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| Categories | Electronic Gyroscope Sensor |
|---|---|
| Brand Name: | Kacise |
| Model Number: | KS3ARGA1 |
| Place of Origin: | China (Mainland) |
| Certification: | certificate of explosion-proof, CE |
| MOQ: | 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 |
| Resolution/Threshold: | ≤0.1(°/s) |
| Weight: | ≤40(g) |
| Size: | 34×25×24(mm) |
| Scaling factor: | 8±0.5(mv/°/s) |
| Incoming currentmA: | <30 MA |
| Nonlinearity: | ≤0.05(%FR) |
| run-up time: | ≤20(ms) |
| Bandwidth can customize: | 80(Hz) |
| Company Info. |
| Xi'an Kacise Optronics Co.,Ltd. |
| Verified Supplier |
| View Contact Details |
| Product List |
Kacise KS3ARGA1 Series Three-Axis Gyroscope
The KS3ARGA1 series three-axis universal angular rate gyro is a cutting-edge sensor developed by Kacise for measuring angular rates across three axes. This gyroscopic sensor incorporates state-of-the-art Micro-Electro-Mechanical Systems (MEMS) technology across its components, offering users exceptionally high performance.
Among its many features, each sensor in the KS3ARGA1 series boasts low cost , high reliability , and substantial durability in its packaging. Additionally, a noteworthy aspect of this gyroscope is its integrated Self-Test capability, which enhances operational trustworthiness.
Operating Principle of KS3ARGA1 Gyroscope
The operational essence of the KS3ARGA1 series lies in its utilization of the resonator gyro principle . Central to its functioning are two polysilicon-sensitive structures , each fitted with a high-frequency resonance frame. This frame is electrostatically driven to vibrate at a high frequency, essential for determining velocity.
At each frame's extremities, a capacitive-sensitive structure is coupled to detect the Coriolis effect that arises due to the angular rate. This effect gives rise to an electrical signal , which is subsequently relayed through an amplifier and a modulator. As a result, the gyroscope outputs an electrical signal that is proportional to the angular rate , thus providing accurate measurements.
● low power consumption
● wide operating temperature range
● wide bandwidth
● small size
● DC input DC output
● fast start
● high performance, low cost
Dimensions
| Parameter | KS3ARGA1 |
| Power supply parameter | |
| Input voltage | 6-15V(Vdc) |
| Incoming currentmA | <30 mA |
| Offset voltage | 2.5±0.05(V) |
| Output voltage | 0.5-4.5(V) |
| Product performance | |
| Range | ±250(°/s) |
| Scaling factor | 8±0.5(mv/°/s) |
| Nonlinearity | ≤0.05(%FR) |
| Resolution/Threshold | ≤0.1(°/s) |
| Cross coupling | ≤2(%) |
| Output noise | <0.02(°/s√Hz) |
| run-up time | ≤20(ms) |
| Bandwidth can customize | 80(Hz) |
| G-value sensitivity | <0.02(°/s/g) |
| Mean time between failures | 100000hour(MTBF) |
| Size | 34×25×24(mm) |
| Weight | ≤40(g) |
| Environment | |
| Operating temperature range | -45~+80(°C) |
| Storage temperature | -65~+125(°C) |
| Tolerated acceleration | 20000(0.1ms)(g) |
Exploring the Vast Applications of Modern Gyroscopic Systems
Introduction to Gyroscopic Applications
The advent of gyroscopic technology has brought about a myriad of
applications across various industries. From improving the
functionality of automotive electronics to enhancing aircraft
navigation, gyroscopes serve as the backbone for modern precision
systems. Below we delve into some key areas where gyroscopic
technology plays an essential role.
Automotive Electronics Revolutionized by Gyroscopes
In the automotive industry, electronics have been revolutionized by
the integration of gyroscopes. These sophisticated devices are
critical in advanced vehicle safety systems, providing essential
data for electronic stability control (ESC) systems. Through
real-time monitoring, gyroscopes contribute to the correction of
vehicle skid, thereby vastly improving driver safety.
Aircraft Guidance and the Dependence on Gyros
Aircraft guidance and control systems rely heavily on gyroscopic
technology. Gyroscopes provide pilots with reliable instruments
that ensure accurate navigation and control of the aircraft. The
precision offered by these instruments is crucial, especially
during instances when visual cues are limited, such as in poor
weather conditions or during flights at night.
Stabilizing Platforms with Gyroscopic Precision
Platform stabilization is yet another sophisticated application of
gyroscopic systems. This technology is implemented in various
platforms, such as ships and high-precision survey equipment, to
counteract the effects of motion. By mitigating the movements,
gyroscopes help maintain a stable platform, ensuring data accuracy
and operational efficiency.
Robot and Antenna Stabilization with Gyroscopes
In robotics and communications, gyroscopes are instrumental in
maintaining stability. For robots, gyroscopes contribute to balance
and precision in movement, which is essential in complex tasks.
Similarly, antenna stabilization relies on gyroscopic technology to
maintain the alignment of communication antennas, especially in
mobile environments or in conditions where external forces, like
wind, are a factor.
Advancements in Camera Technology with Gyroscopes
Lastly, camera technology, including digital cameras, has seen
considerable advancements with the aid of gyroscopes. In
particular, camera gimbals equipped with gyroscopes provide image
stabilization capabilities, making it possible to capture
high-quality images and videos despite movement or shaking. This is
especially valuable in the ever-evolving field of photography and
videography.
Conclusion on the Versatility of Gyroscopes
Gyroscopic systems are versatile and integral components in various
technological applications. Their ability to provide stability and
precision underpins many of the modern conveniences and safety
features we rely on. As technology continues to develop, the
potential uses for gyroscopes are likely to expand, further
embedding them into the fabric of technological innovation.
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
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.
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