continuous wave mode
简明释义
连续波运行
英英释义
例句
1.The sonar system uses continuous wave mode (连续波模式) to detect underwater objects with high accuracy.
声纳系统使用连续波模式(连续波模式)来高精度探测水下物体。
2.The laser was set to operate in continuous wave mode (连续波模式) for the duration of the experiment.
激光器被设置为在实验期间以连续波模式(连续波模式)运行。
3.For certain medical applications, devices may need to work in continuous wave mode (连续波模式) to ensure consistent energy delivery.
对于某些医疗应用,设备可能需要以连续波模式(连续波模式)工作,以确保能量的持续传递。
4.In telecommunications, using continuous wave mode (连续波模式) can enhance the signal strength over long distances.
在电信中,使用连续波模式(连续波模式)可以增强长距离信号的强度。
5.The radar system operates in continuous wave mode (连续波模式) to provide real-time tracking of moving objects.
雷达系统以连续波模式(连续波模式)运行,以实现对移动物体的实时跟踪。
作文
In the realm of telecommunications and signal processing, the term continuous wave mode refers to a specific method of transmitting signals. This technique is essential for various applications, including radio broadcasting, radar systems, and even in medical imaging technologies like MRI. Understanding the concept of continuous wave mode is crucial for anyone interested in the fields of electronics and communication systems.A continuous wave mode involves the transmission of a constant amplitude signal over time, as opposed to pulsed or modulated signals. This means that the signal remains steady and does not fluctuate in amplitude, which can be beneficial in many scenarios. For instance, in radio communications, using a continuous wave mode allows for a clearer reception of signals, as there are fewer variations that could distort the message being sent.One of the primary advantages of employing continuous wave mode is its ability to maintain a strong signal over long distances. When a signal is transmitted without interruption, it can travel further without losing quality. This characteristic makes continuous wave mode particularly useful in applications where distance is a critical factor, such as in maritime communication or remote sensing.Moreover, the continuous wave mode is often utilized in radar technology. In radar systems, a continuous wave signal is emitted, and the time it takes for the signal to return after reflecting off an object is measured. This information is vital for determining the distance and speed of moving objects, which is why continuous wave mode is an integral part of modern radar systems used in aviation, meteorology, and military applications.In addition to its practical applications, understanding continuous wave mode also provides insight into the fundamental principles of wave behavior. Waves can be classified based on their characteristics, and continuous wave mode represents one of the simplest forms of wave transmission. By studying this mode, engineers and scientists can develop more complex systems that incorporate modulation techniques, allowing for more information to be transmitted over a single channel.Furthermore, the concept of continuous wave mode is not limited to just radio waves. It also applies to optical communications, where lasers are often operated in a continuous wave regime. In this context, continuous wave mode allows for high data transfer rates, making it essential for fiber-optic communication systems that support the internet and other digital communications.In conclusion, the continuous wave mode is a fundamental concept in the fields of telecommunications and signal processing. Its ability to provide clear, long-range communication makes it invaluable for various technologies, from radio broadcasting to advanced radar systems. By grasping the principles behind continuous wave mode, individuals can better appreciate the complexities of modern communication systems and the innovations that continue to shape our world. As technology advances, the importance of understanding such foundational concepts will only grow, paving the way for future developments in how we transmit and receive information across vast distances.
在电信和信号处理领域,术语连续波模式指的是一种特定的信号传输方法。这种技术对于各种应用至关重要,包括广播、雷达系统,甚至在医学成像技术如MRI中。理解连续波模式的概念对于任何对电子和通信系统感兴趣的人来说都是至关重要的。连续波模式涉及在时间上以恒定幅度信号进行传输,而不是脉冲或调制信号。这意味着信号保持稳定,不会在幅度上波动,这在许多情况下是有益的。例如,在无线电通信中,使用连续波模式可以更清晰地接收信号,因为发送的信息受到的变化较少,可能会扭曲信息。采用连续波模式的主要优势之一是其能够在长距离内保持强信号。当信号不间断地传输时,它可以在质量不下降的情况下传播更远。这一特性使得连续波模式在距离至关重要的应用中尤其有用,例如海上通信或遥感。此外,连续波模式通常用于雷达技术。在雷达系统中,发射一个连续波信号,并测量信号反射回来的时间。此信息对于确定运动物体的距离和速度至关重要,这就是为什么连续波模式是现代雷达系统(用于航空、气象和军事应用)的重要组成部分。除了其实际应用外,理解连续波模式还提供了对波行为基本原理的洞察。波可以根据其特征进行分类,而连续波模式代表了最简单的波传输形式之一。通过研究这种模式,工程师和科学家可以开发出更复杂的系统,结合调制技术,使得更多信息能够通过单一通道传输。此外,连续波模式的概念并不仅限于无线电波。它也适用于光通信,其中激光通常在连续波状态下工作。在这种情况下,连续波模式允许高数据传输速率,使其成为支持互联网和其他数字通信的光纤通信系统的关键。总之,连续波模式是电信和信号处理领域的一个基本概念。其提供清晰、远程通信的能力使其在各种技术中不可或缺,从广播到先进的雷达系统。通过掌握连续波模式背后的原理,个人可以更好地欣赏现代通信系统的复杂性以及不断塑造我们世界的创新。随着技术的进步,理解这些基础概念的重要性只会增加,为未来在如何跨越广阔距离传输和接收信息的发展铺平道路。
