booster excitation

简明释义

调整压机励磁

英英释义

例句

1.The research team conducted an experiment to measure the effects of booster excitation on particle acceleration.

研究小组进行了一项实验，以测量助推器激发对粒子加速的影响。

2.Engineers designed a new system that incorporates booster excitation for better performance.

工程师们设计了一个新系统，结合了助推器激发以获得更好的性能。

3.The booster excitation method proved to be effective in increasing the efficiency of the energy transfer.

这种助推器激发方法被证明在提高能量转移效率方面有效。

4.We observed a significant increase in output when applying booster excitation to the circuit.

当对电路施加助推器激发时，我们观察到输出显著增加。

5.In the lab, we used booster excitation to enhance the signal strength of our measurements.

在实验室中，我们使用助推器激发来增强测量信号的强度。

作文

In the realm of physics and engineering, the term booster excitation refers to a method used to enhance the performance of a system, particularly in the context of electrical circuits and signal processing. Essentially, it involves the application of an additional energy source to increase the output or efficiency of a device. This concept is particularly relevant in various fields such as telecommunications, aerospace, and even medical technology. For instance, in telecommunications, booster excitation can be utilized to amplify signals, allowing for clearer communication over long distances. Without this enhancement, signals may weaken significantly, leading to loss of information and clarity. Moreover, in the aerospace industry, booster excitation plays a crucial role in the launch of spacecraft. Rockets often require an initial boost to overcome the gravitational pull of the Earth, and this is where booster systems come into play. These systems provide the necessary thrust to propel the vehicle into space, demonstrating the importance of booster excitation in achieving successful missions. Furthermore, in medical technology, devices such as MRI machines utilize booster excitation techniques to enhance imaging capabilities. By applying additional energy pulses, these machines can generate clearer and more detailed images of the human body, aiding in accurate diagnoses and treatment plans. The significance of booster excitation extends beyond mere enhancement; it can be a determining factor in the success of various technological applications.Understanding booster excitation also involves recognizing its implications in energy consumption and efficiency. While boosting performance is essential, it is equally important to consider the energy resources being utilized. For example, in renewable energy systems, the concept of booster excitation can lead to discussions about sustainable practices. Enhancing energy output without depleting natural resources is a challenge that engineers and scientists continually face. Thus, the development of innovative solutions that incorporate booster excitation while maintaining sustainability is a key focus in contemporary research.In conclusion, booster excitation is a multifaceted concept that finds applications across various domains. Its ability to enhance performance, whether in telecommunications, aerospace, or medical technology, underscores its importance in modern science and engineering. As we continue to advance technologically, understanding and implementing booster excitation will be critical in optimizing systems and ensuring efficient use of resources. The future of technology lies in our ability to harness these concepts effectively, paving the way for innovations that can change the world for the better.

在物理和工程的领域中，术语booster excitation指的是一种用于增强系统性能的方法，尤其是在电路和信号处理的背景下。它本质上涉及应用额外的能源源，以提高设备的输出或效率。这个概念在电信、航空航天甚至医疗技术等多个领域都特别相关。例如，在电信中，booster excitation可以用于放大信号，从而允许在长距离内进行更清晰的通信。如果没有这种增强，信号可能会显著减弱，导致信息和清晰度的丧失。此外，在航空航天工业中，booster excitation在航天器发射中发挥着关键作用。火箭通常需要初始的推动力来克服地球的引力，这就是助推器系统发挥作用的地方。这些系统提供必要的推力，将飞行器推进太空，展示了booster excitation在实现成功任务中的重要性。此外，在医疗技术中，MRI机器使用booster excitation技术来增强成像能力。通过施加额外的能量脉冲，这些机器可以生成更清晰、更详细的人体图像，有助于准确的诊断和治疗方案。booster excitation的重要性不仅仅在于增强；它可能是各种技术应用成功的决定性因素。理解booster excitation还涉及认识其在能源消耗和效率方面的影响。虽然提升性能至关重要，但同样重要的是考虑所使用的能源资源。例如，在可再生能源系统中，booster excitation的概念可以引发关于可持续实践的讨论。在不耗竭自然资源的情况下增强能源输出是工程师和科学家不断面临的挑战。因此，开发结合booster excitation与可持续性的新颖解决方案是当代研究的关键焦点。总之，booster excitation是一个多方面的概念，在多个领域具有应用。它增强性能的能力，无论是在电信、航空航天还是医疗技术中，都突显了它在现代科学和工程中的重要性。随着我们技术的不断进步，理解和实施booster excitation对于优化系统和确保资源的有效利用至关重要。技术的未来在于我们有效利用这些概念的能力，为能够改善世界的创新铺平道路。