dynatron

简明释义

英[ˈdaɪnətrɒn]美[ˈdaɪnəˌtrɑːn]

n. 介子；负特性管

英英释义

单词用法

同义词

反义词

例句

1.Based on the research on the characteristic of the dynatron component and parts of an apparatus, the concept of dynatron effect was educed, and the engendering mode and principle was discussed.

在对负阻元器件特性进行研究和分析的基础上引出负阻效应的概念，对负阻效应产生方式和原理进行了论述。

2.Based on the research on the characteristic of the dynatron component and parts of an apparatus, the concept of dynatron effect was educed, and the engendering mode and principle was discussed.

在对负阻元器件特性进行研究和分析的基础上引出负阻效应的概念，对负阻效应产生方式和原理进行了论述。

3.Dynatron, light-emitting diode, electrolytic capacitor metalized capacitor, inductance , safety capacitor , crystal oscillator , and other kind of electronic components tape.

三极管，发光二极管，电解电容，电感，安规电容，晶振等导针式电子元器件立式编带。

4.The general intelligent controller for building automation system (BAS) is composed of AT89S52 and RS232 interfaces, modulus conversion chip, dynatron and NE4100 gateway etc.

楼宇自动化用智能控制器由at89s52、RS232接口、模数转换芯片、三极管及NE4100网关等组成。

5.On the basis of finishing the analysis, design and realization of the production management, the thesis primarily dissertates how to choose parameters in the dynatron-test.

论文在完成了生产管理系统分析设计并实现的基础上，着重研究测试工序的参数选择问题。

6.The existence and characteristics of dynatron effect in the components and parts of several apparatus have been studied and proved in this paper.

对负阻效应在实际几种元器件中的存在及特性进行了研究和证明，重点研究了利用运算放大器构成的负阻抗变换器的变换阻抗性质。

7.The engineer explained how the dynatron 动力管 works in radio frequency applications.

工程师解释了如何在射频应用中使用dynatron 动力管。

8.In his research, he focused on improving the efficiency of the dynatron 动力管 for better signal amplification.

在他的研究中，他专注于提高dynatron 动力管的效率，以便更好地放大信号。

9.The dynatron 动力管 was crucial in developing high-power oscillators.

在开发高功率振荡器时，dynatron 动力管至关重要。

10.During the presentation, the scientist demonstrated the characteristics of a dynatron 动力管 under various conditions.

在演示中，科学家展示了在不同条件下dynatron 动力管的特性。

11.The development of the dynatron 动力管 has significantly impacted the field of telecommunications.

dynatron 动力管的发展对电信领域产生了重大影响。

作文

The evolution of technology has always been driven by the pursuit of efficiency and innovation. One of the fascinating inventions that emerged in the realm of electronics is the dynatron 动态管. This device, which operates as a type of vacuum tube, has played a significant role in the development of radio frequency (RF) applications and high-frequency oscillators. Understanding the dynatron 动态管 is essential for anyone interested in the history of electronic engineering and its impact on modern technology. The dynatron 动态管 was invented in the early 20th century and quickly gained popularity due to its ability to generate high-frequency signals with minimal distortion. Unlike traditional vacuum tubes, the dynatron 动态管 utilizes a unique mechanism that allows it to amplify electrical signals efficiently. This characteristic made it particularly useful in applications such as radio transmitters and receivers, where clarity and precision are paramount. One of the critical aspects of the dynatron 动态管 is its operation based on the principle of negative resistance. This property enables the dynatron 动态管 to maintain oscillations without requiring an external power source to sustain them. As a result, it can produce stable and continuous waveforms, which are essential for various communication technologies. The significance of this innovation cannot be overstated, as it paved the way for advancements in wireless communication, radar systems, and even television broadcasting. Despite its remarkable capabilities, the dynatron 动态管 is not without its limitations. For instance, it is sensitive to temperature changes and can be affected by variations in voltage. These factors can lead to instability in the output signal, which poses challenges for engineers and technicians working with the device. Nevertheless, the dynatron 动态管 remains a pivotal component in the history of electronics, demonstrating how innovations can shape entire industries. In contemporary applications, while solid-state devices have largely replaced vacuum tubes, the principles behind the dynatron 动态管 continue to influence the design of modern oscillators and amplifiers. Engineers draw inspiration from its unique characteristics to develop new technologies that require high-frequency performance and reliability. Moreover, the study of dynatron 动态管 circuits offers valuable insights into the fundamentals of electronic design, making it an important topic in educational curricula for aspiring electrical engineers. In conclusion, the dynatron 动态管 stands as a testament to human ingenuity and the quest for technological advancement. Its ability to generate stable high-frequency signals revolutionized the field of electronics and laid the groundwork for many modern communication systems. While newer technologies may have overshadowed the dynatron 动态管, its legacy endures, reminding us of the importance of innovation in shaping our world. Understanding the dynatron 动态管 is not just about appreciating a historical artifact; it is about recognizing the ongoing influence of past inventions on the future of technology.

技术的演变始终受到追求效率和创新的驱动。在电子学领域中，出现了一种迷人的发明——dynatron 动态管。这种作为一种真空管的设备在无线电频率（RF）应用和高频振荡器的发展中发挥了重要作用。理解dynatron 动态管对于任何对电子工程历史及其对现代技术影响感兴趣的人来说都是至关重要的。 dynatron 动态管于20世纪初被发明，并迅速因其以最小失真生成高频信号的能力而受到欢迎。与传统真空管不同，dynatron 动态管利用独特机制高效地放大电信号。这一特性使其在无线电发射机和接收机等应用中尤为有用，在这些应用中，清晰度和精确度至关重要。 dynatron 动态管的一个关键方面是其基于负阻抗原理的操作。这一特性使得dynatron 动态管能够在不需要外部电源来维持振荡的情况下保持振荡。因此，它可以产生稳定且连续的波形，这对各种通信技术至关重要。这一创新的重要性不容小觑，因为它为无线通信、雷达系统甚至电视广播的发展铺平了道路。 尽管具有显著的能力，但dynatron 动态管并非没有局限性。例如，它对温度变化敏感，可能会受到电压变化的影响。这些因素可能导致输出信号的不稳定，这给与该设备合作的工程师和技术人员带来了挑战。然而，dynatron 动态管仍然是电子学历史中的关键组成部分，展示了创新如何塑造整个行业。 在当代应用中，尽管固态设备在很大程度上取代了真空管，但dynatron 动态管背后的原理仍然影响着现代振荡器和放大器的设计。工程师从其独特特性中汲取灵感，开发出需要高频性能和可靠性的新技术。此外，研究dynatron 动态管电路为希望成为电气工程师的学生提供了宝贵的见解，使其成为教育课程中的重要主题。 总之，dynatron 动态管是人类聪明才智和技术进步追求的见证。其生成稳定高频信号的能力彻底改变了电子学领域，并为许多现代通信系统奠定了基础。尽管更新的技术可能已经掩盖了dynatron 动态管的光芒，但它的遗产依然存在，提醒我们创新在塑造我们世界中的重要性。理解dynatron 动态管不仅仅是欣赏历史文物；它还关系到认识过去发明对未来技术的持续影响。