transceivers

简明释义

英[trænsˈsiːvəz]美[trænˈsiːvərz]

n. [通信]收发器（transceiver 的复数）

英英释义

单词用法

同义词

反义词

例句

1.It is easy to set up: simply hook up infra-red laser transceivers on top of two buildings and then align them.

便易安装：将两座建筑顶端的红外线激光收发器简单地连接起来，然后将它们调整成行即可。

2.The host processor main control unit using STM32F103V8 achieve instrument control, wireless transceivers, alarm indicator, remote control, and work status display.

主机采用STM 32f 103 V 8处理器为主控单元，实现仪器操控、无线收发、报警指示、远程控制及工作状态显示等功能。

3.This paper provides a general study of this for transceivers with the zero-forcing constraint.

本文提供了一个一般性研究这个的收发器与迫零的制约因素。

4.This work could be a valuable reference for the design of Digital Optical Transceivers.

对设计数字光端机具有一定的参考作用。

5.Frequency synthesizer is the key block of SRD transceivers, and this thesis concentrates on the research and design of frequency synthesizers for SRD applications.

频率综合器是SRD收发器的关键模块，本文主要工作是研究与设计应用于SRD收发器的频率综合器。

6.It is therefore unclear why Russia should manufacture GPS-compatible transceivers that cost more, emit less clear signals and are less accurate than their U.S. equivalents.

因此也不清楚俄罗斯为什么将要生产与GPS相兼容的接收机，这些接收机与美国的类似设备相比，成本更高、信号强度弱而且精度更低。

7.The satellite communication system utilizes multiple transceivers to maintain connectivity.

卫星通信系统利用多个收发器来保持连接。

8.The new communication system uses advanced transceivers to ensure clear audio quality.

新的通信系统使用先进的收发器以确保清晰的音频质量。

9.Wireless networks rely heavily on transceivers for data transmission.

无线网络在数据传输中严重依赖于收发器。

10.Our drones are equipped with high-performance transceivers for real-time video streaming.

我们的无人机配备了高性能的收发器用于实时视频流传输。

11.Engineers are testing the transceivers for reliability in harsh environments.

工程师正在测试收发器在恶劣环境中的可靠性。

作文

In today's fast-paced technological world, communication plays a crucial role in connecting people and devices. One of the key components that facilitate this communication is the device known as a transceiver (收发器). A transceiver is a combination of a transmitter and a receiver, allowing for the transmission and reception of data over various types of networks. This dual functionality makes transceivers essential in numerous applications, ranging from telecommunications to computer networking.The importance of transceivers can be observed in various industries. For instance, in the field of telecommunications, transceivers are used to enable wireless communication. Mobile phones utilize transceivers to send and receive signals, allowing users to communicate with each other seamlessly. Without these devices, modern mobile communication as we know it would not be possible.In addition to mobile phones, transceivers are also integral to Wi-Fi technology. Wi-Fi routers contain transceivers that allow them to connect to the internet and transmit signals to devices within range. This has revolutionized how we access information and communicate, enabling us to stay connected anywhere and anytime. The ability to transmit data wirelessly has transformed not only personal communication but also business operations, making remote work and online collaboration a reality.Moreover, transceivers are vital in the realm of computer networking. They are used in Ethernet connections to facilitate data transfer between computers and network devices. By converting electrical signals into optical signals and vice versa, transceivers enhance the speed and efficiency of data transmission. This is particularly important in data centers where high-speed connectivity is required to handle large volumes of data.As technology continues to advance, the design and functionality of transceivers have evolved significantly. Modern transceivers are becoming more compact and energy-efficient, which is crucial for devices like smartphones and IoT (Internet of Things) gadgets. The integration of transceivers into smaller devices allows for greater flexibility and portability, catering to the demands of consumers who seek convenience and efficiency.Furthermore, the development of new communication standards, such as 5G, relies heavily on advanced transceivers. These next-generation transceivers are designed to handle higher frequencies and faster data rates, enabling a new era of connectivity that supports applications like autonomous vehicles and smart cities. The potential of transceivers in shaping the future of technology is immense, as they pave the way for innovations that will enhance our daily lives.In conclusion, transceivers are indispensable devices that bridge the gap between transmission and reception in communication systems. Their versatility and efficiency make them a fundamental component in various sectors, including telecommunications, networking, and beyond. As we move forward into a more connected world, the role of transceivers will only become more prominent, highlighting their significance in our increasingly digital lives.

在当今快速发展的技术世界中，通信在连接人和设备方面发挥着至关重要的作用。促进这种通信的关键组件之一是被称为收发器（transceiver）的设备。收发器是发射器和接收器的组合，允许在各种类型的网络上发送和接收数据。这种双重功能使得收发器在许多应用中变得至关重要，从电信到计算机网络。收发器的重要性可以在各个行业中观察到。例如，在电信领域，收发器用于实现无线通信。手机利用收发器发送和接收信号，使用户能够无缝沟通。没有这些设备，现代移动通信将不可能实现。除了手机之外，收发器在Wi-Fi技术中也不可或缺。Wi-Fi路由器包含收发器，使它们能够连接到互联网并向范围内的设备传输信号。这彻底改变了我们获取信息和沟通的方式，使我们能够随时随地保持联系。无线数据传输的能力不仅改变了个人通信，也改变了商业运营，使远程工作和在线协作成为现实。此外，收发器在计算机网络领域中至关重要。它们在以太网连接中用于促进计算机与网络设备之间的数据传输。通过将电信号转换为光信号及其反向操作，收发器提高了数据传输的速度和效率。这在数据中心尤为重要，因为需要高速连接来处理大量数据。随着技术的不断进步，收发器的设计和功能也发生了显著变化。现代收发器变得更加紧凑和节能，这对于智能手机和物联网（IoT）设备等设备至关重要。将收发器集成到更小的设备中，可以提供更大的灵活性和便携性，满足消费者对便利性和效率的需求。此外，新通信标准的发展，如5G，严重依赖于先进的收发器。这些下一代收发器旨在处理更高的频率和更快的数据速率，开启了支持自动驾驶汽车和智能城市等应用的新连接时代。收发器在塑造技术未来方面的潜力巨大，因为它们为增强我们日常生活的创新铺平了道路。总之，收发器是不可或缺的设备，它们在通信系统中弥合了传输和接收之间的差距。它们的多功能性和效率使其成为各个领域的基本组成部分，包括电信、网络等。随着我们迈向一个更加互联的世界，收发器的角色只会变得更加突出，突显出它们在我们日益数字化的生活中的重要性。