synchronism deviation

简明释义

同步偏差

英英释义

例句

1.After recalibrating the sensors, we observed a reduction in synchronism deviation.

重新校准传感器后，我们观察到同步偏差有所减少。

2.Monitoring synchronism deviation is crucial for maintaining optimal efficiency in production lines.

监测同步偏差对于维持生产线的最佳效率至关重要。

3.The engineer noticed a significant synchronism deviation in the motor's performance during the test.

工程师在测试中注意到电机性能存在显著的同步偏差。

4.To ensure proper functioning, we need to minimize the synchronism deviation in our system.

为了确保正常运作，我们需要尽量减少系统中的同步偏差。

5.The synchronism deviation could lead to increased wear and tear on the machinery.

这个同步偏差可能导致机器的磨损加剧。

作文

In the realm of engineering and technology, the concept of synchronism deviation plays a crucial role in ensuring the smooth operation of various systems. This term refers to the difference in timing between two or more processes that are expected to occur simultaneously. When we talk about synchronism deviation (同步偏差), we are essentially discussing how well different components of a system are aligned in terms of their operational timing. For instance, in a power grid, generators must operate in synchronism to maintain stability. If there is a synchronism deviation, it can lead to inefficiencies, increased wear on equipment, and even catastrophic failures in extreme cases.Understanding synchronism deviation is essential for engineers who design and maintain complex systems. In many applications, particularly in telecommunications, manufacturing, and energy production, precise timing is vital. A small deviation can result in significant problems, such as data loss in communication systems or product defects in manufacturing processes. Therefore, monitoring and controlling synchronism deviation is critical to achieving optimal performance and reliability.One common example of synchronism deviation can be found in the operation of synchronous motors. These motors are designed to run at a constant speed, which is determined by the frequency of the supply current. If the motor experiences a synchronism deviation, it may not operate at the intended speed, leading to reduced efficiency and potential damage. Engineers often use feedback control systems to minimize synchronism deviation in such applications, ensuring that the motor stays in sync with the power supply.Another area where synchronism deviation is critical is in digital communications. In these systems, data is transmitted in packets that need to be synchronized between the sender and receiver. Any synchronism deviation can result in data corruption or loss, making it imperative for communication protocols to include mechanisms for error detection and correction. By maintaining tight control over timing, engineers can mitigate the effects of synchronism deviation and ensure reliable data transmission.In conclusion, the concept of synchronism deviation (同步偏差) is fundamental in various fields of engineering and technology. It highlights the importance of timing in the operation of complex systems and underscores the need for careful design and monitoring to prevent issues that can arise from timing discrepancies. As technology continues to advance, the ability to manage synchronism deviation will remain a key factor in achieving efficiency, reliability, and safety in engineering applications. Understanding and addressing synchronism deviation will enable engineers to build better systems that meet the increasing demands of modern society.

在工程和技术领域，synchronism deviation（同步偏差）的概念在确保各种系统的顺利运行中发挥着至关重要的作用。这个术语指的是两个或多个预计同时发生的过程之间的时间差。当我们谈论synchronism deviation时，实际上是在讨论一个系统的不同组件在操作时序上的对齐程度。例如，在电力网中，发电机必须同步运行以维持稳定。如果存在synchronism deviation，可能会导致效率低下、设备磨损加剧，甚至在极端情况下导致灾难性故障。理解synchronism deviation对设计和维护复杂系统的工程师至关重要。在许多应用中，特别是在电信、制造和能源生产中，精确的时序是至关重要的。即使是微小的偏差也可能导致重大问题，例如通信系统中的数据丢失或制造过程中的产品缺陷。因此，监测和控制synchronism deviation对实现最佳性能和可靠性至关重要。一个常见的synchronism deviation示例可以在同步电动机的操作中找到。这些电动机设计为以恒定速度运行，该速度由供电电流的频率决定。如果电动机经历了synchronism deviation，它可能无法以预期的速度运行，从而导致效率降低和潜在损坏。工程师通常使用反馈控制系统来最小化此类应用中的synchronism deviation，确保电动机与电源保持同步。另一个synchronism deviation至关重要的领域是数字通信。在这些系统中，数据以数据包的形式传输，这些数据包需要在发送者和接收者之间同步。任何synchronism deviation都可能导致数据损坏或丢失，因此通信协议必须包含错误检测和修正机制。通过保持对时序的严格控制，工程师可以减轻synchronism deviation的影响，确保可靠的数据传输。总之，synchronism deviation（同步偏差）的概念在各个工程和技术领域都是基础。它强调了时序在复杂系统操作中的重要性，并强调了为了防止由于时序差异而产生的问题而进行仔细设计和监控的必要性。随着技术的不断进步，管理synchronism deviation的能力将继续成为实现工程应用效率、可靠性和安全性的关键因素。理解和解决synchronism deviation将使工程师能够构建更好的系统，以满足现代社会日益增长的需求。