antisidetone circuit

简明释义

消侧音电路

英英释义

例句

1.The new phone model features an advanced antisidetone circuit to enhance call clarity.

这款新手机采用了先进的抗回声电路，以提高通话清晰度。

2.The antisidetone circuit helps eliminate feedback that can disrupt conversations.

这个抗回声电路有助于消除可能干扰对话的反馈。

3.In our project, we integrated an antisidetone circuit to minimize echo during voice calls.

在我们的项目中，我们集成了一个抗回声电路，以减少语音通话中的回声。

4.Many modern telecommunication devices utilize an antisidetone circuit for better user experience.

许多现代通信设备利用抗回声电路来提供更好的用户体验。

5.During the testing phase, the antisidetone circuit proved to be effective in reducing audio distortion.

在测试阶段，抗回声电路被证明在减少音频失真方面非常有效。

作文

In the realm of telecommunications, clarity and quality of voice transmission are paramount. One of the crucial components that contribute to this clarity is the antisidetone circuit. An antisidetone circuit is designed to eliminate or reduce the echo that a user hears when speaking on a telephone. This echo can be quite distracting and can hinder effective communication, especially in professional settings where clear dialogue is essential.The concept behind the antisidetone circuit is relatively straightforward. When a person speaks into a telephone, their voice is transmitted over the line to the other party. However, some of this sound can bounce back into the speaker's ear, creating an echo effect. This feedback loop can cause confusion, as the speaker may inadvertently speak over themselves or hesitate due to the delayed sound. The antisidetone circuit works by detecting this feedback and suppressing it, allowing for a more natural conversation.Historically, telecommunication systems faced significant challenges with sidetone, which is the term used to describe the sound of one's own voice heard in the earpiece. Early telephone systems did not have advanced circuitry to manage this feedback, leading to frustrating experiences for users. The introduction of the antisidetone circuit marked a significant advancement in telephone technology, enhancing user experience and facilitating clearer communication.Modern telecommunication devices, including smartphones and VoIP systems, incorporate sophisticated versions of the antisidetone circuit. These circuits utilize digital signal processing (DSP) techniques to analyze and modify audio signals in real-time. By distinguishing between the incoming voice from the other party and the outgoing voice from the speaker, the antisidetone circuit can effectively filter out unwanted echoes, providing a seamless communication experience.The importance of the antisidetone circuit extends beyond just personal calls; it plays a vital role in professional environments such as call centers, conference calls, and remote meetings. In these scenarios, multiple participants are involved, and the potential for echo and feedback increases significantly. Without an effective antisidetone circuit, conversations can become chaotic, leading to misunderstandings and decreased productivity.Furthermore, as technology continues to evolve, the need for advanced antisidetone circuits becomes even more critical. With the rise of virtual meetings and online collaboration tools, ensuring high-quality audio has become a top priority. Developers and engineers are constantly working to improve these circuits, making them more efficient and capable of handling a wider range of audio frequencies. This ongoing innovation is essential for maintaining clear communication in our increasingly digital world.In conclusion, the antisidetone circuit is a fundamental component of modern telecommunications that enhances the quality of voice transmission by eliminating distracting echoes. Its development has significantly improved the user experience in both personal and professional communication. As we continue to rely on technology for our daily interactions, understanding and appreciating the role of the antisidetone circuit is essential for recognizing how far we have come in the field of telecommunications. This small yet powerful circuit exemplifies the intricate engineering that goes into creating the seamless communication experiences we often take for granted today.

在电信领域，语音传输的清晰度和质量至关重要。促进这种清晰度的关键组件之一是抗回声电路。抗回声电路旨在消除或减少用户在电话通话时听到的回声。这种回声可能会非常分散注意力，并可能妨碍有效的沟通，尤其是在需要清晰对话的专业环境中。抗回声电路背后的概念相对简单。当一个人对着电话说话时，他们的声音会通过线路传输给另一方。然而，这部分声音可能会回响到说话者的耳朵里，从而产生回声效果。这个反馈循环可能会导致混淆，因为说话者可能会无意中重叠自己的声音或由于延迟的声音而犹豫不决。抗回声电路通过检测这种反馈并抑制它，从而允许更自然的对话。从历史上看，电信系统面临着显著的回声问题，而回声是指在听筒中听到自己声音的现象。早期的电话系统没有先进的电路来管理这种反馈，导致用户体验令人沮丧。抗回声电路的引入标志着电话技术的重要进步，增强了用户体验并促进了更清晰的沟通。现代电信设备，包括智能手机和VoIP系统，都采用了复杂版本的抗回声电路。这些电路利用数字信号处理（DSP）技术实时分析和修改音频信号。通过区分来自对方的传入声音和来自说话者的传出声音，抗回声电路能够有效过滤掉不必要的回声，从而提供无缝的通信体验。抗回声电路的重要性不仅限于个人通话；它在呼叫中心、电话会议和远程会议等专业环境中也发挥着至关重要的作用。在这些情况下，涉及多个参与者，回声和反馈的潜在可能性显著增加。如果没有有效的抗回声电路，对话可能会变得混乱，导致误解和生产力下降。此外，随着技术的不断发展，对先进的抗回声电路的需求变得更加关键。随着虚拟会议和在线协作工具的兴起，确保高质量音频已成为首要任务。开发人员和工程师们正在不断努力改进这些电路，使其更高效，能够处理更广泛的音频频率。这种持续的创新对于在我们日益数字化的世界中保持清晰的沟通至关重要。总之，抗回声电路是现代电信的基本组成部分，通过消除分散注意力的回声来增强语音传输的质量。它的发展显著改善了个人和专业沟通中的用户体验。随着我们继续依赖技术进行日常互动，理解和欣赏抗回声电路的作用对于认识我们在电信领域取得的进展至关重要。这种小而强大的电路体现了创建我们今天常常理所当然的无缝通信体验所需的复杂工程。