Add to ORKGNew all digital-transistor CMOS very high DC-gain amplifiers that use internal positive-feedback technique are presented. These structures don't require perfect matching of transistors to achieve the very high DC gain, and have a very low gain sensitivity to output swing. An implementation of a sample and hold circuit constructed using one of the proposed amplifiers is described. Special layout pattern is used to cut the parasitic capacitance. 1
Negative conductance voltage gain enhancement techniques which substantially increases the dc gain o...
This letter demonstrates amplifier design with amorphous-hydrogenated-silicon thin-film transistors ...
The Nauta structure differential operational transconductance amplifier (OTA) is introduced as a sol...
Several new CMOS very high DC-gain amplifiers that use internal positive-feedback techniques are pre...
ABSTRACT: The paper represents low noise, high gain differential amplifier circuit using positive fe...
The dramatic growth in the hi-tech sector of consumer market has created many unprecedented challeng...
This letter presents analysis of an inherently stable positive-feedback-based active load, first rep...
Ever smaller CMOS process nodes require analog circuit designs that can overcome the many challenges...
Abstract — Being a core component of an analog-to-digital converter (ADC), the operational amplifier...
Abstract: A low voltage, high dc gain and wideband load compensated cas-code operational transconduc...
Following a review of the state of the art, some new circuits are presented for designing a set of d...
A power-efficient, voltage gain enhancement technique for op-amps has been described. The proposed t...
A novel class AB operational transconductance amplifier (OTA) topology is proposed, based on a class...
The positive-feedback gain-enhancement operational transconductance amplifier (OTA) design is a prom...
This paper presents a common-drain-based operational amplifier (OPAMP) fabricated by mono n-type ind...
Negative conductance voltage gain enhancement techniques which substantially increases the dc gain o...
This letter demonstrates amplifier design with amorphous-hydrogenated-silicon thin-film transistors ...
The Nauta structure differential operational transconductance amplifier (OTA) is introduced as a sol...
Several new CMOS very high DC-gain amplifiers that use internal positive-feedback techniques are pre...
ABSTRACT: The paper represents low noise, high gain differential amplifier circuit using positive fe...
The dramatic growth in the hi-tech sector of consumer market has created many unprecedented challeng...
This letter presents analysis of an inherently stable positive-feedback-based active load, first rep...
Ever smaller CMOS process nodes require analog circuit designs that can overcome the many challenges...
Abstract — Being a core component of an analog-to-digital converter (ADC), the operational amplifier...
Abstract: A low voltage, high dc gain and wideband load compensated cas-code operational transconduc...
Following a review of the state of the art, some new circuits are presented for designing a set of d...
A power-efficient, voltage gain enhancement technique for op-amps has been described. The proposed t...
A novel class AB operational transconductance amplifier (OTA) topology is proposed, based on a class...
The positive-feedback gain-enhancement operational transconductance amplifier (OTA) design is a prom...
This paper presents a common-drain-based operational amplifier (OPAMP) fabricated by mono n-type ind...
Negative conductance voltage gain enhancement techniques which substantially increases the dc gain o...
This letter demonstrates amplifier design with amorphous-hydrogenated-silicon thin-film transistors ...
The Nauta structure differential operational transconductance amplifier (OTA) is introduced as a sol...