idle circuit

简明释义

空载电路;无效电路;空闲电路

英英释义

例句

1.The technician identified an idle circuit in the system that was consuming unnecessary power.

技术人员识别出系统中一个闲置电路，它正在消耗不必要的电力。

2.The idle circuit was causing interference with other components in the device.

这个闲置电路导致设备中其他组件出现干扰。

3.To optimize performance, we need to eliminate any idle circuit from the design.

为了优化性能，我们需要从设计中消除任何闲置电路。

4.The engineer suggested disconnecting the idle circuit to improve overall efficiency.

工程师建议断开闲置电路以提高整体效率。

5.In the troubleshooting process, we discovered an idle circuit that needed to be reconfigured.

在故障排除过程中，我们发现一个需要重新配置的闲置电路。

作文

In the world of electronics and electrical engineering, understanding various terms is essential for effective communication and problem-solving. One such term that often arises in discussions about circuit design and functionality is idle circuit. An idle circuit refers to a section of a circuit that is not currently active or performing any useful work. This concept is particularly important when analyzing the efficiency and performance of electronic devices. In this essay, we will explore the implications of idle circuits in both theoretical and practical contexts.To begin with, it is crucial to recognize that all electronic systems have periods of inactivity. For instance, consider a smartphone. When the device is on standby, many of its components are not actively processing information or communicating with each other. During this time, the circuit paths that are not in use can be classified as idle circuits. Understanding how these idle circuits behave can help engineers design more energy-efficient devices. By minimizing the power consumed by idle circuits, manufacturers can prolong battery life, which is a significant concern for users.Moreover, idle circuits can also play a role in the overall reliability of an electronic system. When certain components are not in use, they can be protected from wear and tear. For example, in a computer, the CPU may enter an idle state when it is not processing tasks. This idle circuit state allows the CPU to cool down and reduces the risk of overheating, which can lead to hardware failure. Thus, managing idle circuits effectively contributes to the longevity of electronic devices.However, there are challenges associated with idle circuits as well. In some cases, idle circuits can inadvertently consume power, leading to inefficiencies. For example, in older electronic designs, components might remain powered even when not in use, resulting in unnecessary energy consumption. This phenomenon is often referred to as 'phantom load' or 'vampire power.' To combat this issue, engineers are now implementing smarter power management techniques that allow devices to completely shut down idle circuits or put them into a low-power state.In addition to energy efficiency, the concept of idle circuits is also relevant in the realm of digital communication. In networking, an idle circuit can refer to a communication link that is not currently transmitting data. Network protocols often include mechanisms to detect and manage these idle circuits to optimize bandwidth usage. For instance, if a network path remains idle for a certain period, the system may reroute traffic to ensure efficient data flow, thereby enhancing overall network performance.In conclusion, the term idle circuit encompasses a variety of scenarios in the field of electronics and communications. By recognizing the importance of idle circuits in terms of energy efficiency, reliability, and network performance, engineers and designers can create better, more sustainable electronic devices. As technology continues to evolve, the management of idle circuits will remain a critical focus for innovation and improvement in the industry. Understanding and optimizing these circuits is not just a technical necessity but also a step towards a more energy-conscious future.

在电子和电气工程的世界中，理解各种术语对于有效沟通和解决问题至关重要。其中一个在电路设计和功能讨论中经常出现的术语是空闲电路。空闲电路指的是电路的某一部分当前未处于活动状态或未执行任何有用工作的情况。这个概念在分析电子设备的效率和性能时尤为重要。在这篇文章中，我们将探讨空闲电路在理论和实际背景下的影响。首先，必须认识到所有电子系统都有不活动的时期。例如，考虑一下智能手机。当设备处于待机状态时，许多组件并没有积极处理信息或相互通信。在此期间，未使用的电路路径可以被归类为空闲电路。理解这些空闲电路的行为可以帮助工程师设计更节能的设备。通过减少空闲电路消耗的电力，制造商可以延长电池寿命，这对用户来说是一个重要的关注点。此外，空闲电路还可以在电子系统的整体可靠性中发挥作用。当某些组件未被使用时，它们可以免受磨损。例如，在计算机中，当CPU没有处理任务时，它可能会进入一个空闲状态。这种空闲电路状态使CPU能够冷却下来，并降低过热的风险，这可能导致硬件故障。因此，有效管理空闲电路有助于延长电子设备的使用寿命。然而，空闲电路也面临一些挑战。在某些情况下，空闲电路可能会无意中消耗电力，从而导致低效率。例如，在较旧的电子设计中，组件可能在未使用时仍保持通电，导致不必要的能量消耗。这种现象通常被称为“幽灵负载”或“吸血鬼功率”。为了应对这一问题，工程师们现在正在实施更智能的电源管理技术，使设备能够完全关闭空闲电路或将其置于低功耗状态。除了能源效率，空闲电路的概念在数字通信领域也很相关。在网络中，空闲电路可以指当前未传输数据的通信链路。网络协议通常包括检测和管理这些空闲电路的机制，以优化带宽使用。例如，如果网络路径在一定时间内保持空闲，系统可能会重新路由流量，以确保数据流的高效，从而增强整体网络性能。总之，术语空闲电路在电子和通信领域涵盖了多种场景。通过认识到空闲电路在能源效率、可靠性和网络性能方面的重要性，工程师和设计师可以创造更好、更可持续的电子设备。随着技术的不断发展，空闲电路的管理将继续成为行业创新和改进的关键焦点。理解和优化这些电路不仅是技术上的必要性，也是朝着更加节能的未来迈出的重要一步。