Intelligent pressure sensors are designed to offer advanced functionality by integrating microprocessor-based software control. These systems allow for precise data fitting through algorithmic processing, enabling the sensor to transition from a single-function device to a multi-functional one. This level of intelligence enhances accuracy, adaptability, and overall performance.
A key feature of intelligent pressure sensors is their ability to support man-machine dialogue. By connecting with computers, instruments, or other devices, they facilitate interaction between operators and the system, reducing errors in operation and readings. They can be equipped with various display units and input keyboards, offering flexible and user-friendly human-machine interfaces.
These sensors also have robust data processing capabilities. They can measure multiple parameters, perform calculations to generate accurate output results, and automatically adjust zero points, balance, and compensate for environmental factors. This ensures consistent and reliable measurements under different conditions.
The interface function allows the sensor to transmit data remotely using standard communication protocols such as RS485, CAN bus, and MODBUS. Additionally, it can convert digital signals into analog voltages or current outputs, meeting specific customer requirements and ensuring compatibility with various systems.
Software configuration is another important aspect. Users can develop custom GUIs on the host computer to better communicate with the lower-level system, enabling real-time data exchange and monitoring of the working environment. This improves system integration and usability.
Intelligent pressure sensors also include information storage and memory functions. They can store measurement data and status parameters in RAM and EEPROM, with power-down protection to prevent data loss. This is especially crucial in industrial applications where continuous operation is essential.
Overall, intelligent pressure sensors offer high cost-performance, excellent signal-to-noise ratio, and high resolution. They are flexible, adaptable, and highly accurate, with simple design, easy manufacturing, and low maintenance. Their reliability, stability, and centralized control make them ideal for a wide range of applications in modern automation and monitoring systems.
The armatures can be classified into several categories. Firstly, there are electromagnetic armatures, which operate based on the interaction of magnetic fields. Then, there are mechanical armatures, often used in mechanical systems for transmitting motion. Permanent magnet armatures are another type, relying on the properties of permanent magnets. Hybrid armatures combine different principles for enhanced performance. Additionally, some armatures are designed specifically for high-speed applications, while others are for heavy-duty tasks.
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