The interest for devices operating in the millimeter-wave (mmW) range (30-300 GHz) and submillimeter-wave (sub-mmW) range (above 300 GHz) is increasing due to the advantages they provide such as compactness, low weight, broad bandwidth, and the capability of these frequencies to penetrate dust, smog and adverse weather conditions. The availability of compact and broadband single-chip solid state power amplifiers (SSPAs) at sub-THz (0.1-1 THz) frequencies can have a decisive impact in many applications including: instrumentation, high-resolution imaging radar and high-data rate communication. Significant improvements in high-speed transistor technologies have enabled the realization of SSPAs in the sub-THz regime. One of them is the GaAs met...
The application of stacked-FETs in power amplifiers allows for a supply voltage higher than supporte...
This research focuses on the analysis and design of stacked-FET power amplifiers for millimeter-wave...
A metamorphic high electron mobility transistor (mHEMT) technology with 20 nm gate length for manufa...
The interest for devices operating in the millimeter-wave range (30-300 GHz) and submillimeter-wave ...
This paper reports on the first stacked field-effect transistor (stacked-FET) submillimeter-wave mon...
In this article, we report on compact solid-state power amplifier (SSPA) millimeter-wave monolithic ...
In this paper, we present the development of submillimeter-wave monolithic integrated circuits (S-MM...
A stacked high-electron mobility transistor (HEMT) power amplifier (PA) has been designed and implem...
This paper reports on a broadband high-power amplifier (HPA) millimeter-wave integrated circuit (MMI...
This work discusses the design of a 3-stacked GaAs HEMT test cell at 10 GHz. The series stacked topo...
In the present work, broadband millimeter wave (mmW) receiver and transmitter circuits for wireless ...
We present an overview of solid-state integrated circuit amplifiers approaching terahertz frequencie...
Metamorphic high electron mobility transistor (mHEMT) technologies with 50 and 35 nm gate length wer...
In this paper, we are presenting two terahertz monolithic integrated circuits (TMICs) for use in nex...
In this paper a design approach for compact power amplifier cells at frequencies around and above 30...
The application of stacked-FETs in power amplifiers allows for a supply voltage higher than supporte...
This research focuses on the analysis and design of stacked-FET power amplifiers for millimeter-wave...
A metamorphic high electron mobility transistor (mHEMT) technology with 20 nm gate length for manufa...
The interest for devices operating in the millimeter-wave range (30-300 GHz) and submillimeter-wave ...
This paper reports on the first stacked field-effect transistor (stacked-FET) submillimeter-wave mon...
In this article, we report on compact solid-state power amplifier (SSPA) millimeter-wave monolithic ...
In this paper, we present the development of submillimeter-wave monolithic integrated circuits (S-MM...
A stacked high-electron mobility transistor (HEMT) power amplifier (PA) has been designed and implem...
This paper reports on a broadband high-power amplifier (HPA) millimeter-wave integrated circuit (MMI...
This work discusses the design of a 3-stacked GaAs HEMT test cell at 10 GHz. The series stacked topo...
In the present work, broadband millimeter wave (mmW) receiver and transmitter circuits for wireless ...
We present an overview of solid-state integrated circuit amplifiers approaching terahertz frequencie...
Metamorphic high electron mobility transistor (mHEMT) technologies with 50 and 35 nm gate length wer...
In this paper, we are presenting two terahertz monolithic integrated circuits (TMICs) for use in nex...
In this paper a design approach for compact power amplifier cells at frequencies around and above 30...
The application of stacked-FETs in power amplifiers allows for a supply voltage higher than supporte...
This research focuses on the analysis and design of stacked-FET power amplifiers for millimeter-wave...
A metamorphic high electron mobility transistor (mHEMT) technology with 20 nm gate length for manufa...