Fiber Optic Gyro
MEMS Gyroscope Chip with 0.03deg/hr Bias Stability 150Hz Bandwidth and 24-bit SPI Output for Robotics AGV Navigation
Balanced precision MEMS gyroscope chip with 150°/s range and 150Hz bandwidth, achieving
Rugged Fiber Optic Gyroscope MFOG-24 with 20g Vibration Resistance ≤30g Weight and 500°/s Angular Rate for Marine Navigation
Rugged fiber optic gyroscope MFOG-24 built for marine and underwater navigation. 20g vibration resistance, ±500°/s angular rate, ≤2°/h bias stability. Compact φ24×39mm, ≤30g design with no moving parts. Suitable for ship stabilization, underwater ROVs, AUVs, and offshore platform motion monitoring in harsh saltwater environments.
Aerospace Fiber Optic Gyroscope MFOG-24 with ≤0.03°/√h ARW Wide Temperature Range -40°C to +65°C and Compact φ24*39mm Design
Aerospace-grade fiber optic gyroscope MFOG-24 designed for satellite attitude control and aerospace navigation. ≤0.03°/√h ARW, ≤1.5°/h bias stability, and -40°C~+65°C operating range. Compact φ24×39mm, ≤30g with no moving parts. Qualified for space-constrained satellite and spacecraft attitude determination systems.
Industrial Grade Fiber Optic Gyroscope MFOG-24 ±500°/s Range ≤1.5W Low Power for Precision Motion Control Automation
Industrial-grade fiber optic gyroscope MFOG-24 designed for precision motion control and automation. ±500°/s angular rate, ≤2°/h bias stability, and ultra-low ≤1.5W power consumption. No moving parts for maintenance-free operation in CNC, robotic arms, and industrial turntables. Compact φ24×39mm, ≤30g.
High Precision Fiber Optic Gyroscope MFOG-24 with ≤0.04°/√h ARW ≤1.5°/h Bias Stability and 20g Vibration Resistance for Autonomous Navigation
High-precision FOG gyroscope MFOG-24 (φ24×39mm) designed for autonomous vehicles and robotics. ≤0.04°/√h ARW and ≤2°/h bias stability ensure accurate inertial navigation for AGVs, warehouse robots, and self-driving platforms. Fast start-up, no moving parts, vibration resistant up to 20g.
Compact Fiber Optic Gyroscope with ±500°/s Angular Rate and ≤1.5°/h Bias Stability for UAV Navigation
Compact FOG gyroscope MFOG-24 (φ24×39mm, ≤30g) optimized for UAV and drone flight control systems. ±500°/s angular rate, ≤2°/h bias stability, ≤0.04°/√h ARW. 20g vibration resistant with no moving parts for reliable drone navigation in demanding environments.
Miniature Fiber Optic Gyro VG103 Angular Rate Sensor for Inertial Navigation System
Miniature Fiber Optic Gyro VG103 Angular Rate Sensor for Inertial Navigation System The MFOG-103 is a compact, high-performance fiber optic gyroscope that integrates optical, mechanical, and electronic technologies. Based on the Sagnac effect , it measures angular rate by detecting the phase difference between two counter-propagating light beams in a micro-nano fiber coil . This sensor features a solid-state design with no moving or wearing parts, ensuring high reliability,
High Precision Navigation Grade Fiber Optic Gyroscope FOG VG103
High Precision Navigation Grade Fiber Optic Gyroscope FOG VG103 Product Overview The MFOG-103 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optical, mechanical, and electronic components. Utilizing the Sagnac effect, it incorporates multiple micro-nano fiber devices to detect, process, and feedback phase differences generated by counter-propagating light beams. This product consists of optical path components, circuit components, and
Angular Rate Sensor for Attitude Tracking
Angular Rate Sensor for Attitude Tracking Product Description The MFOG-910 fiber gyro is an advanced angular rate sensor that integrates optical, mechanical, and electrical components. Utilizing the Sagnac effect, it incorporates highly reliable micro-nano fiber devices to detect, process, and provide feedback on phase differences between counter-propagating light beams. Through innovative redesign of optics, structural support, and control algorithms, this product achieves
Shock-Resistance Micro-Nano Fiber Optic Gyroscope
Shock-Resistance Micro-Nano Fiber Optic Gyroscope Product Description The MFOG-910 fiber gyro is an advanced angular rate sensor that integrates optical, mechanical, and electrical components. Utilizing the Sagnac effect, it incorporates highly reliable micro-nano fiber devices to detect, process, and feedback phase differences between counter-propagating light beams. Through innovative redesign of optics, structural support, and control algorithms, this product achieves
Micro-Nano Integrated Fiber Optic Gyro with Good Start Performance
Micro-Nano Integrated Fiber Optic Gyro with Good Start Performance Product Description The MFOG-910 fiber gyro is an advanced angular rate sensor that integrates optical, mechanical, and electrical components. Utilizing the Sagnac effect, it incorporates highly reliable micro-nano fiber devices to detect, process, and feedback phase differences between counter-propagating light beams. Through innovative redesign of optics, structural support, and control algorithms, this
Micro-nano Fiber Optic Gyro for High-precision Pan-tilt Head
Micro-nano Fiber Optic Gyro for High-precision Pan-tilt Head Product Description The MFOG-103 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optical, mechanical, and electronic components. Based on the Sagnac effect, it utilizes micro-nano fiber devices to detect, process, and feedback phase differences between counter-propagating light beams. Comprising optical path components, circuit components, and structural components, this product
Angular Rate Sensor Large Fork-Lift
Angular Rate Sensor Large Fork-Lift Product Description The MFOG-103 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optics, mechanics, and electronics. Based on the Sagnac effect, it utilizes micro-nano fiber devices to detect, process, and feedback phase differences generated by counter-propagating light beams. Comprising optical path components, circuit components, and structural components, this product features a simple structure with
Fiber Optic Gyro Integrated with Inertial Measurement Unit for Gimbal
Fiber Optic Gyro Integrated with Inertial Measurement Unit for Gimbal The MFOG-103 Fiber Optic Gyroscope utilizes the Sagnac effect to deliver precise rotation measurements. Its micro-nano fiber design ensures high stability, fast startup, and low noise performance. Key Specifications Serial number Project Performance indicators 1 Range (°/s) ±350 2 Scale factor (mV/ o /s) 6±0.6 3 Zero-bias stability (10s, 1σ, o /H) ≤1 4 Zero-bias repeatability (1σ, o /H) ≤1 6 3dB Bandwidth
Micro-Nano Fiber Optic Gyroscope for Angular Rate Measurement
Micro-Nano Fiber Optic Gyroscope for Angular Rate Measurement Product Description The MFOG-103 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optical, mechanical, and electronic components. Based on the Sagnac effect, it utilizes micro-nano fiber devices to detect, process, and feedback the phase difference between two counter-propagating light beams. Comprising optical path components, circuit components, and structural components, this
Car Navigation Electronics Micro-Nano Fiber Optic Gyro
Car Navigation Electronics Micro-Nano Fiber Optic Gyro Product Description The MFOG-103 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optics, mechanics, and electronics. Based on the Sagnac effect, it utilizes micro-nano fiber devices to detect, process, and feedback the phase difference generated by two counter-propagating light beams. Comprising optical path components, circuit components, and structural components, this product
Integrated Photonic Chip Fiber Optic Gyroscope with Low Drift
Integrated Photonic Chip Fiber Optic Gyroscope with Low Drift Main Performance Parameters Serial number Project Performance indicators 1 Range (°/s) ±240 2 Scale factor (mV/°/s) 47±5 3 Scale factor nonlinearity (ppm) ≤1000 4 Zero-bias stability (10s, 1σ, °/H) ≤0.8 5 Zero-bias repeatability (1σ, °/H) ≤0.8 6 3dB Bandwidth (Hz) ≥1000 7 Random walk (°/√H) ≤0.02 8 Power supply (V) 5 + 0.25 + 12 9 Power Consumption (W) ≤1.5 10 Impact (g) ≥1500 11 Acceleration (g) ≥70 12 Life (years
Micro-Nano Integrated Fiber Optic Gyro for Automated Driving
Micro-Nano Fiber Optic Gyro Product Description MFOG-103 micro-nano fiber optic gyroscope (hereinafter referred to as this product) is an angular rate sensor integrating optics, mechanics and electronics. It is based on the Sagnac effect, integrates a variety of micro-nano fiber devices, and realizes the detection process by detecting, processing and feeding back the phase difference generated by two beams of light propagating in opposite directions. This product is mainly
Fizoptika VG1703 Analog Output Fiber Optic Gyroscope for Industrial Automation System
Fizoptika VG1703 Analog Output Fiber Optic Gyroscope for Industrial Automation System Based on the Sagnac effect, this gyroscope utilizes cutting-edge micro-nano fiber devices to achieve high-precision measurement. It detects angular velocity by monitoring the phase difference between counter-propagating light beams, processing this information through sophisticated electronics for precise feedback in control or measurement systems. Designed for reliability, the gyroscope
Single Axis Fiber Optic Gyroscope MFOG40 ±300°/s Range
Single Axis Fiber Optic Gyroscope MFOG40 ±300°/s Range The MFOG-24 Micro-Nano Fiber Optic Gyroscope is an advanced angular rate sensor that seamlessly integrates optical, mechanical, and electronic technologies. Based on the Sagnac effect, it utilizes cutting-edge micro-nano fiber devices to achieve high-precision measurement. This gyroscope detects angular velocity by monitoring the phase difference generated between two light beams propagating in opposite directions,