pulses per second

简明释义

每秒脉冲数

英英释义

例句

1.For optimal performance, the motor should operate at 60 pulses per second.

为了最佳性能，电动机应以每秒60个脉冲的速度运行。

2.This communication protocol supports up to 200 pulses per second.

该通信协议支持高达每秒200个脉冲。

3.The device emits signals at a rate of 100 pulses per second.

该设备以每秒100个脉冲的速率发出信号。

4.In this experiment, we measured the light intensity at 50 pulses per second.

在这个实验中，我们以每秒50个脉冲的频率测量光强度。

5.The sensor can detect changes at 30 pulses per second.

传感器可以以每秒30个脉冲的速度检测变化。

作文

In the realm of technology and science, understanding specific terminology is crucial for effective communication and comprehension. One such term that often arises in discussions about electronics and signal processing is pulses per second. This phrase refers to the frequency at which a device generates or receives pulses, which are short bursts of energy or signals. The measurement of pulses per second is typically expressed in hertz (Hz), where one hertz equals one pulse per second. This concept is fundamental in various applications, including telecommunications, computing, and even medical devices.To illustrate the importance of pulses per second, let’s consider its application in digital communication. In this field, data is transmitted using binary signals, which consist of a series of pulses representing ones and zeros. The speed at which these pulses are sent can significantly affect the efficiency and reliability of communication. For instance, a higher rate of pulses per second can lead to faster data transmission, allowing for more information to be sent over a network in a given time frame. However, it also requires that both the transmitting and receiving devices can handle the increased frequency without error.Moreover, in the context of medical devices, such as heart rate monitors, pulses per second plays a critical role in monitoring patients' health. These devices measure the electrical signals produced by the heart and translate them into readable data. The heart typically beats at a rate of 60 to 100 beats per minute, which translates to 1 to 1.67 pulses per second. Monitoring these pulses helps healthcare professionals assess the heart's condition and detect potential abnormalities.Additionally, the concept of pulses per second is vital in the field of physics, particularly in wave mechanics. When discussing waves, the frequency of a wave is often measured in pulses per second. For example, sound waves, electromagnetic waves, and even seismic waves can be characterized by their frequency, which determines their behavior and interaction with other waves. Understanding how many pulses per second a wave produces can help scientists and engineers design better systems for communication, navigation, and exploration.In conclusion, the term pulses per second encompasses a wide range of applications across different fields, highlighting its significance in modern technology and science. Whether in telecommunications, healthcare, or physics, the ability to measure and understand pulses per second is essential for innovation and advancement. As technology continues to evolve, so too will our understanding and utilization of this fundamental concept, paving the way for new discoveries and improvements in various industries.

在科技和科学领域，理解特定术语对于有效沟通和理解至关重要。一个经常出现在电子和信号处理讨论中的术语是每秒脉冲。这个短语指的是设备生成或接收脉冲的频率，脉冲是短暂的能量或信号爆发。每秒脉冲的测量通常以赫兹（Hz）表示，其中一个赫兹等于每秒一个脉冲。这个概念在各种应用中都是基础，包括电信、计算机甚至医疗设备。为了说明每秒脉冲的重要性，让我们考虑它在数字通信中的应用。在这个领域，数据通过二进制信号传输，这些信号由一系列代表零和一的脉冲组成。这些脉冲发送的速度可以显著影响通信的效率和可靠性。例如，更高的每秒脉冲速率可以导致更快的数据传输，使得在给定的时间内可以通过网络发送更多的信息。然而，它也要求发送和接收设备能够在没有错误的情况下处理增加的频率。此外，在医疗设备的背景下，如心率监测仪，每秒脉冲在监测患者健康方面发挥着关键作用。这些设备测量心脏产生的电信号并将其转化为可读数据。心脏的跳动速度通常在每分钟60到100次之间，这转化为每秒1到1.67个脉冲。监测这些脉冲有助于医疗专业人员评估心脏的状况并检测潜在的异常。此外，每秒脉冲的概念在物理学领域，特别是在波动力学中至关重要。在讨论波时，波的频率通常以每秒脉冲来测量。例如，声波、电磁波甚至地震波都可以通过它们的频率来表征，这决定了它们的行为及与其他波的相互作用。了解每秒产生多少个脉冲可以帮助科学家和工程师设计更好的通信、导航和探索系统。总之，术语每秒脉冲涵盖了不同领域的广泛应用，突显了它在现代科技和科学中的重要性。无论是在电信、医疗保健还是物理学中，测量和理解每秒脉冲的能力对于创新和进步至关重要。随着科技的不断发展，我们对这一基本概念的理解和利用也将不断提升，为各个行业的新发现和改进铺平道路。