Title :
A Novel 94-GHz MHEMT Resistive Mixer Using a Micromachined Ring Coupler
Author :
An, Dan ; Kim, Sung-Chan ; Park, Jung-Dong ; Lee, Mun-Kyo ; Park, Hyun-Chang ; Kim, Sam-Dong ; Kim, Wan-Joo ; Rhee, Jin-Koo
Author_Institution :
Dongguk Univ., Seoul
Abstract :
In this letter, we present a high performance 94-GHz millimeter-wave monolithic integrated circuit resistive mixer using a 70-nm metamorphic high electron mobility transistor (MHEMT) and micromachined ring coupler. A novel three-dimensional structure of a resistive mixer was proposed in this work, and the ring coupler with the surface micromachined dielectric-supported air-gap microstrip line structure was used for high local oscillator/radio frequency (LO-RF) isolation. Also, the LO-RF isolation was optimized through the simulation. The fabricated mixer has excellent LO-RF isolation, greater than 29 dB, in 2-GHz bandwidth of 93-95GHz. The good conversion loss of 8.9dB was measured at 94GHz. To our knowledge, compared to previously reported W-band mixers, the proposed MHEMT-based resistive mixer using a micromachined ring coupler has shown superior LO-RF isolation and conversion loss
Keywords :
HEMT integrated circuits; MMIC mixers; microstrip couplers; millimetre wave couplers; waveguide couplers; 2 GHz; 3D resistive mixer; 70 nm; 8.9 dB; 93 to 95 GHz; 94 GHz; MHEMT resistive mixer; W-band mixers; conversion loss; local oscillator/radiofrequency isolation; metamorphic high electron mobility transistor; micromachined ring coupler; microstrip line; millimeter-wave monolithic integrated circuit resistive mixer; Air gaps; Coupling circuits; Dielectrics; HEMTs; Local oscillators; MIMICs; MODFETs; Microstrip; Mixers; mHEMTs; Local oscillator/radio frequency (LO–RF) isolation; metamorphic HEMT (MHEMT); micromachined ring coupler; resistive mixer;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2006.879482
