Silicon-on-glass technology for RF and microwave device fabrication

This paper reviews the applications and potentials of back-wafer contacted silicon-on-glass (SOG) substrate-transfer technology (STT) particularly for RF and microwave silicon-device-design enhancement. This type of SOG process gives direct access to the part of the device that is usually connected via the bulk Si, by allowing advanced patterning and contacting of the backside of the wafer (back-wafer) with respect to the front of the wafer (front-wafer). In this manner the resistive and capacitive parasitics of the device itself, which in silicon often inhibit high-frequency (HF) performance, can be reduced to a minimum. At the same time new device concepts are made possible. Examples of fabricated devices (varactor diodes, vertical double-diffused MOSFETs (VDMOSFETs) and complementary bipolar transistors) are given and described in relationship to issues such as the very limited thermal budget permitted in the back-wafer processing and the inherently high thermal resistance of the SOG devices