A simple differential capacitive sensor is provided in this paper to measure the absolute positions of length measuring systems. By utilizing a shield window inside the differential capacitor, the measurement range and linearity range of the sensor can reach several millimeters. What is more interesting is that this differential capacitive sensor is only sensitive to one translational degree of freedom (DOF) movement, and immune to the vibration along the other two translational DOFs. In the experiment, we used a novel circuit based on an AC capacitance bridge to directly measure the differential capacitance value. The experimental result shows that this differential capacitive sensor has a sensitivity of 2 × 10−4 pF/μm with 0.08 μm resolut...
This paper details the design and analysis of a novel MEMS fully differential capacitive sensor whic...
Capacitive sensors for the detection of mechanical quantities all rely on a displacement measurement...
In this work, the authors introduce a new full-analog front-end for differential capacitance sensors...
In the wide application range of measurement, position detection is common ndispensable. Beside pur...
This thesis presents the theory, design and qualification of a precision capacitive sensor system fo...
Nanometer-scale measurement devices with high accuracy and absolute long-range positioning capabilit...
Integrated high accuracy long-range position sensing will be of paramount importance for high potent...
This thesis presents a capacitive sensing technique which is suitable for measuring small displaceme...
Design, fabrication and measurements for a capacitive long-range position sensor for microactuators ...
This article presents an analysis for two related concepts of a capacitive incremental position sens...
Abstract This article presents an analysis for two related concepts of a capacitive incremental pos...
Abstract-A new high-performance, low-cost, capacitive po-sition-measuring system is described. By us...
Summary: First measurement results are presented for a surface-micromachined long-range (50 – 100 µm...
This thesis presents the results of the undertaken investigation on industrial capacitance sensor in...
This paper presents an absolute capacitive angular-position sensor with a contactless rotor. The sen...
This paper details the design and analysis of a novel MEMS fully differential capacitive sensor whic...
Capacitive sensors for the detection of mechanical quantities all rely on a displacement measurement...
In this work, the authors introduce a new full-analog front-end for differential capacitance sensors...
In the wide application range of measurement, position detection is common ndispensable. Beside pur...
This thesis presents the theory, design and qualification of a precision capacitive sensor system fo...
Nanometer-scale measurement devices with high accuracy and absolute long-range positioning capabilit...
Integrated high accuracy long-range position sensing will be of paramount importance for high potent...
This thesis presents a capacitive sensing technique which is suitable for measuring small displaceme...
Design, fabrication and measurements for a capacitive long-range position sensor for microactuators ...
This article presents an analysis for two related concepts of a capacitive incremental position sens...
Abstract This article presents an analysis for two related concepts of a capacitive incremental pos...
Abstract-A new high-performance, low-cost, capacitive po-sition-measuring system is described. By us...
Summary: First measurement results are presented for a surface-micromachined long-range (50 – 100 µm...
This thesis presents the results of the undertaken investigation on industrial capacitance sensor in...
This paper presents an absolute capacitive angular-position sensor with a contactless rotor. The sen...
This paper details the design and analysis of a novel MEMS fully differential capacitive sensor whic...
Capacitive sensors for the detection of mechanical quantities all rely on a displacement measurement...
In this work, the authors introduce a new full-analog front-end for differential capacitance sensors...