interrupted continuous wave

简明释义

断续等幅波

英英释义

例句

1.The radar system utilized an interrupted continuous wave to detect incoming objects.

雷达系统利用了中断连续波来探测来袭物体。

2.During the experiment, we observed how the interrupted continuous wave affected the material's properties.

在实验过程中，我们观察到中断连续波如何影响材料的性质。

3.In telecommunications, an interrupted continuous wave can improve signal clarity.

在电信中，中断连续波可以提高信号清晰度。

4.The sonar equipment emits an interrupted continuous wave for underwater navigation.

声纳设备发出中断连续波用于水下导航。

5.An interrupted continuous wave is often used in radar technology for better range measurement.

中断连续波常用于雷达技术，以便更好地测量距离。

作文

In the realm of telecommunications and signal processing, various waveforms are utilized to transmit information efficiently. One such waveform is the interrupted continuous wave, which plays a significant role in different applications, particularly in radar and communication systems. To fully understand the importance of the interrupted continuous wave, it is essential to delve into its characteristics, applications, and advantages over other types of signals.The term interrupted continuous wave refers to a signal that maintains a continuous wave form but is periodically interrupted or switched on and off. This modulation technique allows for the transmission of information through the variations in the signal's presence and absence. The fundamental advantage of using an interrupted continuous wave is its ability to maintain a consistent frequency while still conveying data. This is particularly useful in environments where signal integrity is crucial, such as in radar systems, where the detection of objects relies heavily on the clarity and strength of the transmitted signal.One of the primary applications of the interrupted continuous wave is in radar technology. In radar systems, the interrupted continuous wave is employed to detect the range and speed of objects. By sending out a continuous wave that is intermittently interrupted, radar systems can measure the time it takes for the signal to bounce back from an object, thus calculating its distance. Additionally, the frequency shift caused by the Doppler effect when the object is moving allows for the determination of its speed. This combination of distance and speed measurement is invaluable in various fields, including aviation, maritime navigation, and military operations.Moreover, the interrupted continuous wave is also used in communication systems, particularly in generating signals for Morse code transmission. The simplicity of switching the continuous wave on and off makes it an effective method for transmitting coded messages over long distances. In this context, the interrupted continuous wave serves as a reliable means of communication, especially in situations where voice communication may not be feasible due to noise or interference.Another advantage of the interrupted continuous wave is its resilience against noise and interference. Continuous waves are generally more susceptible to distortion; however, the interruption allows for a clearer signal, as the receiver can easily distinguish between the presence and absence of the wave. This characteristic is beneficial in environments with high levels of electromagnetic interference, making the interrupted continuous wave a preferred choice for many critical applications.In conclusion, the interrupted continuous wave is a vital concept in the fields of telecommunications and signal processing. Its unique properties enable effective communication and accurate object detection in various applications. As technology continues to evolve, understanding waveforms like the interrupted continuous wave will remain crucial for advancements in radar systems and communication technologies. Embracing these concepts will not only enhance our comprehension of modern technology but also pave the way for innovative solutions in the future.

在电信和信号处理的领域中，各种波形被用于有效地传输信息。其中一种波形是中断连续波，它在不同应用中发挥着重要作用，特别是在雷达和通信系统中。要全面理解中断连续波的重要性，有必要深入探讨其特征、应用和相较于其他类型信号的优势。“中断连续波”这一术语指的是一种保持连续波形，但周期性中断或开关的信号。这种调制技术通过信号的存在与缺失的变化来传递信息。使用中断连续波的基本优势在于它能够维持一致的频率，同时仍然传达数据。这在信号完整性至关重要的环境中尤为有用，例如在雷达系统中，物体的检测在很大程度上依赖于发射信号的清晰度和强度。中断连续波的主要应用之一是在雷达技术中。在雷达系统中，中断连续波被用来检测物体的距离和速度。通过发送间歇性的连续波，雷达系统可以测量信号从物体反弹回来的时间，从而计算出其距离。此外，当物体移动时，由多普勒效应引起的频率偏移也可以用来确定其速度。这种距离和速度测量的组合在航空、海洋导航和军事行动等多个领域都是无价的。此外，中断连续波还用于通信系统，特别是在生成莫尔斯电码信号的过程中。将连续波开关的简便性使其成为在长距离上传输编码消息的有效方法。在这种情况下，中断连续波作为一种可靠的通信手段，尤其是在由于噪声或干扰而无法进行语音通信的情况下。中断连续波的另一个优势是其对噪声和干扰的抵抗力。连续波通常更容易受到失真；然而，中断使得信号更清晰，因为接收器可以轻松区分波的存在与缺失。这一特性在具有高电磁干扰的环境中非常有利，使得中断连续波成为许多关键应用的首选。总之，中断连续波是电信和信号处理领域中的一个重要概念。它独特的特性使得在各种应用中实现有效通信和准确的物体检测成为可能。随着技术的不断发展，理解像中断连续波这样的波形将继续对雷达系统和通信技术的进步至关重要。接受这些概念不仅将增强我们对现代技术的理解，还将为未来的创新解决方案铺平道路。