progressive wave antenna

简明释义

行波天线

英英释义

例句

1.The design of the progressive wave antenna 渐进波天线 allows for compact installations on rooftops.

这种渐进波天线progressive wave antenna的设计允许在屋顶上进行紧凑的安装。

2.The progressive wave antenna 渐进波天线 has been widely adopted in modern telecommunications systems.

在现代电信系统中，渐进波天线progressive wave antenna已被广泛采用。

3.By using a progressive wave antenna 渐进波天线, we can achieve better reception for satellite communications.

通过使用渐进波天线progressive wave antenna，我们可以实现更好的卫星通信接收。

4.The researchers developed a new type of progressive wave antenna 渐进波天线 that enhances signal transmission in urban areas.

研究人员开发了一种新型的渐进波天线progressive wave antenna，能够增强城市地区的信号传输。

5.Engineers tested the progressive wave antenna 渐进波天线 in various weather conditions to ensure reliability.

工程师在各种天气条件下测试了渐进波天线progressive wave antenna以确保其可靠性。

作文

In the field of telecommunications and broadcasting, the concept of a progressive wave antenna is crucial for understanding how signals are transmitted over various distances. A progressive wave antenna (渐进波天线) operates on the principle of radiating electromagnetic waves that propagate through space in a progressive manner. This means that the waves travel outward from the antenna in a continuous flow, allowing for effective communication between transmitting and receiving devices. One of the most significant advantages of using a progressive wave antenna is its ability to maintain a consistent signal strength over long distances. Unlike other types of antennas that may experience signal degradation as the distance increases, a progressive wave antenna can effectively transmit signals without significant loss. This property is particularly important in applications such as satellite communications, where signals must travel vast distances to reach their destinations. The design of a progressive wave antenna often involves specific geometric configurations that optimize its performance. Engineers meticulously calculate the dimensions and spacing of the antenna elements to ensure that they work together harmoniously to produce a strong, coherent wavefront. This careful design process is essential for achieving the desired radiation pattern and gain, which ultimately determines the antenna's effectiveness in real-world applications. Moreover, the versatility of a progressive wave antenna allows it to be used in various settings, from mobile communication systems to fixed broadcasting stations. For instance, in mobile networks, these antennas enable seamless connectivity for users on the move, ensuring that calls and data transmission remain uninterrupted. In contrast, fixed broadcasting stations rely on progressive wave antennas to deliver radio and television signals to large audiences, enhancing the overall quality of the broadcast experience. Another noteworthy aspect of progressive wave antennas is their ability to support multiple frequency bands. This characteristic is particularly beneficial in modern telecommunications, where different services operate on various frequencies. By utilizing advanced technologies, such as phased array systems, engineers can design progressive wave antennas that dynamically adjust their radiation patterns and frequencies to accommodate different communication needs. In conclusion, the progressive wave antenna (渐进波天线) plays a pivotal role in modern communication systems, enabling efficient signal transmission across diverse environments. Its unique properties, including minimal signal loss and adaptability to various frequencies, make it an essential component in the ever-evolving landscape of telecommunications. As technology continues to advance, the importance of understanding and optimizing progressive wave antennas will only grow, paving the way for more reliable and faster communication solutions in the future.

在电信和广播领域，渐进波天线的概念对于理解信号如何在各种距离上传输至关重要。渐进波天线（progressive wave antenna）基于辐射电磁波的原理，这些波以渐进的方式在空间中传播。这意味着波从天线向外连续流动，从而允许发射设备和接收设备之间有效的通信。使用渐进波天线的一个重要优势是其在长距离上维持一致信号强度的能力。与其他可能在距离增加时经历信号衰减的天线类型不同，渐进波天线能够有效地传输信号，而不会显著损失。这一特性在卫星通信等应用中尤为重要，因为信号必须穿越广阔的距离才能到达目的地。渐进波天线的设计通常涉及特定几何配置，以优化其性能。工程师精确计算天线元件的尺寸和间距，以确保它们协同工作，产生强大而连贯的波前。这一细致的设计过程对于实现所需的辐射模式和增益至关重要，最终决定了天线在实际应用中的有效性。此外，渐进波天线的多功能性使其可以在各种环境中使用，从移动通信系统到固定广播站。例如，在移动网络中，这些天线确保用户在移动过程中无缝连接，确保通话和数据传输不间断。相比之下，固定广播站依赖于渐进波天线向大规模观众传递广播电视信号，提高整体广播体验的质量。渐进波天线的另一个值得注意的方面是其支持多个频段的能力。这一特性在现代电信中尤为有利，因为不同的服务在不同的频率上运行。通过利用先进的技术，如相控阵列系统，工程师可以设计渐进波天线，动态调整其辐射模式和频率，以适应不同的通信需求。总之，渐进波天线（progressive wave antenna）在现代通信系统中发挥着关键作用，使信号在不同环境中高效传输。它独特的特性，包括最小信号损失和对各种频率的适应能力，使其成为不断发展的电信领域中不可或缺的组成部分。随着技术的不断进步，理解和优化渐进波天线的重要性只会增加，为未来更可靠、更快速的通信解决方案铺平道路。