A low-power analog signal processing IC is presented for the low-power heart rhythm analysis. The ASIC features 3 identical, but independent intra-ECG readout channels each equipping an analog QRS feature extractor for low-power consumption and fast diagnosis of the fatal case. A 16-level digitized sine-wave synthesizer together with a synchronous readout circuit can measure bio-impedance in the range of 0.1-4.4 kΩ with 33 mΩrms resolution and higher than 97% accuracy. The proposed 25 mm2 ASIC consumes only 13 μA from 2.2 V. It is a highly integrated solution offering all the functionality of acquiring multiple high quality intra-cardiac signals, requiring only a few limited numbers of external passives
A low-power mixed-signal IC for implantable pacemakers is presented. The proposed system features th...
This paper proposes a low-power precisely detecting method for electrical-cardiac signal and an effi...
Cardiovascular diseases are leading cause of deaths worldwide. With increasing graying population an...
A low-power analog signal processing IC is presented for the low-power heart rhythm analysis. The AS...
The accurate recognition of multiple intra-cardiac signals is becoming more and more important for C...
There is an increasing demand for low power, low voltage, and small size analog readout bio-potentia...
Ultra-low power consumption and miniature size are by far the most important design requirements for...
This paper describes an analog/digital CMOS ASIC with the complete data acquisition for use in elect...
A sub- µW ECG acquisition IC is presented for a single-chamber leadless pacemaker applications. It i...
This article presents a power-efficient fully analog classifier architecture for the detection of cr...
This paper presents a power-efficient ASIC for bio-impedance spectroscopy, as well as ECG and respir...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Simultaneous measurement of Electrocardiogram (ECG) and bio-impedance (BioZ) via disposable health ...
\u3cp\u3eThis paper describes a mixed-signal ECG System-on-Chip (SoC) that is capable of implementin...
A low-power mixed-signal IC for implantable pacemakers is presented. The proposed system features th...
This paper proposes a low-power precisely detecting method for electrical-cardiac signal and an effi...
Cardiovascular diseases are leading cause of deaths worldwide. With increasing graying population an...
A low-power analog signal processing IC is presented for the low-power heart rhythm analysis. The AS...
The accurate recognition of multiple intra-cardiac signals is becoming more and more important for C...
There is an increasing demand for low power, low voltage, and small size analog readout bio-potentia...
Ultra-low power consumption and miniature size are by far the most important design requirements for...
This paper describes an analog/digital CMOS ASIC with the complete data acquisition for use in elect...
A sub- µW ECG acquisition IC is presented for a single-chamber leadless pacemaker applications. It i...
This article presents a power-efficient fully analog classifier architecture for the detection of cr...
This paper presents a power-efficient ASIC for bio-impedance spectroscopy, as well as ECG and respir...
This paper presents a power efficient analog front-end (AFE) for electrocardiogram (ECG) signal moni...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Simultaneous measurement of Electrocardiogram (ECG) and bio-impedance (BioZ) via disposable health ...
\u3cp\u3eThis paper describes a mixed-signal ECG System-on-Chip (SoC) that is capable of implementin...
A low-power mixed-signal IC for implantable pacemakers is presented. The proposed system features th...
This paper proposes a low-power precisely detecting method for electrical-cardiac signal and an effi...
Cardiovascular diseases are leading cause of deaths worldwide. With increasing graying population an...