locking circuit

简明释义

保持电路

英英释义

例句

1.We need to test the locking circuit 锁定电路 to confirm it is functioning properly.

我们需要测试锁定电路 锁定电路以确认其正常工作。

2.During the safety inspection, we found that the locking circuit 锁定电路 was malfunctioning.

在安全检查期间，我们发现锁定电路 锁定电路出现故障。

3.In this model, the locking circuit 锁定电路 ensures that the system remains secure during operation.

在这个模型中，锁定电路 锁定电路确保系统在运行期间保持安全。

4.The locking circuit 锁定电路 is crucial for preventing unauthorized access to the control panel.

为了防止未经授权访问控制面板，锁定电路 锁定电路至关重要。

5.The engineer explained how the locking circuit 锁定电路 prevents accidental activation of the machinery.

工程师解释了如何通过锁定电路 锁定电路防止机器意外启动。

作文

In the realm of electronics and engineering, the term locking circuit refers to a specific type of circuit designed to maintain a particular state or condition until a certain action is taken. This concept is crucial in various applications, including security systems, automated machinery, and even in everyday household devices. Understanding the functionality and significance of a locking circuit can greatly enhance our comprehension of how modern technology operates.A locking circuit typically consists of components such as switches, relays, and timers that work together to create a system that can be 'locked' into a specific position or state. For instance, in a security alarm system, a locking circuit may be used to ensure that once the alarm is activated, it remains in that active state until a designated code is entered. This prevents unauthorized access and enhances the overall security of the premises.Moreover, locking circuits are also prevalent in industrial automation. In manufacturing processes, machines often require safety measures to prevent accidental operation during maintenance or repair. A locking circuit can be employed to disable machinery when a technician opens a maintenance door, ensuring that the equipment cannot be started until the door is securely closed. This application not only protects the workers but also minimizes the risk of damage to the machinery.The design of a locking circuit can vary significantly depending on its intended use. Some circuits are designed to be simple and straightforward, while others may involve complex arrangements of components to achieve more sophisticated functions. For example, a basic locking circuit might use a single switch that, when pressed, closes the circuit and keeps it closed until it is manually opened again. On the other hand, a more advanced version could incorporate multiple switches and sensors, allowing for a variety of conditions under which the circuit can be locked or unlocked.In addition to their practical applications, locking circuits also serve as an interesting study in the field of electronics. They exemplify the principles of control and feedback in electrical systems. Understanding how these circuits operate can provide valuable insights into designing more efficient and reliable electronic devices.Furthermore, as technology continues to evolve, the role of locking circuits is becoming increasingly significant. With the rise of smart home technologies and the Internet of Things (IoT), many devices now incorporate locking circuits to enhance user experience and security. For instance, smart locks utilize locking circuits to provide remote access control, allowing homeowners to lock or unlock their doors from anywhere using their smartphones.In conclusion, the concept of a locking circuit plays a vital role in various technological applications, from security systems to industrial automation. By maintaining specific states or conditions, these circuits enhance safety and efficiency in numerous contexts. As we continue to innovate and integrate technology into our daily lives, a deeper understanding of locking circuits will undoubtedly contribute to the development of smarter, safer, and more reliable devices. Therefore, it is essential for both engineers and consumers to grasp the significance of locking circuits in the ever-evolving landscape of technology.

在电子和工程领域，术语锁定电路指的是一种特定类型的电路，旨在保持特定状态或条件，直到采取某种行动为止。这个概念在各种应用中至关重要，包括安全系统、自动化机械，甚至日常家用设备。理解锁定电路的功能和重要性，可以大大提高我们对现代技术运作方式的理解。锁定电路通常由开关、继电器和定时器等组件组成，这些组件协同工作，创建一个可以“锁定”到特定位置或状态的系统。例如，在安全报警系统中，锁定电路可以用来确保一旦报警被激活，它将保持在该活动状态，直到输入指定的代码。这可以防止未授权访问，并增强场所的整体安全性。此外，锁定电路在工业自动化中也很常见。在制造过程中，机器通常需要安全措施，以防止在维护或修理期间意外操作。可以使用锁定电路在技术人员打开维护门时禁用机器，确保在门安全关闭之前，设备无法启动。这种应用不仅保护工人，还最小化了对机械设备的损坏风险。锁定电路的设计可以根据其预期用途有很大的不同。有些电路设计简单明了，而其他电路可能涉及复杂的组件排列，以实现更复杂的功能。例如，基本的锁定电路可能使用一个开关，当按下时，闭合电路并保持闭合，直到手动再次打开。另一方面，更先进的版本可以结合多个开关和传感器，允许在多种条件下锁定或解锁电路。除了它们的实际应用，锁定电路还在电子学领域提供了有趣的研究对象。它们体现了电气系统中的控制和反馈原理。理解这些电路的操作可以为设计更高效、更可靠的电子设备提供宝贵的见解。此外，随着技术的不断发展，锁定电路的角色变得越来越重要。随着智能家居技术和物联网（IoT）的兴起，许多设备现在采用锁定电路来增强用户体验和安全性。例如，智能锁利用锁定电路提供远程访问控制，使房主能够随时随地通过智能手机锁定或解锁他们的门。总之，锁定电路的概念在各种技术应用中发挥着至关重要的作用，从安全系统到工业自动化。通过保持特定状态或条件，这些电路在众多环境中增强了安全性和效率。随着我们继续创新并将技术融入日常生活，对锁定电路的深入理解无疑将有助于开发更智能、更安全和更可靠的设备。因此，工程师和消费者都必须掌握锁定电路在不断发展的技术领域中的重要性。