Add to ORKGAbstract—This paper describes an ultra-low-power filtering technique for biomedical applications designated as T-wave sensing in heart-activities detection systems. The topology is based on a source-follower-based Biquad operating in the sub-threshold region. With the intrinsic advantages of simplicity and high linearity of the source-follower, ultra-low-cutoff filtering can be achieved, simultaneously with ultra low power and good linearity. An 8th-order 2.4-Hz lowpass filter design example optimized in a 0.35-μm CMOS process was designed achieving over 85-dB dynamic range, 74-dB stopband attenuation and consuming only 0.36 nW at a 3-V supply. I
This paper presents a response-translation technique to realize an ultra-low-cutoff lowpass filter i...
Abstract—Most biopotential readout front-ends rely on the- lowpass filter (LPF) for forefront signal...
Thesis (Ph.D.)--University of Washington, 2012Recent advances in ultra-low power chip design techniq...
Ultra low power with biomedical frequency low-pass filters has many applications in biomedical signa...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
An ultra-low voltage sixth-order low pass filter topology, suitable for sensing the T-wave signal in...
The paper shows the design of microelectronic circuits composed of an oscillator, a modulator, a tra...
[[abstract]]Ultra-low power (ULP) receivers can be applied in wearable and implantable biomedical se...
New electronics for non-invasive medical monitoring promise low-cost, maintenance-free, and lightwei...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
In wireless body area network (WBAN) applications, wireless sensors are used to collect, monitor and...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
The rapid growth in wireless communication technology and semiconductor industry has brought revolut...
This book describes the design of low-voltage analog integrated filters using current mirrors, one o...
The purpose of this thesis was to develop a self-contained digital system using an ultra low power c...
This paper presents a response-translation technique to realize an ultra-low-cutoff lowpass filter i...
Abstract—Most biopotential readout front-ends rely on the- lowpass filter (LPF) for forefront signal...
Thesis (Ph.D.)--University of Washington, 2012Recent advances in ultra-low power chip design techniq...
Ultra low power with biomedical frequency low-pass filters has many applications in biomedical signa...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
An ultra-low voltage sixth-order low pass filter topology, suitable for sensing the T-wave signal in...
The paper shows the design of microelectronic circuits composed of an oscillator, a modulator, a tra...
[[abstract]]Ultra-low power (ULP) receivers can be applied in wearable and implantable biomedical se...
New electronics for non-invasive medical monitoring promise low-cost, maintenance-free, and lightwei...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
In wireless body area network (WBAN) applications, wireless sensors are used to collect, monitor and...
When the heart does not function properly, an artificial pacemaker is needed to correct the heart be...
The rapid growth in wireless communication technology and semiconductor industry has brought revolut...
This book describes the design of low-voltage analog integrated filters using current mirrors, one o...
The purpose of this thesis was to develop a self-contained digital system using an ultra low power c...
This paper presents a response-translation technique to realize an ultra-low-cutoff lowpass filter i...
Abstract—Most biopotential readout front-ends rely on the- lowpass filter (LPF) for forefront signal...
Thesis (Ph.D.)--University of Washington, 2012Recent advances in ultra-low power chip design techniq...