over commutation=overcommutation

简明释义

过度整流

英英释义

例句

1.Due to over commutation, the train schedules have been disrupted, affecting many commuters.

由于过度换乘，火车时刻表受到干扰，影响了许多通勤者。

2.To improve efficiency, we need to reduce over commutation in our logistics operations.

为了提高效率，我们需要减少物流操作中的过度换乘。

3.The software update was aimed at minimizing over commutation during data transfers.

该软件更新旨在最小化数据传输过程中的过度换乘。

4.The team identified over commutation as a significant issue in their workflow analysis.

团队在工作流程分析中识别到过度换乘是一个重大问题。

5.The recent changes in the policy led to an increase in over commutation, causing delays in processing applications.

最近政策的变化导致了过度换乘的增加，造成申请处理的延迟。

作文

In the realm of electrical engineering and telecommunications, the term over commutation=overcommutation often arises. This concept refers to a situation where the switching or transitioning between different states in a circuit occurs more frequently than necessary, leading to inefficiencies and potential system failures. Understanding over commutation=overcommutation is crucial for engineers who aim to design systems that are both efficient and reliable.To grasp the implications of over commutation=overcommutation, one must first comprehend the basic principles of commutation in electronic circuits. Commutation is the process by which current is redirected in a circuit, allowing for the control of power flow. In an ideal scenario, this process occurs smoothly and at optimal intervals. However, when over commutation=overcommutation takes place, the frequency of these transitions becomes excessive, which can lead to overheating components, increased wear and tear, and ultimately, system failure.For instance, consider a power supply unit that is designed to switch between different voltage levels. If the unit experiences over commutation=overcommutation, it may switch too frequently, causing stress on the internal components. This not only reduces the lifespan of the unit but can also result in power fluctuations that affect connected devices. Therefore, understanding and mitigating over commutation=overcommutation is essential for maintaining the integrity and longevity of electronic systems.Moreover, over commutation=overcommutation can also have broader implications in telecommunications. In data transmission, for example, frequent switching can lead to data loss or corruption. When packets of information are sent over a network, they must be routed efficiently to their destination. If the routing mechanism experiences over commutation=overcommutation, it can cause delays and errors in data delivery. This is particularly critical in applications that require real-time data processing, such as video conferencing or online gaming.To counteract the effects of over commutation=overcommutation, engineers employ various strategies. One common approach is to implement better control algorithms that manage the timing of commutations more effectively. By analyzing the load and optimizing the switching intervals, it is possible to minimize the occurrence of over commutation=overcommutation. Additionally, using high-quality components that can withstand higher frequencies of operation can also help mitigate the risks associated with over commutation=overcommutation.In conclusion, the concept of over commutation=overcommutation is a critical consideration in the fields of electrical engineering and telecommunications. It highlights the importance of maintaining balance in system operations to ensure efficiency and reliability. By understanding the causes and effects of over commutation=overcommutation, engineers can develop more robust systems that perform optimally under varying conditions. As technology continues to advance, the need for efficient commutation processes will only become more significant, making the study of over commutation=overcommutation increasingly relevant. In summary, over commutation=overcommutation (过度换流) 是电气工程和电信领域中一个重要的概念，指的是电路中状态切换发生得过于频繁，导致效率低下和潜在的系统故障。理解和掌握这一概念对于设计高效、可靠的系统至关重要。

在电气工程和电信领域，术语over commutation=overcommutation通常会出现。这个概念指的是在电路中状态之间切换或过渡的频率超过必要的情况，从而导致效率低下和潜在的系统故障。理解over commutation=overcommutation对于旨在设计高效且可靠系统的工程师至关重要。要理解over commutation=overcommutation的影响，首先必须理解电子电路中换流的基本原理。换流是指电流在电路中重新定向的过程，从而控制电力流动。在理想情况下，这一过程会平稳进行，并在最佳间隔内发生。然而，当发生over commutation=overcommutation时，这些过渡的频率变得过高，这可能导致组件过热、磨损加剧，最终导致系统故障。例如，考虑一个设计用于在不同电压水平之间切换的电源单元。如果该单元经历over commutation=overcommutation，它可能会过于频繁地切换，从而对内部组件造成压力。这不仅缩短了单元的使用寿命，还可能导致电源波动，从而影响连接的设备。因此，理解和减轻over commutation=overcommutation对于维护电子系统的完整性和耐用性至关重要。此外，over commutation=overcommutation在电信领域也可能具有更广泛的影响。在数据传输中，例如，频繁切换可能导致数据丢失或损坏。当信息包通过网络发送时，它们必须有效地路由到目的地。如果路由机制经历over commutation=overcommutation，则可能导致数据交付中的延迟和错误。这在需要实时数据处理的应用中尤为关键，例如视频会议或在线游戏。为了抵消over commutation=overcommutation的影响，工程师采用各种策略。一种常见的方法是实施更好的控制算法，以更有效地管理换流的时机。通过分析负载并优化切换间隔，可以尽量减少over commutation=overcommutation的发生。此外，使用能够承受更高操作频率的高质量组件也可以帮助减轻与over commutation=overcommutation相关的风险。总之，over commutation=overcommutation的概念是电气工程和电信领域的重要考虑因素。它强调了在系统操作中保持平衡以确保效率和可靠性的重要性。通过理解over commutation=overcommutation的原因和影响，工程师可以开发出更强大的系统，在不同条件下表现最佳。随着技术的不断进步，对高效换流过程的需求将变得更加重要，使得对over commutation=overcommutation的研究愈发相关。总之，over commutation=overcommutation（过度换流）是电气工程和电信领域中一个重要的概念，指的是电路中状态切换发生得过于频繁，导致效率低下和潜在的系统故障。理解和掌握这一概念对于设计高效、可靠的系统至关重要。