vibrating regulator
简明释义
振动式调节器
英英释义
A vibrating regulator is a device that uses mechanical vibrations to control and stabilize the output of an electrical system or signal. | 振动调节器是一种利用机械振动来控制和稳定电气系统或信号输出的装置。 |
例句
1.The engineer explained how the vibrating regulator 振动调节器 helps maintain a consistent voltage in the circuit.
工程师解释了如何使用振动调节器 vibrating regulator来保持电路中的电压稳定。
2.The vibrating regulator 振动调节器 is crucial for applications requiring precise control of electrical output.
对于需要精确控制电输出的应用,振动调节器 vibrating regulator是至关重要的。
3.During testing, the vibrating regulator 振动调节器 showed remarkable stability under load.
在测试期间,振动调节器 vibrating regulator在负载下表现出显著的稳定性。
4.In our latest model, we incorporated a vibrating regulator 振动调节器 to improve energy efficiency.
在我们的最新型号中,我们加入了一个振动调节器 vibrating regulator以提高能效。
5.We discovered that the vibrating regulator 振动调节器 reduces noise in power supply systems.
我们发现,振动调节器 vibrating regulator可以减少电源系统中的噪音。
作文
In the realm of engineering and technology, various components play crucial roles in ensuring the smooth operation of machines and systems. One such component that has garnered attention is the vibrating regulator. This device is designed to maintain a stable output voltage or current despite fluctuations in input voltage or load conditions. The vibrating regulator operates on the principle of resonance, utilizing mechanical vibrations to achieve regulation. This mechanism provides several advantages over traditional regulators, including improved efficiency and response time.The concept of a vibrating regulator may seem complex at first, but it can be understood by breaking down its components and functionality. At its core, the vibrating regulator consists of a vibrating element, typically a spring or diaphragm, which oscillates in response to changes in electrical conditions. When the input voltage varies, the vibrating element adjusts its position, thereby altering the output voltage to maintain stability.One of the key benefits of using a vibrating regulator is its ability to handle rapid changes in load. In many applications, especially in electronic devices, the demand for power can fluctuate significantly. Traditional regulators may struggle to keep up with these changes, leading to inefficiencies and potential damage to sensitive components. However, the vibrating regulator's quick response to load variations allows it to provide a consistent output, enhancing the overall performance and longevity of the system.Moreover, the vibrating regulator is often more compact and lightweight compared to conventional regulators. This characteristic makes it particularly appealing for applications where space and weight are critical factors, such as in aerospace and portable electronic devices. Engineers are continually seeking innovative solutions to reduce the size and weight of components while maintaining functionality, and the vibrating regulator fits this criterion perfectly.Despite its advantages, the vibrating regulator is not without challenges. One significant concern is the potential for mechanical wear and tear due to continuous vibrations. Over time, this can lead to decreased performance and reliability. Therefore, careful design and material selection are essential to ensure the longevity of the vibrating regulator. Additionally, the implementation of this technology may require specialized knowledge and expertise, making it less accessible for some engineers.In conclusion, the vibrating regulator represents a fascinating advancement in the field of regulation technology. Its ability to provide stable output under varying conditions, coupled with its compact design, makes it an attractive choice for modern applications. As technology continues to evolve, the role of the vibrating regulator is likely to expand, paving the way for more efficient and reliable systems across various industries. Understanding the intricacies of the vibrating regulator not only enhances our knowledge of engineering principles but also inspires future innovations in this dynamic field.
在工程和技术领域,各种组件在确保机器和系统的顺利运行中发挥着至关重要的作用。其中一个引起关注的组件是振动调节器。该设备旨在保持稳定的输出电压或电流,尽管输入电压或负载条件发生波动。振动调节器基于共振原理,利用机械振动来实现调节。这种机制相对于传统调节器提供了几个优点,包括更高的效率和响应时间。振动调节器的概念乍听起来可能很复杂,但通过分解其组成部分和功能可以理解其工作原理。在其核心,振动调节器由一个振动元件组成,通常是弹簧或隔膜,它会响应电气条件的变化而振荡。当输入电压变化时,振动元件会调整其位置,从而改变输出电压以保持稳定。使用振动调节器的一大好处是其处理负载快速变化的能力。在许多应用中,尤其是在电子设备中,对电力的需求可能会显著波动。传统调节器可能难以跟上这些变化,导致效率低下和对敏感组件的潜在损害。然而,振动调节器对负载变化的快速响应使其能够提供一致的输出,从而增强了系统的整体性能和使用寿命。此外,振动调节器通常比传统调节器更紧凑和轻便。这一特性使其在空间和重量至关重要的应用中尤为吸引人,例如航空航天和便携式电子设备。工程师们不断寻求创新解决方案,以在保持功能的同时减少组件的体积和重量,而振动调节器正好符合这一标准。尽管有其优势,振动调节器并非没有挑战。一个显著的担忧是由于持续振动可能导致的机械磨损。随着时间的推移,这可能导致性能和可靠性的下降。因此,仔细的设计和材料选择对于确保振动调节器的耐用性至关重要。此外,实施这一技术可能需要专业知识和技能,使其对于某些工程师来说不那么容易获取。总之,振动调节器代表了调节技术领域的一个迷人进步。它在变化条件下提供稳定输出的能力,加上其紧凑的设计,使其成为现代应用中的一个有吸引力的选择。随着技术的不断发展,振动调节器的作用可能会扩大,为各个行业的更高效、更可靠的系统铺平道路。理解振动调节器的复杂性不仅增强了我们对工程原理的认识,还激励了这一动态领域未来的创新。
相关单词
