displacement pickup

简明释义

位移传感器

英英释义

例句

1.The displacement pickup was designed to minimize feedback while maximizing sound clarity.

这个位移拾音器的设计旨在最小化反馈，同时最大化声音清晰度。

2.Many guitarists prefer a displacement pickup for its ability to produce a warmer tone.

许多吉他手喜欢位移拾音器，因为它能产生更温暖的音色。

3.Using a displacement pickup can significantly improve the accuracy of sound reproduction in electric instruments.

使用位移拾音器可以显著提高电声乐器声音再现的准确性。

4.The musician decided to install a displacement pickup to enhance the sound quality of his guitar.

这位音乐家决定安装一个位移拾音器以增强他的吉他的音质。

5.The engineer recommended a displacement pickup for the new audio project to capture more detailed sound.

工程师建议在新的音频项目中使用位移拾音器以捕捉更详细的声音。

作文

The world of music has always been a fascinating realm, filled with various tools and techniques that enhance the listening experience. Among these tools, the concept of a displacement pickup plays a crucial role, especially in the context of string instruments. To understand what a displacement pickup is, we must first delve into the basics of how sound is produced and captured in musical instruments.When a string is plucked or bowed, it vibrates, creating sound waves that travel through the air. Traditional microphones capture this sound by converting the air pressure variations into electrical signals. However, a displacement pickup works differently. Instead of relying on air pressure, it senses the actual vibrations of the string itself. This method allows for a more direct and often purer representation of the sound produced by the instrument.In essence, a displacement pickup is designed to detect the physical movement of a vibrating string. It does so by using a transducer that converts mechanical energy (the vibration) into electrical energy. This technology is particularly beneficial for musicians who seek to amplify their instruments without altering the natural tone. For example, guitarists may prefer a displacement pickup because it captures the true essence of their playing style, ensuring that the nuances of their performance are faithfully reproduced.Moreover, the use of a displacement pickup can significantly reduce feedback issues that often plague traditional microphone setups. In live performances, feedback can be a major concern, as it occurs when the amplified sound from the speakers re-enters the microphone, creating a loop that results in an undesirable screeching noise. By utilizing a displacement pickup, musicians can minimize this risk, allowing them to perform confidently without the constant worry of feedback disrupting their set.In addition to electric guitars, displacement pickups are also utilized in other instruments such as violins, cellos, and even some percussion instruments. The versatility of this technology makes it an attractive option for a wide range of musicians. For instance, a violinist using a displacement pickup can achieve a richer sound that highlights the depth and complexity of the instrument’s tone, making it ideal for both solo performances and ensemble settings.As technology continues to evolve, the design and functionality of displacement pickups have also advanced. Modern versions are often more compact and efficient, allowing for easier integration into various instruments without compromising their aesthetic appeal. Additionally, advancements in materials and engineering have resulted in pickups that can capture a broader frequency range, further enhancing the quality of sound reproduction.In conclusion, the displacement pickup represents a significant advancement in the way musicians can amplify their instruments. By focusing on the direct vibrations of the strings rather than relying solely on air pressure, this technology offers a more authentic sound that resonates with both performers and audiences alike. As musicians continue to seek innovative solutions to enhance their craft, the displacement pickup will undoubtedly remain a vital component in the evolution of musical expression.

音乐世界一直是一个迷人的领域，充满了各种工具和技术，这些工具和技术增强了听觉体验。在这些工具中，位移拾音器的概念起着至关重要的作用，特别是在弦乐器的背景下。要理解什么是位移拾音器，我们必须首先深入了解声音是如何在乐器中产生和捕捉的。当一根弦被拨动或拉动时，它会振动，产生声波，这些声波通过空气传播。传统的麦克风通过将空气压力变化转换为电信号来捕捉这种声音。然而，位移拾音器的工作原理则不同。它并不依赖于空气压力，而是感应弦本身的实际振动。这种方法允许更直接且通常更纯净地表现乐器产生的声音。从本质上讲，位移拾音器旨在检测振动弦的物理运动。它通过使用一种传感器将机械能（振动）转换为电能来实现。这项技术对那些希望放大乐器而不改变自然音色的音乐家尤其有益。例如，吉他手可能更喜欢位移拾音器，因为它捕捉到他们演奏风格的真实本质，确保他们表演的细微差别得以忠实再现。此外，使用位移拾音器可以显著减少传统麦克风设置中常见的反馈问题。在现场表演中，反馈可能是一个主要问题，因为它发生在从扬声器放大的声音重新进入麦克风时，形成一个循环，导致不良的尖叫噪音。通过利用位移拾音器，音乐家可以最小化这种风险，让他们在表演时能够自信地演出，而不必担心反馈干扰他们的演出。除了电吉他外，位移拾音器还被用于其他乐器，如小提琴、大提琴，甚至一些打击乐器。这项技术的多功能性使其成为广泛音乐家的一个有吸引力的选择。例如，使用位移拾音器的小提琴演奏者可以获得更丰富的声音，突显乐器音色的深度和复杂性，非常适合独奏表演和合奏场合。随着技术的不断发展，位移拾音器的设计和功能也在不断进步。现代版本通常更加紧凑和高效，允许更容易地集成到各种乐器中，而不影响其美学吸引力。此外，材料和工程的进步使得拾音器能够捕捉更广泛的频率范围，进一步增强了声音再现的质量。总之，位移拾音器代表了音乐家放大乐器方式的一项重大进步。通过关注弦的直接振动，而不仅仅依赖空气压力，这项技术提供了更真实的声音，与表演者和观众产生共鸣。随着音乐家继续寻求创新解决方案来增强他们的技艺，位移拾音器无疑将在音乐表达的发展中保持重要组成部分。