control pulse

简明释义

制导脉冲

英英释义

例句

1.To maintain stability, the control pulse was set to a lower value.

为了保持稳定，控制脉冲被设置为较低的值。

2.The control pulse frequency must be calibrated for accurate data transmission.

必须校准控制脉冲频率以确保准确的数据传输。

3.The technician monitored the control pulse during the testing phase.

技术员在测试阶段监测了控制脉冲。

4.In robotics, the control pulse is crucial for precise movement.

在机器人技术中，控制脉冲对于精确移动至关重要。

5.The engineer adjusted the control pulse to optimize the machine's performance.

工程师调整了控制脉冲以优化机器的性能。

作文

In the realm of electronics and engineering, understanding the concept of a control pulse is crucial for the functioning of various systems. A control pulse refers to a short burst of electrical energy that is used to regulate or control the behavior of a device or circuit. This pulse acts as a signal that can trigger actions within an electronic system, making it an essential component in numerous applications ranging from simple household appliances to complex industrial machinery.To illustrate the importance of a control pulse, consider the operation of a digital clock. The clock needs to keep accurate time, which requires precise control over its internal mechanisms. Here, a control pulse is generated at regular intervals by a quartz crystal oscillator. Each pulse represents a fraction of a second, and these pulses are counted to display the correct time. Without these control pulses, the clock would be unable to maintain accurate timekeeping, leading to potential confusion and inconvenience.Moreover, control pulses are not limited to timekeeping devices. They are also fundamental in communication technologies. For instance, in data transmission, a control pulse can be used to indicate the start or end of a data packet. This ensures that the receiving device knows when to begin processing the incoming information. In this context, the control pulse serves as a synchronization signal, allowing different components of a system to work together harmoniously.In robotics, control pulses play a vital role in the movement and operation of robotic arms. When a robot is programmed to perform a task, it relies on a series of control pulses to activate its motors and servos. These pulses dictate the speed and direction of movement, enabling the robot to execute precise actions. For example, when a robotic arm is instructed to pick up an object, a sequence of control pulses will guide the arm's movements, ensuring that it approaches the object at the correct angle and with the appropriate force.The versatility of control pulses extends to various fields such as medical technology as well. In devices like pacemakers, control pulses are crucial for regulating heartbeats. The pacemaker emits electrical pulses that stimulate the heart to beat at a normal rhythm. This life-saving application highlights how control pulses can have significant implications for health and well-being, demonstrating their importance beyond mere technical specifications.In conclusion, the concept of a control pulse encompasses a wide range of applications across different industries. From ensuring accurate timekeeping in clocks to facilitating communication and controlling robotic movements, control pulses are integral to modern technology. As we continue to innovate and develop new electronic systems, the role of control pulses will undoubtedly remain pivotal in enhancing functionality and performance. Understanding and mastering the use of control pulses will empower engineers and technicians to create more efficient and reliable devices, ultimately benefiting society as a whole.

在电子和工程领域，理解“控制脉冲”的概念对于各种系统的功能至关重要。“控制脉冲”指的是用于调节或控制设备或电路行为的一短暂电能爆发。这个脉冲作为信号，可以触发电子系统中的动作，使其成为从简单的家用电器到复杂的工业机械等众多应用中的基本组成部分。为了说明“控制脉冲”的重要性，可以考虑数字时钟的操作。时钟需要保持准确的时间，这需要对其内部机制进行精确控制。在这里，一个“控制脉冲”由石英晶体振荡器定期产生。每个脉冲代表一秒的一个分数，这些脉冲被计算以显示正确的时间。如果没有这些“控制脉冲”，时钟将无法保持准确的计时，可能导致混淆和不便。此外，“控制脉冲”不仅限于计时设备。它们在通信技术中也是基础。例如，在数据传输中，“控制脉冲”可以用来指示数据包的开始或结束。这确保接收设备知道何时开始处理传入的信息。在这种情况下，“控制脉冲”作为同步信号，允许系统的不同组件和谐地协作。在机器人技术中，“控制脉冲”在机器人手臂的运动和操作中发挥着至关重要的作用。当机器人被编程执行任务时，它依赖一系列“控制脉冲”来激活其电机和舵机。这些脉冲决定了运动的速度和方向，使机器人能够执行精确的动作。例如，当机器人手臂被指示去拾取一个物体时，一系列“控制脉冲”将指导手臂的运动，确保其以正确的角度和适当的力度接近物体。“控制脉冲”的多功能性还扩展到医疗技术等各个领域。在像心脏起搏器这样的设备中，“控制脉冲”对于调节心跳至关重要。起搏器发出电脉冲，刺激心脏以正常节奏跳动。这种拯救生命的应用突显了“控制脉冲”对健康和福祉的重要意义，表明它们的影响超越了单纯的技术规格。总之，“控制脉冲”的概念涵盖了不同产业中广泛的应用。从确保时钟的准确计时到促进通信和控制机器人运动，“控制脉冲”是现代技术不可或缺的一部分。随着我们继续创新和开发新的电子系统，“控制脉冲”的作用无疑将在提升功能和性能方面保持关键地位。理解和掌握“控制脉冲”的使用将使工程师和技术人员能够创造更高效、更可靠的设备，最终造福整个社会。