time base generator

简明释义

时基振荡器扫描发生器

英英释义

例句

1.We had to replace the old time base generator because it was causing timing errors.

我们必须更换旧的时间基准发生器，因为它导致了时间错误。

2.The engineer used a time base generator to synchronize the signals in the circuit.

工程师使用了一个时间基准发生器来同步电路中的信号。

3.The time base generator is crucial for ensuring that the data acquisition system operates correctly.

该时间基准发生器对于确保数据采集系统正常运行至关重要。

4.In our lab, we rely on a time base generator for accurate timing measurements.

在我们的实验室中，我们依赖于一个时间基准发生器进行准确的时间测量。

5.For video signal processing, a high-quality time base generator is essential.

对于视频信号处理，高质量的时间基准发生器是必不可少的。

作文

In the world of electronics and signal processing, the term time base generator refers to a crucial component that produces a timing signal. This timing signal is essential for synchronizing various operations within electronic devices. The importance of a time base generator can be observed in numerous applications, ranging from simple clocks to complex communication systems. Understanding how a time base generator works can provide deeper insights into its role in modern technology.A time base generator essentially generates a periodic signal that serves as a reference for timing purposes. This periodic signal is often a square wave or a sawtooth wave, which oscillates between high and low states at a specific frequency. In many cases, the frequency of the output signal can be adjusted, allowing for flexibility in various applications. For instance, in oscilloscopes, a time base generator helps to create a time axis on the screen, enabling users to visualize waveforms over time.One of the most common applications of a time base generator is in digital circuits. In these circuits, precise timing is crucial for ensuring that signals are processed correctly. Without a reliable time base generator, data may be lost or corrupted due to timing mismatches. Therefore, engineers must select appropriate time base generators when designing digital systems to maintain signal integrity and performance.Moreover, a time base generator is also vital in telecommunications. In this field, data transmission relies heavily on synchronized timing. For example, in digital communication systems, the sender and receiver must operate on the same timing reference to ensure that data packets are transmitted and received accurately. A malfunctioning time base generator can lead to significant issues, such as data loss or increased latency, which can severely impact communication quality.The functionality of a time base generator can vary based on the technology used. Traditional analog time base generators utilize resistors and capacitors to create timing signals, while modern digital versions often employ microcontrollers or programmable logic devices. This evolution has allowed for more precise and flexible timing solutions, catering to the demands of contemporary electronic systems.Furthermore, advancements in technology have led to the integration of time base generators into various devices. For example, many microcontrollers now include built-in time base generators that can be programmed to produce specific timing signals. This integration simplifies circuit design and reduces component count, making devices more compact and efficient.In summary, the time base generator is an integral part of modern electronics, playing a vital role in ensuring that devices operate in sync. From digital circuits to telecommunications, the ability to generate accurate timing signals is paramount. As technology continues to advance, the significance of time base generators will only grow, highlighting their importance in the ever-evolving landscape of electronics. Understanding the function and application of a time base generator not only enhances our knowledge of electronic systems but also emphasizes the intricate interplay between timing and functionality in technology.

在电子和信号处理的世界中，短语时间基准发生器指的是一个重要的组件，它产生一个时序信号。这个时序信号对于同步电子设备内的各种操作至关重要。时间基准发生器的重要性可以在许多应用中观察到，从简单的时钟到复杂的通信系统。理解时间基准发生器的工作原理可以更深入地了解它在现代技术中的作用。时间基准发生器本质上生成一个周期性信号，作为时序目的的参考。这个周期性信号通常是方波或锯齿波，以特定频率在高低状态之间振荡。在许多情况下，输出信号的频率可以调节，从而在各种应用中提供灵活性。例如，在示波器中，时间基准发生器帮助在屏幕上创建时间轴，使用户能够可视化波形随时间的变化。时间基准发生器最常见的应用之一是在数字电路中。在这些电路中，精确的时序对于确保信号被正确处理至关重要。如果没有可靠的时间基准发生器，由于时序不匹配，数据可能会丢失或损坏。因此，工程师在设计数字系统时必须选择合适的时间基准发生器以保持信号的完整性和性能。此外，时间基准发生器在电信中也至关重要。在这个领域，数据传输在很大程度上依赖于同步的时序。例如，在数字通信系统中，发送方和接收方必须在同一时序参考下操作，以确保数据包的准确传输和接收。故障的时间基准发生器可能导致重大问题，例如数据丢失或延迟增加，这可能严重影响通信质量。时间基准发生器的功能可以根据所使用的技术而有所不同。传统的模拟时间基准发生器利用电阻和电容器来创建时序信号，而现代数字版本通常采用微控制器或可编程逻辑设备。这种演变使得更精确和灵活的时序解决方案成为可能，以满足当代电子系统的需求。此外，技术的进步使得时间基准发生器集成到各种设备中。例如，许多微控制器现在包括内置的时间基准发生器，可以编程生成特定的时序信号。这种集成简化了电路设计，减少了组件数量，使设备更加紧凑和高效。总之，时间基准发生器是现代电子设备的一个重要组成部分，在确保设备同步运行方面发挥着至关重要的作用。从数字电路到电信，生成准确的时序信号的能力是至关重要的。随着技术的不断进步，时间基准发生器的重要性只会增加，突显出它们在不断发展的电子产品中的重要性。理解时间基准发生器的功能和应用不仅增强了我们对电子系统的知识，也强调了时序与技术功能之间复杂的相互关系。