A multi-electrode differential capacitive sensing circuit is designed and realized for the read-out of a multi-axis capacitive force–torque sensor. The sensing circuit is based on a differential relaxation oscillator, to which multiple capacitances can be connected. For selecting the capacitances, reprogrammable asynchronous logic can be used, such that any desired combination of differential or single-ended capacitance can be determined. The noise performance of the oscillator in the system is analysed and measured, revealing the influence of individual component values on the noise performance of the system. Capacitance measurements show that a deviation of 0.9 fF is obtained at an acquisition rate of 225 Hz including auto-calibration, wh...
Capacitive sensors and their associated readout circuits are well known and have been used in many m...
Copyright © 2013 Andrew J. DeRouin et al. This is an open access article distributed under the Creat...
The development of microelectromechanical system (MEMS) processes enables the integration of capacit...
This paper presents a single supply differential capacitive sensing technique. Focus is on the anal...
A differential capacitive sensing technique is discussed in this paper. The differential capacitive ...
This paper presents a single supply differential capacitive sensing technique suitable to be used wi...
Biomedical sensors use capacitance measurement for a variety of detection applications and capacitan...
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
This paper describes an atto farad capacitive sensing system for a finger-print sensor. The architec...
A differential capacitive sensing technique is discussed in this paper. The differential capacitive ...
This thesis focuses on the design of integrated readout circuits for differential capacitive sensing...
There is a need for capacitance to voltage converters (CVC's) for differential capacitive sensors li...
We propose a circuit to directly connect a differential capacitive sensor to a microcontroller unit ...
Nowadays, due to advancement of micro fabrication technology, Micro-Electro-Mechanical-Systems (MEMS...
A switched-capacitor integrated system is presented in this work that attains sub-fF measurement res...
Capacitive sensors and their associated readout circuits are well known and have been used in many m...
Copyright © 2013 Andrew J. DeRouin et al. This is an open access article distributed under the Creat...
The development of microelectromechanical system (MEMS) processes enables the integration of capacit...
This paper presents a single supply differential capacitive sensing technique. Focus is on the anal...
A differential capacitive sensing technique is discussed in this paper. The differential capacitive ...
This paper presents a single supply differential capacitive sensing technique suitable to be used wi...
Biomedical sensors use capacitance measurement for a variety of detection applications and capacitan...
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
This paper describes an atto farad capacitive sensing system for a finger-print sensor. The architec...
A differential capacitive sensing technique is discussed in this paper. The differential capacitive ...
This thesis focuses on the design of integrated readout circuits for differential capacitive sensing...
There is a need for capacitance to voltage converters (CVC's) for differential capacitive sensors li...
We propose a circuit to directly connect a differential capacitive sensor to a microcontroller unit ...
Nowadays, due to advancement of micro fabrication technology, Micro-Electro-Mechanical-Systems (MEMS...
A switched-capacitor integrated system is presented in this work that attains sub-fF measurement res...
Capacitive sensors and their associated readout circuits are well known and have been used in many m...
Copyright © 2013 Andrew J. DeRouin et al. This is an open access article distributed under the Creat...
The development of microelectromechanical system (MEMS) processes enables the integration of capacit...