'Institute of Electrical and Electronics Engineers (IEEE)'
Doi
Abstract
This paper reports on a wafer-level thin film vacuum packaging technology for MEMS. It is based on the fabrication of freestanding porous anodic alumina membranes of a typical thickness of 2 to 3 μm, featuring cylindrical nanopores that are a mere 15-20 nm in diameter (aspect ratio >100). The fabrication process involves in situ perforation of the thin AlOₓ barrier layer present at the bottom of the nanoporous membranes. For the present paper, a silicon oxide sacrificial layer and a vapor-phase HF release etch through the pores are utilized. The thin film packages are next sealed with a 4 μm-thick PECVD nitride layer. Strong and “air-tight” thin film packages are obtained this way. Negligible impact on the RF transmission losses (up to 67 GHz) is observed. A basic assessment of the package hermeticity based on the cap deflection method is also presented.status: publishe