DocumentCode
3168482
Title
Advanced 3D Packaging using Novel Liquid Crystalline Polymer Based Substrates
Author
Ghiu, Camil-Daniel ; Dalmia, Sidharth ; Vickers, Jack ; Carastro, Larry ; Czakon, Winston ; Sundaram, Venky ; White, George
Author_Institution
Jacket Micro Devices, Atlanta, GA
fYear
2006
fDate
10-15 Sept. 2006
Firstpage
1771
Lastpage
1773
Abstract
This paper presents the performance of 3D packaging solutions based on novel multilayered organic substrates. Electrical performance of embedded RF passives over 950 MHz to 3 GHz frequency range and stability from -40 degC to 85 degC has been demonstrated in an organic laminate substrate. Stand-alone, high Q inductors built on a multilayered liquid crystalline polymer (LCP)-based substrate can withstand a 2A direct current with the temperatures well within the safe range. The power handling capability of surface mounted IPDs is also assessed in this study. Reliability test data demonstrated the multilayer substrate compatibility with 1times and 3times lead free solder reflow. A promising high temperature LCP material enabled a significant improvement in the stability of electrical performance after 3times reflow at 260 degC
Keywords
Q-factor; inductors; integrated circuit packaging; liquid crystal polymers; reflow soldering; -40 to 85 C; 0.95 to 3 GHz; 2 A; 260 C; advanced 3D packaging; diplexer; embedded RF passives; high Q inductors; lead free solder reflow; liquid crystalline polymer based substrates; multilayered liquid crystalline polymer; multilayered organic substrates; organic laminate substrate; power handling capability; surface mounted IPD; Crystallization; Inductors; Laminates; Liquid crystal polymers; Nonhomogeneous media; Packaging; Radio frequency; Stability; Temperature distribution; Testing; Diplexer; IPD; direct current; organics; packaging; substrate; thermal;
fLanguage
English
Publisher
ieee
Conference_Titel
Microwave Conference, 2006. 36th European
Conference_Location
Manchester
Print_ISBN
2-9600551-6-0
Type
conf
DOI
10.1109/EUMC.2006.281486
Filename
4058195
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