Title :
Novel Package of SiC-JFET for a Switching Pulse Supply Operating at 1 MHz for an Induction Synchrotron
Author :
Okamura, Katsuya ; Ise, Keiichi ; Wake, Masayoshi ; Takaki, Koichi ; Osawa, Yutaka ; Takayama, Ken
Author_Institution :
Accel. Lab., High Energy Accel. Res. Organ. (KEK), Tsukuba, Japan
Abstract :
Silicon carbide (SiC) is one of the most promising materials for next-generation power electronic devices, owing to its superior physical properties. Among existing SiC power devices, the SiC junction field-effect transistor (JFET) (SiC-JFET) has excellent performance. A high-power discrete package of a SiC-JFET was developed with the aim of being applied to the High Energy Accelerator Research Organization (KEK) digital accelerator. The device was assembled on a 58 mm × 36 mm copper base plate and with a height of 7 mm. The size of the die was 4.16 mm × 4.16 mm. The device was tested using a pulse discharge circuit and successfully operated at 1 MHz, 1 kV, and 27 A. The power dissipation and the thermal resistance were estimated at 235 W and 0.56 K/W.
Keywords :
field effect transistor switches; junction gate field effect transistors; semiconductor device packaging; silicon compounds; synchrotrons; thermal resistance; wide band gap semiconductors; High Energy Accelerator Research Organization; KEK digital accelerator; SiC; SiC-JFET package; current 27 A; frequency 1 MHz; high-power discrete package; induction synchrotron; junction field-effect transistor; power 235 W; power dissipation; pulse discharge circuit; silicon carbide; size 7 mm; switching pulse supply; thermal resistance; voltage 1 kV; Junctions; Plasma temperature; Resistance; Silicon carbide; Switches; Synchrotrons; Temperature measurement; Junction field-effect transistor (JFET); pulsed-power supplies; silicon carbide (SiC); synchrotrons;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2207129
