Title :
A novel biased anti-parallel Schottky diode structure for subharmonic mixing
Author :
Trong-Huang Lee ; Chen-Yu Chi ; East, J.R. ; Rebeiz, G.M. ; Haddad, G.I.
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
Abstract :
Subharmonically pumped mixers using zero-biased anti-parallel Schottky diode pairs produce good results, but require a larger LO power than biased Schottky diodes. Presented here is a novel planar-diode anti-parallel pair that allows independent biasing of the two diodes. This diode pair is integrated into a quasi-optical wideband receiver and the RF measurements on a 1.2-μm anode diameter pair show a reduced LO power requirement at 180 GHz by a factor of 2 to 3 with a similar DSB conversion loss and noise temperature (9.7 dB and 1850 K) to an unbiased Schottky diode pair. This structure has potential for applications at submillimeter-wave frequencies where a large amount of LO power is not easily available.
Keywords :
Schottky-barrier diodes; microwave integrated circuits; mixers (circuits); solid-state microwave devices; submillimetre wave devices; 1.2 micron; 180 GHz; 9.7 dB; DSB conversion loss; EHF; MM-wave operation; biased anti-parallel Schottky diode structure; independent biasing; millimetre-wave frequencies; planar-diode anti-parallel pair; quasi-optical wideband receiver; subharmonic mixing; subharmonically pumped mixers; submillimeter-wave frequencies; Anodes; Arm; Capacitors; Gallium arsenide; Local oscillators; Log periodic antennas; Radio frequency; Schottky diodes; Space technology; USA Councils;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
