adjacent audio carrier

简明释义

邻道伴音载波

英英释义

例句

1.The radio station broadcasts on an adjacent audio carrier to avoid interference with neighboring channels.

该广播电台在一个相邻音频载波上播出，以避免与邻近频道的干扰。

2.In digital broadcasting, the use of an adjacent audio carrier can improve signal clarity.

在数字广播中，使用相邻音频载波可以提高信号清晰度。

3.To enhance sound quality, the engineer adjusted the settings for the adjacent audio carrier during the live performance.

为了提高音质，工程师在现场演出期间调整了相邻音频载波的设置。

4.The adjacent audio carrier plays a crucial role in multi-channel audio systems.

相邻音频载波在多通道音频系统中起着至关重要的作用。

5.During the test, we noticed that the adjacent audio carrier was causing some distortion.

在测试期间，我们注意到相邻音频载波导致了一些失真。

作文

In the realm of audio technology, the concept of an adjacent audio carrier is pivotal for understanding how sound signals are transmitted and manipulated. An adjacent audio carrier refers to a signal that operates at a frequency close to another signal, allowing for various forms of modulation and transmission. This principle is particularly significant in radio broadcasting, where multiple channels may exist in close proximity to one another on the frequency spectrum. By utilizing adjacent audio carriers, broadcasters can efficiently transmit multiple audio signals without interference, provided that they adhere to specific spacing and modulation techniques.The importance of adjacent audio carriers extends beyond mere transmission; it also plays a crucial role in audio processing and mixing. In music production, for instance, producers often layer different sounds that may occupy similar frequency ranges. Understanding the relationship between these layers involves recognizing how adjacent audio carriers interact with one another. When two audio signals are close in frequency, they can create unique auditory effects, such as beats or phasing, which are essential in creating depth and texture in music.Moreover, the concept of adjacent audio carriers is vital in the field of telecommunications. Modern communication systems rely heavily on the ability to transmit information over various channels simultaneously. Engineers must carefully design systems that can handle multiple adjacent audio carriers without causing distortion or loss of quality. This requires advanced knowledge of signal processing techniques and an understanding of how to mitigate potential interference.In practical applications, the use of adjacent audio carriers can be observed in various technologies, from FM radio to digital streaming platforms. For example, in FM radio, stations are assigned frequencies that are spaced apart to minimize interference, but sometimes, they may have to utilize adjacent audio carriers to maximize their broadcast range. This careful management ensures that listeners receive clear audio signals without the disruption of overlapping frequencies.Additionally, the study of adjacent audio carriers has implications for future technological advancements. As we move towards more sophisticated audio systems, including immersive sound environments like virtual reality, the need for precise control over audio carriers becomes even more critical. Developers must innovate ways to effectively manage multiple adjacent audio carriers to create seamless auditory experiences that enhance user engagement.In conclusion, the term adjacent audio carrier encapsulates a fundamental aspect of audio technology that is essential for effective sound transmission and processing. Whether in the context of radio broadcasting, music production, or telecommunications, understanding how adjacent audio carriers function and interact is crucial for anyone involved in the audio industry. As technology continues to evolve, the principles surrounding adjacent audio carriers will undoubtedly remain relevant, guiding the development of new methods for delivering high-quality audio experiences to audiences worldwide.

在音频技术领域，adjacent audio carrier（相邻音频载波）的概念对于理解声音信号的传输和处理至关重要。adjacent audio carrier指的是在频率上接近另一信号的信号，这使得各种调制和传输方式成为可能。这个原则在广播中尤其重要，因为多个频道可能在频谱上彼此靠近。通过利用adjacent audio carriers，广播公司可以有效地传输多个音频信号而不发生干扰，只要遵循特定的间距和调制技术。adjacent audio carriers的重要性不仅仅体现在传输上；它在音频处理和混音中也起着关键作用。例如，在音乐制作中，制作人经常会将不同的声音层叠在一起，这些声音可能占据类似的频率范围。理解这些层之间的关系涉及到认识adjacent audio carriers如何相互作用。当两个音频信号在频率上接近时，它们可以产生独特的听觉效果，例如拍子或相位，这在创造音乐的深度和质感时至关重要。此外，adjacent audio carriers的概念在电信领域也至关重要。现代通信系统在很大程度上依赖于能够同时通过各种频道传输信息的能力。工程师必须仔细设计系统，以便在不造成失真或质量损失的情况下处理多个adjacent audio carriers。这需要对信号处理技术有深入的了解，并理解如何减轻潜在的干扰。在实际应用中，adjacent audio carriers的使用可以在各种技术中观察到，从FM广播到数字流媒体平台。例如，在FM广播中，电台被分配的频率间隔开，以最小化干扰，但有时它们可能不得不利用adjacent audio carriers来最大化其广播范围。这种仔细的管理确保听众接收到清晰的音频信号，而不会受到重叠频率的干扰。此外，研究adjacent audio carriers对未来技术进步有重要影响。随着我们向更复杂的音频系统发展，包括虚拟现实等沉浸式声音环境，对音频载波的精确控制的需求变得更加关键。开发人员必须创新方法，以有效管理多个adjacent audio carriers，以创建无缝的听觉体验，增强用户参与感。总之，adjacent audio carrier这一术语概括了音频技术的一个基本方面，对于有效的声音传输和处理至关重要。无论是在广播、音乐制作还是电信的背景下，理解adjacent audio carriers的功能和相互作用对于任何参与音频行业的人来说都是至关重要的。随着技术的不断发展，围绕adjacent audio carriers的原则无疑将继续保持相关性，指导新方法的发展，以向全球观众提供高质量的音频体验。