Title :
Cryogenic operation of power bipolar transistors
Author :
Singh, Ranbir ; Baliga, B.J.
Author_Institution :
Power Semicond. Res. Center, North Carolina State Univ., Raleigh, NC, USA
fDate :
31 May-3 Jun 1994
Abstract :
The results of detailed measurements, simulations and modeling on 500 V, 4 Amps NPN BJTs are reported in the 300-77 K temperature range. For these devices, as the operating temperature is reduced from 300 to 77 K, the current gain has been found to decrease by more than an order of magnitude; the on-state collector-emitter and base-emitter voltages increase by 40 and 80% respectively; although the collector-base breakdown decreases by about 20%, the collector-emitter breakdown increases by about 20%, and the storage and fall times reduce by 10× and 6×, respectively. Through numerical simulations it is shown that the emitter current crowding is much more severe at 77 K than at 300 K. Using verified analytical models and established optimization techniques, it is shown that a 77 K optimally designed BJT has a lower emitter, base and collector dopings and a larger emitter area than a similarly rated 300 K optimized device
Keywords :
power bipolar transistors; 300 to 77 K; 4 A; 500 V; NPN BJTs; analytical models; collector-base breakdown; collector-emitter breakdown; cryogenic operation; current gain; dopings; emitter area; emitter current crowding; fall times; numerical simulations; on-state base-emitter voltage; on-state collector-emitter voltage; optimization; power bipolar transistors; storage time; Bipolar transistors; Breakdown voltage; Cryogenics; Design optimization; Doping; High temperature superconductors; Power measurement; Silicon; Temperature distribution; Thermal conductivity;
Conference_Titel :
Power Semiconductor Devices and ICs, 1994. ISPSD '94., Proceedings of the 6th International Symposium on
Conference_Location :
Davos
Print_ISBN :
0-7803-1494-8
DOI :
10.1109/ISPSD.1994.583733
