High-Performance Fiber Optic, Ring Laser Gyro and MEMS Inertial Sensors & Navigation Systems
DSP-1750 Fiber Optic Gyro (FOG) (Non-ITAR) Tactical Ultra-Compact Single- & Dual-Axis FOGs
DSP-1750 Fiber Optic Gyro (FOG) (Non-ITAR)

Tactical Ultra-Compact Single- & Dual-Axis FOGs

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DSP-1750 Fiber Optic Gyro (FOG) (Non-ITAR)

EMCORE’s DSP-1750 is the world’s smallest high-accuracy fiber optic gyro (FOG), delivering unprecedented accuracy in an ultra-compact form. Available in both single- and dual-axis configurations, this gyro is tailored for high-precision navigation, stabilization, and pointing applications that demand low noise and superior performance across all operating temperatures.

The DSP-1750 is engineered to meet the rigorous demands of military and aerospace applications, providing exceptional performance and reliability for stabilization, navigation, and pointing systems. Its compact size and advanced technology make it an ideal solution for a wide range of critical applications.

Key Features:

  • Ultra-Compact Design: World’s smallest high-accuracy FOG
  • Low Noise and High Bandwidth: Ensures precise measurements and performance
  • EMCORE E•Core® ThinFiber Technology: Enhances gyro accuracy and reliability
  • Versatile Two-Piece Design: Facilitates easy integration into various systems
  • Analog and Digital Outputs: Flexible interfacing options
  • Advanced DSP Technology: Improves performance in critical areas such as scale factor and bias stability, eliminating temperature-sensitive drift and rotation errors

Performance Highlights:

  • Superior Bias Stability: ≤0.05°/hr, 1σ (typical); ≤0.1°/hr, 1σ (max)
  • Proven Reliability: MTBF >36,000 hrs (Ground Mobile)
  • Excellent Angle Random Walk Performance
  • COTS Product: Readily available for commercial use
  • Optional Magnetic Shielding


  • Gimbals: Precision stabilization for various platforms
  • Optical/Antenna Stabilization: Ensures accurate targeting and communication
  • Equipment Platform Stabilization: Maintains stability of commercial equipment
  • Payloads for UAVs: Critical for unmanned aerial vehicle operations
  • Weapons Platform Stabilization: Enhances targeting accuracy and reliability
  • GPS/INS and IMU Integration: Essential for advanced navigation systems