Negative Impedance Converter With Reduced Nonideal Gain and Parasitic Impedance Effects

In this paper, two novel negative impedance converter (NIC) structures are proposed. One of the introduced NICs exhibits the property of both simultaneously reduced nonideal gain and parasitic impedance effects. Also, the other one shows the property of reducing only parasitic impedance effects and employs only second-generation current conveyors; accordingly, it can be realized with commercially available active devices such as AD844s. In order to show the performance of the introduced NICs, a versatile circuit employing a minimum number of active and passive elements for all the analog filters and lossy inductor simulators is developed. The proposed topology with appropriate component and input port selections gives four kinds of lossy grounded simulated inductors as well. Further, the presented multipurpose circuit is the first one that provides both of the current-mode and voltage-mode standard universal filter responses as well as synthetic inductors from the same topology. The developed topology employing only grounded capacitors can also realize transimpedance-mode low-pass and bandpass responses simultaneously; thus, it is convenient for integrated circuit (IC) realization. Likewise, positive lossy inductor simulators consist of a grounded capacitor. Nevertheless, the realized circuit requires a single resistive component-matching condition. Simulation results using SPICE program and experimental results are included to verify the theoretical ones.