exciter tube

简明释义

激励管

英英释义

例句

1.The technician replaced the faulty exciter tube to improve the performance of the radio transmitter.

技术人员更换了故障的激励管以提高无线电发射机的性能。

2.The exciter tube must be properly calibrated to ensure optimal signal output.

必须正确校准激励管以确保最佳信号输出。

3.In the laboratory, we conducted experiments using an exciter tube to generate specific frequencies.

在实验室，我们使用激励管进行实验以产生特定频率。

4.When troubleshooting the circuit, we discovered that the exciter tube was damaged.

在排查电路故障时，我们发现激励管损坏了。

5.The exciter tube in this laser system is crucial for initiating the laser action.

这个激光系统中的激励管对激发激光作用至关重要。

作文

The concept of an exciter tube is integral to the functioning of certain electronic devices, especially in the field of telecommunications and broadcasting. An exciter tube is a type of vacuum tube used to generate radio frequency signals. These signals are essential for transmitting information over long distances, making the exciter tube a crucial component in modern communication systems. Understanding how this device works can provide insights into the evolution of technology and the principles of wave propagation.At its core, the exciter tube operates by amplifying electrical signals. When an input signal is fed into the tube, it interacts with the electrons within, causing them to oscillate at a frequency determined by the circuit's design. This oscillation produces a stronger output signal that can be transmitted through antennas. The efficiency and effectiveness of an exciter tube can significantly influence the overall performance of a broadcasting system, as it directly affects the clarity and range of the transmitted signal.Historically, the development of the exciter tube marked a significant milestone in electronic engineering. Before the advent of solid-state devices, vacuum tubes like the exciter tube were the backbone of radio and television technology. Engineers and inventors worked tirelessly to improve the design and functionality of these tubes, leading to advancements that would shape the future of electronics. As technology progressed, the need for smaller, more efficient devices led to the introduction of transistors, which eventually replaced many applications of vacuum tubes. However, the exciter tube still holds relevance in specific high-power applications where its unique characteristics are advantageous.In addition to telecommunications, exciter tubes find applications in various industries, including medical equipment and scientific research. In medical imaging technologies, for instance, these tubes are used to generate precise signals necessary for imaging processes. Their reliability and performance make them indispensable in scenarios requiring high fidelity and accuracy.Moreover, understanding the role of an exciter tube provides a broader perspective on the importance of signal generation in our daily lives. From the radios we listen to in our cars to the televisions we watch at home, the underlying technology often involves complex systems that rely on components like the exciter tube. As we move towards a more digital age, the principles governing the exciter tube continue to inform the design and implementation of newer technologies, ensuring that the legacy of these devices persists.In conclusion, the exciter tube is more than just a component in electronic devices; it represents a significant chapter in the history of technology. Its ability to generate and amplify signals has paved the way for advancements in communication, entertainment, and medical technologies. By studying the exciter tube, we not only appreciate the ingenuity of past engineers but also gain valuable insights into the ongoing evolution of electronic devices. As we look to the future, the principles behind the exciter tube will undoubtedly continue to influence innovations in ways we cannot yet imagine.

“激励管”的概念对于某些电子设备的功能至关重要，特别是在电信和广播领域。“激励管”是一种用于生成射频信号的真空管。这些信号对于长距离传输信息至关重要，使得“激励管”成为现代通信系统中的关键组件。理解这个设备的工作原理可以提供对技术演变和波传播原理的深入见解。从本质上讲，“激励管”的工作原理是通过放大电信号。当输入信号输入到管中时，它与内部的电子相互作用，导致它们以电路设计确定的频率振荡。这种振荡产生一个更强的输出信号，可以通过天线进行传输。“激励管”的效率和有效性会显著影响广播系统的整体性能，因为它直接影响传输信号的清晰度和范围。历史上，“激励管”的发展标志着电子工程的一个重要里程碑。在固态设备出现之前，像“激励管”这样的真空管是无线电和电视技术的支柱。工程师和发明家不懈努力地改进这些管子的设计和功能，推动了塑造电子未来的进步。随着技术的进步，对更小、更高效设备的需求促使了晶体管的引入，后者最终取代了许多真空管的应用。然而，“激励管”在某些高功率应用中仍然具有相关性，其独特的特性是有利的。除了电信，“激励管”还在医疗设备和科学研究等多个行业中找到了应用。例如，在医学成像技术中，这些管子用于生成成像过程中所需的精确信号。它们的可靠性和性能使其在需要高保真度和准确性的情况下不可或缺。此外，理解“激励管”的作用可以为我们提供关于信号生成在日常生活中重要性的更广泛视角。从我们在汽车中收听的收音机到家中观看的电视，底层技术通常涉及依赖于像“激励管”这样的组件的复杂系统。随着我们迈向更加数字化的时代，支配“激励管”的原理继续影响新技术的设计和实施，确保这些设备的遗产得以延续。总之，“激励管”不仅仅是电子设备中的一个组件；它代表了技术历史上的一章。它生成和放大信号的能力为通信、娱乐和医疗技术的进步铺平了道路。通过研究“激励管”，我们不仅欣赏到过去工程师的聪明才智，还获得了对电子设备持续演变的宝贵见解。展望未来，“激励管”背后的原理无疑将继续以我们尚未想象的方式影响创新。