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| Place of Origin: | China (Mainland) |
| Brand Name: | Kacise |
| Certification: | certificate of explosion-proof, CE |
| Model Number: | KQ3GY |
| Minimum Order Quantity: | 1pcs |
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| 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 |
| Random Walk: | ≤0.25 | Input Current: | < 50 MA |
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| Scale Factor Nonlinearity: | ≤200 | Cross Coupling: | ≤1 |
| Bias: | ≤0.03 | Bandwidth: | ≥140 |
| Input Voltage: | 5±0.2 Vdc | Measurement Range: | ±100 |
| High Light: | Virtual Reality Quartz MEMS Gyroscope,Input 50 MA Quartz MEMS Gyroscope |
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The KQ3GY gyroscope is built with innovative quartz MEMS technology. This cutting-edge technology allows the gyroscope to sense the angular velocities of multiple axes at the same time. The KQ3GY can be configured to meet customers' specific needs in terms of the number of axes it measures, and it outputs digital information through the serial port.
MEMS technology is a type of micro-device, and it is designed to integrate micro-sensors, micro-actuators, micro-mechanical structures, micro-power and micro-energy functions, signal processing and control circuits, high-performance electronics, interfaces, and communications in a single, independent, intelligent system. This technology is capable of mass-producing MEMS devices, which can be as small as a few millimeters in size, with the internal structure typically measured in microns or even nanometers.
MEMS technology has spawned a range of products, including accelerometers, optical sensors, pressure sensors, gyroscopes, humidity sensors, gas sensors, and integrated MEMS products. Each of these products is designed to meet a specific need, and they all share the same MEMS technology underlying structure.
● Large-scale production
● Short startup time
● Wide operating temperature range
● Low power consumption
● High reliability
● Small size and light weight
● Serial output
| Parameter | KQ3Gy |
| Power Requirements | |
| Input Voltage | 5±0.2 Vdc |
| Input Current | < 50 mA |
| Performance | |
| Measurement range | ±100 |
| Bias | ≤0.03 |
| Bias stability | ≤20 |
| Bias repeatability | ≤20 |
| Scale factor nonlinearity | ≤200 |
| random walk | ≤0.25 |
| Threshold | ≤0.005 |
| Bandwidth | ≥140 |
| Acceleration correlation | ≤0.01 |
| Cross coupling | ≤1 |
| Environments | |
| Working temperature | -40℃~+65℃ |
| Random vibration | 6.06g rms |
Dimensions:
Unit:mm
One essential component of modern aerospace technology is airborne instrument measurement. This involves the use of specialized instruments to collect data on various aspects of a flight, such as airspeed, altitude, and engine performance. With this information, engineers can optimize aircraft design and operation for better efficiency and safety.
Another exciting development in aerospace technology is the use of robots. These machines can be used for a variety of tasks, from assembling aircraft components to performing maintenance and repairs in hard-to-reach places. By using robots, aircraft manufacturers can improve production speed, reduce downtime, and enhance worker safety.
In the field of aircraft testing, automated testing has become increasingly common. This involves the use of computer software to simulate different flight scenarios and evaluate how well the aircraft performs. By automating testing procedures, engineers can identify and correct issues more quickly and efficiently, ultimately leading to safer and more reliable aircraft.
Another critical component of aerospace technology is the attitude reference system. This system uses sensors to determine the aircraft's position and orientation, providing crucial information to the control system. With precise attitude reference data, the control system can make more accurate adjustments to the aircraft's flight path in real-time.
The control system is responsible for managing the aircraft's flight path and ensuring safe and efficient operation. This complex network of hardware and software is designed to work together seamlessly, using data from the attitude reference system and other sources to make real-time adjustments to the aircraft's movement.
Of course, all of these technologies must be thoroughly tested before being deployed in a real-world setting. Flight tests involve putting aircraft through a series of rigorous trials to evaluate their safety, performance, and overall functionality in different scenarios and environments.
Finally, platform stability is essential in aerospace technology. By designing aircraft with a stable platform, engineers can minimize turbulence and other disturbances that can impact flight performance and passenger comfort. This involves careful consideration of aerodynamic principles, as well as the use of specialized materials and construction techniques to provide a high degree of stability and control.
Our Electronic Gyroscope Sensor is designed with precision to provide reliable performance for your applications. Our support includes detailed product documentation, an extensive online knowledge base, and troubleshooting guides to help you resolve any issues you may encounter.
We are committed to the satisfaction of our customers and strive to provide exceptional after-sales support. Should you have any feedback or suggestions, we welcome your input as it helps us to continuously improve our products and services.
Product Packaging:
The Electronic Gyroscope Sensor product will be packaged in a sturdy cardboard box with foam inserts to ensure safe transport. The product will be sealed in a plastic bag to protect it from moisture and dust. The box will be labeled with the product name, brand, and barcode for easy identification.
Shipping:
The product will be shipped via standard ground shipping. We will ensure that the product is shipped within 2 business days after receiving the order. The shipping cost will be calculated based on the weight and destination of the package. Customers will receive a tracking number via email once the product has been shipped.
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.
