Regulated storage capacitor charging device and method

The invention claimed is: 1. A regulated storage capacitor charging device comprising: an output line and a common line for connecting therebetween an energy storage capacitor that has to be charged to a predefined maximum charging voltage; an AC source configured to output an AC voltage between the common line and an output terminal thereof; a charging unit comprising an N-stage Cockroft-Walton circuit, N representing any positive integer, first and second terminals thereof connected to the output terminal of the AC source and to the common line respectively and an output terminal thereof connected to the output line, wherein the capacitance of each capacitor in the charging unit is substantially, smaller than that of the storage capacitor to be charged; an output switch operatively coupled to connect and disconnect a load to the storage capacitor; and a control unit configured to constantly sense the voltage on the storage capacitor, upon detecting that a predefined maximum charging voltage has been reached to react in at least one of the following ways: (a) stop charging the storage capacitor, and (b) closing the output switch so as to discharge the storage capacitor through the load, wherein the control unit is further configured to decrease the frequency of the AC source, by a factor of ten or more, upon detecting that the voltage on the storage capacitor has reached a predefined distance from the predefined maximum charging voltage so as to improve the accuracy of a resulting maximum charging voltage. 2. The charging device of claim 1 , wherein the storage capacitor constitutes a part thereof. 3. The charging device of claim 1 , wherein the AC source comprises a step-up transformer. 4. The charging device of claim 1 , wherein the load is an Electroporation Cell (EPC). 5. A method of charging an energy storage capacitor to a predefined maximum charging voltage, the method comprising the steps of: charging the storage capacitor by means of an AC source and a charging unit comprising an N-stage Cockroft-Walton circuit, N representing any positive integer, wherein the capacitance of each capacitor in the charging unit is substantially smaller than that of the storage capacitor; constantly sensing the voltage on the storage capacitor; upon detecting that the predefined maximum charging voltage has been reached, reacting in at least one of the following ways: (a) stop charging the storage capacitor, and (b) discharging the storage capacitor through a load; and decreasing the frequency of the AC source, by a factor of ten or more, upon detecting that the storage capacitor voltage has reached a predefined distance from the predefined maximum charging voltage, so as to improve the accuracy of a resulting maximum charging voltage.