automatic local frequency control

简明释义

本机频率自动控制

英英释义

例句

1.The implementation of automatic local frequency control has significantly improved the audio quality of the broadcast.

实施自动本地频率控制显著提高了广播的音质。

2.With automatic local frequency control, the device can adjust to signal changes without manual input.

通过自动本地频率控制，设备可以在没有手动输入的情况下调整信号变化。

3.The new radio system features automatic local frequency control, which ensures clearer reception.

新无线电系统具有自动本地频率控制功能，确保更清晰的接收。

4.In telecommunications, automatic local frequency control is essential for maintaining stable connections.

在电信中，自动本地频率控制对于保持稳定连接至关重要。

5.Our latest model uses automatic local frequency control to maintain optimal performance in varying conditions.

我们最新的型号使用自动本地频率控制以在不同条件下保持最佳性能。

作文

In today's rapidly evolving technological landscape, maintaining stable communication systems is paramount. One of the key components that ensure the reliability of these systems is the concept of automatic local frequency control. This term refers to a mechanism that automatically adjusts the frequency of a signal to maintain optimal performance in various conditions. The significance of automatic local frequency control is particularly evident in telecommunications, broadcasting, and even in modern computing systems.To better understand this concept, we can break it down into its fundamental elements. Frequency, in the context of signals, refers to the number of oscillations or cycles that occur in a given time frame. In communication systems, the frequency must remain stable to ensure that the transmitted data is received accurately. However, various factors such as environmental conditions, equipment variations, and interference can cause frequency drift, leading to degraded performance.This is where automatic local frequency control comes into play. It acts as a corrective measure, continuously monitoring the frequency and making real-time adjustments as needed. For instance, in radio broadcasting, if the frequency of the transmitter drifts due to temperature changes or other external influences, automatic local frequency control will detect this drift and adjust the transmitter's frequency back to its designated value. This ensures that listeners receive a clear and uninterrupted signal.Moreover, the implementation of automatic local frequency control improves the overall efficiency of communication systems. By automating the frequency correction process, operators can reduce the need for manual interventions, which can be time-consuming and prone to human error. This not only saves time but also enhances the reliability of the system.In addition to telecommunications, automatic local frequency control is also crucial in the realm of computing. Modern processors and integrated circuits often rely on precise timing for optimal performance. Any deviation in frequency can lead to errors in processing or data transmission. With automatic local frequency control, these devices can self-adjust their operating frequencies to ensure they function correctly under varying loads and conditions.Furthermore, the rise of Internet of Things (IoT) devices has amplified the importance of automatic local frequency control. As more devices connect to the internet and communicate with each other, maintaining stable frequencies becomes essential for seamless interactions. If one device operates on an unstable frequency, it can disrupt the entire network, leading to failures or delays in communication.In conclusion, automatic local frequency control is a vital technology that plays a significant role in ensuring the stability and reliability of communication systems across various domains. Its ability to automatically adjust frequencies in real-time not only enhances performance but also contributes to the overall efficiency of systems. As technology continues to advance, the importance of automatic local frequency control will only grow, making it a critical area of focus for engineers and developers alike. Understanding and mastering this concept will undoubtedly pave the way for future innovations in communication and computing technologies.

在当今快速发展的技术环境中，维护稳定的通信系统至关重要。确保这些系统可靠性的关键组成部分之一是自动本地频率控制的概念。这个术语指的是一种机制，它会自动调整信号的频率，以保持在各种条件下的最佳性能。自动本地频率控制的重要性在电信、广播甚至现代计算系统中尤为明显。为了更好地理解这个概念，我们可以将其分解为基本要素。在信号的上下文中，频率是指在给定时间框架内发生的振荡或周期的数量。在通信系统中，频率必须保持稳定，以确保传输的数据被准确接收。然而，环境条件、设备变化和干扰等各种因素可能导致频率漂移，从而导致性能下降。这就是自动本地频率控制发挥作用的地方。它作为一种纠正措施，持续监测频率，并根据需要进行实时调整。例如，在无线广播中，如果由于温度变化或其他外部影响，发射器的频率漂移，自动本地频率控制将检测到这一漂移并将发射器的频率调整回其指定值。这确保了听众接收到清晰和不间断的信号。此外，实施自动本地频率控制提高了通信系统的整体效率。通过自动化频率校正过程，操作员可以减少手动干预的需求，这可能既耗时又容易出错。这不仅节省了时间，还增强了系统的可靠性。除了电信，自动本地频率控制在计算领域也至关重要。现代处理器和集成电路通常依赖精确的时序以实现最佳性能。频率的任何偏差都可能导致处理或数据传输中的错误。通过自动本地频率控制，这些设备可以自我调整其工作频率，以确保在不同负载和条件下正常运行。此外，物联网（IoT）设备的兴起进一步强调了自动本地频率控制的重要性。随着越来越多的设备连接到互联网并相互通信，保持稳定的频率对于无缝交互至关重要。如果一个设备在不稳定的频率下运行，它可能会干扰整个网络，导致通信中的故障或延迟。总之，自动本地频率控制是一项重要技术，在确保各个领域通信系统的稳定性和可靠性方面发挥着重要作用。它能够实时自动调整频率，不仅提高了性能，还有助于系统的整体效率。随着技术的不断进步，自动本地频率控制的重要性将只会增加，使其成为工程师和开发人员关注的关键领域。理解和掌握这一概念无疑将为未来通信和计算技术的创新铺平道路。