exciter

简明释义

英[ɪkˈsaɪtə(r)]美[ekˈsaɪtər;ɪkˈsaɪtər]

刺激者; 激励者; 刺激物; 兴奋剂

英英释义

单词用法

同义词

反义词

例句

1.It also describes in detail the principal technical data and the performance of their exciter and their calibration methods.

详细地介绍了该型激振器的主要技术指标和性能及其测定方法。

2.The vibration exciter is a exciting vibration unit.

激振器是一种激励振动装置。

3.The paper analyzes the rated case and fault cases of a 11 phase brushless exciter by general simulation model of exciter, which is based on Kron's tensor circuit.

本文应用张量电网络理论所建立的无刷励磁机通用仿真模型，对11相无刷励磁机进行了额定工况及故障工况的仿真研究。

4.This paper described the operation principle and character of type PR9270 vibration exciter.

阐述了PR9270型激振器的工作原理和结构特点。

5.The relationships between the chaotic characteristics of the exciter aswell as the rame rum oil system and the parameters of the exciter areinvestigated.

研究了“混沌激振器”和“机架—振动轮—土”系统的混沌特征与激振器参数之间的关系。

6.The mathematical model for the motion of CVE 2 type chaotic vibration exciter was set up and its numerical simulation and chaotic identification were carried out.

建立了使用滑动轴承的CVE -2型混沌激振器所产生的运动的数学模型，并对其进行了数值仿真和混沌识别。

7.This paper discusses the performance of the conventional alternative exciter— rectifier excitation system of the domestic turbo-generator set.

本文讨论了国内汽轮发电机组常用的交流励磁机—整流器励磁系统的运行特性。

8.Top left, part of the ignition exciter is visible.

左上角，在点火励磁部分是可见的。

9.The concert had a great exciter that energized the crowd.

这场音乐会有一个很好的激动者，让观众充满活力。

10.In electronics, an exciter is crucial for signal modulation.

在电子学中，激励器对于信号调制至关重要。

11.The roller coaster was an exciter that thrilled everyone.

过山车是一个让每个人都感到兴奋的刺激器。

12.The exciter in the sound system made the music come alive.

音响系统中的激励器让音乐变得生动。

13.She used an exciter to enhance her presentation.

她使用了一个激励器来增强她的演示效果。

作文

In the realm of physics and engineering, the term exciter refers to a device or mechanism that stimulates or induces a response in another system. This concept is crucial in various applications, including telecommunications, audio systems, and even in the field of medicine. Understanding how an exciter operates can provide insights into the underlying principles of these technologies and their practical uses. For instance, in telecommunications, an exciter is often used to generate signals that are transmitted over distances. These signals can be modulated to carry information, making the exciter a fundamental component in ensuring clear communication. The effectiveness of an exciter can significantly affect the quality of the signal received, highlighting its importance in the design of communication systems. Similarly, in audio systems, an exciter plays a vital role in enhancing sound quality. It works by adding harmonic content to the audio signal, which can make the sound more vibrant and full. Musicians and sound engineers often use exciters to improve recordings or live performances, demonstrating how an exciter can transform the listening experience. The ability of an exciter to manipulate sound waves showcases its versatility across different fields. Moreover, in the medical field, particularly in ultrasound technology, an exciter is used to generate sound waves that can penetrate the body for imaging purposes. This application of an exciter is critical in diagnostic procedures, allowing healthcare professionals to visualize internal organs and tissues non-invasively. The precision and effectiveness of the exciter directly influence the quality of the images produced, which is essential for accurate diagnoses. Understanding the function and significance of an exciter extends beyond technical knowledge; it encompasses the appreciation of how such devices impact our daily lives. From clearer phone calls to better music experiences and advanced medical imaging, the role of an exciter is omnipresent yet often overlooked. As technology continues to advance, the development of more sophisticated exciters will likely lead to even greater improvements in these areas. In conclusion, the concept of an exciter is multifaceted and integral to various technological advancements. Whether in communications, audio engineering, or medical diagnostics, the exciter serves as a catalyst for innovation and improvement. By grasping the significance of an exciter, we can better appreciate the complexities of the technologies that shape our world today. As we continue to explore new frontiers in science and engineering, the exciter will undoubtedly remain a key player in driving progress and enhancing our everyday experiences.

在物理和工程领域，术语exciter指的是一种设备或机制，它刺激或诱发另一个系统的响应。这个概念在电信、音频系统甚至医学领域的各种应用中都至关重要。理解exciter的工作原理可以提供对这些技术及其实际用途基础原理的洞察。 例如，在电信中，exciter通常用于生成信号，这些信号被传输到远处。这些信号可以调制以承载信息，使得exciter成为确保清晰通信的基本组件。exciter的有效性会显著影响接收信号的质量，突显了它在通信系统设计中的重要性。 同样，在音频系统中，exciter在增强音质方面发挥着重要作用。它通过向音频信号添加谐波内容来工作，这可以使声音更加生动和饱满。音乐家和音响工程师经常使用exciter来改善录音或现场表演，展示了exciter如何改变听觉体验。exciter操纵声波的能力展示了它在不同领域的多功能性。 此外，在医学领域，特别是在超声技术中，exciter用于生成可以穿透身体以进行成像的声波。这种exciter的应用在诊断程序中至关重要，使医疗专业人员能够非侵入性地可视化内部器官和组织。exciter的精确性和有效性直接影响所产生图像的质量，这对于准确诊断至关重要。 理解exciter的功能和重要性不仅仅是技术知识，它还涵盖了对这种设备如何影响我们日常生活的欣赏。从更清晰的电话通话到更好的音乐体验，再到先进的医学成像，exciter的角色无处不在，但往往被忽视。随着技术的不断进步，更复杂的exciter的发展可能会导致这些领域的更大改进。 总之，exciter的概念是多方面的，并且对各种技术进步至关重要。无论是在通信、音频工程还是医学诊断中，exciter都是创新和改进的催化剂。通过掌握exciter的重要性，我们可以更好地欣赏塑造我们今天世界的技术的复杂性。随着我们继续探索科学和工程的新前沿，exciter无疑将继续作为推动进步和增强我们日常体验的关键角色。