Gyrator

One method to obtain gyrator ─ application of the negative impedance converter

实现回转器的一种方法&负阻抗变换器的应用

Principle and Application of Measuring Power Transformer Wire-Wound DC Resistance Based on Gyrator

基于回转器的电力变压器绕组直流电阻测试原理及应用

( p + q ) - Port Gyrator and Its Group Character

（p+q）端口回转器及其群特性

The principle and the practice of an oscillation circuit using a gyrator are discussed .

本文叙述应用回转器的振荡电路的原理与实践。

The complementary function of the gyrator in the automatic regulation system has been analyzed theoretically in this paper .

文中从理论上分析了回转器应用于调节系统的意义和工作特性。

Image Encryption Based on Gyrator Transform

基于Gyrator变换的图像加密研究

The analytic expression of Gyrator transform in the polar coordinate has been given and analyzed .

推导了Gyrator变换在极坐标中的解析表达形式。

Joint Transform Correlator Based on Gyrator Transform

基于Gyrator变换的联合变换相关器

The Application of a Gyrator to Oscillation Circuits

回转器在振荡电路中的应用

Properties in Mathematics and Physics and Multiformity of Defination of Gyrator Transform

Gyrator变换定义的多样性及数学物理性质

Synthesis of Piecewise - Linear n - Port Resistor by ( p + q ) - Port Gyrator

（p+q）端口回转器综合分段线性n端口电阻器

In this paper a scheme for improving the dynamic characteristic of an automatic regulation system by way of an addition of a gyrator circuit is presented .

本文提出了一种用回转器改善自动调节系统动态特性的方案。

In this approach , magnetic paths are modeled by capacitive circuits and windings are represented by two-ports gyrator .

在回转器&电容模型中，磁路由容性电路来模拟，绕组由双端口的回转器来代替。

Gyrator and Its Applications

回转器及其应用

Such a pattern of performance characterstic is resulted from the action of the gyrator circuit and the change of inductance value of an iron core in the feedback circuit .

这种运行特性的变化就是利用回转器的特性和改变接在反馈回路中的铁芯电感线圈的电感量得到的。

Using operational amplifiers with their external components to form a gyrator , it is possible to simulate a large value inductor with a very high Q factor and to realize ultra-low frequency oscillation .

将运算放大器及其外接元件组成回转器，就能够模拟一只Q值极高的大电感，从而实现超低频振荡。

To simplify the analysis , the proposed gyrator large-signal model is employed for simplifying the source converter , and the load converter is simplified as a constant power load ( CPL ) .

出于简化分析的目的，采用回转器统一大信号模型和恒功率负载分别对系统中的源、负载变流器进行替代。

It is possible to simulate the capacitance or the inductance utilizing the operational amplifiers , the resistors , and the capacitors based on the principle of gyrator in the theories of neoteric electrotechnics .

根据近代电工理论中的回转器原理，利用运算放大器及电阻、电容器件可以实现模拟电容和模拟电感。

The Gyrator transform is a new fractional transform , and belongs to the linear canonical integral transform . As a novel mathematical transform , the Gyrator transform has valuable applications in the fields of signal processing and optical information processing .

Gyrator变换作为一种特殊的分数阶变换，已经在信息光学领域中显示出了重要的应用价值。

In this paper , we theoretically demonstrate the Gyrator is a kind of transmission element , and it has behaviour to gyrate impe-dandce . Finally , we find that the Gyrator is realized by Hall effect .

本文从理论上论证回转器是一种具有回转阻抗性能的传输元件，可用霍尔效应实现回转器。

So that the discrete Gyrator transform can be calculated by the Fast Fourier transform . The convolution expression of the general linear canonical transform has been derived . So it can be calculated by the Fourier transform according to the convolution theorem of Fourier transform .

其次，推导了一般线性正则变换的卷积表达形式，根据傅里叶变换的卷积定理，由快速傅里叶变换实现卷积计算。