interchannel intermodulation

简明释义

路际互调

英英释义

例句

1.To reduce interchannel intermodulation 通道间互调, we need to adjust the signal routing in the mixer.

为了减少通道间互调 interchannel intermodulation，我们需要调整混音器中的信号路由。

2.The audio engineer noticed significant interchannel intermodulation 通道间互调 distortion during the live performance.

音频工程师在现场表演中注意到显著的通道间互调 interchannel intermodulation 失真。

3.The design of the new amplifier minimizes interchannel intermodulation 通道间互调 effects for clearer sound quality.

新放大器的设计最小化了通道间互调 interchannel intermodulation 效果，以提高音质清晰度。

4.Proper shielding can help reduce interchannel intermodulation 通道间互调 in complex audio systems.

适当的屏蔽可以帮助减少复杂音频系统中的通道间互调 interchannel intermodulation。

5.During testing, the technician found that the interchannel intermodulation 通道间互调 was affecting the overall system performance.

在测试过程中，技术人员发现通道间互调 interchannel intermodulation 影响了整体系统性能。

作文

Interchannel intermodulation is a phenomenon that occurs in various communication systems, particularly in radio frequency (RF) applications. It refers to the mixing of signals from different channels, resulting in the creation of unwanted frequencies that can interfere with the original signals. Understanding this concept is crucial for engineers and technicians working in telecommunications and broadcasting fields. To grasp the implications of interchannel intermodulation (通道间互调), one must first understand how signals are transmitted in communication systems. When multiple signals are transmitted simultaneously, they can interact with each other in ways that lead to the generation of new frequencies. This interaction can occur due to non-linear components in the system, such as amplifiers or mixers, which can distort the original signals. As a result, interchannel intermodulation (通道间互调) can degrade the quality of the transmitted signal and affect the overall performance of the communication system.The practical effects of interchannel intermodulation (通道间互调) can be observed in various scenarios. For instance, in a radio broadcasting environment, if two stations operate on adjacent frequencies, their signals may mix, leading to interference that can be heard by listeners. This not only disrupts the listening experience but can also lead to regulatory issues, as it violates the spectrum allocation rules set by governing bodies. To mitigate the effects of interchannel intermodulation (通道间互调), engineers employ several strategies. One common approach is to use filters that can isolate the desired frequency channels from each other. By carefully designing these filters, it is possible to minimize the chances of unwanted mixing and preserve the integrity of each signal. Additionally, using high-quality components that exhibit linear behavior can significantly reduce the likelihood of interchannel intermodulation (通道间互调) occurring in the first place.Moreover, understanding the theoretical aspects of interchannel intermodulation (通道间互调) is essential for predicting its occurrence in different scenarios. Engineers often rely on mathematical models to simulate the behavior of signals in complex systems, allowing them to identify potential issues before they arise. By analyzing the intermodulation products generated by various combinations of input signals, they can design systems that are robust against such interference.In conclusion, interchannel intermodulation (通道间互调) is a significant concern in the field of telecommunications and broadcasting. Its impact on signal quality and system performance cannot be underestimated. By employing effective strategies to manage and mitigate its effects, professionals in the industry can ensure clearer communication and a better experience for users. As technology continues to evolve, the importance of understanding and addressing interchannel intermodulation (通道间互调) will remain a critical aspect of designing efficient communication systems.

通道间互调是一个现象，发生在各种通信系统中，特别是在射频（RF）应用中。它指的是来自不同通道的信号混合，导致产生不必要的频率，从而干扰原始信号。理解这个概念对于在电信和广播领域工作的工程师和技术人员至关重要。要掌握通道间互调（interchannel intermodulation）的影响，首先必须理解信号在通信系统中的传输方式。当多个信号同时传输时，它们可能会以某种方式相互作用，导致生成新的频率。这种相互作用可能由于系统中的非线性组件（如放大器或混频器）而发生，这可能会扭曲原始信号。因此，通道间互调（interchannel intermodulation）可能会降低传输信号的质量，并影响通信系统的整体性能。通道间互调（interchannel intermodulation）对实际效果可以在各种场景中观察到。例如，在无线广播环境中，如果两个电台在相邻频率上运行，它们的信号可能会混合，导致干扰，听众可能会听到这种干扰。这不仅破坏了听觉体验，还可能导致监管问题，因为这违反了由管理机构设定的频谱分配规则。为了减轻通道间互调（interchannel intermodulation）的影响，工程师采用几种策略。一种常见的方法是使用滤波器，可以将所需频率通道彼此隔离。通过精心设计这些滤波器，可以最小化不必要混合的可能性，并保持每个信号的完整性。此外，使用表现出线性行为的高质量组件可以显著降低通道间互调（interchannel intermodulation）首次发生的可能性。此外，理解通道间互调（interchannel intermodulation）的理论方面对于预测其在不同场景中的发生至关重要。工程师通常依赖数学模型来模拟复杂系统中信号的行为，从而使他们能够在问题出现之前识别潜在问题。通过分析各种输入信号组合生成的互调产品，他们可以设计出对这种干扰具有强健性的系统。总之，通道间互调（interchannel intermodulation）在电信和广播领域是一个重要的问题。它对信号质量和系统性能的影响不可低估。通过采用有效的策略来管理和减轻其影响，行业专业人士可以确保更清晰的通信和更好的用户体验。随着技术的不断发展，理解和解决通道间互调（interchannel intermodulation）的重要性将仍然是设计高效通信系统的关键方面。