tickler coil

简明释义

反馈线圈

英英释义

例句

1.The engineer adjusted the settings on the tickler coil to improve the system's efficiency.

工程师调整了tickler coil的设置，以提高系统效率。

2.The tickler coil is essential for maintaining the electrical flow in the circuit.

tickler coil对保持电路中的电流流动至关重要。

3.She explained how the tickler coil works during her presentation on electrical components.

她在关于电气组件的演讲中解释了tickler coil的工作原理。

4.After replacing the old tickler coil, the machine started running smoothly again.

更换旧的tickler coil后，机器又开始顺利运行。

5.During the maintenance check, we found that the tickler coil was not functioning properly.

在维护检查中，我们发现tickler coil工作不正常。

作文

In the realm of physics and engineering, various components play pivotal roles in the functioning of devices and systems. One such component is the tickler coil, a fascinating element that has found its place in the world of radio technology. The term tickler coil refers to a small coil of wire used primarily in tuned circuits to provide feedback for oscillation. This feedback is crucial in generating and maintaining radio frequency signals, which are essential for communication systems. Understanding the function and application of the tickler coil can shed light on its importance in modern technology.The tickler coil operates on the principle of electromagnetic induction. When an alternating current flows through the coil, it creates a varying magnetic field around it. This magnetic field can induce a voltage in nearby circuits, allowing the tickler coil to transfer energy to the oscillator circuit. This process is vital in ensuring that the oscillations remain stable and consistent, which is necessary for clear and reliable signal transmission.Historically, the tickler coil gained prominence in early radio transmitters and receivers. In these devices, the tickler coil was often used in conjunction with other components like capacitors and inductors to create a resonant circuit. By adjusting the parameters of the tickler coil and its associated components, engineers could tune the circuit to specific frequencies, enabling the reception or transmission of particular radio signals. This tuning capability was instrumental in the development of AM and FM radio technologies, making the tickler coil a key player in the evolution of wireless communication.In addition to its historical significance, the tickler coil continues to be relevant in contemporary applications. Modern radio equipment, including amateur radios and some types of wireless communication devices, still utilize the principles of the tickler coil. Its ability to provide feedback and stabilize oscillations makes it invaluable in ensuring that signals remain strong and clear over distances. Furthermore, advancements in technology have led to the miniaturization of components, allowing for more compact designs that still incorporate the tickler coil functionality.Moreover, the study of the tickler coil extends beyond just radio technology. It serves as an excellent example of how simple components can have profound effects on system performance. Engineers and physicists often analyze the behavior of the tickler coil in various configurations to understand better its impact on overall circuit design. This knowledge can lead to innovations in other fields, such as medical devices, where precise signal generation and feedback mechanisms are critical.In conclusion, the tickler coil is more than just a technical term; it represents a fundamental principle in electronics that has shaped the way we communicate. From its origins in early radio technology to its ongoing relevance in modern systems, understanding the tickler coil is essential for anyone interested in the fields of engineering and physics. As technology continues to evolve, the principles behind the tickler coil will undoubtedly inspire future innovations, proving that even the smallest components can have a significant impact on our world.

在物理和工程领域，各种组件在设备和系统的运作中发挥着关键作用。其中一个组件是tickler coil，这是一个迷人的元素，它在无线电技术的世界中找到了自己的位置。术语tickler coil指的是一小段用于调谐电路的电线圈，主要用于提供振荡反馈。这种反馈对于生成和维持无线电频率信号至关重要，这对于通信系统是必不可少的。理解tickler coil的功能和应用可以揭示其在现代技术中的重要性。tickler coil基于电磁感应原理运作。当交流电流通过线圈时，它会在周围产生一个变化的磁场。这个磁场可以在附近的电路中感应出电压，从而使tickler coil能够将能量传递给振荡电路。这个过程对于确保振荡保持稳定和一致至关重要，这对于清晰和可靠的信号传输是必要的。历史上，tickler coil在早期无线电发射器和接收器中获得了重要地位。在这些设备中，tickler coil通常与电容器和电感器等其他组件结合使用，以创建谐振电路。通过调整tickler coil及其相关组件的参数，工程师可以将电路调谐到特定频率，从而实现特定无线电信号的接收或发射。这种调谐能力在AM和FM无线电技术的发展中发挥了重要作用，使得tickler coil成为无线通信演变中的关键角色。除了历史意义外，tickler coil在当代应用中仍然具有相关性。现代无线电设备，包括业余无线电和某些类型的无线通信设备，仍然利用tickler coil的原理。它提供反馈和稳定振荡的能力使其在确保信号在远距离内保持强大和清晰方面不可或缺。此外，技术的进步导致组件的小型化，使得更紧凑的设计仍然可以包含tickler coil的功能。此外，tickler coil的研究超越了无线电技术。它是一个简单组件如何对系统性能产生深远影响的优秀示例。工程师和物理学家经常分析tickler coil在各种配置中的行为，以更好地理解其对整体电路设计的影响。这些知识可以导致其他领域的创新，例如医疗设备，在这些领域中，精确的信号生成和反馈机制至关重要。总之，tickler coil不仅仅是一个技术术语；它代表了电子学中的一个基本原理，这一原理塑造了我们沟通的方式。从早期无线电技术的起源到现代系统中持续的相关性，理解tickler coil对于任何对工程和物理学感兴趣的人来说都是必不可少的。随着技术的不断发展，tickler coil背后的原理无疑将激励未来的创新，证明即使是最小的组件也可以对我们的世界产生重大影响。