In RF-MEMS packaging, next to the protection of movable structures, optimization of package electrical performance plays a very important role. In this work, a wafer-level packaging process has been investigated and optimized in order to minimize electrical parasitic effects. The RF-MEMS package concept used is based on a wafer-level bonding of a capping silicon substrate to an RF-MEMS wafer. The capping silicon substrate resistivity, substrate thickness and the geometry of through-substrate electrical interconnect vias have been optimized using finite-element electromagnetic simulations (Ansoft HFSS). Test structures for electrical characterization have been designed and after their fabrication, measurement results will be compared with si...
Abstract: We present here a technique for wafer level micro-packaging of GaAs based RFMEMS switches....
This paper presents the parametric study of RF-via (0-level) and flip-chip bump (1-level) transition...
none5In this paper we present our efforts in characterizing and optimizing the influence of a Wafer...
In RF-MEMS packaging, next to the protection of movable structures, optimization of package electric...
In RF-MEMS packaging, next to the protection of movable structures, optimization of package electric...
In RF-MEMS packaging, next to the protection of movable parts from the harmful environment, key fact...
In this work, a wafer-level packaging solution for RF-MEMS applications that is based on a capping s...
In this work, we present electromagnetic optimization of a wafer-level package (WLP) intended for RF...
MEMS (Micro Electro-Mechanical System) technology for Radio Frequency (RF) applications has emerged ...
In this paper, development of a wafer-level packaging (WLP) process suitable for RF–MEMS application...
In this work, an anisotropic conductive adhesive (ACA) used for wafer-level bonding in RF-MEMS packa...
In this paper we present our efforts in characterizing and optimizing the influence of a Wafer-Level...
In this work, an anisotropic conductive adhesive (ACA), belonging to the family of electrically cond...
Abstract—The present paper describes an integrated approach for design, fabrication and encapsulatio...
In this paper, we present wafer-level packaging (WLP) solution for RF-MEMS applications based on thr...
Abstract: We present here a technique for wafer level micro-packaging of GaAs based RFMEMS switches....
This paper presents the parametric study of RF-via (0-level) and flip-chip bump (1-level) transition...
none5In this paper we present our efforts in characterizing and optimizing the influence of a Wafer...
In RF-MEMS packaging, next to the protection of movable structures, optimization of package electric...
In RF-MEMS packaging, next to the protection of movable structures, optimization of package electric...
In RF-MEMS packaging, next to the protection of movable parts from the harmful environment, key fact...
In this work, a wafer-level packaging solution for RF-MEMS applications that is based on a capping s...
In this work, we present electromagnetic optimization of a wafer-level package (WLP) intended for RF...
MEMS (Micro Electro-Mechanical System) technology for Radio Frequency (RF) applications has emerged ...
In this paper, development of a wafer-level packaging (WLP) process suitable for RF–MEMS application...
In this work, an anisotropic conductive adhesive (ACA) used for wafer-level bonding in RF-MEMS packa...
In this paper we present our efforts in characterizing and optimizing the influence of a Wafer-Level...
In this work, an anisotropic conductive adhesive (ACA), belonging to the family of electrically cond...
Abstract—The present paper describes an integrated approach for design, fabrication and encapsulatio...
In this paper, we present wafer-level packaging (WLP) solution for RF-MEMS applications based on thr...
Abstract: We present here a technique for wafer level micro-packaging of GaAs based RFMEMS switches....
This paper presents the parametric study of RF-via (0-level) and flip-chip bump (1-level) transition...
none5In this paper we present our efforts in characterizing and optimizing the influence of a Wafer...