Add to ORKGIn 1996, the differential current conveyor (DCCII) was introduced as a versatile active element with current differencing capability. Therefore, in this study, the usefulness of the DCCII is shown on six novel lossless grounded inductance simulator circuits. Proposed circuits simultaneously employ minimum number of elements, i.e. single DCCII, one capacitor, and two resistors. No passive element matching restriction is needed and all solutions are electronically tunable in case that one of resistors is replaced by MOSFET-based voltage-controlled resistor. The internal structure of the active element has been implemented using the TSMC 0.25 um SCN025 CMOS process BSIM3v3.1 parameters. Firstly, the performance of the selected inductor simulat...
New five grounded immittance function simulators are proposed in this paper. The first one is a posi...
In this paper, two new floating inductor simulators (FISs), both using two differential difference c...
In this paper two new grounded inductance simulators based on DXCCII suitable for operation in 30 kH...
In 1996, the differential current conveyor (DCCII) was introduced as a versatile active element with...
In this work, we present new topologies for realizing one lossless grounded inductor and two floatin...
In this work, we present new topologies for realizing one lossless grounded inductor and two floatin...
In this contribution, nine new Grounded Inductance Simulators (GISs) using a single Multiple-Output ...
Actively simulated grounded inductors have been used in several applications ranging from filter to ...
In this study, six grounded inductance simulator circuits are presented including additional useful ...
Minaei, Shahram (Dogus Author) -- Full conference title: 34th International Conference on Telecommun...
This paper is in continuation with the very recent work of Prasad et al. [14], wherein new realizati...
In this work, we present new topologies for realizing one lossless grounded inductor and two floatin...
A new realization of grounded lossless positive inductance simulator (PIS) using simple inverting vo...
In this study, we present a new topology for realizing a grounded inductor employing only a single c...
In this paper two new grounded inductance simulators based on DXCCII suitable for operation in 30 kH...
New five grounded immittance function simulators are proposed in this paper. The first one is a posi...
In this paper, two new floating inductor simulators (FISs), both using two differential difference c...
In this paper two new grounded inductance simulators based on DXCCII suitable for operation in 30 kH...
In 1996, the differential current conveyor (DCCII) was introduced as a versatile active element with...
In this work, we present new topologies for realizing one lossless grounded inductor and two floatin...
In this work, we present new topologies for realizing one lossless grounded inductor and two floatin...
In this contribution, nine new Grounded Inductance Simulators (GISs) using a single Multiple-Output ...
Actively simulated grounded inductors have been used in several applications ranging from filter to ...
In this study, six grounded inductance simulator circuits are presented including additional useful ...
Minaei, Shahram (Dogus Author) -- Full conference title: 34th International Conference on Telecommun...
This paper is in continuation with the very recent work of Prasad et al. [14], wherein new realizati...
In this work, we present new topologies for realizing one lossless grounded inductor and two floatin...
A new realization of grounded lossless positive inductance simulator (PIS) using simple inverting vo...
In this study, we present a new topology for realizing a grounded inductor employing only a single c...
In this paper two new grounded inductance simulators based on DXCCII suitable for operation in 30 kH...
New five grounded immittance function simulators are proposed in this paper. The first one is a posi...
In this paper, two new floating inductor simulators (FISs), both using two differential difference c...
In this paper two new grounded inductance simulators based on DXCCII suitable for operation in 30 kH...