sweep voltage

简明释义

扫描电压

英英释义

例句

1.The oscilloscope displayed the output as we varied the sweep voltage across different frequencies.

当我们在不同频率下改变扫频电压时，示波器显示了输出结果。

2.By increasing the sweep voltage, we were able to observe more pronounced reactions in the materials tested.

通过增加扫频电压，我们能够观察到被测试材料更明显的反应。

3.The technician adjusted the sweep voltage to enhance the signal clarity during the test.

技术人员调整了扫频电压以提高测试中的信号清晰度。

4.In the experiment, we monitored the effects of varying sweep voltage on the device's performance.

在实验中，我们监测了不同扫频电压对设备性能的影响。

5.The sweep voltage was set to a maximum of 5 volts to prevent damage to the circuit.

为了防止电路损坏，扫频电压被设置为最大5伏特。

作文

In the realm of electrical engineering, the term sweep voltage refers to a specific voltage signal that is systematically varied over time. This concept is crucial in various applications, particularly in the fields of testing and measurement. By adjusting the sweep voltage, engineers can analyze the response of circuits and devices under different voltage conditions. This process is often utilized in oscilloscopes and other testing equipment to observe how a device reacts to changing voltages. The importance of sweep voltage cannot be overstated. It allows for comprehensive testing of electronic components, ensuring that they operate correctly across a range of voltages. For instance, when testing a semiconductor device, an engineer may apply a sweep voltage to determine the threshold at which the device begins to conduct electricity. This information is vital for designing circuits that function reliably in real-world applications.Moreover, the application of sweep voltage extends beyond mere testing. In signal processing, it plays a significant role in frequency analysis. By sweeping through a range of voltages, engineers can identify resonant frequencies and other critical parameters of a system. This technique is essential in the design of filters and amplifiers, where understanding the behavior of signals at varying voltages can lead to improved performance and efficiency.To illustrate the practical use of sweep voltage, consider a scenario where an engineer is tasked with testing a new audio amplifier. The engineer would connect the amplifier to a signal generator capable of producing a sweep voltage. As the generator varies the voltage, the engineer monitors the output of the amplifier to ensure it maintains sound quality and fidelity across different input levels. This testing phase is crucial for guaranteeing that the amplifier will perform well in diverse listening environments.Furthermore, the concept of sweep voltage is integral to the development of automated testing systems. These systems utilize programmed sequences of sweep voltage to evaluate multiple devices in a fraction of the time it would take manually. This automation not only increases efficiency but also enhances accuracy, as it minimizes human error during testing procedures.In conclusion, the term sweep voltage encapsulates a fundamental concept in electrical engineering that facilitates the testing, measurement, and analysis of electronic devices. Its applications are vast, ranging from simple component testing to complex signal processing tasks. Understanding and utilizing sweep voltage is essential for engineers who strive to create reliable and efficient electronic systems. As technology continues to advance, the significance of mastering such concepts will only grow, paving the way for innovations that rely on precise electrical measurements and responses.

在电气工程领域，术语sweep voltage指的是一种特定的电压信号，该信号会随着时间的推移而系统性地变化。这个概念在各种应用中至关重要，特别是在测试和测量领域。通过调整sweep voltage，工程师可以分析电路和设备在不同电压条件下的响应。这个过程通常在示波器和其他测试设备中使用，以观察设备如何对变化的电压作出反应。sweep voltage的重要性不容小觑。它允许对电子元件进行全面测试，确保它们在一系列电压下正常工作。例如，在测试半导体设备时，工程师可能会施加sweep voltage以确定设备开始导电的阈值。这些信息对于设计在实际应用中可靠运行的电路至关重要。此外，sweep voltage的应用超越了单纯的测试。在信号处理领域，它在频率分析中发挥着重要作用。通过遍历一系列电压，工程师可以识别谐振频率和系统的其他关键参数。这种技术在滤波器和放大器的设计中至关重要，因为了解信号在不同电压下的行为可以提高性能和效率。为了说明sweep voltage的实际用途，考虑一个场景，工程师被要求测试一个新的音频放大器。工程师将放大器连接到一个能够产生sweep voltage的信号发生器。当发生器变化电压时，工程师监测放大器的输出，以确保它在不同输入水平下保持音质和保真度。这个测试阶段对于确保放大器在各种听音环境中表现良好至关重要。此外，sweep voltage的概念是自动化测试系统开发的核心。这些系统利用编程的sweep voltage序列来评估多个设备，所需时间仅为手动测试的一小部分。这种自动化不仅提高了效率，还增强了准确性，因为它最小化了测试过程中的人为错误。总之，术语sweep voltage概括了电气工程中的一个基本概念，该概念促进了电子设备的测试、测量和分析。它的应用广泛，从简单的组件测试到复杂的信号处理任务。理解和利用sweep voltage对于那些努力创造可靠和高效电子系统的工程师来说至关重要。随着技术的不断进步，掌握这些概念的重要性只会增加，为依赖精确电气测量和响应的创新铺平道路。