transmit frequency range

简明释义

发射频率范围

英英释义

例句

1.Adjusting the transmit frequency range can help improve signal strength in remote areas.

调整发射频率范围可以帮助提高偏远地区的信号强度。

2.When designing antennas, engineers must consider the transmit frequency range for optimal performance.

在设计天线时，工程师必须考虑发射频率范围以达到最佳性能。

3.The radio station operates within a specific transmit frequency range to ensure clear communication.

这个广播电台在特定的发射频率范围内运作，以确保清晰的通信。

4.The transmit frequency range of this wireless microphone is crucial for avoiding interference.

这个无线麦克风的发射频率范围对于避免干扰至关重要。

5.Different devices can communicate effectively if they share the same transmit frequency range.

如果不同设备共享相同的发射频率范围，它们可以有效地通信。

作文

In the world of telecommunications and broadcasting, understanding the concept of transmit frequency range is crucial for effective communication. The term refers to the specific range of frequencies that a transmitter can effectively send out signals. This range is vital because it determines how well information can be conveyed over distances and through various mediums. For instance, radio stations operate within certain transmit frequency ranges that allow them to broadcast their signals to listeners over vast areas. Each station is assigned a unique frequency to avoid interference with other stations, ensuring clear reception for their audience.The transmit frequency range is not only significant in radio broadcasting but also plays a critical role in television transmission. Television signals are transmitted over specific frequencies, allowing viewers to receive clear images and sound. If the frequency is not properly managed, it can lead to poor quality or even loss of signal. This is why engineers spend considerable time designing transmitters that can operate within optimal transmit frequency ranges to ensure high-quality broadcasts.Moreover, the transmit frequency range has implications in the field of wireless communication as well. Devices such as mobile phones and Wi-Fi routers operate on designated frequencies to facilitate communication. Each device must adhere to specific frequency regulations set by governing bodies to minimize interference and maximize efficiency. For example, Wi-Fi typically operates on 2.4 GHz and 5 GHz bands, which are parts of its transmit frequency range. Understanding these frequencies helps manufacturers design better devices that can communicate effectively without disrupting other electronic equipment.Additionally, the transmit frequency range is essential in radar and satellite communication. These technologies rely on precise frequency ranges to detect objects and transmit data over long distances. In radar systems, different frequencies can penetrate various materials, making it possible to detect aircraft or ships from miles away. Similarly, satellites use specific frequencies to communicate with ground stations, ensuring that data is transmitted accurately and efficiently.In conclusion, the transmit frequency range is a fundamental aspect of modern communication technology. It affects how information is transmitted, the quality of that transmission, and the overall effectiveness of communication systems. As technology continues to advance, understanding and optimizing these frequency ranges will remain a priority for engineers and scientists alike. Whether it’s for radio, television, mobile communication, or satellite technology, mastering the transmit frequency range is essential for ensuring that our communication systems function seamlessly and effectively.

在电信和广播的世界中，理解“传输频率范围”这一概念对有效沟通至关重要。该术语指的是发射器能够有效发送信号的特定频率范围。这个范围是至关重要的，因为它决定了信息通过不同媒介和距离传递的效果。例如，广播电台在特定的传输频率范围内运作，使其能够将信号广播到广大地区。每个电台被分配一个独特的频率，以避免与其他电台干扰，从而确保观众的清晰接收。传输频率范围不仅在广播中重要，在电视传输中也起着关键作用。电视信号在特定频率上进行传输，使观众能够接收到清晰的图像和声音。如果频率管理不当，可能导致信号质量差或甚至信号丢失。这就是为什么工程师花费大量时间设计能够在最佳传输频率范围内运行的发射器，以确保高质量广播。此外，传输频率范围在无线通信领域也至关重要。移动电话和Wi-Fi路由器等设备在指定的频率上运行以促进通信。每个设备必须遵守由监管机构设定的特定频率法规，以最小化干扰并最大化效率。例如，Wi-Fi通常在2.4 GHz和5 GHz频段上运行，这些频段是其传输频率范围的一部分。理解这些频率有助于制造商设计出更好的设备，使其能够有效通信而不干扰其他电子设备。此外，传输频率范围在雷达和卫星通信中也至关重要。这些技术依赖于精确的频率范围来探测物体和远距离传输数据。在雷达系统中，不同的频率可以穿透各种材料，使得能够在数英里外探测到飞机或船只。同样，卫星使用特定频率与地面站通信，确保数据准确高效地传输。总之，传输频率范围是现代通信技术的基本方面。它影响信息的传输方式、传输质量以及通信系统的整体有效性。随着技术的不断进步，理解和优化这些频率范围将始终是工程师和科学家的优先事项。无论是广播、电视、移动通信还是卫星技术，掌握传输频率范围对于确保我们的通信系统无缝且有效地运作至关重要。