Title :
Theoretical and Experimental Investigation of Semiconductor Junction Igniter
Author :
Bin Zhou ; Yong Li ; Yu-Wu Cao ; Zheng-Guang Qiao ; Jun Wang
Author_Institution :
Sch. of Chem. Eng., Nanjing Univ. of Sci. & Technol., Nanjing, China
Abstract :
There have always been concerns for operation and service safety of electroexplosive devices (EEDs) in an electromagnetic environment. To discuss new EEDs, semiconductor junction igniter (SJI) with p-n junction is researched theoretically and experimentally in this paper. The theoretical analysis indicates that N-doped concentration is the key factor dominating SJI performances. In electroexplosive experiments, the SJIs are fired with a capacitor charged to 160 V. Results show that it goes through four stages during the electroexplosive process, and the highest temperature exceeds 6000 K. Meanwhile, function mechanisms have been analyzed. In the safety tests, none of the samples fired with a 25-kV electrostatic voltage, and the all-fire radio frequency (RF) input power is 13.07 W, which are both behavior better than that of the polysilicon igniters. Electrostatic and RF safety can be improved with SJI parameter adjustments.
Keywords :
electric ignition; electromagnetic devices; explosions; p-n junctions; EED; N-doped concentration; RF safety; SJI; all-fire radio frequency input power; capacitor; electroexplosive devices; electroexplosive process; electromagnetic environment; electrostatic safety; electrostatic voltage; function mechanisms; p-n junction; parameter adjustments; safety tests; semiconductor junction igniter; service safety; voltage 160 V; voltage 25 kV; Capacitors; Electrostatics; P-n junctions; Plasma temperature; Radio frequency; Safety; Electroexplosive devices (EEDs); safety; semiconductor junction;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2360512
