Title :
High voltage and frequency bipolar pulse generator design for electroporation-based cancer therapy
Author :
Cronje, Thomas F. ; Gaynor, Paul T.
Author_Institution :
Dept. of Eng. & Archit. Studies, CPIT, Christchurch, New Zealand
fDate :
Sept. 29 2013-Oct. 3 2013
Abstract :
This paper describes a novel design of a high voltage, high frequency, bipolar pulse generator, for experimental use in electrochemotherapy and irreversible electroporation, using RF MOSFETs (DE375-102N12A) in a cascaded multilevel inverter topology. Its pulsing regime is fully programmable and is con-trolled by an FPGA. A systematic development approach was followed. The UCC37321 gate driver and the HCPL-2400 opto-coupler were selected. Damping resistors and RCD snubbers were employed to mitigate excessive ringing in the output circuit. Practical EMC reduction guidelines were followed. The pulse generator operated satisfactorily, producing a typical cascaded 5-level output of 1250 V peak at 1 MHz into a load of 80 ohm in parallel with 235 pF. Higher room temperature caused a slight “indent” into the output pulses.
Keywords :
MOSFET; electromagnetic compatibility; field programmable gate arrays; invertors; patient treatment; pulse generators; DE375-102N12A RF MOSFET; EMC reduction guidelines; FPGA; HCPL-2400 opto-coupler; RCD snubbers; UCC37321 gate driver; capacitance 235 pF; damping resistors; electrochemotherapy; electroporation based cancer therapy; frequency 1 MHz; high frequency bipolar pulse generator; high voltage pulse generator; irreversible electroporation; multilevel inverter topology; resistance 80 ohm; voltage 1250 V; Field programmable gate arrays; Logic gates; MOSFET; Radio frequency; Snubbers; Switches; Topology; Electroporation; cascaded multilevel inverter; electrochemotherapy; irreversible electroporation;
Conference_Titel :
Power Engineering Conference (AUPEC), 2013 Australasian Universities
Conference_Location :
Hobart, TAS
DOI :
10.1109/AUPEC.2013.6725469
