voltage attenuation

简明释义

电压衰减

英英释义

例句

1.During testing, we observed significant voltage attenuation 电压衰减 at longer distances.

在测试过程中，我们观察到在较长距离上有显著的电压衰减 voltage attenuation。

2.To improve signal quality, we need to minimize voltage attenuation 电压衰减 across the network cables.

为了提高信号质量，我们需要最小化网络电缆中的电压衰减 voltage attenuation。

3.The technician replaced old cables to reduce voltage attenuation 电压衰减 in the audio system.

技术人员更换了旧电缆，以减少音频系统中的电压衰减 voltage attenuation。

4.The engineer measured the voltage attenuation 电压衰减 in the transmission line to ensure efficient power delivery.

工程师测量了传输线中的电压衰减 voltage attenuation以确保有效的电力传输。

5.Excessive voltage attenuation 电压衰减 can lead to insufficient power supply for the connected devices.

过度的电压衰减 voltage attenuation可能导致连接设备的电源不足。

作文

In the field of electrical engineering, understanding various concepts is crucial for designing efficient systems. One such important concept is voltage attenuation, which refers to the reduction in voltage as an electrical signal travels through a medium. This phenomenon can occur due to several factors, including resistance, capacitance, and inductance present in the transmission medium. Voltage attenuation can significantly impact the performance of electronic devices, especially in communication systems where maintaining signal integrity is vital.When a signal is transmitted over long distances, it often experiences voltage attenuation. This is particularly evident in cables and wires where the electrical resistance causes energy loss in the form of heat. As a result, the voltage at the receiving end may be lower than that at the sending end, leading to potential issues in signal clarity and strength. Engineers must account for this loss when designing circuits and select appropriate materials and configurations to minimize voltage attenuation.In addition to resistance, other factors contribute to voltage attenuation. For instance, capacitive effects can cause phase shifts in signals, further complicating the transmission process. Inductive elements can also introduce delays and distortions, which can lead to additional losses in voltage. Therefore, understanding how these components interact is essential for minimizing voltage attenuation in practical applications.One common scenario where voltage attenuation is critical is in telecommunications. In telecommunication systems, signals are transmitted over vast distances via fiber optic cables or copper wires. The quality of the received signal can greatly affect the overall performance of the system. If voltage attenuation is too high, it can result in data loss, reduced bandwidth, and even complete signal failure. To combat this issue, engineers often use repeaters or amplifiers to boost the signal strength along the transmission path, thereby counteracting the effects of voltage attenuation.Moreover, understanding voltage attenuation is not limited to just telecommunications. In audio systems, for example, the quality of sound can be compromised if the electrical signals experience significant attenuation. High-quality audio equipment often includes components designed to minimize voltage attenuation, ensuring that the sound produced is faithful to the original recording.In conclusion, voltage attenuation is a fundamental concept in electrical engineering that plays a critical role in the design and functionality of various systems. By recognizing the factors that contribute to voltage attenuation and implementing strategies to mitigate its effects, engineers can enhance the performance and reliability of electrical systems. Whether in telecommunications, audio engineering, or other fields, a thorough understanding of voltage attenuation is essential for achieving optimal results.

在电气工程领域，理解各种概念对于设计高效的系统至关重要。其中一个重要概念是电压衰减，它指的是电信号在介质中传播时电压的减少。这种现象可能由于多种因素引起，包括传输介质中的电阻、电容和电感。电压衰减可能会显著影响电子设备的性能，尤其是在通信系统中，保持信号完整性至关重要。当信号通过长距离传输时，它通常会经历电压衰减。在电缆和电线中，这一点尤为明显，因为电阻导致能量以热的形式损失。因此，接收端的电压可能低于发送端的电压，从而导致信号清晰度和强度可能出现问题。工程师必须在设计电路时考虑到这一损失，并选择适当的材料和配置，以最小化电压衰减。除了电阻外，其他因素也会导致电压衰减。例如，电容效应可能导致信号的相位偏移，进一步复杂化传输过程。电感元件也可能引入延迟和失真，从而导致电压的额外损失。因此，了解这些组件如何相互作用对于最小化实际应用中的电压衰减至关重要。电压衰减在电信中是一个关键场景。在电信系统中，信号通过光纤电缆或铜线传输，跨越广阔的距离。接收到的信号质量会极大地影响系统的整体性能。如果电压衰减过高，可能导致数据丢失、带宽降低甚至完全信号失效。为了应对这个问题，工程师通常使用中继器或放大器来增强沿传输路径的信号强度，从而抵消电压衰减的影响。此外，理解电压衰减并不仅限于电信。例如，在音频系统中，如果电信号经历显著衰减，声音质量可能会受到影响。高质量的音频设备通常包括旨在最小化电压衰减的组件，确保产生的声音忠实于原始录音。总之，电压衰减是电气工程中的一个基本概念，在各种系统的设计和功能中发挥着关键作用。通过认识到导致电压衰减的因素并实施减轻其影响的策略，工程师可以提高电气系统的性能和可靠性。无论是在电信、音频工程还是其他领域，全面理解电压衰减对于实现最佳结果至关重要。