The 5417-392 is a high-performance, 7-foot double-shielded industrial I/O interconnect cable manufactured by Woodward. It serves as a dedicated hardware processing bridge, securely routing low-voltage analog control paths and high-speed discrete logic signaling between the internal Woodward MicroNet chassis processing boards and external cabinet Field Terminal Modules (FTMs).
Why is double-shielding necessary for this specific cable?
Turbine engine rooms contain extreme electrical and magnetic field noise from high-capacity switchgear and generator buses. The double-shielded configuration (foil and braided layers) blocks this external interference to prevent signal distortion across critical speed and actuator loops.
Can this cable handle high-voltage AC control circuits?
No, the 5417-392 is restricted to low-voltage analog signal routing (such as 4-20 mA or 0-200 mA drives) and low-voltage discrete instrumentation signaling. High-voltage power paths require isolated field distribution boards at the FTM interface layer.
