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FDR-6DOF-1500KG
FDR
The FDR 6DOF motion platform with 1500kg payload is a high-performance hexapod system based on the Stewart platform mechanism. As a professional 6-axis motion simulator, it delivers precise six degrees of freedom — heave, sway, surge, pitch, roll, and yaw — for demanding motion simulation requirements.
No. | Item | Quantity |
1 | FDR095 Electric Cylinder | 6 pieces |
2 | Servo Motor and Driver--3KW | 6 Sets |
3 | PLC Controller | 1 Pc |
4 | Control Cabin | 1 Pc |
5 | Base Platform | 1 Pc |
6 | Upper Platform | 1 Pc |
7 | Control System Installation Pack | 1 Set |
No. | DOF | Excursions | Velocity | Acceleration |
|---|---|---|---|---|
1 | Roll | ±20° | 0-35°/s | 60°/s² |
2 | Pitch | ±20° | 0-35°/s | 60°/s² |
3 | Yaw | ±20° | 0-35°/s | 60°/s² |
4 | Heave (Z) | ±150mm | 0-150mm/s | 0.2g |
5 | Surge (X) | ±200mm | 0-150mm/s | 0.2g |
6 | Sway (Y) | ±200mm | 0-150mm/s | 0.2g |
Electric Cylinder: 95
Cylinder Stroke: 500mm
Motor: 3KW Servo Motor
Lead Screw: 10mm
Gear Reduction Ratio: 1.5
Rated Payload: 1500KG
Replicate realistic aircraft motion including turbulence, takeoff, landing and in-flight maneuvers. Compatible with cockpit assemblies up to 1500kg for commercial and military pilot training programs.
From driver training simulators to vehicle dynamics testing and ADAS validation. The 1500kg payload supports full cockpit assemblies with force feedback steering and pedal systems.
Create immersive experiences for VR arcades and theme park attractions. The platform's fast dynamic response delivers realistic motion cues synchronized with virtual reality content.
Support weapon system testing, turret stabilization evaluation, and military vehicle crew training with programmable motion profiles and high-fidelity scenario reproduction.
Simulate earthquake motions and structural vibrations for civil engineering research, building material testing, and seismic resilience evaluation.
Replicate ship deck motion including roll, pitch, and heave for marine equipment testing, crew training, and offshore platform simulation.
High-Precision Motion Control: Positioning accuracy ±0.01mm with real-time closed-loop servo control — ideal for aerospace vibration testing and ADAS validation where micro-level precision matters
Customizable Engineering Solutions: We support full customization of stroke, thrust, speed, and installation dimensions to meet your specific project requirements, from motion simulation to dynamic testing. 50+ customized units delivered for 10+ customers across 8 countries. Payload range from 500kg to 5000kg+, stroke length and control interface fully adaptable
Strong Industrial Durability: Built with high-strength structural components and premium servo control systems, our platforms guarantee long service life, stable continuous operation, and low maintenance cost. Built with heavy-duty steel structure rated for 50,000+ hours of continuous operation. IP protection available for harsh industrial environments
Advanced & Stable Driver System: Equipped with high-performance servo controls and intelligent algorithms, the system features fast response, high positioning accuracy, and strong anti-interference ability. Proprietary servo driver with 1ms response time, supporting Ethernet/CAN bus/UDP protocols. Compatible with Unity, Unreal Engine, and MATLAB/Simulink.
A 6DOF (Six Degrees of Freedom) motion platform, also known as a Stewart platform or hexapod, is a parallel robotic system that provides movement in six independent directions: three translational (heave up/down, sway left/right, surge forward/backward) and three rotational (pitch, roll, yaw). It uses six actuators arranged in a specific geometric configuration to simulate realistic motion environments. Originally developed for flight simulators, 6DOF platforms are now widely used across automotive testing, aerospace, defense, entertainment, and industrial R&D applications.
Electric servo 6DOF platforms and hydraulic systems each have distinct advantages. Electric platforms (like FDR's) offer: lower operating costs (no hydraulic fluid), zero leakage risk, positioning accuracy of ±0.01mm, quieter operation (<65dB), simpler maintenance, and easier digital integration. Hydraulic platforms can deliver higher force output for extreme payloads (10,000kg+), but require regular fluid changes, have higher energy consumption, and need dedicated hydraulic power units. For most applications under 5,000kg payload, electric servo systems provide the best balance of performance, precision, and total cost of ownership.
Yes. FDR provides full customization including: payload capacity adjustment (500kg to 5,000kg+), stroke length modification, custom control system integration, specialized motion algorithm development, mechanical interface design for your specific cockpit or equipment, and environmental protection levels (IP rating). We have delivered 50+ customized units for customers in over 10 countries, covering applications from automotive crash test simulators to aerospace vibration testing systems. Contact our engineering team with your requirements for a tailored solution.
The FDR 6DOF platform supports multiple integration options: Communication protocols — Ethernet, CAN bus, and UDP for real-time data exchange. Simulation software — SDK integration with Unity 3D, Unreal Engine, and MATLAB/Simulink. Control interfaces — Proprietary FDR motion control software with programmable motion profiles, real-time monitoring, and diagnostic tools. Custom development — API access for integration with proprietary simulation environments and hardware-in-the-loop (HIL) testing systems.
