Different from typical circuit breakers, breakers used to switch AC filters in convertor stations have to operate frequently according to the real-time operation mode and daily load changes. Therefore, the performance of filter breakers decreases very quickly, which leads to frequent accidents. Both preinsertion resistors and controlled switching devices can suppress switching transients. In this paper, a comparative analysis of whether a controlled switching device and preinsertion resistor should be adopted is carried out using PSCAD. The transient is calculated as the combined result of the switching angle and preinsertion resistor value, and the optimal configurations are proposed. After determining the resistor value and whether a controlled switching device should be included, the reference voltage of the arrester should be reevaluated. [ABSTRACT FROM AUTHOR]
Energy harvesting techniques provide solutions for powering battery-free circuits or even for charging storage elements such as batteries or super capacitors. In this paper a self-starting switched-capacitor approach based on three-stage charge pump that is appropriate to thermoelectric and photo-voltaic energy harvesting, is carried out in a 28 nm ultra-thin buried oxide (UTBB) fully-depleted silicon-on-insulator (FD-SOI) CMOS technology. By taking advantage of the FD-SOI substrate characteristics, the forward-body-biasing (FBB) technique is applied in order to improve switch conductances. In addition, a sizing exploration of standard N-type and flipped-well P-type devices operating as switches is advanced, in order to provide optimum balance between their conductances. Extensive simulation results validate the proper operation of the charge pump at a minimum input voltage of 150 mV, and show a maximum efficiency peak of 63.3% at an input voltage of 350 mV and load a current of 500 nA. [ABSTRACT FROM AUTHOR]