Add to ORKGAbstract—Two and three-stage indirect-compensated op-amps employing split-length composite devices are presented. By incorporating split-length devices the right-half plane zero which hampers op-amp performance can be eliminated. Chip test results indicate significant enhancements in op-amp speed while reducing power consumption and layout area. Moreover, these techniques can be used to compensate three-stage op-amps operating at low supply voltage (VDD). I
In this paper a low-voltage two-stage Op Amp is presented. The Op Amp features rail-to-rail operatio...
In this paper a CMOS operational amplifier is presented which operates at 2V power supply and 1uA in...
As the supply voltage to a standard CMOS op-amp is reduced, the input common mode range and the outp...
Introduction To achieve high gain with continued scaling in CMOS fabrication processes, use of three...
As CMOS technology continues to evolve, thesupply voltages are decreasing while at the same time the...
As CMOS technology continues to evolve, the supply voltages are decreasing while at the same time th...
Over the past decade CMOS technology has been continuously scaling which has resulted in sustained ...
In a never-ending effort to reduce power consumption and gate oxide thickness, the integrated circui...
A new design approach for three-stage operational amplifiers (op-amps) is proposed. It allows to act...
Abstract—Multistage operational amplifiers suitable for nanometer-scale CMOS technologies and low-vo...
Aamir SA, Harikumar P, Wikner JJ. Frequency Compensation of High-Speed, Low-Voltage CMOS Multistage ...
The operational amplifier (op-amp) is one of the most commonly used analogue circuits for analogue a...
In linear IC's fabricated in a low-voltage CMOS technology, the reduction of the dynamic range ...
In this paper two stage Miller compensated opamp has been discussed qualitatively and quantitatively...
In this paper miller compensation of opamp has been explained intuitively and discussed the problems...
In this paper a low-voltage two-stage Op Amp is presented. The Op Amp features rail-to-rail operatio...
In this paper a CMOS operational amplifier is presented which operates at 2V power supply and 1uA in...
As the supply voltage to a standard CMOS op-amp is reduced, the input common mode range and the outp...
Introduction To achieve high gain with continued scaling in CMOS fabrication processes, use of three...
As CMOS technology continues to evolve, thesupply voltages are decreasing while at the same time the...
As CMOS technology continues to evolve, the supply voltages are decreasing while at the same time th...
Over the past decade CMOS technology has been continuously scaling which has resulted in sustained ...
In a never-ending effort to reduce power consumption and gate oxide thickness, the integrated circui...
A new design approach for three-stage operational amplifiers (op-amps) is proposed. It allows to act...
Abstract—Multistage operational amplifiers suitable for nanometer-scale CMOS technologies and low-vo...
Aamir SA, Harikumar P, Wikner JJ. Frequency Compensation of High-Speed, Low-Voltage CMOS Multistage ...
The operational amplifier (op-amp) is one of the most commonly used analogue circuits for analogue a...
In linear IC's fabricated in a low-voltage CMOS technology, the reduction of the dynamic range ...
In this paper two stage Miller compensated opamp has been discussed qualitatively and quantitatively...
In this paper miller compensation of opamp has been explained intuitively and discussed the problems...
In this paper a low-voltage two-stage Op Amp is presented. The Op Amp features rail-to-rail operatio...
In this paper a CMOS operational amplifier is presented which operates at 2V power supply and 1uA in...
As the supply voltage to a standard CMOS op-amp is reduced, the input common mode range and the outp...