Add to ORKGThis paper presents a response-translation technique to realize an ultra-low-cutoff lowpass filter in small area for biopotential acquisition systems. It is by exploiting a chopper-stabilized instrumentation amplifier (IA) with bandpass characteristic to obtain a lowpass response after chopper stabilization, resulting in substantial area savings because of relaxed time constant in the implementation. Optimized in a 90-nm CMOS process with 2.5-V thick-oxide devices, a 2nd-order OTA-C ladder filter demonstrates –40 dB/decade stopband attenuation, 1.4-15 Hz frequency tunability, and strong relaxation of the required time constant (depends on the set chopper frequency). The entire lowpass filter draws 8.37 µA at a 3-V supply
Ultra low power with biomedical frequency low-pass filters has many applications in biomedical signa...
This paper presents a new approach based on the use of a Current Steering (CS) technique for the des...
New circuit design techniques for implementing very high-valued resistors are presented, significant...
This paper presents a fully integrated, first-order Low Pass Filter with 2-tuning points giving a wi...
Design considerations on a circuit technique based on subthreshold operation of MOS transistors is d...
Recently, sensor chips using mixed-signal CMOS technology have been applied for sensing and monitori...
An ultra low-power biopotential instrumentation amplifier, based on the current balancing technique ...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
A variable-gain chopper-stabilized instrumentation amplifier (chopper IA), which employs a low pass ...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
Design considerations on a circuit technique based on subthreshold operation of MOS transistors is d...
Abstract—This paper describes an ultra-low-power filtering technique for biomedical applications des...
In this paper, a low-power and low-noise capacitive-coupled chopper instrumentation amplifier (CCIA)...
This paper presents a low power highly tunable second-order Gm−C bandpass filter for auditory signal...
New circuit design techniques for implementing very high-valued resistors are presented, significant...
Ultra low power with biomedical frequency low-pass filters has many applications in biomedical signa...
This paper presents a new approach based on the use of a Current Steering (CS) technique for the des...
New circuit design techniques for implementing very high-valued resistors are presented, significant...
This paper presents a fully integrated, first-order Low Pass Filter with 2-tuning points giving a wi...
Design considerations on a circuit technique based on subthreshold operation of MOS transistors is d...
Recently, sensor chips using mixed-signal CMOS technology have been applied for sensing and monitori...
An ultra low-power biopotential instrumentation amplifier, based on the current balancing technique ...
There is a growing demand for low-power, small-size and ambulatory biopotential acquisition systems....
A variable-gain chopper-stabilized instrumentation amplifier (chopper IA), which employs a low pass ...
The continuous real-time monitoring of diverse physical parameters using biosignals like ECG and EEG...
Design considerations on a circuit technique based on subthreshold operation of MOS transistors is d...
Abstract—This paper describes an ultra-low-power filtering technique for biomedical applications des...
In this paper, a low-power and low-noise capacitive-coupled chopper instrumentation amplifier (CCIA)...
This paper presents a low power highly tunable second-order Gm−C bandpass filter for auditory signal...
New circuit design techniques for implementing very high-valued resistors are presented, significant...
Ultra low power with biomedical frequency low-pass filters has many applications in biomedical signa...
This paper presents a new approach based on the use of a Current Steering (CS) technique for the des...
New circuit design techniques for implementing very high-valued resistors are presented, significant...