≤0.03 Bias ±100 Measurement Range Quartz MEMS Rate Sensor for Industrial Applications

Product Description:

The KQ3GY gyroscope is an innovative technology developed using quartz MEMS technology. This cutting-edge device is capable of sensing the angular velocities of multiple axes configured according to the customer’s needs. The digital output information is available for users through the serial port.

MEMS or Micro-Electro-Mechanical systems integrate various micro-components such as sensors, actuators, mechanical structures, interfaces, signal processing, and control circuits. With its ability to host all these components, it acts as an independent intelligent system that can be mass-produced. The MEMS system size ranges from a few millimeters to nanometers, and its internal structures are in the order of microns.

Some of the most common products that rely on MEMS technology include MEMS accelerometers, MEMS optical sensors, MEMS pressure sensors, MEMS humidity sensors, MEMS gas sensors, and integration products. These MEMS products offer top-notch solutions to everyday challenges, arising from monitoring, measurement, automation, resource management, and environmental control.

Features:

● Large-scale production

● Short startup time

● Wide operating temperature range

● Low power consumption

● High reliability

● Small size and light weight

● Serial output

Technical Parameters:

Dimensions:

Unit:mm

Applications:

Airborne instrument measurement refers to the process of collecting and recording data about the aircraft's performance and environmental conditions during flight. These instruments can measure various parameters such as temperature, air pressure, wind speed, altitude, and more. The data collected by these instruments is critical for aircraft safety and performance optimization.

A robot is a machine designed to perform tasks automatically or with minimal human intervention. They can be used for a wide range of applications, including industrial automation, household chores, and even space exploration. Robotic technology has advanced significantly in recent years, making robots more versatile, adaptable, and capable of operating in a variety of environments.

Automated testing is a software testing process that uses automation to run tests automatically, rather than manually. This approach allows for faster and more reliable testing, reduces the risk of human error, and provides more accurate results. Automated testing is widely used in software development, particularly for large, complex systems where manual testing would be too time-consuming.

An attitude reference system is a device used to determine the orientation of an aircraft in flight. It typically consists of sensors that measure pitch, roll, and yaw angles, and a computer that processes this data to determine the aircraft's attitude. This information is critical for flight control and navigation, as it allows pilots to accurately adjust the aircraft's position and make precise maneuvers.

A control system is a system that manages and regulates the behavior of other systems or devices. In the context of aircraft, control systems are used to manage the operation and performance of various systems, such as engines, navigation, and flight control. These systems are designed to help pilots operate the aircraft safely, efficiently, and with maximum comfort for passengers.

Flight test is the process of testing an aircraft in flight to validate its performance and safety. These tests are essential to ensure that new aircraft designs comply with regulatory requirements and industry standards. They also provide an opportunity to identify potential issues or safety risks, which can be addressed before the aircraft enters service. Flight testing is typically conducted by highly trained pilots and flight test engineers.

Platform stability refers to the ability of a platform, such as an aircraft, to remain stable and maintain its orientation in various conditions. This is critical for safety and efficiency, as unstable platforms can be difficult to control and can lead to accidents or reduced performance. Design factors such as weight distribution, aerodynamics, and control systems all contribute to platform stability.

Support and Services:

Our Electronic Gyroscope Sensor is designed to provide precise motion sensing in a variety of applications. Our product technical support and services are dedicated to ensuring that you can integrate and use our gyroscope sensor effectively in your projects.

Technical Support:

- Comprehensive online documentation: Access detailed product specifications, integration guides, and troubleshooting articles to assist you with any technical queries regarding our Electronic Gyroscope Sensor.

Services:

- Email support: Reach out to our dedicated support team for personalized assistance with any technical issues you may encounter.

We are committed to providing you with the support you need to utilize our Electronic Gyroscope Sensor to its fullest potential.

Packing and Shipping:

Product Packaging:

The electronic gyroscope sensor product will be packaged in a sturdy cardboard box to ensure safe transportation. The product will be securely placed in the center of the box with ample cushioning material to prevent any damage during shipping. The box will also include a user manual and any necessary cables or accessories.

Shipping:

The product will be shipped through a reliable courier service. The shipping cost will be calculated based on the destination and weight of the package. The estimated delivery time will also be provided to the customer upon placing the order. The package will be insured to cover any damages during transit and a tracking number will be provided to the customer to track the delivery status of their order.