transmission range

简明释义

传输距离

英英释义

例句

1.We need to test the transmission range of the drone before the delivery service launch.

在交付服务启动之前，我们需要测试无人机的传输范围。

2.Adjusting the antenna can improve the transmission range of your radio.

调整天线可以改善收音机的传输范围。

3.The transmission range of this Bluetooth speaker is about 30 feet.

这个蓝牙音箱的传输范围大约是30英尺。

4.In rural areas, the transmission range of cellular networks can be quite limited.

在农村地区，蜂窝网络的传输范围可能相当有限。

5.The new wireless router has a 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更大。

作文

In the modern world, communication technology plays a pivotal role in our daily lives. One crucial aspect of this technology is the concept of transmission range. The transmission range refers to the maximum distance over which a signal can be effectively transmitted from one device to another without significant loss of quality or integrity. This concept is particularly important in various fields such as telecommunications, broadcasting, and networking.To better understand the significance of transmission range, let us consider the example of mobile phones. When you make a call or send a message, your phone communicates with a nearby cell tower. The transmission range of that cell tower determines how far away you can be while still maintaining a strong connection. If you move beyond this range, the call may drop, or the message may fail to send. Therefore, the transmission range is essential for ensuring seamless communication.Another area where transmission range is critical is in wireless networks. Wi-Fi routers have a specific transmission range that dictates how far devices can be from the router while still receiving a stable internet connection. Typically, walls and other obstacles can reduce this range, leading to dead zones in homes or offices. Understanding the transmission range of your router can help you optimize the placement of your devices to ensure the best connectivity.Moreover, the transmission range is not only limited to radio waves but also applies to other forms of data transmission, such as infrared and Bluetooth technologies. For instance, Bluetooth devices have a much shorter transmission range compared to Wi-Fi, usually around 30 feet. This limitation necessitates closer proximity between devices for effective communication, which can be advantageous in certain scenarios, such as connecting headphones to a smartphone.In the field of broadcasting, the transmission range of television and radio signals is vital for reaching audiences. A station's transmission range affects how far its signals can travel and how many people can access its content. Stations often invest in powerful transmitters to extend their transmission range, ensuring that they can reach as many listeners or viewers as possible.Understanding the transmission range also has implications for safety and emergency services. For instance, during natural disasters, communication systems must maintain a reliable transmission range to coordinate rescue efforts and inform the public. If the transmission range is inadequate, critical information may not reach those in need, potentially leading to disastrous consequences.In conclusion, the concept of transmission range is fundamental to the effectiveness of communication technologies. Whether in personal devices like mobile phones, home networking equipment, broadcasting stations, or emergency services, understanding and optimizing the transmission range is crucial for ensuring reliable and efficient communication. As technology continues to evolve, advancements in increasing transmission range will undoubtedly play a significant role in enhancing connectivity and accessibility in our increasingly interconnected world.

在现代世界中，通信技术在我们的日常生活中发挥着关键作用。这个技术的一个重要方面是“transmission range”的概念。“transmission range”指的是信号从一个设备有效传输到另一个设备而不显著失去质量或完整性的最大距离。这个概念在电信、广播和网络等多个领域尤为重要。为了更好地理解“transmission range”的重要性，让我们考虑手机的例子。当你拨打电话或发送信息时，你的手机会与附近的基站进行通信。该基站的“transmission range”决定了你能在多远的地方保持强连接。如果你超出这个范围，通话可能会中断，或者信息可能无法发送。因此，“transmission range”对于确保无缝通信至关重要。另一个“transmission range”至关重要的领域是无线网络。Wi-Fi路由器有特定的“transmission range”，决定了设备可以离路由器多远而仍然接收到稳定的互联网连接。通常，墙壁和其他障碍物会减少这个范围，导致家庭或办公室出现死角。了解路由器的“transmission range”可以帮助你优化设备的放置，以确保最佳连接。此外，“transmission range”不仅限于无线电波，还适用于红外线和蓝牙技术等其他数据传输形式。例如，蓝牙设备的“transmission range”通常比Wi-Fi短，通常在30英尺左右。这一限制要求设备之间必须更近的距离才能有效通信，这在某些情况下是有利的，例如将耳机连接到智能手机。在广播领域，电视和广播信号的“transmission range”对接触观众至关重要。一个电台的“transmission range”影响其信号传播的距离以及多少人可以访问其内容。电台通常会投资于强大的发射机，以扩展其“transmission range”，确保能够接触到尽可能多的听众或观众。理解“transmission range”也对安全和应急服务有重要意义。例如，在自然灾害期间，通信系统必须保持可靠的“transmission range”以协调救援工作并通知公众。如果“transmission range”不足，关键信息可能无法到达需要的人，可能导致灾难性后果。总之，“transmission range”的概念是通信技术有效性的基础。无论是在个人设备如手机、家庭网络设备、广播电台还是应急服务中，理解和优化“transmission range”对于确保可靠和高效的通信至关重要。随着技术的不断发展，提升“transmission range”的进步无疑将在增强我们日益互联的世界中的连接性和可达性方面发挥重要作用。