Title :
Marx-Type Solid-State Bipolar Modulator Topologies: Performance Comparison
Author :
Canacsinh, H. ; Redondo, L.M. ; Silva, J. Fernando
Author_Institution :
Lisbon Eng. Super. Inst., Lisbon, Portugal
Abstract :
The operation of generalized Marx-type solid-state bipolar modulators is discussed and compared with simplified Marx-derived circuits, to evaluate their capability to deal with various load conditions. A comparative analysis on the number of switches per cell, fiber optic trigger count, losses, and switch hold-off voltages has been made. A circuit topology is obtained as a compromise in terms of operating performance, trigger simplicity, and switching losses. A five-stage laboratory prototype of this circuit has been assembled using 1200 V insulated gate bipolar transistors (IGBTs) and diodes, operating with 1000 V dc input voltage and 1 kHz frequency, giving 5 kV bipolar pulses, with 2.5 μs pulse width and 5 μs relaxation time into resistive, capacitive, and inductive loads.
Keywords :
insulated gate bipolar transistors; modulators; optical fibres; power semiconductor diodes; power semiconductor switches; pulse generators; pulsed power switches; trigger circuits; IGBT; Marx-derived circuit; Marx-type solid-state bipolar modulator; bipolar pulse; capacitive load; circuit topology; diode; fiber optic trigger count; frequency 1 kHz; inductive load; insulated gate bipolar transistor; relaxation time; resistive load; switch hold-off voltage; switching loss; time 2.5 mus; time 5 mus; trigger simplicity; voltage 1000 V; voltage 1200 V; voltage 5 kV; Capacitors; Insulated gate bipolar transistors; Modulation; Optical switches; Semiconductor diodes; Topology; High-voltage (HV) techniques; Marx generators; power semiconductor devices; pulsed power systems;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2190944
