The development of new fabrication techniques for capacitors with high storage capabilities, called super capacitors, requires appropriated equipment in order to obtain the device's electric behaviours. There is seve...The development of new fabrication techniques for capacitors with high storage capabilities, called super capacitors, requires appropriated equipment in order to obtain the device's electric behaviours. There is several equipment to perform this analysis operating with alternating or continuum voltage. However, the elevated cost of this equipment makes purchasing it impossible in many laboratories. In this work, we present the development and construction of a low-cost impedance spectrometer that allows for the analysis of the capacitor's electric behaviour without taking too much time. The analysis is performed by alternating voltage and current measurements as a function of the frequency in the range of 0.001 Hz to 100 kHz. The capacitance and electric behaviour of some commercial capacitors are shown in this work, thereby proving the efficiency of the developed equipment.展开更多
文摘The development of new fabrication techniques for capacitors with high storage capabilities, called super capacitors, requires appropriated equipment in order to obtain the device's electric behaviours. There is several equipment to perform this analysis operating with alternating or continuum voltage. However, the elevated cost of this equipment makes purchasing it impossible in many laboratories. In this work, we present the development and construction of a low-cost impedance spectrometer that allows for the analysis of the capacitor's electric behaviour without taking too much time. The analysis is performed by alternating voltage and current measurements as a function of the frequency in the range of 0.001 Hz to 100 kHz. The capacitance and electric behaviour of some commercial capacitors are shown in this work, thereby proving the efficiency of the developed equipment.
