Interesting type of the second-order electronically controllable multiphase oscillator is introduced in this paper. Modified voltage differencing current conveyor, so-called z-copy controlled gain voltage differencing current conveyor (ZC-CG-VDCC), offers interesting features for synthesis of this type of multiphase oscillator. Available controllable parameters of the ZC-CG-VDCC (intrinsic resistance, transconductance and current gain) are fully utilized for independent adjusting of oscillation condition and oscillation frequency. Specific matching condition allows linear control of oscillation frequency that is not so typical in such simple types of oscillators. Available phase shifts are 45, 90, 135 and 180 degree. Simulation results base...
This paper reports two new circuit topologies using second-generation current conveyors (CCIIs) for ...
A new sinusoidal oscillator configuration using two second generation current conveyors (CCIIs) is i...
This work presents an example of implementation of electronically controllable features to an origin...
A modified version of voltage differencing current conveyor (VDCC) and its performance in detail is ...
This paper deals with a very simple functional generator employing single multi-terminal advanced ac...
The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting ...
This paper presents two new applications of modified version of the voltage differencing current con...
This paper presents a proposal and an experimental analysis of behavioral emulator of so-called z-co...
This work presents an example of implementation of electronically controllable features to an origin...
Presented work deals with applications of the single Z-Copy Controlled-Gain Voltage Differencing Cur...
This paper presents a simple oscillator with 45 degrees phase shift between output sign...
In this paper, a new electronically tunable quadrature oscillator (ETQO) based on two modified versi...
In this paper, an interesting design of precise quadrature oscillator employing electronically contr...
The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting ...
Presented research introduces active filtering circuits which allow change of the transfer type with...
This paper reports two new circuit topologies using second-generation current conveyors (CCIIs) for ...
A new sinusoidal oscillator configuration using two second generation current conveyors (CCIIs) is i...
This work presents an example of implementation of electronically controllable features to an origin...
A modified version of voltage differencing current conveyor (VDCC) and its performance in detail is ...
This paper deals with a very simple functional generator employing single multi-terminal advanced ac...
The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting ...
This paper presents two new applications of modified version of the voltage differencing current con...
This paper presents a proposal and an experimental analysis of behavioral emulator of so-called z-co...
This work presents an example of implementation of electronically controllable features to an origin...
Presented work deals with applications of the single Z-Copy Controlled-Gain Voltage Differencing Cur...
This paper presents a simple oscillator with 45 degrees phase shift between output sign...
In this paper, a new electronically tunable quadrature oscillator (ETQO) based on two modified versi...
In this paper, an interesting design of precise quadrature oscillator employing electronically contr...
The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting ...
Presented research introduces active filtering circuits which allow change of the transfer type with...
This paper reports two new circuit topologies using second-generation current conveyors (CCIIs) for ...
A new sinusoidal oscillator configuration using two second generation current conveyors (CCIIs) is i...
This work presents an example of implementation of electronically controllable features to an origin...