Title :
A new lumped-elements power-combining amplifier based on an extended resonance technique
Author :
Martin, Adam L. ; Mortazawi, Amir
Author_Institution :
MA-COM, Roanoke, VA, USA
fDate :
9/1/2000 12:00:00 AM
Abstract :
A technique for combining power FETs in the output stage of a power amplifier is presented. The active devices are combined with simple inductor/capacitor networks and can be laid out across a single die while still allowing each device to be independently accessed for biasing. The inductors can range from fully integrated spirals to simple wire bonds, making this technique applicable over a broad range of frequencies. For linear RF power applications this is an effective technique for spreading more heat, while at high frequencies the junction parasitics are easily absorbed into this type of design. DC losses are minimized since each device can be biased individually, furthermore, it is possible to adjust the bias separately for each device to account for device nonuniformity across the die
Keywords :
field effect transistor circuits; losses; lumped parameter networks; microwave circuits; microwave power amplifiers; power combiners; DC losses; device nonuniformity; extended resonance technique; fully integrated spirals; inductor/capacitor networks; junction parasitics; linear RF power applications; lumped-elements power-combining amplifier; power FETs; wire bonds; Broadband amplifiers; Capacitors; FETs; Inductors; Power amplifiers; Radio frequency; Resonance; Spirals; Thermal management; Threshold voltage;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
