blow out current

简明释义

熔断电流;

英英释义

To blow out current refers to the act of causing an electrical circuit to fail or trip due to excessive current flow, often resulting in a blown fuse or tripped breaker.

blow out current”指的是由于电流过大导致电路故障或跳闸的行为,通常会导致保险丝熔断或断路器跳闸。

例句

1.If the appliances are used simultaneously, it may blow out current and damage the wiring.

如果同时使用多个电器,可能会使电流熔断并损坏电线。

2.She noticed that the lights flickered before they blow out current, indicating an overload.

她注意到灯光在使电流熔断之前闪烁,这表明超载。

3.The technician warned that if we don't manage the load properly, we might accidentally blow out current and cause a power outage.

技术人员警告说,如果我们不妥善管理负载,我们可能会意外地使电流熔断并导致停电。

4.During the experiment, we had to monitor the voltage closely to avoid blow out current in the circuit.

在实验过程中,我们必须密切监控电压,以避免在电路中使电流熔断

5.To prevent the risk of blow out current, it's essential to use a surge protector.

为了防止使电流熔断的风险,使用浪涌保护器是必要的。

作文

In the world of electrical engineering, understanding various terminologies is crucial for both students and professionals. One such term that often comes up is blow out current, which refers to the maximum current that an electrical device can handle before it fails or 'blows out.' This concept is particularly important when designing circuits and selecting components, as exceeding the blow out current can lead to catastrophic failures, including fires or equipment damage.When engineers design electrical systems, they must consider the blow out current to ensure safety and reliability. For instance, circuit breakers are designed to trip when the current exceeds a certain threshold, preventing potential hazards. Understanding the blow out current helps engineers choose the appropriate breakers and fuses, ensuring that they provide adequate protection for the entire system.Moreover, the blow out current is not a static value; it can vary based on several factors, including temperature, age of the components, and environmental conditions. Therefore, engineers often conduct tests to determine the actual blow out current for specific devices under different conditions. This testing is essential for ensuring that the electrical systems operate safely and efficiently over time.In practical applications, the consequences of ignoring the blow out current can be dire. For example, in industrial settings, machinery that operates continuously may experience wear and tear, leading to a decrease in its ability to handle current. If operators do not monitor the blow out current and allow it to exceed safe limits, they risk damaging the equipment, resulting in costly repairs and downtime.Furthermore, the concept of blow out current extends beyond just individual components. It also applies to entire systems. For example, in power distribution networks, understanding the blow out current of transformers and transmission lines is vital for maintaining stability and preventing outages. Engineers must ensure that the total load on the system does not exceed the combined blow out current of all components to avoid system failures.In conclusion, the term blow out current represents a critical aspect of electrical engineering that influences the design, safety, and efficiency of electrical systems. By understanding and respecting this concept, engineers can prevent failures, protect equipment, and ensure the safety of both users and the environment. As technology continues to advance, the importance of accurately determining and managing the blow out current will only grow, making it an essential topic for anyone involved in electrical engineering.

在电气工程的世界中,理解各种术语对学生和专业人士都是至关重要的。其中一个经常出现的术语是blow out current,指的是电气设备在故障或“熔断”之前能够承受的最大电流。这个概念在设计电路和选择组件时尤为重要,因为超过blow out current可能导致灾难性的故障,包括火灾或设备损坏。当工程师设计电气系统时,他们必须考虑blow out current以确保安全和可靠性。例如,断路器设计为在电流超过某一阈值时跳闸,从而防止潜在的危险。了解blow out current帮助工程师选择合适的断路器和保险丝,确保它们为整个系统提供足够的保护。此外,blow out current并不是一个静态值;它可以根据温度、组件的老化和环境条件等多个因素而变化。因此,工程师通常会进行测试,以确定在不同条件下特定设备的实际blow out current。这种测试对于确保电气系统在长期内安全和高效运行至关重要。在实际应用中,忽视blow out current的后果可能是可怕的。例如,在工业环境中,持续运行的机械可能会经历磨损,导致其处理电流的能力下降。如果操作员不监控blow out current并允许其超过安全限制,他们就有可能损坏设备,导致昂贵的维修和停机。此外,blow out current的概念不仅适用于单个组件。它也适用于整个系统。例如,在电力分配网络中,了解变压器和输电线路的blow out current对于维持稳定性和防止停电至关重要。工程师必须确保系统上的总负荷不超过所有组件的总blow out current,以避免系统故障。总之,术语blow out current代表了电气工程中的一个关键方面,影响着电气系统的设计、安全性和效率。通过理解和尊重这一概念,工程师可以防止故障,保护设备,并确保用户和环境的安全。随着技术的不断进步,准确确定和管理blow out current的重要性只会增加,使其成为任何参与电气工程人员的必修课题。