9905-867 Woodward Peak 150 Controller

9905-867 Woodward Peak 150 Controller | New & Original Stock

Availability: 10 left in stock

Woodward 9905-867 Peak 150 Digital Steam Turbine Controller Configured for precision speed regulation and process control of small to medium-sized...

SKU: 9905-867

Manufacturer: Woodward
Product No.: 9905-867
Product Type: Steam Turbine Controllers
Product Origin: USA
Payment:T/T, Western Union
Weight: 4540g
Shipping port: Xiamen
Warranty: 12 months

Description Reviews

Woodward 9905-867 Peak 150 Digital Steam Turbine Controller

Configured for precision speed regulation and process control of small to medium-sized industrial steam turbines, the Woodward 9905-867 (Peak 150 Digital Control Module) provides direct physical/electrical execution.

Hardware Specifications

Parameter	Specification
Model	9905-867 (Peak 150 Digital Control Package)
Brand	Woodward
Origin	United States
Weight	4.54 kg (10.00 lbs gross / Net Weight: Approx. 2.5 kg)
Dimensions	300 mm x 200 mm x 80 mm
Operating Temp	-40 deg C to 70 deg C (-40 deg F to 158 deg F)
Storage Temp	-55 deg C to 105 deg C (-67 deg F to 221 deg F)
Relative Humidity	95% at 50 deg C, non-condensing
Power Supply Input	120 VAC / VDC nominal system baseline (Alternate low-range variant: 18 to 32 VDC)
Speed Input Range	1 to 20,000 Hz frequency range via Magnetic Pickup (MPU)
Actuator Drive	Pulse-Width Modulation (PWM) or analog current output signal
Serial Communication	RS-485 Modbus RTU protocol interface
Enclosure Rating	Rugged metal housing, panel-mounted NEMA 4X rated frontal boundary

Actuator Loop Feedback Response & Dynamic Regulation

The controller houses a specialized processor framework optimized for steam turbine dynamics, processing dual speed frequency signals via a magnetic pickup (MPU) across a 1 to 20,000 Hz spectrum. The internal core processes speed derivatives and translates PID errors into explicit actuator drive outputs—delivering either high-frequency PWM or dedicated analog control currents directly to the electro-hydraulic or proportional steam governor valves.

This configuration drives an internal actuator loop feedback response loop that balances critical steam parameters, managing critical speed acceleration limits and warm-up timelines. By evaluating real-time frequency deviations alongside remote analog speed references, the hardware executes tight synchronization and speed governing profiles, maintaining turbine shaft equilibrium through abrupt steam header pressure fluctuations.

Frequently Asked Questions

Q: Does the 9905-867 allow live physical termination extraction while the turbine throttle valve is active? A: No. Removing power blocks or disconnecting active MPU feedback terminals during operation drops the internal actuator loop drive current immediately. This loss of signal forces the main steam governor valve to trip shut, initiating an emergency turbine shutdown sequence.

Q: How does the NEMA 4X housing configuration influence field enclosure deployment? A: The faceplate assembly is built to NEMA 4X standards, ensuring robust resistance against moisture ingress, dust penetration, and atmospheric corrosion. This allows direct installation on local turbine panel frames, provided the rear termination chassis is housed inside an appropriately rated enclosure.

Q: What is the behavior of the speed control circuitry upon experiencing an MPU sensor failure? A: The system executes immediate fault diagnostics. If the incoming MPU signal drops below the minimum 1 Hz threshold while the unit registers an active run command, the logic triggers an MPU failure alarm flag and commands the actuator output to an instant zero-current state to close the steam valves.

Field Installation Guidelines

Panel Grounding Integrity: Secure the metal chassis to a flat, rigid sub-panel inside the master enclosure. Ensure the mechanical connection cuts through any non-conductive paint coatings to establish direct, low-impedance metal-to-metal contact with the cabinet earth ground bus.
Magnetic Pickup Wiring Shielding: Use high-grade shielded twisted-pair (STP) wiring for all MPU connections. Terminate the outer copper shield exclusively at the control chassis end, ensuring it is isolated at the physical sensor casing to block ground loop current induction.
Actuator Loop Signal Isolation: Route the actuator drive wires through separate low-voltage conduit channels. Keep these signal lines physically independent of the heavy 120 VAC/VDC power supply conductors and AC breaker trip lines to maintain high signal-to-noise ratios.

What's clients say about us

Excellent Emergency Support!

Our production line was down due to a faulty Bently Nevada monitor. We found it in stock here and they shipped it via DHL immediately. Back in operation within 48 hours—truly a lifesaver for our plant.

Mark Thompson

Maintenance Manager, USA

Reliable Source for New Spares

Finding brand new, original modules is critical for our safety. This team delivers factory-fresh components with full certification. Their commitment to only selling new products makes them our most trusted partner.

Robert Hoffmann

Engineering Lead, Germany

Top-tier Service and Quality

We have sourced Honeywell and Schneider parts here for two years. Every shipment arrives well-packaged with original factory seals intact. Clear communication and the best lead times in the industry.