Skip to content

What are you looking for?


You may also like

Woodward 5464-654 Discrete Output ModuleWoodward 5464-654 Discrete Output ModuleWoodward 5464-654 Discrete Output Module
Woodward 5464-654 Discrete Output Module
Woodward 5464-654 Discrete Output Module
Woodward 5464-654 Discrete Output Module

Woodward 5464-654 Discrete Output Module


Only 10 left - Selling fast

PRODUCT SKU : 5464-654

PRODUCT TYPE : Digital I/O Cards

PRODUCT VENDOR : Woodward


  • 100% Genuine Parts – Risk-Free 30-Day Returns
  • 1-Year Warranty & Expert Support for Every Order

Product Details

Configured for discrete control execution in MicroNet systems, the Woodward 5464-654 (Discrete Output Module) provides direct electrical execution of relay driver signals to interface with Woodward Relay Modules.

Hardware Specifications

Parameter Specification
Model 5464-654
Brand Woodward
Origin USA
Channels 32
Update Time 5 ms

Actuator Loop Feedback Response and Thermal Heat Sink Dissipation Profiles

The 5464-654 module processes digital data received from the CPU to generate non-isolated relay driver signals. The interface relies on a daisy-chained, low-density discrete cable configuration to communicate with external relay modules. To ensure consistent actuator loop feedback response, the module update time is fixed at 5 ms. In the event of a CPU communication loss, all outputs are transitioned to the off state to prevent unintended actuation. While the module itself does not require calibration or potentiometer adjustments, the external relay stage requires a stable, independent 24 VDC power source to ensure proper operation of the field-connected contacts. Thermal management within the chassis is maintained through standard card guide airflow; ensure the motherboard connection is secure to support the thermal heat sink dissipation profiles of the internal logic components.

Frequently Asked Questions

Q: Does the 5464-654 module provide galvanic isolation for the field outputs?

A: No. The relay driver signals generated by this module are non-isolated. All isolation is provided by the external Woodward Relay Modules to which this board interfaces.

Q: Is it possible to perform a hot-swap replacement of this module?

A: The module is designed to be disengaged from the motherboard via front-panel toggles; however, ensure the CPU has been placed in a maintenance state or the system power is managed according to facility safety protocols before physical removal, as the module controls live field outputs.

Field Installation Guidelines

  • Insertion: Slide the module into the designated control chassis card guides. Ensure both top and bottom motherboard connectors are fully seated before tightening the front panel retaining screws.
  • Cabling: Connect the module to the primary Relay Module using a low-density discrete cable. If daisy-chaining to a second module, use a second low-density cable from the first relay module to the subsequent unit.
  • Powering: Provide a separate 24 VDC power source for the external relay contacts. Verify that the power supply current capacity is sufficient for the total relay load across all channels.
  • Retention: Utilize the two front-panel toggles for safe disengagement; do not force the module out of the guides without first toggling the handles to disengage the backplane connectors.

Additional Information

  • 100% Genuine Parts: All products are original and authentic, ensuring reliable industrial performance.
  • 30-Day Refund Guarantee: Return any in-stock item within 30 days in original, unopened packaging for a full refund (excluding shipping and fees).
  • 12-Month Warranty: Covers defects in materials or workmanship; excludes misuse, normal wear, or unauthorized modifications.
  • Worldwide Shipping: We ship via USPS, UPS, FedEx, and DHL. Delivery times vary by country and may be subject to customs or import fees.
  • Support & Contact: Technical and warranty assistance is available anytime. Contact us here: Contact.
  • Purchase Guidance: Check product specifications and compatibility carefully before ordering to ensure proper application.




Recently Viewed Products

Tech & Buying Guide

Technical Insights, Installation Guides, and Buying Tips
Executing a PLC System Site Acceptance Test (SAT): The Definitive Engineering Guide

Executing a PLC System Site Acceptance Test (SAT): The Definitive Engineering Guide

The transition of a Programmable Logic Controller (PLC) cabinet from a controlled factory floor to a volatile plant environment represents a critical milestone in factory automation. While a Factory Acceptance Test (FAT) validates standalone hardware compliance under ideal conditions, it cannot replicate real-world process dynamics. Therefore, deploying an industrial automation system requires a rigorous Site Acceptance Test (SAT) to verify total loop integrity, field wiring wiring metrics, and process control parameters before final customer handover.

Read more
Advanced Integration: Master Protocol for VFD Commissioning and Testing

Advanced Integration: Master Protocol for VFD Commissioning and Testing

Deploying variable frequency drives (VFDs) requires precise execution during the initial commissioning phase. Junior automation engineers often find the first power-up sequence intimidating. However, following a rigorous engineering framework ensures equipment safety and system reliability. Proper startup procedures protect both the drive electronics and the connected motor.

Read more
Optimizing Factory Automation: The Definitive Guide to VFD Preventive Maintenance

Optimizing Factory Automation: The Definitive Guide to VFD Preventive Maintenance

Variable Frequency Drives (VFDs) serve as critical assets in modern industrial automation. These power electronic devices regulate electric motors by adjusting the supplied frequency and voltage. Consequently, industries utilize VFDs to reduce energy consumption and optimize process control. Major manufacturers like Siemens, ABB, and Yaskawa design highly efficient drives. However, sustained efficiency requires a rigorous preventive maintenance program.

Read more