Title :
500oC Electronics for Harsh Environments
Author :
Sadwick, L.P. ; Hwu, R.J. ; Chern, J.H. ; Lin, C.H. ; del Castillo, Linda ; Johnson, T.
Author_Institution :
Lin, CH, Salt Lake City, UT
Abstract :
Solid state vacuum devices (SSVDs) are a relatively new class of electronic devices. Innosys is a leading producer of high frequency SSVDs for a number of applications, including RF communications. SSVDs combine features inherent to both solid state and vacuum transistors. Electron transport can be by solid state or vacuum or both. The focus of this talk is on thermionic SSVDs, in which the primary vacuum transport is by thermionically liberated electron emission. SSVDs can be fabricated on a number of substrates (e.g., silicon, silicon carbide, silicon on insulator, sapphire, alumina, etc.). SSVDs are compatible and can be integrated with most other semiconductor process and device technologies. SSVDs can be used as high voltage/high power devices (from DC to well into the GHz range) or as small analog or mixed signal circuits. Examples of such SSVD circuits include operational amplifiers (op amps) and eventually digital to analog converters
Keywords :
high-temperature electronics; semiconductor technology; thermionic electron emission; vacuum microelectronics; 500 C; RF communications; SSVD circuits; analog circuits; digital to analog converters; electron emission; electron transport; electronic devices; high frequency SSVD; high power devices; high voltage devices; mixed signal circuits; operational amplifiers; primary vacuum transport; semiconductor device technologies; semiconductor process technologies; solid state transistors; solid state vacuum devices; thermionic SSVD; vacuum transistors; Electron emission; Integrated circuit technology; Operational amplifiers; Radio frequency; Silicon carbide; Silicon on insulator technology; Solid state circuits; Substrates; Thermionic emission; Voltage;
Conference_Titel :
Aerospace Conference, 2005 IEEE
Conference_Location :
Big Sky, MT
Print_ISBN :
0-7803-8870-4
DOI :
10.1109/AERO.2005.1559568
