inductors
简明释义
n. [电]电感器(inductor 的复数形式)
英英释义
单词用法
互感器 | |
耦合线圈 |
同义词
| 线圈 | Inductors are often used in electronic circuits to store energy. | 电感器通常用于电子电路中以储存能量。 |
反义词
| 电容器 | 电容器将电能存储在电场中。 | ||
| 电阻器 | 电阻器限制电路中的电流流动。 |
例句
1.The on-chip spiral inductors were utilized for the low noise performance and monolithic integration.
放大器采用片内集成的螺旋电感实现低噪声和单片集成。
2.An electrical circuit or network is composed of elements such as resistors, inductors, and capacitors connected together in some manner.
电路或者电网络是由电阻、电感和电容等元件以某种方式连接而构成。
3.In this chip, inductors are realized with microstrips or grounded coplanar waveguides according to their actual position, so the chip's area is reduced.
选用微带线和衬底接地的共面波导等不同结构的电感实现形式,充分利用了芯片面积。
4.In all, this paper presents some called real inductors models and provides a design method of real inductor model.
总之,本文建立了一定数量的磁芯感性元件宏模型,提供了建立更多实际感性元件模型的设计方法和思路。
5.As one of the most important components of RF circuits, high Q inductors realized with RF-MEMS are the most active research subjects.
作为射频电路的重要元件,高Q值电感已经成为RF -MEMS器件研究中的热点。
6.This dissertation presents physical models that address the electromagnetic phenomena and parasitics important to the behavior of on-chip inductors.
本论文建立了包含电磁现象以及对电感性能有重要影响的寄生电阻和寄生电容的物理模型。
7.Excellent as DC-DC converter boost or buck inductors, Also used for filtering applications.
适合用于直流—直流整流器或作为低阶电感,也可用于滤波应用。
8.In radio frequency circuits, inductors are crucial for filtering signals.
在射频电路中,电感器 对于过滤信号至关重要。
9.You can find inductors in many everyday devices, such as chargers and radios.
你可以在许多日常设备中找到电感器,例如充电器和收音机。
10.The inductors in this circuit help to store energy temporarily.
这个电路中的电感器有助于暂时储存能量。
11.When designing power supplies, engineers often use inductors to smooth out voltage fluctuations.
在设计电源时,工程师通常使用电感器来平滑电压波动。
12.High-frequency applications require specially designed inductors to prevent losses.
高频应用需要专门设计的电感器以防止损耗。
作文
Inductors are fundamental components in the field of electronics and electrical engineering. They are passive devices that store energy in the form of a magnetic field when an electric current flows through them. The basic principle behind inductors is electromagnetic induction, which was discovered by Michael Faraday in the 19th century. Inductors are typically made of a coil of wire, often wrapped around a core made of ferromagnetic material, which enhances their ability to store energy. This enhancement is crucial for many applications in modern technology.In various electronic circuits, inductors (电感器) play a significant role in filtering, energy storage, and signal processing. For instance, in power supply circuits, inductors (电感器) are used to smooth out fluctuations in voltage, ensuring that the output remains stable. This is particularly important in devices such as computers and smartphones, where consistent power supply is essential for optimal performance.Moreover, inductors (电感器) are also used in radio frequency applications. They help tune circuits to specific frequencies, allowing for effective transmission and reception of signals. In radio transmitters and receivers, inductors (电感器) work alongside capacitors to create resonant circuits that can filter out unwanted frequencies while allowing desired signals to pass through. This functionality is vital for clear communication in various wireless technologies.Another interesting aspect of inductors (电感器) is their behavior in alternating current (AC) circuits. Unlike resistors, which dissipate energy as heat, inductors (电感器) oppose changes in current. When the current flowing through an inductor (电感器) increases, it generates a magnetic field that stores energy. Conversely, when the current decreases, the magnetic field collapses, releasing the stored energy back into the circuit. This property makes inductors (电感器) valuable in applications such as transformers and inductive heating.Despite their numerous advantages, inductors (电感器) also have some limitations. For example, they can introduce lag in the current flow due to their inductive reactance, which can affect the overall performance of circuits, especially in high-frequency applications. Additionally, the physical size of inductors (电感器) can be a concern, as larger coils may be required to achieve higher inductance values, which can impact the design of compact electronic devices.In conclusion, inductors (电感器) are essential components in modern electronics, serving various functions from energy storage to signal processing. Their unique properties allow them to play a critical role in both DC and AC circuits. As technology continues to advance, the demand for efficient and compact inductors (电感器) will likely increase, leading to further innovations in their design and application. Understanding how inductors (电感器) work and their significance in electronic systems is crucial for anyone interested in the field of electrical engineering or electronics. The ongoing research and development in this area promise exciting advancements that will shape the future of technology.
电感器是电子和电气工程领域的基本组件。它们是被动元件,当电流流过时以磁场的形式存储能量。电感器的基本原理是电磁感应,这一原理在19世纪由迈克尔·法拉第发现。电感器通常由一圈绕在铁磁材料核心上的线圈构成,这增强了它们存储能量的能力。这种增强对于现代技术中的许多应用至关重要。在各种电子电路中,inductors(电感器)在过滤、能量存储和信号处理方面发挥着重要作用。例如,在电源电路中,inductors(电感器)用于平滑电压波动,确保输出保持稳定。这在计算机和智能手机等设备中尤为重要,因为一致的电源供应对最佳性能至关重要。此外,inductors(电感器)还用于射频应用。它们帮助电路调谐到特定频率,从而有效地传输和接收信号。在无线电发射器和接收器中,inductors(电感器)与电容器一起工作,创建谐振电路,过滤掉不必要的频率,同时允许所需信号通过。这种功能对于各种无线技术中的清晰通信至关重要。
另一个有趣的方面是,inductors(电感器)在交流电(AC)电路中的行为。与电阻器不同,电阻器将能量以热量的形式散失,而inductors(电感器)则会抵抗电流的变化。当流过inductor(电感器)的电流增加时,它会产生一个存储能量的磁场。相反,当电流减少时,磁场会崩溃,将存储的能量释放回电路中。这一特性使得inductors(电感器)在变压器和感应加热等应用中具有价值。尽管有许多优点,inductors(电感器)也有一些局限性。例如,由于其感抗,它们可能会在电流流动中引入滞后,这可能影响电路的整体性能,特别是在高频应用中。此外,inductors(电感器)的物理尺寸可能成为问题,因为可能需要更大的线圈以实现更高的电感值,这可能影响紧凑型电子设备的设计。总之,inductors(电感器)是现代电子产品中不可或缺的组件,承担着从能量存储到信号处理的各种功能。它们独特的特性使它们在直流和交流电路中发挥关键作用。随着技术的不断进步,对高效和紧凑型inductors(电感器)的需求可能会增加,从而推动其设计和应用的进一步创新。理解inductors(电感器)的工作原理及其在电子系统中的重要性,对于任何对电气工程或电子学感兴趣的人来说都是至关重要的。在这一领域的持续研究和发展预示着令人兴奋的进展,将塑造技术的未来。
