Single VDDDA-Based Lossy Inductance Simulator for Application to Sinusoidal Oscillator

2023 13th International Conference on Power, Energy and Electrical Engineering (CPEEE) Pub Date : 2023-02-25 DOI:10.1109/CPEEE56777.2023.10217533

W. Jaikla, Surapong Siripongdee, R. Sotner, P. Suwanjan

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Abstract

This work presents the design of a new grounded lossy inductance simulator. The proposed circuit emulates an inductor in parallel with a negative resistor, making it applicable to the design of a sinusoidal oscillator. The proposed simulator comprises a voltage differencing differential difference amplifier (VDDDA), a resistor, and a grounded capacitor. The proposed active inductor necessitates no essential matching criteria for passive elements. The equivalent inductance and negative resistance can be controlled electronically. Moreover, the parallel RLC and negative resistance configuration-based sinusoidal oscillator is designed as an example of its application. The oscillation frequency and condition are adjusted orthogonally. The performance of the proposed simulator circuit and the sinusoidal oscillator is evaluated using Pspice simulation and experimentation with VDDDA built from ICs AD830 and LM13700. The simulation and experimental results validate the behavior of the theory.

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基于单vddda的有损电感模拟器在正弦振荡器中的应用

本文介绍了一种新型接地损耗电感模拟器的设计。所提出的电路模拟了电感与负电阻并联，使其适用于正弦振荡器的设计。所提出的模拟器包括一个电压差分差分放大器(VDDDA)、一个电阻和一个接地电容器。提出的有源电感不需要对无源元件进行必要的匹配标准。等效电感和负电阻可以通过电子方式控制。此外，还设计了基于RLC和负电阻并联结构的正弦振荡器作为其应用实例。振荡频率和条件正交调节。通过Pspice仿真和基于AD830和LM13700的VDDDA实验，对所提出的仿真电路和正弦振荡器的性能进行了评估。仿真和实验结果验证了理论的正确性。

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2023 13th International Conference on Power, Energy and Electrical Engineering (CPEEE)

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