This work discusses MMICs for the realization of spaceborn multi-Gigabit satellite communication systems. A broadband low-noise amplifier, based on a 50 nm GaAs mHEMT technology, has been developed for Q-band low-noise receivers. The amplifier shows a small-signal gain of 27.5 dB with a gain flatness of ± 1.2 dB and a noise figure below 2 dB over the entire targeted frequency range between 30 and 50 GHz. For the next generation of E-band transmitter modules, a GaN-based highpower amplifier with a small-signal gain above 15 dB between 70-75 GHz and a saturated output power exceeding 28 dBm at 74 GHz has been developed
The present paper describes a set of GaAs MMIC developed by Alenia Aerospazio (ALS) in cooperation w...
The the design, realization and testing of a Q-band and a W-band LNA (Low Noise Amplifier) utilizing...
The fifth-generation (5G) radio access technology promises to revolutionise integrated earth-space c...
Designing wideband low noise amplifiers (LNAs) at millimeter wave frequencies (>30 GHz) is rather...
The technology, design procedure and measurements of an E-band (71-86 GHz) high performance gallium ...
A complete MMIC-based chipset for multi-Gigabit satellite communication links in the designated E-Ba...
A QV band receiver and converter unit, including a novel low noise MMIC amplifier at 50GHz, is being...
The present paper describe a number of GaAs MMIC developed by Alenia Aerospazio for Ka Band satellit...
This paper reports the design and experimental characterization of two Monolithic Microwave Integrat...
We demonstrated high power and low noise GaAs MMIC amplifiers for K- to Ka-band space equipment. For...
In this paper, the feasibility of a V-band MMIC chipset is tested by the design of a Low-Noise Ampli...
The present paper describes a set of GaAs MMIC developed by Alenia Aerospazio (ALS) in cooperation w...
The the design, realization and testing of a Q-band and a W-band LNA (Low Noise Amplifier) utilizing...
The fifth-generation (5G) radio access technology promises to revolutionise integrated earth-space c...
Designing wideband low noise amplifiers (LNAs) at millimeter wave frequencies (>30 GHz) is rather...
The technology, design procedure and measurements of an E-band (71-86 GHz) high performance gallium ...
A complete MMIC-based chipset for multi-Gigabit satellite communication links in the designated E-Ba...
A QV band receiver and converter unit, including a novel low noise MMIC amplifier at 50GHz, is being...
The present paper describe a number of GaAs MMIC developed by Alenia Aerospazio for Ka Band satellit...
This paper reports the design and experimental characterization of two Monolithic Microwave Integrat...
We demonstrated high power and low noise GaAs MMIC amplifiers for K- to Ka-band space equipment. For...
In this paper, the feasibility of a V-band MMIC chipset is tested by the design of a Low-Noise Ampli...
The present paper describes a set of GaAs MMIC developed by Alenia Aerospazio (ALS) in cooperation w...
The the design, realization and testing of a Q-band and a W-band LNA (Low Noise Amplifier) utilizing...
The fifth-generation (5G) radio access technology promises to revolutionise integrated earth-space c...