Add to ORKGA DC-18 GHz MMIC tapered power distributed amplifier has been designed and simulated in GaAs technology. The amplifier has been designed according to the theory for power and efficiency maximization based on tapered drain lines. Small- and large-signal simulations have been carried out to evaluate the amplifier’s behaviour. Results suggest that it is possible to achieve a good performance in terms of output power and efficiency for a wide bandwidth.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech
Two monolithic matrix amplifiers for ECM and ESM military equipment have been designed and realized ...
An MMIC distributed amplifier with dual band frequency response and diplexing functionality is desig...
This study presents a 2–20 GHz monolithic distributed power amplifier (DPA) using a 0.25 μm AlGaN/Ga...
A DC-18 GHz MMIC tapered power distributed amplifier has been designed and simulated in GaAs technol...
A 2-18 GHz MMIC power amplifier has been simulated in GaAs technology, based on a non-uniform distri...
International audienceA suitable and efficient design method of distributed power amplifiers, based ...
International audienceA suitable large signal design method of distributed power amplifiers, based o...
International audienceA suitable and effective design method of distributed power amplifiers, based ...
This paper proposes a design of 0.15μm Monolithic Microwave Integrated Circuit (MMIC) power amplifie...
This paper reports on two wide bandwidth monolithic power amplifiers suitable for electronic warfare...
A distributed amplifier is an amplifier in which a signal is amplified in parallel by a number of tr...
This paper presents a simple design technique for differential amplifiers working at frequencies abo...
Two 4.5-18 GHz MMIC amplifiers have been designed and fully tested. They have been fabricated using ...
The bandwidth of the input artificial line in a distributed amplifier is the main band limiting fact...
A three stages GaAs MMIC power amplifier in MESFET Technology for point to point radio application t...
Two monolithic matrix amplifiers for ECM and ESM military equipment have been designed and realized ...
An MMIC distributed amplifier with dual band frequency response and diplexing functionality is desig...
This study presents a 2–20 GHz monolithic distributed power amplifier (DPA) using a 0.25 μm AlGaN/Ga...
A DC-18 GHz MMIC tapered power distributed amplifier has been designed and simulated in GaAs technol...
A 2-18 GHz MMIC power amplifier has been simulated in GaAs technology, based on a non-uniform distri...
International audienceA suitable and efficient design method of distributed power amplifiers, based ...
International audienceA suitable large signal design method of distributed power amplifiers, based o...
International audienceA suitable and effective design method of distributed power amplifiers, based ...
This paper proposes a design of 0.15μm Monolithic Microwave Integrated Circuit (MMIC) power amplifie...
This paper reports on two wide bandwidth monolithic power amplifiers suitable for electronic warfare...
A distributed amplifier is an amplifier in which a signal is amplified in parallel by a number of tr...
This paper presents a simple design technique for differential amplifiers working at frequencies abo...
Two 4.5-18 GHz MMIC amplifiers have been designed and fully tested. They have been fabricated using ...
The bandwidth of the input artificial line in a distributed amplifier is the main band limiting fact...
A three stages GaAs MMIC power amplifier in MESFET Technology for point to point radio application t...
Two monolithic matrix amplifiers for ECM and ESM military equipment have been designed and realized ...
An MMIC distributed amplifier with dual band frequency response and diplexing functionality is desig...
This study presents a 2–20 GHz monolithic distributed power amplifier (DPA) using a 0.25 μm AlGaN/Ga...