electric diaphram emitter

简明释义

电雾雷

英英释义

例句

1.The electric diaphragm emitter is crucial for achieving high fidelity in audio equipment.

在音频设备中，电动隔膜发射器对于实现高保真至关重要。

2.We replaced the old speaker with one that has a more efficient electric diaphragm emitter.

我们用一个更高效的电动隔膜发射器替换了旧扬声器。

3.The new model features an advanced electric diaphragm emitter which enhances sound quality significantly.

新型号配备了先进的电动隔膜发射器，显著提升了音质。

4.The design of the electric diaphragm emitter allows for better control of sound dispersion.

该电动隔膜发射器的设计允许更好地控制声音的扩散。

5.In our laboratory, we use an electric diaphragm emitter to study the effects of sound waves on different materials.

在我们的实验室中，我们使用电动隔膜发射器研究声波对不同材料的影响。

作文

The concept of an electric diaphragm emitter is pivotal in the field of acoustics and electronics. An electric diaphragm emitter refers to a device that converts electrical signals into sound waves through the vibration of a diaphragm. This technology is widely used in various applications, including speakers, microphones, and other audio devices. Understanding how an electric diaphragm emitter works can provide insights into the science behind sound production and transmission.At its core, an electric diaphragm emitter consists of a thin membrane or diaphragm that vibrates when an electrical current passes through it. This vibration creates pressure waves in the surrounding air, which we perceive as sound. The quality of the sound produced by an electric diaphragm emitter largely depends on the material and design of the diaphragm, as well as the electrical characteristics of the circuit driving it.In modern audio equipment, the use of electric diaphragm emitters has evolved significantly. For instance, in high-fidelity speakers, multiple electric diaphragm emitters are often used to cover a wide range of frequencies. Woofers handle low frequencies, while tweeters manage high frequencies. This division of labor allows for more accurate sound reproduction, enhancing the listening experience.Moreover, the advancements in materials science have led to the development of specialized diaphragms that improve the efficiency and performance of electric diaphragm emitters. Lightweight materials such as mylar and polycarbonate are commonly used to construct diaphragms that can respond quickly to electrical signals, resulting in clearer and more dynamic sound.In addition to their applications in audio devices, electric diaphragm emitters also play a crucial role in telecommunications. Microphones, which are essentially electric diaphragm emitters, convert sound waves from our voices into electrical signals that can be transmitted over long distances. This technology is fundamental to the functioning of phones, recording devices, and even voice recognition systems.The importance of electric diaphragm emitters extends beyond just audio and communication technologies. They are also utilized in medical devices, such as ultrasonic imaging equipment, where they generate sound waves that help create images of internal body structures. This application highlights the versatility and significance of electric diaphragm emitters in various fields.In conclusion, the electric diaphragm emitter is an essential component in many technologies that we rely on daily. Its ability to convert electrical energy into sound energy makes it invaluable in audio, telecommunications, and medical applications. As technology continues to advance, the design and functionality of electric diaphragm emitters will likely evolve, leading to even more innovative uses in the future. Understanding this concept not only enriches our knowledge of sound technology but also deepens our appreciation for the intricate systems that facilitate communication and entertainment in our lives.

电动薄膜发射器的概念在声学和电子学领域至关重要。电动薄膜发射器指的是一种通过薄膜的振动将电信号转换为声波的设备。这项技术广泛应用于扬声器、麦克风和其他音频设备等各种应用中。理解电动薄膜发射器的工作原理可以为我们提供有关声音产生和传输科学的见解。从根本上讲，电动薄膜发射器由一个薄膜或薄膜组成，当电流通过时，它会振动。这种振动在周围空气中产生压力波，我们感知为声音。电动薄膜发射器所产生声音的质量在很大程度上取决于薄膜的材料和设计，以及驱动它的电路的电气特性。在现代音频设备中，电动薄膜发射器的使用发生了重大变化。例如，在高保真扬声器中，通常使用多个电动薄膜发射器来覆盖广泛的频率。低音扬声器处理低频，而高音扬声器管理高频。这种分工使得声音再现更加准确，从而增强了听觉体验。此外，材料科学的进步导致开发出专门的薄膜，从而提高了电动薄膜发射器的效率和性能。轻质材料如聚酯薄膜和聚碳酸酯通常用于制造能够快速响应电信号的薄膜，从而产生更清晰和更具动态感的声音。除了在音频设备中的应用外，电动薄膜发射器还在电信中发挥着至关重要的作用。麦克风，基本上是电动薄膜发射器，将我们声音中的声波转换为可以远距离传输的电信号。这项技术是电话、录音设备甚至语音识别系统正常运作的基础。电动薄膜发射器的重要性不仅限于音频和通信技术。它们还被用于医疗设备，例如超声成像设备，通过生成声波来帮助创建内部身体结构的图像。这一应用突显了电动薄膜发射器在各个领域的多功能性和重要性。总之，电动薄膜发射器是我们日常依赖的许多技术中的重要组成部分。它将电能转换为声能的能力，使其在音频、通信和医疗应用中不可或缺。随着技术的不断进步，电动薄膜发射器的设计和功能可能会不断发展，从而在未来带来更多创新用途。理解这一概念不仅丰富了我们对声音技术的了解，也加深了我们对促进我们生活中交流和娱乐的复杂系统的欣赏。