zero voltage

简明释义

零压

英英释义

例句

1.When measuring the battery, we found it had zero voltage 零电压, indicating it was completely dead.

在测量电池时，我们发现它的电压为零电压 zero voltage，这表明它完全没电。

2.After disconnecting the device, we measured zero voltage 零电压 across all terminals.

在断开设备后，我们测量了所有端子上的零电压 zero voltage。

3.The technician confirmed that the circuit was at zero voltage 零电压 before starting the repair.

技术人员确认在开始维修之前电路处于零电压 zero voltage。

4.To ensure safety, always check for zero voltage 零电压 before working on electrical systems.

为了确保安全，在对电气系统进行操作之前，务必检查是否为零电压 zero voltage。

5.The alarm system will trigger if it detects zero voltage 零电压 in the power supply line.

如果警报系统检测到电源线路中的零电压 zero voltage，将会触发警报。

作文

In the field of electrical engineering, the term zero voltage refers to a state where there is no electrical potential difference between two points in a circuit. This condition can be achieved under various circumstances and has significant implications for both safety and functionality in electrical systems. Understanding zero voltage is crucial for engineers and technicians who work with electrical devices and circuits.One of the most common scenarios where zero voltage occurs is during the testing of electrical equipment. When a device is powered down or disconnected from its power source, it may reach a state of zero voltage. In this state, it is safe for technicians to handle the equipment without the risk of electric shock. This is particularly important in high-voltage environments, where even a small amount of residual voltage can pose serious dangers.Moreover, zero voltage is an essential concept in troubleshooting electrical issues. When diagnosing problems in a circuit, technicians often measure voltage levels at different points. If they find that a particular point has zero voltage, it indicates that there is no current flowing through that part of the circuit. This information helps narrow down the potential causes of the malfunction, allowing for more efficient repairs.In addition to safety and troubleshooting, zero voltage plays a critical role in the design of electrical systems. Engineers must consider how their designs will behave under conditions of zero voltage, especially in systems that rely on feedback mechanisms. For example, in control systems, achieving zero voltage can be necessary for resetting or initializing components. It ensures that the system starts from a known state, which is vital for reliable operation.Furthermore, zero voltage can also refer to specific applications in renewable energy technologies. In solar power systems, for instance, when panels are not producing energy (such as during nighttime), the output voltage can drop to zero voltage. Understanding this behavior is essential for designing efficient energy storage solutions, such as batteries, that can store energy when available and provide it when needed.In summary, the concept of zero voltage is integral to various aspects of electrical engineering. It emphasizes safety during maintenance, aids in troubleshooting circuits, influences design considerations, and is relevant in modern energy systems. As technology continues to evolve, the understanding and application of zero voltage will remain a fundamental aspect of electrical engineering education and practice. By grasping the significance of zero voltage, professionals can ensure safer and more efficient electrical systems, ultimately contributing to advancements in technology and energy management.In conclusion, zero voltage is not just a technical term; it embodies the principles of safety, efficiency, and innovation in electrical engineering. As we move forward in a world increasingly reliant on electrical systems, the importance of understanding zero voltage cannot be overstated.

在电气工程领域，术语零电压指的是电路中两个点之间没有电势差的状态。这种状态可以在各种情况下实现，并对电气系统的安全性和功能性产生重要影响。理解零电压对从事电气设备和电路工作的工程师和技术人员至关重要。零电压发生的最常见场景之一是在测试电气设备时。当设备断电或与电源断开连接时，它可能会达到零电压状态。在这种状态下，技术人员可以安全地处理设备，而无需担心触电的风险。这在高电压环境中特别重要，因为即使是少量的残余电压也可能带来严重的危险。此外，零电压在排除电气故障时也是一个重要概念。在诊断电路中的问题时，技术人员通常会测量不同点的电压水平。如果他们发现某个特定点的电压为零电压，则表明该部分电路没有电流流动。这一信息有助于缩小故障的潜在原因，从而更有效地进行维修。除了安全性和故障排除之外，零电压在电气系统设计中也发挥着关键作用。工程师必须考虑他们的设计在零电压条件下的行为，特别是在依赖反馈机制的系统中。例如，在控制系统中，实现零电压可能是重置或初始化组件所必需的。它确保系统从已知状态开始，这对可靠操作至关重要。此外，零电压在可再生能源技术中的特定应用也很重要。在太阳能发电系统中，例如，当面板不产生能量（如夜间）时，输出电压可能降至零电压。理解这种行为对设计高效的能源存储解决方案（例如电池）至关重要，电池可以在有电时存储能量，并在需要时提供能量。总之，零电压的概念是电气工程各个方面不可或缺的一部分。它强调了维护过程中的安全性，有助于电路故障排除，影响设计考虑，并在现代能源系统中相关。随着技术的不断发展，对零电压的理解和应用将继续成为电气工程教育和实践的基本方面。通过掌握零电压的重要性，专业人士可以确保电气系统的安全性和效率，从而最终促进技术和能源管理的进步。总之，零电压不仅仅是一个技术术语；它体现了电气工程中安全、效率和创新的原则。随着我们在一个日益依赖电气系统的世界中前行，理解零电压的重要性是不可低估的。