Add to ORKGA simple method for designing instrumentation fully-differential (FD) circuits based on standard single-ended (SE) operational amplifiers (OAs) is presented. It departs from a SE prototype that verifies the desired differential-mode transfer function, thereby leading to FD versions of the circuit. These circuits have a high common mode rejection ratio (CMRR), independent of component imbalances, and a unity common-mode gain. The proposed method does not allow the design of common-mode response, but it does verify common-mode stability, thus ensuring stable FD circuits. It is intended for instrumentation applications in which high CMRRs are required. The proposed approach makes it possible to design and implement inverter and non-inverter to...
[[abstract]]In this paper, a CMOS implementation of a current operational amplifier (COA) with a dif...
Minaei, Shahram (Dogus Author)In this paper, analysis and design of a new current-mode instrumentati...
The fully differential class-AB OTA topology by Peluso presents a poor Common-Mode Rejection Ratio (...
Modern instrumentation is moving towards fully differential conditioning circuits. They provide an e...
An exemplary design demonstrates how to extend the common-mode rejection ratio (CMRR) bandwidth of a...
The common mode rejection ratio (CMRR) of the single operational amplifier (op amp) differential amp...
AC coupling is essential in biopotential measurements. Electrode offset potentials can be several or...
Building high precision instruments needs almost ideal operational amplifiers. Effects of offset, co...
A high input impedance circuit to convert a single-ended (SE) voltage to its differential counterpar...
Differential circuits are often described by their differential gain and common mode rejection ratio...
A novel circuit topology that provides wideband single-ended to differential conversion is presented...
Fully differential amplifier has a superior ability of noise immunity. It has been widely used in ...
This chapter is dedicated to the general principles of the Instrumentation Amplifier, a particular t...
Differential circuits are often described by their differential gain and common mode rejection ratio...
This paper presents a fully differential class-AB current mirror OTA that improves the common-mode b...
[[abstract]]In this paper, a CMOS implementation of a current operational amplifier (COA) with a dif...
Minaei, Shahram (Dogus Author)In this paper, analysis and design of a new current-mode instrumentati...
The fully differential class-AB OTA topology by Peluso presents a poor Common-Mode Rejection Ratio (...
Modern instrumentation is moving towards fully differential conditioning circuits. They provide an e...
An exemplary design demonstrates how to extend the common-mode rejection ratio (CMRR) bandwidth of a...
The common mode rejection ratio (CMRR) of the single operational amplifier (op amp) differential amp...
AC coupling is essential in biopotential measurements. Electrode offset potentials can be several or...
Building high precision instruments needs almost ideal operational amplifiers. Effects of offset, co...
A high input impedance circuit to convert a single-ended (SE) voltage to its differential counterpar...
Differential circuits are often described by their differential gain and common mode rejection ratio...
A novel circuit topology that provides wideband single-ended to differential conversion is presented...
Fully differential amplifier has a superior ability of noise immunity. It has been widely used in ...
This chapter is dedicated to the general principles of the Instrumentation Amplifier, a particular t...
Differential circuits are often described by their differential gain and common mode rejection ratio...
This paper presents a fully differential class-AB current mirror OTA that improves the common-mode b...
[[abstract]]In this paper, a CMOS implementation of a current operational amplifier (COA) with a dif...
Minaei, Shahram (Dogus Author)In this paper, analysis and design of a new current-mode instrumentati...
The fully differential class-AB OTA topology by Peluso presents a poor Common-Mode Rejection Ratio (...