vacuum tube glass

简明释义

真空管玻璃

英英释义

例句

1.The collector of the vacuum tube glass 真空管玻璃 is essential for its functionality.

真空管玻璃 vacuum tube glass 的集电极对其功能至关重要。

2.Many audiophiles prefer equipment with vacuum tube glass 真空管玻璃 for a warmer sound.

许多音响爱好者更喜欢使用带有真空管玻璃 vacuum tube glass 的设备，以获得更温暖的声音。

3.In electronics classes, we learned how to replace vacuum tube glass 真空管玻璃 in vintage amplifiers.

在电子课程中，我们学习了如何更换复古放大器中的真空管玻璃 vacuum tube glass。

4.The old radio was powered by a vacuum tube glass 真空管玻璃 that amplified the sound.

这台老式收音机由一个真空管玻璃 vacuum tube glass供电，增强了声音。

5.The design of the vacuum tube glass 真空管玻璃 allows for better electron flow.

设计的真空管玻璃 vacuum tube glass 允许更好的电子流动。

作文

The invention of the vacuum tube glass has revolutionized the world of electronics and communication. Before the advent of this remarkable technology, electrical signals were limited in their ability to travel long distances. The introduction of vacuum tube glass allowed for the amplification of these signals, paving the way for advancements in radio, television, and other forms of media. In essence, vacuum tube glass serves as a sealed container that removes air, creating a vacuum that enables electrons to flow freely between electrodes. This innovation was crucial in the development of early computers and audio equipment, as it facilitated the processing and transmission of information with greater efficiency.In the early 20th century, inventors like Lee De Forest and John Ambrose Fleming played pivotal roles in the development of vacuum tube glass. These pioneers created devices such as the triode, which could amplify weak electrical signals. The significance of their work cannot be overstated, as it laid the groundwork for modern electronics. With the ability to amplify signals, vacuum tube glass enabled clearer sound quality in radios and televisions, transforming the way people consumed entertainment and information.As technology progressed, however, the reliance on vacuum tube glass began to decline. The invention of the transistor in the 1940s marked a significant turning point in electronics. Transistors were smaller, more efficient, and more reliable than their vacuum tube counterparts. Despite this shift, vacuum tube glass remains an important part of certain applications today. For instance, audiophiles often prefer vacuum tube amplifiers for their warm sound quality, which is attributed to the unique characteristics of vacuum tube glass. Additionally, some high-end audio equipment still utilizes this technology to deliver superior sound experiences.The manufacturing process of vacuum tube glass is intricate and requires precision. The glass must be carefully crafted to ensure that it can withstand the high temperatures generated during operation. Furthermore, the creation of a vacuum inside the tube is critical; any air remaining within can lead to malfunction or degradation of performance. As a result, skilled artisans are often involved in the production of vacuum tube glass, ensuring that each component meets stringent quality standards.In conclusion, the legacy of vacuum tube glass is one of innovation and transformation. While its prevalence in everyday electronics has diminished with the rise of transistors and integrated circuits, its impact on the fields of communication and audio technology is undeniable. Understanding the role of vacuum tube glass not only provides insight into the history of electronics but also highlights the ongoing appreciation for this classic technology among enthusiasts and professionals alike. As we continue to advance technologically, it is essential to recognize and honor the contributions of vacuum tube glass to our modern world.

真空管玻璃的发明彻底改变了电子和通信的世界。在这种非凡技术出现之前，电信号在长距离传播方面受到了限制。真空管玻璃的引入使这些信号得以放大，为无线电、电视和其他媒体形式的发展铺平了道路。从本质上讲，真空管玻璃作为一个密封容器，去除了空气，创造了一个真空环境，使电子能够在电极之间自由流动。这一创新对于早期计算机和音频设备的发展至关重要，因为它促进了信息处理和传输的效率。在20世纪初，像李·德·福雷斯特和约翰·安布罗斯·弗莱明这样的发明家在真空管玻璃的发展中发挥了关键作用。这些先驱者创造了三极管等设备，能够放大微弱的电信号。他们工作的意义不容小觑，因为这为现代电子奠定了基础。由于能够放大信号，真空管玻璃使无线电和电视的声音质量更清晰，改变了人们消费娱乐和信息的方式。然而，随着技术的进步，对真空管玻璃的依赖开始下降。1940年代晶体管的发明标志着电子学的重大转折点。晶体管比其真空管对手更小、更高效且更可靠。尽管如此，真空管玻璃在某些应用中仍然是重要的一部分。例如，音响爱好者常常偏爱真空管放大器，因为其温暖的声音质量，这归因于真空管玻璃的独特特性。此外，一些高端音频设备仍然利用这一技术来提供卓越的声音体验。制造真空管玻璃的过程复杂且需要精确。玻璃必须经过精心制作，以确保能够承受操作过程中产生的高温。此外，管内创建真空至关重要；任何剩余的空气都可能导致故障或性能下降。因此，熟练的工匠通常参与真空管玻璃的生产，确保每个组件符合严格的质量标准。总之，真空管玻璃的遗产是创新和变革的象征。尽管随着晶体管和集成电路的兴起，它在日常电子产品中的普及程度有所下降，但其对通信和音频技术领域的影响不可否认。理解真空管玻璃的作用不仅提供了对电子历史的洞察，还突显了爱好者和专业人士对这一经典技术的持续欣赏。随着我们继续在技术上进步，认识和尊重真空管玻璃对现代世界的贡献是至关重要的。