automatic timing corrector

简明释义

自动时间校准器

英英释义

例句

1.Musicians rely on an automatic timing corrector to keep their recordings in perfect time.

音乐家依赖于自动定时校正器来保持录音的完美节奏。

2.The software update included a more advanced automatic timing corrector for better performance.

软件更新包含一个更先进的自动定时校正器以提高性能。

3.In broadcasting, an automatic timing corrector ensures that all audio tracks are synchronized perfectly.

在广播中，自动定时校正器确保所有音轨完美同步。

4.Using an automatic timing corrector can significantly reduce editing time in video production.

使用自动定时校正器可以显著减少视频制作中的编辑时间。

5.The new model of the audio mixer includes an automatic timing corrector to enhance sound quality.

新型号的音频混音器包括一个自动定时校正器以提高音质。

作文

In today's fast-paced technological world, precision and accuracy are paramount in various fields, from telecommunications to automotive engineering. One of the critical components that help achieve this level of precision is the automatic timing corrector. An automatic timing corrector (自动时序校正器) is a device or system used to ensure that time-based operations occur at the correct intervals. This is particularly important in systems where synchronization is crucial, such as in digital communications and signal processing. The functionality of an automatic timing corrector lies in its ability to monitor and adjust the timing of signals and processes automatically. For instance, in digital broadcasting, if the timing of the transmitted signals is off, it can lead to poor quality audio and video output. An automatic timing corrector continuously analyzes the timing of these signals and makes real-time adjustments to maintain synchronization. Moreover, the importance of an automatic timing corrector extends beyond just communication technologies. In the automotive industry, modern vehicles are equipped with numerous electronic systems that require precise timing for optimal performance. These include engine control units (ECUs), anti-lock braking systems (ABS), and advanced driver-assistance systems (ADAS). An automatic timing corrector ensures that all these systems operate harmoniously, enhancing safety and efficiency. Another significant application of an automatic timing corrector can be found in the realm of computer networks. Data packets transmitted over a network must arrive in the correct order and at the right time. If there are delays or discrepancies in timing, it could result in data loss or corruption. By utilizing an automatic timing corrector, network devices can synchronize their clocks, minimizing latency and improving overall network performance. The evolution of technology has led to the development of more sophisticated automatic timing corrector systems. With advancements in algorithms and processing power, these devices can now make more accurate predictions and adjustments. For example, machine learning techniques are being employed to enhance the capabilities of automatic timing correctors, allowing them to learn from past data and improve their timing correction methods over time. However, implementing an automatic timing corrector is not without its challenges. The complexity of modern systems means that these devices must be designed to handle a wide range of scenarios and potential errors. Additionally, the cost of integrating such technology can be a barrier for some industries. Nevertheless, the benefits of improved accuracy and reliability often outweigh these challenges. In conclusion, the automatic timing corrector (自动时序校正器) plays a vital role in ensuring the precision and reliability of various technological systems. As we continue to advance into an era of increased automation and connectivity, the significance of accurate timing will only grow. Industries that leverage automatic timing corrector technologies will likely see enhanced performance and reduced errors, paving the way for innovations that were once thought impossible. Understanding and embracing the capabilities of automatic timing corrector systems will be essential for future developments in technology.

在当今快速发展的技术世界中，精确度和准确性在各个领域都至关重要，从电信到汽车工程。其中一个帮助实现这种精确度的关键组件是自动时序校正器。自动时序校正器（automatic timing corrector）是一种设备或系统，用于确保基于时间的操作在正确的间隔内发生。这在同步至关重要的系统中尤为重要，例如数字通信和信号处理。自动时序校正器的功能在于其能够自动监控和调整信号和过程的时序。例如，在数字广播中，如果传输信号的时序不正确，可能会导致音频和视频输出质量差。自动时序校正器不断分析这些信号的时序，并实时调整以保持同步。此外，自动时序校正器的重要性不仅限于通信技术。在汽车工业中，现代车辆配备了许多电子系统，这些系统需要精确的时序以实现最佳性能。这些系统包括发动机控制单元（ECU）、防抱死制动系统（ABS）和高级驾驶辅助系统（ADAS）。自动时序校正器确保所有这些系统和谐运作，提高安全性和效率。另一个显著的自动时序校正器应用可以在计算机网络领域找到。通过网络传输的数据包必须以正确的顺序和适当的时间到达。如果时序存在延迟或差异，可能会导致数据丢失或损坏。通过利用自动时序校正器，网络设备可以同步它们的时钟，最小化延迟并改善整体网络性能。随着技术的发展，更复杂的自动时序校正器系统也应运而生。随着算法和处理能力的进步，这些设备现在能够做出更准确的预测和调整。例如，机器学习技术正在被用来增强自动时序校正器的能力，使其能够从过去的数据中学习，并随着时间的推移改进其时序校正方法。然而，实施自动时序校正器并非没有挑战。现代系统的复杂性意味着这些设备必须设计得能够处理各种场景和潜在错误。此外，集成此类技术的成本可能对某些行业构成障碍。尽管如此，改进的准确性和可靠性的好处往往超过这些挑战。总之，自动时序校正器（automatic timing corrector）在确保各种技术系统的精确性和可靠性方面发挥着至关重要的作用。随着我们继续进入一个更加自动化和互联的时代，准确时序的重要性只会增加。利用自动时序校正器技术的行业可能会看到性能提升和错误减少，为曾经认为不可能的创新铺平道路。理解和接受自动时序校正器系统的能力将是未来技术发展的关键。