Power DC5 V MEMS Gyroscope Sensor for Extreme Conditions RS422 Interface 5000g Shock Tolerance

Product Description:

The KS3ARG03D series solid state angular rate sensor is an advanced gyroscopic device crafted to precisely measure angular velocity. Incorporated within this sensor is cutting-edge microelectromechanical system (MEMS) technology . To ensure exceptional performance and durability, the MEMS technology chips are fabricated utilizing a bipolar metal oxide semiconductor (BIMOS) technology production process . Additionally, these sensors benefit from a spherical grid arrangement that significantly enhances the welding technology of current carriers.

Users of the KS3ARG03D series can rely on its high reliability and rugged packaging . The sensor is also equipped with a Self-Test function , providing in-machine detection capabilities (BIT) that can be invaluable for real-time system health monitoring.

The operating principle behind the KS3ARG03D series angular rate sensors is that of a resonator gyro . This design incorporates two polysilicon sensitive structures , each consisting of a high-frequency vibrating frame. These frames are electrostatically driven to resonate at high frequencies, forming the core components of the velocity measurement system.

Capacitive structures at the two ends of the frame detect the Coriolis motion associated with angular movements. When angular velocity is present, it generates a Coriolis force, which in turn produces an electrical signal. This signal is then processed through an amplification and modulation stage, resulting in a precise electrical output that is directly proportional to the angular rate being measured.

Features:

● zero bias calibration

● temperature drift compensation

● wide measurement range

● wide bandwidth

● non-linear correction

● wide operating temperature range

● small size, light weight

● high impact acceleration resistance

 

Dimensions

 

 

Technical Parameters:

Parameter	KS3ARG03D
Power supply parameter
power	DC5(V)
power dissipation	≤1.1(W @5V DC)
Product performance
range	±500(triaxial)(deg/s)
Zero-bias	≤±0.05(In 500°/s)(deg/s)
Zero-bias stability	≤0.2(deg/h)
Zero-bias repeatability	≤1(deg/s)
nonlinearity	≤0.02(%FR)
Mean time between failures	10(Kh MTBF)
electrical interface	RS422
data updating rate(can set)	2000(Hz@460800)
Size	45×39×20(mm)
Weight	≤50(g)
Environment
Operating temperature	-40~+80℃
Storage temperature	-55~+85℃
Vibration	6.06(g @ 20~2000 Hz)
Shock	5000(g , 0.1 ms, 1/2 Sine)

Applications:

The landscape of transportation is undergoing an incredible transformation with the advent of intelligent automobiles. These advanced vehicles are equipped with the latest in artificial intelligence and autonomous driving features, bringing a new level of convenience and safety to the road. With the ability to make real-time decisions and learn from their environment, intelligent automobiles are setting the foundation for a smarter, cleaner, and more efficient future in personal and public transport.

Geological exploration has entered a new era thanks to sophisticated technology that allows researchers to delve deeper beneath the Earth's surface. Advanced tools and methods provide us with crucial data, enabling a better understanding of our planet’s composition, natural resources, and the geological processes that shape our world. This pivotal field plays a vital role not only in the extraction of minerals and energy resources but also in studying and mitigating natural hazards such as earthquakes and volcanic eruptions.

Robots have transcended science fiction and have become a staple in various industries, healthcare, and even in homes. These intelligent machines are designed to operate with a high degree of autonomy, performing tasks ranging from routine to highly complex, all while improving efficiency and reducing human error. Robots continue to evolve, becoming more adaptive and sensitive to their surroundings, paving the way for advancements in automation and human-robot interaction.

The field of defense has seen tremendous growth in the efficacy and precision of missile guidance and control. Modern missiles are equipped with state-of-the-art guidance systems that ensure remarkable accuracy. These sophisticated technologies encompass navigation, target detection, and homing capabilities, which play a crucial role in national security and defense strategies.

Aircraft stability control is paramount for the safety and efficiency of flight operations. Innovative control systems are being continuously developed to enhance the aerodynamic performance of aircraft. These systems critically manage the aircraft's attitude, altitude, and speed, offering pilots greater control for a smooth and safe flying experience.

Strapdown inertial navigation systems represent a significant breakthrough in navigation technology. Unlike traditional gimballed systems, strapdown inertial navigation units are fixed directly to the vehicle, reducing size, complexity, and cost. They provide accurate position, orientation, and velocity data to military and commercial vehicles, enabling precise and reliable navigation across various terrains and conditions.

The stability of antennas and cameras is crucial in ensuring high-quality communication and imagery, especially in moving platforms such as satellites, ships, and vehicles. Modern stabilization techniques allow these devices to maintain optimal alignment, delivering clear communication channels and sharp imaging, despite motion disturbances or environmental variables. The continuous advancements in stabilizing technologies are critical for accurate data transmission and reconnaissance activities.

Indeed, these technologies are more than mere constructs of the present; they are the building blocks for a more connected, accessible, and understanding world. As we continue to innovate, the horizon of possibilities stretches ever further, promising a future filled with unprecedented achievements.

Support and Services:

Welcome to our Technical Support and Services for the Gyroscope Sensor. Our dedicated team is here to assist you with any technical issues or inquiries you may have regarding the use, installation, or maintenance of your gyroscope sensor. We are committed to providing you with the best possible support to ensure your product functions optimally.

Our support includes detailed product documentation, frequently asked questions (FAQs), and troubleshooting guides designed to help you resolve common issues quickly. For more complex or specific concerns, our technical support team is ready to provide personalized assistance.

If you require further assistance, please refer to the 'Contact Us' section of our website (contact information excluded as per request) where you can find additional resources and support channels to get in touch with our professional technical support team.

Thank you for choosing our Electronic Gyroscope Sensor. We look forward to serving you and ensuring the success of your projects

 

Packing and Shipping:

The Electronic Gyroscope Sensor is meticulously packaged in an anti-static bag to ensure protection against electrostatic discharge (ESD). The sensor is then securely encased in a custom-fit, high-density foam mold, which provides superior shock absorption during transit. This foam is placed within a durable, branded cardboard box that shields the sensor from environmental factors and potential damage while in transit.

The exterior of the box features clear labeling with the product name, handling instructions, and a barcode for easy tracking. All our packages are sealed with tamper-evident tape, offering an additional layer of security.

For shipping, the Electronic Gyroscope Sensor is dispatched via a trusted courier service to ensure timely and safe delivery. We include insurance for the full value of the product, offering peace of mind and protection for your investment. Tracking information is provided as soon as the package is dispatched, allowing for real-time monitoring of the shipment until it arrives at its destination.