A Ku band four-stage PHEMT 1W MMIC power amplifier

The successful development of a new four-stage 1-W AlGaAs/InGaAs/GaAs PHEMT MMIC with a temperature-compensating GaAs feedback resistor is reported. It was found that we can signifi-cantly reduce the gain variation in the temperature range between Ϫ40 and 80°C from 7 dB to less than 3 dB by using th

## Abstract In this paper, a Ka‐Band 24‐dBm AlGaAs/InGaAs/GaAs PHEMT MMIC power amplifier is demonstrated. This three‐stage amplifier is designed to fully match for 50Ω input and output impedances. With 4 V and 250‐mA DC bias, we achieve 15‐dB small‐signal gain, 24 dBm P~−1dB~, 24.3% PAE, and bette

## Abstract A fully matched Ka‐band wideband pseudomorphic high‐electron‐mobility transistor (PHEMT) 1‐W monolithic millimeter‐wave integrated circuit (MMIC) high‐power amplifier (HPA) without any external circuit is developed. The two‐stage HPAs are prepared on 2‐mil GaAs substrates with a small c

## Abstract A Ku‐band power amplifier MMIC has been developed using 0.25‐μm GaAs pHEMT technology. To achieve small chip size and simple drain‐bias connection, a bus‐bar power combiner is used. Also, balanced‐power amplifier topology is used to obtain good input/output return losses. The small‐sign

## Abstract This paper presents a compact X‐band, 9 W AlGaAs/InGaAs/GaAs PHEMT MMIC high power amplifier. This amplifier is designed to fully match a 50 Ω input and output impedance. Based on 0.35 μm gate‐length power PHEMT technology, a two‐stage power amplifier is fabricated on a 3‐mil thick wafe

Power splitting and combining circuits with asymmetric structure characterized by unequal linewidths of split lines and a splitting point shifted from the center have been developed. Amplitude and phase splitting characteristics comparable to those of conventional splitting circuits have been achiev