Accelerometer Sensor

High-Precision Inertial Navigation Grade Accelerometer KSJB1 series quartz flexible accelerometer is a high-precision inertial navigation grade accelerometer. The product has excellent long-term stability, repeatability, starting performance, environmental adaptability and high reliability. It can be used for static test and dynamic test, and is also a standard vibration sensor and inclination sensor. The output current of the product is linear with the

High-Precision Inertial Navigation Grade Accelerometer KSJB1 series quartz flexible accelerometer is a high-precision inertial navigation grade accelerometer. The product has excellent long-term stability, repeatability, starting performance, environmental adaptability and high reliability. It can be used for static test and dynamic test, and is also a standard vibration sensor and inclination sensor. The output current of the product is linear with the

Miniaturized, high precision, a large number of inertial pilot accelerometers for use KSJB3 series quartz flexible accelerometer is a small, high precision, a large number of inertial navigation level accelerometer, the product has excellent long-term stability, repeatability, starting performance, environmental adaptability and high reliability and other characteristics, can be used for static testing can be used for dynamic testing, is also a standard

High-Precision Inertial Navigation Grade Accelerometer KSJB1 series quartz flexible accelerometer is a high-precision inertial navigation grade accelerometer. The product has excellent long-term stability, repeatability, starting performance, environmental adaptability and high reliability. It can be used for static test and dynamic test, and is also a standard vibration sensor and inclination sensor. The output current of the product is linear with the

GSIMU001M Universal Digital Inertial Measurement Unit The GSIMU001M Inertial Measurement Unit is a high-performance, cost-effective solution for navigation, control, and dynamic measurement applications. Featuring a sealed design, this unit delivers precise angular velocity and acceleration measurements even in demanding environmental conditions. Key Features Low cost with compact dimensions Wide operating temperature range (-40°C to +85°C) Broad power input compatibility

GS16488 Inertial Measurement Unit Product Introduction The GS16488 Inertial Measurement Unit is a high-performance domestic inertial measurement device featuring compact size and exceptional overload resistance. With gyroscope zero bias stability of 0.5°/h (Allan) and accelerometer zero bias stability of 10µg (Allan), it is designed for precise navigation, control, and dynamic measurement in weapon systems. This product series utilizes high-precision MEMS inertial devices,

GSQAT160 Quartz Flexible Accelerometer Product Introduction The quartz flexible accelerometer is a precision instrument comprising quartz glass flexible support and advanced servo circuitry based on the principle of inertia. When subjected to acceleration, the output is precisely proportional to the input acceleration. Featuring a current output form with high output impedance, users can select sampling resistance according to requirements without affecting system stability.

GSQAMini125 Quartz Flexible Accelerometer Product Introduction The quartz flexible accelerometer is a precision instrument featuring quartz glass flexible support and advanced servo circuitry based on inertia principles. When subjected to acceleration, it delivers an output precisely proportional to the input acceleration. With high output impedance in current output form, users can select sampling resistance according to requirements without compromising system stability.

GSACC303M MEMS Accelerometers Key Features Digital RS422 output Wide measuring range Nonlinear correction and cross coupling correction Whole temperature range compensation Impact resistance with excellent vibration performance High resolution and stability Applications Aircraft stability control Inertial navigation systems Technical Specifications Type: GSACC303M Electrical Characteristics Input voltage 10~30 VDC Input current ≤50 mA Output Mode RS 422 Baud Rate 115200 bps

GSACC302M MEMS Accelerometers Key Features Digital RS422 output Wide measuring range with nonlinear correction Whole temperature range compensation High impact resistance Applications Petroleum drilling machines Seismic detection systems Technical Specifications Electrical Characteristics Input voltage 10~30 VDC Input current ≤ 70 mA Output Mode RS 422 Baud Rate 115200 bps Output Data Rate 200 Hz Output Data format 16-bit twos complement Performance Index Parameter X Y Z

GSACC301M MEMS Accelerometers Key Features Analog voltage output Compact size and lightweight design Full temperature range compensation Excellent impact resistance and vibration performance Built-in self-test function Applications Aircraft stability control systems Vibration acceleration measurement Technical Specifications Type GSACC301M Electric Characteristics Input voltage 3±0.05 VDC Input current ≤ 1 mA Output Mode 0~3 V Performance Index Axial direction X Y Z Range ±3

GSACC204M MEMS Accelerometers Key Features Analog voltage output Compact size and lightweight design High frequency with magnetic suction installation Excellent impact resistance and vibration performance Applications Mechanical vibration monitoring equipment Seismic surveillance systems Technical Specifications Type: GSACC204M Electrical Characteristics Input voltage 6±0.25 VDC Input current ≤6mA Output Mode 0.5～4.5 V Performance Index Axial direction Y | Z Range ±1 g

GSACC203M MEMS Accelerometers Key Features Digital RS485 output Wide measuring range with nonlinear correction Compact size and lightweight design Full temperature range compensation Excellent impact resistance and vibration performance Applications Aircraft stability control systems Seismic detection equipment Technical Specifications Electrical Characteristics Input voltage 6-8 VDC Input current ≤60 mA Output Mode RS485 Baud Rate 115200 bps Output Data Rate 200 Hz Output

GSACC202M MEMS Accelerometers Key Features Analog voltage output Compact size and lightweight design Wide measuring range Excellent impact resistance and vibration performance Applications Aircraft stability control systems Seismic detection equipment Technical Specifications Electrical Characteristics Input voltage 5±0.25 VDC Input current ≤2mA Output Mode 0.5～4.5 V Performance Index Axial direction X,Y Range ±2g Bandwidth ≧ 50 Hz Sensitivity 1000±30 mV / g Resolution (°/s)

GSACC131Q Quartz Flexible Accelerometer Quartz Flexure Accelerometers are precision instruments composed of quartz crystals and advanced inertia-based servo circuitry. When subjected to acceleration, the accelerometer's output is directly proportional to the input acceleration with high precision. Featuring a TTL output, our accelerometers enable users to read acceleration values directly. Compared to traditional I/F (current-to-frequency) circuits, this design eliminates

GSACC117Q Quartz Flexible Accelerometer Product Introduction The quartz flexible accelerometer is a precision instrument comprising quartz glass flexible support and advanced servo circuit based on the principle of inertia. When the carrier is subjected to acceleration, the output is precisely proportional to the input acceleration. Our accelerometer features current output with high output impedance, allowing users to select sampling resistance according to requirements

GSACC116Q Quartz Flexible Accelerometer Product Introduction The quartz flexible accelerometer is a precision instrument featuring quartz glass flexible support and advanced servo circuitry based on inertia principles. When subjected to acceleration, it produces an output precisely proportional to the input acceleration. With high output impedance current output, users can select sampling resistance according to requirements without affecting system stability. Our product

GSACC115Q Quartz Flexible Accelerometer Product Introduction The quartz flexible accelerometer is a precision instrument comprising quartz glass flexible support and advanced servo circuit based on the principle of inertia. When the carrier is subjected to acceleration, the output is precisely proportional to the input acceleration. Our accelerometer features current output with high output impedance, allowing users to select sampling resistance according to requirements

GSACC113Q Quartz Flexible Accelerometer Product Introduction The quartz flexible accelerometer is a precision instrument comprising quartz glass flexible support and advanced servo circuitry based on the principle of inertia. When the carrier experiences acceleration, the accelerometer's output is precisely proportional to the input acceleration. Our accelerometer features a current output form with high output impedance, allowing users to select sampling resistance according

GSACC111Q Quartz Flexible Accelerometer The quartz flexible accelerometer is a precision instrument featuring quartz glass flexible support and advanced servo circuitry based on inertia principles. When subjected to acceleration, it delivers output precisely proportional to input acceleration. With high output impedance current output, users can select sampling resistance without compromising system stability. Our product line ranges from high-precision μg GSACC111Q models