armstrong oscillator

简明释义

盗丹振荡器

英英释义

例句

1.In our electronics lab, we built an armstrong oscillator 阿姆斯特朗振荡器 to study its frequency stability.

在我们的电子实验室中，我们构建了一个阿姆斯特朗振荡器来研究其频率稳定性。

2.One advantage of the armstrong oscillator 阿姆斯特朗振荡器 is its simplicity in design compared to other oscillators.

阿姆斯特朗振荡器相对于其他振荡器，其设计简单是一个优势。

3.The design of the armstrong oscillator 阿姆斯特朗振荡器 is crucial for generating stable frequencies in radio transmitters.

阿姆斯特朗振荡器的设计对于在无线电发射器中产生稳定频率至关重要。

4.We observed the waveform generated by the armstrong oscillator 阿姆斯特朗振荡器 using an oscilloscope.

我们使用示波器观察了阿姆斯特朗振荡器生成的波形。

5.The armstrong oscillator 阿姆斯特朗振荡器 can be used in various applications such as signal modulation.

阿姆斯特朗振荡器可以用于信号调制等各种应用。

作文

In the field of electronics and signal processing, the term armstrong oscillator refers to a type of electronic oscillator that generates a sine wave output. This oscillator is named after its inventor, Edwin Howard Armstrong, who was a pioneering figure in the development of radio technology. The armstrong oscillator is particularly notable for its ability to produce stable and accurate frequencies, making it an essential component in various applications such as radio transmitters, receivers, and other communication devices.The basic principle behind the armstrong oscillator involves the use of feedback loops and amplifying components to sustain oscillation. It typically consists of an inductor and capacitor, which together form a resonant circuit. When energy is supplied to this circuit, it causes the inductor to store energy in the form of a magnetic field while the capacitor stores energy as an electric field. The interaction between these two components creates oscillations at a specific frequency determined by their values.One of the key advantages of the armstrong oscillator is its ability to maintain a consistent frequency output over time. This stability is crucial in communication systems where precise frequency control is necessary to avoid interference and ensure clear signal transmission. Additionally, the armstrong oscillator can be designed to operate at various frequencies, making it versatile for different applications.Historically, the invention of the armstrong oscillator played a significant role in advancing radio technology. Before its development, many oscillators struggled with frequency stability and reliability. Armstrong's design addressed these issues, leading to improved performance in radio broadcasts and ultimately contributing to the growth of the broadcasting industry.Today, the principles of the armstrong oscillator are still relevant and widely used in modern electronics. While digital technology has introduced new methods of generating signals, the fundamental concepts behind the armstrong oscillator continue to inform the design of contemporary oscillators and signal generators. Engineers and technicians often study the armstrong oscillator to better understand oscillation theory and its practical applications in various electronic devices.In conclusion, the armstrong oscillator represents a significant milestone in the evolution of electronic oscillators. Its ability to generate stable frequencies has made it an invaluable tool in communication technologies. As we continue to innovate and explore new frontiers in electronics, the legacy of the armstrong oscillator will undoubtedly remain influential in shaping the future of signal generation and processing.

在电子和信号处理领域，术语armstrong oscillator指的是一种生成正弦波输出的电子振荡器。该振荡器以其发明者爱德温·霍华德·阿姆斯特朗（Edwin Howard Armstrong）的名字命名，他是无线电技术发展的先驱人物。armstrong oscillator因其能够产生稳定且准确的频率而特别引人注目，因此在各种应用中都是必不可少的组成部分，例如无线电发射机、接收机和其他通信设备。armstrong oscillator的基本原理涉及使用反馈回路和放大组件来维持振荡。它通常由一个电感和一个电容组成，二者共同形成一个谐振电路。当能量被输送到这个电路时，它使得电感以磁场的形式储存能量，而电容则以电场的形式储存能量。这两个组件之间的相互作用在特定频率下产生振荡，该频率由它们的值决定。armstrong oscillator的一个关键优势是能够在一段时间内保持一致的频率输出。这种稳定性在通信系统中至关重要，因为精确的频率控制对于避免干扰和确保信号清晰传输是必要的。此外，armstrong oscillator可以设计成在不同频率下工作，使其在不同应用中具有多功能性。历史上，armstrong oscillator的发明在推动无线电技术方面发挥了重要作用。在其发展之前，许多振荡器在频率稳定性和可靠性方面面临挑战。阿姆斯特朗的设计解决了这些问题，导致无线电广播性能的改善，并最终促进了广播行业的发展。如今，armstrong oscillator的原理仍然相关，并广泛应用于现代电子产品。虽然数字技术引入了生成信号的新方法，但< span>armstrong oscillator背后的基本概念仍然继续影响当代振荡器和信号发生器的设计。工程师和技术人员经常研究armstrong oscillator以更好地理解振荡理论及其在各种电子设备中的实际应用。总之，armstrong oscillator代表了电子振荡器演变中的一个重要里程碑。其生成稳定频率的能力使其成为通信技术中不可或缺的工具。随着我们继续创新并探索电子学的新前沿，armstrong oscillator的遗产无疑将在塑造信号生成和处理的未来中保持影响力。