synchro differential transmitter

简明释义

差动式自动同步发送器

英英释义

例句

1.During the calibration process, we tested the synchro differential transmitter to ensure it met the required specifications.

在校准过程中，我们测试了同步差动发射器以确保其符合所需规格。

2.In our flight simulator, the synchro differential transmitter plays a crucial role in simulating aircraft movements.

在我们的飞行模拟器中，同步差动发射器在模拟飞机运动中起着至关重要的作用。

3.The synchro differential transmitter is essential for maintaining the stability of the control system in industrial applications.

在工业应用中，同步差动发射器对于维持控制系统的稳定性至关重要。

4.The robotics team implemented a synchro differential transmitter to enhance the precision of their robotic arm.

机器人团队实施了同步差动发射器以提高他们机器人手臂的精确度。

5.The engineer adjusted the settings on the synchro differential transmitter to ensure accurate position feedback.

工程师调整了同步差动发射器的设置，以确保位置反馈的准确性。

作文

In the realm of engineering and electronics, understanding various components is crucial for developing efficient systems. One such component that plays a significant role in control systems is the synchro differential transmitter. This device is primarily used to transmit angular position information from one point to another, making it indispensable in applications involving remote sensing and control. The synchro differential transmitter operates on the principle of synchro technology, which utilizes electromagnetic principles to convert mechanical motion into electrical signals. The basic function of the synchro differential transmitter is to compare the angles of two shafts and produce an output signal that represents the difference between these angles. This capability is particularly useful in navigation systems, where precise angle measurements are essential. For example, in aircraft control systems, the synchro differential transmitter can relay the position of the control surfaces back to the pilot or automated systems, ensuring accurate maneuvering based on real-time data.One of the key advantages of using a synchro differential transmitter is its robustness and reliability. Unlike traditional potentiometers or other sensors that may wear out over time, synchros are known for their durability and ability to function accurately under harsh conditions. This makes them suitable for military applications, aerospace engineering, and industrial machinery where precision is paramount.Additionally, the synchro differential transmitter features a simple yet effective design. It typically consists of a rotor and stator assembly, where the rotor is connected to the input shaft and the stator is connected to the output. As the rotor turns, it induces a magnetic field in the stator, generating an output voltage proportional to the angle of rotation. This output can then be transmitted to other devices for further processing or display.Moreover, the integration of synchro differential transmitters with modern digital systems has led to enhanced capabilities. With the advent of digital signal processing, the outputs from these transmitters can be converted into digital signals for use in more complex control algorithms. This synergy between analog and digital technologies has opened new avenues for innovation in various fields, including robotics and automation.In conclusion, the synchro differential transmitter is a vital component in many engineering applications, providing accurate and reliable angular position information. Its unique operating principles, combined with its robustness and adaptability to modern technologies, make it an essential tool in the design of complex control systems. As industries continue to evolve and demand higher precision, the significance of the synchro differential transmitter will undoubtedly grow, solidifying its place in the future of engineering and technology.

在工程和电子学领域，理解各种组件对于开发高效的系统至关重要。其中一个在控制系统中发挥重要作用的组件是同步差动发射器。该设备主要用于将角位置信息从一个点传输到另一个点，使其在涉及远程传感和控制的应用中不可或缺。同步差动发射器的工作原理基于同步技术，该技术利用电磁原理将机械运动转换为电信号。同步差动发射器的基本功能是比较两个轴的角度，并产生代表这些角度之间差异的输出信号。这种能力在导航系统中尤为有用，因为精确的角度测量至关重要。例如，在飞机控制系统中，同步差动发射器可以将控制表面的位置信息反馈给飞行员或自动系统，从而确保基于实时数据的准确操作。使用同步差动发射器的一个关键优势是其坚固性和可靠性。与传统的电位器或其他可能随着时间磨损的传感器不同，同步器以其耐用性和在恶劣条件下准确运行的能力而著称。这使得它们适用于军事应用、航空航天工程和工业机械等对精度要求极高的领域。此外，同步差动发射器具有简单而有效的设计。它通常由转子和定子组件组成，其中转子连接到输入轴，定子连接到输出轴。当转子旋转时，它会在定子中诱导出一个磁场，生成与旋转角度成比例的输出电压。然后，可以将此输出传输到其他设备进行进一步处理或显示。此外，同步差动发射器与现代数字系统的集成已导致能力的增强。随着数字信号处理技术的出现，这些发射器的输出可以转换为数字信号，以用于更复杂的控制算法。这种模拟和数字技术之间的协同作用为各个领域的创新开辟了新的途径，包括机器人技术和自动化。总之，同步差动发射器是许多工程应用中的重要组件，提供准确可靠的角位置信息。其独特的操作原理，加上其坚固性和对现代技术的适应能力，使其成为复杂控制系统设计中的基本工具。随着各行业的不断发展，对更高精度的需求，同步差动发射器的重要性无疑会增长，从而巩固其在工程和技术未来中的地位。