This paper presents an ultra-low-power, widedynamic- range interface circuit for capacitive and resistive sensors. The circuit is implemented as a switched-capacitor circuit using programmable capacitors to achieve high configurability. The circuit was fabricated using a CMOS 0.18 μm process. Different types of capacitive and resistive sensors were measured using the interface to demonstrate its support for multi-sensor systems with an ultra-low-power budget. Experimental results show that the circuit is able to interface various sensors within the overall capacitance range of 0.6–550 pF and resistance range of 3.7–5100 k , while consuming only 0.39–3.56 μW from a 1.2 V supply. A proximity, gesture, and touch-sensing system is also develope...
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
The paper describes an innovative technique to implement a low-power high-speed CMOS interface circu...
Capacitive sensor manufacturing processes are rarely compatible with CMOS technologies and, thus, mo...
This paper presents an ultra-low-power, widedynamic- range interface circuit for capacitive and resi...
This paper presents a low-power generic interface circuit compatible with smart microsystems and cap...
This thesis focuses on the design of integrated readout circuits for differential capacitive sensing...
This thesis reports the results of research on features, options and limitations of low-cost, high-p...
Abstract-This paper describes the design of a new capacitive sensor interface. The interface is base...
This paper presents an ultra low-power and low-voltage pulse-width modulation based ratiometric capa...
A highly versatile all-dynamic sensor interface is proposed. It supports temperature/capacitance/res...
This paper presents a low power, compact, and low-complexity pulse-width modulation-based interface ...
An interface circuit for integrated capacitive sensors with pulse width modulated output is presente...
A low-power low-offset switched-capacitor interface for resistive bridge sensor designed in UMC 65nm...
AbstractThe universal interfacing integrated circuit for direct capacitance-to-digital and capacitan...
Abstract — This paper compares the existing implementation of universal sensor interface circuits fo...
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
The paper describes an innovative technique to implement a low-power high-speed CMOS interface circu...
Capacitive sensor manufacturing processes are rarely compatible with CMOS technologies and, thus, mo...
This paper presents an ultra-low-power, widedynamic- range interface circuit for capacitive and resi...
This paper presents a low-power generic interface circuit compatible with smart microsystems and cap...
This thesis focuses on the design of integrated readout circuits for differential capacitive sensing...
This thesis reports the results of research on features, options and limitations of low-cost, high-p...
Abstract-This paper describes the design of a new capacitive sensor interface. The interface is base...
This paper presents an ultra low-power and low-voltage pulse-width modulation based ratiometric capa...
A highly versatile all-dynamic sensor interface is proposed. It supports temperature/capacitance/res...
This paper presents a low power, compact, and low-complexity pulse-width modulation-based interface ...
An interface circuit for integrated capacitive sensors with pulse width modulated output is presente...
A low-power low-offset switched-capacitor interface for resistive bridge sensor designed in UMC 65nm...
AbstractThe universal interfacing integrated circuit for direct capacitance-to-digital and capacitan...
Abstract — This paper compares the existing implementation of universal sensor interface circuits fo...
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
The paper describes an innovative technique to implement a low-power high-speed CMOS interface circu...
Capacitive sensor manufacturing processes are rarely compatible with CMOS technologies and, thus, mo...