MOSFET-C Shadow Filters Based on FDCCII for Cognitive Communications

Abstract

In cognitive communications, it is very important to be able to use data in different standards with a single receiver for reducing the cost. In order to achieve this, the application of shadow filters in cognitive communications provides an advantage in terms of having both a wide frequency range and an easy reconfiguration. In this paper, new MOSFET-C shadow filters based on the Fully Differential Second-Generation Current Conveyor (FDCCII) are proposed for cognitive communications. To facilitate electronic tuning of the filter parameters, MOSFET-C-based implementation is used. Fully differential applications increase the dynamic range of analog blocks. Also, fully differential implementations with MOSFET-C filters are useful in analog signal processing. The presented filters have the least number of components and no additional summing circuit. This study presents new FDCCII-based MOSFET-C shadow filters for cognitive communications design that provide HP, LP and BP transfer functions at the same time. In this study, two MOSFET-C shadow filters based on FDCCII are designed for single gain and double gain. The presented filters offer circuit simplicity compared to past shadow filter designs. The features of these new shadow filters are explained. Simulation results are presented to confirm the theoretical analysis.