Add to ORKGIn this paper a technique to improve the common-mode rejection ratio (CMRR) at high frequencies in the OTA-C filters is proposed. The technique is applicable to most OTA-C filters using CMOS operational transconductance amplifiers (OTA) based on differential pairs. The presented analysis shows that a significant broadening of CMRR bandwidth can be achieved by using a differential pair with the bodies of transistors connected to AC ground, instead of using a pair with the bodies connected to the sources. The key advantages of the technique are: no increase in power consumption (except for an optional tuning circuit), a small increase of a chip area, a slight modification of the original filter. The simulation results for exemplary OTAs and a...
Two different circuit techniques to enhance the effective transconductance of a CMOS bulk-driven dif...
Typescript (photocopy).This research involved the development of a design approach and the necessary...
Since biomedical signals have very low amplitude and high common-mode like environmental noise, the ...
An exemplary design demonstrates how to extend the common-mode rejection ratio (CMRR) bandwidth of a...
This paper presents a fully differential class-AB current mirror OTA that improves the common-mode b...
Abstract—A technique to enhance the linearity of contin-uous-time operational transconductance ampli...
An improvement of a standard fully differential class-AB symmetrical operational transconductance am...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
Abstract. In the paper, a feedforward linearization method for differential-pair operational transco...
The fully differential class-AB OTA topology by Peluso presents a poor Common-Mode Rejection Ratio (...
Abstract—Generation of filters using operational transconduc-tance amplifiers and capacitors (OTA-C)...
The aim of this paper is the introduction of a CMOS OTA basic block that its transconductance gain c...
The Gm-C technique is extensively used for continuous-time filtering applications because it results...
CMOS circuits for integrated analog filters at very high frequencies, based on transconductance-C in...
Abstract—A Wide Tuning Range Gm-C Continuous-Time Analog Filter is a CMOS operation nal transconduct...
Two different circuit techniques to enhance the effective transconductance of a CMOS bulk-driven dif...
Typescript (photocopy).This research involved the development of a design approach and the necessary...
Since biomedical signals have very low amplitude and high common-mode like environmental noise, the ...
An exemplary design demonstrates how to extend the common-mode rejection ratio (CMRR) bandwidth of a...
This paper presents a fully differential class-AB current mirror OTA that improves the common-mode b...
Abstract—A technique to enhance the linearity of contin-uous-time operational transconductance ampli...
An improvement of a standard fully differential class-AB symmetrical operational transconductance am...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
Abstract. In the paper, a feedforward linearization method for differential-pair operational transco...
The fully differential class-AB OTA topology by Peluso presents a poor Common-Mode Rejection Ratio (...
Abstract—Generation of filters using operational transconduc-tance amplifiers and capacitors (OTA-C)...
The aim of this paper is the introduction of a CMOS OTA basic block that its transconductance gain c...
The Gm-C technique is extensively used for continuous-time filtering applications because it results...
CMOS circuits for integrated analog filters at very high frequencies, based on transconductance-C in...
Abstract—A Wide Tuning Range Gm-C Continuous-Time Analog Filter is a CMOS operation nal transconduct...
Two different circuit techniques to enhance the effective transconductance of a CMOS bulk-driven dif...
Typescript (photocopy).This research involved the development of a design approach and the necessary...
Since biomedical signals have very low amplitude and high common-mode like environmental noise, the ...