Xi'an Kacise Optronics Co.,Ltd.
Kacise, understanding your automation needs.
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The inertial angle rate sensor employs the optical Sagnac effect to gauge the rotational angular velocity along its sensitivity axis. It is meticulously designed to monitor the angular motion of the carrier it is attached to. The heart of this technology lies in the precise detection of rotational movements which are made possible through the advanced optical Sagnac effect.
The core mechanism involves a digital closed-loop detection circuit. This sophisticated circuitry is responsible for discerning the discrepancies in the optical path length of light as it travels in a clockwise direction. This discrepancy is inherently linked to the angular velocity imparted by the external environment. Once identified, these variations are then meticulously modulated and demodulated into a voltage signal. The seamless closed-loop feedback and control system that is integrated into the sensor acts to fine-tune the detection, enabling a real-time capture of angular velocity signals.
Divided into two distinct operational units, the sensor comprises an optical angular velocity sensitive unit and a signal detection module. Together, they offer vital uniaxial angle increment data along with essential internal temperature readings. Such comprehensive feedback ensures accuracy and reliability in various applications requiring precise angular rate measurements.
| Sn# | Test item | H | L |
| 1 | Dimensions (mm) | 50×50×36 | 50×50×36 |
| 2 | Start time (s) | 5 | 5 |
| 3 | Bias drift (°/h) (10s smooth, fix temperature) | ≤0.1 | ≤0.3 |
| 4 | Bias drift (°/h) (10s smooth -45~+70℃) | ≤0.3 | ≤0.5 |
| 5 | Bias repeatability (°/h) | ≤0.05 | ≤0.1 |
| 6 | Random walk coefficient(°/h1/2) | ≤0.01 | ≤0.02 |
| 7 | Scale factor non-linearity (ppm) | ≤10 | ≤20 |
| 8 | Scale factor repeatability (ppm) | ≤10 | ≤20 |
| 9 | Operate temperature (℃) | -45~+70 | -45~+70 |
| 10 | Storage temperature (℃) | -50~+80 | -50~+80 |
| 11 | Dynamic range (°/s) | ±900 | ±900 |
| 12 | Supply voltage (V) | +5 | +5 |
| 13 | Steady-state power consumption (full temperature) (W) | <4 | <4 |
| 14 | Weight (g) | <130 | <130 |
Dimensions
The range of products offered primarily caters to the photoelectric crane industry. These high-quality products play a pivotal role in ensuring the effective operation of these advanced lifting devices. Clients in this sector can expect reliable performance and enhanced operational efficiency.
In addition to serving the needs of crane operations, our products are also well-suited for use in flying platforms. Their robust design enables them to withstand the dynamic conditions associated with such applications, providing a solid foundation for various aerial tasks.
Our offerings are equally adept at enhancing inertial navigation systems. These indispensable tools in the field of navigation benefit from the precision and durability of our products, ensuring accurate measurements and consistent functionality throughout their use.
Furthermore, the products find substantial use in inertial measurement systems. With their precise nature, they contribute significantly to the measurement accuracy required in these systems. They also serve optical and photographic instruments, providing the stability and accuracy crucial for capturing high-quality images or data.
Last but not least, these products are a perfect fit for platform stabilization devices and inertial measurement instruments. The stability provided is essential for a wide range of applications that demand precise orientation and positioning.
The Electronic Gyroscope Sensor is designed to provide precise rotational rate measurement with high reliability and stability. Technical support for this product includes assistance with product installation, troubleshooting, and general operational guidance. Our dedicated team of experts is committed to ensuring that you can fully leverage the capabilities of your gyroscope sensor.
If you encounter any issues with your Electronic Gyroscope Sensor, our technical support services are here to help. We offer comprehensive guidance to resolve any technical problems you may face, including sensor calibration, interpretation of output signals, and integration with other electronic systems. Our goal is to help you maintain optimal performance and extend the lifespan of your product.
To enhance your experience with the Electronic Gyroscope Sensor, we provide a range of services, technical documentation, and application notes. These resources are designed to keep your sensor up-to-date and to facilitate a deeper understanding of its functionalities and applications in various contexts.
Please refer to our online knowledge base for frequently asked questions, setup guides, and best practices for using your Electronic Gyroscope Sensor. Our technical support team is committed to providing you with the highest level of service to ensure your satisfaction and success with our product.
The Electronic Gyroscope Sensor is meticulously packed in an anti-static bag to ensure protection against static electricity, which could damage the sensitive components. The bag is then cushioned within a sturdy, custom-fit cardboard box designed to minimize movement during transportation, thus reducing the risk of impact-related damage. Clear labeling on the outside of the box indicates the package contains fragile electronic components, further ensuring careful handling.
For shipping, the boxed Electronic Gyroscope Sensor is placed inside a larger, durable shipping container with additional padding materials to fill any voids, preventing the contents from shifting in transit. This container is sealed with heavy-duty packing tape and prominently labeled with the shipping address and necessary handling instructions. Tracking information is provided upon dispatch, allowing for real-time monitoring of the shipment until it reaches its destination.