Title :
100-kV High Voltage Power Supply With Bipolar Voltage Output and Adaptive Digital Control
Author :
Giesselmann, Michael G. ; Vollmer, Travis T. ; Carey, William J.
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas Tech Univ., Lubbock, TX, USA
Abstract :
This paper presents a 100-kV high frequency transformer/rectifier package, which is capable of a dual output polarity operation. An H-Bridge inverter drives the primary of the high voltage (HV) transformer at a frequency of 20 kHz. The inverter is driven by a Microchip dsPIC33F digital signal controller using peak current mode control with adaptive slope compensation. The HV-tank has two HV-coax output cables with a grounded shield on each cable. If the center conductor of the coax cable designated as negative output is grounded, positive voltage is obtained from the coax cable designated as positive output and vice versa. This paper provides design details and experimental results from tests of the entire system.
Keywords :
adaptive control; bridge circuits; cable shielding; coaxial cables; compensation; conductors (electric); digital control; earthing; electric current control; electronics packaging; high-frequency transformers; invertors; power cables; power control; power transformer testing; rectifiers; voltage control; H-bridge inverter; HV transformer; HV-coax output cable; HV-tank; adaptive digital control; adaptive slope compensation; bipolar voltage output; conductor; dual output polarity operation; frequency 20 kHz; grounded shield; high frequency transformer-rectifier package; high voltage power supply; high voltage transformer; microchip dsPIC33F digital signal controller; negative output grounding; peak current mode control; voltage 100 kV; Capacitors; Insulated gate bipolar transistors; Oil insulation; Power transformer insulation; Transformer cores; Voltage control; Windings; Digital current mode control; H-Bridge inverter; dual polarity; high frequency transformer; high voltage (HV) power supply; high voltage (HV) power supply.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2326838
