In this paper, the advances of the silicon-based millimeter-wave (MMW) monolithic integrated circuits (MMICs) are reported. The silicon-based technologies for MMW MMICs are briefly introduced. In addition, the current status of the MMW MMICs is surveyed and novel circuit topologies are summarized. Some representative MMW MMICs are illustrated as design examples in the categories of their functions in a MMW system. Finally, there is a conclusion and description of the future trend of the development of the MMW ICs
Millimeter-waves offer promising opportunities and interesting challenges to silicon integrated circ...
Metamorphic high electron mobility transistor (mHEMT) technologies with 100, 50, and 35 nm gate leng...
Despite the advantages of coplanar waveguide technology for high performance and low cost MMIC appli...
In this paper, the advances of the silicon-based millimeter-wave (MMW) monolithic integrated circuit...
Abstract- Millimeter-waves integrated circuits offer a unique opportunity for a holistic design appr...
[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...
During the last years, the Fraunhofer IAF developed a variety of state-of-the-art millimeter-wave mo...
Materials suitable for use as monolithic substrates are summarized. A study of the properties of sil...
An important goal of microwave research has now been attained with the development of the technologi...
There has been increased interest in exploring high frequency (mm-wave) spectrum (particularly the 3...
This paper describes some of the special requirements for the design of monolithic millimetre-wave i...
As device technology improves, interest in the millimeter-wave band grows. Wireless communication s...
In this thesis several passive and active MMIC structures are designed, fabricated and tested in ord...
For the next generation of sensors and communication systems operating at frequencies up to 600 GHz ...
The presentation gives an overview of recent results upon a broad range of monolithic integrated cir...
Millimeter-waves offer promising opportunities and interesting challenges to silicon integrated circ...
Metamorphic high electron mobility transistor (mHEMT) technologies with 100, 50, and 35 nm gate leng...
Despite the advantages of coplanar waveguide technology for high performance and low cost MMIC appli...
In this paper, the advances of the silicon-based millimeter-wave (MMW) monolithic integrated circuit...
Abstract- Millimeter-waves integrated circuits offer a unique opportunity for a holistic design appr...
[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...
During the last years, the Fraunhofer IAF developed a variety of state-of-the-art millimeter-wave mo...
Materials suitable for use as monolithic substrates are summarized. A study of the properties of sil...
An important goal of microwave research has now been attained with the development of the technologi...
There has been increased interest in exploring high frequency (mm-wave) spectrum (particularly the 3...
This paper describes some of the special requirements for the design of monolithic millimetre-wave i...
As device technology improves, interest in the millimeter-wave band grows. Wireless communication s...
In this thesis several passive and active MMIC structures are designed, fabricated and tested in ord...
For the next generation of sensors and communication systems operating at frequencies up to 600 GHz ...
The presentation gives an overview of recent results upon a broad range of monolithic integrated cir...
Millimeter-waves offer promising opportunities and interesting challenges to silicon integrated circ...
Metamorphic high electron mobility transistor (mHEMT) technologies with 100, 50, and 35 nm gate leng...
Despite the advantages of coplanar waveguide technology for high performance and low cost MMIC appli...