transmit-receive path

简明释义

发射—接收路径

英英释义

例句

1.The engineer optimized the transmit-receive path to enhance signal clarity in the communication system.

工程师优化了传输接收路径以提高通信系统中的信号清晰度。

2.In satellite communications, ensuring a clear transmit-receive path is crucial for data integrity.

在卫星通信中，确保清晰的传输接收路径对数据完整性至关重要。

3.Adjusting the antenna position improved the transmit-receive path significantly.

调整天线位置显著改善了传输接收路径。

4.The team conducted tests on the transmit-receive path to identify potential interference issues.

团队对传输接收路径进行了测试，以识别潜在的干扰问题。

5.A longer transmit-receive path can lead to increased latency in wireless networks.

更长的传输接收路径可能会导致无线网络中的延迟增加。

作文

In the realm of communication technology, understanding the concept of the transmit-receive path is crucial. This term refers to the route that signals take as they travel from a sender to a receiver. Whether it is in radio communications, telecommunications, or data transfer networks, the efficiency and reliability of this path can significantly impact the quality of the communication. To elaborate, the transmit-receive path encompasses various components, including antennas, transmitters, receivers, and the medium through which the signals travel. For instance, in wireless communication, the signal may be transmitted through the air, while in wired communication, it may traverse through cables. Each of these elements plays a vital role in ensuring that the information is accurately sent and received. Moreover, the quality of the transmit-receive path can be affected by numerous factors such as distance, interference, and environmental conditions. For example, in a radio communication system, obstacles like buildings or trees can obstruct the signal, leading to a weaker reception. Similarly, in a wired network, the length of the cable can introduce resistance and attenuation, degrading the signal quality. Therefore, engineers and technicians must carefully design and optimize the transmit-receive path to mitigate these issues and enhance performance. In addition to physical components, the transmit-receive path also involves protocols and standards that govern how data is transmitted and received. These protocols ensure that the information is encoded, transmitted, and decoded correctly. For instance, in computer networks, the Transmission Control Protocol (TCP) is essential for establishing reliable connections and ensuring that data packets are delivered in the correct order. Understanding these protocols is vital for anyone working in the field of communication technology, as they directly influence the effectiveness of the transmit-receive path. Furthermore, advancements in technology have led to the development of more sophisticated transmit-receive paths. With the rise of 5G technology, for example, the speed and capacity of data transmission have dramatically increased. This has opened up new possibilities for applications such as autonomous vehicles, smart cities, and the Internet of Things (IoT). As we continue to innovate and improve communication systems, the importance of optimizing the transmit-receive path cannot be overstated. In conclusion, the concept of the transmit-receive path is fundamental to understanding how communication systems operate. It encompasses not only the physical components involved in transmitting and receiving signals but also the protocols and standards that ensure effective communication. As technology evolves, so too does the need for efficient and reliable transmit-receive paths, making it an essential area of study for future engineers and technologists. By mastering this concept, one can contribute to the ongoing advancements in communication technology, ultimately enhancing our ability to connect and share information across the globe.

在通信技术领域，理解“传输-接收路径”这一概念至关重要。这个术语指的是信号从发送者到接收者所经过的路线。无论是在无线电通信、电话通信还是数据传输网络中，这条路径的效率和可靠性都会显著影响通信的质量。进一步说，“传输-接收路径”包括多个组件，包括天线、发射器、接收器以及信号传播的介质。例如，在无线通信中，信号可能通过空气进行传输，而在有线通信中，它可能通过电缆进行传输。这些元素中的每一个都在确保信息准确发送和接收方面发挥着至关重要的作用。此外，“传输-接收路径”的质量可能受到多种因素的影响，如距离、干扰和环境条件。例如，在无线电通信系统中，建筑物或树木等障碍物可能会阻碍信号，从而导致接收信号减弱。同样，在有线网络中，电缆的长度可能引入阻抗和衰减，从而降低信号质量。因此，工程师和技术人员必须仔细设计和优化“传输-接收路径”，以减轻这些问题并提高性能。除了物理组件外，“传输-接收路径”还涉及管理数据传输和接收的协议和标准。这些协议确保信息被正确编码、传输和解码。例如，在计算机网络中，传输控制协议（TCP）对于建立可靠连接和确保数据包按正确顺序交付至关重要。理解这些协议对于任何在通信技术领域工作的人来说都是至关重要的，因为它们直接影响“传输-接收路径”的有效性。此外，技术的进步导致了更复杂的“传输-接收路径”的发展。例如，随着5G技术的兴起，数据传输的速度和容量大幅增加。这为自动驾驶汽车、智慧城市和物联网（IoT）等应用开辟了新的可能性。随着我们不断创新和改善通信系统，优化“传输-接收路径”的重要性不言而喻。总之，“传输-接收路径”的概念是理解通信系统如何运作的基础。它不仅涵盖了传输和接收信号所涉及的物理组件，还包括确保有效通信的协议和标准。随着技术的发展，对于高效和可靠的“传输-接收路径”的需求也在不断增加，使其成为未来工程师和技术人员的一个重要研究领域。通过掌握这一概念，人们可以为通信技术的持续进步做出贡献，最终增强我们在全球范围内连接和共享信息的能力。