Title :
Prospects of α-Sic and β-Sic based P+P N N+ IMPATT devices as sub-millimeter wave high-power sources
Author :
Mukherjee, Moumita
Author_Institution :
Centre of Millimeterwave Semicond. Devices & Syst., Univ. of Calcutta, Kolkata
Abstract :
Wide-Band-Gap (WBG) alpha (4H and 6H)-SiC and beta(3C)-SiC based double drift region (DDR, p+p n n+ type), IMPATT devices are designed at sub-millimeter wave (Terahertz) region and their high frequency characteristics are compared for the first time through an extensive simulation experiment. The study indicates that at around 0.3 THz, alpha(4H)-SiC based IMPATT device can yield a RF power (PRF) of 20.0 W (efficiency ~ 15.0 %), much better than alpha(6H)-SiC IMPATT which is capable of generating only 7.5 W of RF power (efficiency ~ 12.0 %). On the other hand, beta(3C)-SiC based IMPATT may generate 11.5W output power with an efficiency of 12.5% under similar operating conditions. The comparative analysis reveals the superiority of alpha(4H)-SiC IMPATT oscillator as a high power source at THz regime.
Keywords :
IMPATT oscillators; silicon compounds; submillimetre wave devices; wide band gap semiconductors; IMPATT devices; IMPATT oscillator; SiC; power 11.5 W; power 20 W; power 7.5 W; sub-millimeter wave high-power sources; wide-band-gap double drift region; Gallium arsenide; Oscillators; P-n junctions; Power generation; Power system reliability; Radio frequency; Semiconductor diodes; Semiconductor materials; Silicon carbide; Solid state circuits; Double-Drift-Region; Hexagonal and Cubic Silicon Carbide; High-power; IMPATT oscillator; THz frequency;
Conference_Titel :
Recent Advances in Microwave Theory and Applications, 2008. MICROWAVE 2008. International Conference on
Conference_Location :
Jaipur
Print_ISBN :
978-1-4244-2690-4
Electronic_ISBN :
978-1-4244-2691-1
DOI :
10.1109/AMTA.2008.4762982
