RF MEMS market II: Inhaltsverzeichnis
List of figures
Glossary of Abbreviations
1 Executive Summary
2 Methodology
3 Industry Overview
3.1 Introduction to RF MEMS
3.2 RF MEMS Products
3.3 Market Players
3.4 Commercial Status of RF MEMS
4 The Total RF MEMS Market
4.1 The RF MEMS Market by Application
4.2 The RF MEMS Market by Component Type
4.3 2005 Forecasts in Comparison to 2002 Forecasts
5 The RF MEMS Market by Application
5.1 Mobile Telephony
5.2 Consumer electronics and IT peripherals
5.3 WLANs and WPANs
5.4
Base Stations (pdf)
5.5 Microwave Telecommunications
5.6 RF Instrumentation and ATE
5.7 Automotive
5.8 Satellites
5.9 Military Tactical Radios
5.10 Military Phased Array Antennas
6 The RF MEMS Market by Component
6.1 RF MEMS Switches
6.2 Tunable Capacitors
6.3 BAW Resonators
6.4 Micro-mechanical Resonators
6.5 Other RF MEMS Devices
7 Conclusions
8 Company Profiles
8.1
North American Companies (pdf)
8.2 European Companies
8.3 Asian Companies
List of Figures
1.1 Implementation of RF MEMS by Application, 20091.2 Total Turnover Forecasts for the RF MEMS Market by Application
3.1 Operating Frequency Ranges for RF MEMS
3.2 Mobile Communication Market Drivers
3.3 MEMS Switch packaged using Liquid Encapsulation, Courtesy of MEMtronics
3.4 Ohmic Switch
3.5 Capacitive Switch
3.6 RF MEMS switch, TeraVicta
3.7 Parallel Plate MEMS Capacitor, Courtesy of Fraunhofer ISIT
3.8 Micro-machined Inter-digital Capacitor, Courtesy of CNR-IMM-M2T
3.9 Schematic view of a Film Bulk Acoustic Resonator (FBAR)
3.10 Schematic view of a Solidly Mounted Resonator (SMR)
3.11 BAWPCS duplexers chips, Courtesy of Infineon Technologies AG
3.12 A vertically drivenmicro-mechanical resonator, Clark T.-C.Nguyen, University
of Michigan
3.13 A two-port laterally driven micro-mechanical resonator, Clark T.-C.
Nguyen, University of Michigan
3.14 Micromachined Inductor, Courtesy of Fraunhofer ISIT
3.15 RF MEMS industrial chain
3.16 Estimation of Public Funding for RF MEMS R&D worldwide in 2004
3.17 List of Major Companies by Product Type
3.18 List of Major Research Institutions by Product Type
3.19 Commercialisation Status for RF MEMS Products
3.20 The RF MEMS Switch Hype Curve
4.1 Investigated RF MEMS Components
4.2 Investigated Applications
4.3 Implementation of RF MEMS by Application, 2009
4.4 Total Turnover Forecasts for the RF MEMS Market
4.5 Total Unit Forecasts for the RF MEMS Market
4.6 Implementation Potential for RF MEMS by Application
4.7 Roadmap for Implementation of RF MEMS by Application
4.8 Total Turnover Forecasts for the RF MEMS Market by Application
4.9 Total Unit Forecasts for the RF MEMS Market by Application
4.10 Total Turnover Forecasts for the RF MEMS Market for Non-Volume Communications
Applications
4.11 Total Unit Forecasts for the RF MEMS Market for Non-Volume Applications
4.12 Roadmap for Implementation of RF MEMS by Component Type
4.13 Total Turnover Forecasts for the RF MEMS Market by Component
4.14 Total Unit Forecasts for the RF MEMS Market by Component
4.15 Turnover Forecasts from the 2002 Report in comparison with the 2005
Report
5.1 Schematic view of a SP8T band/mode switching module
5.2 Thermal Switch packaged using Thin Film Encapsulation at Wafer Level,
Courtesy of ST Microelectronics and CEA-Leti
5.3 BAW duplexer, Courtesy of Epcos
5.4 Schematic View of RF MEMS Switches integrated within the Wiring Levels
for SiGe or Analog CMOS IC’s, Courtesy of IBM
5.5 Total Turnover Forecasts for the RF MEMS Market for Mobile Telephony
5.6 Total Unit Forecasts for the RF MEMS Market for Mobile Telephony
5.7 Discera resonator in wafer-level vacuum packaging, shown on top of Kyocera
oscillator
5.8 Schematic view of the Enpirion MEMS inductor for DC-DC converters
5.9 Total Turnover Forecasts for the RF MEMS Market for Consumer Electronics
and IT Peripherals
5.10 Total Unit Forecasts for the RF MEMS Market for Consumer Electronics
and IT Peripherals
5.11 Total Turnover Forecasts for the RF MEMS Market for WLAN & WPAN
5.12 Total Unit Forecasts for the RF MEMS Market for WLAN &WPAN
5.13 Architectural concept of a multiband/multistandard basestation
5.14 Synthesizer Radio Function Block
5.15 Total Turnover Forecasts for the RF MEMS Market for Base Stations
5.16 Total Unit Forecasts for the RF MEMS Market for Base Stations
5.17 Total Turnover Forecasts for the RF MEMS Market for Microwave Telecommunications
5.18 Total Unit Forecasts for the RFMEMS Market for Microwave Telecommunications
5.19 Schematic View of the PIN Electronics of an ATE System’s Test
Head
5.20 SPDT RFMEMS Switch for the DC-18GHz Range, Courtesy of XCOM Wireless,
Inc.
5.21 Total Turnover Forecasts for the RF MEMS Market for RF Instrumentation
and ATE
5.22 Total Unit Forecasts for the RF MEMS Market for RF Instrumentation
and ATE
5.23 Overview of Driving Assistance Systems
5.24 Concept for Beam Steering with RF MEMS based Planar Antenna Systems
5.25 Total Turnover Forecasts for the RF MEMS Market for Automotive
5.26 Total Unit Forecasts for the RF MEMS Market for Automotive
5.27 Total Turnover Forecasts for the RF MEMS Market for Satellites
5.28 Total Unit Forecasts for the RF MEMS Market for Satellites
5.29 RF MEMS based UHF 2-Pole MEMS Capacitor tunable Filter, Courtesy of
Rockwell Scientific
5.30 Integration of RF MEMS Filter Module, Courtesy of Raytheon
5.31 Total Turnover Forecasts for the RF MEMS Market for Military Radio
Systems
5.32 Total Units Forecasts for the RF MEMS Market for Military Radio Systems
5.33 90. RFMEMS enabled Phase Shifter Stick, Courtesy of X-COM Wireless,
Inc.
5.34 Electronically Steerable Antenna employing 25000 Switches, Courtesy
of Radant MEMS, Inc.
5.35 Total Turnover Forecasts for the RF MEMS Market for phased array antenna
5.36 Total Unit Forecasts for the RF MEMS Market for phased array antenna
6.1 Ohmic Contact Electrostatic Cantilever Switch, Courtesy of Radant MEMS,
Inc.
6.2 Low Temperature Hermetic Thin Film Packaging (CMOS compatible), Courtesy
of CEA-Leti
6.3 RF MEMS Switches in Comparison with GaAs FET, PIN Diodes and EMR technologies
6.4 Roadmap for implementation of MEMS switches
6.5 Total Turnover Forecasts for the RF MEMS Switches Market
6.6 Total Unit Forecasts for the RF MEMS Switches Market
6.7 MEMS Tunable Capacitor, Courtesy of Philips
6.8 Roadmap for Implementation of Tunable Capacitors
6.9 Total Turnover Forecasts for the Tunable Capacitors Market
6.10 Total Unit Forecasts for the Tunable Capacitors Market
6.11 Detail of a FBAR structure, Courtesy of Agilent
6.12 Detail of a BAWPCS duplexer, Courtesy of Infineon Technologies AG
6.13 BAW Technology in Comparison with Ceramic and SAW Technologies
6.14 Roadmap for Implementation of BAW Resonators
6.15 Total Turnover Forecasts for the BAW Resonators Market
6.16 Total Unit Forecasts for the BAW Resonators Market
6.17 ’Clamped-Clamped’ Beam Micro-mechanical Resonator, Courtesy
of Discera
6.18 Cross-section of a CMOS compatible back-end-of-line Silicon Germanium
resonator with sub-µs gap electrodes and metal interconnects. Courtesy
of Silicon Clocks, Inc
6.19 Roadmap for Implementation of Micro-mechanical Resonators
6.20 Total Turnover Forecasts for the Micro-mechanical Resonators Market
6.21 Total Unit Forecasts for the Micro-mechanical Resonators Market
6.22 Total Turnover Forecasts for the MEMS Inductors Market
6.23 Total Unit Forecasts for the MEMS Inductors Market
6.24 Total Turnover Forecasts for the Cavity Resonators Market
6.25 Total Unit Forecasts for the Cavity Resonators Market
260 pages: 180 pages of analysis + 60 company profiles