broadside array

简明释义

垂射天线阵

英英释义

例句

1.The broadside array configuration allows for a wider coverage area in wireless communications.

该横向阵列配置允许无线通信覆盖更广的区域。

2.In our latest project, we implemented a broadside array for better signal reception.

在我们最新的项目中，我们实施了一个横向阵列以获得更好的信号接收。

3.The radar system utilizes a broadside array to enhance target detection capabilities.

该雷达系统利用横向阵列来增强目标探测能力。

4.Using a broadside array can significantly reduce the interference from unwanted signals.

使用横向阵列可以显著减少来自不需要信号的干扰。

5.Engineers designed a broadside array to improve the performance of the sonar system.

工程师设计了一个横向阵列以提高声纳系统的性能。

作文

In the field of antenna technology, the term broadside array refers to a specific configuration of antennas that are arranged in such a way that they primarily radiate energy perpendicular to the axis of the array. This design is particularly advantageous for achieving high directivity and gain in the desired direction, making it a popular choice in various applications such as telecommunications, broadcasting, and radar systems. The broadside array typically consists of multiple dipole antennas placed side by side, which work together to enhance the overall performance of the system.One of the key characteristics of a broadside array is its radiation pattern. When properly designed, this type of array can produce a strong signal in the broadside direction while minimizing radiation in other directions. This is achieved through the constructive and destructive interference of the signals emitted by each individual antenna element. By adjusting the spacing between the antennas and their relative phases, engineers can optimize the performance of the array to meet specific requirements.The applications of broadside arrays are vast and varied. In telecommunications, they are used to improve signal strength and quality in cellular networks. By deploying these arrays at strategic locations, service providers can ensure better coverage and capacity for their users. In broadcasting, broadside arrays allow for more efficient transmission of radio and television signals, reaching a larger audience with minimal power consumption.Another significant area where broadside arrays are utilized is in radar systems. These systems rely on precise detection and tracking of objects, such as aircraft or ships. The ability of a broadside array to focus energy in a specific direction enhances the radar's capability to detect targets at greater distances, improving overall situational awareness for military and civilian applications alike.Despite their advantages, designing an effective broadside array comes with its challenges. Engineers must carefully consider factors such as the frequency of operation, the environment in which the array will be deployed, and the potential for interference from other sources. Additionally, the physical size of the array can impact its feasibility, especially in urban areas where space is limited.In conclusion, the broadside array is a powerful tool in the realm of antenna technology, providing enhanced performance in various applications. Its ability to concentrate energy in a specific direction makes it invaluable for telecommunications, broadcasting, and radar systems. As technology continues to advance, the design and implementation of broadside arrays will likely evolve, leading to even greater efficiencies and capabilities in the future. Understanding the principles behind this configuration is essential for anyone interested in the fields of engineering and communication technologies, as it represents a fundamental aspect of modern wireless systems.

在天线技术领域，术语broadside array指的是一种特定的天线配置，这种配置使得天线主要沿着阵列的轴线垂直辐射能量。这种设计在实现高方向性和增益方面特别有利，因此在电信、广播和雷达系统等各种应用中广受欢迎。broadside array通常由多个并排放置的偶极子天线组成，这些天线协同工作以增强系统的整体性能。broadside array的一个关键特征是其辐射模式。当设计得当时，这种类型的阵列可以在侧面方向产生强信号，同时最小化其它方向的辐射。这是通过每个单独天线元件发出的信号的相干和消干扰来实现的。通过调整天线之间的间距及其相对相位，工程师可以优化阵列的性能，以满足特定要求。broadside arrays的应用范围广泛多样。在电信领域，它们用于提高蜂窝网络中的信号强度和质量。通过在战略位置部署这些阵列，服务提供商可以确保用户获得更好的覆盖和容量。在广播中，broadside arrays允许更高效地传输无线电和电视信号，以最小的功耗覆盖更大范围的观众。broadside arrays被广泛应用于雷达系统，这是另一个重要领域。这些系统依赖于精确检测和跟踪物体，如飞机或船只。broadside array在特定方向上集中能量的能力增强了雷达在更远距离检测目标的能力，提高了军事和民用应用的整体态势感知。尽管有其优势，设计有效的broadside array也面临挑战。工程师必须仔细考虑操作频率、阵列部署环境以及其他来源的干扰潜力等因素。此外，阵列的物理大小可能影响其可行性，尤其是在城市地区，空间有限。总之，broadside array是天线技术领域中的一种强大工具，在各种应用中提供增强的性能。它在特定方向上集中能量的能力使其在电信、广播和雷达系统中不可或缺。随着技术的不断进步，broadside arrays的设计和实施可能会不断演变，从而在未来带来更大的效率和能力。理解这种配置背后的原理对于任何对工程和通信技术感兴趣的人来说都是至关重要的，因为它代表了现代无线系统的一个基本方面。