interfering voltage

简明释义

干扰电压

英英释义

例句

1.In this experiment, we observed the effects of interfering voltage 干扰电压 on the output of the sensor.

在这个实验中，我们观察到干扰电压干扰电压对传感器输出的影响。

2.The presence of interfering voltage 干扰电压 can lead to inaccurate readings in electronic devices.

存在干扰电压干扰电压可能导致电子设备读取不准确。

3.The circuit experienced issues due to an unexpected interfering voltage 干扰电压 that disrupted the signal.

由于意外的干扰电压干扰电压，电路出现了问题，干扰了信号。

4.To mitigate the effects of interfering voltage 干扰电压, shielding techniques are often employed.

为了减轻干扰电压干扰电压的影响，通常采用屏蔽技术。

5.Engineers must measure the interfering voltage 干扰电压 to ensure the integrity of the data transmission.

工程师必须测量干扰电压干扰电压以确保数据传输的完整性。

作文

In the field of electrical engineering, the concept of interfering voltage is crucial for understanding how different electrical signals can affect one another. Interfering voltage refers to unwanted voltage that disrupts the normal operation of electrical circuits. This phenomenon can occur in various scenarios, such as in communication systems, where signals from multiple sources may overlap and cause distortion. Understanding interfering voltage is essential for engineers to design systems that minimize its impact and ensure reliable performance.For instance, in a typical communication system, multiple signals are transmitted over the same medium. If one signal has a high amplitude, it can induce a interfering voltage in the circuit carrying another signal. This interference can lead to data loss, decreased signal quality, and overall system inefficiency. Therefore, engineers must consider the potential for interfering voltage during the design phase to implement effective measures such as shielding, filtering, and proper grounding.Moreover, interfering voltage is not limited to communication systems; it also plays a significant role in power distribution networks. In these systems, various loads can create fluctuations in voltage levels, leading to interfering voltage that affects the stability of the entire network. Engineers must monitor these fluctuations and devise solutions to mitigate their effects, ensuring that all components operate within their specified voltage ranges.One common method to reduce the impact of interfering voltage is through the use of filters. Filters can be designed to allow only certain frequencies to pass while blocking others, effectively reducing the influence of unwanted voltages. Additionally, proper layout and design of circuit boards can help minimize the pathways for interfering voltage to affect sensitive components.Another important aspect of dealing with interfering voltage is the use of differential signaling. This technique involves sending two complementary signals, which can help cancel out any noise or interference caused by interfering voltage. By implementing differential signaling, engineers can significantly improve the robustness of communication systems against external disturbances.In conclusion, the understanding of interfering voltage is vital for anyone involved in electrical engineering. It highlights the importance of designing systems that can withstand the adverse effects of unwanted voltages. By employing various techniques such as filtering, proper circuit design, and differential signaling, engineers can greatly enhance the reliability and efficiency of electrical systems. As technology continues to advance, the challenges posed by interfering voltage will persist, making it an ongoing area of research and development in the field of electrical engineering.

在电气工程领域，干扰电压的概念对于理解不同电信号如何相互影响至关重要。干扰电压指的是破坏电路正常运行的多余电压。这种现象可能发生在各种场景中，例如在通信系统中，来自多个源的信号可能重叠并导致失真。理解干扰电压对工程师设计能够最小化其影响并确保可靠性能的系统至关重要。例如，在典型的通信系统中，多个信号通过同一介质传输。如果一个信号具有高幅度，它可能会在携带另一个信号的电路中诱发干扰电压。这种干扰可能导致数据丢失、信号质量下降和整体系统效率降低。因此，工程师在设计阶段必须考虑干扰电压的潜在影响，以实施有效的措施，例如屏蔽、过滤和适当接地。此外，干扰电压不仅限于通信系统；它在电力分配网络中也发挥着重要作用。在这些系统中，各种负载可能会导致电压水平波动，从而产生影响整个网络稳定性的干扰电压。工程师必须监测这些波动并制定解决方案，以减轻其影响，确保所有组件在其指定的电压范围内运行。减少干扰电压影响的一种常见方法是使用滤波器。滤波器可以设计为仅允许某些频率通过，同时阻止其他频率，有效减少多余电压的影响。此外，电路板的合理布局和设计可以帮助最小化干扰电压影响敏感组件的路径。处理干扰电压的另一个重要方面是使用差分信号技术。该技术涉及发送两个互补信号，可以帮助抵消由干扰电压引起的任何噪声或干扰。通过实施差分信号技术，工程师可以显著提高通信系统对外部干扰的鲁棒性。总之，理解干扰电压对于任何从事电气工程的人来说都是至关重要的。它突显了设计能够承受多余电压不利影响的系统的重要性。通过采用各种技术，例如过滤、合理电路设计和差分信号，工程师可以大大增强电气系统的可靠性和效率。随着技术的不断进步，由干扰电压带来的挑战将持续存在，使其成为电气工程领域持续研究和发展的一个领域。