UF600 are high performance and cost-effective fiber optic gyroscopes based IMU combined with either with quartz flexible accelerometer or MEMS accelerometer, which can be used for navigation, control, and dynamic measurement. It has the advantages of small size, light weight, no moving parts, high reliability, and long service life. It can be widely used in aviation, aerospace, ships, weapons, coal mine measurement, automotive electronics and other fields.

UF500 are high performance and cost-effective fiber optic gyroscopes based IMU combined with either with quartz flexible accelerometer or MEMS accelerometer, which can be used for navigation, control, and dynamic measurement. It has the advantages of small size, light weight, no moving parts, high reliability, and long service life. It can be widely used in aviation, aerospace, ships, weapons, coal mine measurement, automotive electronics and other fields.

The G830 series is high precision angle sensor, with an accuracy of 0.02°, supporting setting range and adopting integrated MEMS technology, low power consumption, built-in high-precision 16 bit A/D converter, multiple outputs RS232, TTL, RS485, RS422, CAN, 0-5V, 0-10V, 4-20mA, 0-20mA and 0-24mA are optional. By utilizing magneto electric induction technology, precision bearings, differential array magnetic sensitive components, and non-contact measurement of the shaft, the parallel magnetic field strength of a permanent magnet installed at one end of the shaft is sensed and processed by MCU. Linear correction, temperature compensation, self-developed filtering algorithm, and programmable intelligent control with multiple different slope settings are implemented to improve measurement accuracy.

The G820 series high-precision angle sensor is integrated with MEMS technology, low power consumption; By using magneto electric induction technology, precision bearings, differential array magnetic sensing elements, and non-contact measurement of the shaft, the parallel magnetic field strength of a permanent magnet installed at one end of the shaft is sensed and processed by MCU to achieve programmable intelligent control of linearity correction, temperature compensation, N-order digital filtering algorithm, zero point setting, and multiple different slope settings. The absolute angular position of the output sensor is achieved within the range of 0-360 °. Accuracy of 0.05 °, output RS232, TTL, RS485, CAN, 0-5V, 0.5, 4.5V, 0-10V, 4-20mA, 0-20mA optional.

G810 series angle sensor embedded microprocessor is combined with a CNC arc-second level calibration device, programmed calibration and conversion, 0.1° high-precision measurement, multiple outputs RS232, TTL, RS485, RS422, CAN, 0-5V, 0.5-4.5V, 0-10V, 4-20mA, 0-20mA optional. The magnetic angle sensor uses MEMS technology to integrate the nanomagnetic focusing thin film material and the differential array magnetic sensitive element to non-contact sense changes in the rotating magnetic field. The system integrates micro-computer, voltage and current transmitters and various protection circuits. Through DSP processing, it performs linearity correction, temperature compensation, standardization of output signals according to the range, digital filtering, zero point setting, and multi-segment different slope settings. programmable intelligent control.

G803 low-cost series magnetic angle sensor uses MEMS technology to integrate the nanomagnetic focusing film material and the differential array magnetic sensitive element to non-contact sense changes in the rotating magnetic field. The system integrates a microprocessor (micro-computer), a current transmitter and a variety of protection circuits. Through DSP processing, it can perform linearity correction, temperature compensation, standardization of output signals according to the range, digital filtering, zero point setting, and multi-segment different slope settings. Programmed intelligent control enables measurement of absolute position output at user-set angles within the range of 0 to 360°.

G802 series magnetic angle sensor uses MEMS technology to integrate the nanomagnetic beam thin film material and the differential array magnetic sensitive element to non-contact sense changes in the magnetic field. The system integrates (microcomputer) with the current market and various protection circuits. Through DSP processing, it realizes simple intelligent control of linearity correction, temperature compensation, standardization of output signals according to the range, digital simulation, zero point setting, and multi-stage different slope settings. 0 In the 360° range, the user sets the angle to output absolute position measurement.

The G801-B series angle sensor adopts MEMS technology and magnetoelectric induction technology. It uses differential array magnetic sensitive elements and non-contact measurement of the rotating shaft. It senses the parallel magnetic field intensity of the permanent magnet installed at one end of the rotating shaft and performs linearity correction through MCU processing, temperature compensation, output signal standardized digital filtering, zero point setting, programmable intelligent control of multiple different slope settings, to achieve the absolute angular position of the output sensor within the range of 0 ~ 360°. Accuracy 0.2°, output RS232, RS485, CAN, 0-5V, 0.5-4.5V, 0-10V, 4-20mA, 0-20mA optional.

G800-B series angle sensor adopts MEMS technology and magnetoelectric induction technology. It uses differential array magnetic sensitive elements and non-contact measurement of the rotating shaft. It senses the parallel magnetic field intensity of the permanent magnet installed at one end of the rotating shaft and performs linearity correction through MCU processing, temperature compensation, output signal standardized digital filtering, zero point setting, programmable intelligent control of multiple different slope settings, to achieve the absolute angular position of the output sensor within the range of 0 ~ 360°. Accuracy 0.2°, output RS232, RS485, CAN, 0-5V, 0.5-4.5V, 0-10V, 4-20mA, 0-20mA optional.

C9000-CV is a high-precision all attitude 3D electronic compass launched by Micro-Magic Inc, integrating digital signal RS232 output and analog 4-20mA, 0-5V output, IP67 waterproof level. It uses advanced hard and soft iron calibration algorithms to provide high-precision heading information within the range of 360 ° roll and+/-90 ° full tilt angle. C9000-CV has been specially optimized for applications in the petroleum inclinometer field, making it very suitable for inclinometer systems. It can manually or automatically output tilt angle, azimuth angle, and tool surface angle information, and can also output the current magnetic field component size. Users only need to connect C9000-CV to the data transmission circuit to form a high-precision inclinometer.

C9-D is a high-precision three-dimensional electronic compass launched by Micro-Magic Inc. It has self-developed core three-dimensional compensation algorithm technology, so that it can still provide accurate heading data even when the product is tilted at an angle of ±40°. The product is small in size and has low power consumption. It can be used in many fields such as antenna stabilization, vehicles, and system integration. Its high shock resistance and high reliability also allow the compass to work normally in extremely harsh environments, making it more suitable for today's miniaturized and high-voltage applications. Accurate measurement integrated control system.

C9000-D is a high-precision all attitude 3D electronic compass launched by Micro-Magic Inc Hi-Tech Company, integrating digital signal RS232 output and analog 4-20mA, 0-5V output, IP67 waterproof level. It uses advanced hard and soft iron calibration algorithms to provide high-precision heading information within the range of 360 ° roll and+/-90 ° full tilt angle. C9000-D has been specially optimized for applications in the petroleum inclinometer field, making it very suitable for inclinometer systems. It can manually or automatically output tilt angle, azimuth angle, and tool surface angle information, and can also output the current magnetic field component size. Users only need to connect C9000-D to the data transmission circuit to form a high-precision inclinometer.