delayed pulse oscillator

简明释义

延迟脉冲振荡器

英英释义

例句

1.The engineer designed a new circuit that incorporates a delayed pulse oscillator to improve timing accuracy.

工程师设计了一种新电路，结合了一个延迟脉冲振荡器以提高定时精度。

2.In the lab, we tested the delayed pulse oscillator for its ability to generate precise timing signals.

在实验室中，我们测试了延迟脉冲振荡器生成精确时序信号的能力。

3.Using a delayed pulse oscillator, we were able to achieve better signal integrity in our communication system.

通过使用延迟脉冲振荡器，我们能够在通信系统中实现更好的信号完整性。

4.The delayed pulse oscillator is crucial for synchronizing multiple devices in our automation setup.

在我们的自动化设置中，延迟脉冲振荡器对同步多个设备至关重要。

5.The delayed pulse oscillator can be adjusted to create different pulse widths for various applications.

该延迟脉冲振荡器可以调整以为各种应用创建不同的脉冲宽度。

作文

In the field of electronics and signal processing, the term delayed pulse oscillator refers to a specific type of oscillator that generates pulses with a defined delay between them. This device is crucial in various applications, including telecommunications, radar systems, and digital circuits. Understanding how a delayed pulse oscillator works can provide insights into its importance and functionality in modern technology.A delayed pulse oscillator operates by producing a series of electrical pulses at regular intervals. The unique feature of this oscillator is its ability to introduce a delay between the generated pulses. This delay can be precisely controlled, allowing for various timing applications. For example, in a communication system, the delay may be used to synchronize signals from different sources, ensuring that data is transmitted accurately and efficiently.The basic components of a delayed pulse oscillator include a timing circuit, an amplifier, and a feedback loop. The timing circuit is responsible for determining the frequency of the pulses, while the amplifier boosts the signal strength. The feedback loop ensures that the pulses are generated consistently and with the desired delay. By adjusting the parameters within these components, engineers can design oscillators that meet specific requirements for different applications.One of the significant advantages of using a delayed pulse oscillator is its versatility. It can be utilized in various electronic devices, from simple timers to complex communication systems. For instance, in radar technology, a delayed pulse oscillator can help create precise timing sequences that are essential for accurate distance measurement. Similarly, in audio processing, it can be used to create echo effects by delaying sound signals before they are played back.Moreover, the implementation of a delayed pulse oscillator can enhance the performance of digital circuits. In microcontrollers and processors, these oscillators can synchronize operations, ensuring that different parts of the circuit work harmoniously. This synchronization is vital for maintaining the integrity of data and preventing errors during processing.In addition to its technical applications, understanding the concept of a delayed pulse oscillator also highlights the broader principles of timing and synchronization in electronics. As technology continues to advance, the need for precise timing mechanisms becomes increasingly important. Engineers and designers must consider how delays can impact overall system performance and reliability.In conclusion, the delayed pulse oscillator is an essential component in the realm of electronics, providing critical timing functions across various applications. Its ability to generate pulses with a controlled delay makes it invaluable in fields such as telecommunications, radar, and digital circuit design. As we continue to explore the complexities of electronic systems, the role of devices like the delayed pulse oscillator will undoubtedly grow, emphasizing the importance of timing and synchronization in our increasingly interconnected world.

在电子和信号处理领域，短语延迟脉冲振荡器指的是一种特定类型的振荡器，它生成具有定义延迟的脉冲。这种设备在各种应用中至关重要，包括电信、雷达系统和数字电路。理解延迟脉冲振荡器的工作原理可以提供对其在现代技术中重要性和功能的深入了解。延迟脉冲振荡器通过在规则间隔内产生一系列电脉冲来工作。这种振荡器的独特之处在于它能够在生成的脉冲之间引入延迟。这个延迟可以被精确控制，从而允许各种定时应用。例如，在通信系统中，延迟可用于同步来自不同来源的信号，确保数据的准确高效传输。延迟脉冲振荡器的基本组件包括定时电路、放大器和反馈回路。定时电路负责确定脉冲的频率，而放大器则增强信号强度。反馈回路确保脉冲的一致生成，并具有所需的延迟。通过调整这些组件中的参数，工程师可以设计出满足不同应用特定要求的振荡器。使用延迟脉冲振荡器的一个显著优势是其多功能性。它可以用于各种电子设备，从简单的定时器到复杂的通信系统。例如，在雷达技术中，延迟脉冲振荡器可以帮助创建精确的时序序列，这对于准确的距离测量至关重要。同样，在音频处理方面，它可以通过在播放之前延迟声音信号来创建回声效果。此外，实施延迟脉冲振荡器可以提高数字电路的性能。在微控制器和处理器中，这些振荡器可以同步操作，确保电路的不同部分协调工作。这种同步对于维护数据的完整性和防止处理过程中的错误至关重要。除了技术应用之外，理解延迟脉冲振荡器的概念也突显了电子学中定时和同步的更广泛原则。随着技术的不断进步，对精确定时机制的需求变得越来越重要。工程师和设计师必须考虑延迟如何影响整体系统性能和可靠性。总之，延迟脉冲振荡器是电子领域中的一个基本组件，在各种应用中提供关键的定时功能。它生成具有可控延迟的脉冲的能力使其在电信、雷达和数字电路设计等领域中不可或缺。随着我们继续探索电子系统的复杂性，像延迟脉冲振荡器这样的设备的作用无疑会增加，强调了在我们日益互联的世界中定时和同步的重要性。