time base resolving

简明释义

时基分解

英英释义

例句

1.Engineers rely on time base resolving 时间基准分辨率 to differentiate between closely spaced events in their experiments.

工程师依赖于时间基准分辨率 时间基准分辨率 来区分实验中紧密相邻的事件。

2.To improve the accuracy of our measurements, we upgraded our equipment to enhance time base resolving 时间基准分辨率 capabilities.

为了提高测量的准确性，我们升级了设备以增强时间基准分辨率 时间基准分辨率 功能。

3.The new oscilloscope features advanced time base resolving 时间基准分辨率 capabilities, allowing for more accurate measurements.

新的示波器具有先进的时间基准分辨率 时间基准分辨率 功能，从而实现更精确的测量。

4.The time base resolving 时间基准分辨率 feature allows scientists to analyze fast phenomena in real-time.

该时间基准分辨率 时间基准分辨率 功能使科学家能够实时分析快速现象。

5.In high-speed data acquisition systems, time base resolving 时间基准分辨率 is crucial for capturing transient signals.

在高速数据采集系统中，时间基准分辨率 时间基准分辨率 对于捕捉瞬态信号至关重要。

作文

In the realm of technology and electronics, precision is paramount. One of the critical concepts that engineers and scientists often encounter is time base resolving. This term refers to the ability of a system to measure time intervals with high accuracy. In simpler terms, it is about how finely a device can distinguish between different time periods. For example, in digital signal processing, achieving a high level of time base resolving can significantly impact the quality of the output signal. When signals are sampled, the resolution of time intervals determines how accurately the original signal can be reconstructed. Imagine a scenario where you are trying to measure the time it takes for a sound wave to travel from one point to another. If your measuring device has poor time base resolving, it might not capture the nuances of the sound wave's travel time, leading to inaccurate results. On the other hand, a device with excellent time base resolving can detect even the slightest variations in time, allowing for precise measurements that can be crucial in various applications, such as telecommunications, audio engineering, and scientific research.Moreover, time base resolving plays a vital role in oscilloscopes, which are essential tools for visualizing electrical signals. The resolution of time on an oscilloscope affects how well it can display fast-changing signals. A higher time base resolving means that the oscilloscope can show more detail in the waveform, enabling engineers to diagnose problems more effectively. Without adequate time base resolving, important features of the signal might be lost, leading to incorrect assumptions about the system's behavior.In addition to its applications in electronics, time base resolving is also significant in fields like astronomy. When astronomers observe celestial events, they often rely on precise timing to determine the distances and movements of objects in space. A telescope equipped with high time base resolving capabilities can help capture transient phenomena, such as supernovae or gamma-ray bursts, providing valuable data for researchers.The importance of time base resolving extends beyond just measurement; it is also fundamental in improving technologies. As we advance into an era of faster computing and more complex systems, the demand for devices that can provide high time base resolving will continue to grow. Innovations in materials and engineering techniques are being explored to enhance the resolution capabilities of various instruments.In conclusion, understanding and mastering the concept of time base resolving is essential for anyone involved in technology and engineering. It is a key factor that influences the accuracy and reliability of measurements across various fields. As we continue to push the boundaries of what is possible, the significance of time base resolving will only increase, paving the way for new discoveries and advancements in science and technology.

在科技和电子领域，精确性至关重要。工程师和科学家们常常遇到的一个关键概念是时间基准分辨率。这个术语指的是一个系统以高精度测量时间间隔的能力。简单来说，它是关于设备能多细致地区分不同时间段。例如，在数字信号处理过程中，实现高水平的时间基准分辨率可以显著影响输出信号的质量。当信号被采样时，时间间隔的分辨率决定了原始信号能够多准确地重构。想象一下，你正在尝试测量声波从一个点传播到另一个点所需的时间。如果你的测量设备具有较差的时间基准分辨率，它可能无法捕捉声波传播时间的细微差别，从而导致不准确的结果。另一方面，具有优秀时间基准分辨率的设备可以检测到时间上的微小变化，从而允许进行精确的测量，这在电信、音频工程和科学研究等各种应用中都是至关重要的。此外，时间基准分辨率在示波器中也发挥着重要作用，示波器是可视化电信号的基本工具。示波器的时间分辨率影响其显示快速变化信号的能力。更高的时间基准分辨率意味着示波器可以在波形中显示更多细节，使工程师能够更有效地诊断问题。如果没有足够的时间基准分辨率，信号的重要特征可能会丢失，从而导致对系统行为的错误假设。除了在电子学中的应用之外，时间基准分辨率在天文学等领域也具有重要意义。当天文学家观察天体事件时，他们通常依赖精确的计时来确定太空中物体的距离和运动。配备高时间基准分辨率能力的望远镜可以帮助捕捉瞬态现象，例如超新星或伽马射线暴，为研究人员提供有价值的数据。时间基准分辨率的重要性不仅限于测量；它也是改善技术的基础。随着我们进入更快的计算和更复杂系统的时代，对能够提供高时间基准分辨率的设备的需求将继续增长。正在探索材料和工程技术的创新，以增强各种仪器的分辨率能力。总之，理解和掌握时间基准分辨率的概念对于任何参与技术和工程的人来说都是至关重要的。它是影响各个领域测量准确性和可靠性的关键因素。随着我们不断推动可能性的边界，时间基准分辨率的重要性只会增加，为科学和技术的新发现和进步铺平道路。