standby circuit
简明释义
附加电路
英英释义
A standby circuit is an electrical circuit designed to remain in a low-power state until activated, allowing for quick startup or operation when needed. | 待机电路是一种电气电路,旨在保持低功耗状态,直到被激活,从而在需要时快速启动或操作。 |
例句
1.The technician checked the standby circuit to ensure it was functioning properly.
技术人员检查了备用电路以确保其正常运行。
2.The standby circuit is crucial for maintaining system stability during outages.
在停电期间,备用电路对于保持系统稳定至关重要。
3.We need to upgrade the standby circuit to handle higher loads.
我们需要升级备用电路以应对更高的负载。
4.After the test, the engineer confirmed that the standby circuit was operational.
测试后,工程师确认备用电路是可操作的。
5.In case of a power failure, the standby circuit will automatically take over.
在停电的情况下,备用电路将自动接管。
作文
In modern technology, the term standby circuit refers to a crucial component in electronic devices that ensures they remain operational even when the primary power source is interrupted. This circuit acts as a backup power supply, allowing devices to maintain essential functions without interruption. For instance, many home appliances and electronic systems, such as computers and televisions, utilize a standby circuit to provide a seamless transition between power sources. When the main power supply fails or fluctuates, the standby circuit kicks in, preventing data loss and ensuring that the device continues to function smoothly.The importance of standby circuits cannot be overstated, particularly in critical applications like medical equipment and data centers. In hospitals, life-support machines rely on standby circuits to ensure that patients receive continuous care, even in the event of a power outage. Similarly, in data centers, servers are equipped with standby circuits to protect sensitive information from being lost due to sudden power failures. These circuits not only enhance reliability but also contribute to the overall safety of electronic systems.Moreover, the design and implementation of standby circuits have evolved significantly over the years. Engineers now focus on creating more efficient and compact circuits that can deliver power quickly and reliably. Advances in technology have led to the development of smart standby circuits that can automatically detect power interruptions and respond accordingly. This innovation is particularly beneficial in renewable energy systems, where solar panels and wind turbines require effective standby circuits to store energy for use during periods of low generation.In addition to their technical advantages, standby circuits also play a role in energy conservation. By utilizing these circuits, devices can enter a low-power state when not in use, reducing overall energy consumption. This feature is increasingly important in today's environmentally conscious society, where reducing carbon footprints is a priority for many individuals and organizations.Despite their benefits, standby circuits are not without challenges. One major issue is the potential for battery degradation over time, which can affect the performance of the standby circuit. Regular maintenance and monitoring are essential to ensure that these circuits operate effectively. Additionally, the cost of implementing high-quality standby circuits can be a barrier for some manufacturers, particularly in competitive markets where price sensitivity is high.In conclusion, the standby circuit is an integral part of modern electronic systems, providing backup power and enhancing reliability across various applications. As technology continues to advance, we can expect further improvements in the design and functionality of standby circuits, making them even more efficient and essential for our daily lives. Understanding the role of standby circuits helps us appreciate the complexity and ingenuity behind the devices we often take for granted, highlighting the importance of backup systems in maintaining the seamless operation of technology in our increasingly digital world.
在现代科技中,术语待机电路指的是电子设备中的一个关键组件,确保它们在主要电源中断时仍能正常运行。该电路充当备用电源,允许设备在不中断的情况下保持基本功能。例如,许多家用电器和电子系统,如计算机和电视,利用待机电路实现电源之间的无缝切换。当主电源发生故障或波动时,待机电路会启动,防止数据丢失,并确保设备继续顺利运行。待机电路的重要性不容小觑,特别是在医疗设备和数据中心等关键应用中。在医院中,生命支持机器依赖于待机电路,以确保患者即使在停电情况下也能持续得到护理。同样,在数据中心,服务器配备了待机电路,以保护敏感信息不因突然停电而丢失。这些电路不仅提高了可靠性,还增强了电子系统的整体安全性。此外,待机电路的设计和实施近年来有了显著进展。工程师们现在专注于创建更高效、更紧凑的电路,能够快速可靠地提供电力。技术的进步导致了智能待机电路的发展,这些电路可以自动检测电源中断并做出相应反应。这一创新在可再生能源系统中尤为重要,因为太阳能电池板和风力涡轮机需要有效的待机电路来存储在发电低峰期使用的能量。除了技术优势外,待机电路还在节能方面发挥着作用。通过利用这些电路,设备在不使用时可以进入低功耗状态,从而减少整体能耗。在当今环保意识日益增强的社会中,这一特性对于许多个人和组织来说变得越来越重要,减少碳足迹成为优先事项。尽管待机电路具有诸多优点,但也面临一些挑战。一个主要问题是电池随时间推移可能会降解,影响待机电路的性能。定期维护和监测对于确保这些电路有效运行至关重要。此外,实施高质量待机电路的成本可能成为一些制造商的障碍,特别是在价格敏感的竞争市场中。总之,待机电路是现代电子系统的一个不可或缺的组成部分,为各种应用提供备用电源并增强可靠性。随着技术的不断进步,我们可以期待待机电路的设计和功能进一步改善,使其更加高效和对我们日常生活至关重要。理解待机电路的作用帮助我们欣赏我们常常视为理所当然的设备背后的复杂性和独创性,突显了备用系统在维护我们日益数字化世界中技术无缝运行的重要性。
相关单词
