Title :
Demonstration of Long-Pulse Power Amplification at 1 GHz Using 4H-SiC RF BJTs on a Conductive Substrate
Author :
Zhao, Feng ; Zeghbroeck, Bart Van ; Torvik, Kris ; Shi, Tiefeng ; Mallinger, Mike
Author_Institution :
Power Products Group, Microsemi Corp., Boulder, CO
fDate :
5/1/2007 12:00:00 AM
Abstract :
In this letter, we report 4H-SiC RF bipolar junction transistors (BJTs) on an n-type 4H-SiC conductive substrate with, for the first time, RF power amplification at 1 GHz. The devices were fabricated using a double-mesa etch and interdigitated emitter-base finger design. When tested under common-base and pulsed Class AB mode at 1 GHz, the packaged devices with external matching exhibited a 10.1-dB power gain and a 22.9-W output power, with a 40.8% power-added efficiency (PAE) at 1-ms pulsewidth and 10% duty cycle. The RF power density is 313.8 W/cm2 , normalized to the total emitter finger area. At a longer pulsewidth of 6 ms and the same duty cycle of 10%, devices can still deliver a 16.2-W (222.2 W/cm2) output power, with 10-dB gain and 28.3% PAE. The RF performance combined with the lower cost SiC conductive substrate, as compared to the semi-insulating substrate, makes these devices promising for use in power amplifiers for long-pulse L-band radar applications
Keywords :
UHF bipolar transistors; silicon compounds; substrates; wide band gap semiconductors; 1 GHz; 10.1 dB; 22.9 W; SiC; conductive substrate; double-mesa etch; interdigitated emitter-base finger; long-pulse power amplification; radio frequency BJT; radio frequency bipolar junction transistors; semiinsulating substrate; Costs; Etching; Fingers; Packaging; Power amplifiers; Power generation; Pulse amplifiers; Radio frequency; Space vector pulse width modulation; Testing; 4H-SiC; Bipolar junction transistors (BJTs); L-band; conductive substrate; long pulse; output power; power gain; power-added efficiency (PAE); radar; radio frequency (RF);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.895386
