Add to ORKGThe technique of active biasing is introduced and applied to a high-gain fully differential two-stage CMOS cascode op-amp, in order to enhance its various performance metrics such as gain, unity gain frequency, common mode and power supply rejection ratios, slew rate and settling time. The improved performance is predicted theoretically and substantiated through circuit simulations
148 p.A frequency compensation technique for a four-stage CMOS operational amplifier is designed, wi...
A two-stage CMOS operational amplifier with both, gain-boosting and indirect current feedback freque...
An innovative low-voltage low-power complementary metal-oxide-semiconductor (CMOS) gain boosting app...
The technique of mirror biasing is introduced and applied to a very high gain two stage CMOS cascode...
The authors present a new method for biasing AC-coupled cascode amplifiers. The proposed design allo...
This paper presents a low power, high slew rate, high gain, ultra wide band two stage CMOS cascode o...
This work presents a fully differential CMOS amplifier consisting of two self-biased gain boosted in...
by a factor of 160. The modified amplifier needs 10 ps for each step compared to 1.66 ms when the co...
Introduction To achieve high gain with continued scaling in CMOS fabrication processes, use of three...
This paper explains the hidden positive feedback in the two-stage fully differential amplifier throu...
Abstract:- In this paper we present a three-stage fully differential operational amplifier in 120nm ...
AbstractIn this paper, a fully differential telescopic operational amplifier design is presented whi...
Cascode CMOS op-amps use a large number of ex-ternal bias voltages. This results in numerous draw-ba...
Cascode CMOS op-amps use a large number of external bias voltages. This results in numerous drawback...
Abstract — Operational Amplifier (op-amp) is a basic building block of many analog and mixed signal ...
148 p.A frequency compensation technique for a four-stage CMOS operational amplifier is designed, wi...
A two-stage CMOS operational amplifier with both, gain-boosting and indirect current feedback freque...
An innovative low-voltage low-power complementary metal-oxide-semiconductor (CMOS) gain boosting app...
The technique of mirror biasing is introduced and applied to a very high gain two stage CMOS cascode...
The authors present a new method for biasing AC-coupled cascode amplifiers. The proposed design allo...
This paper presents a low power, high slew rate, high gain, ultra wide band two stage CMOS cascode o...
This work presents a fully differential CMOS amplifier consisting of two self-biased gain boosted in...
by a factor of 160. The modified amplifier needs 10 ps for each step compared to 1.66 ms when the co...
Introduction To achieve high gain with continued scaling in CMOS fabrication processes, use of three...
This paper explains the hidden positive feedback in the two-stage fully differential amplifier throu...
Abstract:- In this paper we present a three-stage fully differential operational amplifier in 120nm ...
AbstractIn this paper, a fully differential telescopic operational amplifier design is presented whi...
Cascode CMOS op-amps use a large number of ex-ternal bias voltages. This results in numerous draw-ba...
Cascode CMOS op-amps use a large number of external bias voltages. This results in numerous drawback...
Abstract — Operational Amplifier (op-amp) is a basic building block of many analog and mixed signal ...
148 p.A frequency compensation technique for a four-stage CMOS operational amplifier is designed, wi...
A two-stage CMOS operational amplifier with both, gain-boosting and indirect current feedback freque...
An innovative low-voltage low-power complementary metal-oxide-semiconductor (CMOS) gain boosting app...