Add to ORKGThis thesis focuses on design and characterization of low-noise millimeter-wave devices and circuits, especially for radiometers. In addition, a millimeter-wave imaging system based on a radiometer is presented. The thesis is based on seven scientific articles and an overview of the research area including a summary of the main results of the work. An automated measurement system for wideband on-wafer noise parameter determination of transistors has been developed for 50-75 GHz. The system can be utilized to develop and verify noise models of integrated transistors regardless the manufacturing technology. Noise parameters of a passive and an active circuit are presented. Noise parameters Fmin = 2.65 dB, rn = 0.25, and Γopt = 0.57∠121° have ...
A millimeter-wave monolithic integrated circuit consisting of a W-band (75-100 GHz) single-pole-five...
A wide-band on-wafer noise parameter measurement system at 50-75 GHz is presented. This measurement ...
A WR-3 (220- 330 GHz) low-noise amplifier (LNA) circuit has been developed for use in next-generatio...
This thesis focuses on design and characterization of low-noise millimeter-wave devices and circuits...
This thesis focuses on design and characterization of low-noise millimeter-wave devices and circuits...
For radiometric application in the frequency range around 325 GHz, two low noise amplifier millimete...
Technology for millimetre wave radiometers is discussed. Distinction between coherent and incoherent...
In recent years, advancement in the field of monolithic millimeter-wave integrated circuit (MMIC) te...
For application in radiometry or noise measurement systems, an integrated active hot-cold load (AHCL...
The thesis presents wide-band built-in self-test circuits (BIST) for phased array systems and high p...
Several current and planned scientific, commercial, and military applications require millimetre wav...
The FP7 Research for SME project IMAGINE - a low cost, high performance monolithic passive mm-wave i...
An active cold load (ACL) and an active hot load (AHL) circuit were developed in W-band (75 - 110 GH...
The FP7 Research for SME project IMAGINE - a low cost, high performance monolithic passive mm-wave i...
The focus of this thesis is on the development of on-wafer measurement techniques for millimeter wav...
A millimeter-wave monolithic integrated circuit consisting of a W-band (75-100 GHz) single-pole-five...
A wide-band on-wafer noise parameter measurement system at 50-75 GHz is presented. This measurement ...
A WR-3 (220- 330 GHz) low-noise amplifier (LNA) circuit has been developed for use in next-generatio...
This thesis focuses on design and characterization of low-noise millimeter-wave devices and circuits...
This thesis focuses on design and characterization of low-noise millimeter-wave devices and circuits...
For radiometric application in the frequency range around 325 GHz, two low noise amplifier millimete...
Technology for millimetre wave radiometers is discussed. Distinction between coherent and incoherent...
In recent years, advancement in the field of monolithic millimeter-wave integrated circuit (MMIC) te...
For application in radiometry or noise measurement systems, an integrated active hot-cold load (AHCL...
The thesis presents wide-band built-in self-test circuits (BIST) for phased array systems and high p...
Several current and planned scientific, commercial, and military applications require millimetre wav...
The FP7 Research for SME project IMAGINE - a low cost, high performance monolithic passive mm-wave i...
An active cold load (ACL) and an active hot load (AHL) circuit were developed in W-band (75 - 110 GH...
The FP7 Research for SME project IMAGINE - a low cost, high performance monolithic passive mm-wave i...
The focus of this thesis is on the development of on-wafer measurement techniques for millimeter wav...
A millimeter-wave monolithic integrated circuit consisting of a W-band (75-100 GHz) single-pole-five...
A wide-band on-wafer noise parameter measurement system at 50-75 GHz is presented. This measurement ...
A WR-3 (220- 330 GHz) low-noise amplifier (LNA) circuit has been developed for use in next-generatio...