This paper presents an ultra-low power, silicon-integrated readout for resonant MEMS strain sensors. The analogue readout implements a negative-resistance amplifier based on first-generation current conveyors (CCI) that, thanks to the reduced number of active elements, targets both low-power and low-noise. A prototype of the circuit was implemented in a 0.18-µm technology occupying less than 0.4 mm2 and consuming only 9 µA from the 1.8-V power supply. The prototype was earliest tested by connecting it to a resonant MEMS strain resonator
Despite commercial availability since the 1950's, silicon strain sensors have not experienced the sa...
This paper reports on the design and implementation of a low power MEMS oscillator based on capaciti...
A CMOS strain sensor has been fabricated in a 1μm FD SOI CMOS process. It is based on the piezoresis...
This paper presents an ultra-low power, silicon-integrated readout for resonant MEMS strain sensors...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
A miniaturized resonant load sensor demonstrating sub-milligram sensitivity is presented. The sensor...
A strain sensor inspired by a Widlar self-biased current source topology called $\beta$-multiplier i...
The designs fabrication and testing of low-cost readout electronics for piezoresistive MEMS-based tr...
The paper reports on the fabrication and characterization of high-resolution strain sensors for stru...
Abstract- This paper discusses an approach for continuous and low-power sensing of infrequent, high ...
This paper presents analysis and design of a new ultra-low voltage analog front end (AFE) dedicated ...
This paper reports the demonstration of an ultra-low power MEMS-CMOS oscillator for strain sensing, ...
[[abstract]]In this paper, we combined chopper stabilization (CHS) and correlated double sampling (C...
This paper presents an energy-efficient readout circuit for micro-machined resonant sensors. It oper...
Despite commercial availability since the 1950's, silicon strain sensors have not experienced the sa...
This paper reports on the design and implementation of a low power MEMS oscillator based on capaciti...
A CMOS strain sensor has been fabricated in a 1μm FD SOI CMOS process. It is based on the piezoresis...
This paper presents an ultra-low power, silicon-integrated readout for resonant MEMS strain sensors...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
A miniaturized resonant load sensor demonstrating sub-milligram sensitivity is presented. The sensor...
A strain sensor inspired by a Widlar self-biased current source topology called $\beta$-multiplier i...
The designs fabrication and testing of low-cost readout electronics for piezoresistive MEMS-based tr...
The paper reports on the fabrication and characterization of high-resolution strain sensors for stru...
Abstract- This paper discusses an approach for continuous and low-power sensing of infrequent, high ...
This paper presents analysis and design of a new ultra-low voltage analog front end (AFE) dedicated ...
This paper reports the demonstration of an ultra-low power MEMS-CMOS oscillator for strain sensing, ...
[[abstract]]In this paper, we combined chopper stabilization (CHS) and correlated double sampling (C...
This paper presents an energy-efficient readout circuit for micro-machined resonant sensors. It oper...
Despite commercial availability since the 1950's, silicon strain sensors have not experienced the sa...
This paper reports on the design and implementation of a low power MEMS oscillator based on capaciti...
A CMOS strain sensor has been fabricated in a 1μm FD SOI CMOS process. It is based on the piezoresis...