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    Picture of Electronic Gyroscope Sensor with Multi-Interface Output, 1 Axis Picture of Electronic Gyroscope Sensor with Multi-Interface Output, 1 Axis Picture of Electronic Gyroscope Sensor with Multi-Interface Output, 1 Axis

    Electronic Gyroscope Sensor with Multi-Interface Output, 1 Axis

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    SKU: SUCH-GS-ML7300
    $693.88
    ● Output Signal: RS232 / RS485 / RS422 / TTL / CAN ● Non-linearity: 0.1% of FS ● Azimuth Resolution: 0.1°/s ● Waterproof Rating: IP67
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    🕒 Delivery date: 6-12 days
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    Overview

    The electronic gyroscope sensor is a durable and high-performance sensor designed for precision angular velocity measurement. It features multiple output options, including RS232, RS485, RS422, TTL, and CAN, offering flexible integration for various systems. Additionally, its low power consumption and excellent bias stability ensure reliable and efficient performance.

    Feature

    • The gyro sensor is designed to be corrosion-resistant, wear-resistant, waterproof, and shockproof, ensuring reliable performance in harsh environments.
    • This SUCH sensor features low power consumption, resistance to impact and vibration, and outstanding bias stability, making it suitable for demanding applications.
    • It supports a variety of output signals, including RS232, RS485, RS422, TTL, and CAN, providing flexible integration options for different systems.

    Dimension (Unit:mm)

    Electronic gyroscope sensor dimension

    Wiring

    Electronic gyroscope sensor wiring

    Axis Direction

    Electronic gyroscope sensor direction

    Note: The sensor is unaffected by magnetic fields and can accurately measure yaw angles in magnetic environments. By simply setting the required zero-bias angle (±180°/0-360°), it can replace the electronic compass function without being influenced by magnetic fields.

    Specs
    Measuring Axial Z-Axis
    Angle of Azimuth Measuring Range ±180°
    Angular Velocity Measurement range < 450°/S
    Sampling Bandwidth > 1000Hz
    Resolution 0.1°/s
    Operating Life 5 years
    Non-linearity 0.1% of FS
    Temperature Compensation Full temperature range, -45℃ to 85℃
    Temperature Drift < ±0.2°/s
    Power-on Startup Time 3s
    Auto Output Rate 5Hz output, 15Hz, 35Hz, 50Hz can be set (RS485 without this function)
    Output Signal RS232 / RS485 / RS422 / TTL / CAN
    Average Trouble-Free Operating Time ≥ 45000 hours/time
    Negative Tenderness 20000g, 2ms, ½ sine
    Vibration Resistant 10g rms, 10~1000Hz
    Waterproof Rating IP67
    Cable Standard 1.5 meters length, wear-resistant, oil-resistant, wide temperature, shielded cable 5*0.2mm²
    Connector 6-pin aviation plug
    Tolerance Load 1000
    Operating Voltage 9-36V
    Operating Current 40mA
    Operating Temperature -40℃ to 85℃
    Storage Temperature -55℃ to 125℃
    Connector Lead wire (1.5m) or waterproof aviation socket
    Housing Material Aluminum alloy frosted oxidation
    Mounting Four M4 screws
    Dimensions 60*59*29mm
    Net Weight 180 g

    PDF computingElectronic Gyroscope Sensor with Multi-Interface Output, 1 Axis User Manual

    Application
    Household appliances

    Household Appliances

    Machinery Manufacturing

    Machinery Manufacturing

    Gyroscope sensor for robotics

    Robotics

    FAQ

    The accuracy of a gyroscope sensor is typically measured by its angular velocity resolution and noise level. Modern MEMS gyroscopes can achieve very high accuracy, making them suitable for many applications. The accuracy depends on the specific sensor model, with some high-precision sensors offering angle errors within a few degrees.

    A gyroscope measures angular velocity (rotation), while an accelerometer measures linear acceleration (changes in velocity). They are often used together to provide a complete understanding of an object's motion.

    MEMS gyroscopes typically output either analog or digital signals. Analog outputs can be converted to digital signals using an ADC (Analog-to-Digital Converter), while digital output gyroscopes can be read directly through I2C or SPI interfaces. Signal processing might include filtering, amplification, or other signal conditioning depending on your application.

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