repeater distribution frame

简明释义

分配电板

英英释义

例句

1.Installing a repeater distribution frame can significantly reduce the amount of cable clutter in the server room.

安装一个中继分配框可以显著减少服务器机房中的电缆杂乱。

2.After troubleshooting, we found that the issue was related to the repeater distribution frame configuration.

经过故障排除，我们发现问题与中继分配框的配置有关。

3.The technician installed a new repeater distribution frame to enhance the signal quality in the building.

技术人员安装了一个新的中继分配框以增强建筑物内的信号质量。

4.During the network upgrade, we had to replace the old repeater distribution frame with a more efficient model.

在网络升级过程中，我们不得不将旧的中继分配框更换为更高效的型号。

5.The repeater distribution frame is crucial for managing multiple connections in a telecommunications hub.

在电信中心，中继分配框对管理多个连接至关重要。

作文

In the modern world, communication systems play a vital role in our daily lives. One of the critical components in these systems is the infrastructure that supports data transmission. Among these components, the repeater distribution frame stands out as an essential element for enhancing signal quality and ensuring reliable communication. A repeater distribution frame is a device used in telecommunications to manage and distribute signals from multiple sources while maintaining their integrity over long distances.The primary function of a repeater distribution frame is to amplify signals that have weakened due to distance or interference. As signals travel through cables, they can lose strength, leading to poor quality or complete loss of communication. By utilizing a repeater distribution frame, telecommunication companies can ensure that the signals remain strong enough to reach their intended destinations without degradation.Moreover, the repeater distribution frame serves as a central hub where different communication lines converge. This functionality allows for easier management and troubleshooting of the network. When issues arise, technicians can quickly access the repeater distribution frame to identify and resolve problems, minimizing downtime and ensuring continuous service for users.Another significant advantage of using a repeater distribution frame is its scalability. As demand for data and communication services grows, networks must adapt to accommodate more users and devices. The modular design of many repeater distribution frames allows for easy expansion, enabling providers to add additional repeaters or connections without overhauling the entire system. This flexibility is crucial in today’s fast-paced technological landscape, where rapid changes in user behavior and expectations are the norm.In addition to its practical applications, the repeater distribution frame also contributes to the overall efficiency of communication networks. By strategically placing repeaters within a network, providers can optimize the flow of data, reducing latency and improving response times. This optimization is particularly important for businesses that rely on real-time communication and data transfer, such as financial institutions or online service providers.Furthermore, with the rise of smart technologies and the Internet of Things (IoT), the importance of a robust communication infrastructure has become even more pronounced. Devices connected to the IoT require stable and reliable communication channels to function effectively. The repeater distribution frame plays a pivotal role in supporting these connections, ensuring that data can be transmitted seamlessly between devices and servers.In conclusion, the repeater distribution frame is a fundamental component of modern telecommunications systems. Its ability to amplify signals, manage connections, and facilitate network expansion makes it indispensable for service providers. As technology continues to evolve, the role of the repeater distribution frame will only become more critical in ensuring that communication remains efficient, reliable, and scalable. Understanding the significance of this device can help us appreciate the complex infrastructure that underpins our daily communications, allowing us to stay connected in an increasingly digital world.

在现代社会，通信系统在我们的日常生活中扮演着至关重要的角色。在这些系统中，支持数据传输的基础设施是关键组成部分。重复分配框架作为一种增强信号质量并确保可靠通信的基本元素，脱颖而出。重复分配框架是电信中用于管理和分发来自多个源的信号的设备，同时保持信号在长距离传输中的完整性。重复分配框架的主要功能是放大由于距离或干扰而减弱的信号。当信号通过电缆传播时，它们可能会失去强度，导致通信质量差或完全失去通信。通过利用重复分配框架，电信公司可以确保信号保持足够强，以便无失真地到达预定目的地。此外，重复分配框架作为不同通信线路汇聚的中央枢纽。这种功能使网络的管理和故障排除变得更加容易。当出现问题时，技术人员可以快速访问重复分配框架以识别和解决问题，从而最小化停机时间并确保用户的持续服务。使用重复分配框架的另一个显著优势是其可扩展性。随着数据和通信服务需求的增长，网络必须适应以容纳更多用户和设备。许多重复分配框架的模块化设计允许轻松扩展，使提供商能够在不彻底改造整个系统的情况下添加额外的重复器或连接。这种灵活性在当今快速变化的技术环境中至关重要，因为用户行为和期望的快速变化已成为常态。除了其实际应用外，重复分配框架还提高了通信网络的整体效率。通过在网络中战略性地放置重复器，提供商可以优化数据流，减少延迟并改善响应时间。这种优化对依赖实时通信和数据传输的企业尤为重要，例如金融机构或在线服务提供商。此外，随着智能技术和物联网（IoT）的兴起，强大通信基础设施的重要性变得更加明显。连接到物联网的设备需要稳定可靠的通信通道才能有效运作。重复分配框架在支持这些连接方面发挥着关键作用，确保数据可以在设备和服务器之间无缝传输。总之，重复分配框架是现代电信系统的基本组成部分。它放大信号、管理连接和促进网络扩展的能力使其对服务提供商不可或缺。随着技术的不断发展，重复分配框架的角色在确保通信高效、可靠和可扩展方面将变得更加关键。理解这一设备的重要性可以帮助我们欣赏支撑我们日常通信的复杂基础设施，使我们能够在日益数字化的世界中保持连接。