inter-electrode leakage

简明释义

极间泄漏

英英释义

例句

1.To avoid inter-electrode leakage, proper insulation materials must be used.

为了避免电极间漏电流，必须使用合适的绝缘材料。

2.The technician measured the inter-electrode leakage to ensure the device was functioning properly.

技术人员测量了电极间漏电流以确保设备正常工作。

3.High levels of inter-electrode leakage can lead to decreased performance in electronic circuits.

高水平的电极间漏电流可能导致电子电路性能下降。

4.Reducing inter-electrode leakage is crucial for improving battery efficiency.

减少电极间漏电流对提高电池效率至关重要。

5.The engineer conducted tests to identify sources of inter-electrode leakage in the system.

工程师进行了测试，以识别系统中电极间漏电流的来源。

作文

In the field of electronics, understanding the various types of leakage is crucial for the design and functionality of devices. One specific type of leakage that engineers must be aware of is inter-electrode leakage. This term refers to the unintended flow of current between two electrodes that are supposed to be isolated from each other. Such leakage can occur in capacitors, batteries, and various electronic components, leading to a decrease in performance and efficiency. inter-electrode leakage (电极间漏电) can cause significant issues in circuits by introducing noise and reducing the overall reliability of the device. When designing electronic circuits, it is essential to minimize inter-electrode leakage. Engineers achieve this by using high-quality insulating materials and ensuring proper spacing between electrodes. The choice of materials plays a vital role in preventing leakage; for instance, materials with high dielectric strength can significantly reduce the chances of current flowing between electrodes. Moreover, temperature and humidity also affect inter-electrode leakage. As the temperature rises, the resistance of insulating materials can decrease, which may lead to increased leakage currents. Similarly, high humidity can create conductive paths on surfaces, further exacerbating the problem. Therefore, environmental conditions must be considered during the design phase to ensure that inter-electrode leakage remains within acceptable limits. Testing for inter-electrode leakage is another critical aspect of quality control in manufacturing. Various methods, such as insulation resistance testing, can help identify potential leakage paths before the products are released into the market. By detecting and addressing these issues early on, manufacturers can prevent costly recalls and enhance customer satisfaction. In conclusion, inter-electrode leakage (电极间漏电) is a significant concern in the electronics industry. It affects the performance, reliability, and longevity of electronic devices. By understanding its causes and implementing effective design strategies, engineers can mitigate its impact and ensure that electronic devices function optimally. As technology continues to evolve, the importance of addressing inter-electrode leakage will only grow, making it a critical area of focus for future innovations in electronics.

在电子领域，理解各种类型的漏电对于设备的设计和功能至关重要。工程师必须了解的一种特定类型的漏电是电极间漏电。这个术语指的是两个本应相互隔离的电极之间意外的电流流动。这种漏电可能发生在电容器、电池和各种电子元件中，导致性能和效率下降。电极间漏电（inter-electrode leakage）可能在电路中引起显著问题，通过引入噪声并降低设备的整体可靠性。在设计电子电路时，必须尽量减少电极间漏电。工程师通过使用高质量的绝缘材料和确保电极之间的适当间距来实现这一点。材料的选择在防止漏电方面起着至关重要的作用；例如，具有高介电强度的材料可以显著减少电极之间电流流动的机会。此外，温度和湿度也会影响电极间漏电。随着温度的升高，绝缘材料的电阻可能会降低，这可能导致漏电流增加。同样，高湿度可能在表面上形成导电路径，进一步加剧了问题。因此，在设计阶段必须考虑环境条件，以确保电极间漏电保持在可接受的范围内。检测电极间漏电是制造过程中的另一个关键质量控制环节。各种方法，如绝缘电阻测试，可以帮助在产品投放市场之前识别潜在的漏电路径。通过及早发现和解决这些问题，制造商可以防止昂贵的召回，并提高客户满意度。总之，电极间漏电（inter-electrode leakage）在电子行业中是一个重要的问题。它影响电子设备的性能、可靠性和寿命。通过理解其原因并实施有效的设计策略，工程师可以减轻其影响，确保电子设备的最佳功能。随着技术的不断发展，解决电极间漏电的重要性只会增加，使其成为未来电子创新的关键关注领域。