| INTEGRA TECHNOLOGIES, INC. Patent applications |
| Patent application number | Title | Published |
|---|
| 20120126243 | TRANSISTOR INCLUDING SHALLOW TRENCH AND ELECTRICALLY CONDUCTIVE SUBSTRATE FOR IMPROVED RF GROUNDING - Disclosed is an RF power FET or HEMT including an electrically-conductive substrate, a grounding metallization layer disposed on a bottom surface of the electrically-conductive substrate, an active area comprising at least one cell including source, gate and drain electrodes disposed over a top surface of the electrically-conductive substrate, and an electrically-conductive shallow trench electrically connecting the source electrode to the grounding metallization layer by way of the electrically-conductive substrate. This configuration results in the effective RF ground being very close to the active area of the FET in order to reduce parasitic source inductance and resistance. This results in potentially higher gain, higher saturation point, higher 3 | 05-24-2012 |
| 20090236737 | RF TRANSISTOR OUTPUT IMPEDANCE TECHNIQUE FOR IMPROVED EFFICIENCY, OUTPUT POWER, AND BANDWIDTH - An RF/microwave circuit is configured to eliminate the physical constraint that requires a sacrifice of one output series inductor wirebond for each shunt inductor wirebond. The circuit employs a multi-level metalized substrate as part of its output impedance matching network. The lower level of the multi-level substrate serves as an intermediate connection point for the output series inductor wirebonds as it extends from the output terminal of an active device to an output metallization pad. The upper level of the multi-level substrate serves to support a DC block capacitor and as an intermediate connection point for the shunt inductor wirebonds. The multi-level substrate allows the series inductor wirebonds to be positioned at a lower height, and the shunt inductor wirebonds at a greater height. Because they are at different heights, the physical constraint of sacrificing a series wirebond per a shunt inductor wirebond can be eliminated. This leads to improved power efficiency, higher gain, and greater bandwidth. | 09-24-2009 |
