Title :
Frequency extension of the fully printed phase shifter by paste composite optimization
Author :
Nikfalazar, M. ; Kohler, C. ; Kienemund, D. ; Wiens, A. ; Zheng, Y. ; Sohrabi, M. ; Binder, J.R. ; Jakoby, R.
Author_Institution :
Inst. for Microwave Eng. & Photonics (IMP), Tech. Univ. of Darmstadt, Darmstadt, Germany
Abstract :
This paper aims to propose new approaches based on fully screen printing technology for realization of tunable components with frequency extension based on BST paste composite optimization. The tunable phase shifters are fabricated to demonstrate the capabilities of these simple, flexible and low-cost methods. The proposed phase shifters contain tunable ferroelectric varactors in metal-insulator-metal (MIM) configuration, which are fully printed on top of an alumina carrier substrate with metallic and dielectric pastes, subsequently dried and cofired. The printed phase shifters work in different frequency ranges by using different ferroelectric composites. The BST pastes are optimized for low sintering temperature performance. Using BST composite with MgBO, the frequency range is extended to 7.6GHz.
Keywords :
MIM devices; alumina; boron compounds; magnesium compounds; microwave phase shifters; optimisation; sintering; varactors; Al2O3; MIM configuration; MgBO; carrier substrate; dielectric pastes; ferroelectric composites; frequency extension; fully printed phase shifter; fully screen printing technology; low sintering temperature performance; low-cost methods; metal-insulator-metal configuration; metallic pastes; paste composite optimization; tunable components; tunable ferroelectric varactors; tunable phase shifters; Fabrication; Microwave circuits; Phase shifters; Printing; Varactors; BST; Ferroelectric; fully printed component; phase shifter; screen printed;
Conference_Titel :
Microwave Conference (GeMiC), 2015 German
Conference_Location :
Nuremberg
DOI :
10.1109/GEMIC.2015.7107774
