oscillator tube

简明释义

振荡管

英英释义

例句

1.In our lab, we use an oscillator tube 振荡管 to produce sound waves for various experiments.

在我们的实验室中，我们使用振荡管 oscillator tube 来产生声波进行各种实验。

2.The oscillator tube 振荡管 can be adjusted to different frequencies depending on the application.

根据应用场景，振荡管 oscillator tube 可以调节到不同的频率。

3.The oscillator tube 振荡管 is crucial for maintaining the timing in electronic circuits.

在电子电路中，振荡管 oscillator tube 对于保持时序至关重要。

4.We replaced the faulty oscillator tube 振荡管 to restore the device's functionality.

我们更换了故障的振荡管 oscillator tube 以恢复设备的功能。

5.The engineer explained how the oscillator tube 振荡管 generates stable frequencies for radio transmissions.

工程师解释了如何使用振荡管 oscillator tube 为无线电传输生成稳定的频率。

作文

In the realm of electronics, the term oscillator tube refers to a specific type of vacuum tube that is used to generate oscillations or alternating currents. These tubes have played a crucial role in the development of various electronic devices, particularly in the mid-20th century. The invention of the oscillator tube marked a significant advancement in technology, enabling engineers and inventors to create more complex and efficient circuits. The basic principle behind an oscillator tube involves the creation of a feedback loop that allows the device to produce a continuous waveform. This waveform can be utilized in numerous applications, such as radio transmission, sound synthesis, and signal processing. One of the most notable examples of an oscillator tube is the famous Hartley oscillator, which utilizes inductors and capacitors to generate oscillations. Understanding the functionality of an oscillator tube requires some knowledge of electronics. Essentially, these tubes operate by controlling the flow of electrons within a vacuum environment. When a voltage is applied, electrons are emitted from a heated filament and travel towards a positively charged plate. The design of the oscillator tube allows for manipulation of this electron flow, enabling the generation of oscillating signals. The significance of oscillator tubes extends beyond their technical capabilities; they also represent a pivotal moment in the history of electronics. Before the widespread use of transistors, oscillator tubes were among the primary components used in radios and other communication devices. Their ability to produce stable frequencies made them indispensable for tuning and signal generation. As technology evolved, however, transistors began to replace oscillator tubes due to their smaller size, greater efficiency, and lower power consumption. Despite the decline in the use of oscillator tubes in modern electronics, they still hold a special place in the hearts of enthusiasts and vintage technology collectors. Many audio engineers and musicians appreciate the warm sound produced by devices utilizing oscillator tubes, leading to a resurgence of interest in tube amplifiers and other equipment. This nostalgic appeal highlights the enduring legacy of oscillator tubes in the world of sound and music. In conclusion, the oscillator tube is an essential component in the history of electronics, representing both a technological innovation and a cultural artifact. Its ability to generate oscillations has paved the way for countless advancements in communication and audio technology. While modern alternatives may have surpassed oscillator tubes in terms of efficiency and practicality, their unique characteristics continue to inspire a dedicated community of users and enthusiasts. Understanding the significance of the oscillator tube not only enhances our appreciation for electronic devices but also connects us to the rich history of innovation in this field.

在电子学领域，术语振荡管指的是一种特定类型的真空管，用于产生振荡或交流电流。这些管在20世纪中期的发展中发挥了至关重要的作用。振荡管的发明标志着技术的一次重大进步，使工程师和发明家能够创造出更复杂、更高效的电路。振荡管的基本原理涉及创建反馈回路，使设备能够产生连续的波形。该波形可以用于许多应用，例如无线电传输、声音合成和信号处理。其中一个最著名的例子是著名的哈特利振荡器，它利用电感和电容生成振荡。理解振荡管的功能需要一些电子学知识。基本上，这些管通过控制真空环境中的电子流动来工作。当施加电压时，电子从加热的灯丝发射并朝向带正电的板移动。振荡管的设计允许操纵这种电子流，从而产生振荡信号。振荡管的重要性超出了其技术能力；它们还代表了电子历史上的一个关键时刻。在晶体管广泛使用之前，振荡管是无线电和其他通信设备中使用的主要组件之一。它们产生稳定频率的能力使它们在调谐和信号生成中不可或缺。然而，随着技术的发展，晶体管开始取代振荡管，因为晶体管体积更小、效率更高、功耗更低。尽管在现代电子设备中使用振荡管的数量有所下降，但它们仍然在爱好者和复古技术收藏者的心中占据特殊地位。许多音频工程师和音乐家欣赏使用振荡管的设备所产生的温暖音色，这导致了对管式放大器和其他设备的兴趣复兴。这种怀旧的吸引力突显了振荡管在声音和音乐世界中的持久遗产。总之，振荡管是电子历史中的一个重要组成部分，代表了一项技术创新和文化文物。它产生振荡的能力为通信和音频技术的无数进步铺平了道路。尽管现代替代品在效率和实用性方面可能已经超过了振荡管，但其独特的特性仍然激励着一群忠实的用户和爱好者。理解振荡管的重要性不仅增强了我们对电子设备的欣赏，也将我们与该领域丰富的创新历史联系在一起。