Abstract :
Phased array antennas, in both communications and radar systems, are increasingly being favoured over conventional mechanically-scanned systems. In their active form, particularly in military scenarios, the acronym AESA (active electronically-scanned arrays) is frequently encountered. By definition these types of antennas specifically demand a source (or sources) of microwave power. Today and forseeably into the future RF semiconductor power amplifiers (mainly MMICs) are implemented to supply the required power to each individual element in the active array. In this paper some examples of active phased arrays are reviewed-both existing and those under development. The paper presents and critiques the current state-of-the-art with suitable GaAs MMIC power amplifiers (power versus frequency, efficiency, suppliers, etc.). GaN and SiC MESFET devices and MMICs are also considered-again with references to power versus frequency, efficiency, suppliers, etc
Keywords :
MESFET integrated circuits; MMIC power amplifiers; active antenna arrays; antenna phased arrays; gallium arsenide; radar antennas; scanning antennas; silicon compounds; AESA; GaAs GaN; MESFET devices; MMIC power amplifier; RF semiconductor power amplifier; SiC; active electronically-scanned array; communication system; metal semiconductor field effect transistor; monolithic microwave integrated circuits; phased array antenna; radar system; semiconductor technology; Antenna arrays; Frequency; MMICs; Microwave antennas; Microwave communication; Phased arrays; Power amplifiers; Radar antennas; Radiofrequency amplifiers; Semiconductor optical amplifiers; GaAs; GaN; MMICs; Power amplifiers; SiC; phased-arrays; semiconductors;
