Title :
A Single-Waveguide In-Phase Power-Combined Frequency Doubler at 190 GHz
Author :
Siles, José V. ; Maestrini, Alain ; Alderman, Byron ; Davies, Steven ; Wang, Hui ; Treuttel, Jeanne ; Leclerc, Eric ; Närhi, Tapani ; Goldstein, Christophe
Author_Institution :
LERMA, Obs. de Paris, Paris, France
fDate :
6/1/2011 12:00:00 AM
Abstract :
This work represents the first demonstration of in-phase power-combined frequency multipliers above 100 GHz based on a dual-chip single-waveguide topology, which consists of two integrated circuits symmetrically placed along the E-plane of a single transmission waveguide. This strategy increases by a factor of 2 the maximum sustainable input power with regard to traditional waveguide multipliers. A biasless 190 GHz Schottky doubler based on this novel concept has been designed and tested with a 6-10% conversion efficiency measured across a 177-202 GHz band when driven with a 50-100 mW input power at 300 K.
Keywords :
frequency multipliers; network topology; waveguides; Schottky doubler; conversion efficiency; dual-chip single-waveguide topology; frequency 177 GHz to 202 GHz; frequency 190 GHz; in-phase power-combined frequency multipliers; integrated circuit; power 50 mW to 100 mW; single-waveguide in-phase power-combined frequency doubler; transmission waveguide; waveguide multipliers; Assembly; Fabrication; Frequency measurement; Loss measurement; MMICs; Power measurement; Schottky diodes; Frequency multiplier; local oscillator; planar Schottky diode; power-combining; submillimeter wavelengths;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2011.2134080