Title :
Fast tracking electrosurgical generator using GaN switches
Author :
Jensen, Scott ; Maksimovic, Dragan ; Friedrichs, Daniel ; Gilbert, James
Author_Institution :
ECEE Dept., Univ. of Colorado, Boulder, CO, USA
Abstract :
Electrosurgery involves the use of high-frequency (typically 100-500 kHz) alternating current (AC) to elicit a clinical response in tissue (e.g., cutting or cauterization) using a plasma arc. Standard electrosurgical generators (ESGs) are based on resonant inverters, which constrain the output frequency and waveshape. This paper describes a fast tracking ESG capable of shaping the output AC waveform over a range of frequencies, thus providing improved flexibility and control in electrosurgery applications. The proposed fast tracking ESG is based on a two-rail multi-phase buck topology using GaN switches. Experimental results are given for a 4-phase ESG prototype operating from ±250 V with 2 MHz per-phase switching frequency, capable of providing up to 50 W to an arc modeled as a 180 Ω to 3600 Ω load.
Keywords :
III-V semiconductors; biomedical electronics; gallium compounds; resonant invertors; semiconductor switches; wide band gap semiconductors; 4-phase ESG prototype; GaN; cauterization; clinical response; cutting; fast tracking electrosurgical generator; frequency 100 kHz to 500 kHz; frequency 2 MHz; high-frequency alternating current; output AC waveform; resistance 180 ohm to 3600 ohm; resonant inverters; two-rail multiphase buck topology; voltage -250 V; voltage 250 V; Gallium nitride; Generators; Logic gates; Prototypes; Switches; Switching frequency; Zero voltage switching; Electrosurgery; Fast Tracking; GaN Switches; Two-rail multi-phase buck;
Conference_Titel :
Applied Power Electronics Conference and Exposition (APEC), 2015 IEEE
Conference_Location :
Charlotte, NC
DOI :
10.1109/APEC.2015.7104531
