Fiber Optic Gyro
Fizoptika VG1703 Inertial FOG Gyro Angular Rate Sensor Factory price
Fizoptika VG1703 Inertial FOG Gyro Angular Rate Sensor Product Overview The MFOG-1703 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 counter-propagating light beams. Key Features Simple structure with no moving or wear parts Fast start-up capability Compact size and
Middle Grade Accuracy Micro-Nano FOG
Product Description MFOG-091D 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 composed of optical path
High Bandwidth Fiber Optic Gyroscope FOG for Dynamic Control
High Bandwidth Fiber Optic Gyroscope FOG for Dynamic Control Product Description The Fizoptika1703 Fiber Optic Gyro is a precision angular rate sensor designed for carrier attitude requirements. This advanced system integrates optics, mechanics, and electronics, utilizing the Sagnac effect to process counter-propagating light phase differences. Key Features No wear/moving parts for enhanced durability Fast startup time Compact and lightweight design Simple structural
Stable Optical Gyroscope For Integrated Navigation System Dynamic Gyroscope Sensor
Stable Optical Gyroscope For Integrated Navigation System Dynamic Gyroscope Sensor Product Overview The MFOG-103 optical gyroscope features a rugged, maintenance-free design with no moving parts, ensuring fast startup and reliable operation in demanding environments. Key Features Bias stability ≤1°/h for precise measurements Bandwidth ≥1000Hz for high-speed applications Wide operating temperature range (-40°C to +70°C) Compact 60 * 60 * 17mm housing Lightweight design at ≤80g
Inertial Angular Rate Sensor Open Loop Optical Sagnac Effect Gyroscope
MFOG-095 Micro-Nano Fiber Optic Gyroscope The MFOG-095 is a high-precision inertial angular rate sensor utilizing open loop optical Sagnac effect technology. Designed for UAV navigation, robotic stabilization, and autonomous platforms, it delivers exceptional performance with low noise, minimal bias drift (≤2°/h), and high bandwidth (≥1000Hz). Key Features Compact dimensions: 60×35×25.5 mm (without plug) Lightweight design: ≤70g Wide operating temperature range: -40℃ to +70℃
RS422 Output Mode New Choise Fiber Optic Gyro Beside FOG And MEMS Gyro
new gyro choise beside FOG and MEMS gyro Table 1 Main Performance Parameters Items FCG24D Unit Output Mode Analog Connector Welding plate Axis 1 Consumption ≤0.7 w Power Supply 5(±0.15) V Random walk ≤0.1 °/√h(1σ) Range ≥500 °/s Bias (10s,1σ) ≤2 °/h Bias (Allan) ≤0.2 °/h Bias repeatability(Allan) ≤0.2 °/h Scale factor 4 mv/° /s Scale factor Non-linearity ≤1000 PPM(1σ) Start up time ≤1 s Bandwidth 450 Hz Working Temp. -45~+70 ℃ Store Temp. -55~+85 ℃ Vibration 20~2000,0.04 Hz,g
High Performance Single Axis Digital Optical Gyro Low Bias Fiber Optic Gyro
High Performance Single Axis Digital Optical Gyro Low Bias Fiber Optic Gyro The MFOG-095 micro-nano fiber optic gyroscope delivers reliable, low-noise angular rate measurements for autonomous navigation, UAV gyroscopes, and robotic stabilization platforms. Its advanced micro-nano fiber technology ensures fast startup (
High Stability Single Axis Fiber Optic Gyro with RS422 Output for Navigation System
High Stability Single Axis Fiber Optic Gyro with RS422 Output for Navigation System The MFOG-1703 fiber optic gyroscope utilizes the Sagnac effect for precise angular rate detection, offering high sensitivity and thermal stability. Its compact design and fast startup make it suitable for aerospace research, UAV attitude reference systems, and precision instrumentation . Compatible with Fizoptika VG1703 in both interface and performance. Composition Optical path assembly
Angular Rate Sensor for Automated Equipment Monitoring
Angular Rate Sensor for Automated Equipment Monitoring Product Description The MFOG-095 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
Micro-Nano Fiber Optic Gyro Inclinometer
Product Description MFOG-095 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 composed of optical path
Fiber Optic Gyro for Oilfield Drilling Direction Measurement
MFOG-095 Micro-Nano Fiber Optic Gyroscope Product Description The MFOG-095 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. Key product components include optical path elements, circuit modules, and structural parts. This gyroscope offers
Miniature Single-Axis Fiber Optic Gyro with 1°/h Precision
Miniature Single-Axis Fiber Optic Gyro with 1°/h Precision MFOG-103 is a compact, energy-efficient fiber optic gyroscope designed for space- and power-constrained systems. It delivers high precision , fast response , and low noise performance with power consumption below 1W . The design supports bias stability ≤1°/h , ARW ≤0.02°/√h , and lifetime exceeding 15 years . Fully interchangeable with Fizoptika VG103 , it fits UAVs, small robots, and inertial navigation modules .
Inertial Optic Gyroscope For Positioning And Orientation Systems
MFOG-091A Inertial Optic Gyroscope Engineered for unmanned aerial and ground platforms, the MFOG-091A offers high-precision angular rate detection with low drift and wide bandwidth (≥450Hz). Its compact design and low power consumption (≤0.7W) make it ideal for UAV navigation, flight stabilization, and autonomous control. The unit is mechanically and electrically compatible with Fizoptika VG091, ensuring seamless integration into existing systems. Product Composition Optical
Ultra-Miniaturized Micro-Nano Fog
Ultra-Miniaturized Micro-Nano Fog Product Description The MFOG-1703 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 features a simple design
Fiber Optic Gyro FOG Inertial Gyroscope Navigation
Fiber Optic Gyro FOG Inertial Gyroscope Navigation The MFOG-103 is a precision fiber optic gyroscope integrating optics, electronics, and mechanics for real-time angular velocity measurement. It delivers excellent bias repeatability, low noise, and wide dynamic range, suitable for applications requiring compact and accurate inertial sensors. Designed as a drop-in replacement for the Fizoptika VG103 , it is ideal for industrial robots, unmanned platforms, geophysical
Interferometric Digital Open Loop Fiber Optic Gyro For Inertial System
Interferometric Digital Open Loop Fiber Optic Gyro For Inertial System The MFOG-24 micro-nano fiber optic gyroscope is an advanced angular rate sensor that integrates optics, mechanics, and electronics. Based on the Sagnac effect, it incorporates multiple micro-nano fiber devices to detect, process, and feedback the phase difference generated by counter-propagating light beams. This product consists of optical path components, circuit components, and structural components. It
Navigation Grade Fiber Optic Gyro for Vehicle and UAV System
Navigation Grade Fiber Optic Gyro for Vehicle and UAV System The MFOG-103 provides precise angular rate measurement through advanced micro-nano photonic technology. Designed with a rugged aluminum housing and compact 60 * 60 * 17 mm form factor, it achieves high accuracy under vibration and temperature extremes. This gyroscope is fully compatible with Fizoptika VG103 , making it ideal for autonomous vehicle navigation, gimbal stabilization, and aerospace platform control .
Fiber Optic Gyroscope for Inertial Navigation and Stabilization Precise North Seeking
Fiber Optic Gyroscope for Inertial Navigation and Stabilization Precise North Seeking The MFOG-103 micro-nano fiber optic gyroscope represents a reliable solid-state solution for attitude and heading reference systems. Utilizing the Sagnac effect, it measures rotation with high resolution and minimal drift. With low power consumption (≤1 W) and superior stability, it supports robotic navigation, UAV guidance, marine positioning, and autonomous driving systems . It is a
High Stability Fog Gyro Compass Low Drift Single Axis Low Noise
High Stability Fog Gyro Compass Low Drift Single Axis Low Noise The MFOG-103 is a next-generation micro-nano fiber optic gyroscope offering the same interface and performance level as the Fizoptika VG103 . It employs an advanced all-solid-state optical design with no moving parts, ensuring high reliability and long operational life. Thanks to its compact form and low bias drift, it provides accurate angular rate data for mapping drones, industrial robots, ship navigation, and
1 axis gyro optical fiber gyro sensor inertial angular rate sensor
MFOG-091A Micro-Nano Fiber Optic Gyroscope Compact, fast, and reliable — the MFOG-091A micro-nano fiber optic gyroscope delivers precision motion sensing in a small package. Fully compatible with Fizoptika VG091 , it offers wide dynamic range (±300°/s) , high stability (≤2°/h) , and excellent environmental endurance . It is the perfect choice for UAVs, robotic systems, marine platforms, and aerospace navigation . Product Composition Optical path assembly Detection and control