stalled current
简明释义
停转电流
英英释义
例句
1.We need to address the stalled current in our sales before it impacts our quarterly results.
我们需要解决销售中的停滞现状,以免影响季度业绩。
2.The project was delayed due to a stalled current in funding.
由于资金的停滞现状,项目被延迟。
3.After months of stalled current, we finally secured a partnership.
经过几个月的停滞现状,我们终于达成了合作。
4.The stalled current in customer feedback has made it hard to improve our services.
客户反馈的停滞现状使我们很难改善服务。
5.The stalled current of new ideas in the team is concerning for our innovation strategy.
团队中新想法的停滞现状让我们的创新战略感到担忧。
作文
In the world of electrical engineering, understanding various terms is crucial for both professionals and students. One such term that often comes up in discussions about circuits and electrical flow is stalled current. This term refers to a situation where the current in a circuit is halted or significantly reduced due to certain conditions, often leading to inefficiencies or failures in the system. To grasp the concept of stalled current, it’s essential to explore its causes, implications, and potential solutions.Firstly, let's consider the causes of stalled current. In many cases, this phenomenon occurs when there is an overload in the circuit. For example, if too many devices are connected to a power source, the demand for current may exceed the supply capacity, causing the current to stall. Additionally, faults in the wiring, such as short circuits or open circuits, can also lead to a stalled current. These faults disrupt the normal flow of electricity and can pose significant risks, including equipment damage or fire hazards.The implications of a stalled current are far-reaching. When current stalls, devices may not function properly, leading to interruptions in service. For instance, in an industrial setting, machinery that relies on a steady flow of current may halt unexpectedly, resulting in costly downtime. Furthermore, the efficiency of electrical systems is compromised, which can lead to increased energy consumption and higher operational costs. Understanding how to identify and address stalled current situations is therefore vital for maintaining the reliability of electrical systems.To mitigate the risks associated with stalled current, engineers and technicians employ various strategies. Regular maintenance of electrical systems is crucial to ensure that all components are functioning correctly. This includes checking for signs of wear and tear in wiring and connections, as well as ensuring that the load on circuits is balanced and within safe limits. Additionally, implementing protective devices, such as circuit breakers and fuses, can help prevent situations where stalled current might occur by automatically cutting off the power supply when an overload is detected.Moreover, advancements in technology have led to the development of smart electrical systems that can monitor current flow in real-time. These systems can provide alerts when anomalies, such as a stalled current, are detected, allowing for prompt intervention before any significant damage occurs. By harnessing these technologies, businesses can improve their operational efficiency and minimize the risks associated with electrical failures.In conclusion, the term stalled current encapsulates a critical issue within electrical engineering that can have serious consequences if not addressed properly. By understanding its causes, implications, and preventive measures, individuals and organizations can work towards maintaining efficient and safe electrical systems. As technology continues to evolve, staying informed about terms like stalled current will be essential for anyone involved in the field of electricity and electronics. Ultimately, proactive management of electrical systems will lead to enhanced performance and reduced risks, ensuring that our reliance on technology remains uninterrupted and safe.
在电气工程的世界中,理解各种术语对专业人士和学生至关重要。其中一个在讨论电路和电流流动时经常出现的术语是停滞电流。这个术语指的是电路中的电流由于某些条件而停止或显著减少的情况,这通常会导致系统的低效或故障。要掌握停滞电流的概念,有必要探讨其原因、影响和潜在解决方案。首先,让我们考虑停滞电流的原因。在许多情况下,这种现象发生在电路过载时。例如,如果连接到电源的设备过多,电流的需求可能会超过供给能力,从而导致电流停滞。此外,电线中的故障,例如短路或开路,也可能导致停滞电流。这些故障干扰了电力的正常流动,并可能带来重大风险,包括设备损坏或火灾隐患。停滞电流的影响是深远的。当电流停滞时,设备可能无法正常工作,导致服务中断。例如,在工业环境中,依赖于稳定电流流动的机器可能会意外停止,从而导致昂贵的停工。此外,电气系统的效率受到损害,这可能导致能源消耗增加和运营成本上升。因此,了解如何识别和解决停滞电流的情况对于维护电气系统的可靠性至关重要。为了减轻与停滞电流相关的风险,工程师和技术人员采用各种策略。定期维护电气系统对于确保所有组件正常运作至关重要。这包括检查电线和连接的磨损迹象,以及确保电路上的负载平衡且在安全范围内。此外,实施保护装置,如断路器和保险丝,可以通过在检测到过载时自动切断电源来帮助防止发生停滞电流的情况。此外,技术的进步导致了智能电气系统的发展,这些系统可以实时监测电流流动。当检测到异常情况(例如停滞电流)时,这些系统可以提供警报,从而允许在任何重大损坏发生之前进行及时干预。通过利用这些技术,企业可以提高运营效率,最小化与电气故障相关的风险。总之,术语停滞电流概括了电气工程中一个关键问题,如果不加以妥善处理,可能会产生严重后果。通过了解其原因、影响和预防措施,个人和组织可以努力维护高效、安全的电气系统。随着技术的不断发展,了解像停滞电流这样的术语将对任何参与电力和电子领域的人至关重要。最终,主动管理电气系统将导致性能提升和风险降低,确保我们对技术的依赖保持不间断和安全。
