Title :
Achieving higher levels of electronic integration through system-on-chip
Author_Institution :
Fac. of Sci. Technol. & Design, Univ. of Luton, UK
Abstract :
All aerospace vehicles have the common constraint of limited space for the electronic systems. The challenge has always been how to pack effective electronic systems into the space available. Higher levels of electronic integration can give a competitive advantage, for example by providing extra channels in a communications satellite thereby increasing revenue to the operator. Today´s deep sub-micron manufacturing processes for integrated electronics offer an opportunity for a step change for electronic functionality that can packaged in a given space. This technology makes possible, for the first time, a true System-on-Chip approach to electronic systems, which is already being exploited by the commercial sector in products such as the mobile telephone
Keywords :
aerospace instrumentation; field programmable gate arrays; geophysical equipment; industrial property; multichip modules; radiation hardening (electronics); Earth sensor; FPGA; Marconi; aerospace vehicles; communications satellite; electronic integration; integrated electronics; intellectual property; multichip modules; radiation tolerance; reconfiguration; sub-micron manufacturing processes; system-on-chip; Application specific integrated circuits; Artificial satellites; Consumer electronics; Costs; Field programmable gate arrays; Intellectual property; Power system reliability; Space technology; System-on-a-chip; Time to market;
Conference_Titel :
National Aerospace and Electronics Conference, 2000. NAECON 2000. Proceedings of the IEEE 2000
Conference_Location :
Dayton, OH
Print_ISBN :
0-7803-6262-4
DOI :
10.1109/NAECON.2000.894945
