A new approach to the design of an in instrumentation amplifier using only 2 CMOS current-controlled conveyors and an active resistor is introduced. The new approach, which has no passive components, offers a wide bandwidth. and a high common-mode rejection ratio (CMRR). Electronically controllable gain by voltage and current is also obtained by this new circuit. The circuit is simulated using the parameters of a 0.35-mu m TSMC CMOS technology. Theoretical analysis of the circuits was carried out, and the performance of the block circuit was confirmed through PSpice simulation results
In this paper two new CMOS configurations for current-controlled conveyor (CCCII) are proposed. The ...
Minaei, Shahram (Dogus Author)In this paper, analysis and design of a new current-mode instrumentati...
In this chapter, various CMIA topologies built upon current conveyors are discussed. Based on operat...
A new approach to the design of an in instrumentation amplifier using only 2 CMOS current-controlled...
In this work, a current-mode high CMRR and low offset instrumentation amplifier is proposed. In the ...
In this paper, a complementary metal oxide semiconductor (CMOS) instrumental amplifier was designed ...
In this paper, a novel topology for implementing resistor-free current-mode instrumentation amplifie...
Minaei, Shahram (Dogus Author)In this paper, a new electronically controllable current-mode instrume...
A novel current operational amplifier, in which the traditionally adopted input current follower is ...
Abstract — This article describes an instrumentation amplifier circuit by using current controlled c...
Analog integrated circuits for biomedical applications require good performance. This paper presents...
In this paper, a low power and high CMRR Instrumentation Amplifier is presented. It has been designe...
In this project, a current-mode based instrumental amplifier (CMIA) is designed from a topology that...
In this paper two new second-generation current controlled current-conveyors (CCCIIs) – based circui...
Four monolithic current-mode instrumentation amplifier (in-amp) topologies implemented in a standard...
In this paper two new CMOS configurations for current-controlled conveyor (CCCII) are proposed. The ...
Minaei, Shahram (Dogus Author)In this paper, analysis and design of a new current-mode instrumentati...
In this chapter, various CMIA topologies built upon current conveyors are discussed. Based on operat...
A new approach to the design of an in instrumentation amplifier using only 2 CMOS current-controlled...
In this work, a current-mode high CMRR and low offset instrumentation amplifier is proposed. In the ...
In this paper, a complementary metal oxide semiconductor (CMOS) instrumental amplifier was designed ...
In this paper, a novel topology for implementing resistor-free current-mode instrumentation amplifie...
Minaei, Shahram (Dogus Author)In this paper, a new electronically controllable current-mode instrume...
A novel current operational amplifier, in which the traditionally adopted input current follower is ...
Abstract — This article describes an instrumentation amplifier circuit by using current controlled c...
Analog integrated circuits for biomedical applications require good performance. This paper presents...
In this paper, a low power and high CMRR Instrumentation Amplifier is presented. It has been designe...
In this project, a current-mode based instrumental amplifier (CMIA) is designed from a topology that...
In this paper two new second-generation current controlled current-conveyors (CCCIIs) – based circui...
Four monolithic current-mode instrumentation amplifier (in-amp) topologies implemented in a standard...
In this paper two new CMOS configurations for current-controlled conveyor (CCCII) are proposed. The ...
Minaei, Shahram (Dogus Author)In this paper, analysis and design of a new current-mode instrumentati...
In this chapter, various CMIA topologies built upon current conveyors are discussed. Based on operat...