long shunt

简明释义

长分流器

英英释义

例句

1.The technician installed a long shunt to improve the performance of the electrical system.

技术员安装了一个长分流器以提高电气系统的性能。

2.In our experiment, we found that using a long shunt reduced the overall resistance significantly.

在我们的实验中，我们发现使用一个长分流器显著降低了整体电阻。

3.To measure the current accurately, we had to incorporate a long shunt in the setup.

为了准确测量电流，我们必须在设置中加入一个长分流器。

4.The engineer explained that the circuit required a long shunt to ensure proper voltage distribution.

工程师解释说，该电路需要一个长分流器以确保适当的电压分配。

5.The long shunt was necessary to connect the two distant components effectively.

这个长分流器是有效连接两个远程组件所必需的。

作文

In the field of electrical engineering, the term long shunt refers to a specific type of circuit configuration that allows for the diversion of electrical current. This concept is particularly important in understanding how circuits function, especially in complex systems where multiple pathways for current flow exist. A long shunt can be used to bypass certain components or sections of a circuit, ensuring that the overall system remains operational even if one part fails. To illustrate the significance of a long shunt, consider the example of a power distribution network. In such networks, it is crucial to maintain a continuous supply of electricity to consumers. If a fault occurs in one section of the network, a long shunt can be employed to reroute the flow of electricity around the faulty area. This not only prevents outages but also enhances the reliability of the entire system. Moreover, the use of a long shunt can help in managing the load on different components of a circuit. By diverting excess current through a long shunt, engineers can prevent overheating and potential damage to sensitive equipment. This aspect is particularly relevant in high-power applications, where the risk of failure is significantly higher. In addition to its practical applications, the concept of a long shunt also has theoretical implications. Understanding how current behaves in the presence of a long shunt can provide insights into circuit design and optimization. Engineers often utilize mathematical models to predict how changes in a circuit, including the introduction of a long shunt, will affect overall performance. Furthermore, the study of long shunts extends beyond electrical engineering into other fields such as telecommunications and signal processing. For instance, in data transmission systems, a long shunt may be used to manage signal integrity and minimize interference. By strategically placing a long shunt in a communication line, engineers can ensure that signals remain clear and undistorted over long distances. In conclusion, the term long shunt encompasses a wide range of applications and implications within electrical engineering and related fields. Its ability to redirect current flow and enhance system reliability makes it an essential concept for engineers and technicians alike. As technology continues to advance, the role of long shunts will undoubtedly evolve, leading to new innovations and improvements in circuit design and functionality.

在电气工程领域，术语长旁路指的是一种特定类型的电路配置，它允许电流的分流。这个概念在理解电路如何运作时尤为重要，尤其是在存在多个电流流动路径的复杂系统中。长旁路可以用来绕过电路的某些组件或部分，确保即使某一部分发生故障，整个系统仍然能够正常运行。为了说明长旁路的重要性，我们考虑一个电力分配网络的例子。在这样的网络中，保持对消费者的持续电力供应至关重要。如果网络的某个部分发生故障，可以使用长旁路将电流重新引导绕过故障区域。这不仅可以防止停电，还增强了整个系统的可靠性。此外，使用长旁路还可以帮助管理电路中不同组件的负载。通过将多余的电流分流通过长旁路，工程师可以防止过热和潜在的敏感设备损坏。这一点在高功率应用中尤为相关，因为故障风险显著增加。除了其实际应用外，长旁路的概念还具有理论意义。了解在存在长旁路的情况下电流的行为可以为电路设计和优化提供见解。工程师通常利用数学模型来预测电路中的变化，包括引入长旁路，将如何影响整体性能。此外，长旁路的研究还超越了电气工程，延伸到电信和信号处理等其他领域。例如，在数据传输系统中，可能会使用长旁路来管理信号完整性并最小化干扰。通过在通信线路中战略性地放置长旁路，工程师可以确保信号在长距离传输中保持清晰无失真。总之，术语长旁路涵盖了电气工程及相关领域内的一系列应用和含义。它重定向电流流动和增强系统可靠性的能力，使其成为工程师和技术人员必不可少的概念。随着技术的不断进步，长旁路的作用无疑会演变，导致电路设计和功能的新创新和改进。