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Integration of screen-printed tunable BST thick films in LTCC modules for microwave applications
(2017)
Reconfigurable microwave components play an important role in modern communication systems to meet the increasing demands for functionality and flexibility of the systems. Various technologies, such as semiconductor technology, microelectromechanical systems (MEMS) or ferroelectric thin and thick films, are suitable for the realization of tunable microwave components. Ferroelectric materials are characterized by high tuning speeds, negligible power consumption and low manufacturing costs. In particular, ferroelectric thick films based on barium strontium titanate (BaxSr1-xTiO3, BST) are promising systems for use in the frequency range up to approx. 12 GHz. However, due to the high sintering temperatures above 1100°C for pure BST thick films, the fabrication of tunable components based on silver or gold electrodes is limited to planar structures, which are applied after the sintering process.
In this presentation, it will be shown the development of BST-ZnO-B2O3 composite materials for reducing the sintering temperature to 850-900°C. Furthermore, the material and component properties of these composites or rather corresponding MIM (metal-insulator-metal) varactors are presented and compared to planar-structured varactors. The LTCC integration potential of such fully screen-printed MIM varactors based on the developed low sintering BST composites are investigated by the fabrication of phase shifters embedded in LTCC modules.
Novel approaches of tunable devices for millimeter wave applications based on liquid crystal (LC) are presented. In the first part of the paper, a novel concept of a tunable LC phase shifter realized in Low Temperature Cofired Ceramics technology is shown while the second part of the paper deals with a tunable high-gain antenna based on an LC tunable reflectarray. The reflectarray features continuously beam scanning in between ±25°. Also first investigations on radiation hardness of LCs are carried out, indicating that LCs might be suitable for space applications.