transmitter station

简明释义

发射台

英英释义

例句

1.The radio signal was weak because the nearest transmitter station (发射台) was too far away.

由于最近的transmitter station（发射台）距离太远，广播信号很弱。

2.The transmitter station (发射台) is responsible for sending signals to our devices.

该transmitter station（发射台）负责向我们的设备发送信号。

3.They built a new transmitter station (发射台) on the mountain to reach more listeners.

他们在山上建了一座新的transmitter station（发射台），以覆盖更多听众。

4.Engineers are working to upgrade the transmitter station (发射台) to improve broadcast quality.

工程师们正在升级transmitter station（发射台），以改善广播质量。

5.During the storm, the transmitter station (发射台) lost power and the broadcast went off-air.

在暴风雨期间，transmitter station（发射台）失去了电力，广播停播了。

作文

In the world of telecommunications, the role of a transmitter station is crucial for the effective transmission of signals over long distances. A transmitter station is a facility that broadcasts radio, television, or other types of signals to receivers located far away. These stations are equipped with powerful antennas and transmitters that send out electromagnetic waves carrying information. Without transmitter stations, our ability to communicate through various media would be severely limited.The basic function of a transmitter station is to convert electrical signals into radio waves. This process begins with the generation of audio or visual content, which is then modulated onto a carrier wave by the transmitter. The transmitter station amplifies these waves and sends them through antennas that radiate the signals into the atmosphere. As these waves travel, they can be picked up by receivers, such as radios or televisions, allowing users to access the broadcasted content.One of the most significant advancements in technology has been the development of digital transmitter stations. Unlike their analog counterparts, digital stations provide clearer sound and picture quality, making communication more efficient. These modern transmitter stations utilize advanced encoding techniques that compress data, allowing for more information to be transmitted in a shorter amount of time. This efficiency is particularly important in today’s fast-paced world, where instant access to information is highly valued.Moreover, transmitter stations play a vital role in emergency communications. During natural disasters or other emergencies, these stations can quickly disseminate critical information to the public. For instance, when a hurricane is approaching, local transmitter stations can broadcast warnings and safety instructions to help keep communities safe. The reliability of these stations ensures that even in times of crisis, people can stay informed and make necessary preparations.In addition to broadcasting, transmitter stations also facilitate two-way communication in various applications. For example, in aviation, ground-based transmitter stations communicate with aircraft, providing essential information regarding navigation and weather. Similarly, in maritime operations, these stations help ships stay connected with land-based facilities, ensuring safe and efficient travel across oceans.Despite the importance of transmitter stations, they face challenges such as interference and signal degradation. Various factors, including geographical obstacles and atmospheric conditions, can affect the quality of the signals transmitted. To mitigate these issues, engineers continuously work on improving the technology behind transmitter stations. This includes developing more robust antennas and exploring new frequency bands that can enhance signal clarity.In conclusion, the significance of transmitter stations in the realm of communication cannot be overstated. They are the backbone of our ability to share information, especially in an age where connectivity is paramount. From delivering entertainment to providing critical updates during emergencies, transmitter stations ensure that we remain linked to one another. As technology continues to evolve, so too will the capabilities of these stations, paving the way for even more advanced methods of communication in the future.

在电信的世界中，发射台的角色对于有效地传输长距离信号至关重要。发射台是一个设施，负责将无线电、电视或其他类型的信号广播到远处的接收器。这些站点配备有强大的天线和发射机，可以发送携带信息的电磁波。如果没有发射台，我们通过各种媒体进行沟通的能力将受到严重限制。发射台的基本功能是将电信号转换为无线电波。这个过程始于音频或视频内容的生成，然后由发射机调制到载波上。发射台放大这些波并通过天线发送，辐射信号到大气中。当这些波传播时，可以被接收器（如收音机或电视）接收，使用户能够访问广播的内容。技术的一个重大进展是数字发射台的发展。与模拟发射台不同，数字发射台提供更清晰的声音和画质，使通信更加高效。这些现代发射台利用先进的编码技术压缩数据，从而允许在更短的时间内传输更多的信息。在当今快节奏的世界中，这种效率尤为重要，因为人们非常重视即时获取信息。此外，发射台在应急通信中也发挥着重要作用。在自然灾害或其他紧急情况下，这些站点可以快速向公众传播关键信息。例如，当飓风来临时，当地发射台可以广播警告和安全指示，以帮助社区保持安全。这些站点的可靠性确保即使在危机时期，人们也能保持知情并做好必要的准备。除了广播，发射台还在各种应用中促进双向通信。例如，在航空领域，地面发射台与飞机进行通信，提供有关导航和天气的重要信息。同样，在海洋操作中，这些站点帮助船只与陆基设施保持联系，确保跨越海洋的安全和高效旅行。尽管发射台的重要性不容小觑，但它们面临着干扰和信号衰减等挑战。地理障碍和大气条件等各种因素可能会影响传输信号的质量。为了减轻这些问题，工程师们不断努力改进发射台背后的技术。这包括开发更强大的天线和探索新的频段，以增强信号的清晰度。总之，发射台在通信领域的重要性不容低估。它们是我们分享信息能力的支柱，尤其是在连接至关重要的时代。从提供娱乐到在紧急情况下提供关键更新，发射台确保我们彼此保持联系。随着技术的不断发展，这些站点的能力也将不断提升，为未来更先进的通信方式铺平道路。