auxiliary potential transformer

简明释义

辅助电压互感器;

英英释义

例句

1.During the maintenance check, we discovered that the auxiliary potential transformer 辅助电压变压器 was not functioning properly.

在维护检查中，我们发现辅助电压变压器工作不正常。

2.We installed a new auxiliary potential transformer 辅助电压变压器 to improve the reliability of our electrical grid.

我们安装了一台新的辅助电压变压器以提高电网的可靠性。

3.The power outage was traced back to a malfunctioning auxiliary potential transformer 辅助电压变压器 in the distribution system.

停电的原因追溯到配电系统中的一台故障辅助电压变压器。

4.The technician replaced the faulty auxiliary potential transformer 辅助电压变压器 to ensure accurate voltage readings.

技术人员更换了故障的辅助电压变压器以确保电压读数的准确性。

5.The auxiliary potential transformer 辅助电压变压器 is essential for monitoring system performance in high-voltage applications.

在高压应用中，辅助电压变压器对于监测系统性能至关重要。

作文

In the realm of electrical engineering, the term auxiliary potential transformer is often encountered, especially in the context of power systems and instrumentation. Understanding this term is crucial for anyone involved in the design, implementation, or maintenance of electrical systems. An auxiliary potential transformer (APT) serves a pivotal role in ensuring that voltage levels are appropriately transformed for measurement and control purposes. These transformers are typically used to step down high voltages to safer levels that can be easily managed by measuring instruments. The primary function of an auxiliary potential transformer is to provide accurate voltage readings from high-voltage lines without exposing sensitive equipment to dangerous levels of electricity. For instance, in a power substation, the APT takes the high voltage from the transmission lines and reduces it to a lower voltage that can be safely monitored by voltmeters and other devices. This is essential not only for safety but also for the reliability of the electrical system. Moreover, auxiliary potential transformers are integral to protective relay systems. These relays are designed to detect abnormalities in the electrical system, such as overcurrent or voltage spikes, and to trigger protective measures. By providing precise voltage readings, APTs enable these relays to operate effectively, thereby preventing potential damage to equipment and ensuring the stability of the power supply. In addition to their protective functions, auxiliary potential transformers also play a significant role in metering applications. Accurate billing and consumption analysis rely heavily on the data provided by these transformers. Utilities use APTs to ensure that the energy consumed by residential and commercial customers is measured correctly, which is vital for revenue generation and customer satisfaction. The installation and maintenance of auxiliary potential transformers require skilled professionals who understand the complexities of electrical systems. It is important to ensure that these transformers are installed correctly to avoid any discrepancies in voltage readings. Regular maintenance checks are also necessary to ensure that the transformers are functioning optimally and to prevent any potential failures that could disrupt service. Furthermore, advancements in technology have led to the development of smart auxiliary potential transformers that incorporate digital monitoring capabilities. These modern transformers can communicate data in real-time, allowing for more efficient management of electrical systems. This innovation not only enhances operational efficiency but also provides valuable insights into the performance of the electrical grid, aiding in future planning and development. In conclusion, the auxiliary potential transformer is a fundamental component in the electrical engineering field. Its ability to transform high voltages into manageable levels for measurement and protection makes it indispensable in modern power systems. As technology continues to evolve, the role of APTs will likely expand, further enhancing the safety and reliability of electrical infrastructure. Understanding the function and importance of auxiliary potential transformers is essential for anyone looking to make a meaningful contribution to the field of electrical engineering.

辅助电压变压器是电气工程领域中常见的术语，尤其是在电力系统和仪表的背景下。理解这个术语对于任何参与电气系统设计、实施或维护的人来说至关重要。辅助电压变压器（APT）在确保电压水平适当地转换以进行测量和控制方面发挥着关键作用。这些变压器通常用于将高电压降低到安全水平，以便测量仪器可以轻松处理。辅助电压变压器的主要功能是提供来自高压线路的准确电压读数，而不使敏感设备暴露于危险电压水平。例如，在一个电力变电站中，APT从输电线路获取高电压并将其降低到可以安全监控的较低电压。这不仅对安全至关重要，而且对电气系统的可靠性也至关重要。此外，辅助电压变压器是保护继电器系统的重要组成部分。这些继电器旨在检测电气系统中的异常情况，例如过电流或电压尖峰，并触发保护措施。通过提供精确的电压读数，APT使这些继电器能够有效运行，从而防止设备潜在的损坏并确保电力供应的稳定性。除了保护功能外，辅助电压变压器在计量应用中也发挥着重要作用。准确的计费和消费分析在很大程度上依赖于这些变压器提供的数据。公用事业公司使用APT来确保住宅和商业客户消耗的能源被正确测量，这对收入生成和客户满意度至关重要。辅助电压变压器的安装和维护需要熟练的专业人员，他们了解电气系统的复杂性。确保这些变压器正确安装以避免电压读数的任何差异非常重要。定期维护检查也是必要的，以确保变压器正常运行，并防止任何潜在的故障可能导致服务中断。此外，技术的进步导致开发出具有数字监控能力的智能辅助电压变压器。这些现代变压器可以实时传输数据，从而实现对电气系统的更高效管理。这一创新不仅提高了操作效率，还提供了有关电网性能的宝贵见解，有助于未来的规划和发展。总之，辅助电压变压器是电气工程领域的基本组成部分。它将高电压转化为可管理的测量和保护水平的能力使其在现代电力系统中不可或缺。随着技术的不断发展，APT的角色可能会进一步扩展，进一步增强电气基础设施的安全性和可靠性。理解辅助电压变压器的功能和重要性对于任何希望在电气工程领域做出有意义贡献的人来说都是必不可少的。