vertical beam width

简明释义

垂直波束宽度

英英释义

例句

1.Adjusting the vertical beam width can help reduce glare in the auditorium.

调整垂直波束宽度可以帮助减少礼堂中的眩光。

2.The engineers optimized the antenna's vertical beam width for better communication range.

工程师优化了天线的垂直波束宽度以获得更好的通信范围。

3.The vertical beam width of the stage lights is crucial for creating an immersive atmosphere.

舞台灯光的垂直波束宽度对于营造沉浸式氛围至关重要。

4.In this study, we measured the vertical beam width of the radar to improve target detection.

在这项研究中，我们测量了雷达的垂直波束宽度以提高目标探测能力。

5.The satellite dish has a narrow vertical beam width to focus on signals from a specific satellite.

这个卫星天线具有狭窄的垂直波束宽度，以专注于来自特定卫星的信号。

作文

In the field of telecommunications and broadcasting, the concept of vertical beam width plays a crucial role in determining how effectively signals are transmitted and received. The vertical beam width refers to the angle in the vertical plane within which a signal is transmitted. This measurement is essential for understanding the coverage area of antennas and other transmitting devices. A narrower vertical beam width means that the antenna focuses its energy more directly in a specific direction, while a wider vertical beam width spreads the energy across a broader area. When designing communication systems, engineers must carefully consider the vertical beam width of antennas to ensure optimal performance. For instance, in applications such as satellite communications, a narrow vertical beam width is often advantageous because it allows for more precise targeting of the satellite signal to a specific location on Earth. This precision helps to minimize interference from other signals and maximizes the strength of the received signal.On the other hand, in scenarios like cellular networks, a wider vertical beam width can be beneficial. It allows the antenna to cover a larger area, which is essential for providing service to multiple users spread over a wide geographical region. However, there is a trade-off; a wider beam may lead to decreased signal strength and increased interference, as signals from different sources overlap more easily.The importance of vertical beam width extends beyond just telecommunications. In fields like meteorology, radar systems utilize this concept to track weather patterns. A radar system with an appropriate vertical beam width can provide accurate readings of precipitation and storm systems, which is vital for weather forecasting and public safety.Moreover, the vertical beam width is also a consideration in the design of audio equipment, particularly in sound reinforcement systems. The ability to control the vertical beam width of speakers ensures that sound is directed towards the audience rather than being wasted in areas where it is not needed. This focused sound delivery enhances the overall listening experience at concerts and events.In conclusion, the significance of vertical beam width cannot be overstated. It is a fundamental aspect that affects the efficiency and effectiveness of various technologies, from telecommunications to meteorology and audio engineering. Understanding the implications of vertical beam width allows engineers and designers to create systems that meet the specific needs of their applications, ensuring optimal performance and user satisfaction. As technology continues to advance, the role of vertical beam width will undoubtedly remain a critical consideration in the development of new and innovative communication solutions.

在电信和广播领域，垂直波束宽度的概念在确定信号传输和接收的有效性方面起着至关重要的作用。垂直波束宽度是指在垂直平面内传输信号的角度。这个测量对于理解天线和其他发射设备的覆盖区域至关重要。更窄的垂直波束宽度意味着天线将其能量更直接地集中在特定方向，而更宽的垂直波束宽度则将能量分散到更广泛的区域。在设计通信系统时，工程师必须仔细考虑天线的垂直波束宽度以确保最佳性能。例如，在卫星通信等应用中，狭窄的垂直波束宽度通常是有利的，因为它允许更精确地将卫星信号瞄准地球上的特定位置。这种精确性有助于最小化来自其他信号的干扰，并最大化接收到的信号强度。另一方面，在像蜂窝网络这样的场景中，更宽的垂直波束宽度可能是有利的。它允许天线覆盖更大的区域，这对于为分布在广泛地理区域的多个用户提供服务至关重要。然而，这也存在权衡；更宽的波束可能导致信号强度降低和干扰增加，因为来自不同来源的信号更容易重叠。垂直波束宽度的重要性不仅限于电信。在气象学等领域，雷达系统利用这一概念来跟踪天气模式。具有适当垂直波束宽度的雷达系统可以提供降水和风暴系统的准确读数，这对于天气预报和公共安全至关重要。此外，垂直波束宽度也是音频设备设计中的一个考虑因素，特别是在声音增强系统中。控制扬声器的垂直波束宽度的能力确保声音被定向到观众身上，而不是浪费在不需要的区域。这种集中的声音传递增强了音乐会和活动的整体听觉体验。总之，垂直波束宽度的重要性不容小觑。它是影响各种技术效率和有效性的基本方面，从电信到气象学和音频工程。理解垂直波束宽度的影响使工程师和设计师能够创建满足其应用特定需求的系统，确保最佳性能和用户满意度。随着技术的不断进步，垂直波束宽度的角色无疑将继续成为新颖和创新的通信解决方案开发中的关键考虑因素。