Add to ORKGAn ultra-compact watt-level Ka-band monolithic microwave integrated circuit (MMIC) power amplifier (PA) is demonstrated using a 0.15 μm Gallium Arsenide (GaAs) stacked field effect transistor (stacked-FETs) configuration. The fabricated PA exhibits 31.5 dBm output power, 17 dB gain and 33% power added efficiency (PAE). The bandwidth is from 26 GHz to 31 GHz. The PA achieves 0.7 Watt/mm2 power density at 28 GHz. To the best of our knowledge, this PA achieves the highest power density among reported GaAs Ka-band PAs
This paper describes the design of a GaAs monolithic high power amplifier at Ku band. The chip deliv...
The High Power Amplifier (HPA) is a key component for any modern Active Electronically Scanned Array...
TriQuint Semiconductor, Texas has developed a very reproducible, high yield, and high reliability, 0...
In this paper, a stacked MMIC power amplifier in GaAs pHEMT technology is designed for Ku-band opera...
The performance of a compact coplanar microwave monolithic integrated circuit (MMIC) amplifier with ...
We report the design and fabrication of compact 2- and 3-stage coplanar (CPW) microwave monolithic i...
The microwave backhaul represents a key factor in determining cost and service quality of mobile com...
Two compact coplanar MMIC amplifiers having high output power at Ka-band are presented. Based on our...
This paper presents the design and experimental characterization of a 3-stage stacked MMIC power amp...
The application of stacked-FETs in power amplifiers allows for a supply voltage higher than supporte...
This paper reports on the first stacked field-effect transistor (stacked-FET) submillimeter-wave mon...
The technology, design aspects and performance of a family of three compact W-band power amplifier M...
A stacked HEMT PA has been designed and implemented in a commercial 0.1 mu m InGaAs pHEMT process to...
A stacked high-electron mobility transistor (HEMT) power amplifier (PA) has been designed and implem...
The performance of a compact power amplifier MMIC for 35 to 45 GHz applications is reported. Using a...
This paper describes the design of a GaAs monolithic high power amplifier at Ku band. The chip deliv...
The High Power Amplifier (HPA) is a key component for any modern Active Electronically Scanned Array...
TriQuint Semiconductor, Texas has developed a very reproducible, high yield, and high reliability, 0...
In this paper, a stacked MMIC power amplifier in GaAs pHEMT technology is designed for Ku-band opera...
The performance of a compact coplanar microwave monolithic integrated circuit (MMIC) amplifier with ...
We report the design and fabrication of compact 2- and 3-stage coplanar (CPW) microwave monolithic i...
The microwave backhaul represents a key factor in determining cost and service quality of mobile com...
Two compact coplanar MMIC amplifiers having high output power at Ka-band are presented. Based on our...
This paper presents the design and experimental characterization of a 3-stage stacked MMIC power amp...
The application of stacked-FETs in power amplifiers allows for a supply voltage higher than supporte...
This paper reports on the first stacked field-effect transistor (stacked-FET) submillimeter-wave mon...
The technology, design aspects and performance of a family of three compact W-band power amplifier M...
A stacked HEMT PA has been designed and implemented in a commercial 0.1 mu m InGaAs pHEMT process to...
A stacked high-electron mobility transistor (HEMT) power amplifier (PA) has been designed and implem...
The performance of a compact power amplifier MMIC for 35 to 45 GHz applications is reported. Using a...
This paper describes the design of a GaAs monolithic high power amplifier at Ku band. The chip deliv...
The High Power Amplifier (HPA) is a key component for any modern Active Electronically Scanned Array...
TriQuint Semiconductor, Texas has developed a very reproducible, high yield, and high reliability, 0...