differential synchro
简明释义
差动自动同步机
英英释义
例句
1.The differential synchro 差动同步器 is crucial for maintaining stability in naval navigation systems.
在海军导航系统中,differential synchro 差动同步器对于维持稳定性至关重要。
2.The technician replaced the faulty differential synchro 差动同步器 to ensure proper functionality.
技术员更换了故障的differential synchro 差动同步器以确保正常功能。
3.In robotics, a differential synchro 差动同步器 can help achieve precise control of movement.
在机器人技术中,differential synchro 差动同步器可以帮助实现精确的运动控制。
4.We need to calibrate the differential synchro 差动同步器 before the test flight.
我们需要在试飞之前校准differential synchro 差动同步器。
5.The engineer explained how the differential synchro 差动同步器 works in the new aircraft design.
工程师解释了新飞机设计中如何运作的differential synchro 差动同步器。
作文
In the realm of engineering and control systems, the term differential synchro refers to a specialized type of synchro mechanism that is used to transmit angular position information. This technology plays a critical role in various applications, including aviation, robotics, and industrial automation. Understanding how differential synchro operates can illuminate its significance in modern engineering practices.A synchro is an electromechanical device that converts angular position into an electrical signal, which can then be transmitted to other devices for processing. The differential synchro is unique because it can compare two angular positions and provide a differential output. This capability is particularly useful in systems where precise positioning is crucial, such as in the guidance systems of aircraft or missile systems.The operation of a differential synchro involves a rotor and stator configuration. The rotor is connected to the input shaft, which represents the angle being measured, while the stator consists of multiple windings that are energized to produce a magnetic field. When the rotor turns, it induces a voltage in the stator windings, which reflects the angular position of the rotor. By comparing the voltages induced by two different rotors, a differential synchro can determine the difference in their positions.One of the primary advantages of using a differential synchro is its ability to maintain accuracy over long distances. In many applications, signals must be transmitted over considerable lengths of wiring, which can introduce errors due to resistance and interference. However, the differential nature of this device allows it to minimize these errors by focusing on the difference between two signals rather than their absolute values. This feature ensures that the system remains accurate even in less-than-ideal conditions.Moreover, the differential synchro is often preferred in applications that require redundancy and reliability. For instance, in aerospace applications, having multiple sensors measuring the same parameter can provide backup in case one sensor fails. The differential output can help identify discrepancies between the sensors, allowing for corrective actions to be taken promptly.In conclusion, the differential synchro is a vital component in many advanced engineering systems. Its ability to transmit differential angular position information with high accuracy makes it indispensable in fields that demand precision and reliability. As technology continues to advance, the role of differential synchro will likely expand, paving the way for new innovations in automation and control systems. Understanding this technology not only enhances our knowledge of engineering principles but also highlights the importance of precision in modern design and application.
在工程和控制系统领域,术语differential synchro指的是一种专门的同步机制,用于传递角度位置信息。这项技术在航空、机器人和工业自动化等各种应用中发挥着关键作用。理解differential synchro的工作原理可以阐明其在现代工程实践中的重要性。同步器是一种电机械设备,将角位置转换为电信号,然后可以将其传输到其他设备进行处理。differential synchro的独特之处在于它能够比较两个角位置并提供差分输出。这种能力在精确定位至关重要的系统中尤其有用,例如飞机或导弹系统的引导系统。differential synchro的操作涉及转子和定子配置。转子连接到输入轴,表示正在测量的角度,而定子由多个绕组组成,这些绕组被激励以产生磁场。当转子旋转时,它会在定子绕组中感应出电压,反映转子的角位置。通过比较两个不同转子感应的电压,differential synchro可以确定它们位置之间的差异。使用differential synchro的主要优点之一是它能够在长距离内保持准确性。在许多应用中,信号必须通过相当长度的电缆传输,这可能由于电阻和干扰而引入错误。然而,这种设备的差分特性使其能够通过关注两个信号之间的差异而不是它们的绝对值来最小化这些错误。这个特性确保系统即使在不理想条件下也能保持准确性。此外,differential synchro通常在需要冗余和可靠性的应用中更受欢迎。例如,在航空航天应用中,多个传感器测量同一参数可以提供备份,以防其中一个传感器失效。差分输出可以帮助识别传感器之间的差异,从而及时采取纠正措施。总之,differential synchro是许多先进工程系统中的重要组成部分。它以高精度传输差分角位置信息的能力使其在对精度和可靠性要求极高的领域中不可或缺。随着技术的不断进步,differential synchro的作用可能会扩大,为自动化和控制系统的新创新铺平道路。理解这项技术不仅增强了我们对工程原理的认识,还突显了现代设计和应用中精确性的重大意义。
