signalling frequency

简明释义

振铃频率

英英释义

例句

1.The signalling frequency 信号频率 affects the overall latency of the communication system.

信号系统的整体延迟受信号频率 signalling frequency 的影响。

2.The network's signalling frequency 信号频率 has increased due to higher user demand.

由于用户需求增加，网络的信号频率 signalling frequency 增加了。

3.A lower signalling frequency 信号频率 can lead to improved battery life in mobile devices.

较低的信号频率 signalling frequency 可以延长移动设备的电池寿命。

4.We need to monitor the signalling frequency 信号频率 to ensure reliable connections.

我们需要监控信号频率 signalling frequency 以确保连接可靠。

5.Engineers are analyzing the signalling frequency 信号频率 to optimize system performance.

工程师正在分析信号频率 signalling frequency 以优化系统性能。

作文

In the realm of communication systems, the concept of signalling frequency plays a pivotal role in ensuring effective transmission of information. The term signalling frequency refers to the rate at which signals are transmitted over a communication channel. This frequency can significantly influence the quality and reliability of the communication process. For instance, in radio communications, different signalling frequencies are utilized for various purposes, such as broadcasting music or transmitting data. Each frequency has its unique characteristics, which can affect how well the signal travels over distances and penetrates obstacles.Understanding signalling frequency is essential for engineers and technicians who design and maintain communication systems. They must consider factors such as bandwidth, modulation techniques, and interference when selecting appropriate signalling frequencies. A higher signalling frequency may allow for more data to be transmitted in a given time frame, but it may also be more susceptible to attenuation and interference from physical barriers, such as buildings or trees.Moreover, the choice of signalling frequency can impact the overall performance of wireless networks. For example, in mobile telecommunications, operators often use multiple signalling frequencies to optimize coverage and capacity. By strategically allocating different frequencies to various cells within a network, operators can manage traffic more effectively and ensure that users experience minimal latency and high-quality connections.The significance of signalling frequency extends beyond technical specifications; it also has practical implications for everyday users. When consumers purchase devices such as smartphones or routers, they may not realize that the signalling frequency used by these devices can affect their internet speed and connectivity. Devices that operate on higher signalling frequencies may provide faster speeds but could struggle with range, while those on lower frequencies might offer broader coverage but at slower speeds.In addition to telecommunications, signalling frequency is also relevant in fields such as transportation and automation. For instance, in railway systems, signalling frequencies are critical for ensuring safe and efficient operations. Signals are transmitted at specific frequencies to communicate vital information between trains and control centers, helping to prevent accidents and optimize scheduling.In conclusion, the concept of signalling frequency is a fundamental aspect of modern communication systems. Its implications reach far beyond technical jargon, affecting the performance of devices we use daily and the efficiency of critical systems like transportation. As technology continues to evolve, understanding signalling frequency will remain essential for both professionals in the field and consumers navigating the increasingly complex landscape of communication technologies.

在通信系统领域，信号频率的概念在确保信息有效传输方面发挥着关键作用。术语信号频率指的是信号在通信通道上发送的速率。这一频率可以显著影响通信过程的质量和可靠性。例如，在无线电通信中，不同的信号频率被用于各种目的，如广播音乐或传输数据。每种频率都有其独特的特性，这可能会影响信号在距离上的传播效果以及穿透障碍物的能力。理解信号频率对于设计和维护通信系统的工程师和技术人员至关重要。他们必须考虑带宽、调制技术和干扰等因素，以选择合适的信号频率。更高的信号频率可能允许在给定时间内传输更多的数据，但它也可能更容易受到衰减和来自物理障碍（如建筑物或树木）的干扰。此外，信号频率的选择可以影响无线网络的整体性能。例如，在移动通信中，运营商通常使用多个信号频率来优化覆盖范围和容量。通过战略性地将不同的频率分配到网络中的各个小区，运营商可以更有效地管理流量，并确保用户体验到最小的延迟和高质量的连接。信号频率的重要性不仅限于技术规格；它对日常用户也有实际影响。当消费者购买智能手机或路由器等设备时，他们可能没有意识到这些设备所使用的信号频率会影响他们的互联网速度和连接性。运行在更高信号频率上的设备可能提供更快的速度，但在范围上可能会遇到困难，而在较低频率上的设备则可能提供更广泛的覆盖但速度较慢。除了电信，信号频率在交通和自动化等领域也很相关。例如，在铁路系统中，信号频率对于确保安全和高效的操作至关重要。信号以特定频率传输，以在火车和控制中心之间传达重要信息，帮助防止事故并优化调度。总之，信号频率的概念是现代通信系统的基本方面。其影响远远超出了技术术语，影响着我们日常使用设备的性能以及像交通运输这样的关键系统的效率。随着技术的不断发展，理解信号频率将对专业人士和普通消费者在日益复杂的通信技术环境中导航至关重要。