transmission range

简明释义

运输范围

英英释义

例句

1.To improve the transmission range, you might consider adding a signal booster.

为了提高传输范围，你可以考虑添加一个信号增强器。

2.The new wireless router has a much larger transmission range than the previous model.

新的无线路由器的传输范围比之前的型号大得多。

3.In urban areas, the transmission range of mobile signals can be significantly reduced due to buildings.

在城市地区，由于建筑物的存在，移动信号的传输范围可能会显著减少。

4.The transmission range of this drone allows it to fly over several kilometers away from the controller.

这款无人机的传输范围允许它飞行到离控制器几公里远的地方。

5.When setting up a network, it's crucial to understand the transmission range of your devices.

在设置网络时，了解设备的传输范围至关重要。

作文

In today's rapidly advancing technological landscape, the concept of transmission range has become increasingly important, especially in the fields of telecommunications and wireless communication. The transmission range refers to the maximum distance over which a signal can be transmitted effectively without significant loss of quality or integrity. This range is critical for ensuring that devices can communicate with each other seamlessly, whether they are smartphones, computers, or IoT devices. To understand the significance of transmission range, we must first consider how signals are generated and transmitted. In wireless communication, signals are typically sent from a transmitter to a receiver through the air. The strength of the signal diminishes as it travels further from the source due to various factors such as distance, obstacles, and interference from other signals. Therefore, knowing the transmission range is essential for designing systems that can operate efficiently within specific environments.For instance, in urban areas where buildings and other structures can obstruct signals, the transmission range may be significantly reduced. This means that devices need to be placed closer together to maintain effective communication. On the other hand, in open spaces, the transmission range can be much greater, allowing for wider coverage without the need for additional repeaters or boosters.Moreover, advancements in technology have led to the development of various methods to enhance transmission range. Techniques such as signal amplification, the use of repeaters, and advanced antenna designs can help extend the effective range of a signal. For example, 5G technology has introduced new frequency bands that allow for higher data rates and improved transmission range, making it possible for devices to connect over greater distances without sacrificing performance.The implications of transmission range extend beyond just personal devices. In industries such as agriculture, smart cities, and healthcare, understanding and optimizing transmission range can lead to significant improvements in operational efficiency and service delivery. For instance, in precision agriculture, sensors deployed across vast fields rely on effective transmission range to relay data back to farmers, enabling them to make informed decisions based on real-time information.In conclusion, the concept of transmission range is a fundamental aspect of modern communication technologies. As we continue to innovate and develop new applications for wireless communication, understanding how to optimize transmission range will be crucial. Whether it's enhancing connectivity in urban environments or improving the efficiency of industrial applications, the ability to manage and extend transmission range will undoubtedly play a vital role in shaping the future of technology. By prioritizing research and development in this area, we can ensure that our devices remain connected and functional, regardless of the challenges posed by distance and obstacles.

在当今快速发展的技术环境中，‘传输范围’的概念变得越来越重要，尤其是在电信和无线通信领域。‘传输范围’是指信号在没有显著质量或完整性损失的情况下可以有效传输的最大距离。这个范围对于确保设备之间无缝通信至关重要，无论它们是智能手机、计算机还是物联网设备。要理解‘传输范围’的重要性，我们首先必须考虑信号是如何生成和传输的。在无线通信中，信号通常通过空气从发射器发送到接收器。由于距离、障碍物和其他信号的干扰等各种因素，信号的强度在离开源头时会减弱。因此，了解‘传输范围’对于设计能够在特定环境中高效运行的系统至关重要。例如，在建筑物和其他结构可能阻碍信号的城市地区，‘传输范围’可能会显著缩小。这意味着设备需要放置得更近，以保持有效的通信。另一方面，在开放空间中，‘传输范围’可以更大，使得在不需要额外的中继器或增强器的情况下实现更广泛的覆盖。此外，技术的进步导致了多种增强‘传输范围’的方法的发展。信号放大、使用中继器和先进天线设计等技术可以帮助延长信号的有效范围。例如，5G技术引入了新的频段，可以实现更高的数据速率和改进的‘传输范围’，使设备能够在更远的距离上连接，而不会牺牲性能。‘传输范围’的影响不仅限于个人设备。在农业、智慧城市和医疗保健等行业，理解和优化‘传输范围’可以显著提高运营效率和服务交付。例如，在精准农业中，部署在广阔田地中的传感器依赖于有效的‘传输范围’将数据传回给农民，使他们能够根据实时信息做出明智的决策。总之，‘传输范围’的概念是现代通信技术的基本方面。随着我们继续创新和开发无线通信的新应用，理解如何优化‘传输范围’将至关重要。无论是在城市环境中增强连接性，还是提高工业应用的效率，管理和扩展‘传输范围’的能力无疑将在塑造技术的未来中发挥重要作用。通过优先考虑这一领域的研究和发展，我们可以确保我们的设备保持连接和功能，无论距离和障碍带来的挑战。