Add to ORKGIn this paper, a new CMOS high performance fully differential second-generation current conveyor (FDCCII) is presented. The proposed FDCCII provides good linearity, high output impedance at terminals Z+ and Z-, and excellent output– input current gain accuracy. What is more, it is operated at lower supply voltage of ± 1.25 V. As an application, a published current mode universal filter is realized with proposed FDCCIIs to demonstrate its versatility. The proposed FDCCII and its applications are simulated by using CMOS 0.35 μm technology
This paper describes the current conveyors used as a basic building block in a variety of electronic...
In this paper, various topologies of fully differential second-generation current conveyor (FDCCII) ...
Analog circuits can be generally classified into two broad categories: The first one includes analog...
In this paper, a new CMOS high performance fully differential second-generation current conveyor (FD...
In this paper, a new CMOS high performance fully differential second-generation current conveyor (FD...
In this paper, a new CMOS high performance fully differential second-generation current conveyor (FD...
In this paper two new realizations, one CMOS and one bipolar, for current-controlled conveyor (CCCII...
A new high performance second-generation CMOS current conveyor architecture is presented. It is bui...
In this paper, a novel translinear loop based, high performance Complementary Metal-Oxide-Semiconduc...
The differential current conveyor (DCCII) is a versatile current-mode active element, which has a cu...
Design of a CMOS robust low-distortion fully differential second-generation current conveyor (CCII) ...
In this paper, a novel translinear loop based, high performance Complementary Metal-Oxide-Semiconduc...
Design of a CMOS robust low-distortion fully differential second-generation current conveyor (CCII) ...
In this paper, a novel translinear loop based, high performance Complementary Metal-Oxide-Semiconduc...
In this work, a wideband and high-performance CMOS implementation of 2nd-generation current conveyor...
This paper describes the current conveyors used as a basic building block in a variety of electronic...
In this paper, various topologies of fully differential second-generation current conveyor (FDCCII) ...
Analog circuits can be generally classified into two broad categories: The first one includes analog...
In this paper, a new CMOS high performance fully differential second-generation current conveyor (FD...
In this paper, a new CMOS high performance fully differential second-generation current conveyor (FD...
In this paper, a new CMOS high performance fully differential second-generation current conveyor (FD...
In this paper two new realizations, one CMOS and one bipolar, for current-controlled conveyor (CCCII...
A new high performance second-generation CMOS current conveyor architecture is presented. It is bui...
In this paper, a novel translinear loop based, high performance Complementary Metal-Oxide-Semiconduc...
The differential current conveyor (DCCII) is a versatile current-mode active element, which has a cu...
Design of a CMOS robust low-distortion fully differential second-generation current conveyor (CCII) ...
In this paper, a novel translinear loop based, high performance Complementary Metal-Oxide-Semiconduc...
Design of a CMOS robust low-distortion fully differential second-generation current conveyor (CCII) ...
In this paper, a novel translinear loop based, high performance Complementary Metal-Oxide-Semiconduc...
In this work, a wideband and high-performance CMOS implementation of 2nd-generation current conveyor...
This paper describes the current conveyors used as a basic building block in a variety of electronic...
In this paper, various topologies of fully differential second-generation current conveyor (FDCCII) ...
Analog circuits can be generally classified into two broad categories: The first one includes analog...