Three Axis Gyroscope
High Precision & Low Noise Three-Axis FOG SIS-100HD, 0.005°/h Zero Bias Stability, High Reliability for INS & AHRS Systems
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
High Precision & Low Noise Three-Axis Gyroscope SIS-70A, 0.05°/h Zero Bias Stability, High Reliability for UAV, Aircraft & Ship Navigation
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
3-Axis Integrated FOG SIS-40 | Ultra-Compact 71.5×71.5×47mm, 0.1°/h Zero Bias Stability, High Reliability for Marine & Inertial Navigation
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
High Precision Low Noise Three-Axis FOG SIS-100, 0.05°/h Zero Bias Stability for North Finders & INS
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
High Precision & High Reliability Triple-Axis FOG SIS-120D, 0.005°/h Zero Bias Stability for Precision Stabilized Platforms, North Finders & INS
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
High Precision Triple-Axis FOG SIS-120C | 0.005°/h Zero Bias Stability, High Stability for INS & UAV Navigation
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
Ultra-High Precision Three-Axis FOG SIS-120H, 0.003°/h Zero Bias Stability for High-End INS & Attitude Measurement Systems
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
High Precision & Low Noise Three-Axis FOG SIS-100, 0.01°/h Zero Bias Stability, High Reliability for INS & AHRS Systems
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and
High Precision Three-Axis FOG SIS-90H, 0.01°/h Zero Bias Stability for North Finders & Inertial Navigation Systems
The product is an inertial angular velocity sensor based on the Sagnac effect for measuring the rotational angular velocity of the carrier along the sensitive axis. The digital closed-loop detection circuit is used to extract the optical path difference of the counterclockwise propagating light caused by the external physical angular speed of the optical fiber coil. At the same time, the voltage signal of the optical path difference signal is converted to modulation and