Add to ORKGAbstract—We propose a balanced frequency tripler scheme for millimeter-wave and submillimeter-wave application, in which double-sided suspended stripline is adopted. Two arms of Schottky diodes are mounted on the upper side of the substrate, and the other two arms of diodes are mounted on the lower side. The diodes are DC biased without bypass chip capacitor, which is essential in the common used balanced tripler scheme. Furthermore, the numbers of the diodes are doubled as there are only two arms of diodes in the common balanced tripler scheme, and this will double the power handling capability of the tripler. A W-band frequency tripler is designed according to the proposed scheme with commercial Schottky Varistors. The output power is fro...
Abstract—Design and optimization of Schottky varactor diode frequency multipliers for millimeter and...
Considerable success has recently been gained in the design and production of high powered frequency...
The design and performance of a 0.9 THz to 2.7 THz waveguide tripler are presented. An unusual split...
The development of a millimeter-wave unbalanced frequency tripler based on the nonlinear characteris...
We report on the design methodology of a fix-tuned split-block waveguide balanced frequency tripler ...
Abstract—We report on the design and performance of a broad-band, high-power 540–640-GHz fix-tuned b...
Abstract — A fix-tuned 1.9 THz frequency tripler utilizing membrane based GaAs Schottky diodes has b...
Abstract — The design of membrane-based Schottky planar diode frequency triplers to 1.9 THz is discu...
This paper reports on the recent development of monolithic frequency tripler array employing a back-...
Abstract — Design and test data for a full waveguide band MMIC tripler using anti-parallel Schottky...
International audienceWe report on the design, fabrication and characterization of a 300 GHz Schottk...
A broadband planar Schottky balanced doubler at 800 GHz has been designed and built. The design util...
Design and test data for a full waveguide band MMIC tripler using anti-parallel Schottky diodes are ...
International audienceWe report the fabrication of GaAs Schottky diodes to be integrated in a 75/150...
This paper describes the design and demonstration of a 135−190 GHz self-biased broadband frequ...
Abstract—Design and optimization of Schottky varactor diode frequency multipliers for millimeter and...
Considerable success has recently been gained in the design and production of high powered frequency...
The design and performance of a 0.9 THz to 2.7 THz waveguide tripler are presented. An unusual split...
The development of a millimeter-wave unbalanced frequency tripler based on the nonlinear characteris...
We report on the design methodology of a fix-tuned split-block waveguide balanced frequency tripler ...
Abstract—We report on the design and performance of a broad-band, high-power 540–640-GHz fix-tuned b...
Abstract — A fix-tuned 1.9 THz frequency tripler utilizing membrane based GaAs Schottky diodes has b...
Abstract — The design of membrane-based Schottky planar diode frequency triplers to 1.9 THz is discu...
This paper reports on the recent development of monolithic frequency tripler array employing a back-...
Abstract — Design and test data for a full waveguide band MMIC tripler using anti-parallel Schottky...
International audienceWe report on the design, fabrication and characterization of a 300 GHz Schottk...
A broadband planar Schottky balanced doubler at 800 GHz has been designed and built. The design util...
Design and test data for a full waveguide band MMIC tripler using anti-parallel Schottky diodes are ...
International audienceWe report the fabrication of GaAs Schottky diodes to be integrated in a 75/150...
This paper describes the design and demonstration of a 135−190 GHz self-biased broadband frequ...
Abstract—Design and optimization of Schottky varactor diode frequency multipliers for millimeter and...
Considerable success has recently been gained in the design and production of high powered frequency...
The design and performance of a 0.9 THz to 2.7 THz waveguide tripler are presented. An unusual split...