Woodward 9905-001 SPM-A Speed Regulator Datasheet & Technical Manual

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Woodward 9905-001 SPM-A Speed Regulator Turbine Synchronizer The Woodward 9905-001, also cataloged as the 9905-001 Speed Regulator, serves as the...

SKU: 9905-001

Manufacturer: Woodward
Product No.: 9905-001
Product Type: SPM-A Speed Synchronizer and Regulator
Product Origin: USA
Payment:T/T, Western Union
Weight: 1690g
Shipping port: Xiamen
Warranty: 12 months

Description Reviews

Woodward 9905-001 SPM-A Speed Regulator Turbine Synchronizer

The Woodward 9905-001, also cataloged as the 9905-001 Speed Regulator, serves as the primary 9905-001 SPM-A Synchronizer Power Module utilized to execute high-precision speed synchronization and frequency matching across turbine-generator platforms.

Hardware Specifications

Parameter	Specification
Model	9905-001
Brand	Woodward
Origin	USA
Weight	1.69 kg (3.72 lbs)
Dimensions	Standard Woodward SPM-A sub-panel housing footprint
Operating Temp	-20 to +60 deg C
Power Consumption	5 W nominal
Input Voltage	115 / 230 VAC (Field selectable via internal jumper positions)
Operating Frequency	50 / 60 Hz
Relay Contact Rating	10 A
Control Logic	Analog Phase-Lock Loop (PLL)
Speed Bias Output	Configurable voltage range (typically +/-3 VDC governor interface)
Phase Offset Accuracy	Within +/-5 degrees typical
Storage Temperature	-40 to +85 deg C
Certification Compliance	CE, UL compliant

Industrial Drives, Governors, and Speed Control Properties

The synchronizer module utilizes an analog phase-lock loop hardware matrix to resolve electrical vector offsets between the incoming generator and the live utility bus. The device drives the primary engine governor by injecting a dynamic speed bias signal, controlling the actuator loop feedback response time limits during phase matching windows to keep misalignment values within a +/-5 degree parameter. To suppress localized harmonic distortion generated by heavy excitation equipment inside the turbine enclosure, the hardware embeds high-order analog filtering stages. Internal thermal heat sink dissipation profiles stabilize the 10 A relay contact pathways, ensuring consistent close-command timing when completing breaker synchronization routines.

Frequently Asked Questions

Q: How is the primary input voltage configured for 115 VAC versus 230 VAC grid tracking?

A: The module contains internal physical jumper terminal links. Field technicians alter the hardware layout by re-positioning these selection jumpers onto designated pins, adapting the internal transformer matching circuitry to handle either a 115 VAC or a 230 VAC utility bus reference without requiring external drop resistors.

Q: What protective measures prevent the high-capacity close relay from overheating during breaker indexing?

A: The hardware incorporates heavy-duty relay contacts rated continuously up to 10 A. These contacts run alongside localized transient suppression networks designed to extinguish inductive arcs generated by large breaker close coils, protecting the circuit tracks from thermal degradation.

Q: How does the analog phase-lock loop logic respond if the utility bus reference voltage drops out completely?

A: Upon sensing a complete voltage loss on the bus reference tracking terminals, the analog PLL logic halts the speed biasing loop immediately. The output bias drops back to a neutral zero state, keeping the generator under exclusive control of its localized engine governor firmware and blocking out-of-phase closure commands.

Field Installation Guidelines

Phase Rotation and Polarity Alignments: Verify that the incoming generator voltage sensing lines match the physical phase rotation of the utility bus monitoring lines on the terminal strip. Incorrect phase matching before line connection will induce severe mechanical shocks when the 10 A close relay cycles.
Governor Bias Output Ground Segregation: Route the low-voltage speed bias lines directly to the governor inputs using twisted, fully shielded pairs. Connect the drain shield exclusively to the governor chassis grounding block, keeping it separate from high-power AC lines to block induced noise corruption.
Cabinet Sub-panel Space Allocations: Mount the unit vertically onto a rigid sub-panel chassis away from high-vibration sources. Maintain proper clearance margins around the metal enclosure shell to ensure free air movement, keeping surrounding cabinet temperatures strictly below the +60 deg C operational limit.

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