Add to ORKGWe propose a circuit to directly connect a differential capacitive sensor to a microcontroller unit (MCU), which is based on the charge-transfer method and does not need any calibration component. The performance has been tested by emulating the differential capacitive sensor with discrete components. The major uncertainty sources are residual stray capacitances. The maximal deviation obtained, referred to the Full Scale Span (FSS), is ±4 % for sensors with nominal capacitance C0 = 100 pF, and ±0,6 % for sensors with C0 = 1 nF
A multi-electrode differential capacitive sensing circuit is designed and realized for the read-out ...
In this paper, an accurate front-end CMOS interface circuit for sensing very small capacitance chang...
This paper presents a single supply differential capacitive sensing technique. Focus is on the anal...
We propose a circuit to directly connect a differential capacitive sensor to a microcontroller unit ...
We present the theoretical analysis and experimental performance results of a direct interface for c...
Charge transfer has been demonstrated to be a cost-effective method to measure capacitive sensors wi...
A novel interface circuit is presented to detect the minimal change of the differential capacitance....
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
A new technique to measure a capacitor or a capacitive sensor by means of a direct sensor-to-microco...
In this work, the authors introduce a new full-analog front-end for differential capacitance sensors...
The paper describes an innovative technique to implement a low-power high-speed CMOS interface circu...
Parasitic integration for a single supply differential capacitive sensing technique is presented in ...
Nowadays, due to advancement of micro fabrication technology, Micro-Electro-Mechanical-Systems (MEMS...
This paper presents a single supply differential capacitive sensing technique suitable to be used wi...
AbstractThe universal interfacing integrated circuit for direct capacitance-to-digital and capacitan...
A multi-electrode differential capacitive sensing circuit is designed and realized for the read-out ...
In this paper, an accurate front-end CMOS interface circuit for sensing very small capacitance chang...
This paper presents a single supply differential capacitive sensing technique. Focus is on the anal...
We propose a circuit to directly connect a differential capacitive sensor to a microcontroller unit ...
We present the theoretical analysis and experimental performance results of a direct interface for c...
Charge transfer has been demonstrated to be a cost-effective method to measure capacitive sensors wi...
A novel interface circuit is presented to detect the minimal change of the differential capacitance....
Abstract—This papers presents a front-end circuit for inter-facing to differential capacitive sensor...
A new technique to measure a capacitor or a capacitive sensor by means of a direct sensor-to-microco...
In this work, the authors introduce a new full-analog front-end for differential capacitance sensors...
The paper describes an innovative technique to implement a low-power high-speed CMOS interface circu...
Parasitic integration for a single supply differential capacitive sensing technique is presented in ...
Nowadays, due to advancement of micro fabrication technology, Micro-Electro-Mechanical-Systems (MEMS...
This paper presents a single supply differential capacitive sensing technique suitable to be used wi...
AbstractThe universal interfacing integrated circuit for direct capacitance-to-digital and capacitan...
A multi-electrode differential capacitive sensing circuit is designed and realized for the read-out ...
In this paper, an accurate front-end CMOS interface circuit for sensing very small capacitance chang...
This paper presents a single supply differential capacitive sensing technique. Focus is on the anal...