Title :
Fabrication and performance of InP-based heterostructure barrier varactors in a 250-GHz waveguide tripler
Author :
Mélique, Xavier ; Maestrini, Alain ; Farré, Robert ; Mounaix, Patrick ; Favreau, Michel ; Vanbésien, Olivier ; Goutoule, Jean-Marc ; Mollot, Francis ; Beaudin, Gérard ; Närhi, Tapani ; Lippens, Didier
Author_Institution :
Univ. des Sci. et Tech. de Lille Flandres Artois, Villeneuve d´´Ascq, France
fDate :
6/1/2000 12:00:00 AM
Abstract :
High-performance InGaAs-InAlAs-AlAs heterostructure barrier varactors (HBV´s) have been designed, fabricated, and RF tested in a 250-GHz tripler block. The devices with two barriers stacked on the same epitaxy are planar integrated with coaxial-, coplanar-, and strip-type configurations. They exhibit state-of-the-art capacitance voltage characteristics with a zero-bias capacitance C30 of 1 fF/μm2 and a capacitance ratio of 6:1. Experiments in a waveguide tripler mount show a 9.8-dBm (9.55-mW) output power for 10.7% conversion efficiency at 247.5 GHz. This is the highest output power and efficiency reported from an HBV device at J-band (220-325 GHz)
Keywords :
III-V semiconductors; coplanar waveguide components; frequency multipliers; indium compounds; millimetre wave diodes; millimetre wave frequency convertors; strip line components; varactors; waveguide components; 10.7 percent; 250 GHz; 9.55 mW; C-V characteristics; EHF; InP; InP-InGaAs-InAlAs-AlAs; InP-based heterostructure barrier varactors; J-band; MM-wave frequency multiplier; capacitance-voltage characteristics; coaxial-type configuration; coplanar-type configuration; planar integrated devices; strip-type configuration; waveguide tripler; Capacitance; Coaxial components; Laboratories; Millimeter wave technology; Optical device fabrication; Power generation; Radio frequency; Space technology; Testing; Varactors;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
