Title :
A compact three-dimensional packaging technique using super-fine-pitch coaxial connector arrays for on-board satellite equipment
Author :
Ishitsuka, Fuminori ; Iwasaki, Noboru ; Ohira, Takashi ; Suzuki, Yoshinori ; Ando, Yasuhiro
Author_Institution :
NTT Telecommun. Energy Labs., Kanagawa, Japan
fDate :
8/1/2000 12:00:00 AM
Abstract :
A compact three-dimensional (3-D) inter-module microwave packaging technique has been developed that drastically reduces the volume of on-board satellite equipment of phased-array beam control (PBC). A super-fine-pitch coaxial connector (SCC) array has been successfully implemented with this 3-D structure along with very flat, superior-performance ceramic MMIC packages and combiner packages. Two types of SCC have been developed-a lead-to-jack array and a plug-to-plug array-both of which have a 2-mm pin pitch. Through application of this 3-D packaging technique to S-band 61-beam 32-radiator PBC equipment, an ultra-small packaging unit was developed that houses a 32×64 interconnection in a 2600-cc chassis. This technique promises to make possible compact, light-weight on-board PBC equipment that is especially suitable for use in satellite transponders
Keywords :
MMIC; antenna phased arrays; ceramic packaging; electric connectors; integrated circuit packaging; power combiners; space vehicle electronics; transponders; 2 mm; S-band; ceramic MMIC packages; combiner packages; compact three-dimensional packaging technique; inter-module microwave packaging technique; lead-to-jack array; on-board satellite equipment; phased-array beam control; plug-to-plug array; super-fine-pitch coaxial connector arrays; transponders; ultra-small packaging unit; Backplanes; Coaxial components; Connectors; Flexible printed circuits; Integrated circuit interconnections; MMICs; Microwave antenna arrays; Packaging machines; Phased arrays; Satellites;
Journal_Title :
Advanced Packaging, IEEE Transactions on
DOI :
10.1109/6040.861570
