multiplex bus

简明释义

多路传输母线

英英释义

例句

1.The new robotic arm in the factory is controlled via a multiplex bus, which allows for efficient communication between components.

工厂中的新机器人臂通过多路复用总线进行控制，这允许组件之间高效通信。

2.The multiplex bus architecture allows multiple signals to be sent over a single connection, enhancing efficiency.

多路复用总线架构允许多个信号通过单一连接发送，从而提高效率。

3.Using a multiplex bus can significantly reduce the number of wiring needed in complex electronic systems.

使用多路复用总线可以显著减少复杂电子系统所需的布线数量。

4.In our smart home system, all devices are connected through a multiplex bus to streamline data transfer.

在我们的智能家居系统中，所有设备都通过多路复用总线连接，以简化数据传输。

5.The automotive industry increasingly relies on multiplex bus systems for better integration of electronic components.

汽车行业越来越依赖于多路复用总线系统，以更好地集成电子组件。

作文

In the world of electronics and communication, the term multiplex bus refers to a system that allows multiple signals to be transmitted over a single communication channel. This technology plays a crucial role in various applications, from computer architecture to telecommunications. Understanding the concept of multiplex bus is essential for anyone interested in the fields of engineering and technology.A multiplex bus operates on the principle of multiplexing, which is the process of combining multiple signals into one signal over a shared medium. This technique is particularly beneficial because it maximizes the use of available bandwidth and reduces the number of physical connections required. For instance, in a computer system, a multiplex bus can carry data from different components such as the CPU, memory, and input/output devices without needing separate wires for each connection.One of the primary advantages of using a multiplex bus is its efficiency. By consolidating multiple signals into a single channel, it minimizes the amount of wiring needed, which can lead to cost savings in manufacturing and installation. Additionally, this approach can enhance the overall performance of a system by reducing the potential for interference and signal degradation that can occur with multiple lines.In practice, a multiplex bus can be implemented in various ways. For example, in a time-division multiplexing (TDM) system, each signal is assigned a specific time slot during which it can transmit data. This method ensures that all signals share the same medium without overlapping, thus avoiding data collisions. On the other hand, frequency-division multiplexing (FDM) allocates different frequency bands to each signal, allowing them to be sent simultaneously over the same channel.The importance of multiplex bus systems extends beyond computers; they are also widely used in telecommunications. In mobile networks, for instance, a multiplex bus enables various types of data, including voice, video, and text messages, to be transmitted efficiently over the same infrastructure. This capability is vital for maintaining high-quality communication services in an increasingly connected world.Moreover, as technology evolves, the implementation of multiplex bus systems continues to advance. With the rise of the Internet of Things (IoT), where numerous devices communicate with each other, the need for efficient data transmission methods has become more critical than ever. The development of more sophisticated multiplex bus technologies can help meet the demands of this growing network of interconnected devices.In conclusion, the concept of multiplex bus is fundamental in modern electronics and communication systems. Its ability to facilitate the simultaneous transmission of multiple signals over a single channel makes it an invaluable tool in various applications. As we move towards a future where connectivity is paramount, understanding and utilizing multiplex bus technology will be essential for engineers and technologists alike. Whether in computer systems or telecommunications, the benefits of a multiplex bus are clear, making it a key component in the design and operation of efficient communication networks.

在电子和通信的世界中，术语multiplex bus指的是一种允许多个信号通过单一通信通道传输的系统。这项技术在从计算机架构到电信的各种应用中发挥着至关重要的作用。理解multiplex bus的概念对于任何对工程和技术感兴趣的人来说都是必不可少的。multiplex bus基于多路复用的原理，即将多个信号组合成一个信号，通过共享介质进行传输。这种技术特别有益，因为它最大化了可用带宽的使用，并减少了所需的物理连接数量。例如，在计算机系统中，multiplex bus可以在不需要每个连接单独布线的情况下，传输来自CPU、内存和输入/输出设备的数据。使用multiplex bus的主要优点之一是其效率。通过将多个信号合并为一个通道，它最小化了所需的布线量，这可以在制造和安装中节省成本。此外，这种方法还可以通过减少多条线路可能出现的干扰和信号衰减，提升系统的整体性能。在实践中，multiplex bus可以通过多种方式实现。例如，在时分多路复用（TDM）系统中，每个信号被分配一个特定的时间槽，在该时间槽内可以传输数据。这种方法确保所有信号共享同一介质而不会重叠，从而避免数据冲突。另一方面，频分多路复用（FDM）将不同的频率带分配给每个信号，从而允许它们在同一通道上同时发送。multiplex bus系统的重要性不仅限于计算机；它们也广泛应用于电信。例如，在移动网络中，multiplex bus使得语音、视频和文本消息等各种类型的数据能够高效地通过相同的基础设施传输。这种能力对于在日益互联的世界中维持高质量的通信服务至关重要。此外，随着技术的发展，multiplex bus系统的实施也在不断进步。随着物联网（IoT）的兴起，众多设备之间的通信需求变得更加关键。更复杂的multiplex bus技术的发展可以帮助满足这一日益增长的互联设备网络的需求。总之，multiplex bus的概念在现代电子和通信系统中是基础性的。它能够在单一通道上同时传输多个信号，使其在各种应用中成为一种无价的工具。随着我们走向一个连接至关重要的未来，理解和利用multiplex bus技术对于工程师和技术人员来说将是必不可少的。无论是在计算机系统还是电信中，multiplex bus的好处显而易见，使其成为高效通信网络设计和操作中的关键组成部分。