Fiber Optic Gyro
2°/h Inertial Bias Gyroscope Adopts RS422 Digital Communication Mode
2°/h Inertial Bias Gyroscope with RS422 Digital Communication Designed for defense, aerospace, and UAV systems , the MFOG-091A delivers exceptional accuracy and durability in extreme conditions. This compact gyroscope withstands random vibration up to 20g and operates across a temperature range of -40°C to +70°C . With its compact cylindrical design (φ24×51.6mm) and light weight (≤30g) , it offers complete mechanical and electrical compatibility with Fizoptika VG091 systems.
5V DC Fiber Optic Gyro RS422 Low Bias Angular Inertial Sensor
5V DC Fiber Optic Gyro RS422 Low Bias Angular Inertial Sensor The MFOG-1703 micro-nano fiber optic gyroscope delivers reliable angular rate data for attitude control, and stabilization systems. Its compact, lightweight (≤40g) design and maintenance-free architecture make it ideal for UAVs, unmanned ground vehicles, and optical platforms . Designed to be mechanically and electrically compatible with Fizoptika VG1703 . Composition Optical path assembly Detection and control
1 Axis FOG Navigation Gyro Sensor Low Drift CE Certificate
1 Axis FOG Navigation Gyro Sensor Low Drift CE Certificate MFOG-091A is a precision-engineered micro-nano fiber optic gyroscope featuring high bandwidth (≥450Hz) and excellent zero-bias repeatability (≤2°/h) . Its simple, robust design with optical path, control electronics, and metal housing ensures high vibration and temperature resistance. Operating from -40°C to +70°C , this model is a direct substitute for Fizoptika VG091 , suitable for inertial navigation, attitude
Drone Single Axis Fiber Optic Gyro Low Drift Ce Certificate
Drone Single Axis Fiber Optic Gyro Low Drift CE Certificate Composition The product is mainly composed of the following components: An optical path assembly Detection and control signal circuit board Optical fiber ring skeleton, shell and other structural parts Appearance and Dimensions Dimensions: Cylindrical, φ40mm * 20mm Weight: ≤40g Environmental Specifications Operating Temperature: -40℃ to +70℃ Storage Temperature: -55℃ to +85℃ Random Vibration: 20g, frequency range:
Inertial Angular Rate Fog Gyroscope Single Axes Optical Sagnac Effect
MFOG-103 Micro-Nano Fiber Optic Gyroscope Compact, durable, and precise — the MFOG-103 micro-nano fiber optic gyroscope is a high-performance sensor built for modern navigation and stabilization tasks. Its Sagnac-based optical detection design provides superior bias stability, wide bandwidth, and low angular random walk. As a drop-in replacement for the Fizoptika VG103, it can be seamlessly integrated into UAVs, survey instruments, robotic systems, and inertial reference
MEMS 3-AXIS GYRO LOW COST MEMS GYRO
MEMS 3-AXIS GYRO LOW COST MEMS GYRO Parameter Test conditions Typical value Unit Angular velocity Range Turntable 500 °/s Peak-to-peak value Static test 0.15 °/s Zero bias Stability 10 s average, + 70 ℃, + 20 ℃, -40 ℃ 8 °/h Allan variance, + 20 ℃ 1.9 °/h Start repeatability +70℃,+20℃,-40℃ 15 °/h Zero-bias total temperature variation -40 ℃ ~ + 70 ℃, 1 ℃/min, 10 s average, 1σ 0.02 °/s Zero bias Life-cycle change, accelerated testing 0.1 °/s Scale factor Repeatability of
High Bandwidth Fiber Optic High Accuracy Gyroscope Short Activation Time
MFOG-24 Micro-Nano Fiber Optic Gyroscope The MFOG-24 Micro-Nano Fiber Optic Gyroscope is a high-precision angular rate sensor based on the Sagnac effect . It integrates optical, mechanical, and electronic components into a compact cylindrical structure (Φ24 * 39 mm). With no moving parts, it ensures long service life, high reliability, and fast start-up. Ideal for UAVs and attitude control systems requiring lightweight, stable, and accurate inertial sensing. Product
Single Axis Optical Gyro Low Bias Close Loop 200Hz 5s Startup Time
Single Axis Optical Gyro Low Bias Close Loop 200Hz 5s Startup Time Powered by the Sagnac effect, the MFOG-24 provides precise angular rate measurement and superior stability in demanding environments. Its integrated optical and electronic modules achieve ultra-fast start-up and high accuracy, making it ideal for attitude reference systems, inertial measurement units, and intelligent control systems. Key Specifications Weight: ≤30g Operating temperature: -40℃~+65℃ Storage
Miniature Fiber Optic Gyroscope Angular Rate Sensor
Miniature Fiber Optic Gyroscope Angular Rate Sensor The Fizoptika VG095 Micro-Nano Fiber Optic Gyroscope is a high-performance angular rate sensor with exceptional environmental adaptability. This integrated system combines optics, mechanics, and electronics while utilizing the Sagnac effect. The unit includes optical path assembly, detection & control board, and structural components (coil skeleton, shell). Key Features Compact design with weight ≤70g Wide operating
Silicon Photonic FOG with Advanced Bias Compensation Algorithm
Silicon Photonic FOG with Advanced Bias Compensation Algorithm MFOG-095 is a micro-nano fiber optic gyroscope built for precision and reliability. Using Sagnac interferometry , it measures angular velocity with minimal drift. Its solid-state design ensures durability, low weight, and compact size , withstanding harsh conditions: operating temperature -40℃~+70℃ , storage -55℃~+85℃ , and random vibration up to 20g . Perfect for UAVs, vehicles, and aerospace navigation systems ,
High Performance Fiber Optic Gyro Low Bias Angular Speed Sensor
High Performance Fiber Optic Gyro Low Bias Angular Speed Sensor The MFOG-24 represents a new generation of miniaturized fiber optic gyroscopes, integrating optical path assembly, control electronics, and robust housing. Its simple structure, fast response, and low noise make it an ideal choice for platform stabilization, inertial navigation, and precision attitude measurement applications. Weight ≤30g Operating temperature -40℃ to +65℃ Storage temperature -55℃ to +85℃ Random
Fiber Optic Gyro for Marine Navigation and Heading Reference
Fiber Optic Gyro for Marine Navigation and Heading Reference The Fizoptika VG095 is a robust, micro-nano Fiber Optic Gyroscope designed for demanding environments. This solid-state angular rate sensor features instant start-up and high performance in a compact, sub-70g package. Engineered to operate from -40°C to +70°C and withstand random vibrations up to 20g, it delivers reliable attitude control and measurement for critical applications. Serial number Project Performance