Author(s)

K. Manikandan, S. Sathiyamoorthy

Department of Electronics and Instrumentation Engineering J.J. College of Engineering and Technology, Anna University, Chennai, India.

Electrical Capacitance Tomography (ECT) determines the dielectric permittivity of the interior object depending on the measurements of exterior capacitance. Generally, the electrodes are placed outside the PVC cylinder where the medium to be imaged is present; but in ECT using inter-electrode capacitance measurements can be achieved by placing inside of the dielectric medium. In the proposed ECT system, the ECT sensor is modeled using ANSYS software and the model is implemented in real ECT system. For each step of measurement, a stable AC signal is applied to a pair of electrodes that form a capacitor. The novel system is to measure the capacitance range variation in picofarad and the corresponding voltage ranges from 1 volt to 4 volts. The switching speed of all combinational electrodes is implemented using embedded system to achieve higher speed performance of AC ECT system which eliminates the drift and stray capacitance error. This is yielding the original image of unknown multiphase medium inside the electrodes using Lab VIEW. This paper investigates several advantages such as improved overall system performance; simple structure, avoids stray capacitance effect, reduces the drift problem and achieves high signal to noise ratio.

Electrical Capacitance Tomography, ANSYS, Lab VIEW, Embedded System, AC Signal

Manikandan, K. and Sathiyamoorthy, S. (2016) Modeling and Implementation of AC Electrical Capacitance Tomography. Circuits and Systems, 7, 3818-3830. doi: 10.4236/cs.2016.711319.