Application of Quartz Accelerometer

With the development of science and technology, the application range of sensors has become wider and wider. As far as acceleration sensors are concerned, there are many types of work. Generally speak

Low Cost Voltage Type Single Axis Tilt Sensor

ER-TS-3160VO Features: 1. Single axis tilt monitoring; 2. Full range accuracy 0.01°, resolution 0.001°; 3. Output 0~5V, 0.5~4.5V, 0~10V (optional).

What is the Difference Between an Accelerometer and a Vibration Sensor?

Learn briefly about the difference between accelerometers and vibration sensors.

Low Cost FOG Gyroscope

ER-FOG-910 (0.02º/h) 1. Bias stability: 0.02º/h; 2. Small size: Φ82×26; 3. Long life and high reliability.

Small Size Fiber Optic Gyroscope

ER-FOG-60 (0.06~0.5º/h) 1. Bias stability: 0.06~0.5º/h; 2. Small size: Φ60mm×30mm; 3. Light weight: ≤120g.

MWD Quartz Accelerometer

ER-QA-02C (100μg) Features: 1. Anti-vibration; 2. High-temperature; 3. Especially applied for MWD and continuous north seeking systems.

ER-FIMU-50 Minimum FOG IMU (Same performance to KVH 1775)

ER-FIMU-50: 1. Minimum FOG IMU: F89mm*73mm; similar performance to KVH 1775, LN200; 2. Gyro-Bias stability/repeatability: 0.5°-1°/h, accelerometer-25g; 3. For navigation, control and dynamic measur

What is a Fiber Optic Rate Gyroscope?

ER-FOG-910 (0.02º/h) 1. Bias stability: 0.02º/h; 2. Small size: Φ82×26; 3. Long life and high reliability.

Low Power Consumption Wireless Transmission Tilt Sensor

ER-TS-22800 Feature: 1. Accuracy: 0.005°, resolution: 0.0008°; 2. Measurement range: ± 30°; 3. Volume (94*74*64mm) (customizable).

ER-FIMU-50 Minimum FOG IMU (Same performance to KVH 1775)

ER-FIMU-50: 1. Minimum FOG IMU: F89mm*73mm; similar performance to KVH 1775, LN200; 2. Gyro-Bias stability/repeatability: 0.5°-1°/h; 3. For navigation, control and dynamic measurement.