The present paper describes a set of GaAs MMIC developed by Alenia Aerospazio (ALS) in cooperation with United Monolithic Semiconductors (UMS) using a standard 0.25 PHEMT process. Low noise amplifiers, mixers and control functions have been implemented with excellent results, useful for all future implementations
The technology, design procedure and measurements of an E-band (71-86 GHz) high performance gallium ...
Traditionally a majority of the commercial satellite communications systems have been fixed repeater...
In this paper a new custom MMIC (Monolithic Microwave Integrated Circuit) design based on space-qual...
The present paper describe a number of GaAs MMIC developed by Alenia Aerospazio for Ka Band satellit...
This paper focuses on the development by Alenia Spazio of several GaAs MMICs and their application i...
This work discusses MMICs for the realization of spaceborn multi-Gigabit satellite communication sys...
GaAs MMICs has been developed for use in the Upconverter module for On-Board Switching Ka-band Satel...
Presently several european companies are developing GaAs based components for millimeterwave applica...
In this article, an X-band to Ka-band up-converter circuit designed for the transmitting chain of Sa...
We demonstrated high power and low noise GaAs MMIC amplifiers for K- to Ka-band space equipment. For...
Each year GaAs MMIC technology finds greater application in high volume, low-cost telecommunications...
This paper describes the design of a GaAs monolithic high power amplifier at Ku band. The chip deliv...
This paper presents the design and performance of a multi frequency generator MMIC to be used in tra...
Highly integrated, reliable microwave components are needed for small satellite applications. The Ga...
In this paper, the feasibility of a V-band MMIC chipset is tested by the design of a Low-Noise Ampli...
The technology, design procedure and measurements of an E-band (71-86 GHz) high performance gallium ...
Traditionally a majority of the commercial satellite communications systems have been fixed repeater...
In this paper a new custom MMIC (Monolithic Microwave Integrated Circuit) design based on space-qual...
The present paper describe a number of GaAs MMIC developed by Alenia Aerospazio for Ka Band satellit...
This paper focuses on the development by Alenia Spazio of several GaAs MMICs and their application i...
This work discusses MMICs for the realization of spaceborn multi-Gigabit satellite communication sys...
GaAs MMICs has been developed for use in the Upconverter module for On-Board Switching Ka-band Satel...
Presently several european companies are developing GaAs based components for millimeterwave applica...
In this article, an X-band to Ka-band up-converter circuit designed for the transmitting chain of Sa...
We demonstrated high power and low noise GaAs MMIC amplifiers for K- to Ka-band space equipment. For...
Each year GaAs MMIC technology finds greater application in high volume, low-cost telecommunications...
This paper describes the design of a GaAs monolithic high power amplifier at Ku band. The chip deliv...
This paper presents the design and performance of a multi frequency generator MMIC to be used in tra...
Highly integrated, reliable microwave components are needed for small satellite applications. The Ga...
In this paper, the feasibility of a V-band MMIC chipset is tested by the design of a Low-Noise Ampli...
The technology, design procedure and measurements of an E-band (71-86 GHz) high performance gallium ...
Traditionally a majority of the commercial satellite communications systems have been fixed repeater...
In this paper a new custom MMIC (Monolithic Microwave Integrated Circuit) design based on space-qual...
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