pulse timing

简明释义

脉冲计时

英英释义

例句

1.Proper pulse timing is crucial for the accuracy of the data collected in this study.

适当的脉冲定时对于本研究中收集数据的准确性至关重要。

2.Adjusting the pulse timing can help reduce interference in the signal.

调整脉冲定时可以帮助减少信号中的干扰。

3.The engineer adjusted the pulse timing to ensure the signals were synchronized.

工程师调整了脉冲定时以确保信号同步。

4.The technician explained how pulse timing affects the operation of the circuit.

技术员解释了脉冲定时如何影响电路的操作。

5.In this experiment, we need to measure the pulse timing of the laser to optimize its performance.

在这个实验中，我们需要测量激光的脉冲定时以优化其性能。

作文

In the realm of electronics and signal processing, the concept of pulse timing plays a pivotal role. Pulse timing refers to the precise measurement and control of the duration and intervals of electrical pulses in a circuit. This aspect is crucial for the proper functioning of various devices, especially in digital communication systems, where timing errors can lead to data loss or corruption. Understanding pulse timing is essential for engineers and technicians who design and maintain electronic systems.The importance of pulse timing can be illustrated through its application in digital circuits. In these circuits, information is transmitted using binary signals, represented by high and low voltage levels. The transition between these levels occurs in the form of pulses. Each pulse must be accurately timed to ensure that the receiving end interprets the data correctly. If the timing is off, the receiver may misinterpret the signals, leading to incorrect outputs.Moreover, pulse timing is not just about the duration of the pulses; it also involves the spacing between them. The frequency at which these pulses occur determines the speed of data transmission. For instance, in a communication system, if the pulse timing is too fast, the receiver may not be able to keep up, resulting in a loss of information. Conversely, if the timing is too slow, the system becomes inefficient, as it cannot utilize its full potential bandwidth.In addition to digital communication, pulse timing is also significant in various applications such as radar systems, medical imaging, and even in the functioning of microcontrollers. In radar systems, accurate pulse timing is critical for determining the distance of objects. The time it takes for a pulse to travel to an object and back is measured to calculate the distance. Any error in timing can lead to incorrect distance measurements, affecting the radar's performance.In medical imaging, technologies such as ultrasound rely heavily on pulse timing. The timing of sound waves emitted and received is crucial for creating clear images of internal body structures. A miscalculation in pulse timing could result in blurred images or misdiagnosis.Furthermore, in the field of microcontrollers, pulse timing is vital for controlling various components like motors and sensors. Microcontrollers use timed pulses to send signals to these components, ensuring they operate correctly and efficiently. Any disruption in pulse timing can lead to erratic behavior of the devices, which can be detrimental in applications ranging from household appliances to industrial machinery.In conclusion, understanding pulse timing is fundamental for anyone working with electronic systems. It encompasses the duration and intervals of electrical pulses, which are critical for accurate data transmission and device operation. As technology continues to evolve, the significance of pulse timing will only increase, making it an essential topic for study and application in various fields. By mastering pulse timing, engineers and technicians can ensure the reliability and efficiency of modern electronic systems, paving the way for advancements in technology that benefit society as a whole.

在电子和信号处理领域，脉冲定时的概念扮演着关键角色。脉冲定时指的是在电路中对电脉冲的持续时间和间隔进行精确测量和控制。这一方面对于各种设备的正常运作至关重要，特别是在数字通信系统中，定时错误可能导致数据丢失或损坏。理解脉冲定时对于设计和维护电子系统的工程师和技术人员来说是必不可少的。脉冲定时的重要性可以通过其在数字电路中的应用来说明。在这些电路中，信息通过二进制信号传输，表示为高低电压水平。这些电平之间的转换以脉冲的形式发生。每个脉冲必须准确计时，以确保接收端正确解释数据。如果定时不准确，接收方可能会误解信号，导致输出错误。此外，脉冲定时不仅仅关乎脉冲的持续时间；它还涉及脉冲之间的间隔。这些脉冲发生的频率决定了数据传输的速度。例如，在通信系统中，如果脉冲定时过快，接收方可能无法跟上，从而导致信息丢失。相反，如果定时过慢，系统效率低下，因为它无法充分利用其带宽潜力。除了数字通信，脉冲定时在雷达系统、医学成像甚至微控制器的功能中也具有重要意义。在雷达系统中，精确的脉冲定时对于确定物体距离至关重要。脉冲到达物体并返回所需的时间被用来计算距离。任何定时错误都可能导致距离测量不准确，从而影响雷达的性能。在医学成像中，超声等技术严重依赖于脉冲定时。发射和接收声波的时机对于创建内部结构的清晰图像至关重要。对脉冲定时的错误计算可能导致图像模糊或误诊。此外，在微控制器领域，脉冲定时对控制电机和传感器等各个组件至关重要。微控制器使用定时脉冲向这些组件发送信号，确保它们正确高效地运行。脉冲定时的任何干扰都可能导致设备行为异常，这在从家用电器到工业机械的应用中都是有害的。总之，理解脉冲定时对于任何与电子系统打交道的人来说都是基础。它涵盖了电脉冲的持续时间和间隔，这对于准确的数据传输和设备操作至关重要。随着技术的不断发展，脉冲定时的重要性只会增加，使其成为各个领域研究和应用的一个重要主题。通过掌握脉冲定时，工程师和技术人员可以确保现代电子系统的可靠性和效率，为推动有利于整个社会的技术进步铺平道路。