EUMA

24787 documents

Microwave Components with MEMS Switches

James H. Schaffner, Robert Y. Loo, Clifton Quan, Robert C. Allison, Brian M. Pierce

Microwave Components with MEMS Switches James H. Schaffner, Robert Y. Loo, Clifton Quan, Robert C. Allison, Brian M. Pierce, Stanley W. Livingston, Adele E. Schmitz, Tsung-Yuan Hsu, Daniel F. Sievenpiper, Frank A. Dolezal, Gregory, L. Tangonan HRL Laboratories, LLC, Malibu, California, USA, Raytheon Systems Company, El Segundo, California, USA jhschaffner-HRL.com Abstract � RF MEMS switches with

Favorite

2000

Wide Band Series Switch Fabricated Using Metal As Sacrificial layer

Yongming Cai and Linda P.B. Katehi

Wide Band Series Switch Fabricated Using Metal As Sacrificial layer Yongming Cai and Linda P.B. Katehi Radiation Laboratory, Department of Electrical Engineering and Computer Science University of Michigan, Ann Arbor, MI 48109,USA ycai-eecs.umich.edu, katehi-engin.umich.edu Abstract -- Series switches with metal-to-metal contact have been fabricated to operate from dc to 40 GHz. The insertion los

Favorite

2000

Microtechnologies for the monolithic fabrication of mm and submm non linear devices

P. Mounaix, S. Arscott, T. David, F. Podevin, X. M�lique and D. Lippens

Microtechnologies for the monolithic fabrication of mm and submm non linear devices P. Mounaix, S. Arscott, T. David, F. Podevin, X. M�lique and D. Lippens Institut d'Electronique et de Micro�lectronique du Nord Universit� des Sciences et Technologies de Lille Avenue Poincar�, BP 69, 59652 Villeneuve d'Ascq Cedex, France Corresponding author: Patrick.Mounaix-IEMN.univ-Lille1.fr Abstract: We repor

Favorite

2000

Microwave Absor tive MEMS Switches

Guan-Leng Tan and Gabriel M. Rebeiz

Microwave Absorptive MEMS Switches Guan-Leng Tan and Gabriel M. Rebeiz The Radiation Laboratory, EECS Department, The University of Michigan, 1301 Beal Ave., Ann Arbor, MI 48109-2122, USA Phone: +1-734-936-0183 Fax: +1-734-647-2106 gtan-umich.edu, rebeiz-umich.edu Abstract - This paper describes the design and performance of a 30 GHz CPW SPST absorptive MEMS switch based on silicon surface microm

Favorite

2000

Design of X-Ban MEMS Microstrip Shunt Switches

Jad B. Rizk, Jeremy B. Muldavin, Guan-Leng Tan, and Gabriel M. Rebeiz,

Design of X-Band MEMS Microstrip Shunt Switches Jad B. Rizk, Student Member IEEE, Jeremy B. Muldavin, Student Member IEEE, Guan-Leng Tan, Student Member IEEE and Gabriel M. Rebeiz, Fellow IEEE Radiation Laboratory, Department of Electrical Engineering and Computer Science, University of Michigan, Ann Arbor, Michigan, 48109-2122, USA. jrizk-engin.umich.edu, muldavin-engin.umich.edu, gtan-engin.umi

Favorite

2000

A Cost-Effecti e Recei er-Module with Built-in Patch Antenna for Millimeter-Wa e Wireless Systems

Yasutake Hirachi , Hiroshi Nakano and Akihito Kato

A Cost-Effective Receiver-Module with Built-in Patch Antenna for Millimeter-Wave Wireless Systems Yasutake Hirachi , Hiroshi Nakano and Akihito Kato* Fujitsu Quantum Devices LTD., Communications Research Lab.* Hachioji Daiichi-Seimei Bldg.. 11 F, 3-20-6 Myojin-cho, Hachioji-shi, Tokyo 192-0046, Japan Phone : + 81-426-48-5793, Fax : +81-426-48-5872 , E-mail : hirati-to.fqd.fujitsu.co.jp Abstract -

Favorite

2000

Fully MMIC-Based Front End for FMCW Automotive Radar at 77GHz

M. Camiade, D. Domnesque, Z. Ouarch, A. Sion

Fully MMIC-Based Front End for FMCW Automotive Radar at 77GHz M. Camiade, D. Domnesque, Z. Ouarch, A. Sion United Monolithic Semiconductors, RD128, BP46, 91401 ORSAY, Cedex, France camiade-ums-gaas.com domnesque-ums-gaas.com ouarch-ums-gaas.com sion-ums-gaas.com Abstract - This paper gives the last UMS developments in the field of automotive radar at 77GHz. A complete front-end based on four MMIC

Favorite

2000

Design and Fabrication of 77GHz HEMT Mixer Modules using Experimentally Optimized Antipodal Finline Transitions

Dong-Wook Kim, Seung-Won Paek, Jae-Hak Lee, Kye-Ik Jeon, Chae-Rok Lim, Young-Woo Kwon, Ki-Woong Chung

Design and Fabrication of 77GHz HEMT Mixer Modules using Experimentally Optimized Antipodal Finline Transitions Dong-Wook Kim, Seung-Won Paek, Jae-Hak Lee, Kye-Ik Jeon, Chae-Rok Lim, Young-Woo Kwon*, Ki-Woong Chung RF Device Team, LG Corporate Institute of Technology(LG-CIT) 16 Woomyeon-Dong, Seocho-Gu, Seoul 137-724, Korea * School of Electrical Engineering, Seoul National University San 56-1 Sh

Favorite

2000

Noise and Intermodulation Properties of Tunable Recursive Active MMIC Filters for Future Adaptive On-chip Radar Receivers

Robert Malmqvist, Andreas Gustafsson, Magnus Danestig, Aziz Ouacha, Sven Hagelin, and Staffan Rudner

Noise and Intermodulation Properties of Tunable Recursive Active MMIC Filters for Future Adaptive On-chip Radar Receivers Robert Malmqvist, Andreas Gustafsson, Magnus Danestig*, Aziz Ouacha, Sven Hagelin, and Staffan Rudner FOA Defense Research Establishment, Link�ping, Sweden, rma-lin.foa.se andreasg-lin.foa.se magnus.danestig-acreo.se aziz-lin.foa.se svehag-lin.foa.se starud-lin.foa.se Abstract

Favorite

2000

Modelling Soliton Pulses in Nonlinear Transmission Lines for Millimeter Wave Generation

Ferran Mart�n

Modelling Soliton Pulses in Nonlinear Transmission Lines for Millimeter Wave Generation Ferran Mart�n Departament d'Enginyeria Electr�nica. Universitat Aut�noma de Barcelona 08193 BELLATERRA (Barcelona). Spain. E-mail: fmartin-cc.uab.es Abstract -A model to study soliton wave propagation in non-linear transmission lines (NLTLs) has been proposed. This model allows to analyse the dependence of sol

Favorite

2000

0 document

Knowledge Centre

MISSION

VALUES