ACTIVE 2-TERMINAL DEVICES AS LOCAL OSCILLATORS FOR LOW-NOISE RECEIVERSYSTEMS AT SUBMILLIMETER-WAVE FREQUENCIES

The power capabilities of three different two-terminal devices, GaAs I MPATT diodes, InP Gunn devices and GaAs TUNNETT diodes are evaluated. Two different selective etching technologies have been employed to fab ricate devices on either a diamond heat sink or an integral heat sink. The reported RF power revels in fundamental mode are 20 mW at 120 GHz and 15 mW at 135 GHz for D-band GaAs IMPATT diodes, 21 mW at 120 GHz, 17 mW at 133 GHz and 8 mW at 155 GHz for D-band InP Gunn devices and up to 35 mW around 103 GHz for W-band GaAs TUNNETT diodes. Typical dc to RF conversion efficiencies range from 0.9% up to over 4.0%. In seco nd harmonic mode power levels of 0.25 mW at 223 GHz were measured from TUNNETT diodes and 0.4 mW at 220 GHz from a Gunn device.