Docstoc

student.agh.edu.pl - AGH

Document Sample
student.agh.edu.pl - AGH Powered By Docstoc
					      Data
1996.09/10
1996.09/10
1996.09/10
1996.09/10
1996.12
1996.12
1996.12
1996.12
1997.04/07
1997.04/07
1997.04/07
1997.04/07
1997.04/07
1997.04/07
1997.08
1997.08
1997.08
1997.08
1997.08
1997.08
1997.12
1997.12
1997.12
1997.12
1997.12
1997.12
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.01
1998.02
1998.02
1998.02
1998.02
1998.02
1998.03
1998.03
1998.03
1998.03
1998.03
1998.03
1998.03
1998.04
1998.04
1998.04
1998.04
1998.04
1998.04
1998.04
1998.04
1998.04
1998.04
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.05
1998.06
1998.06
1998.06
1998.06
1998.06
1998.06
1998.06
1998.06
1998.06
1998.06
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.07
1998.08
1998.08
1998.08
1998.10
1998.10
1998.10
1998.10
1998.10
1998.10
1998.10
1998.10
1998.11
1998.11
1998.11
1998.11
1998.11
1998.11
1998.11
1998.11
1998.12
1998.12
1998.12
1999.01
1999.01
1999.01
1999.01
1999.01
1999.01
1999.01
1999.01
1999.01
1999.02
1999.02
1999.02
1999.02
1999.02
1999.02
1999.03
1999.03
1999.03
1999.03
1999.03
1999.03
1999.03
1999.03
1999.03
1999.04
1999.04
1999.04
1999.04
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.05
1999.06
1999.06
1999.06
1999.06
1999.07
1999.07
1999.07
1999.07
1999.07
1999.07
1999.07
1999.07
1999.07
1999.07
1999.08
1999.08
1999.08
1999.08
1999.08
1999.08
1999.08
1999.08
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.09
1999.10
1999.10
1999.10
1999.10
1999.10
1999.10
1999.10
1999.10
1999.10
1999.10
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.11
1999.12
1999.12
1999.12
1999.12
1999.12
1999.12
1999.12
1999.12
2000.01
2000.01
2000.01
2000.01
2000.01
2000.01
2000.01
2000.01
2000.02
2000.02
2000.02
2000.02
2000.02
2000.02
2000.02
2000.02
2000.02
2000.03
2000.03
2000.03
2000.03
2000.03
2000.03
2000.04
2000.04
2000.04
2000.04
2000.04
2000.04
2000.04
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.05
2000.06
2000.06
2000.06
2000.06
2000.06
2000.06
2000.06
2000.06
2000.06
2000.06
2000.06
2000.07
2000.07
2000.07
2000.07
2000.07
2000.07
2000.07
2000.07
2000.07
2000.07
2000.07
2000.08
2000.08
2000.08
2000.08
2000.08
2000.08
2000.09
2000.09
2000.09
2000.09
2000.09
2000.09
2000.09
2000.09
2000.09
2000.09
2000.10
2000.10
2000.10
2000.10
2000.10
2000.10
2000.10
2000.10
2000.10
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.11
2000.12
2000.12
2000.12
2000.12
2000.12
2000.12
2000.12
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.01
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.02
2001.03
2001.03
2001.03
2001.03
2001.03
2001.03
2001.03
2001.03
2001.03
2001.04
2001.04
2001.04
2001.04
2001.04
2001.04
2001.04
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.05
2001.07
2001.07
2001.07
2001.07
2001.07
2001.07
2001.08
2001.08
2001.08
2001.08
2001.08
2001.08
2001.08
2001.08
2001.09
2001.09
2001.09
2001.09
2001.09
2001.09
2001.09
2001.09
2001.09
2001.09
2001.09
2001.10
2001.10
2001.10
2001.10
2001.10
2001.10
2001.10
2001.10
2001.10
2001.10
2001.11
2001.11
2001.11
2001.11
2001.11
2001.11
2001.11
2001.11
2001.11
2001.11
2001.12
2001.12
2001.12
2001.12
2002.01
2002.01
2002.01
2002.01
2002.01
2002.01
2002.01
2002.03
2002.03
2002.03
2002.03
2002.03
2002.04
2002.04
2002.04
2002.04
2002.04
2002.04
2002.04
2002.04
2002.05
2002.05
2002.05
2002.05
2002.05
2002.05
2002.05
2002.05
2002.05
2002.05
2002.05
2002.07
2002.07
2002.07
2002.07
2002.07
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.08
2002.11
2002.11
2002.11
2002.11
2002.11
2002.11
2002.11
                                       Tytuł artykułu
Noise in CATV Networks
Inside the RF Power Transistor
Wireless Communications: The Nevous System if Intelligent Transportation Systems
The Forgotten Use of Saturable-Core Industors(Transductors)
Spectrum vs. Modulation Analysis: Both Are Needed
A Quadrature Modulator/Demodulator IC Covering Baseband to 250 MHz
The Design of Single–layer Solenoids for RF Filters
A Ladder Structure as an Electrical Model for Determining Resonant Transmission Line Characteristics
RF Elecronical Measurement Comparisons of a 64TQFP with a Computer Generated Model
Intermodulation: Concepts and Calculations
Specifying Power Amplifilter Linearity via Intermodulation Distortion and Channel Spectral Regrowth
Envelope Distortion Models with Memory Improve some Amplifilter Spectral Regrowtn Predictions
Detectors Instead of Power Meters: A Simple, Cheap Measurement Option
Universal Formula Analyzes all Modulation Methods
Intelligent Transportation Systems: Mirage or Reality?
Noise Effects at Saturation
The 1997 MMT–S IMS: A High Time in Denver
Using Windowing with Frequency–domain Reflectometry
Receiver Protectors: A Technology Update
Noise and Distortion Reduction in Amplifiers Using Adaptive Cancellation
A Compact Large-Signal Model of GaAs MESFET
A Low Cost , Interchip HBT Bias Regulation Approach for Low Noise, High IP3 Receiver Architectures
Distortion in RF and Microwave Control Devices
An MCM BGA Platform for Commercial System Applications
MTT Transactions and Letters on-Line
FETs that Address the Linearity Challenge
Thin Dielectric Radome Design Guidelines for Satcom Antennas
Double – Y Baluns for MMICS and Wireless Applications
An AiGaAs / GaAs HTB PA-LNA Transceiver MMIC Chip for 1,9 GHz PHS Digital Cordless Telephones
Design Options for SAW IF Filters Used In Wireless Applications
A Review of the 1997 Wireless Workshop
Ball Grid Arrays : A DC to 31. 5 GHz Low Cost Packaging Solution for Microwave and MM- Wave MMICs
Experimental Performance of an L-Band Microstrip Antenna
A Quadrafilar Helical Antenna for Low Elevation GPS Applications
Antenna Basics
Increased Speed and Performance from an RF VNA
An Ultra-Thin Silicon Technology that Provides Integration Solutions on Standard CMOS
An IFM Receiver on a Single PCB
GPS in 10 Years
Integrated Resistors Networks for High Frequency Multilayer PCBs
Transistor Technologies for RFICs in Wireless Applications
Design and Analysis of Noiseless Feedback Amplifies Using S Parameters
Digital Data Signal Spectral Side Lobe Regrowth in Soft Saturating Amplifiers
Measurment of RF Dielectric Properties with Series Resonant Microstrip Elements
Applying Error Correction to Network Analyzer Measurments
Cold War to Counter Drug
Near-field Mapping above a Coupled-line Filter and a MMIC
Noise Figure, Antenna Temperature and Sensitivity Level for Wireless Communication Receivers
The Pulse Desensitization Factor
Negative-resistance Device Measurements
A Control System for a Feedforward Amplifier
Effects of Matching on RF Power Amplifier Efficiency and Output Power
Cellular Mobile Radio Communication Channels in View of Smart Antenna Systems
Sensitivity Improvements and Associated Benefits of Tower – top Amplifiers
Design of a Wideband, High Dynamic Range Downconverter Used in Smart Antenna Applications
A 50W, Solid – state C – band Amplifier for Outdoor Use
An RF Distribution Amplifier
An OCXO with Rubidium Oscillator Performance
A Low Cost Logarithmic Amplifier
A 900Mhz, Single – supply GaAs Power Amplifier IC
Progress through Microwaves
Experience Star – spangled Baltimore
A Septum Polarizier
A Versatile Test Bench for Wireless RF/Microwave Component Characterization
Designing High Speed Paging Systems
A CDMA LNA Design Using CAD Techniques
Behavior of GaAs FET Pulsed IV Characteristics
Getting Back to the Basic of Oscillator Design
Multilayer Bonding and Fabrication Guidelines
An Active Physical Device Simulator
A Dual – band AMPS/PCS Duplexer
CDMA RFIC Upconverters
A Three – dimensional EM Field Solver for High Frequency Applications
A 2.2 to 2.4 GHz Dual 8 x 2 Switch Matrix
InP-based HBT Technology for Next-generation Lightwave Communications
Countdown to the Microwave Millennium
A Quarter-wavelength Antenna with Superposed Square Pathes
European Pacts to Challenge US Dominace
A New Pill with Fast Settling Time and Low Phase Noise
Microwave Technology: Directions and Measurement Requirements for the 21st Century
Low Voltage Power Amplifiers for GSM Handsets
A New Suite of RF/Microwave Design Tools
Surface-mount NPO Capacitors With Ultra-high Self-resonant Frequencies
A 5 W MMIC Driver Amplifier for PCS Base Stations
Oh, the Way We Were!
An Internal Integrated Microstrip Antenna for PCS/Cellaur Telephones and Other Hand-held Portable
Wireless Wave Propagation
A Simple Method to Design Phase-locked LOs for CDMA Mobile Communications Systems Using CAD T
The Evolution of Coplanar MMICs over the Past 30 Years
Don’t Rule Out the MESFET!
A New PCB Substrate Used for Path Antenna Fabrication
RF and LO Noise Interaction During Downconversion
A 0.1 to 2.5 GHz Logarythmic Amplifier for RF Detection
A Ka-band Linearizer for TWTAs
A Multiposition Backup Switch
Low Cost, Surface-mount RF Amplifiers for PCS base Station Use
New Directions in HFSS for Designing Microwave Devices
The Current State of the ART in Coplanar MMICs
New Capabilities for Enhancing mm-wave Network Measurements
Spectral Containment by Predistortion of OQPSK Signals
How to Evaluate a Multipath Fading Emulator
HTS Wireless Filters: Past, Present and Future Performance
A Planar Impedance Transformer
Application of the Fourier Transform in Antenna Pattern Measurements
Current Techniques for Tuning Dielectric Resonators
Automating RF Test Applications
The Age of the Precision Oscillator: The Role of the TCXO and DCXO
Accurate and Efficient Modeling of Meander-line Polarizers
A Mathematical Model for Y-junction Circulator Design
Coupling Behavior between Transmission Lines with Meshed Ground Planes in LTCC-MCMs
S-parameter Measurement Using an I/Q Demodulator
A 1.9 GHz Adaptive Feedforward Power Amplifier
Useful Filtering Techniques to Save Scarce Spectrum in Communications Systems
SAW IF Filters in Mobile Communications Networks
A Microwave Analog Frequency Divider
Linear RF Power Amplifier Design for CDMA Signals: A Spectrum Analysis Approach
Phase and Amplitude Noise Due to Analog Control Components
Measuring ACPR in CDMA Amplifiers
2.4 Ghz LNA/PA/Circularly
A Microstrip Patch Antenna Using Novel Photonic Band-Gap Structures
Experimental Adaptive Nulling With a Genetic Algorithm
A Novel Tapered Slot PCS Antenna Array And Model
Broadside Radar Echoes From Wires And Strings
Testing of Smart Antenna Systems
Test Wquipment Synchronization: Problems And Solutions
Network Analyzer Measurements
Near-Field Focusing of a High Field EMC Test Antenna
Device And Circuit Approaches For Next-Generation Wireless Communications
A Starlet’s Secret Life As Inventor
Design Considerations For Multicarrier CDMA Base Station Power Amplifiers
A Simple GMSK Modulator For Microwave And Millimeter-Wave Frequencies
Fiber Optics Enhance Wireless Broadband System Deployment
Cost Analysis of Rework And Test
Noise Figure Measurement : Corrections Related to Match and Gain
Spiral Inductor Substrate Loss Modeling in Silicon RFICs
Improvement of a Cassegrain Antenna by Secondary Surface Corrections
Miniaturized Low Cost 30 GHz Monolithic Balanced BPSK and Vector Modulators : Part I
Radiated Emissions Measurements Using an EMI Receiver
A Sub W Load-pull Quarter-wave Prematching Network Based on a Two-tier TRL Calibration
Network Analyzer Calibration for Measurements Near the Waveguide Cutoff Frequency
Vector-corrected Power Sensor Calibration
Small Signal Near Large Signal Measurement Using a Spectrum Analyzer
A Wideband VCO for Set-top Applications
Design and Implementation of an L-band PLL Frequency Synthesizer
Miniaturized Low Cost 30 GHz Monolithic Balanced BPSK and Vector Modulators : Part II
GSM Base Station Power Amplifier Module Linearity
More Microwaves At IMS 1999: Come and Experience “The Magic Touch of Microwaves
Anaheim/Orange County: Everything Under the Sun
FET Models for Volterra-series Analysis
Will the Real TNC Connector Pleas Stand Up
The Influence of Phased-array Antenna Systems on LEO Satellite Constellations
Microwave Transistor Oscillator: An Analytic Approach to Simplify Computer-aided Designs
Design and Analysis of Microwave Varactor-tuned Oscillators
Radiation Characterization of Slant Polarization Antennas
Self-synchronizing a CDMA Cellular Network
Efficiency Principles for Phased-array Radars Using Active Antenna Elements
An Integrated Microwave Measurement Tested Tool
Commercial Microwave Sensors Technology: An Emerging Business
SiGe Transistors Technology for RF Applications
Oscillator Stability Analysis
A Wideband, Varactor-tuned Microstrip VCO
Millimeter-wave Radio Front Ends: The Present and the Future
DC to 110 GHz Measurements in Coax Using the 1 mm Connector
Technologies for Wireless Applications: Past, Present and Future
LTCC-M: An Enabling Technology for High Performance Multilayer RF Systems
Indium Phosphide Heterojunction Bipolar Transistor technology for Future Telecommunications Applicatio
Correlation between Ungated Recess Width and Linearity of GaAs MESFETs
Characterization of a Double-doped Power HJFET for W-CDMA Cellular Handset Application
Planar Integrated Antenna Technology
An Advanced Integrated Layout Editor
An Interactive Internet Service That Provides On-line Circuit Design
A Fiber-optic-based Programmable Delay Line
Signal Generator Spectral Purity Consideration In RF Communications Testing
Modelling of Metal and Substrate Losses in CMOS and BiCMOS Inductors for RFICs
Low Cost Briefcase Satphone Terminal Antennas
Compact Internal Multiband Microstrip Antennas for Portable GPS, PCS, Cellular and Satellite Phones
The 1999 MTT-S IMS: The String of Broken Records Continues
Advanced Large-signal Models for Transistor Parameter Extraction Software
Analog and Digital Signal Generators with High Spectral Purity
An Educational Antenna Measurement System
Understanding Phase-locked DRO Design Aspects
Europe’s Wireless Futures
RF/Microwave Power Package Reliability: The Effects of Component Materials and Assembly Processes
Microstrip Resonant Phase Shifters
Design of High Gain Microstrip Anntennas
Increased Accurancy of Absolute Group Delay Measurements
3G is Poised to Take Over the Cellular World
Publish or Perish: It’s Not Just for Academics Anymore
Design Equations for Maximum Power Transfer in Back-to-back Stacked Microstrips
Cavity and Surface-mount Delay Line Filters for Feedforward Power Amplifiers
A Small CDMA Module for Wireless PCS Handsets
A Combined 360° Phrase Shifter and Attenuator for Freedforward Amplifiers and Predistorters
A 10 W 2 GHz Silicon Carbide MESFET
Miniature Tight-tolerance Chip Inductors
A 6 W MMIC Power Amplifier for 6 GHz Operation
Digital Predistortion Techniques for RF Power Amplifiers with CDMA Applications
Understanding Offset 8-PSK Modulation for GSM EDGE
Vector Signal Measurement for 38 GHz Digital radio Applications
High Efficiency Power Ampliefier design Using GaAs Heterostructure Field Effect Transistors
Impedance Measurement for High Power RF Transistors Using the TRL Method
Adaptive Feedforward Linearization for RF Power Amplifiers
Microwave MCM-C Utilizing Low Loss LTCC and Photo-pattering Processes
A Microwave Antenna Path-alignment Test Set
Inverted mesa Fundamental-mode Crystals
Programmable Attenuator Subsystems
Circulary Polarized, Aperture-coupled Patch Antennas for a 2.4 GHz RFID System
Design of small-signal amplifiers using HP MDS: part I
Design and Implementation of an X-band DR Bandpass Filter
A Low Cost, High Performance Point-to-point Slotted Waveguide Array
A Thinned Multibeam Phased Array
Intermodulation Characteristics of Ferrite-based Directional couplers
Computation & Masurement of the Polarization Ellipse
A Primer on Bonding Wire Parameters
Parametrics & Optimalization Using Ansoft HFSS
Nonlinear Waveform Prediction in Fast Microwaves Circiuts
Modular Design of Power Amplifiers
Thermal Overdrive Firmware to Improve Thermal Test and Conditioning Throughput
A low Cost Milimeter-wave Reciver
8 to 15 GHz High Spectral Purity PLDROs for LMDS and MVDS Aplications
Design of small-signal amplifiers using HP MDS: part II
Compact Formulas to Relate ACPR & NPR to two-tone IMR & IP3
Distortion in Voltage-variable Attenuators
An improved 5.7GHz ISM-band Feedforward Amplifier Utilizing Vector Modulators For Phase & attnuation
A surface-Mount Balun for TV Broadcast Aplications
A Broadband Microwave Choke
A new 3.50-mm TRL/LRL Calibration Kit
Low Cost LNAs for 900 MHz Cell Site Applications
K-band Quadrature Mixers with Plastic-packagded Diodes
Polarization Diversity Antennas for Compact Base Statinons
New Microwave Applications for Thick-film Thermistors
Microwave FET Oscillators: An Analytic Approach to Simplify Computer-aided Design
Phase Noise Theory and Measurements: A Short Review
Design of an Ultralinear Wideband Feedforward Amplifier Using EDA Tools
A 76 to 77 GHz GMIC Mixer for Automotive Radar
A Review of the 199 Wireless Workshop
RF Receiver Requirements for 3G W-CDMA Mobile Equipment
Computer-aided Design of Ultrabroadband 100 MHz to 20 GHz Amplifiers
A C-band Low Power High Dynamic Range GaAs MESFET Low Noise Amplifier
Integral Resistors in High Frequency Printed Wiring Boards
A Low Cost, High Accuracy Radar Altimeter
Radiating Elements for Wideband Phased Arrays
Coupled Triplets
Pulse Operation of Transmission Lines Including Skin-effect Resistance
A Microstrip Antenna with Fractal Multilayer Substrates
Switched-coupler Measurements for High Power RF Calibrations
Characterization of Differential Interconnects from Time Domain Reflectometry Measurements
The Correlation between Thermal Resistance and Characteristic Impedance of Microwave Transmission
IMD Products and Spectral Regrowth in CDMA Power Amplifiers
The Z-domain Method for Analysis and Design of High Order Digital Phase-locked Loops
A Simple and Efficient Waveguide Calibration Procedure for a Vector Network Analyzer
A 2.45 GHz Low Cost, High Peformance VCO
A GSM EDGE Error Vector Magnitude Estimation Platform for RFIC/ASIC Evaluation
The Effect of Imperfect Antenna Cross-polar Performance on the Diversity Gain of a Polarization-diversity
RF Ceramic Chip Capacitors in High RF Power Applications
A Digitally Compensated TCXO with Low Phase Noise Characteristics
Selecting a Pedestal for Tracking LEO Satellites at Ka Band
Increasing Multitone power Near Saturation
Welcome to the International Microwave Symposium 2000
Attending the conference
Boston: where it all begun
DC, linear AC & Nonlinear AC stability analysis using bifurcation & Nyquist theory
Modulation imperfections in IS54/136 dual-mode cellular radio
An analysis of enclosed coplanar strips
DC & pulse IV characteristics of GaAs MESFET devices
Benefits of automated ribbon bonding for microwave applications
Duplexer considerations for X-band T/R modules
Ultra-high lineary GaAs mixers
A multilevel design environment for wireless systems development
A multilayer press for Rapid PCB prototype fabrication
Shaped sector antennas for LMDS & MMDS hubs
An ultra-high stability miniature OCXO
Electronically Tunable RF filters for LMDS Frequencies
Plastic-packed FETs for high power applications
Harmonic tuning of Power tarnsistors by acti load-pull measurement
Simulations of integrated structures using two-coupled-line models
Accurate measurment of wideband modulated signals
Low noise VCOs: Key components for base stations
Thermal design considerations for wide bandgap tarnsistors
High power RF LDMOS tarnsistors for avionics applications
Fractional out-of-band power formulas for BPSK, QPSK & MSK
Broadband DC to 4 Ghz digital attenuators with high accuracy
A single cable for base station main feeder & jumper applications
A duplexer, combiner & distribution amplifier for wireless applications
A dual-band antenna Coupler for cellular & PCS applications
Clock recovery at Gigabit-per-second Data Rates
Effective Circuit Design Techniques to Increase MOSFET Power Amplifier Efficiency
An Object-oriented Circuit Simulator
Three-Sampler Network Analyzer Calibrations
Designing for Power Amplifier Efficiency: Statistical Description of Signals
Protection Against Dangerous Lightning Strikes and Their Secondary Effects
Testing Digital Communications Transmitters and Receivers
Multilayer Prototype and Series Production
Bluetooth Puts Bite on Moblie Communications
Compatibility Issues Between Bluetooth and High Power Systems in the ISM Bands
Space-qualified 1.2 mm Fiber Optic Cable
Limitations in Feed-forward Linearization
The Design of Intermediate Linear Phase Bandpass Crystal Filters in Semilattice Form
A Simplified Approach to Determine AM/PM Conversion Coefficient in Microwave Low Noise Amp.
IMS 2000: A Boston Blockbuster
The Measurement of Group Delay Using a Microwave System Analyzer
Properties of Various Coupling Apertures
A Broadband 2 to 18GHz Cascaded Reactively Terminated Single-stage Distributed Amplifier
Limitations in Feed-forward Linearization: Part II
The Basics of Print Reciprocal Dividers/Combiners
Effects of F-circuit Nonlinear Distortion on Digitally Modulated Signals in Wireless Communications
Liquid Sensing at Radio Frequencies
Applying Switched Gain Stage Concepts to Improve Efficiency and Linearity for Mobile CDMA Power Am
Stabilization of RF Parameters of Injection-locked Pulsed IMPATT Oscillators
High Performance Wideband MMIC Low Noise Amplifiers
Analysis of Photonic Bandgap Surfaces Using Ansoft HFSS
Intermodulation Product Second-order Interferers in Dual-band System
CD Radio Promises Data and Audio Listening Relief
A High Order Frequency Multiplier for Low Power Applications
SOLR Calibration for Grounded Coplanar Waveguide Lines
Effects of a Driver’s ACLR on Total ACLR
Asymptotic Behavior of Cosine Windows
Distortions in Cascaded MMIC Power Amplifiers
A dual Polarization, Phase-compensated Waveguide Bend System
ISM vs. Spread Spectrum – Avoiding the FCC
Acronyms and Abbreviations Used by the RF/Microwave Industry
Improving Accuracy and Reliability of Microwave On – wafer Silicon Device Measurements
Extending Gold Thick – film Technology through Materials and Process Development
Time Domain Analysis of a Printed Circuit Board Via
Design Considerations for Thick – film High Power Chip Terminations
Finite Element Analysis of RF Couplers with Sliced Coaxial Cable
Dynamic Drain Current Model for MESFET/HEMTs Valid Under Varying Static Bias and Temperature Co
The ABCs of Device Biasing
A Simple Gain Equalizer for a PCS – band Amplifier
Shielding Formulas for Near Fields
The Next Level of Design Automation
A Voltage Variable Attenuator Using Silicon PIN Diodes and A Passive GaAs MMIC in a Plastic SMT Pac
A VSWR Meter Using a Power Sensing Termination
A Low Loss LTCC System for Wireless Applications
A Vector Modulator to Convert Analog Signal Generators to Digital Formats
A Versatile Multilevel Amplifier for PCS Applications
A General Design Procedure for Bandpass Filters Derived from Low Pass Prototype Elements: Part 1
Behavioral Modeling of High Power Amplifiers Based on Measured Two – Tone Transfer Characteristics
3D FEM and EM Simulations for DRFs
Measurement of Modulated Scattering Parameters Using Modulated Vector Network Analysis
Control Products for Wireless and Broadband Applications
Broadband Power Amplifiers for 600MHz to 4.5 GHz System Applications
A Low Loss Dielectric for High Frequency HDI Substrates and PCBs
History of Ultra Wideband Communications and Radar: Part I, UWB Communications
Code Domain Analysis on W-CDMA User Equipment Transmitters
Asymetric Coplanar Strip Analysis Including Conductor Backing and Upper Shielding
A General Design Procedure for Bandpass Filters Derived from Low Pass Prototype Elements: Part II
Bluetooth-enabled Microwave Ovens For EMI Compatibility
The First International Vacumm Electronics Conference In Review
RAWCON2000 Conference Report
2000 Wireless Workshop Review
Reduced Filter Requirements Using an Ultra Low Noise Modulator
A DC to Ka-band Low Cost Surfance Mountable RF-VIAtm Package
A Lightweight, Low Cost Spectrun Analyzer for Wireless Communications Applications
Low Cost Electronically Scaning Antennas for Wireless Communications Applications
History of Ultra Wideband Communications and Radar: Part II, UWB Radars and Sensors
The Development of DBS Imaging Based on Airborne Pulse Doppler Radar in China
Multi-layer Thin-film MCM for the Integration of High Preformance Wireless Front-end Systems
Gallium Nitride-based Microwave and RF Control Devices
Impact of Front-end Non-idealities on Bit Error Rate Preformance of WLAN-OFDM Transceivers
0,24-μm CMOS Technologz and BSIM RF Modeling for Bluetooth Power Applications
Carrier-to-Interference Ratio Prediction of Nonlinear RF Devices
A Practical Guide to the Design of Microstrip Antenna Arrays
Multilayer LTCC Modules
Characterization of Low Loss LTCC Materials at 40 GHz
Ultraminiature VCOs for Wireless Applications
Snap-on SMA Connectors
A Breakthrough SAW Dupleser for Cellular Applications
MEMS for RF/Microwave Wireless Applications: The Next Wave
A Band for All Reasons
University Engineers Team with Wireless Industry for Mutual Benefits
A Low Cost Planar Filter for 60 GHz Applications
Exploiting Filter Symmetry
CAD of a Compact Monopulse Comparator Ntework Using Planar Magic Tee Junctions for Airborne Slot
Thermal Modeling of Heterojunction Bipolar Transistor with Pulsed I-V Measurements
Nyquist Quadrature Frequency Shift Keying for Spectral Efficiency
A Four-port Microwave Measurement System to Speed On-wafer Calibration and Test
A 3 V Small Chip Size GSM HBT Power MMIC with 56 Percent PAE
A Fully Integrated Dual-frequency Push-push VCO for 5.2 and 5.8 GHz Wireless Applications
Design of Coplanar Power Amplifiers for Millimetr-wave System Applications Including Thermal Aspects
Spectrum Modeling of an RF Power Amplifire for TDMA Signals
Metamorphic Transistor Technology for RF applications
Enhancement/Depletion Mode InGaP/AlGaAs PHEMT or High Efficiency Power Amplifiers
A Low Cost, Cavity Stabilized 5.8 GHz Oscilator Realized in LTCC
Welcome to the International Microwave Symposium 2001
Attending the Conference” Microwave Journal
Phoenix: The Heat Is On
2001 IEEE MTT-S IMS Exhibition Guide
2001 IMS Exhibition
Phoenix Civic Plaza Floor Plan
2001 IEEE MTT-S IMS Technical Program
Interconnects for a Multi-layer Three-dimensional Silicon Architecture
The Use of Unipolar Technology to Reduce Microwave Circuit Size
New Dielectric Bead for Millimeter-wave Coaxial Components
A Combination Monopole/Quadrifilar Helix Antenna for S-band Terrestial/Satellite Applications
Microwave Temperature Compensated Detector Design for Wide Dynamic Range Applications
A Linear LDMOS Amplifier for EDGE GSM Applications
Broadband Solid-state Class A Power Amplifiers for 1 to 11 GHz Applications
An Automated Assembly Tool For Precision, High Speed RF Die-attach Applications
Compact Capacitance Meter for High Speed Production Test
A Long Range View of Short Range Wireless Systems
Power Efficient MMIC Frequency Tripels
High Speed Analysis and Optimization of Waveguide Bandpass Filter Structures Using Simple Neutral Ar
SiGe Power Amplifier ICs with SWR Protection for Handset Applications
On the Direct Conversion Receiver – A Tutorial
Chipsets for Microwave and Millimeter-wave Point-to-point Radios
Low Phase Noise Voltage Tuneable Oscillators
Miniature, High Performance GPS RF SAW Filters
Two Novel Radar Vehicle Detectors for the Replacements of a Conventional Loop Detector
A Novel Method to Mitigate Microwave Oven Dictated EMI on Bluetooth Communications
Complex Coaxial-waveguide Transitions at Millimeter-waves
Adaptive feedforward Amplifier Linearizer Using Analog Circurity
A Ka-band Planar Printed Antipodal Linearly-tapered Slot Antenna
Frequency Control in a Low Voltage, Wide Tuning VCO design at 2.4 GHz
MEMS for RF/Microwave Wireless Applications: The Next Wave – Part II
 IMS 2001: Chicken Little Was Wrong
A New Spread-spevtrum Measurement Method for Satellite Transponder In-orbit Testing
Finite Element Determination of the Intrinsic Small-signal Equivalent Circuit of MESFETs
A High Efficiency Bow-tie Antenna for Impulse Propagation
Improved Gain for a Dynamic Envelope Tracking Amplifier in Celluar Radio Handsets
A Method of Measuring large-signal S-parameters of High Power Transistors
Design of a Planer Microstrip Balun at S-band
Research @ mwjournal.com
Test Enables High Volume Manufacturing
A Monopole with a Twist
The Infuence of LO Harmonics on Receiver Performance in the Modulations Schemes Used for Wireless
Advanced RF Technologies for the Wireless Market
Spectrum Monitored Adaptive Feedforward Linearization
Design Methodology for High Efficiency Active Radiators
A Simple VVA RFIC Design with a Focus on Repeatability and Stability
PLL Synthesizers: A Switching Speed Tutorial
Fast Design of Cross-coupled Filter Substructures
Design and Prototyping of a Transimpedance Front-end Amplifier for Dense Wavelength D M Circuits
Linearity Requirements for MMICs for 16 Through 128 QAM ETSI Compliant Radios
RAWCON2001 Conference Report
Midsummer Thoughts on Microwave and FR Market Opportunities
Lossy Linearizers for Reduction of Nonlinear Distortion
An Automatic Macro Program for Radio Frequency MOSFET Characteristics Analysis
Fractional-N Synthesizers
Orthogonal Frequency Division Multiplex Overview
Design of a Low Phase Noise Ku-band Oscillator Using a SiGe HBT
Regrowth of Data Spectral Sidelobes from AM/PM Effects and Hard Limiting
Design of a Novel Vector Modulator
An Embedded MOS Model 9 for CMOS RF Circuit Design
Implementation of a Neural Network HEMT Model into ADS
A Broadband Planar Isolator Using Coupled Microstrip Lines on a Magnetized Gyrotropic Substrate
Aluminum Nitride vs. Beryllium Oxide for High Power Resistor Products
Dual Mode Broadband Hybrids: Theory and Experiment
Rigorous Analytical Expressions for El. Parameters of Transmission Lines: Coupled Sliced Coaxial Cable
Planar EM Simulation of Multi-chip Modules and BGA Packages
Circuit Designers: An Endangered Species?
Application and Operation of a Double OCXO
Coping with Hidden Spurious Harmonic Modes in the Design of Low Pass Corrugated Waveguide Filters
Optimum Design for Linearity and Efficiency of a Microwave Doherty Amplifier Using a New Load Match.
A High Efficiency, Low Cost Silicon Bipolar GSM Dual-band PA Module
Thermal Analysis and Considerations for Gallium Nitride Microwave Power Amplifier Packaging
A Broadband, Four-bit, Ka-band MMIC Phase Shifter
Topics in Communication System Design: Carrier Triple Beats
Performing Transient Analysis on PLL Frequency Synthesizers
A Feedforward Power Amplifier with Loops to Reduce RX Band Noise and Intermodulation Distortion
A Large Bandwidth T-shaped Microstrip-fed Ground Plane Slot Antenna
SOI CMOS Technology For RF System-on-chip Applications
Antenna Selection to Minimize Pointing Requirements
Axial Ratio Measurements of Single Circularly Polarized Antennas
Measurement of On-wafer Transistor Noise Parameters Without a Tuner Using Unrestricted Noise Sourc
Fixing the Curtice FET Model
Two-tone vs. Single-tone Measurement of Second-order Nonlinearity
Simulating Multi-finger Power HBTs
The Importance of the Current-voltage Characteristics of FETs, HEMTs and Bipolar Transistors in Contem
Calculation and Measurement of Lock Time in a Phase-locked Loop Frequency Synthesizer
The Use of Intermodulation Tables for Mixer Simulations
A Distributed Amplifier for 40 Gbps Fiber-optic Communications Systems
Design of a Predistortive High Power Amplifier Using Carrier Complex Power Series Analysis
Output Power Improvement of a Push-push FET DRO by using an additional DR
Temperature Variable Attenuator for Millimeter-wave Applications
Monolithic RF Matrix Switches
A Low Cost Oscillator for Fiber-optic Applications
System-level Filter Design Methodology for WLAN-OFDM transceivers
Design of a Circulary Polarized 2 × 2 Patch Array Operating in the 2.45 GHz ISM Band
Characteristics of a Large Bandwidth Rectangular Microstrip-fed Inserted Triangular Patch in a Circular S
Gain for Compressed Amplifiers
A New Planar coupled-line Balun for Microwave Applications
An EM Simulator for MEMS and Real Life MMICs
A modern Militarized Rubidium Frequency Standard
Low Cost Phased Array Antennas for BWA Applications
Laser-activateable Plastics and Laser Devices that Deliver Flexible 3D MID Technology
A Low Loss PTFE-based Bond Ply Material for Multi-layer PCB Applications
An Eight-channel YIG-tuned Frequency Synthesizer Array
Optimizing Link Performance, Cost and Interchangeability by Predicting Residual BER: Part I - Residual B
60 GHz Radio System Design Tradeoffs
QFHA Antennas for Satellite Radio and Mobile Phone Applications
Design of Wideband Patch Antennas for PSC and IMT-2000 Service
The Development of Wide Angle Base Station Antennas from Arrays
The Receiver Noise Equation: A Method for System Level Design of an RF Receiver
Design of a Generic 2.5 W, 60 Percent Bandwidth, C-band MMIC Amplifier
A Seattle Surprise: IMS 2002
Research@mwjournal.com
Optimizing Link Performance, Cost and Interchangeability by Predicting Residual BER: Part II
Design Considerations for Multimode Multiband WLANs
The Design of Bandpass Filters Considering Frequency Dependence of Inverters
SAW Voltage-controlled Oscillators
A Cad Tool Utilizing Fast Hybrid MM/FE/MoM/FD Techniques
A broadband Hybrid Solid-state and TWT Amplifier
A Compact Monopulse Feed for Tracking Antennas
A Highly Linear 17 to 24 GHz SMT Power Amplifier
The Old Order Changeth - Again!
Specifications and Definitions for Quadrature Demodulators and Receiver Design Measurements
Design Advantages of CDMA Power Amplifiers Built with MOSFET Technology
Reviewing the Basics of Suspended Striplines
An LTCC Double-balanced Mixer
Single- and Dual-branch Downconverter Ics for Wireless Base Station Applications
An RF Signal Generator Offering Full Digital, Vector and Analog Modulation
                                          Autor(-zy)
Hudec P.
Johansson T.
Kamali B.
Trask C.
Buxton B.
Pratt W. H.
Geffe P. R.
Ferri G. , Lahr J.
Caggiano M.
Henkes D. D. . Kwok S. C.
Staudinger J.
Heutmaker M. S. . Wu E. . Welch J. R.
Gomes Neto A.. Scaico A. . Costa e Silva J. . Noguiera de Carvalho J.
Walker H. R.
Braun A. E.
Boyhan J. W.
Bashore F.
Dong S. , Thornton D.
Bilotta R. F.
Talwar A.
Wei C. J. , Tkachenko Y. A. , Dindo D. B. , Kennedy D.
Kobayashi K.W.
Caverly R. M.
Noll A.
Wendler J. P.
Hill M.
Foo S.
Jokanović B. , Trifunović V.
Kobayashi K. W.
Kulkarni R. G. , Lahiri S. K.
Bashore F.
Panicker M. P. R. , Douriet D. , Hyslop M. S. , Greenman N. L.
Al-Charchafchi S. H. , Wan Ali W. K. , Barnes S. R.
Foo S.
Scoughton T. E.
Hewlett-Packard Co.
Peregrine Semiconductor Corp.
Anaren Microwave Inc.
Kovach K. L., Van Dyke K. L.
Wilson Ch., Gipprich J.
Wang Nan-Lei L.
Zhang Y., Peng Y.
Amoroso F., Monzingo R. A.
Rudy D. A. , Mendelshon J. P. , Muniz P. J.
Ballo D.
Ferraro E., Ganter D.
Budka T. P., Tentzeris E. M., Waclawik S. D., Dib N. I., Kathei L. P. B., Rebeiz G. M.
Bundy S. C.
Engelson M., Garret L.
Grace M. I.
Wills D.
Gonzalez F. J. O. , Martin J. L. J. , López A. A.
Robbins D. , Amin M. G.
Bundy S. C.
Hairfield D. A. , Harvey P. D. , Krayer Y. L. , Voytko T. S.
Wavesat INC.
Datum INC.
MTI - Milliren Technologies INC.
Analog Devices INC.
Anadigics INC.
Stitzer S. , Kaul R.
Anderson G. , Lawrie M.
Lapidus A. D. , Shapiro M. A.
Dunleavy L. P. , Weller T. M. , Flikkema P. G. , Gordon H. C. , Henning R. E.
Clancy D. , van Veldhuizen E.
Saffian M.
Rodriguez-Tellez J.
Schiebold C.
Bushie J.
HP EEsof
K&L Microwave INC.
QUALCOMM INC.
Structural Research & Analysis Corp.
Technical Research and Manufacturing INC.
Kobayashi K. W. , Oki A. K. , Gutierrez-Aitken A. , Cowles J. , Tran L. T. , Block T. R.
Edwards T.
Kossiavas G. , Papiernik A. , Brachat P. , Ratajczak P.
Shankar B.
Zuta M.
Friday D.
Alpha Industries
Applied Wave Research Inc.
American Technical Ceramics
Raytheon Microelectronics
Braun A. E.
Sanad M. , Amant N. H.
Collins G. W.
Zhou J. , Zhu X. , Hong W.
Sporkmann T.
Mickanin W.
Bean C. , Roblin P. , Erturk V. , Rojas R.
MacCluer C. R. , Pawlan J.
Analog Devices
Linearizer Technology Inc.
Dow-Key Microwave Corp.
Micro-Precision Technologies Inc.
Bardi I. , Cendes Z.
Sporkmann T.
Gipson J.
Amoroso F.
Weisgarber P.
Hammond R. B., Scalapino D.J., Schrieffer J.R., Willemsen B.A.
Jaisson D.
Marino R. A.
Virdee B.S.
Griffith M., Martin H. T.
Jennewein B.
Marino R. A.
Harbater Z. M.
Trust H., Drue K.H., Muller J., Thelemann T., Tuschick T.
Chang Ik-soo, Lee Chang-bok, Kang In-ho
Cheng Q., Yiyuan C., Xiaowei Z.
Wright H.
Gopani S.
Vidmar M.
Wu Q., Xiao H., Li F.
Moore C., Kopp B.
Slovick M.
Lin S.Y., Chuang H.R.
Qian Y., Coccioli R., Sievenpiper D., Radisic V., Yablonovitch E., Itoh T.
Haupt R., Southall H.
Marino R.A.
Knott E.F., Reed A.W., Wei P.S.P.
Robbins D.
Sheyer B.
Lew M.
Seavey J.M.
Asbeck P., Mink J., Itoh J., Haddad G.
Hong P.Y.
Kenney J.S., Leke A.
Klymyshyn D.M., Kumar H.R.
Wojtunik H.
Eron M.
Dave Vondran, Anritsu Co.
William B. Kuhn and Naveen K. Yanduru, Kansas State University
Juan Eusebio Garrido Arenas, Alberto Barcia Cancio and Jose Manuel Paez
A. E. Ashtiani, T. Gokdemir, G. Passiopoulos and A. A. Rezazadeh, King’s
Andrew Ware, Hewlett-Packard Co., Santa Rosa Systems Division
John F. Sevic, Spectrian Corp.
S. P. Yeo and M. Cheng, National University of Singapore
J. Randy Fenton, TRW Inc.
Morris Engelson, JMS Consulting
Peter Shveshkeyev, Alpha Industries Inc.
Jwo-Shiun Sun, Kwong-Kau Tiong and Jiann-Hwang Liu, National Taiwan Ocean University
A. E. Ashtiani, T. Gokdemir, G. Passiopoulos and A. A. Rezazadeh, King’s
Julie Duclercq, Motorola
Eisenhart R. L.
Anderson G., Gertz M.
Maas S. A.
White D.
Chiavacci P.
Grebennikov A. V.
Sun J.
Tian M.
Wheatley Ch.
James J. C.
Purchon G., Harbor B., McConnell T.
Heide P.
Barlas D., Henderson G., Zhang X., Bopp M., Shüppen A.
Odyniec M.
Vidmar M.
Raffaelli L.
Howell K. and Wong K., Hewlett-Packard Co., Microwave Technology Division
Staecker P., Microwave Journal Guest Editor
Geller B., Thaler B., Fathy A., Liberatore M.J., Chen H.D., Ayers G.
Kobayashi K. W., Oki A. K. and Streit D. C.
Ktatchenko Y. A., Bartle D. and Ce-Jun Wei, Alpha Industries Inc.
Hau G., Nishimura T.B. and Iwata N., NEC Corp., Kansai Electronics Research Laboratories
Deal W.R., Qian Y. and Itoh T., University of California, Los Angeles
Applied Wave Research Inc. (AWR)
Merrimac Industries Inc.
Princeton Electronic Systems Inc. (PES)
Cheng B., Hewlett-Packard Co., Microwave Instruments Division
Arcioni P., Castello R., Perregrini L. and Sacchi E., University of Pavia
Karmakar N. C. and Bialkowski M. E., Nanyang Technological University
Sanad M. and Hassan N., AMANT
Bashore F., Microwave Journal staff
Optotek Ltd.
Hewlett-Packard Co.
ORBIT/FR
Avi Brillant
Stephen McClelland
Philip M. Fabis
Matjaz Vidmar
Frank Zavosh
My Le Truong
Ernest Rejman
Harlan Howe
K.Rambabu, M.Ramesh and A.T.Kalghatgi
K&L Microwave Inc.
ANADIGICS
Micro-Precision Technologies Inc.
Cree Research
Toko America Inc.
GaAsTEK
Frank Zavosh, Mike Thomas, Chris Thron, Tracy Hall, Daniel Artusi, David Anderson
Ashkan Mashhour
G.Samuel Dow, Jeff Yang and Kuo-Hsiung Yen
A.S.Virdee
Jean-Jacques Bouny
Shawn P. Stapleton
Peter Barnwell, Michael O’Neill and Charles Sabo
XL Microwave Inc.
Champion Technologies Inc.
Weinschel Corp.
Kssel.M., Benedicter.H., Bachtold.W
Liew.Y.H., Leong.M.S
Sun.J.S.
Svensson.B, Snygg.G, Holmberg.P
Wu.T.K
Collins.S, Flynn.K
Marino.R.A
Greenelsh.M
Ansoft Corp.
Optotek Ltd.
Anaren Microwaves Inc.
Sigma System Corp.
Comunication Solution Inc.
Nexyn Corp.
Liew.Y.H., Leong.M.S.
Borges de Carvalho.N, Pedro.J.C.
Higham.E.
Thornton.W.T ,Larson.L.E.
Anaren Microwave Inc.
Piconics Inc.
Maury Microwave Corp.
Athercomm Inc.
Matjaz Vidmar
Collins B. S.
Feingold A. H. , Wahlers R. L. , Amstutz P. , Huang C. , Stein S. J.
Grebennikov A.V.
Bar-Giora Goldberg
Jianyi Zhou , Limin Feng , Xiaowei Zhu , Wei Hong
Budka P. T. , Antopolsky D. , Pizzella T. M
Bashore F.
Jensen O. K. , Kolding T. E. , Iversen C. R. , Laursen S. , Reynisson R. V.
Virdee A.S.
Yoo S. , Murti M. R. , Heo D. , Laskar J.
Bruce P. Mahler
Staratakos G.E. , Bougas P. , Gotsis K.
Stutzman W. L. , Buxton C. G.
Klappenberger A. J. , Lurie W. B.
Giacoletto L.
Liang X. , Chia Yan Wah Michael
Wayde Allen J.
Smolyansky D. A., Corey S. D.
Parnes M.
Gorbachov O.
Azzam B. F.
Roussy G., Dichtel B., Chaabane H.
Carlini J.
Mashhour A., Borjak A.
Collins B. S.
Fiore R.
Jacquet E., Bardon J. P., Bignon O.
Willey K.
Katz A.
Thoren G.
Norcross A. E.
Grecko A., Sheffers C., David M.
Goldstein J., Soltman M.
Pezo D.
Paolo Di F.
Rodriguez-Tellez J., Fernandez T., Mediavialla A., Tazon A.
Benton B.K.
Jones R. Z. ,Kopp B.A.
Infineon Technologies AG
AWR
LPKF Laser & Electronics, USA
REMEC Magnum Inc.
MTI-Milliren Tech. Inc.
Paratek MW. Inc.
Amcon Communications Inc.
Haymann P., Doerner R., Rudolph M.
Lopez-Riseuno G., Alonso J. I.
Mucha M. S., Clark C. J. Moulthrop A. A., Silva C. P.
Baberg F.
Kopp B. A., Ouellette E. A., Billpus A. J.
Mollee H., O’Shea S., Wilson P., Venema K.
Amoroso F.
Hittite Microwave Corp.
Andrew Corp.
FSY Microwave Inc.
Reactel Inc.
Vehovc S.
Grebennikov A.V.
Pekonen O., Karhumaki A., Valtonen M.
Kostevc D., Mlakar J.
Odyniec M.
Kerr J.
Wright H.
Muller K.D.
Rejman E.
Buffler C.R., Risman P.O.
Gore W.L.
Bonn F.
Mell M.
Toolin M.J.
Bashore F.
Jones A., McManus J.
Rambabu K., Keerti K.S., Ramesh M., Kalghatgi A.T.
Avtar S. Virdee, Bal S. Virdee
Fred Bonn
Leo G. Maloratsky
Fu-Ling Lin, Shin-Fu Chen, Huey-Ru Chuand
Thomas J. Warnagirs
J. Staudinger
L. V. Kasatkin, N. F. Karushkin
J. J. Yu, S. T. Chew
Richard Remski
Werner Wild
Ernest Rejman
D. R. Lang
Shay Gross, Lawrence P. Dunleavy, Thomas M. Weller
Sanggee Kang, Heonjin Hong
Raghavendra G. Kulkarni
Oleksandr Gorbachov, Yie-Der Shen
John M. Seavey
Mitchell Lazarus
Frank Bashore
Kolding T. E.
Tredinnick M., Malanga D.
LaMeres B. J., Kalkur T. S.
Grossbach R.
Benahmed N., Feham M.
Cairon J. M., Tazon A., Fernandez T., Navarro C., Mediavilla A., Rodriguez – Tellez J.
Battaglia B.
Arntz B.
Hansen R. C.
Applied Wave Research Inc.
RF & MW Components Group,
EMC Technology Inc.
Heraeus Inc.
IFR Systems Inc.
AML Communications Inc.
Puglia K. V.
Youngoo Yang, Jaehyok Yi, Joongjin Nam, Bumman Kim
Jwo – Shiun Sun, Jier – Chih Hsieh
Metzger D.
Alpha Industries Inc.
Aethercomm Inc.
Gore W. L.
Barret T.W.
Iglesias-Xamani M.
Di Paolo F.
Puglia K.V.
Neelakanta P.S. , Sivaraks J. , Thammakoranonta C.
Kory C.L.
Heutmaker M.S.
Howe H.
RF Micro Devices
Kyocera America Inc.
IFR Systems Inc.
Paratek Microwave Inc.
Barret T.W.
Sun H. , Liu G. , Gu H. , Su W.
Carchon G. , Nauwelaers B. , Leuven K.U. , Pieters P., Vaesen K. , DeRaedt W. , Beyne E.
Caverly R. H. , Drozdovski N. V. , Quinn M.J.
Côme B. , Ness R. , Donnay S. ,Van Der Perre L. , Eberle W. , Wambacq P. , Engels M. ,
Chen E. , Heo D. , Laskar J. , Bien D.
Ku H. , Woo W. , Kenney J.S.
Hill R.
Kyocera America Inc.
DuPont Microcircuit Materials
Z-Communications Inc.
Radiall
Sawtek Inc
Randy J. Richards , Hector J. De Los Santos
Michael Puttre
Phil Leslie
Yoshihisa Amano, Atsushi Yamada, Eiji Suematsu and Hiroya Sato
Randall W. Rhea
Dr. Anil Kumar Singh and Dr. S. Christopher
Hyun-Min Park, Kye-Ik Jeon and Songcheol Hong
Frank Amoroso
David K. Walker, Dylan F. Williams , Allen Padilla ,Uwe Arz and Harmut Grabinski
J.E. Mueller, U. Gerlach, G.L. Madonna, M. Pfost, R. Schultheis and P. Zwicknagl
Y. Sun, T.Tieman, H Pflug and W. Velthuis
A. Bessemoulin, W.Marsetz, Y. Baeyens, R. Osorio, H. Massler, A. Hulsmann
Chunming Liu, Heng Xiao and Fu Li
C.S. Whelan, P.F. Marsh, W.E. Hoke, S.M. Lardizabal, R. Leoni III, K.C.
Y. Tkachenko, Y. Zhao, C. Wei, D. Bartle
Steve Maas, J. Delacueva, J. Li, S. White
Samir El-Ghazaly
Harlan Howe, Jr.
Stacy Baniszewski, Wireless Infrastructure Systems Division, Motorola SPS




Katherine J. Herrick and Linda P.B. Katehi, Radiation Laboratory
Khelifa Hettak and Malcolm G. Stubbs, Communication Research Center (CRC)
Rudy Fuks, Astrolab Inc.
Charles D. McCarrik, Seavey Engineering Associates Inc.
German Tarregrosa-Penalva, Alberto Asensio-López, Jaime Lluch-Ladrón de Guevara
Philips Semiconductors
Milmega Ltd.
Palomar Technologies
Agilent Technologies
Richard Mumford, Microwave Journal European Editor
John E. Penn, Johns Hopkins University Applied Physics Laboratory
A. Mediavilla, A. Tazón, J.A. Pereda, M. Lazaro, C. Pantaleon and I. Santamaria
Joe Pusl, Srikanth Sridharan, Philip Antognetti, David Helms, Anurag Nigam
Ashkan Mashhour, William Domino and Norman Beamish, Conexant Systems
Raytheon RF Components
Paratek
Sawtek Inc.
I. S. Kim, K. Jeong, J. K. Jeong
P. S. Neelakanta, J. Sivaraks
O. Gorbachov, L. Kasatkin
A.J. Zozaya, E.B. Alberti, J. Berenguer-Sau
M.Ch. Tsai, H. Chuang
Y.H. Kao, C.C. Chien
H. J. De Los Santos, R.J. Richards
F. Bashore
T. Kleine-Ostmann
M. Kameche, M. Feham
R. Clarke
I.Kang J. Kim
S.K. Park, I.S. Chang, Y. S. Choi, J.W.Huh, Y.Kim
J.S. Sun, T.L. Lee
Mumford R.
Rejman E.
Warnagiris T. J.
Aleiner B., Oleksandr Z.
Droinet Y.
Huh J. W., Chang I. S.
González V., Rodriguez J. M., González J. E., Rueda C.
Shemesh Y.
Goldberg B-G.
Pelz D.
Wareberg J., Kennedy D., Schmidt S.
Harvey J.
Heutmaker M. S.
Litt S. P.
Mukherjee S., Pal M. K., Inducta R.
Su C. Y., Chang S. J., Chen L. P., Ho Y. P., Huang G. W., Lin D. C.
Owen D.
Zamanian A.
Regis M., Lafontaine H., Kovacic S.
Amoroso F.
Jeong Y-C.
Iversen C. R.
Thompson II W. L. , Miller E. V. , White C.
Moon Y. C. , Lee J. R. , Yun S. W. , Chang I. S.
Kettner M. , Biebersmith P. , Roldan N. , Sharma B. K.
Lapidus A. D.
Benahmed N. , Feham M.
DeLap J.
Rejman E.
Reinhardt T.
Wu K. , Kong H.
Yang Y. , Yi J. , Woo Y. Y. , Kim B.
Johansson T. , Lundin P. , Engvall J. , Uggla D. , Hagström U.
Kopp B. A. , Billups A. J. , Luesse M. H.
Penn J. E. , Hopkins J.
Hausman H.
Vye D.
Jeong Y.
JangY., Yoon J., ShinH.
Yue J., Kriz J.
Wille K.
Gunnels R.
Lázaro, M.C. Maya L. Pradell
Maas S.
Agahi D., Domino W., Vakilian N.
Yu Zhu, Gerber J., Qian Cai
Ladbrooke P., Bridże J.
Krug F. , Wilwert J.
Faria D. , Dunleavy L. , Svensen T.
Shigematsu H. , Sato M. , Hirose T. , Watanabe Y.
Jeong Y. C. , Yun S. Y.
Kim I. S. , Jo C. , Han Y.
EMC Technology Inc.
Peregrine Semiconductor Corp.
TRAK Microwave Corp.
Debaillie B. , Come B. , Eberle W. , Donnay S.
Mathian M. , Korolkewicz E. , Gale P. , Lim E. G.
Jang Y. W.
McCune E.
Sun J. S. , Chen G. Y.
MEM Research
Datum Inc.
E-Tenna Corp.
LPKF Laser & Electronics
Taconic Advanced Dielectric Division
Micro Lambda Wireless Inc.
Johnson K. K.
Snodgrass D. K.
Izadian J. S.
Jeon J. S.
Walker C.
Yoo H. J., Kim J.
Bahl I. J.
Bashore F.
Mumford R.
Johnson K. K.
Moghe S. Matinpour B. Avera D.
Hwang H. Y., Yun S.
Bernardo R. P.
MIG, Microwave Innovation Group
Amplifier Research
Micro Metalsmiths Ltd.
Mimix Broadband Inc.
Howe H.
Yin P.
Sato T., Grigorean C.
Maloratsky L. G.
Mini-Circuits
WJ Communications Inc.
IFR Systems Inc.
        Nazwa czasopisma    Page Volumine Number
Microwave Journal          p. 22 vol. 9. no. 5
Microwave Journal          p. 34 vol. 9. no. 5
Microwave Journal          p. 64 vol. 9. no. 5
Microwave Journal          p. 76 vol. 9. no. 5
Microwave Journal          p. 22, vol. 39, no 12
Microwave Journal          p. 58, vol. 39, no 12
Microwave Journal          p. 70, vol. 39, no 12
Microwave Journal          p. 78, vol. 39, no 12
Microwave Journal          p. 24 vol. 9. no. 4
Microwave Journal          p. 38 vol. 9. no. 4
Microwave Journal          p. 62 vol. 9. no. 4
Microwave Journal          p. 72 vol. 9. no. 4
Microwave Journal          p. 80 vol. 9. no. 4
Microwave Journal          p. 82 vol. 9. no. 4
Microwave Journal          p. 22, vol. 40, no 8
Microwave Journal          p. 64, vol. 40, no 8
Microwave Journal          p. 76, vol. 40, no 8
Microwave Journal          p. 82, vol. 40, no 8
Microwave Journal          p. 90, vol. 40, no 8
Microwave Journal          p. 98, vol. 40, no 8
Microwave Journal          p.22 , vol. 40 , no. 12
Microwave Journal          p. 64 , vol. 40 , no. 12
Microwave Journal          p.74 , vol. 40 , no. 12
Microwave Journal          p. 84 , vol. 40 , no. 12
Microwave Journal          p. 98 , vol. 40 , no. 12
Microwave Journal          p. 102 , vol. 40 , no. 12
Microwave Journal          p. 22 , vol. 41 , no. 1
Microwave Journal          p. 70 , vol. 41 , no. 1
Microwave Journal          p. 94 , vol. 41 , no. 1
Microwave Journal          p. 114 , vol. 41 , no. 1
Microwave Journal          p. 128 , vol. 41 , no. 1
Microwave Journal          p. 158 , vol. 41 , no. 1
Microwave Journal          p. 170 , vol. 41 , no. 1
Microwave Journal          p. 178 , vol. 41 , no. 1
Microwave Journal          p. 186 , vol. 41 , no. 1
Microwave Journal          p. 192 , vol. 41 , no. 1
Microwave Journal          p. 198 , vol. 41 , no. 1
Microwave Journal          p. 220 , vol. 41 , no. 1
Microwave Journal          p. 22, vol. 41, no. 2
Microwave Journal          p. 68, vol. 41, no. 2
Microwave Journal          p. 84, vol. 41, no. 2
Microwave Journal          p. 112, vol. 41, no. 2
Microwave Journal          p. 126, vol. 41, no. 2
Microwave Journal   p. 22, vol. 41, no. 3
Microwave Journal   p. 64, vol. 41, no. 3
Microwave Journal   p. 82, vol. 41, no. 3
Microwave Journal   p. 94, vol. 41, no. 3
Microwave Journal   p. 108, vol. 41, no. 3
Microwave Journal   p. 118, vol. 41, no. 3
Microwave Journal   p. 126, vol. 41, no. 3
Microwave Journal   p. 32, vol. 41, no 4
Microwave Journal   p. 60, vol. 41, no 4
Microwave Journal   p. 74, vol. 41, no 4
Microwave Journal   p. 88, vol. 41, no 4
Microwave Journal   p. 100, vol. 41, no 4
Microwave Journal   p. 110, vol. 41, no 4
Microwave Journal   p. 136, vol. 41, no 4
Microwave Journal   p. 140, vol. 41, no 4
Microwave Journal   p. 146, vol. 41, no 4
Microwave Journal   p. 150, vol. 41, no 4
Microwave Journal   p. 26, vol. 41, no 5
Microwave Journal   p. 50, vol. 41, no 5
Microwave Journal   p. 295, vol. 41, no 5
Microwave Journal   p. 304, vol. 41, no 5
Microwave Journal   p. 314, vol. 41, no 5
Microwave Journal   p. 324, vol. 41, no 5
Microwave Journal   p. 332, vol. 41, no 5
Microwave Journal   p. 336, vol. 41, no 5
Microwave Journal   p. 340, vol. 41, no 5
Microwave Journal   p. 342, vol. 41, no 5
Microwave Journal   p. 344, vol. 41, no 5
Microwave Journal   p. 348, vol. 41, no 5
Microwave Journal   p. 350, vol. 41, no 5
Microwave Journal   p. 352, vol. 41, no 5
Microwave Journal   p. 22. vol. 41. no 6
Microwave Journal   p. 70. vol. 41. no 6
Microwave Journal   p. 82. vol. 41. no 6
Microwave Journal   p. 90. vol. 41. no 6
Microwave Journal   p. 94. vol. 41. no 6
Microwave Journal   p. 110. vol. 41. no 6
Microwave Journal   p. 116. vol. 41. no 6
Microwave Journal   p. 122. vol. 41. no 6
Microwave Journal   p. 126. vol. 41. no 6
Microwave Journal   p. 130. vol. 41. no 6
Microwave Journal   p. 22. vol. 41. no 7
Microwave Journal   p. 64. vol. 41. no 7
Microwave Journal   p. 78. vol. 41. no 7
Microwave Journal   p. 88. vol. 41. no 7
Microwave Journal   p. 96. vol. 41. no 7
Microwave Journal   p. 112. vol. 41. no 7
Microwave Journal   p. 122. vol. 41. no 7
Microwave Journal   p. 134. vol. 41. no 7
Microwave Journal   p. 142. vol. 41. no 7
Microwave Journal   p. 164. vol. 41. no 7
Microwave Journal   p. 170. vol. 41. no 7
Microwave Journal   p. 174. vol. 41. no 7
Microwave Journal   p. 22, vol. 41, no. 8
Microwave Journal   p. 60, vol. 41, no. 8
Microwave Journal   p. 86, vol. 41, no. 8
Microwave Journal   p. 22, vol. 41, no. 10
Microwave Journal   p. 64, vol. 41, no. 10
Microwave Journal   p. 94, vol. 41, no. 10
Microwave Journal   p. 108, vol. 41, no. 10
Microwave Journal   p. 122, vol. 41, no. 10
Microwave Journal   p. 130, vol. 41, no. 10
Microwave Journal   p. 140, vol. 41, no. 10
Microwave Journal   p. 150, vol. 41, no. 10
Microwave Journal   p. 22. vol. 41, no 11
Microwave Journal   p. 58. vol. 41, no 11
Microwave Journal   p. 70. vol. 41, no 11
Microwave Journal   p. 80. vol. 41, no 11
Microwave Journal   p. 86. vol. 41, no 11
Microwave Journal   p. 98. vol. 41, no 11
Microwave Journal   p. 110. vol. 41, no 11
Microwave Journal   p. 120. vol. 41, no 11
Microwave Journal   p. 22. vol. 41, no 12
Microwave Journal   p. 64. vol. 41, no 12
Microwave Journal   p.74. vol. 41, no 12
Microwave Journal   p. 22, vol. 42, no. 1
Microwave Journal   p. 66, vol. 42, no. 1
Microwave Journal   p. 78, vol. 42, no. 1
Microwave Journal   p. 90, vol. 42, no. 1
Microwave Journal   p. 102, vol. 42, no. 1
Microwave Journal   p. 112, vol. 42, no. 1
Microwave Journal   p. 120, vol. 42, no. 1
Microwave Journal   p. 128, vol. 42, no. 1
Microwave Journal   p. 140, vol. 42, no. 1
Microwave Journal   p. 22, vol. 42, no. 2
Microwave Journal   p. 70, vol. 42, no. 2
Microwave Journal   p. 76, vol. 42, no. 2
Microwave Journal   p. 88, vol. 42, no. 2
Microwave Journal   p. 106, vol. 42, no. 2
Microwave Journal   p. 116, vol. 42, no. 2
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 3
Microwave Journal   Vol. 42, No. 4
Microwave Journal   Vol. 42, No. 4
Microwave Journal   Vol. 42, No. 4
Microwave Journal   Vol. 42, No. 4
Microwave Journal   p. 22, vol. 42, no 5
Microwave Journal   p. 44, vol. 42, no 5
Microwave Journal   p. 260, vol. 42, no 5
Microwave Journal   p. 272, vol. 42, no 5
Microwave Journal   p. 282, vol. 42, no 5
Microwave Journal   p. 292, vol. 42, no 5
Microwave Journal   p. 302, vol. 42, no 5
Microwave Journal   p. 312, vol. 42, no 5
Microwave Journal   p. 320, vol. 42, no 5
Microwave Journal   p. 330, vol. 42, no 5
Microwave Journal   p. 340, vol. 42, no 5
Microwave Journal   p. 348, vol. 42, no 5
Microwave Journal   p. 22, vol. 42, no 6
Microwave Journal   p. 66, vol. 42, no 6
Microwave Journal   p. 80, vol. 42, no 6
Microwave Journal   p. 88, vol. 42, no 6
Microwave Journal   p.22. vol.42. NO.7
Microwave Journal   p.62. vol.42. NO.7
Microwave Journal   p.64. vol.42. NO.7
Microwave Journal   p.74. vol.42. NO.7
Microwave Journal   p.98. vol.42. NO.7
Microwave Journal   p.114. vol.42. NO.7
Microwave Journal   p.128. vol.42. NO.7
Microwave Journal   p.166. vol.42. NO.7
Microwave Journal   p.172. vol.42. NO.7
Microwave Journal   p.176. vol.42. NO.7
Microwave Journal   p.22. vol.42. NO.8
Microwave Journal   p.62. vol.42. NO.8
Microwave Journal   p.78. vol.42. NO.8
Microwave Journal   p.90. vol.42. NO.8
Microwave Journal   p.100. vol.42. NO.8
Microwave Journal   p.112. vol.42. NO.8
Microwave Journal   p.120. vol.42. NO.8
Microwave Journal   p.126. vol.42. NO.8
Microwave Journal   p22, vol.42, no.9
Microwave Journal   p 78, vol.42, no.9
Microwave Journal   p110, vol.42, no.9
Microwave Journal   p127, vol.42, no.9
Microwave Journal   p138, vol.42, no.9
Microwave Journal   p150, vol.42, no.9
Microwave Journal   p162, vol.42, no.9
Microwave Journal   p172, vol.42, no.9
Microwave Journal   p182, vol.42, no.9
Microwave Journal   p212, vol.42, no.9
Microwave Journal   p222, vol.42, no.9
Microwave Journal   p226; vol.42, no.9
Microwave Journal   p232, vol.42, no.9
Microwave Journal   p244, vol.42, no.9
Microwave Journal   p248, vol.42, no.9
Microwave Journal   p22, vol 42, no.10
Microwave Journal   p78, vol 42, no.10
Microwave Journal   p94, vol 42, no.10
Microwave Journal   p108, vol 42, no.10
Microwave Journal   p126, vol 42, no.10
Microwave Journal   p136, vol 42, no.10
Microwave Journal   p146, vol 42, no.10
Microwave Journal   p180, vol 42, no.10
Microwave Journal   p186, vol 42, no.10
Microwave Journal   p190, vol 42 no.10
Microwave Journal   P.20, vol.42, no.11
Microwave Journal   P.72, vol.42, no.11
Microwave Journal   P.92, vol.42, no.11
Microwave Journal   P.104, vol.42, no.11
Microwave Journal   P.114, vol.42, no.11
Microwave Journal   P.122, vol.42, no.11
Microwave Journal   P.132, vol.42, no.11
Microwave Journal   P.142, vol.42, no.11
Microwave Journal   P.156, vol.42, no.11
Microwave Journal   P.168, vol.42, no.11
Microwave Journal   P.176, vol.42, no.11
Microwave Journal   P.182, vol.42, no.11
Microwave Journal   P.188, vol.42, no.11
Microwave Journal   P.192, vol.42, no.11
Microwave Journal   P.22, vol.42, no.12
Microwave Journal   P.70, vol.42, no.12
Microwave Journal   P.86, vol.42, no.12
Microwave Journal   P.96, vol.42, no.12
Microwave Journal   P.122, vol.42, no.12
Microwave Journal   P.140, vol.42, no.12
Microwave Journal   P.146, vol.42, no.12
Microwave Journal   P.150, vol.42, no.12
Microwave Journal   p. 22, vol. 43, no 1
Microwave Journal   p. 76, vol. 43, no 1
Microwave Journal   p. 90, vol. 43, no 1
Microwave Journal   p. 100, vol. 43, no 1
Microwave Journal   p. 112, vol. 43, no 1
Microwave Journal   p. 124, vol. 43, no 1
Microwave Journal   p. 132, vol. 43, no 1
Microwave Journal   p. 136, vol. 43, no 1
Microwave Journal   p. 22 ,vol. 43, no 2
Microwave Journal   p. 76 ,vol. 43, no 2
Microwave Journal   p. 90 ,vol. 43, no 2
Microwave Journal   p.108 ,vol. 43, no 2
Microwave Journal   p.120 ,vol. 43, no 2
Microwave Journal   p.130 ,vol. 43, no 2
Microwave Journal   p.142 ,vol. 43, no 2
Microwave Journal   p.150 ,vol. 43, no 2
Microwave Journal   p.158 ,vol. 43, no 2
Microwave Journal   p. 22, vol. 42, no 3
Microwave Journal   p. 68, vol. 42, no 3
Microwave Journal   p. 82, vol. 42, no 3
Microwave Journal   p. 96, vol. 42, no 3
Microwave Journal   p. 110, vol. 42, no 3
Microwave Journal   p. 122, vol. 42, no 3
Microwave Journal   p. 22, vol. 43, no 4
Microwave Journal   p. 70, vol. 43, no 4
Microwave Journal   p. 84, vol. 43, no 4
Microwave Journal   p. 96, vol. 43, no 4
Microwave Journal   p. 110, vol. 43, no 4
Microwave Journal   p. 118, vol. 43, no 4
Microwave Journal   p. 128, vol. 43, no 4
Microwave Journal   p.24, vol.43, no5
Microwave Journal   p.32, vol.43, no5
Microwave Journal   p.60, vol.43, no5
Microwave Journal   p.278, vol.43, no5
Microwave Journal   p.300, vol.43, no5
Microwave Journal   p.314, vol.43, no5
Microwave Journal   p.328, vol.43, no5
Microwave Journal   p. 340, vol.43, no5
Microwave Journal   p. 348, vol.43, no5
Microwave Journal   p.354 vol.43, no5
Microwave Journal   p. 362, vol.43, no5
Microwave Journal   p. 368, vol.43, no5
Microwave Journal   p. 376, vol.43, no5
Microwave Journal   p. 380, vol.43, no5
Microwave Journal   p. 384, vol.43, no5
Microwave Journal   p. 388, vol.43, no5
Microwave Journal   p.22, vol.43, no6
Microwave Journal   p. 70, vol.43, no6
Microwave Journal   p. 84 vol.43 no6
Microwave Journal   p.100, vol.43, no6
Microwave Journal   p.110, vol.43, no6
Microwave Journal   p.120, vol.43, no6
Microwave Journal   p.128, vol.43, no6
Microwave Journal   p.146, vol.43, no6
Microwave Journal   p.150, vol.43, no6
Microwave Journal   p.156, vol.43, no6
Microwave Journal   p.160, vol.43, no6
Microwave Journal   p.22. vol.43. no.7
Microwave Journal   p.64. vol.43. no.7
Microwave Journal   p.74. vol.43. no.7
Microwave Journal   p.88. vol.43. no.7
Microwave Journal   p.96. vol.43. no.7
Microwave Journal   p.104. vol.43. no.7
Microwave Journal   p.136 vol.43. no.7
Microwave Journal   p.144 vol.43. no.7
Microwave Journal   p.110 vol.43. no.7
Microwave Journal   p.126 vol.43. no.7
Microwave Journal   p.156. vol.43. no.7
Microwave Journal   p.22. vol.43 no.8
Microwave Journal   p.66. vol.43. no.8
Microwave Journal   p.80. vol.43. no.8
Microwave Journal   p.92. vol.43. no.8
Microwave Journal   p.106. vol.43. no.8
Microwave Journal   p.120. vol.43. no.8
Microwave Journal   p.22, vol. 43, NO. 9
Microwave Journal   p.94, vol. 43, NO. 9
Microwave Journal   p.108, vol. 43, NO. 9
Microwave Journal   p.126, vol. 43, NO. 9
Microwave Journal   p.140, vol. 43, NO. 9
Microwave Journal   p.152, vol. 43, NO. 9
Microwave Journal   p.172, vol. 43, NO. 9
Microwave Journal   p.182, vol. 43, NO. 9
Microwave Journal   p.190, vol. 43, NO. 9
Microwave Journal   p.200, vol. 43, NO. 9
Microwave Journal   p.22, vol. 43, NO. 10
Microwave Journal   p.68, vol. 43, NO. 10
Microwave Journal   p.78, vol. 43, NO. 10
Microwave Journal   p.86, vol. 43, NO. 10
Microwave Journal   p.96, vol. 43, NO. 10
Microwave Journal   p.106, vol. 43, NO. 10
Microwave Journal   p.112, vol. 43, NO. 10
Microwave Journal   p.116, vol. 43, NO. 10
Microwave Journal   p.124, vol. 43, NO. 10
Microwave Journal   p. 22, vol. 43 no. 11
Microwave Journal   p. 64, vol. 43 no. 11
Microwave Journal   p. 76, vol. 43 no. 11
Microwave Journal   p. 86, vol. 43 no. 11
Microwave Journal   p. 106, vol. 43 no. 11
Microwave Journal   p. 122, vol. 43 no. 11
Microwave Journal   p. 136, vol. 43 no. 11
Microwave Journal   p. 143, vol. 43 no. 11
Microwave Journal   p. 154, vol. 43 no. 11
Microwave Journal   p. 160, vol. 43 no. 11
Microwave Journal   p.168, vol. 43 no. 11
Microwave Journal   p. 176, vol. 43 no. 11
Microwave Journal   p. 190 vol. 43 no. 11
Microwave Journal   p. 194, vol. 43 no. 11
Microwave Journal   p. 200, vol. 43 no. 11
Microwave Journal   p.22,vol.43 no.12
Microwave Journal   p.90,vol.43 no.12
Microwave Journal   p.106,vol.43 no.12
Microwave Journal   p.114,vol.43 no.12
Microwave Journal   p.120,vol.43 no.12
Microwave Journal   p.132,vol.43 no.12
Microwave Journal   p.138,vol.43 no.12
Microwave Journal   p.22,vol.44 no.1
Microwave Journal   p.82,vol.44 no.1
Microwave Journal   p.96,vol.44 no.1
Microwave Journal   p.114,vol.44 no.1
Microwave Journal   p.138,vol.44 no.1
Microwave Journal   p.152,vol.44 no.1
Microwave Journal   p.156,vol.44 no.1
Microwave Journal   p.160,vol.44 no.1
Microwave Journal   p.200,vol.44 no.1
Microwave Journal   p.216,vol.44 no.1
Microwave Journal   p.224,vol.44 no.1
Microwave Journal   p.230,vol.44 no.1
Microwave Journal   p.22,vol.44 no.2
Microwave Journal   p.78,vol.44 no.2
Microwave Journal   p.96,vol.44 no.2
Microwave Journal   p.112,vol.44 no.2
Microwave Journal   p.126,vol.44 no.2
Microwave Journal   p.142,vol.44 no.2
Microwave Journal   p.154,vol.44 no.2
Microwave Journal   p.166,vol.44 no.2
Microwave Journal   p.182,vol.44 no.2
Microwave Journal   p.186,vol.44 no.2
Microwave Journal   p.198, vol.44 no.2
Microwave Journal   p.198,vol.44 no.2
Microwave Journal   p.202,vol.44 no.2
Microwave Journal   p. 20. vol. 44. no. 3
Microwave Journal   p. 66. vol. 44. no. 3
Microwave Journal   p. 82. vol. 44. no. 3
Microwave Journal   p. 86. vol. 44. no. 3
Microwave Journal   p. 100. vol. 44. no. 3
Microwave Journal   p. 110. vol. 44. no. 3
Microwave Journal   p. 128. vol. 44. no. 3
Microwave Journal   p. 140. vol. 44. no. 3
Microwave Journal   p. 148. vol. 44. no. 3
Microwave Journal   p. 20. vol. 44. no. 4
Microwave Journal   p. 64. vol. 44. no. 4
Microwave Journal   p. 76. vol. 44. no. 4
Microwave Journal   p. 88. vol. 44. no. 4
Microwave Journal   p. 110. vol. 44. no. 4
Microwave Journal   p. 122. vol. 44. no. 4
Microwave Journal   p. 130. vol. 44. no. 4
Microwave Journal   p. 24 vol. 44 no. 5
Microwave Journal   p. 40 vol. 44 no. 5
Microwave Journal   p. 58 vol. 44 no. 5
Microwave Journal   p. 78 vol. 44 no. 5
Microwave Journal   p. 174 vol. 44 no. 5
Microwave Journal   p. 186 vol. 44 no. 5
Microwave Journal   p. 192 vol. 44 no. 5
Microwave Journal   p. 284 vol. 44 no. 5
Microwave Journal   p. 302 vol. 44 no. 5
Microwave Journal   p. 318 vol. 44 no. 5
Microwave Journal   p. 330 vol. 44 no. 5
Microwave Journal   p. 336 vol. 44 no. 5
Microwave Journal   p. 348 vol. 44 no. 5
Microwave Journal   p. 354 vol. 44 no. 5
Microwave Journal   p. 360 vol. 44 no. 5
Microwave Journal   p. 368 vol. 44 no. 5
Microwave Journal   p. 20 vol. 44 no. 6
Microwave Journal   p. 70 vol. 44 no. 6
Microwave Journal   p. 86 vol. 44 no. 6
Microwave Journal   p. 100 vol. 44 no. 6
Microwave Journal   p. 114 vol. 44 no. 6
Microwave Journal   p. 136 vol. 44 no. 6
Microwave Journal   p. 152 vol. 44 no. 6
Microwave Journal   p. 156 vol. 44 no. 6
Microwave Journal   p. 22, Vol. 44, No. 7
Microwave Journal   p. 70, Vol. 44, No. 7
Microwave Journal   p. 90, Vol. 44, No. 7
Microwave Journal   p. 102, Vol. 44, No. 7
Microwave Journal   p. 116, Vol. 44, No. 7
Microwave Journal   p. 128, Vol. 44, No. 7
Microwave Journal   p. 142, Vol. 44, No. 8
Microwave Journal   p. 22, Vol. 44, No. 8
Microwave Journal   p. 66, Vol. 44, No. 8
Microwave Journal   p. 84, Vol. 44, No. 8
Microwave Journal   p. 94, Vol. 44, No. 8
Microwave Journal   p. 106, Vol. 44, No. 8
Microwave Journal   p. 122, Vol. 44, No. 8
Microwave Journal   p. 132, Vol. 44, No. 8
Microwave Journal   p. 22, vol. 44, no. 9
Microwave Journal   p. 104, vol. 44, no. 9
Microwave Journal   p. 120, vol. 44, no. 9
Microwave Journal   p. 138, vol. 44, no. 9
Microwave Journal   p. 148, vol. 44, no. 9
Microwave Journal   p. 160, vol. 44, no. 9
Microwave Journal   p. 168, vol. 44, no. 9
Microwave Journal   p. 176, vol. 44, no. 9
Microwave Journal   p. 186, vol. 44, no. 9
Microwave Journal   p. 204, vol. 44, no. 9
Microwave Journal   p. 212, vol. 44, no. 9
Microwave Journal   p. 22, vol. 44, no. 10
Microwave Journal   p. 64, vol. 44, no. 10
Microwave Journal   p. 68, vol. 44, no. 10
Microwave Journal   p. 82, vol. 44, no. 10
Microwave Journal   p. 98, vol. 44, no. 10
Microwave Journal   p. 110, vol. 44, no. 10
Microwave Journal   p. 122, vol. 44, no. 10
Microwave Journal   p. 136, vol. 44, no. 10
Microwave Journal   p. 148, vol. 44, no. 10
Microwave Journal   p. 156, vol. 44, no. 10
Microwave Journal   p. 22, vol. 44, no. 11
Microwave Journal   p. 66, vol. 44, no. 11
Microwave Journal   p. 90, vol. 44, no. 11
Microwave Journal   p. 104, vol. 44, no. 11
Microwave Journal   p. 118, vol. 44, no. 11
Microwave Journal   p. 130, vol. 44, no. 11
Microwave Journal   p. 140, vol. 44, no. 11
Microwave Journal   p. 150, vol. 44, no. 11
Microwave Journal   p. 170, vol. 44, no. 11
Microwave Journal   p. 180, vol. 44, no. 11
Microwave Journal   p. 20, vol. 44, no. 12
Microwave Journal   p. 60, vol. 44, no. 12
Microwave Journal   p. 72, vol. 44, no. 12
Microwave Journal   p. 84, vol. 44, no. 12
Microwave Journal   p. 20,vol. 45,no. 1
Microwave Journal   p. 62,vol. 45,no. 1
Microwave Journal   p. 80,vol. 45,no. 1
Microwave Journal   p. 92,vol. 45,no. 1
Microwave Journal   p. 104,vol. 45,no. 1
Microwave Journal   p. 114,vol. 45,no. 1
Microwave Journal   p. 124,vol. 45,no. 1
Microwave Journal   p. 20,vol. 45,no. 3
Microwave Journal   p. 68,vol. 45,no. 3
Microwave Journal   p. 82,vol. 45,no. 3
Microwave Journal   p. 96,vol. 45,no. 3
Microwave Journal   p. 106,vol. 45,no. 3
Microwave Journal   p. 22, vol. 45, no. 4
Microwave Journal   p. 60, vol. 45, no. 4
Microwave Journal   p. 78, vol. 45, no. 4
Microwave Journal   p. 92, vol. 45, no. 4
Microwave Journal   p. 104, vol. 45, no. 4
Microwave Journal   p. 108, vol. 45, no. 4
Microwave Journal   p. 114, vol. 45, no. 4
Microwave Journal   p. 124, vol. 45, no. 4
Microwave Journal   p. 268, vol. 45, no. 5
Microwave Journal   p. 280, vol. 45, no. 5
Microwave Journal   p. 288, vol. 45, no. 5
Microwave Journal   p. 300, vol. 45, no. 5
Microwave Journal   p. 306, vol. 45, no. 5
Microwave Journal   p. 310, vol. 45, no. 5
Microwave Journal   p. 317, vol. 45, no. 5
Microwave Journal   p. 324, vol. 45, no. 5
Microwave Journal   p. 329, vol. 45, no. 5
Microwave Journal   p. 333, vol. 45, no. 5
Microwave Journal   p. 336, vol. 45, no. 5
Microwave Journal   p. 20, vol. 45, no. 7
Microwave Journal   p. 50, vol. 45, no. 7
Microwave Journal   p. 64, vol. 45, no. 7
Microwave Journal   p. 78, vol. 45, no. 7
Microwave Journal   p. 88, vol. 45, no. 7
Microwave Journal   p. 20, vol. 45, no. 8
Microwave Journal   p. 54, vol. 45, no. 8
Microwave Journal   p. 72, vol. 45, no. 8
Microwave Journal   p. 22, vol. 45, no 9
Microwave Journal   p. 96, vol. 45, no 9
Microwave Journal   p. 132, vol. 45, no 9
Microwave Journal   p. 154, vol. 45, no 9
Microwave Journal   p. 166, vol. 45, no 9
Microwave Journal   p. 178, vol. 45, no 9
Microwave Journal   p. 184, vol. 45, no 9
Microwave Journal   p. 188, vol. 45, no 9
Microwave Journal   p. 192, vol. 45, no 9
Microwave Journal   p. 20, vol. 45, no 10
Microwave Journal   p. 22, vol. 45, no 10
Microwave Journal   p. 64, vol. 45, no 10
Microwave Journal   p. 82, vol. 45, no 10
Microwave Journal   p. 100, vol. 45, no 10
Microwave Journal   p. 106, vol. 45, no 10
Microwave Journal   p. 114, vol. 45, no 10

				
DOCUMENT INFO