Fiber Optic Gyro
Cost Effective Fiber Optic Gyro for Agricultural Machinery Autopilot
Cost Effective Fiber Optic Gyro for Agricultural Machinery Autopilot The MFOG-24 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optical, mechanical, and electronic components. Utilizing the Sagnac effect and incorporating multiple micro-nano fiber devices, it precisely measures phase differences between counter-propagating light beams to determine angular velocity. This compact sensor features a robust design with no moving parts, ensuring
High Accuracy Navigation Grade Fiber Optic Gyroscope with ≤0.8°/h Bias Stability and ±300°/s Angular Rate
MFOG-40 FOG delivers ±300°/s range with ≤0.8°/h bias stability and ≤0.02°/√h random walk. Compact φ40×20mm design offers superior accuracy vs competitors for robotics, UAVs, and industrial navigation.
Miniature Fiber Optic Gyro MFOG40-C with 0.15 deg/h Bias Stability Ultra Compact Φ28mm x 20mm and Fast Warm-Up ≤ 3 seconds
MFOG40-C ultra-compact entry-level variant with 0.15°/h bias stability. The smallest and most affordable FOG in the MFOG40 series, optimized for high-volume embedded applications requiring minimal size and maximum cost efficiency.
Mid Range Single Axis Fiber Optic Gyro with 0.02 deg/h Bias Stability and ±400 deg/s Range in Compact Φ45mm x 32mm Size
MFOG40-H mid-range precision variant with 0.02°/h bias stability. Upgraded MFOG40 series for applications requiring enhanced angular rate accuracy while maintaining the compact form factor and industrial-grade cost structure.
Single Axis Fiber Optic Gyro MFOG40-S with 0.1 deg/h Bias Stability ±500 deg/s Range and ≤5s Warm-Up Industrial Grade Angular Rate Sensor
MFOG40-S industrial grade single axis fiber optic gyroscope with 0.1°/h bias stability. Entry-level FOG solution for industrial automation, robotics, and general angular rate sensing where solid-state reliability meets budget-friendly pricing.
Compact Tactical Grade Fiber Optic Gyro with 0.03 deg/h Bias Stability and ±400 deg/s Range
MFOG095-C compact variant offering 0.03°/h bias stability in a reduced footprint. Ideal for tactical navigation applications where a balance of compact dimensions and solid gyro performance is required.
Navigation Grade Single Axis Fiber Optic Gyro MFOG095-H with 0.005 deg/h Bias Stability and 0.0006 deg/√h Angular Random Walk
MFOG095-H navigation grade variant with 0.005°/h bias stability. Premium optical components and advanced temperature compensation for precision inertial navigation systems requiring navigation-grade angular rate sensing performance.
Single Axis Fiber Optic Gyro with 0.015 deg/h Bias Stability and ≤40 ppm Nonlinearity for Inertial Measurement
MFOG095-S tactical grade single axis fiber optic gyroscope with 0.015°/h bias stability. Mid-range performance gyro optimized for inertial measurement and navigation systems requiring a balance of precision and affordability.
Compact Single Axis Fiber Optic Gyro with 0.05 deg/h Bias Stability and ≤ 180g Weight for UAV Navigation
MFOG091-C compact variant optimized for SWaP-constrained platforms. Weighing under 200g with 0.05°/h bias stability, ideal for UAV, drone, and portable navigation systems where size and weight are critical.
High Precision Single Axis Fiber Optic Gyro with 0.008 Degree per Hour Bias for Tactical Navigation Systems
MFOG091-H high precision variant with 0.008°/h bias stability. Upgraded optical coil and signal processing for tactical navigation applications demanding superior drift performance and measurement accuracy.
Single Axis Fiber Optic Gyro with 0.02 deg/h Bias Stability and Closed Loop Design for Industrial Navigation
MFOG091-S standard precision single axis fiber optic gyroscope with 0.02°/h bias stability. Balanced performance and cost for general-purpose industrial navigation and stabilization systems requiring reliable angular rate sensing.
Digital RS422 Output Fiber Optic Gyro with 0.02 deg/h Bias Stability and 200Hz Refresh Rate Angular Rate Sensor
Digital fiber optic gyroscope with RS422 serial output, 0.02°/h bias stability, and 200Hz data refresh rate. The FOG-DG1-10 provides clean digital angular rate data with comprehensive onboard diagnostics for seamless integration into modern digital avionics systems.
Fiber Optic Gyro North Finder with 0.01° Azimuth Accuracy 3-Minute Alignment and GPS-Independent Operation
FOG-based north finder module achieving 0.01° azimuth accuracy with 3 minute alignment time. The FOG-NF1-09 provides autonomous true north determination without GPS or magnetic references for artillery, surveying, and tunneling applications.
High Bias Stability Fiber Optic Gyroscope FOG 0.8°/h for Precision Navigation
Fiber Optic Gyro Inertial Measurement Units for Stabilization Platform Based on the Sagnac effect, the MFOG-910 micro-nano fiber optic gyroscope integrates optics, mechanics, and electronics to achieve high-precision angular rate detection. With no moving parts, fast start-up, and low power consumption (≤1.5W), this sensor is ideal for autonomous robot attitude measurement, providing reliable support for robot navigation and motion control with its excellent zero-bias
Single Axis FOG IMU Integrated Accelerometer Fiber Optic Gyroscope
MFOG-910 Micro-Nano Fiber Optic Gyroscope The MFOG-910 Micro-Nano Fiber Optic Gyroscope is an advanced angular rate sensor that integrates optical, mechanical, and electronic technologies. Utilizing the Sagnac effect principle, this navigation-grade FOG sensor incorporates micro-nano fiber-optic devices to detect, process, and provide feedback on phase differences between counter-propagating light beams, delivering precise angular rate measurement for aerospace inertial
Navigation Grade Fiber Optic Gyroscope FOG 0.8°/h for Antenna Stabilization
MFOG-910 Micro-Nano Fiber Optic Gyroscope The MFOG-910 Micro-Nano Fiber Optic Gyroscope is an advanced angular rate sensor that integrates optical, mechanical, and electronic technologies. Utilizing the Sagnac effect principle, this navigation-grade FOG sensor incorporates micro-nano fiber-optic devices to detect, process, and provide feedback on phase differences between counter-propagating light beams, delivering precise angular rate measurement for aerospace inertial
Wide Range MEMS Gyroscope Chip with 250Hz Bandwidth 800 deg/s Measuring Range and 24-bit SPI Output for High Speed Stabilization
Wide dynamic range MEMS gyroscope chip with 800°/s measurement capability and 250Hz bandwidth. 24-bit SPI digital output,
Navigation MEMS Gyro Chip 0.008deg/hr Bias 0.002deg-rt-hr ARW for North Finding INS
Navigation-grade MEMS gyroscope chip with 50°/s range achieving
MGZ200HC-D1 Firepower 200dps Dual Axis MEMS Gyroscope Chip 200Hz BW 0.15deg/hr Bias for Industrial Platform Leveling
Dual-axis MEMS gyroscope chip measuring pitch and roll simultaneously at 200°/s range with 200Hz bandwidth.
MGZ500HC-C1 Firepower 500dps CAN Bus MEMS Gyroscope Chip 100Hz BW 0.08deg/hr Bias for Automotive Vehicle Dynamics
Automotive-focused MEMS gyroscope chip with 500°/s range and CAN bus interface, achieving