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Surface Acoustic Wave (SAW) Sensors: Technologies and Global Markets -- Focus on EuropeNEW YORK, Sept. 6, 2012 /PRNewswire via COMTEX/ -- Reportlinker.com announces that a new market research report is available in its catalogue: Surface Acoustic Wave (SAW) Sensors: Technologies and Global Markets -- Focus on Europe http://www.reportlinker.com/p0958090/Surface-Acoustic-Wave-SAW-Sensors-Technologies-and-Global-Markets-----Focus-on-Europe.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Electronic_Component_and_Semiconductor INTRODUCTION STUDY GOALS AND OBJECTIVES BCC's goal in conducting this study was to determine the current status of the worldwide demand for surface acoustic wave filters and duplexers and to assess its growth potential over a five-year period from 2011 to 2016. We were particularly interested in the stimulation in demand for acoustic wave technology induced by the recent surge in the usage of handsets and tablets and wireless devices. In addition, we were interested in the market potential for new emerging surface acoustic wave sensor technologies. Our key objective was to present a comprehensive analysis of the current surface acoustic wave technologies market and its future direction. REASONS FOR DOING THIS STUDY In addition to their traditional functions in national defense and industrial applications, surface acoustic wave technologies are becoming a significant component of the world's consumer electronics market. We were interested in determining where surface acoustic wave devices were being used and examined their growth potential. We also were especially interested in determining the technology types currently in use and their specific applications. BCC has over the past several years examined the sensor industry. Within this time period, surface acoustic wave devices have emerged rapidly as a passive sensor having diverse applications; as a consequence, the use of this technology is changing fast and we wanted to conduct a thorough and detailed analysis and project its growth potential. INTENDED AUDIENCE We have compiled a study of current surface acoustic wave devices and new emerging surface acoustic wave sensor technologies. We present the surface acoustic wave technology industry economic environment, technological descriptions and issues, applications, market factors and potential, and project shipments for 2011 and 2016. We also project market values and distribution of surface acoustic wave technologies by five major market sectors. This study will be of interest to the sensor technologies industry, surface acoustic wave filter and duplexer manufacturers, distributors, system integrators, and research institutions. It will be of interest also to manufacturers of wireless device and systems, communication technology developers in addition to manufacturers of information technology hardware devices, semiconductor device manufacturers, and electronic component manufacturers.SCOPE AND FORMAT The scope of this study encompasses the major types of surface acoustic wave technologies. BCC analyzes each surface acoustic wave technology type, determines its current market status, examines its impact on future markets, and presents forecasts of growth over the next five years. Technological issues including the latest trends are discussed. Other influential factors such as the increased use of surface acoustic wave sensors detection applications by law enforcement and emergency responder entities are explored. BCC analyzes the industry on a worldwide basis, both from a manufacturing and demand point of view. We examine government regulation and surface acoustic wave industry organizations and activities in major regions of the world. The role that surface acoustic wave sensor technologies play in wireless communication, industrial, military, and safety monitoring, as well as instrumentation is also examined. METHODOLOGY Both primary and secondary research methodologies were used in preparing this study. BCC presents an analysis, by each surface acoustic wave technology type, of the estimated demand for filters and duplexers in 2011. Our estimated value is what buying entities have paid in un-depreciated dollars. Then, based on our study, we analyze the potential applications for each technology, and forecast unit shipments for 2011 and 2016. We also analyze the demand for surface acoustic wave devices by five major market sectors that use surface acoustic wave technology. Also, all the tables are calculated in 2011 constant U.S. dollars. INFORMATION SOURCES BCC analyzed data produced by the U.S. government agencies industry trade association and international organizations to obtain data for this study. We also spoke with manufacturers of various surface acoustic wave technology types in the United States and manufacturers' associations in Japan. In addition, we compiled data from current financial and trade information sources. AUTHOR'S CREDENTIALS Carlet Auguste is president and CEO of Efficiency Engineering Inc., a consulting firm that provides technology engineering services to corporations and nonprofit organizations. He consults regularly with government and private industry companies from a variety of fields of engineering to help create technology innovations for the private sector as well as government customers needing technology solutions for national defense. He previously worked for a U.S. government agency in the area of intelligence and security. TABLE OF CONTENTS CHAPTER 1 INTRODUCTION 1 STUDY GOALS AND OBJECTIVES 1 REASONS FOR DOING THIS STUDY 1 INTENDED AUDIENCE 1 SCOPE AND FORMAT 1 METHODOLOGY 2 INFORMATION SOURCES 2 AUTHOR'S CREDENTIALS 2 RELATED BCC REPORTS 2 BCC ONLINE SERVICES 3 DISCLAIMER 3 CHAPTER 2 SUMMARY 5 SUMMARY TABLE GLOBAL DEMAND FOR SURFACE ACOUSTIC WAVE SENSORS, THROUGH 2016 ($ MILLIONS) 6 SUMMARY FIGURE GLOBAL DEMAND FOR SURFACE ACOUSTIC WAVE DEVICES, 2010-2016 ($ MILLIONS) 6 CHAPTER 3 OVERVIEW 8 INTRODUCTION TO SURFACE ACOUSTIC WAVE DEVICES 8 TABLE 1 KEY SAW DEVICE CONSUMER APPLICATIONS 9 TABLE 2 OTHER GENERAL SAW DEVICE USAGE 10 QUALITY FACTOR (Q FACTOR) 10 DUPLEXERS 10 SURFACE ACOUSTIC WAVE DETECTION SENSORS 10 MILITARY APPLICATIONS 11 TABLE 3 KEY SAW DEVICE MILITARY APPLICATIONS 11 ACOUSTIC WAVE DEVICES MANUFACTURING 11 TABLE 4 SURFACE ACOUSTIC DEVICE PACKAGING 12 SURFACE ACOUSTIC WAVE TRANSDUCER MATERIALS 12 TABLE 5 SURFACE ACOUSTIC WAVE FILTER MATERIALS 13 AIR INTERFACE TECHNOLOGIES 13 TABLE 6 WIRELESS COMMUNICATIONS TECHNOLOGIES HAVING SAW RADIO FREQUENCY FILTERING APPLICATIONS 14 FOURTH GENERATION LONG TERM EVOLUTION 14 LONG TERM EVOLUTION (LTE) 15 TABLE 7 FREQUENCY DIVISION DUPLEXING (FDD) DOWNLINK PEAK DATA RATES (640 AM) 16 TABLE 8 FREQUENCY DIVISION DUPLEXING (FDD) UPLINK PEAK DATA RATES (SINGLE ANTENNA) 16 TABLE 9 TRANSMISSION BANDWIDTH CONFIGURATION 16 TRANSMISSION BANDWIDTH CONFIGURATIONS IN LTE 17 TABLE 10 FREQUENCY BAND SUPPORTED IN LTE 17 BROADBAND PCS 18 NARROWBAND PCS 19 WIDEBAND CODE DIVISION MULTIPLE ACCESSES (WCDMA) 19 WIRELESS DEVICES 20 Laptops and PDAs 20 Growth of Wireless Broadband 20 WI-FI Worldwide Interoperability for Microwave Access (WIMAX) 21 FIGURE 1 INDUSTRY FORECASTS OF MOBILE DATA TRAFFIC ($) 22 Growing Spectrum Needs 24 Spectrum: the Great Enabler 24 The Importance of Spectrum Flexibility 25 OTHER POTENTIAL APPLICATIONS FOR ACOUSTIC WAVE SENSORY DEVICES 26 INDUSTRIAL 26 SAFETY 26 SECURITY 27 RADIO FREQUENCY (RF) TAGGING 27 CHAPTER 4 THE GLOBAL MARKET FOR SAW TRANSDUCERS 29 SAW FILTERS 29 TABLE 11 GLOBAL DEMAND FOR SAW FILTERS BY REGION, THROUGH 2016 ($ MILLIONS) 29 TABLE 12 KEY DRIVERS OF THE SURFACE ACOUSTIC WAVE SENSOR INDUSTRY 30 GLOBAL SAW DUPLEXERS MARKET 30 TABLE 13 GLOBAL DEMAND FOR SAW DUPLEXERS, THROUGH 2016 ($ MILLIONS) 31 TABLE 14 GLOBAL SAW FILTER SHIPMENT ESTIMATES BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (IN MILLIONS OF UNITS) 32 TABLE 15 GLOBAL SAW DUPLEXER SHIPMENT ESTIMATES BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (IN MILLIONS OF UNITS) 33 TABLE 16 THE WORLD'S TOP BUYERS OF SURFACE ACOUSTIC SENSORS 33 CHAPTER 5 THE EUROPEAN MARKET 35 EUROPE 35 TABLE 17 EUROPEAN DEMAND FOR SURFACE ACOUSTIC WAVE DEVICES BY REGION, THROUGH 2016 ($ MILLIONS) 35 TABLE 18 EUROPEAN DEMAND FOR SAW DUPLEXERS, THROUGH 2016 ($ MILLIONS) 36 TABLE 19 EUROPEAN DEMAND FOR SAW FILTERS, THROUGH 2016 ($ MILLIONS) 38 TABLE 20 SAW FILTER SHIPMENT ESTIMATES FOR EUROPE BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 39 TABLE 21 SAW DUPLEXER SHIPMENT ESTIMATES FOR EUROPE BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 40 TABLE 22 ESTIMATES FOR EUROPEAN TERRITORIES GENERATING SIGNIFICANT SALES ACTIVITY FOR SURFACE ACOUSTIC WAVE DEVICES 40 FRANCE 41 TABLE 23 SAW FILTER SHIPMENT ESTIMATES FOR FRANCE BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 41 TABLE 24 SAW DUPLEXER SHIPMENT ESTIMATES FOR FRANCE BY AIR INTERFACE TECHNOLOGY THROUGH 2016 (MILLIONS OF UNITS) 41 GERMANY 42 TABLE 25 SAW FILTER SHIPMENT ESTIMATES FOR GERMANY BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 42 TABLE 26 SAW DUPLEXER SHIPMENT ESTIMATES FOR GERMANY BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 43 ITALY 43 TABLE 27 SAW FILTER SHIPMENT ESTIMATES FOR ITALY BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 44 TABLE 28 SAW DUPLEXER SHIPMENT ESTIMATES FOR ITALY BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 44 SPAIN 45 TABLE 29 SAW FILTER SHIPMENT ESTIMATES FOR SPAIN BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 45 TABLE 30 SAW DUPLEXER SHIPMENT ESTIMATES FOR SPAIN BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 45 NORWAY 46 TABLE 31 SAW FILTER SHIPMENT ESTIMATES FOR NORWAY BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 46 TABLE 32 SAW DUPLEXER SHIPMENT ESTIMATES FOR NORWAY BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (IN MILLIONS OF UNITS) 47 NETHERLANDS 48 TABLE 33 SAW FILTER SHIPMENT ESTIMATES FOR THE NETHERLANDS BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (IN MILLIONS OF UNITS) 48 TABLE 34 SAW DUPLEXER SHIPMENT ESTIMATES FOR THE NETHERLANDS BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 49 THE UNITED KINGDOM 49 TABLE 35 SAW FILTER SHIPMENT ESTIMATES FOR THE UNITED KINGDOM BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 50 TABLE 36 SAW DUPLEXER SHIPMENT ESTIMATES FOR THE UNITED KINGDOM BY AIR INTERFACE TECHNOLOGY, THROUGH 2016 (MILLIONS OF UNITS) 50 TABLE 37 ESTIMATES FOR EUROPEAN TERRITORIES GENERATING SIGNIFICANT SALES ACTIVITY FOR SURFACE ACOUSTIC WAVE DEVICES 51 CHAPTER 6 GOVERNMENT REGULATIONS 53 UNITED STATES 53 FEDERAL COMMUNICATIONS COMMISSION: PART-15 53 TABLE 38 (A) EXCEPT AS OTHERWISE EXEMPTED IN 15.23, 15.103, AND 15.113, UNINTENTIONAL RADIATORS SHALL BE AUTHORIZED PRIOR TO THE INITIATION OF MARKETING, AS FOLLOWS: 53 U.S. FOOD AND DRUG ADMINISTRATION (FDA) GUIDANCE 55 Concerns Related to RF Wireless Technology Use in and Around Medical Devices 56 PERFORMANCE OF WIRELESS FUNCTIONS 57 WIRELESS COEXISTENCE 57 WIRELESS QUALITY OF SERVICE 58 INTEGRITY OF DATA TRANSMITTED WIRELESSLY 58 SECURITY OF DATA TRANSMITTED WIRELESSLY AND WIRELESS NETWORK ACCESS 58 EMC 59 BRIEF SUMMARY OF EXAMPLES OF POTENTIALLY PROBLEMATIC SITUATIONS 59 Risk Management for RF Wireless Medical Devices: General Concepts 60 Design and Development 60 DEVICE PERFORMANCE AND PHYSICAL SPECIFICATIONS 61 SOFTWARE 61 EMC AND TELECOMMUNICATIONS 62 ENVIRONMENTAL REQUIREMENTS 62 SURGICAL ROOMS 62 INTENSIVE CARE UNITS 62 INTERMEDIATE CARE OR STEP-DOWN UNIT 63 EMERGENCY VEHICLES 63 AMBULATORY AND TRANSPORT 63 HOME 63 RISK ANALYSIS AND CONTROL MEASURES 63 Design and Development Verification 64 Design and Development Validation 66 Labeling 67 Purchasing Controls and Acceptance Activities 68 Corrective and Preventive Action 68 Servicing 69 "No Problem Found" 70 Appendix A: Additional Information about RF Wireless Communications 70 JAPAN 71 About EMC, EMI and Safety Regulations: 72 About Certification Organizations: 72 TAIWAN 72 Technical Regulations 72 PLMN08 72 Low Power Radio Device: LP0002 73 PLMN05 73 CHAPTER 7 RESEARCH AND DEVELOPMENT 75 A SURFACE ACOUSTIC WAVE DEVICE INCLUDES A MICRO-MACHINED PRESSURE TRANSDUCER FOR MONITORING TIRE PRESSURE 75 NON-INVASIVE INSPECTION OF MICROCRACKS 75 A NOVEL SURFACE ACOUSTIC WAVE-BASED BIOSENSOR FOR HIGHLY SENSITIVE FUNCTIONAL ASSAYS OF OLFACTORY RECEPTORS 75 METHODS AND SYSTEMS FOR CODING SAW OFC DEVICES TO MITIGATE CODE 76 SURFACE ACOUSTIC WAVE OPTO-MECHANICAL OSCILLATOR AND FREQUENCY COMB GENERATOR 76 A SURFACE ACOUSTIC WAVE HUMIDITY SENSOR WITH HIGH SENSITIVITY BASED ON ELECTROSPUN MWCNT/NAFION NANOFIBER FILMS 77 A NOVEL SURFACE ACOUSTIC WAVE-BASED BIOSENSOR FOR HIGHLY SENSITIVE FUNCTIONAL ASSAYS OF OLFACTORY RECEPTORS 77 TRANSPORTATION AND MIXING OF DROPLETS BY SURFACE ACOUSTIC WAVE 77 METHODS AND SYSTEMS FOR CODING SAW OFC DEVICES TO MITIGATE CODE 78 SURFACE ACOUSTIC WAVE OPTO-MECHANICAL OSCILLATOR AND FREQUENCY COMB GENERATOR 78 A NOVEL SURFACE ACOUSTIC WAVE-BASED BIOSENSOR FOR HIGHLY SENSITIVE FUNCTIONAL ASSAYS OF OLFACTORY RECEPTORS 78 SURFACE ACOUSTIC WAVE HYDROGEN SENSOR 79 SENSITIVE AND SIMULTANEOUS DETECTION OF CARDIAC MARKERS IN HUMAN SERUM USING SURFACE ACOUSTIC WAVE IMMUNOSENSORS 79 ACOUSTICALLY-DRIVEN MICROFLUIDIC SYSTEMS ACOUSTIC FILTRATION, FRACTIONATION, AND MIXING IN MICROFLUIDIC SYSTEMS INTELLIGENT FRONT-END SAMPLE PREPARATION TOOL USING ACOUSTIC STREAMING MICROFLUIDIC SAMPLE PREPARATION FOR IMMUNOASSAYS MICROFLUIDIC TOOLS FOR BIOLOGICAL SAMPLE PREPARATION 80 SENSITIVE, SELECTIVE, FAST-RESPONDING, LOW-POWER, AND ROBUST SENSORS 80 MEASUREMENT OF MATERIAL NONLINEARITY USING SURFACE ACOUSTIC WAVE PARAMETRIC INTERACTION AND LASER ULTRASONICS 80 THE OBJECTIVE OF THIS PROJECT IS TO DEVELOP SENSITIVE, SELECTIVE AND FAST-RESPONDING SAW HYDROGEN SENSORS THAT OPERATE AT ROOM TEMPERATURE AND TO UTILIZE THESE ADVANCES IN THE DEVELOPMENT OF SAW AND OTHER ACOUSTIC WAVE SENSORS FOR OTHER GASES. THE APPROACH IS TO USE SYNTHESIS OF NANOMATERIALS AND THEIR UTILIZATION AS SAW SENSOR MATERIALS, GUIDED BY THEORETICAL CALCULATIONS AT MULTIPLE SCALES. 81 TIO2/LICL-BASED NANOSTRUCTURED THIN FILM FOR HUMIDITY SENSOR APPLICATIONS 81 CHAPTER 8 COMPANY PROFILES 84 TABLE 39 RANKING OF LEADING SURFACE ACOUSTIC WAVE DEVICE MANUFACTURERS 84 NORTH AMERICA 84 AVX CORP. 84 BOSTON PIEZO-OPTICS INC. 85 CTS CORPORATION 86 PHONON 86 RAYTHEON COMPANY 87 TRIQUINT SEMICONDUCTOR, INC. 88 VECTRON INTERNATIONAL 88 EUROPE 89 GOLLEDGE 89 ASIA 89 MARATA MANUFACTURING CO., LTD. 89 MERCURY UNITED ELECTRONICS INC. 90 NEC CORPORATION 91 PANASONIC INDUSTRIAL SOLUTIONS 91 RAKON 92 RFM 93 TAI-SAW TECHNOLOGY CO., LTD 94 WIN WIN CIRCUIT LTD. 94 CHAPTER 9 PATENT ANALYSIS 97 GLOBAL PATENT TRENDS 97 TABLE 40 PATENTS BY REGION 97 TABLE 41 GLOBAL PATENT GENERATION TRENDS BY TECHNOLOGY 97 TABLE 42 GLOBAL PATENTS STATISTICS BY INDUSTRY SECTORS 98 U.S. PATENT TRENDS 98 TABLE 43 U.S. PATENT GENERATION TRENDS BY TECHNOLOGY 98 TABLE 44 U.S. PATENTS STATISTICS BY INDUSTRY SECTOR 99 U.S. REGISTERED PATENTS 99 TABLE 45 UNITED STATES SURFACE ACOUSTIC WAVE SENSOR PATENTS 99 SAMPLE ABSTRACTS OF U.S. PATENTS 107 ACTIVE SONAR APPARATUSES AND METHODS 107 SCANNING PROBE MICROSCOPY WITH SPECTROSCOPIC MOLECULAR RECOGNITION 107 ELECTRONIC PATIENT MONITOR WITH AUTOMATICALLY CONFIGURED ALARM PARAMETERS 107 SNOW ALARM 108 PERIODIC SENSOR PANEL BASELINE ADJUSTMENT 108 GRAPHICAL INPUT CONTROLLER AND METHOD WITH REAR SCREEN IMAGE DETECTION 108 RESONATOR FILTER WORKING WITH SURFACE ACOUSTIC WAVES 108 SURFACE WAVE DEVICES WITH TAPERED TRANSDUCERS 108 SUPPRESSED FEATURE WAVEFORM FOR MODULATED SONAR TRANSMISSION 109 COMPOSITE ACOUSTIC ATTENUATION MATERIALS 109 MAGNETICALLY DRIVEN UNDERWATER PULSE GENERATOR 109 WAVE BLOCKING SYSTEMS AND METHODS 109 UNDERWATER ENERGY DAMPENING DEVICE 110 COUNTERMEASURE THREAT EMULATOR AND METHOD 110 BOOM SYSTEM AND ITS USE TO ATTENUATE UNDERWATER SOUND OR SHOCK WAVE TRANSMISSION 110 SOUND-ABSORBING AND REINFORCING STRUCTURE FOR ENGINE NACELLE ACOUSTIC PANEL 110 SURFACE ACOUSTIC WAVE DEVICE, SURFACE ACOUSTIC WAVE FILTER AND ANTENNA DUPLEXER USING THE SAME, AND ELECTRONIC EQUIPMENT USING THE SAME 111 SURFACE ACOUSTIC WAVE FILTER WITH MULTIPLE GROUND TERMINALS 111 SURFACE ACOUSTIC WAVE SUBSTRATE AND SURFACE ACOUSTIC WAVE FUNCTIONAL ELEMENT 111 SURFACE ACOUSTIC WAVE DEVICE, SURFACE ACOUSTIC WAVE APPARATUS, AND COMMUNICATIONS EQUIPMENT 111 SURFACE ACOUSTIC WAVE DEVICE 112 SURFACE ACOUSTIC WAVE DEVICE 112 SURFACE ACOUSTIC WAVE DEVICE INCLUDING AN IDT FORMED BY A METAL FILLED IN GROOVES ON A PIEZOELECTRIC SUBSTRATE 112 SURFACE ACOUSTIC WAVE RESONATOR, AND SURFACE ACOUSTIC WAVE FILTER AND ANTENNA DUPLEXER IN WHICH THE SURFACE ACOUSTIC WAVE RESONATOR IS USED 112 SURFACE ACOUSTIC WAVE DEVICE AND METHOD FOR MANUFACTURING THE SAME 113 SURFACE ACOUSTIC WAVE PRESSURE SENSOR 113 SURFACE ACOUSTIC WAVE DEVICE 113 ACOUSTIC WAVE DEVICE, DUPLEXER, COMMUNICATION MODULE, AND COMMUNICATION APPARATUS 113 SURFACE ACOUSTIC WAVE DEVICE, MODULE DEVICE, OSCILLATION CIRCUIT, AND METHOD FOR MANUFACTURING SURFACE ACOUSTIC WAVE DEVICE 113 SURFACE ACOUSTIC WAVE DEVICE AND METHOD OF FABRICATING THE SAME 114 SURFACE ACOUSTIC WAVE DEVICE, SURFACE ACOUSTIC WAVE FILTER AND ANTENNA DUPLEXER USING THE SAME, AND ELECTRONIC EQUIPMENT USING THE SAME 114 SURFACE ACOUSTIC WAVE FILTER AND METHOD FOR IMPROVED REJECTION 114 SURFACE ACOUSTIC WAVE BASED HUMIDITY SENSOR APPARATUS WITH INTEGRATED SIGNAL CONDITIONING 114 SURFACE ACOUSTIC WAVE ELEMENT, SURFACE ACOUSTIC WAVE APPARATUS, AND COMMUNICATION APPARATUS 115 METHODS FOR REMOTE CHARACTERIZATION OF AN ODOR 115 TRANSDUCER FOR SURFACE ACOUSTIC WAVES AND A RESONATOR AND A FILTER HAVING SAID TRANSDUCER 115 RF TRANSMITTER AND RECEIVER FRONT-END 115 SURFACE ACOUSTIC WAVE ELEMENT 115 ACOUSTO-OPTIC FILTER 116 PORTABLE ELECTRONIC DEVICE AND METHOD OF CONTROLLING SAME 116 BODY MOVEMENT ANALYSIS METHOD AND APPARATUS 116 POINTER DEVICE TO NAVIGATE A PROJECTED USER INTERFACE 116 PARTITIONED RADIO-FREQUENCY APPARATUS AND ASSOCIATED METHODS 116 EQUIVALENT RADIO FREQUENCY NOTCH FILTER, RADIO FREQUENCY CHIP, AND RECEIVER 117 SIGNAL PROCESSING APPARATUS HAVING FREQUENCY-SELECTIVE CIRCUIT WITH MIXER MODULE IMPLEMENTED FOR CONTROLLING FREQUENCY RESPONSE AND RELATED METHOD THEREOF 117 FREQUENCY-SELECTIVE CIRCUIT WITH MIXER MODULE IMPLEMENTED FOR CONTROLLING FREQUENCY RESPONSE, AND RELATED SIGNAL PROCESSING APPARATUS AND METHOD 117 SETTING A TRANSMISSION POWER LEVEL FOR A MOBILE UNIT 117 PACKAGE, ELECTRONIC DEVICE, AND METHOD OF MANUFACTURING ELECTRONIC DEVICE 117 ELECTRONIC DEVICE AND METHOD OF MANUFACTURING ELECTRONIC DEVICE 118 DISPLAY INPUT DEVICE, IMAGE FORMING APPARATUS, DISPLAYING METHOD OF A DISPLAY INPUT DEVICE 118 TOUCH SCREEN SYSTEM AND METHOD FOR OBTAINING COORDINATE THEREOF 118 RESISTIVE TOUCH SCREEN 118 RESISTIVE TOUCH SCREEN 119 VIDEO CHAPTER ACCESS AND LICENSE RENEWAL 119 ACTIONABLE-OBJECT CONTROLLER AND DATA-ENTRY 119 TRANSPARENT FORCE SENSOR AND METHOD OF FABRICATION 119 PORTABLE COMMUNICATION DEVICE WITH SECONDARY PERIPHERAL DISPLAY 119 FILTER, DUPLEXER AND ELECTRONIC DEVICE 120 PALLET WITH WIRELESS TRANSCEIVER FOR COMMUNICATING PALLET MANIFEST, CONDITION AND LOCATION INFORMATION 120 TEMPERATURE COMPENSATED THIN FILM ACOUSTIC WAVE RESONATOR 120 SURFACE ACOUSTIC WAVE FILTER AND DUPLEXER 120 LIGHT EMITTING DISPLAY WITH LIGHT MIXING WITHIN A FILM 121 APPARATUS AND METHOD FOR DRIVING CAPACITIVE ELECTROMECHANICAL TRANSDUCTION APPARATUS 121 CHIP PACKAGE AND METHOD FOR FORMING THE SAME 121 SAFETY MECHANISMS FOR POWER TOOLS 121 DEVICE, METHOD, AND GRAPHICAL USER INTERFACE FOR MARQUEE SCROLLING WITHIN A DISPLAY AREA 121 POWER EFFICIENT COMMUNICATIONS 122 IMAGE PICKUP APPARATUS AND ITS CONTROL METHOD 122 TOUCH PANEL AND TOUCH SENSING METHOD THEREOF 122 DEVICE, METHOD, AND GRAPHICAL USER INTERFACE FOR PERFORMING CHARACTER ENTRY 122 DEVICE, METHOD, AND GRAPHICAL USER INTERFACE FOR CREATING AND USING DUPLICATE VIRTUAL KEYS 122 ELASTIC WAVE DEVICE 123 SEMICONDUCTOR INTEGRATED CIRCUIT AND HIGH FREQUENCY MODULE USING THE SAME 123 ELECTRONIC DEVICE 123 CHIP PACKAGE AND METHOD FOR FORMING THE SAME 123 SEMICONDUCTOR DEVICE 124 FERROELECTRIC FLUORIDE COMPOSITIONS AND METHODS OF MAKING AND USING SAME 124 APPARATUS, SYSTEM AND METHOD FOR DETECTING THE PRESENCE OF GENUINE SERVICEABLE PRODUCT COMPONENTS 124 INDOOR UNIT OF AIR CONDITIONER COMPRISING ELECTRIC DISCHARGE GENERATOR 124 METHOD FOR PRODUCING PIEZOELECTRIC COMPOSITE SUBSTRATE AND METHOD FOR PRODUCING PIEZOELECTRIC ELEMENT 125 WEB-CLIP WIDGETS ON A PORTABLE MULTIFUNCTION DEVICE 125 DUAL CARRIER AMPLIFIER CIRCUITS AND METHODS 125 METHOD FOR ANALYZING MOLECULAR POLLUTION OF A FLUID, APPLICATION DEVICE AND APPLICATION TO THE ANALYSIS OF POLLUTION IN A NATURAL MEDIUM AND IN A CONTROLLED ENVIRONMENT 126 EUROPEAN PATENT TRENDS 126 TABLE 46 EUROPE PATENT GENERATION TRENDS BY TECHNOLOGY (NUMBER/%) 126 TABLE 47 EUROPEAN PATENTS STATISTICS BY INDUSTRY SECTOR (NUMBER/%) 126 EUROPEAN REGISTERED PATENTS 127 TABLE 48 EUROPE SURFACE ACOUSTIC WAVE PATENTS 127 CARRIER MODULATED NARROW SAMPLE ABSTRACTS OF EUROPEAN REGISTERED PATENTS 132 CORRELATION PROCESSING RECEIVER 132 PULSE SIGNAL PROCESSOR 132 ACOUSTIC TOUCH SENSOR WITH LOW-PROFILE DIFFRACTIVE GRATING TRANSDUCER ASSEMBLY 132 SURFACE ACOUSTIC WAVE FILTER 133 SURFACE ACOUSTIC WAVE FILTER DEVICE 133 SURFACE ACOUSTIC WAVE FILTER APPARATUS AND COMMUNICATIONS APPARATUS 133 SURFACE ACOUSTIC WAVE FILTER DEVICE 133 SOLID BI-LAYER STRUCTURES FOR USE WITH HIGH VISCOSITY INKS IN ACOUSTIC INK PRINTING AND METHODS OF FABRICATION 133 SURFACE ACOUSTIC WAVE DEVICE 134 SURFACE-ACOUSTIC-WAVE DEVICE HAVING AN IMPROVED PASS-BAND CHARACTERISTIC AND AN IMPROVED DEGREE OF FREEDOM FOR SETTING INPUT AND OUTPUT IMPEDANCES 134 LENGTH-MODE DROP-ON-DEMAND INK JET PRINTHEAD FOR EJECTING ORTHOGONALLY DIRECTED DROPLETS AT IMPROVED OPERATING SPEEDS 134 SURFACE-ACOUSTIC-WAVE DEVICE HAVING AN IMPROVED PASS-BAND CHARACTERISTIC AND AN IMPROVED DEGREE OF FREEDOM FOR SETTING INPUT AND OUTPUT IMPEDANCES 134 ACOUSTIC INK PRINTER 135 SURFACE RIPPLE WAVE DIFFUSION BY NON-RETROREFLECTIVE APERTURE CONFIGURATIONS FOR ACOUSTIC INK PRINTERS 135 SURFACE RIPPLE WAVE SUPPRESSION BY ANTI-REFLECTION APERTURE CONFIGURATIONS FOR ACOUSTIC INK PRINTERS 135 NOZZLELESS INK JET PRINTER 135 INK DROP PRINTHEAD 136 ACOUSTIC INK PRINTERS HAVING REDUCED FOCUSING SENSITIVITY 136 SHOCK WAVE GENERATOR FOR THE NON-CONTACTING DISINTEGRATION OF CONCRETIONS IN A BODY 136 ACOUSTIC PRINTHEADS 136 LEAKY RAYLEIGH WAVE NOZZLELESS LIQUID DROPLET EJECTORS 137 ENDOSCOPE APPARATUS 137 SURFACE-ACOUSTIC-WAVE FILTER DEVICE 137 BALANCED SURFACE ACOUSTIC WAVE FILTER 137 BALANCED SURFACE ACOUSTIC WAVE FILTER 138 SURFACE-ACOUSTIC-WAVE DEVICE 138 SURFACE ACOUSTIC WAVE FILTER 138 POWER CONTROLLING ARRANGEMENT FOR DUPLEX TRANSMISSION 138 SEMICONDUCTOR LASER DEVICE 139 EXTENDIBLE SONOBUOY APPARATUS 139 SAW DEVICES INCLUDING RESISTIVE FILMS 139 SURFACE ACOUSTIC WAVE APPARATUS AND COMMUNICATIONS UNIT 139 VOLTAGE SENSOR UTILIZING A SURFACE WAVE ELECTROACOUSTIC STRUCTURE SENSIBLE TO THE ELECTRIC FIELD 140 APPARATUS FOR THE ULTRASONIC MEASUREMENT OF THE LIQUID LEVEL AND/OR VOLUME IN A CONTAINER 140 ARRANGEMENT TO DETERMINE THE IMPACT POINT, THE VELOCITY AND THE ANGLE OF INCIDENCE OF A PROJECTILE HITTING A TARGET AT SUPERSONIC VELOCITY 140 SURFACE ACOUSTIC WAVE DEVICE 141 ISOTROPIC ACOUSTIC WAVE SUBSTRATE 141 SURFACE ACOUSTIC WAVE BANDPASS FILTER 141 ELECTRONIC DEVICE FOR REFLECTED SURFACE ACOUSTIC WAVES 141 TELEVISION SCRAMBLING AND DESCRAMBLING METHOD AND APPARATUS 142 ROTATION SPEED MEASURING APPARATUS 142 BROAD BAND SURFACE ACOUSTIC WAVE EDGE DEPOSITED TRANSDUCER. 142 INTEGRATED OPTIC DEVICE 142 METHOD AND APPARATUS FOR TRANSFERRING INFORMATION SIGNALS TO AND/OR OFF A RECORDING MEDIUM 143 ACOUSTIC SURFACE WAVE DEVICE 143 ARRANGEMENT FOR SOUND SOURCES AVOIDING ACOUSTIC SHORT CIRCUITS IN LOUDSPEAKERS. 143 ACOUSTIC SURFACE WAVE DEVICE INCLUDING A REFLECTIVE MULTISTRIP COUPLER 144 ASIAN PATENT TRENDS 144 TABLE 49 KEY ASIA PATENT GENERATION TRENDS BY TECHNOLOGY (NUMBER/%) 144 TABLE 50 ASIAN PATENTS STATISTICS BY INDUSTRY SECTOR (NUMBER/%) 145 TABLE 51 CHINESE SURFACE ACOUSTIC WAVE PATENTS 145 CHINESE PATENT ABSTRACTS 155 SURFACE ACOUSTIC WAVE FILTER WITH TERMINAL ELECTRODE COATING FILM 155 SURFACE ACOUSTIC WAVE RESONATOR, COMBINED SURFACE ACOUSTIC WAVE FILTER AND SURFACE ACOUSTIC WAVE FILTER 156 SAW RESONATOR, SAW DEVICE AND COMMUNICATION DEVICE 156 SAW DEVICE AND COMMUNICATION DEVICE USING SAW DEVICE 156 SURFACE ACOUSTIC WAVE (SAW) FILTER OF REACTANCE FILTER TYPE EXHIBITING IMPROVED STOP BAND SUPPRESSION AND METHOD FOR OPTIMIZING STOP BAND SUPPRESSION 156 SOUND SURFACE WAVE DEVICE, SOUND SURFACE WAVE FILTER AND MFG. METHOD OF SOUND SURFACE WAVE DEVICE 157 SURFACE ACOUSTIC WAVE FILTERING DEVICE 157 ELASTIC SURFACE ACOUSTIC WAVE DEVICE 157 SURFACE ACOUSTIC WAVE DEVICE, COMMUNICATION DEVICE USING THE DEVICE AND AERIAL TRANSFER SWITCH 157 ACOUSTIC SURFACE WAVE DEVICE 157 METHOD FOR MFG. A SURFACE ACOUSTIC WAVE DEVICE 158 SOUND-SURFACE-WAVE DEVICE 158 SURFACE WAVE DEVICE 158 METHOD FOR MFG. SURFACE ACOUSTIC WAVE DEVICE 158 PIEZOELECTRIC CERAMICS COMPOSITION FOR SURFACE SONIC WAVE ELEMENT AND SURFACE SONIC WAVE ELEMENT 159 FREQUENCY FEATURE REGULATING METHOD FOR EDGE REFLECTION-TYPE SURFACE ACOUSTIC WAVE DEVICE AND MANUFACTURING METHOD 159 SURFACE ACOUSTIC WAVE FILTER 159 SURFACE ACOUSTIC WAVE EQUIPMENT 159 SURFACE ACOUSTIC WAVE DEVICE AND PIEZOELECTRIC CHIP USING FOR THE SAME 160 SOUND SURFACE WAVE FILTER 160 SURFACE SOUND WAVE DEVICE AND USED PIEZOELECTRIC BASE UNIT 160 SURFACE SONIC WAVE APPARATUS AND COMMUNICATION APPARATUS COMPRISING SAME 160 ACOUSTIC SURFACE WAVE DEVICE AND COMMUNICATION UNIT 161 ACOUSTIC SURFACE WAVE FILTER DEVICE 161 ELASTIC SURFACE WAVE APPARATUS AND COMMUNICATING DEVICE 161 ELASTIC SURFACE WAVE FILTER DEVICE, COMMUNICATION DEVICE 161 FRONT MODULE 162 ELASTIC SURFACE WAVE DEVICE, COMMUNICATION DEVICE 162 SURFACE SONIC WAVE FILTER AND COMMUNICATION APPARATUS USING SAME 162 ANTENNA SHARER AND COMMUNICATION EQUIPMENT 162 SURFACE ACOUSTIC WAVE ELEMENT AND ITS MAKING PROCESS AND SURFACE ACOUSTIC WAVE DEVICE WITH THE ELEMENT AND ITS MAKING PROCESS 162 SURFACE ACOUSTIC WAVE DEVICE 163 END FACE REFLECTION SURFACE WAVE FILTER 163 ELECTRONIC ELEMENT 163 SOUND SURFACE WAVE FILTER 164 SOUND SURFACE WAVE APPARATUS 164 SURFACE ACOUSTIC WAVE COMPONENT AND ITS MANUFACTURING METHOD 164 ELASTIC SURFACE-WAVE FILTER AND COMMUNICATION DEVICE 164 SOUND SURFACE WAVE ELEMENT 164 ELECTRODE PATTERN FORMATION METHOD FOR SOUND SURFACE-WAVE ELEMENT 165 SYNTHETIC FILTER, ANTENNA SHARING DEVICE AND COMMUNICATION DEVICE 165 LONGITUDINAL COUPLING ELASTIC SURFACE WAVE VIBRATOR FILTER 165 SURFACE SOUND WAVE FILTERING UNIT, SURFACE SOUND WAVE FILTER AND COMMUNICATION EQUIPMENT WITH THE FILTER 165 ELASTIC SURFACE WAVE ELEMENT AND COMMUNICATING DEVICE 165 ELASTIC SURFACE WAVE ELEMENT 166 CHANNEL-SPLITTING FILTER, COMMUNICATION APPARATUS 166 SURFACE ACOUSTIC WAVE DEVICE AND DUPLEXER THEREWITH 166 ACOUSTIC SURFACE WAVE DEVICE 166 SURFACE ELASTIC WAVE ELEMENT AND DIPLEXER 167 SURFACE ACOUSTIC WAVE RESONATOR AND SURFACE FILTER 167 SURFACE ACOUSTIC WAVE ELEMENT AND ITS MANUFACTURING METHOD 167 ELASTIC SURFACE-WAVE DEVICE AND MANUFACTURING METHOD THEREFORE 167 SURFACE ACOUSTIC WAVE DEVICE AND ITS MANUFACTURE METHOD, AND ELECTRONIC PART USING IT 167 SURFACE ACOUSTIC WAVE COMPONENT AND ITS MANUFACTURING METHOD 168 SURFACE ACOUSTIC WAVE DEVICE AND DUPLEXER THEREWITH 168 ACOUSTIC SURFACE WAVE DEVICE 168 SURFACE ELASTIC WAVE ELEMENT AND DUPLEXER 168 SURFACE ACOUSTIC WAVE RESONATOR AND SURFACE FILTER 169 SURFACE ACOUSTIC WAVE ELEMENT AND ITS MANUFACTURING METHOD 169 ELASTIC SURFACE-WAVE DEVICE AND MANUFACTURING METHOD THEREFOR 169 SURFACE ACOUSTIC WAVE DEVICE AND ITS MANUFACTURE METHOD, AND ELECTRONIC PART USING IT 169 SURFACE ACOUSTIC WAVE DEVICE, METHOD OF MANUFACTURING THE DEVICE, AND ELECTRONIC COMPONENT USING THE DEVICE AND METHOD 169 SURFACE ACOUSTIC WAVE FILTER 170 SURFACE ACOUSTIC WAVE DEVICE, ITS MANUFACTURING METHOD, AND ELECTRONIC CIRCUIT DEVICE 170 ELASTIC SURFACE ACOUSTIC WAVE DEVICE AND ELECTRONIC COMPONENT COMPRISING IT 170 HIGH-FREQUENCY COMPOSITE SWITCH MODULE AND MOBILE COMMUNICATION DEVICE USING THE SAME 170 SURFACE ACOUSTIC WAVE SENSOR 171 DUPLEXER AND ELECTRONIC APPARATUS USING THE SAME 171 METHOD FOR MANUFACTURING SURFACE ACOUSTIC WAVE DEVICE 171 TEMPERATURES STABLE SAW SENSOR WITH THIRD-ORDER ELASTIC CONSTANTS 171 SURFACE ACOUSTIC WAVE FILTER 171 METHOD FOR REALIZING SURFACE ACOUSTIC WAVE FILTER ARRANGEMENTS AND FILTER ARRANGEMENT OBTAINED IN ACCORDANCE TO THIS METHOD 172 SURFACE ACOUSTIC WAVE IDENTIFICATION TAG HAVING ENHANCED DATA CONTENT AND METHODS OF OPERATION AND MANUFACTURE THEREOF 172 READER FOR A HIGH INFORMATION CAPACITY SAW IDENTIFICATION TAG AND METHOD OF USE THEREOF 172 READER FOR A HIGH INFORMATION CAPACITY SAW IDENTIFICATION TAG AND METHOD OF USE THEREOF 172 METHOD FOR MOUNTING SURFACE ACOUSTIC WAVE ELEMENT AND SURFACE ACOUSTIC WAVE DEVICE HAVING RESIN-SEALED SURFACE ACOUSTIC WAVE ELEMENT 172 SONIC SURFACE WAVE DEVICE AND WAVE SEPARATOR 173 HIGH FREQUENCY MODULE 173 ELASTIC SURFACE WARE DEVICE AND COMMUNICATION DEVICE WITH SAID ELASTIC SURFACE WAVE DEVICE 173 SURFACE ACOUSTIC WAVE DEVICE AND COMMUNICATION DEVICE COMPRISING SAME 173 ELASTIC SURFACE WAVE FILTER 174 ELASTIC SURFACE-WAVE DEVICE, COMMUNICATION DEVICE 174 HIGH FREQUENCY COMPOSITE COMPONENT 174 SUFACE ACOUSTIC WAVE FILTER 174 SURFACE ACOUSTIC WAVE FILTER AND SURFACE ACOUSTIC WAVE DUPLEXER WITH THE SAME 175 SURFACE ACOUSTIC WAVE FILTER ANTENNA DUPLEXER AND COMMUNICATION APPARATUS 175 ELASTIC SURFACE WAVE DEVICE AND COMMUNICATION DEVICE WITH THE SAME 175 TOUCHING SCREEN DEVICE 175 SURFACE WAVE APPARATUS 176 ELASTIC SURFACE WAVE FILTER, WAVE DIVIDER AND COMMUNICATION MACHINE 176 ELASTIC SURFACE WAVE APPARATUS AND MANUFACTURING METHOD THEREOF 176 LADDER TYPE SAW FILTER AND ITS MFG. METHOD 176 ELASTIC SURFACE WAVE FILTER AND ELECTRONIC DEVICE USING SAID FILTER 176 ELASTIC SURFACE WAVE DEVICE, COMMUNICATION DEVICE 177 SURFACE ACOUSTIC WAVE DEVICE, FILTER DEVICE AND METHOD FOR MANUFACTURING SURFACE ACOUSTIC WAVE DEVICE 177 ELASTIC SURFACE WAVE DEVICE, COMMUNICATION DEVICE 177 ELASTIC SURFACE WAVE APPARATUS 177 SURFACE ACOUSTIC WAVE FILTER, BALANCE TYPE CIRCUIT AND COMMUNICATION APPARATUS 178 SURFACE ACOUSTIC WAVE DEVICE, AND MOBILE COMMUNICATION DEVICE AND SENSOR BOTH USING SAME 178 PIEZOELECTRIC COMPONENT AND PRODUCTION METHOD THEREFOR 178 PIEZOELECTRIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME 178 ELASTIC SURFACE WAVE DEVICE AND COMMUNICATION DEVICE WITH THE SAME 179 TOUCHING SCREEN DEVICE 179 SURFACE WAVE APPARATUS 179 ELASTIC SURFACE WAVE FILTER, WAVE DIVIDER AND COMMUNICATION MACHINE 179 ELASTIC SURFACE WAVE APPARATUS AND MANUFACTURING METHOD THEREOF 179 TABLE 52 JAPANESE SAW PATENTS 180 JAPANESE PATENT ABSTRACTS 181 SURFACE ACOUSTIC WAVE DEVICE 181 SURFACE ACOUSTIC WAVE DEVICE AND MANUFACTURING METHOD OF SURFACE ACOUSTIC WAVE DEVICE AND WAFER 181 SURFACE ACOUSTIC WAVE DEVICE AND MANUFACTURING METHOD THEREOF 181 SURFACE ACOUSTIC WAVE DEVICE 182 SURFACE ACOUSTIC WAVE SENSOR 182 SURFACE ACOUSTIC WAVE ELEMENT PIECE AND SURFACE ACOUSTIC WAVE DEVICE 182 TABLE 53 TAIWANESE SURFACE ACOUSTIC WAVE PATENTS 182 TAIWANESE PATENT ABSTRACTS 188 SURFACE ACOUSTIC WAVE FILTER WITH TUNABLE BANDWIDTH AND HIGH PASSBAND SELECTIVITY 188 SURFACE ACOUSTIC WAVE RESONATOR FILTER 188 FREE EDGE REFLECTIVE-TYPE SURFACE ACOUSTIC WAVE DEVICE 189 BIOLOGICAL DETECTION DEVICE AND METHOD 189 A SURFACE ACOUSTIC WAVE COMPOSITE SUBSTRATE USING AIN THIN FILMS WITH THE SHEAR HORIZONTAL MODE 189 LIGHT SENSOR USING SURFACE ACOUSTIC WAVE DEVICE 189 A SURFACE ACOUSTIC WAVE COMPOSITE SUBSTRATE USING ZNO THIN FILMS WITH THE SHEAR HORIZONTAL MODE AND THE RAYLEIGH MODE 189 BATTERYLESS REMOTE CONTROL APPARATUS AND METHOD THEREOF 190 A GAS SENSOR AND METHOD THEREOF 190 DETECTOR FOR UV LIGHT 190 A COMPOSITE SUBSTRATE HAVING HIGH SURFACE ACOUSTIC WAVE VELOCITY AND HIGH ELECTROMECHANICAL COUPLING COEFFICIENT 190 SURFACE ACOUSTIC WAVE SENSOR 191 WAVE TOUCH PANEL SYSTEM 191 HIGH FREQUENCY SURFACE ACOUSTIC WAVE DEVICE 191 A METHOD FOR MAKING SURFACE ACOUSTIC WAVE SENSOR 192 A HIGHLY LINEAR EMBEDDED FILTERING PASSIVE MIXER 192 CONVERTERS, RESONATORS AND FILTERS FOR ACOUSTIC SURFACE 192 SURFACE ACOUSTIC WAVE DEVICE WITH PHOTONIC CRYSTAL STRUCTURE AND MANUFACTURING METHOD THEREOF 192 SURFACE ACOUSTIC WAVE DEVICE AND MEASURING APPARATUS FOR PROPERTY OF LIQUID SUBSTANCE 193 AUDIO ANALYZERS 193 TITLE WIRELESS TORQUE MEASUREMENT APPARATUS AND SENSING METHOD THEREOF 193 STREPTAVIDIN SURFACE-ACOUSTIC-WAVE IMMUNOSENSOR APPARATUS 193 SENSING DEVICE OF SURFACE ACOUSTIC WAVE TOUCH PANEL 194 SURFACE ACOUSTIC WAVE DEVICE AND DUPLEXER 194 IMAGE-STABILIZING DRIVING DEVICE 194 DISPLAYS INCLUDING ADDRESSABLE TRACE STRUCTURES 194 METHOD AND DEVICE FOR MEASURING TO-BE-MEASURED OBJECT 195 ULTRAVIOLET LIGHT SENSING DEVICE OF SURFACE ACOUSTIC WAVE BY USING III GROUP NITRIDE 195 ELECTRONIC DEVICE AND STARTING METHOD OF THE ELECTRONIC DEVICE 195 TOUCH SCREEN PANEL, METHOD OF MANUFACTURING THE SAME, AND DISPLAY HAVING THE SAME 195 ULTRA-FAST BEAM DITHERING WITH SURFACE ACOUSTIC WAVE MODULATOR 196 ULTRA-FAST BEAM DITHERING WITH SURFACE ACOUSTIC WAVE MODULATOR 196 SURFACE ACOUSTIC WAVE GAS SENSOR AND THE MANUFACTURING METHOD THEREOF 196 MICROFLUID INJECTING DEVICES CAPABLE OF INSPECTING AND MONITORING NOZZLE PROCESSES ON A REAL TIME BASIS AND RELATED METHODS 196 SURFACE ACOUSTIC WAVE APPARATUS AND MANUFACTURING METHOD THEREFOR 196 EDGE REFLECTION TYPE SURFACE ACOUSTIC WAVE FILTER 197 SURFACE ACOUSTIC WAVE DEVICE OF SENSING OR RECOGNIZING SYSTEM 197 SINGLE C-AXIS PGO THIN FILM ON ZRO2 FOR NON-VOLATILE MEMORY APPLICATIONS AND METHODS OF MAKING THE SAME 197 SURFACE ACOUSTIC WAVE DEVICE AND ELECTRONIC COMPONENTS USING THE DEVICE 197 LONGITUDINALLY-COUPLED RESONATOR SURFACE ACOUSTIC WAVE FILTER AND COMMUNICATION SYSTEM USING THE FILTER 198 SURFACE RESIST EXPOSURE METHOD WITH SUB-MICRON LINE WIDTH 198 FRONT END MODULE 198 AMMONIA SENSOR AND METHOD FOR PRODUCING THE SAME 198 SURFACE ACOUSTIC WAVE ELEMENT USING THE STRUCTURE AND METHOD OF CONNECTING THE CONDUCTIVE LAYER BACK TO BACK 198 A SURFACE ACOUSTIC WAVE FILTER 199 SURFACE ACOUSTIC WAVE FILTER DEVICE 199 ACOUSTIC TOUCH SENSOR 199 FILM TYPE BULK ACOUSTIC WAVE DEVICE AND ITS MANUFACTURING METHOD 199 SURFACE ACOUSTIC WAVE DEVICE 200 PIEZOELECTRIC SUBSTRATE WORKING METHOD OF SURFACE ACOUSTIC DEVICE 200 PIEZOELECTRIC SUBSTRATE WORKING METHOD OF SURFACE ACOUSTIC DEVICE 200 SAW DEVICE AND METHOD OF MANUFACTURING THE DEVICE 200 ACOUSTIC WAVE FILTER AND METHOD OF FORMING THE SAME 201 SURFACE ACOUSTIC WAVE DEVICE 201 HIGH-FREQUENCY CRYSTAL OSCILLATOR 201 TABLE 54 SOUTH KOREAN SAW PATENTS 201 KOREAN PATENT ABSTRACTS 203 SAW (SURFACE ACOUSTIC WAVE) GYROSCOPE USING PROGRESSIVE WAVE AND ANGULAR VELOCITY MEASURING METHOD 203 SURFACE ACOUSTIC WAVE DEVICE AND METHOD FOR SIGNAL AMPLIFICATION OF SURFACE ACOUSTIC WAVE ELEMENT 203 SURFACE ACOUSTIC WAVE RESONATOR, SURFACE ACOUSTIC WAVEFILTER AND SURFACE ACOUSTIC WAVE DUPLEXER, AND COMMUNICATIONS EQUIPMENT 204 A SURFACE ACOUSTIC WAVE BIO-SENSOR, A FABRICATION METHOD OF THE SURFACE ACOUSTIC WAVE BIO-SENSOR AND A METHOD FOR DETECTION OF AN ANTIGEN 204 SURFACE ACOUSTIC WAVE BIOSENSORS, WAVEGUIDE, LOVE WAVES 204 PRE-INSULATING SUBSTRATE, METHOD OF MANUFACTURING SUBSTRATE, METHOD OF MANUFACTURING SURFACE ACOUSTICWAVE RESONATOR, SURFACE ACOUSTIC WAVE RESONATOR, SURFACE ACOUSTIC WAVE DEVICE, AND ELECTRONIC APPARATUS 205 METHOD FOR EMBODIMENT OF CAPACITOR IN SURFACE ACOUSTIC WAVE FILTER, AND USING THE SURFACE ACOUSTIC WAVE FILTER 205 SURFACE ACOUSTIC WAVE FILTER PACKAGE AND FABRICATION METHOD USED THE SUBSTRATE WHICH HAS SOLDER BUMPS 205 IMMUNOGLOBULIN G MEASURING METHOD AND APPARATUS USING A SHEAR-HORIZONTAL SURFACE ACOUSTIC WAVE 206 LIST OF TABLES SUMMARY TABLE GLOBAL DEMAND FOR SURFACE ACOUSTIC WAVE SENSORS, THROUGH2016 ($ MILLIONS) 6TABLE 1 KEY SAW DEVICE CONSUMER APPLICATIONS 9TABLE 2 OTHER GENERAL SAW DEVICE USAGE 10TABLE 3 KEY SA To order this report:Electronic_Component_and_Semiconductor Industry: Surface Acoustic Wave (SAW) Sensors: Technologies and Global Markets -- Focus on Europe ContactNicolas BombourgReportlinkerEmail: [email protected]: (805)652-2626Intl: +1 805-652-2626 SOURCE Reportlinker |