Title :
Quantum MMIC: future and applications in RF circuits
Author :
El-Zein, Nada ; Deshpande, Mandar ; Kramer, Gary ; Lewis, Jonathan ; Nair, Vijay ; Kyler, Marilyn ; Goronkin, Herb
Author_Institution :
Phys. Sci. Res. Labs., Motorola Inc., Tempe, AZ, USA
Abstract :
A new technology namely Quantum-MMIC (QMMIC) is presented. This technology uses the unique property of negative differential resistance (NDR) present in tunneling diodes. Tunnel diodes have shown great potential for power generation at high frequencies. In our case, heterostructure interband tunnel diodes (HITDs) are integrated with heterostructure FETs (HFETs) to produce a 3-terminal device (HITFET) with highly nonlinear current-voltage characteristics. The HITFET can potentially replace one or more conventional FETs and reduce the number of passive elements. Therefore, the HITFET allows the design of new and improved MMICs with reduced complexity and size. Several digital circuits have been demonstrated and many microwave ICs have been proposed. In this paper we will present data showing integrated QMMIC-VCOs and QMMIC-amplifier results. We also present the data for highly integrated QMMIC circuits such as mixers and receivers
Keywords :
MMIC amplifiers; MMIC mixers; MMIC oscillators; field effect MMIC; microwave receivers; negative resistance circuits; tunnel diodes; HITFET; MMIC amplifier; QMMIC; VCOs; heterostructure FETs; heterostructure interband tunnel diodes; highly nonlinear current-voltage characteristics; mixers; negative differential resistance; quantum MMIC; receivers; three-terminal device; Current-voltage characteristics; Diodes; FETs; HEMTs; Integrated circuit technology; MMICs; MODFETs; Power generation; Radio frequency; Tunneling;
Conference_Titel :
Electronics, Circuits and Systems, 2000. ICECS 2000. The 7th IEEE International Conference on
Conference_Location :
Jounieh
Print_ISBN :
0-7803-6542-9
DOI :
10.1109/ICECS.2000.911483
