Rolls-Royce Tenfjord FB10-002 Steering Gear Module (E-4500-40-1)
Rolls-Royce Tenfjord FB10-002 Steering Gear Module (E-4500-40-1)
The Rolls-Royce Marine AS FB10-002 is a specialized electronic control board designed for vessel steering gear systems.
Developed within the historic Tenfjord steering gear department of Rolls-Royce Marine (now Kongsberg Maritime), this module manages the directional signaling, feedback tracking, and valve actuation for hydraulic rotary vane steering systems.
Built under engineering drawing specification E-4500-40-1. the board provides precise control over hydraulic pump configurations to adjust rudder positioning under extreme maritime conditions.
Technical Parameter Table
Parameter / Feature Technical Specification Details
Manufacturer Rolls-Royce Marine AS (Dep. Steering Gears – Tenfjord)
Article Number FB10-002
Drawing Number E-4500-40-1
Type Designation EFB-85 Steering Module
Input Voltage Range 12V to 28V DC (24VDC Nominal standard)
Origin Country Norway
Internal Reference Code N-6264 / FKM13759
Application Ecosystem Tenfjord / Frydenbö Rotary Vane Systems
Signal Compatibility Proportional/Solenoid valve outputs & potentiometer feedbacks
Product Advantages and Features
Wide Input Voltage Windows: Supports operation from 12V up to 28V DC, maintaining stable signal output even during transient voltage drops on main vessel battery banks.
Tenfjord System Synchronization: Tailored precisely for the timing coefficients of Tenfjord steering architectures, avoiding the control overshoot or hunting common with generalized PLCs.
Ruggedized Interface Isolation: Protects internal processing logic from the high inductive flyback spikes generated by heavy-duty 24V hydraulic solenoid valves.
Dual-Pump Integration Ready: Designed to communicate seamlessly across multi-pump distribution topologies, letting vessels operate on single-pump economy modes or dual-pump high-rate maneuvering.
Application Cases
The FB10-002 board is integrated directly inside localized steering gear starter cabinets and bridge feedback systems:
Tenfjord Rotary Vane Steering Controls: Acts as the localized command driver for rotary vane actuators (e.g., type RV models), governing oil distribution across the vanes.
Solenoid Valve Actuation: Processes signals from the main bridge steering wheel or autopilot system to energize directional valves (such as Vickers or Rexroth marine solenoids).
Rudder Angle Feedback Loop: Interfaces directly with precision rotary potentiometers to continuously report true rudder placement to the wheelhouse.
Unique Product Description
What differentiates the Rolls-Royce FB10-002 (Drawing E-4500-40-1) is its hard-coded safety logic specific to Tenfjord Marine systems. Steering automation requires deterministic behavior; a communication freeze can cause a vessel to go “not under command” (NUC) instantly. The FB10-002 features immediate, hardware-level fallback behaviors that decouple failed autopilot circuits to allow immediate switchover to manual emergency push-button control. This dedicated fallback design is essential for maintaining the classification certifications of legacy merchant vessels, supply craft, and naval hulls.
Related Models & Same-Series Hardware
Rolls-Royce Steering PCB PC1021 / PC1022: Core auxiliary steering system cards utilized in adjacent control loops for signal conditioning.
Rolls-Royce PC1028 Valve Controller: A dedicated module often mounted in twin-rack arrangements alongside Tenfjord starter layouts.
Rolls-Royce MPCF1-10.4″: The primary bridge human-machine interface (HMI) that visualizes steering profiles and alarms.
Rolls-Royce WRC1021B: Sibling controller board optimized for Marine Brattvaag winch and high-pressure hydraulic valve ecosystems.
Installation and Maintenance
Mounting and Vibration: Secure the board via standard vibration-damping standoffs inside the main rudder compartment electrical cabinet. Ensure all terminal connection blocks are torqued down snugly to withstand low-frequency hull vibration.
Voltage Safeguards: Prior to initializing the 12-28V DC supply rails, check the grounding resistance across the hull frame to eliminate potential ground loops that can skew analog sensor tracking.
Lifecycle Management: Because the FB10-002 is a legacy component, ensure any replacement part sourced from surplus inventories bears matching drawing annotations (E-4500-40-1) and type markers (EFB-85) to guarantee full pin-to-pin firmware and physical compatibility.