Showing 1 - 8 of 8
Defense Applications for RF MEMS Capacitive Switches
Brandon Pillans, Raytheon
RF-MEMS Large Signal Dynamic Multi-Physics Modeling and Design for Reliability
Jeroen Bielen, Epcos Netherlands
Tunable RF Modules for Mobile Applications
Art Morris, WispryDevelopment of High MEMS Tunable Filters
Matthieu Chatras, XLIM - CNRS - Universite de LimogesRealization and Design of High Q Tunable Filters
Raafat Mansour, University of WaterlooOverview of Steady-State Stability Concepts and Analysis for Microwave Circuits & Systems
Christopher P. Silva, Aerospace Corporation, USABifurcation Analysis and Control in Nonlinear Microwave Circuits
Almudena Suarez, University of Cantabria, SpainExpanding the Capabilities of Pole-Zero Identification Techniques for Stability Analysis
Juan Mari Collantes, University of the Basque Country, SpainStability Analysis at System Level
Vitorio Rizzoli, University of Bologna, ItalyStability Issues in the Design of High Power Amplifiers and Oscillators
Raymond Quere, University of Limoges - CNRS, FranceTheory and Applications of Strong Parametric Excitation
Robert Melville, New Jersey Institute of Technology, USAVolterra Series-Based Digital Predistorter Design
Anding Zhu, University College, DublinTechniques for Envelope Tracking Linearization
Paul Draxler, Qualcomm, Inc. & University of California, San Diego
Crest Factor Reduction (CFR) of Wideband Wireless Multi-Access Signals
R. Neil Braithwaite, Powerwave TechnologiesAdvanced Memory Polynomial Linearization Techniques
Slim Boumaiza, University of WaterlooFeedforward Amplification in Wireless Systems: Still the Gold Standard
Bill Vassilakis, Powerwave TechnologiesLinearization using Controlled Harmonic Injection
Gayle Collins, Freescale SemiconductorDirect Digital Predistortion at Radio Frequency via Real-Time Feedback
David Kelly, Pulsewave RFImproved EW Functionality as Provided by Large Bandwidth Digital Receivers
Andrea De Martino, Elettronica S.p.A., ItalyDigital Receivers for Commercial Applications
Geoff Dawe, Bitwave, USAPhase Noise, Jitter, Stability and SNR: Navigating the Lexicon and How to Relate Hardware Measurements to System Performance
John Kedziora, Kedziora Innovation Group, USAWideband Receiver with Wideband Track and Hold
Mike Groden, LNX Corporation, USAAdvanced Device and Integrated Circuit Technologies for Digital Receivers
Mark Rosker, DARPA, USADigital Compensation of Nonlinear and Mismatch Errors in Wideband RF Receivers
Gil Raz, GMR Research & Technology, USAApplications of Multichannel DSP-Based Receivers
Fred Harris, San Diego State University, USASC3 - Part 1
Shahin Farahani, Freescale Semiconductor, Tempe, AZSC3 - Part 2
Shahin Farahani, Freescale Semiconductor, Tempe, AZGaN HEMT Technical Status: Transistors and MMICs for Military and Commercial Systems
Ray Pengelly, Cree Inc. Research Triangle Park, NCStatus of GaN-on-Silicon for Military and Commercial Communications Systems
Kevin Linthicum, Nitronex Corporation, Durham, NC USAAdvanced Large-Signal Modeling of GaN Power Devices, Electrical, Thermal and Distributed Effects
R. H. Jansen, RWTH Aachen UniversityGaN Technology for Future Mobile Radio Communication from a System Supplier's Perspective
Patrick Juschke, Alcatel-Lucent Bell Labs Radio CommunicationsUsing GaN Technology in Military Systems
Patrick Schuh, EADS Defense Electronics, Ulm, GermanyAffordability of Gallium Nitride Technology
Colin S. Whelan, Raytheon Company, Andover, MAStatus of GaN HEMT Technology for mmW Applications
Ben Heying, Ioulia Smorchkova, Pin-Pin Huang, Wen-Ben Luo, Vincent Gambin, Yaochung Chen, John Chen, Ben Poust, Roger Tsai, Carol Namba, Po-Hsin Liu, Randy Sandhu, William Sutton, Mike Barsky, Aaron Oki; Northrop GrummanPanel Discussion
WMF Panel DiscussionA 45/46/34% PAE Linear Polar Transmitter for EDGE/WCDMA/Mobile-WiMax
J. Choi, D. Kim, D. Kang, M. Jun, B. Jin, J. Park, B. Kim, Pohang University of Science and Technology, Pohang, Republic of KoreaHigh Efficiency Dual-mode RF Transmitter Using Envelope-tracking Dual-band Class-E Power Amplifier for W-CDMA/WiMAX Systems
C. Chen[1], C. Li[1], T. Horng[1], J. Jau[2], J. Li[2], [1]National Sun Yat-sen University, Kaohsiung, Taiwan, [2]Industrial and Technology Research Institute, Hsinchu, TaiwanInput Power Dividing of Doherty Power Amplifiers for Handset Applications
D. Kang[1], J. Choi[1], D. Yu[2], K. Min[2], M. Jun[1], D. Kim[1], J. Park[1], B. Jin[1], B. Kim[1], [1]Postech, Pohang, Democratic People's Republic of Korea, [2]WIPAM, Seongnam, Democratic People's Republic of KoreaSequential Power Amplifiers with Adaptable Combiners
T. Lehmann, R. Knoechel, Institute of Electrical and Information Engineering, University of Kiel, Kiel, GermanyA 33-dBm 1.9-GHz Silicon-on-Insulator CMOS Stacked-FET Power Amplifier
S. Pornpromlikit[1], J. Jeong[2], C. D. Presti[1], A. Scuderi[3], P. M. Asbeck[1], [1]University of California, San Diego, La Jolla, United States, [2]Kwangwoon University, Seoul, Republic of Korea, [3]STMicroelectronics s.r.l., Catania, Italy60GHz CMOS Power Amplifier with 20-dB-Gain and 12dBm Psat
D. Dawn, S. Sarkar, P. Sen, B. Perumana, M. Leung, N. Mallavarpu, S. Pinel, J. Laskar, Georgia Institute of Technology, Atlanta, United StatesA 33pJ/bit 90nm CMOS UWB Single-Chip Transceiver with Embedded Multi-Gigabit Modem
E. Juntunen, D. Yeh, A. Rachamadugu, F. Barale, B. Perumana, K. Chuang, P. Sen, S. Sarkar, S. Pinel, J. Laskar, Georgia Institute of Technology, Atlanta, United States60 GHz UWB-over-Fiber System for In-flight Communications
M. Beltran, R. Llorente, R. Sambaraju, J. Marti, Universidad Politecnica de Valencia, Valencia, SpainWave-Radio Interferometer Transceiver for UWB
M. S. AlJerjawi, C. Nerguizian, R. G. Bosisio, Y. Xu, C. Caloz, K. Wu, Ecole Polytechnique de Montreal (CREER Research Center), Montreal, CanadaA Phased-Array Radar Transmitter based on 77-GHz Cascadable Transceivers
C. Wagner[1], A. Stelzer[1], H. Jaeger[2], [1]University of Linz, Linz, Austria, [2]DICE, Linz, AustriaADS-B Based Collision Avoidance Radar for Unmanned Aerial Vehicles
C. Lai, Y. Ren, C. Lin, Intelligent Automation Inc, Rockville, United StatesA Digital Array Radar with a Hierarchical System Architecture
C. J. Fulton, P. G. Clough, W. J. Chappell, Purdue University, West Lafayette, United StatesTwisted Waveguides for Particle Accelerator Applications
J. L. Wilson[1], Y. W. Kang[2], A. E. Fathy[1], [1]University of Tennessee, Knoxville, Knoxville, United States, [2]Oak Ridge National Laboratory, Oak Ridge, United StatesFinite Element Analysis of a Balanced Microstrip Line Filled with Nematic Liquid Crystal
R. James, F. Fernandez, S. E. Day, University College London, London, United KingdomSlotline Operating within a Wide Frequency Band: Excitation of Waves by a Real Source
V. Kotlan[1], J. Machac[1], F. Mesa[2], [1]Czech Technical University in Prague, Prague 6, Czech Republic, [2]University of Seville, Sevilla, SpainA Method to Realize Epsilon-Near-Zero-Like Materials for Waveguide Discontinuities
M. Kashanianfard, O. M. Ramahi, University of Waterloo, Waterloo, CanadaExperimental Validation of a Plasma Model for Electromagnetic Metal Foam Shields
G. Monti, L. Catarinucci, L. Tarricone, University of Salento, Lecce, ItalyThree-Dimensional Isotropic Scalar Metamaterial with Drude Dispersion for the Permittivity and Permeability
M. Zedler[1], G. V. Eleftheriades[1], P. Russer[2], [1]University of Toronto, Toronto, Canada, [2]Munich University of Technology, Munchen, GermanyMultibasis Method for SIE Solution
J. D. Brunett, V. V. Liepa, University of Michigan, Ann Arbor, United StatesElectromagnetic Scattering from Chiral Objects Using Double-Grid Finite-Difference Frequency-Domain (DG-FDFD) Method
E. Alkan[1], V. Demir[2], A. Z. Elsherbeni[3], E. Arvas[1], [1]Syracuse University, Syracuse, United States, [2]Northern Illinois University, DeKalb, United States, [3]The University of Mississippi, University, United StatesA Direct Finite-Element-Based Solver of Significantly Reduced Complexity for Solving Large-Scale Electromagnetic Problems
H. Liu, D. Jiao, Purdue University, West Lafayette, United StatesFrom O(k^2N) to O(N): A Fast Complex-Valued Eigenvalue Solver For Large-Scale On-Chip Interconnect Analysis
J. Lee, V. Balakrishnan, C. Koh, D. Jiao, Purdue University, West Lafayette, United StatesMulti-Layered Four-Way Out-of-Phase Power Divider for Substrate Integrated Waveguide Applications
D. Eom, J. Byun, D. Kim, H. Lee, Ajou University, Suwon, Republic of KoreaCompact Dual Band Three Way Bagley Polygon Power Divider Using Composite Right/Left Handed (CRLH) Transmission Lines
D. E. Senior, Y. Yoon, University at Buffalo, The State University of New York, Buffalo, United StatesCompact Multi-Way Power Dividers for Dual-Band, Wide-Band and Easy Fabrication
I. Sakagami[1], T. Wuren[2], [1]University of Toyama, Toyama, Japan, [2]Toyohashi University of Technology, Toyohashi, JapanNew Technique for the Design of Ultra-Broadband Power Dividers based on Tapered Lines
B. Mencia-Oliva, A. M. Pelaez-Perez, P. Almorox-Gonzalez, J. I. Alonso, Universidad Politecnica de Madrid, Madrid, SpainDesign of Reduced Size Power Divider for Lower RF Band using Periodically Loaded Slow Wave Structure
K. Rawat, F. Ghannouchi, University of Calgary, Calgary, CanadaA Compact Coupled-Line Forward Coupler using Composite Right-/Left-Handed Transmission Lines
A. Hirota, Y. Tahara, N. Yoneda, Mitsubishi Electric Corp., 5-1-1 Ofuna, Kamakura, JapanStepped Impedance Microstrip Couplers with Improved Directivity
J. Muller, C. Friesicke, A. F. Jacob, Technische Universitat Hamburg-Harburg, Hamburg-Harburg, GermanyDual-band Rat Race Hybrid Coupler Implemented Through Artificial Lines Based on Complementary Split Ring Resonators
G. Siso, J. Bonache, F. Martin, Universitat Autonoma de Barcelona, Bellaterra, SpainNew Miniaturized Dual-Band Rat-Race Coupler With Microwave C-Sections
Y. Chiou, J. Kuo, C. Chan, National Chiao Tung University, Hsinchu, TaiwanMiniaturized Hybrid Ring Circuits Using T-Type Folded Substrate Integrated Waveguide (TFSIW)
Y. Ding, K. Wu, Ecole Polytechnique of Montreal, Montreal, CanadaMiniaturized Rat-Race Coupler with Bandpass Response and Good Stopband Rejection
W. Wang, T. Shen, T. Huang, R. Wu, National Taiwan University, Taipei, TaiwanA Laminated Waveguide Magic-T in Multilayer LTCC
T. Shen, T. Huang, R. Wu, National Taiwan University, Taipei, TaiwanDual-Band Branch-Line Balun for Millimeter-Wave Applications
H. Zhang, H. Xin, University of Arizona, Tucson, United StatesMiniaturized Carbon Nanotube-Based RF Resonator
M. A. EL Sabbagh, S. M. El-Ghazaly, University of Arkansas, Fayetteville, United StatesRigorous Investigation of RF Breakdown Effects in High Power Microstrip Passive Circuits
F. J. Perez Soler, S. Anza Hormigo, M. Mattes, C. M. Espana, F. D. Quesada Pereira, M. Jimenez Nogales, J. Gil Raga, C. Vicente Quiles, J. R. Mosig, D. Raboso Garcia-Baquero, V. E. Boria Esbert, B. Gimeno Martinez, A. Alvarez MelconA Time-varying Matching Scheme for Pulse-based High-Q Receivers
X. Wang[1], L. P. Katehi[2], D. Peroulis[1], [1]Purdue University, West Lafayette, United States, [2]University of Illinois at Urbana-Champaign, Champaign, United StatesA 24 GHz CMOS Miniaturized Phase-Invertible Variable Attenuator Incorporating Edge-Coupled Synthetic Transmission Lines
C. Wang, H. Wu, C. C. Tzuang, National Taiwan University, Taipei, TaiwanSubstrate Integrated Waveguide (SIW) Broadband Compensating Phase Shifter
Y. Cheng[1], K. Wu[2], W. Hong[1], [1]State Key Laboratory of Millimeter Waves, Nanjing, China, [2]Poly-Grames Research Center, Montreal, CanadaWideband Medium Power Amplifiers Using a Short Gate-Length GaAs MMIC Process
M. Morgan[1], E. Bryerton[1], H. Karimy[2], D. Dugas[2], L. Gunter[2], K. Duh[2], X. Yang[2], P. Smith[2], P. Chao[2], [1]National Radio Astronomy Observatory, Charlottesville, United States, [2]BAE Systems, Nashua, United StatesCompact Low-Cost 1-Watt and 4-Watt Quad Flat Non-Leaded (QFN) Packaged Ka-Band High Power Amplifiers
Y. Suh, S. Chen, TriQuint Semiconductor, Richardson, United StatesAnalysis of Output Power Variation under Mismatched Antenna Load in Power Amplifier FEM with Directional Coupler
X. Mu, Z. Alon, G. Zhang, S. Chang, Skyworks Solutions Inc, Newbury Park, United StatesAn Efficient, Linear, Broadband Class-J-Mode PA Realised Using RF Waveform Engineering
P. Wright, J. Lees, P. J. Tasker, J. Benedikt, S. C. Cripps, Cardiff University, Cardiff, United KingdomA Compact 12-Watt High-Efficiency 2.1-2.7 GHz Class-E GaN HEMT Power Amplifier for Base Stations
M. P. van der Heijden, M. Acar, J. S. Vromans, NXP Semiconductors, Eindhoven, NetherlandsDesign of Highly-Efficient GaN X-Band-Power-Amplifier MMICs
J. Kuhn[1], F. van Raay[1], R. Quay[1], R. Kiefer[1], T. Maier[1], R. Stibal[1], M. Mikulla[1], M. Seelmann-Eggebert[1], W. Bronner[1], M. Schlechtweg[1], O. Ambacher[1], M. Thumm[2], [1]Fraunhofer Inst Applied Solid-State Physics, Freiburg, Germany, [2]Univ of Karlsruhe, Karlsruhe, GermanyA 76 GHz GaN-on-Silicon Power Amplifier for Automotive Radar Systems
S. Yoshida, M. Tanomura, Y. Murase, K. Yamanoguchi, K. Ota, K. Matsunaga, H. Shimawaki, NEC Corporation, Ohtsu, JapanHF Outphasing Transmitter Using Class-E Power Amplifiers
R. A. Beltran Lizarraga[1], F. H. Raab[2], A. Velazquez Ventura[1], [1]CICESE Research Center, Ensenada, Mexico, [2]Green Mountain Radio Research, Colchester, United StatesBroadband GaN Switch Mode Class E Power Amplifier for UHF Applications
A. Al Tanany, A. Sayed, G. Boeck, Berlin Institute of Technology, Berlin, GermanyPhase Controlled Class E Amplifiers for Pulsing Applications
A. Eroglu[1], S. Sivakumar[2], [1]Indiana University - Purdue University, Fort Wayne, United States, [2]MKS Instruments, Rochester, United StatesA Linear GaN UHF SSPA with Record High Efficiency
A. Katz[1], B. Eggleston[2], D. McGee[2], [1]The College of New Jersey, Ewing, United States, [2]Linearizer Technology, Inc., Hamilton, United StatesA 3 mW V-Band Divide-by-2 and W-Band Divide-by-4 Wide Locking Range Frequency Dividers in 90-nm CMOS
C. Chen[1], H. Wang[1], H. Tsao[1], C. Wang[2], [1]National Taiwan University, Taipei, Taiwan, [2]MediaTek, Hsin-Chu, TaiwanA Miniature DC-70 GHz SP4T Switch in 0.13-um CMOS
B. Cetinoneri, Y. A. Atesal, G. M. Rebeiz, University of California, San Diego, La Jolla, United StatesApplication of Class-F Techniques to the Design of Efficient Frequency Multipliers
Y. Park, C. Lee, Hankuk Univ. of Foreign Studies, Yongin, Republic of KoreaBroadband CMOS Gilbert Down-Converter Utilizing a Low-Loss Step-Impedance Rat-Race Coupler
H. Wei, C. Meng, S. Yu, National Chiao Tung University , Hsinchu, TaiwanA Capacitively-Loaded MEMS Slot Element for Wireless Temperature Sensing of up to 300C
S. Scott, D. Peroulis, Purdue University, West Lafayette, United StatesA Novel RF Sensing Circuit Using Injection Locking and Frequency Demodulation for Cognitive Radio Applications
C. Li[1], F. Wang[1], W. Yen[1], T. Horng[1], K. Peng[2], [1]National Sun Yat-Sen University, Kaohsiung, Taiwan, [2]National Kaohsiung First University of Science and Technology, Kaohsiung, TaiwanMicrowave Acoustic Sensors as an Efficient Means to Monitor Water Infrastructures
D. Trinchero, A. Galardini, B. Fiorelli, R. Stefanelli, Politecnico di Torino, Torino, ItalyAerosol Particle Sensor Based on Millimeter Wave Coherent Radar with High Spatial Resolution
A. Teplyuk[1], R. Knoechel[1], G. Khlopov[2], [1]Kiel University, Kiel, Germany, [2]Insitute of RadioPhysics&Electronics, Kharkov, UkraineUltra low phase noise 2,1 GHz Colpitts oscillators using BAW resonator
H. El Aabbaoui, E. DeFoucauld, P. Vincent, Cea, Grenoble, FranceSupply Voltage Switching Dual-Band SiGe HBT VCOs Using a Dual-Band Resonator with Inductor-Loaded Varactor Diodes
Y. Itoh, H. Hasegawa, M. Shirata, K. Sakamoto, Shonan Institute of Technology, Fujisawa, JapanA K-Band CMOS Low Power Modified Colpitts VCO Using Transformer Feedback
C. Hsieh, K. Kao, J. Tseng, K. Lin, National Taiwan University, Taipei, TaiwanThe History of the Microwave Oven: A Critical Review
J. M. Osepchuk, Full Spectrum Consulting, Concord, United StatesBoston Radar History - From $10,000 Magee to $10 Single Chip T/R Module...Better Than Fiction
E. Brookner, Raytheon Company, Sudbury, United StatesSolid State Phased Array Radars a History at Raytheon
D. G. Laighton, Raytheon IDS/RF Components, Andover, United StatesMMIC Pioneers: A Historical Review of MMIC Development at Raytheon
N. J. Kolias, Raytheon Company, Andover, United StatesAdvanced Heterogeneous Integration of InP HBT and CMOS Si Technologies for High Performance MIxed Signal Applications
A. Gutierrez-Aitken, P. Chang-Chien, W. Phan, D. Scott, B. Oyama, R. Sandhu, J. Zhou, P. Nam, K. Hennig, M. Parlee, B. Poust, K. Thai, C. Geiger, A. Oki, R. Kagiwada, Northrop Grumman Space Technology, Redondo Beach, United StatesHigh Performance Differential Amplifier Through the Direct Monolithic Integration of InP HBTs and Si CMOS on Silicon Substrates
T. E. Kazior[1], J. R. LaRoche[1], D. Loubychev[2], J. Fastenau[2], W. K. Liu[2], M. Urteaga[3], W. Ha[3], J. Bergman[3], M. J. Choe[3], M. T. Bulsara[4], E. A. Fitzgerald[4], D. Smith[5], D. Clark[5], R. Thompson[5], C. Drazek[6], N. Daval[6], L. Benaissa[7], E. Augendre[7], [1]Raytheon, Andover, United States, [2]IQE, Bethlehem, United States, [3]Teledyne, Thousand Oaks, United States, [4]MIT, Cambridge, United States, [5]Raytheon, Glenrothes, United Kingdom, [6]SOITEC, Bernin, France, [7]LETI, Grenoble, FranceOn-Wafer Integration of Nitrides and Si Devices: Bringing the Power of Polarization to Si
T. Palacios, J. W. Chung, B. Lu, Massachusetts Institute of Technology, Cambridge, United StatesMEMS Varactor Enabled Frequency-Reconfigurable LNA and PA in the Upper UHF Band
A. Jajoo, L. Wang, T. Mukherjee, Carnegie Mellon University, Pittsburgh, United States60-GHz Electrically Reconfigurable Reflectarray Using PIN Diode
H. Kamoda, T. Iwasaki, J. Tsumochi, T. Kuki, Japan Broadcasting Corporation, Tokyo, JapanDesign and Experimental Verification of Steerable Reflect-Arrays Based on Two-Bit Antenna-Filter-Antenna Elements
C. Cheng, A. Aabbaspour-Tamijani, Arizona State University, Tempe, United StatesDirective Surface-Wave Launchers and Application to Planar Quasi-Optical Power Combining using a Metallic Grating Lens
S. K. Podilchak[1], A. P. Freundorfer[2], Y. M. Antar[1], [1]Royal Military College of Canada, Kingston, Canada, [2]Queen's University, Kingston, CanadaA 60 GHz Rotman Lens on a Silicon Wafer for System-on-a-Chip and System-in-Package Applications
W. Lee[1], J. Kim[1], C. Cho[2], Y. Yoon[1], [1]Yonsei University, Seoul, Republic of Korea, [2]Korea Aerospace University, Seoul, Republic of KoreaMultiple Interrogation of Phase-Conjugating Arrays
T. F. Chun, M. K. Watanabe, A. Zamora, J. M. Akagi, W. A. Shiroma, University of Hawaii, Honolulu, United StatesA 70 kHz-70 GHz VNA Automatic Calibration Approach with Improved Performance
J. Martens, D. Judge, A. Feldman*, Anritsu Company, Morgan Hill, United StatesMeasurement of Ultra Low Passive Intermodulation with Ability to Separate Current/Voltage Induced Nonlinearities
A. Christianson, W. J. Chappell, Purdue University, West Lafayette, United StatesHigh-Power Reflection Coefficient Measurement of Biological Material Applicable to Microwave Hyperthermia
N. Kim[1], J. Yoon[1], C. Cheon[2], Y. Kwon[1], [1]Seoul National University, Seoul, Republic of Korea, [2]University of Seoul, Seoul, Republic of KoreaCircuital Analysis of a Coaxial Re-entrant Cavity for Performing Dielectric Measurement
F. L. Penaranda-Foix[1], M. D. Janezic[2], J. M. Catala-Civera[1], A. J. Canos-Marin[1], [1]UPV, Valenica, Spain, [2]NIST, Boulder, United StatesThe Development of a MEMS Six-Port Reflectometer Calibration Standard
T. J. Reck, R. M. Weikle, N. S. Barker, University of Virginia, Charlottesville, United StatesA System Level Design Approach to UWB Localization
M. Kuhn[1], C. Zhang[2], S. Lin[2], M. Mahfouz[1], A. E. Fathy[2], [1]University of Tennessee, Knoxville, United States, [2]University of Tennessee, Knoxville, United StatesReal-Time Noncoherent UWB Positioning Radar with Millimeter Range Accuracy in a 3D Indoor Environment
C. Zhang[1], M. Kuhn[2], A. Fathy[1], M. Mahfouz[2], [1]University of Tennessee, Knoxville, United States, [2]University of Tennessee, Knoxville, United States3D Positioning using Spherical Location Algorithms for Networked Wireless Sensors Deployed in Grain
G. Parkinson[1], M. Boon[1], J. Davis[2], R. Sloan[1], [1]University of Manchester, Manchester, United Kingdom, [2]BAE Systems (Military Air Solutions), Preston, United KingdomManaging Power Density of High-Power GaN Devices
Rudiger Quay, Fraunhofer Institute of Applied Solid-State Physics
SC3 - Part 1
Shahin Farahani, Freescale Semiconductor, Tempe, AZSC3 - Part 2
Shahin Farahani, Freescale Semiconductor, Tempe, AZ
Defense Applications for RF MEMS Capacitive Switches
Brandon Pillans, Raytheon
RF-MEMS Large Signal Dynamic Multi-Physics Modeling and Design for Reliability
Jeroen Bielen, Epcos Netherlands
Tunable RF Modules for Mobile Applications
Art Morris, WispryDevelopment of High MEMS Tunable Filters
Matthieu Chatras, XLIM - CNRS - Universite de LimogesRealization and Design of High Q Tunable Filters
Raafat Mansour, University of Waterloo
Volterra Series-Based Digital Predistorter Design
Anding Zhu, University College, DublinTechniques for Envelope Tracking Linearization
Paul Draxler, Qualcomm, Inc. & University of California, San Diego
Crest Factor Reduction (CFR) of Wideband Wireless Multi-Access Signals
R. Neil Braithwaite, Powerwave TechnologiesAdvanced Memory Polynomial Linearization Techniques
Slim Boumaiza, University of WaterlooFeedforward Amplification in Wireless Systems: Still the Gold Standard
Bill Vassilakis, Powerwave TechnologiesLinearization using Controlled Harmonic Injection
Gayle Collins, Freescale SemiconductorDirect Digital Predistortion at Radio Frequency via Real-Time Feedback
David Kelly, Pulsewave RF
Improved EW Functionality as Provided by Large Bandwidth Digital Receivers
Andrea De Martino, Elettronica S.p.A., ItalyDigital Receivers for Commercial Applications
Geoff Dawe, Bitwave, USAPhase Noise, Jitter, Stability and SNR: Navigating the Lexicon and How to Relate Hardware Measurements to System Performance
John Kedziora, Kedziora Innovation Group, USAWideband Receiver with Wideband Track and Hold
Mike Groden, LNX Corporation, USAAdvanced Device and Integrated Circuit Technologies for Digital Receivers
Mark Rosker, DARPA, USADigital Compensation of Nonlinear and Mismatch Errors in Wideband RF Receivers
Gil Raz, GMR Research & Technology, USAApplications of Multichannel DSP-Based Receivers
Fred Harris, San Diego State University, USA
IMS 2009: Select Technical Paper Sessions
[83 Videos ]
A 45/46/34% PAE Linear Polar Transmitter for EDGE/WCDMA/Mobile-WiMax
J. Choi, D. Kim, D. Kang, M. Jun, B. Jin, J. Park, B. Kim, Pohang University of Science and Technology, Pohang, Republic of KoreaHigh Efficiency Dual-mode RF Transmitter Using Envelope-tracking Dual-band Class-E Power Amplifier for W-CDMA/WiMAX Systems
C. Chen[1], C. Li[1], T. Horng[1], J. Jau[2], J. Li[2], [1]National Sun Yat-sen University, Kaohsiung, Taiwan, [2]Industrial and Technology Research Institute, Hsinchu, TaiwanInput Power Dividing of Doherty Power Amplifiers for Handset Applications
D. Kang[1], J. Choi[1], D. Yu[2], K. Min[2], M. Jun[1], D. Kim[1], J. Park[1], B. Jin[1], B. Kim[1], [1]Postech, Pohang, Democratic People's Republic of Korea, [2]WIPAM, Seongnam, Democratic People's Republic of KoreaSequential Power Amplifiers with Adaptable Combiners
T. Lehmann, R. Knoechel, Institute of Electrical and Information Engineering, University of Kiel, Kiel, GermanyA 33-dBm 1.9-GHz Silicon-on-Insulator CMOS Stacked-FET Power Amplifier
S. Pornpromlikit[1], J. Jeong[2], C. D. Presti[1], A. Scuderi[3], P. M. Asbeck[1], [1]University of California, San Diego, La Jolla, United States, [2]Kwangwoon University, Seoul, Republic of Korea, [3]STMicroelectronics s.r.l., Catania, Italy60GHz CMOS Power Amplifier with 20-dB-Gain and 12dBm Psat
D. Dawn, S. Sarkar, P. Sen, B. Perumana, M. Leung, N. Mallavarpu, S. Pinel, J. Laskar, Georgia Institute of Technology, Atlanta, United StatesA 33pJ/bit 90nm CMOS UWB Single-Chip Transceiver with Embedded Multi-Gigabit Modem
E. Juntunen, D. Yeh, A. Rachamadugu, F. Barale, B. Perumana, K. Chuang, P. Sen, S. Sarkar, S. Pinel, J. Laskar, Georgia Institute of Technology, Atlanta, United States60 GHz UWB-over-Fiber System for In-flight Communications
M. Beltran, R. Llorente, R. Sambaraju, J. Marti, Universidad Politecnica de Valencia, Valencia, SpainWave-Radio Interferometer Transceiver for UWB
M. S. AlJerjawi, C. Nerguizian, R. G. Bosisio, Y. Xu, C. Caloz, K. Wu, Ecole Polytechnique de Montreal (CREER Research Center), Montreal, CanadaA Phased-Array Radar Transmitter based on 77-GHz Cascadable Transceivers
C. Wagner[1], A. Stelzer[1], H. Jaeger[2], [1]University of Linz, Linz, Austria, [2]DICE, Linz, AustriaADS-B Based Collision Avoidance Radar for Unmanned Aerial Vehicles
C. Lai, Y. Ren, C. Lin, Intelligent Automation Inc, Rockville, United StatesA Digital Array Radar with a Hierarchical System Architecture
C. J. Fulton, P. G. Clough, W. J. Chappell, Purdue University, West Lafayette, United StatesTwisted Waveguides for Particle Accelerator Applications
J. L. Wilson[1], Y. W. Kang[2], A. E. Fathy[1], [1]University of Tennessee, Knoxville, Knoxville, United States, [2]Oak Ridge National Laboratory, Oak Ridge, United StatesFinite Element Analysis of a Balanced Microstrip Line Filled with Nematic Liquid Crystal
R. James, F. Fernandez, S. E. Day, University College London, London, United KingdomSlotline Operating within a Wide Frequency Band: Excitation of Waves by a Real Source
V. Kotlan[1], J. Machac[1], F. Mesa[2], [1]Czech Technical University in Prague, Prague 6, Czech Republic, [2]University of Seville, Sevilla, SpainA Method to Realize Epsilon-Near-Zero-Like Materials for Waveguide Discontinuities
M. Kashanianfard, O. M. Ramahi, University of Waterloo, Waterloo, CanadaExperimental Validation of a Plasma Model for Electromagnetic Metal Foam Shields
G. Monti, L. Catarinucci, L. Tarricone, University of Salento, Lecce, ItalyThree-Dimensional Isotropic Scalar Metamaterial with Drude Dispersion for the Permittivity and Permeability
M. Zedler[1], G. V. Eleftheriades[1], P. Russer[2], [1]University of Toronto, Toronto, Canada, [2]Munich University of Technology, Munchen, GermanyMultibasis Method for SIE Solution
J. D. Brunett, V. V. Liepa, University of Michigan, Ann Arbor, United StatesElectromagnetic Scattering from Chiral Objects Using Double-Grid Finite-Difference Frequency-Domain (DG-FDFD) Method
E. Alkan[1], V. Demir[2], A. Z. Elsherbeni[3], E. Arvas[1], [1]Syracuse University, Syracuse, United States, [2]Northern Illinois University, DeKalb, United States, [3]The University of Mississippi, University, United StatesA Direct Finite-Element-Based Solver of Significantly Reduced Complexity for Solving Large-Scale Electromagnetic Problems
H. Liu, D. Jiao, Purdue University, West Lafayette, United StatesFrom O(k^2N) to O(N): A Fast Complex-Valued Eigenvalue Solver For Large-Scale On-Chip Interconnect Analysis
J. Lee, V. Balakrishnan, C. Koh, D. Jiao, Purdue University, West Lafayette, United StatesMulti-Layered Four-Way Out-of-Phase Power Divider for Substrate Integrated Waveguide Applications
D. Eom, J. Byun, D. Kim, H. Lee, Ajou University, Suwon, Republic of KoreaCompact Dual Band Three Way Bagley Polygon Power Divider Using Composite Right/Left Handed (CRLH) Transmission Lines
D. E. Senior, Y. Yoon, University at Buffalo, The State University of New York, Buffalo, United StatesCompact Multi-Way Power Dividers for Dual-Band, Wide-Band and Easy Fabrication
I. Sakagami[1], T. Wuren[2], [1]University of Toyama, Toyama, Japan, [2]Toyohashi University of Technology, Toyohashi, JapanNew Technique for the Design of Ultra-Broadband Power Dividers based on Tapered Lines
B. Mencia-Oliva, A. M. Pelaez-Perez, P. Almorox-Gonzalez, J. I. Alonso, Universidad Politecnica de Madrid, Madrid, SpainDesign of Reduced Size Power Divider for Lower RF Band using Periodically Loaded Slow Wave Structure
K. Rawat, F. Ghannouchi, University of Calgary, Calgary, CanadaA Compact Coupled-Line Forward Coupler using Composite Right-/Left-Handed Transmission Lines
A. Hirota, Y. Tahara, N. Yoneda, Mitsubishi Electric Corp., 5-1-1 Ofuna, Kamakura, JapanStepped Impedance Microstrip Couplers with Improved Directivity
J. Muller, C. Friesicke, A. F. Jacob, Technische Universitat Hamburg-Harburg, Hamburg-Harburg, GermanyDual-band Rat Race Hybrid Coupler Implemented Through Artificial Lines Based on Complementary Split Ring Resonators
G. Siso, J. Bonache, F. Martin, Universitat Autonoma de Barcelona, Bellaterra, SpainNew Miniaturized Dual-Band Rat-Race Coupler With Microwave C-Sections
Y. Chiou, J. Kuo, C. Chan, National Chiao Tung University, Hsinchu, TaiwanMiniaturized Hybrid Ring Circuits Using T-Type Folded Substrate Integrated Waveguide (TFSIW)
Y. Ding, K. Wu, Ecole Polytechnique of Montreal, Montreal, CanadaMiniaturized Rat-Race Coupler with Bandpass Response and Good Stopband Rejection
W. Wang, T. Shen, T. Huang, R. Wu, National Taiwan University, Taipei, TaiwanA Laminated Waveguide Magic-T in Multilayer LTCC
T. Shen, T. Huang, R. Wu, National Taiwan University, Taipei, TaiwanDual-Band Branch-Line Balun for Millimeter-Wave Applications
H. Zhang, H. Xin, University of Arizona, Tucson, United StatesMiniaturized Carbon Nanotube-Based RF Resonator
M. A. EL Sabbagh, S. M. El-Ghazaly, University of Arkansas, Fayetteville, United StatesRigorous Investigation of RF Breakdown Effects in High Power Microstrip Passive Circuits
F. J. Perez Soler, S. Anza Hormigo, M. Mattes, C. M. Espana, F. D. Quesada Pereira, M. Jimenez Nogales, J. Gil Raga, C. Vicente Quiles, J. R. Mosig, D. Raboso Garcia-Baquero, V. E. Boria Esbert, B. Gimeno Martinez, A. Alvarez MelconA Time-varying Matching Scheme for Pulse-based High-Q Receivers
X. Wang[1], L. P. Katehi[2], D. Peroulis[1], [1]Purdue University, West Lafayette, United States, [2]University of Illinois at Urbana-Champaign, Champaign, United StatesA 24 GHz CMOS Miniaturized Phase-Invertible Variable Attenuator Incorporating Edge-Coupled Synthetic Transmission Lines
C. Wang, H. Wu, C. C. Tzuang, National Taiwan University, Taipei, TaiwanSubstrate Integrated Waveguide (SIW) Broadband Compensating Phase Shifter
Y. Cheng[1], K. Wu[2], W. Hong[1], [1]State Key Laboratory of Millimeter Waves, Nanjing, China, [2]Poly-Grames Research Center, Montreal, CanadaWideband Medium Power Amplifiers Using a Short Gate-Length GaAs MMIC Process
M. Morgan[1], E. Bryerton[1], H. Karimy[2], D. Dugas[2], L. Gunter[2], K. Duh[2], X. Yang[2], P. Smith[2], P. Chao[2], [1]National Radio Astronomy Observatory, Charlottesville, United States, [2]BAE Systems, Nashua, United StatesCompact Low-Cost 1-Watt and 4-Watt Quad Flat Non-Leaded (QFN) Packaged Ka-Band High Power Amplifiers
Y. Suh, S. Chen, TriQuint Semiconductor, Richardson, United StatesAnalysis of Output Power Variation under Mismatched Antenna Load in Power Amplifier FEM with Directional Coupler
X. Mu, Z. Alon, G. Zhang, S. Chang, Skyworks Solutions Inc, Newbury Park, United StatesAn Efficient, Linear, Broadband Class-J-Mode PA Realised Using RF Waveform Engineering
P. Wright, J. Lees, P. J. Tasker, J. Benedikt, S. C. Cripps, Cardiff University, Cardiff, United KingdomA Compact 12-Watt High-Efficiency 2.1-2.7 GHz Class-E GaN HEMT Power Amplifier for Base Stations
M. P. van der Heijden, M. Acar, J. S. Vromans, NXP Semiconductors, Eindhoven, NetherlandsDesign of Highly-Efficient GaN X-Band-Power-Amplifier MMICs
J. Kuhn[1], F. van Raay[1], R. Quay[1], R. Kiefer[1], T. Maier[1], R. Stibal[1], M. Mikulla[1], M. Seelmann-Eggebert[1], W. Bronner[1], M. Schlechtweg[1], O. Ambacher[1], M. Thumm[2], [1]Fraunhofer Inst Applied Solid-State Physics, Freiburg, Germany, [2]Univ of Karlsruhe, Karlsruhe, GermanyA 76 GHz GaN-on-Silicon Power Amplifier for Automotive Radar Systems
S. Yoshida, M. Tanomura, Y. Murase, K. Yamanoguchi, K. Ota, K. Matsunaga, H. Shimawaki, NEC Corporation, Ohtsu, JapanHF Outphasing Transmitter Using Class-E Power Amplifiers
R. A. Beltran Lizarraga[1], F. H. Raab[2], A. Velazquez Ventura[1], [1]CICESE Research Center, Ensenada, Mexico, [2]Green Mountain Radio Research, Colchester, United StatesBroadband GaN Switch Mode Class E Power Amplifier for UHF Applications
A. Al Tanany, A. Sayed, G. Boeck, Berlin Institute of Technology, Berlin, GermanyPhase Controlled Class E Amplifiers for Pulsing Applications
A. Eroglu[1], S. Sivakumar[2], [1]Indiana University - Purdue University, Fort Wayne, United States, [2]MKS Instruments, Rochester, United StatesA Linear GaN UHF SSPA with Record High Efficiency
A. Katz[1], B. Eggleston[2], D. McGee[2], [1]The College of New Jersey, Ewing, United States, [2]Linearizer Technology, Inc., Hamilton, United StatesA 3 mW V-Band Divide-by-2 and W-Band Divide-by-4 Wide Locking Range Frequency Dividers in 90-nm CMOS
C. Chen[1], H. Wang[1], H. Tsao[1], C. Wang[2], [1]National Taiwan University, Taipei, Taiwan, [2]MediaTek, Hsin-Chu, TaiwanA Miniature DC-70 GHz SP4T Switch in 0.13-um CMOS
B. Cetinoneri, Y. A. Atesal, G. M. Rebeiz, University of California, San Diego, La Jolla, United StatesApplication of Class-F Techniques to the Design of Efficient Frequency Multipliers
Y. Park, C. Lee, Hankuk Univ. of Foreign Studies, Yongin, Republic of KoreaBroadband CMOS Gilbert Down-Converter Utilizing a Low-Loss Step-Impedance Rat-Race Coupler
H. Wei, C. Meng, S. Yu, National Chiao Tung University , Hsinchu, TaiwanA Capacitively-Loaded MEMS Slot Element for Wireless Temperature Sensing of up to 300C
S. Scott, D. Peroulis, Purdue University, West Lafayette, United StatesA Novel RF Sensing Circuit Using Injection Locking and Frequency Demodulation for Cognitive Radio Applications
C. Li[1], F. Wang[1], W. Yen[1], T. Horng[1], K. Peng[2], [1]National Sun Yat-Sen University, Kaohsiung, Taiwan, [2]National Kaohsiung First University of Science and Technology, Kaohsiung, TaiwanMicrowave Acoustic Sensors as an Efficient Means to Monitor Water Infrastructures
D. Trinchero, A. Galardini, B. Fiorelli, R. Stefanelli, Politecnico di Torino, Torino, ItalyAerosol Particle Sensor Based on Millimeter Wave Coherent Radar with High Spatial Resolution
A. Teplyuk[1], R. Knoechel[1], G. Khlopov[2], [1]Kiel University, Kiel, Germany, [2]Insitute of RadioPhysics&Electronics, Kharkov, UkraineUltra low phase noise 2,1 GHz Colpitts oscillators using BAW resonator
H. El Aabbaoui, E. DeFoucauld, P. Vincent, Cea, Grenoble, FranceSupply Voltage Switching Dual-Band SiGe HBT VCOs Using a Dual-Band Resonator with Inductor-Loaded Varactor Diodes
Y. Itoh, H. Hasegawa, M. Shirata, K. Sakamoto, Shonan Institute of Technology, Fujisawa, JapanA K-Band CMOS Low Power Modified Colpitts VCO Using Transformer Feedback
C. Hsieh, K. Kao, J. Tseng, K. Lin, National Taiwan University, Taipei, TaiwanThe History of the Microwave Oven: A Critical Review
J. M. Osepchuk, Full Spectrum Consulting, Concord, United StatesBoston Radar History - From $10,000 Magee to $10 Single Chip T/R Module...Better Than Fiction
E. Brookner, Raytheon Company, Sudbury, United StatesSolid State Phased Array Radars a History at Raytheon
D. G. Laighton, Raytheon IDS/RF Components, Andover, United StatesMMIC Pioneers: A Historical Review of MMIC Development at Raytheon
N. J. Kolias, Raytheon Company, Andover, United StatesAdvanced Heterogeneous Integration of InP HBT and CMOS Si Technologies for High Performance MIxed Signal Applications
A. Gutierrez-Aitken, P. Chang-Chien, W. Phan, D. Scott, B. Oyama, R. Sandhu, J. Zhou, P. Nam, K. Hennig, M. Parlee, B. Poust, K. Thai, C. Geiger, A. Oki, R. Kagiwada, Northrop Grumman Space Technology, Redondo Beach, United StatesHigh Performance Differential Amplifier Through the Direct Monolithic Integration of InP HBTs and Si CMOS on Silicon Substrates
T. E. Kazior[1], J. R. LaRoche[1], D. Loubychev[2], J. Fastenau[2], W. K. Liu[2], M. Urteaga[3], W. Ha[3], J. Bergman[3], M. J. Choe[3], M. T. Bulsara[4], E. A. Fitzgerald[4], D. Smith[5], D. Clark[5], R. Thompson[5], C. Drazek[6], N. Daval[6], L. Benaissa[7], E. Augendre[7], [1]Raytheon, Andover, United States, [2]IQE, Bethlehem, United States, [3]Teledyne, Thousand Oaks, United States, [4]MIT, Cambridge, United States, [5]Raytheon, Glenrothes, United Kingdom, [6]SOITEC, Bernin, France, [7]LETI, Grenoble, FranceOn-Wafer Integration of Nitrides and Si Devices: Bringing the Power of Polarization to Si
T. Palacios, J. W. Chung, B. Lu, Massachusetts Institute of Technology, Cambridge, United StatesMEMS Varactor Enabled Frequency-Reconfigurable LNA and PA in the Upper UHF Band
A. Jajoo, L. Wang, T. Mukherjee, Carnegie Mellon University, Pittsburgh, United States60-GHz Electrically Reconfigurable Reflectarray Using PIN Diode
H. Kamoda, T. Iwasaki, J. Tsumochi, T. Kuki, Japan Broadcasting Corporation, Tokyo, JapanDesign and Experimental Verification of Steerable Reflect-Arrays Based on Two-Bit Antenna-Filter-Antenna Elements
C. Cheng, A. Aabbaspour-Tamijani, Arizona State University, Tempe, United StatesDirective Surface-Wave Launchers and Application to Planar Quasi-Optical Power Combining using a Metallic Grating Lens
S. K. Podilchak[1], A. P. Freundorfer[2], Y. M. Antar[1], [1]Royal Military College of Canada, Kingston, Canada, [2]Queen's University, Kingston, CanadaA 60 GHz Rotman Lens on a Silicon Wafer for System-on-a-Chip and System-in-Package Applications
W. Lee[1], J. Kim[1], C. Cho[2], Y. Yoon[1], [1]Yonsei University, Seoul, Republic of Korea, [2]Korea Aerospace University, Seoul, Republic of KoreaMultiple Interrogation of Phase-Conjugating Arrays
T. F. Chun, M. K. Watanabe, A. Zamora, J. M. Akagi, W. A. Shiroma, University of Hawaii, Honolulu, United StatesA 70 kHz-70 GHz VNA Automatic Calibration Approach with Improved Performance
J. Martens, D. Judge, A. Feldman*, Anritsu Company, Morgan Hill, United StatesMeasurement of Ultra Low Passive Intermodulation with Ability to Separate Current/Voltage Induced Nonlinearities
A. Christianson, W. J. Chappell, Purdue University, West Lafayette, United StatesHigh-Power Reflection Coefficient Measurement of Biological Material Applicable to Microwave Hyperthermia
N. Kim[1], J. Yoon[1], C. Cheon[2], Y. Kwon[1], [1]Seoul National University, Seoul, Republic of Korea, [2]University of Seoul, Seoul, Republic of KoreaCircuital Analysis of a Coaxial Re-entrant Cavity for Performing Dielectric Measurement
F. L. Penaranda-Foix[1], M. D. Janezic[2], J. M. Catala-Civera[1], A. J. Canos-Marin[1], [1]UPV, Valenica, Spain, [2]NIST, Boulder, United StatesThe Development of a MEMS Six-Port Reflectometer Calibration Standard
T. J. Reck, R. M. Weikle, N. S. Barker, University of Virginia, Charlottesville, United StatesA System Level Design Approach to UWB Localization
M. Kuhn[1], C. Zhang[2], S. Lin[2], M. Mahfouz[1], A. E. Fathy[2], [1]University of Tennessee, Knoxville, United States, [2]University of Tennessee, Knoxville, United StatesReal-Time Noncoherent UWB Positioning Radar with Millimeter Range Accuracy in a 3D Indoor Environment
C. Zhang[1], M. Kuhn[2], A. Fathy[1], M. Mahfouz[2], [1]University of Tennessee, Knoxville, United States, [2]University of Tennessee, Knoxville, United States3D Positioning using Spherical Location Algorithms for Networked Wireless Sensors Deployed in Grain
G. Parkinson[1], M. Boon[1], J. Davis[2], R. Sloan[1], [1]University of Manchester, Manchester, United Kingdom, [2]BAE Systems (Military Air Solutions), Preston, United Kingdom
IMS 2009: Select Technical Paper Sessions
[9 Videos ]
GaN HEMT Technical Status: Transistors and MMICs for Military and Commercial Systems
Ray Pengelly, Cree Inc. Research Triangle Park, NCStatus of GaN-on-Silicon for Military and Commercial Communications Systems
Kevin Linthicum, Nitronex Corporation, Durham, NC USAAdvanced Large-Signal Modeling of GaN Power Devices, Electrical, Thermal and Distributed Effects
R. H. Jansen, RWTH Aachen UniversityGaN Technology for Future Mobile Radio Communication from a System Supplier's Perspective
Patrick Juschke, Alcatel-Lucent Bell Labs Radio CommunicationsUsing GaN Technology in Military Systems
Patrick Schuh, EADS Defense Electronics, Ulm, GermanyAffordability of Gallium Nitride Technology
Colin S. Whelan, Raytheon Company, Andover, MAStatus of GaN HEMT Technology for mmW Applications
Ben Heying, Ioulia Smorchkova, Pin-Pin Huang, Wen-Ben Luo, Vincent Gambin, Yaochung Chen, John Chen, Ben Poust, Roger Tsai, Carol Namba, Po-Hsin Liu, Randy Sandhu, William Sutton, Mike Barsky, Aaron Oki; Northrop GrummanPanel Discussion
WMF Panel DiscussionManaging Power Density of High-Power GaN Devices
Rudiger Quay, Fraunhofer Institute of Applied Solid-State Physics
Overview of Steady-State Stability Concepts and Analysis for Microwave Circuits & Systems
Christopher P. Silva, Aerospace Corporation, USABifurcation Analysis and Control in Nonlinear Microwave Circuits
Almudena Suarez, University of Cantabria, SpainExpanding the Capabilities of Pole-Zero Identification Techniques for Stability Analysis
Juan Mari Collantes, University of the Basque Country, SpainStability Analysis at System Level
Vitorio Rizzoli, University of Bologna, ItalyStability Issues in the Design of High Power Amplifiers and Oscillators
Raymond Quere, University of Limoges - CNRS, FranceTheory and Applications of Strong Parametric Excitation
Robert Melville, New Jersey Institute of Technology, USA