Title :
1200-V 5.2-mΩ·cm2 4H-SiC BJTs With a High Common-Emitter Current Gain
Author :
Lee, Hyung-Seok ; Domeij, Martin ; Zetterling, Carl-Mikael ; Östling, Mikael ; Allerstam, Fredrik ; Sveinbjörnsson, Einar Ö
Author_Institution :
R. Inst. of Technol. (KTH), Stockholm
Abstract :
This letter presents fabrication of a power 4H-SiC bipolar junction transistor (BJT) with a high open-base breakdown voltage BVCEO ap 1200 V, a low specific on-resistance R SP_ON ap 5.2 mOmegamiddotcm2, and a high common-emitter current gain beta ap 60. The high gain of the BJT is attributed to reduced surface recombination that has been obtained using passivation by thermal silicon dioxide grown in nitrous oxide (N2O) ambient. Reference BJTs with passivation by conventional dry thermal oxidation show a clearly lower current gain and a more pronounced emitter-size effect. BJTs with junction termination by a guard-ring-assisted junction-termination extension (JTE) show about 400 V higher breakdown voltage compared with BJTs with a conventional JTE.
Keywords :
nitrogen compounds; oxidation; passivation; power bipolar transistors; semiconductor device breakdown; semiconductor junctions; silicon compounds; surface recombination; wide band gap semiconductors; N2O; N2O - Binary; SiC; SiC - Interface; common-emitter current gain; junction-termination extension; nitrous oxide; open-base breakdown voltage; passivation; power 4H-SiC BJT; power 4H-SiC bipolar junction transistor; surface recombination; thermal oxidation; thermal silicon dioxide; voltage 1200 V; Communications technology; Doping; Epitaxial layers; FETs; Fabrication; Oxidation; Passivation; Silicon carbide; Silicon compounds; Voltage; 4H-silicon carbide; Bipolar junction transistors (BJTs); current gain; emitter-size effect; high voltage; surface recombination;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.907418
