master pulses

简明释义

主台脉冲;主控脉冲

英英释义

例句

1.In digital communication, timing is crucial, and devices must align with the master pulses 主脉冲 to avoid data loss.

在数字通信中，时序至关重要，设备必须与主脉冲 master pulses对齐，以避免数据丢失。

2.Engineers often use master pulses 主脉冲 as a reference point for measuring other signals.

工程师通常使用主脉冲 master pulses作为测量其他信号的参考点。

3.The master pulses 主脉冲 generated by the clock help in coordinating multiple signals in the circuit.

时钟生成的主脉冲 master pulses有助于协调电路中的多个信号。

4.The technician adjusted the settings to synchronize with the master pulses 主脉冲 of the system.

技术人员调整了设置以与系统的主脉冲 master pulses同步。

5.The synchronization of devices relies heavily on the accuracy of the master pulses 主脉冲 provided by the main controller.

设备的同步在很大程度上依赖于主控制器提供的主脉冲 master pulses的准确性。

作文

In the realm of electronics and signal processing, the term master pulses (主脉冲) holds significant importance. These pulses serve as a reference for timing and synchronization in various systems. Understanding how master pulses function can enhance our comprehension of both simple circuits and complex digital communication systems.To start with, let’s delve into what master pulses are. Essentially, they are periodic signals that dictate the timing of other signals in a system. In digital electronics, for instance, a clock signal is often referred to as a master pulse. This clock signal ensures that all components of a circuit operate in harmony, preventing data loss and ensuring accurate processing.One of the key applications of master pulses is in microcontrollers and microprocessors. These devices rely on a steady stream of clock pulses to execute instructions. The frequency of the master pulses determines how quickly a processor can perform tasks. For example, a microcontroller operating at 16 MHz has a master pulse that oscillates 16 million times per second, allowing it to process data efficiently.Moreover, master pulses play a crucial role in communication systems. In telecommunications, synchronization between transmitting and receiving devices is vital. Here, master pulses help maintain the timing of the signals being sent and received, ensuring that data is interpreted correctly. Without these reference pulses, signals could become misaligned, leading to errors in data transmission.Another interesting aspect of master pulses is their use in pulse width modulation (PWM). PWM is a technique used to control the amount of power delivered to an electrical device by varying the width of the pulses in a signal. In this context, the master pulse serves as a baseline, while the duty cycle of the PWM signal is adjusted to achieve the desired output. This method is widely used in applications such as motor control and LED dimming.In addition to electronics, the concept of master pulses can also be found in fields like physics and engineering. For example, in laser technology, a master pulse can refer to the primary pulse that initiates a series of subsequent pulses, which are essential for applications like laser cutting or medical procedures. The precision and timing of these pulses are critical for achieving the desired results.In conclusion, the term master pulses encompasses a wide range of applications across various fields. Whether in electronics, telecommunications, or even laser technology, understanding the function and significance of master pulses is essential for anyone interested in these areas. By mastering the concept of master pulses, we can gain deeper insights into the workings of modern technology and its applications in everyday life. As technology continues to evolve, the role of master pulses will undoubtedly remain a cornerstone of innovation and efficiency.

在电子学和信号处理领域，术语master pulses（主脉冲）具有重要意义。这些脉冲作为各种系统中时间和同步的参考。理解master pulses的功能可以增强我们对简单电路和复杂数字通信系统的理解。首先，让我们深入了解master pulses是什么。本质上，它们是周期性信号，决定了系统中其他信号的时序。在数字电子学中，例如，时钟信号通常被称为master pulse。这个时钟信号确保电路的所有组件和谐运作，防止数据丢失并确保准确处理。master pulses的一个关键应用是在微控制器和微处理器中。这些设备依赖于稳定的时钟脉冲流来执行指令。master pulses的频率决定了处理器执行任务的速度。例如，一个以16 MHz运行的微控制器，其master pulse每秒振荡1600万次，使其能够高效处理数据。此外，master pulses在通信系统中也发挥着至关重要的作用。在电信中，传输和接收设备之间的同步至关重要。在这里，master pulses帮助维持发送和接收信号的时序，确保数据被正确解释。如果没有这些参考脉冲，信号可能会变得不对齐，从而导致数据传输错误。master pulses的另一个有趣方面是它们在脉宽调制（PWM）中的使用。PWM是一种通过改变信号中脉冲的宽度来控制电气设备所需功率的方法。在这种情况下，master pulse作为基线，而PWM信号的占空比则被调整以实现所需输出。这种方法广泛应用于电机控制和LED调光等应用。除了电子学，master pulses的概念还可以在物理学和工程学等领域找到。例如，在激光技术中，master pulse可以指启动一系列后续脉冲的主要脉冲，这对于激光切割或医疗程序等应用至关重要。这些脉冲的精确性和时序对于实现预期结果至关重要。总之，术语master pulses涵盖了各个领域的广泛应用。无论是在电子学、电信还是激光技术中，理解master pulses的功能和重要性对于任何对这些领域感兴趣的人来说都是必不可少的。通过掌握master pulses的概念，我们可以更深入地洞察现代技术的运作及其在日常生活中的应用。随着技术的不断发展，master pulses的角色无疑将继续成为创新和效率的基石。