locking circuit

简明释义

强制同步电路

英英释义

例句

1.To troubleshoot the issue, we need to check the locking circuit 锁定电路 for any faults.

要排除故障，我们需要检查<锁定电路>是否存在任何故障。

2.The safety features of the machine include a locking circuit 锁定电路 that ensures it cannot be operated when the guard is open.

机器的安全特性包括一个<锁定电路>，确保在防护罩打开时无法操作。

3.In the event of an emergency, the locking circuit 锁定电路 will cut off power to the machinery immediately.

在紧急情况下，<锁定电路>将立即切断机器的电源。

4.The technician explained how the locking circuit 锁定电路 prevents unauthorized access to the control panel.

技术人员解释了如何通过<锁定电路>防止对控制面板的未经授权访问。

5.When the system detects a fault, the locking circuit 锁定电路 automatically engages to protect the equipment.

当系统检测到故障时，<锁定电路>会自动启动以保护设备。

作文

In the world of electronics and electrical engineering, various components work together to ensure the smooth operation of devices. One crucial component that often goes unnoticed is the locking circuit. A locking circuit is a type of electrical circuit designed to maintain a specific state or position until a certain condition is met. This can be particularly important in applications where safety and security are paramount. For instance, in an elevator system, a locking circuit can prevent the doors from opening until the elevator has reached its designated floor. This ensures that passengers are not put at risk while the elevator is still in motion.The basic principle behind a locking circuit is to create a mechanism that 'locks' a particular function or position until an external input is received. This can be achieved through various means, including mechanical switches, relays, or electronic components such as transistors. When the predetermined condition is satisfied, the locking circuit is released, allowing the device to perform its intended function.One common application of a locking circuit is in automotive systems. Many vehicles use a locking circuit to control the locking and unlocking of doors. When the driver presses the lock button on their key fob, the locking circuit engages, ensuring that all doors are securely locked. If someone tries to open a door while the locking circuit is active, the system prevents it from being opened, thereby enhancing the vehicle's security.In addition to safety applications, locking circuits also play a significant role in industrial automation. In manufacturing settings, machines often require specific conditions to operate safely. A locking circuit can ensure that a machine only runs when all safety guards are in place, preventing accidents and injuries. This is particularly important in environments where heavy machinery is used, as the consequences of failure can be severe.Moreover, the design of a locking circuit can vary greatly depending on the application and requirements. Some circuits may use simple mechanical locks, while others might involve complex electronic systems with multiple inputs and outputs. The choice of components and design will depend on factors such as cost, reliability, and the specific needs of the application.As technology continues to advance, the role of locking circuits is becoming increasingly important. With the rise of smart devices and the Internet of Things (IoT), many modern applications require sophisticated locking circuits that can communicate with other devices and systems. This integration allows for greater control and flexibility, enabling users to manage their devices remotely and efficiently.In conclusion, the locking circuit is a vital component in many electronic systems, providing safety, security, and operational integrity. Understanding how these circuits work and their various applications can help engineers and designers create more effective and reliable devices. As we continue to innovate and develop new technologies, the importance of locking circuits will only grow, making them an essential topic in the field of electronics and electrical engineering.

在电子和电气工程的世界中，各种组件共同工作，以确保设备的顺利运行。一个常常被忽视的重要组件是锁定电路。锁定电路是一种电路，旨在在满足特定条件之前保持特定状态或位置。这在安全和保障至关重要的应用中尤为重要。例如，在电梯系统中，锁定电路可以防止电梯门在电梯到达指定楼层之前打开。这确保了乘客在电梯仍在移动时不会面临风险。锁定电路背后的基本原理是创建一个机制，该机制在外部输入到达之前“锁定”特定功能或位置。这可以通过各种方式实现，包括机械开关、继电器或电子组件，如晶体管。当预定条件得到满足时，锁定电路被释放，允许设备执行其预期功能。锁定电路的一个常见应用是在汽车系统中。许多车辆使用锁定电路来控制车门的锁定和解锁。当驾驶员按下钥匙遥控器上的锁定按钮时，锁定电路就会启动，确保所有车门都安全锁定。如果有人在锁定电路处于活动状态时尝试打开车门，系统将阻止其打开，从而增强了车辆的安全性。除了安全应用，锁定电路在工业自动化中也发挥着重要作用。在制造环境中，机器通常需要特定条件才能安全运行。锁定电路可以确保机器仅在所有安全防护装置到位时运行，防止事故和伤害。这在使用重型机械的环境中特别重要，因为故障的后果可能是严重的。此外，锁定电路的设计可能因应用和要求而异。有些电路可能使用简单的机械锁，而其他电路可能涉及多个输入和输出的复杂电子系统。组件和设计的选择将取决于成本、可靠性和应用的具体需求等因素。随着技术的不断进步，锁定电路的作用变得越来越重要。随着智能设备和物联网（IoT）的兴起，许多现代应用需要复杂的锁定电路，能够与其他设备和系统进行通信。这种集成允许更大的控制和灵活性，使用户能够高效地远程管理他们的设备。总之，锁定电路是许多电子系统中的重要组成部分，提供安全性、保障和操作完整性。理解这些电路的工作原理及其各种应用可以帮助工程师和设计师创造出更有效和可靠的设备。随着我们继续创新和开发新技术，锁定电路的重要性只会增加，使其成为电子和电气工程领域的一个重要主题。