broadside array

简明释义

1. 垂射天线阵; 2. 宽边天线阵; 3. 边射天线阵; 4. 侧向排列; 5. 侧向组合;

英英释义

例句

1.The research team developed a new broadside array for marine exploration.

研究小组开发了一种新的侧面阵列用于海洋探索。

2.The ship's radar system utilizes a broadside array to detect incoming threats from multiple angles.

这艘船的雷达系统利用侧面阵列从多个角度探测来袭威胁。

3.Using a broadside array, the sonar system can improve detection of underwater objects.

利用侧面阵列，声纳系统可以提高对水下物体的探测能力。

4.In modern naval warfare, a broadside array can significantly enhance the targeting capabilities of a vessel.

在现代海战中，侧面阵列可以显著增强舰艇的目标捕捉能力。

5.The aircraft's broadside array allows it to scan a wide area for enemy submarines.

飞机的侧面阵列使其能够广泛扫描敌方潜艇。

作文

In the realm of antenna technology, the term broadside array refers to a specific configuration of antennas that is designed to maximize radiation in a direction perpendicular to the axis of the array. This arrangement is particularly advantageous for applications where wide coverage and high gain are required. The broadside array consists of multiple antenna elements that are spaced at intervals along a line, with each element radiating signals in phase, which enhances the overall performance of the system. The concept of the broadside array can be traced back to the early days of radio communications, where engineers sought to improve signal strength and reception quality. By arranging antennas in a broadside configuration, they were able to effectively direct radio waves towards a specific area, thereby increasing the efficiency of communication systems. This principle is not only applicable to radio frequencies but also extends to microwave and millimeter-wave technologies, making it a versatile solution in various fields such as telecommunications, broadcasting, and radar systems.One of the key advantages of the broadside array is its ability to provide a uniform radiation pattern across a wide angle. This characteristic is essential for applications like mobile communications, where users may be located in different directions from the antenna. By utilizing a broadside array, service providers can ensure that their signals reach users effectively, regardless of their position relative to the antenna. Furthermore, the design allows for the possibility of adjusting the spacing and phase of the antenna elements to optimize performance based on specific requirements.However, it is important to note that the broadside array is not without its challenges. One significant drawback is the potential for side lobes, which are unintended radiation patterns that can lead to interference and reduced signal quality. Engineers must carefully consider the spacing and orientation of the elements to minimize these side lobes while maintaining the desired main lobe direction. Additionally, environmental factors such as terrain and obstacles can impact the performance of a broadside array, necessitating thorough site surveys and planning to ensure optimal deployment.In conclusion, the broadside array represents a fundamental concept in antenna design that has been instrumental in advancing communication technologies. Its unique configuration allows for enhanced signal strength and coverage, making it a preferred choice in various applications. As technology continues to evolve, the principles behind the broadside array will undoubtedly play a crucial role in shaping the future of wireless communication. By understanding and leveraging this technology, engineers and researchers can continue to push the boundaries of what is possible in the field of telecommunications and beyond.

在天线技术领域，术语broadside array指的是一种特定的天线配置，旨在最大限度地提高垂直于阵列轴的方向上的辐射。这种排列对于需要广泛覆盖和高增益的应用特别有利。broadside array由多个天线元件沿一条线间隔排列而成，每个元件相位一致地辐射信号，从而增强系统的整体性能。broadside array的概念可以追溯到无线电通信的早期阶段，当时工程师们寻求改善信号强度和接收质量。通过将天线安排成横向配置，他们能够有效地将无线电波定向到特定区域，从而提高通信系统的效率。这个原理不仅适用于无线电频率，还扩展到微波和毫米波技术，使其成为电信、广播和雷达系统等多个领域的多功能解决方案。broadside array的一个关键优势是它能够提供均匀的辐射模式，覆盖广泛的角度。这一特征对于移动通信等应用至关重要，因为用户可能位于天线的不同方向。通过利用broadside array，服务提供商可以确保他们的信号有效地到达用户，无论他们与天线的相对位置如何。此外，该设计允许根据特定要求调整天线元件的间距和相位，以优化性能。然而，需要注意的是，broadside array并非没有挑战。其中一个显著缺点是可能出现旁瓣，即意外的辐射模式，可能导致干扰和信号质量下降。工程师必须仔细考虑元件的间距和方向，以最小化这些旁瓣，同时保持所需的主瓣方向。此外，地形和障碍物等环境因素可能会影响broadside array的性能，因此需要进行全面的现场调查和规划，以确保最佳部署。总之，broadside array代表了天线设计中的一个基本概念，对于推动通信技术的发展起到了重要作用。其独特的配置允许增强信号强度和覆盖范围，使其成为各种应用的首选。随着技术的不断发展，broadside array背后的原理无疑将在塑造无线通信的未来中发挥关键作用。通过理解和利用这一技术，工程师和研究人员可以继续推动电信及其他领域的可能性极限。