vibration pickup
简明释义
拾振器
英英释义
A device or sensor that detects and captures vibrations from an object or surface. | 一种检测并捕捉物体或表面振动的设备或传感器。 |
例句
1.They used a vibration pickup to assess the health of the bridge.
他们使用振动传感器来评估桥梁的健康状况。
2.A vibration pickup is essential for predictive maintenance in industrial settings.
振动传感器在工业环境中对于预测性维护至关重要。
3.Using a vibration pickup can help identify issues in rotating equipment.
使用振动传感器可以帮助识别旋转设备中的问题。
4.The technician calibrated the vibration pickup for accurate readings.
技术人员对振动传感器进行了校准以获得准确的读数。
5.The engineer installed a vibration pickup to monitor the machine's performance.
工程师安装了一个振动传感器来监测机器的性能。
作文
In the realm of audio engineering and music production, the term vibration pickup refers to a device or technology that captures sound waves generated by vibrations. These vibrations can originate from various sources, such as musical instruments, human voices, or environmental sounds. The ability to accurately capture these vibrations is crucial for creating high-quality recordings that faithfully represent the original sound. Understanding how a vibration pickup works can significantly enhance one's appreciation for music and audio fidelity.A vibration pickup typically operates on the principle of converting mechanical vibrations into electrical signals. This conversion process is essential because electronic devices can manipulate and amplify these signals for playback or recording. There are several types of vibration pickups, including dynamic microphones, condenser microphones, and piezoelectric pickups, each with its unique characteristics and applications.Dynamic microphones are widely used in live performances due to their durability and ability to handle high sound pressure levels. They work by using a diaphragm attached to a coil of wire placed within a magnetic field. When sound waves hit the diaphragm, it vibrates, causing the coil to move within the magnetic field and generate an electrical current. This current is then transmitted as an audio signal, making dynamic microphones a popular choice for vocalists and instrumentalists alike.On the other hand, condenser microphones are known for their sensitivity and accuracy in capturing subtle nuances in sound. They utilize a capacitor that changes capacitance based on the sound vibrations hitting the diaphragm. This change is then converted into an electrical signal. Because of their high fidelity, condenser microphones are often preferred in studio settings where clarity and detail are paramount. Understanding the differences between these types of vibration pickups can help audio engineers select the right equipment for their specific needs.Another interesting type of vibration pickup is the piezoelectric pickup, commonly used in string instruments like violins and acoustic guitars. This technology relies on materials that generate an electrical charge when subjected to mechanical stress. When a string vibrates, the piezoelectric material converts these vibrations into an electrical signal, allowing musicians to amplify their sound without needing a microphone. This method preserves the natural tone of the instrument while providing the necessary amplification for performance.In addition to musical applications, vibration pickups also play a significant role in various industrial and scientific fields. For instance, they are used in machinery to monitor vibrations and detect potential issues before they lead to failures. By analyzing the frequency and amplitude of vibrations, engineers can assess the health of equipment and prevent costly downtime. This application highlights the versatility and importance of vibration pickups beyond just music.In conclusion, the concept of vibration pickup is foundational in both audio engineering and various industrial applications. By capturing and converting mechanical vibrations into electrical signals, these devices enable us to experience sound in its purest form. Whether in a concert hall, a recording studio, or an industrial setting, understanding the function and significance of vibration pickups allows us to appreciate the intricate relationship between sound and technology. As we continue to advance in audio technology, the role of vibration pickups will undoubtedly evolve, offering new possibilities for sound capture and analysis.
在音频工程和音乐制作领域,术语振动拾取器指的是一种捕捉由振动产生的声波的设备或技术。这些振动可以来自各种来源,例如乐器、人声或环境声音。准确捕捉这些振动的能力对于创建高质量录音至关重要,这些录音忠实地代表了原始声音。理解振动拾取器的工作原理可以显著增强人们对音乐和音频保真度的欣赏。振动拾取器通常基于将机械振动转换为电信号的原理进行操作。这个转换过程是必不可少的,因为电子设备可以操纵和放大这些信号以进行播放或录制。有几种类型的振动拾取器,包括动圈麦克风、电容麦克风和压电拾取器,每种都有其独特的特性和应用。动圈麦克风因其耐用性和能够处理高声压水平而广泛用于现场表演。它们通过使用一个连接到线圈的振膜在磁场中工作。当声波撞击振膜时,它会振动,导致线圈在磁场中移动并产生电流。然后将此电流作为音频信号传输,这使得动圈麦克风成为歌手和乐器演奏者的热门选择。另一方面,电容麦克风以其灵敏度和捕捉声音细微差别的准确性而闻名。它们利用一个电容器,该电容器根据撞击振膜的声波振动而改变电容。这种变化然后被转换为电信号。由于其高保真性,电容麦克风通常在录音室环境中更受欢迎,在那里清晰度和细节至关重要。理解这些类型的振动拾取器之间的差异可以帮助音频工程师为他们的特定需求选择合适的设备。另一种有趣的振动拾取器是压电拾取器,通常用于小提琴和木吉他等弦乐器。这项技术依赖于在机械应力下产生电荷的材料。当弦振动时,压电材料将这些振动转换为电信号,从而使音乐家能够在不需要麦克风的情况下放大他们的声音。这种方法保留了乐器的自然音色,同时提供了演出所需的放大。这一方法突显了振动拾取器在音乐之外的多样性和重要性。除了音乐应用,振动拾取器还在各种工业和科学领域中发挥着重要作用。例如,它们用于机器监测振动并在潜在问题导致故障之前进行检测。通过分析振动的频率和幅度,工程师可以评估设备的健康状况,并防止昂贵的停机时间。这一应用突显了振动拾取器的重要性和多功能性。总之,振动拾取器的概念在音频工程和各种工业应用中是基础性的。通过捕捉和转换机械振动为电信号,这些设备使我们能够以最纯粹的形式体验声音。无论是在音乐厅、录音室还是工业环境中,理解振动拾取器的功能和重要性使我们能够欣赏声音与技术之间的复杂关系。随着我们在音频技术方面的不断进步,振动拾取器的角色无疑会不断演变,为声音捕捉和分析提供新的可能性。
相关单词
