A capacitively-coupled chopper instrument amplifier (CCIA) for bio-potential monitoring analog front-end (AFE) with auto-calibrated dual positive feedback loops (DPFLs) is presented in this article. The proposed AFE with the DPFL does not only prevent total input impedance degradation by unexpected external and internal parasitic capacitances but also achieves excellent noise efficiency simultaneously. The DPFL consists of a conventional internal positive feedback loop with an attenuator for enhancing calibration resolution and an external positive feedback loop outside of the input chopper to compensate for a large external parasitic capacitance (CP???EXT) , boosting total input impedance significantly. To precisely determine the feedback ...
This paper proposes a method for impedance measurements based on a closed-loop implementation of CMO...
This paper presents an energy-efficient analog front-end circuit to monitor the pulmonary artery pre...
This paper proposes a method for impedance measurements based on a closed-loop implementation of CMO...
A biopotential acquisition analog front-end (AFE) integrated circuit (IC) is presented. The biopoten...
In this paper, a low-power and low-noise capacitive-coupled chopper instrumentation amplifier (CCIA)...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
In this work, we propose a method to increase the parasitic input resistance caused by application o...
This thesis project focuses on testing an Instrumentation Amplifier with an Indirect Current Feedbac...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
Electrical signals produced in the human body can be used for medical diagnosis and research, treatm...
A variable-gain chopper-stabilized instrumentation amplifier (chopper IA), which employs a low pass ...
This research develops a non-contact bio-potential sensor which can quickly respond to input transie...
A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capac...
There is a high demand for portable biopotential signal acquisition systems for the efficient diagno...
This paper proposes a method for impedance measurements based on a closed-loop implementation of CMO...
This paper presents an energy-efficient analog front-end circuit to monitor the pulmonary artery pre...
This paper proposes a method for impedance measurements based on a closed-loop implementation of CMO...
A biopotential acquisition analog front-end (AFE) integrated circuit (IC) is presented. The biopoten...
In this paper, a low-power and low-noise capacitive-coupled chopper instrumentation amplifier (CCIA)...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
In this work, we propose a method to increase the parasitic input resistance caused by application o...
This thesis project focuses on testing an Instrumentation Amplifier with an Indirect Current Feedbac...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
Electrical signals produced in the human body can be used for medical diagnosis and research, treatm...
A variable-gain chopper-stabilized instrumentation amplifier (chopper IA), which employs a low pass ...
This research develops a non-contact bio-potential sensor which can quickly respond to input transie...
A 1.8V 0.18μm CMOS analog front end consists of a chopper stabilized low noise preamplifier, a capac...
There is a high demand for portable biopotential signal acquisition systems for the efficient diagno...
This paper proposes a method for impedance measurements based on a closed-loop implementation of CMO...
This paper presents an energy-efficient analog front-end circuit to monitor the pulmonary artery pre...
This paper proposes a method for impedance measurements based on a closed-loop implementation of CMO...