Title :
Multi-Chip Module (MCM-D) using thin film technology
Author :
Adamo, Cristina B. ; Flacker, Alexander ; Freitas, Wilson ; Teixeira, Ricardo C. ; da Silva, Michele O. ; Rotondaro, Antonio L. P.
Author_Institution :
Renato Archer Center for Inf. Technol.-Campinas, Campinas, Brazil
Abstract :
This work presents results of the Multi-Chip Module-Deposited technology built with thin film processes over a substrate of alumina and oxidized silicon that was used to micro-fabricate passive components (capacitors, resistors, inductors). Metal layers were deposited by sputtering, electrolytic and electroless techniques and benzocyclobutene was used as dielectric. Electrical characteristics of passive components and filters were evaluated indicating that the testchip and processes were effective to manufacture the devices.
Keywords :
dielectric materials; electrodeposition; electroless deposition; microfabrication; multichip modules; organic compounds; oxidation; passive networks; sputter deposition; thin film capacitors; thin film inductors; thin film resistors; MCM-D technology; SiO2; alumina substrate; benzocycIobutene; capacitor; dielectric material; electrical characteristics; electroless technique; electrolytic technique; inductor; metal layer deposition; microfabricate passive component; multichip module-deposited technology; oxidization; resistor; sputtering; thin film process technology; Inductors; Plasmas; Resistors; Shape; Shape measurement; Silicon; Substrates; Multi-Chip module; benzocyclobutene; passive components; thin film deposition;
Conference_Titel :
Microelectronics Technology and Devices (SBMicro), 2014 29th Symposium on
Conference_Location :
Aracaju
DOI :
10.1109/SBMicro.2014.6940122
