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| Place of Origin: | China (Mainland) |
| Brand Name: | Kacise |
| Certification: | certificate of explosion-proof, CE |
| Model Number: | KS3ARG03D |
| Minimum Order Quantity: | 1pcs |
|---|---|
| Packaging Details: | each unit has individual box and all boxes are packed in standard packages or customers requests available |
| Delivery Time: | 5-8 working days |
| Payment Terms: | T/T, Western Union, MoneyGram |
| Supply Ability: | 1000 Pieces per Week |
| Data Updating Rate(can Set): | 2000(Hz@460800) | Power Dissipation: | ≤1.1(W @5V DC) |
|---|---|---|---|
| Zero-bias Stability: | ≤0.2(deg/h) | Weight: | ≤50(g) |
| Shock: | 5000(g , 0.1 Ms, 1/2 Sine) | Size: | 45×39×20(mm) |
| Storage Temperature: | -55~+85(°C) | Zero-bias: | ≤±0.05(In 500°/s)(deg/s) |
The KS3ARG03D series solid state angular rate sensor , commonly known as a gyro, is a sophisticated device engineered to accurately measure angular rates. At its core, it incorporates cutting-edge micromechanoelectronic system (MEMS) technology chips . These chips are intricately produced via a combination of bipolar metal oxide semiconductor (BIMOS) technology and advanced spherical grid arrangement techniques for current carrier welding. This melding of technologies ensures both high reliability and ruggedness in the sensor's packaging.
Notably, the gyro is equipped with a built-in Self-Test function , which enables it to perform in-machine detection or built-in test (BIT), ensuring ongoing accuracy and functionality.
The operating principle behind the KS3ARG03D series angular rate sensors is fundamentally based on the workings of a resonator gyro . Each sensor comprises two polysilicon sensitive structures , each playing host to a high-frequency vibrating frame. These frames are prompted to resonance through electrostatic forces, serving as the pivotal elements for measuring velocity.
Located at the extremities of these frames is a capacitance-sensitive structure that reacts specifically to Coriolis forces which manifest when an angular rate is present. The reaction to this motion is the generation of an electrical signal. This signal is consequently refined through an amplifying stage and a modulating stage before being output. The final output from the gyro is in the form of an electrical signal that is directly proportional to the measured angular rate , providing users with a precise assessment of the rate of rotation.
● 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
| 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) |
Advancements in Technology and Their Applications
Intelligent Automobiles
The era of intelligent automobiles is upon us, transforming the way we perceive personal and public transportation. These vehicles are equipped with cutting-edge technology designed to enhance driving safety, comfort, and efficiency. They leverage sophisticated sensors and artificial intelligence to provide features such as autonomous driving and predictive maintenance, making the driving experience more intuitive and connected than ever before.
Geological Exploration
Geological exploration has benefited enormously from technological advancements. Today's explorers utilize advanced tools and methods to analyze and understand the Earth's subsurface. Such technologies enable the pursuit of valuable minerals and hydrocarbons with greater precision, reducing environmental impact and increasing the likelihood of discovery, ultimately contributing to resource sustainability.
Robotics
Robots have become indispensable in various industries, performing tasks that range from simple to highly complex. Integrated with advanced algorithms, they can learn, adapt, and interact with their environment. This has broad applications in manufacturing, healthcare, and even hazardous environments, where they can operate where it may be too dangerous for humans.
Missile Guidance and Control
Missile guidance and control systems represent a pinnacle of precision engineering. Utilizing a combination of accelerometers, gyroscopes, and complex computational algorithms, these systems ensure that missiles reach their targets with high accuracy, which is of paramount importance in both defense and space exploration operations.
Aircraft Stability Control
To ensure the safety and efficiency of flight, aircraft are embedded with stability control mechanisms. These systems continuously monitor various flight parameters and make real-time adjustments to airplane control surfaces, maintaining optimal performance and comfort under a wide range of atmospheric conditions and flight dynamics.
Strapdown Inertial Navigation
As a cornerstone technology for navigation systems, strapdown inertial navigation uses gyroscopes and accelerometers to calculate position and orientation without the need for external references. This robust method is essential for the navigation of vehicles across air, land, and sea, where conventional navigation techniques may be unreliable or unavailable.
Antenna and Camera Stability
Stabilization technology is also vital for antennas and cameras, ensuring that communications and image capture remain uninterrupted and clear even in the presence of movement or atmospheric disturbances. This is imperative for broadcasting, surveillance, and various scientific applications that require precision and reliability.
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
Product Packaging for Electronic Gyroscope Sensor:
The Gyroscope Sensor is securely encased in a custom-fitted, anti-static foam insert to ensure total protection from electrostatic discharge (ESD). The sensor is then placed into a sturdy, protective cardboard box specifically designed for electronics. The box is sealed with tamper-evident security tape to guarantee product integrity upon delivery.
Shipping Information for Electronic Gyroscope Sensor:
Your Gyroscope Sensor will be shipped using a reliable courier service to ensure timely and safe delivery. The shipping box will be labeled with "Fragile - Handle with Care" to alert carriers of the sensitive nature of the contents. A tracking number will be provided so that you can monitor the shipment's progress until it reaches your destination. Please inspect the package upon arrival for any signs of damage during transit and report any issues immediately for prompt resolution.
Contact Person: Ms. Evelyn Wang
Tel: +86 17719566736
Fax: 86--17719566736
Address: i City, No11, TangYan South road, Yanta District, Xi'an,Shaanxi,China.
Factory Address:i City, No11, TangYan South road, Yanta District, Xi'an,Shaanxi,China.
