Innovative Research and Products Inc.
Home | Consultants | Patent Briefs | Conferences | Reports | Clients | Contact Us | Shopping CartShopping Cart  
iRAP View All ReportsVIEW
REPORTS
  
iRAP Press ReleasesPRESS
RELEASES
  

PIEZOELECTRIC CERAMIC, POLYMER AND CERAMIC/POLYMER COMPOSITE DEVICES - TYPES, MATERIALS, APLLICATIONS, NEW DEVELOPMENTS, INDUSTRY STRUCTURE AND GLOBAL MARKETS
(View Introduction/Table Of Contents)
Publish Date: Mar 2008,   Pages: 185,   Report Code: ET-107
BUY PRINT EDITION(S) - (FULL REPORT)
The price for 1st print copy is $4,150.00, 2nd print copy is $595.00, and $395.00 for 3rd print copy onwards. So if you purchase 4 print copies, the total price will be $5,535.00 ($4,150.00 + $595.00 + $395.00*2).
Select QuantityPrice   Sale Price Add To Cart
$4,150.00 (10% off)
$3,735.00
An additional shipping charge of $30 will apply to all orders within U.S., and $60 for
all international orders.


DOWNLOAD ELECTRONIC COPY - (FULL REPORT)
License TypePrice   Sale Price Add To Cart
Single User$4,450.00 (10% off)$4,005.00
Multi-User$4,950.00 (10% off)$4,455.00
Enterprise$5,950.00 (10% off)$5,355.00
You will be able to download the report immediately after the payment is cleared.
Additionaly, an email will also be sent from where you can download it later.


      >>  BUY AND DOWNLOAD CHAPTERS AND SUB-CHAPTERS OF THIS REPORT
Expand All | Collapse All
Choose License Type:Single UserMulti-UserEnterprise
All chapters and sub-chapters for this report are on sale at 10% off the original price.
Table of ContentsPagesPrice
 View 
1. INTRODUCTIONI-V
Free

INTRODUCTION........................................................................................................... I

STUDY GOAL AND OBJECTIVES.................................................................... I

REASONS FOR DOING THE STUDY..............................................................II

CONTRIBUTIONS OF THE STUDY.............................................................. III

SCOPE AND FORMAT.................................................................................... III

METHODOLOGY..............................................................................................IV

INFORMATION SOURCES..............................................................................IV

TARGET AUDIENCE FOR THE STUDY......................................................... V

AUTHOR’S CREDENTIALS.............................................................................. V

 Add 
2. EXECUTIVE SUMMARYVII-X
$240.00
$216.00

EXECUTIVE SUMMARY.......................................................................................... VII

SUMMARY TABLE GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR

PIEZOELECTRIC OPERATED DEVICES BY PRODUCT TYPE, 2007 AND

2012 ................................................................................................................................................IX

SUMMARY FIGURE PERCENTAGES OF MARKET SHARE FOR

PIEZOELECTRIC DEVICES BY TYPE FOR 2007 AND 2012....................................................X

 Add 
3. INDUSTRY OVERVIEW1-5
$300.00
$270.00

INDUSTRY OVERVIEW ...............................................................................................1

INDUSTRY STRUCTURE AND MARKET DYNAMICS..................................2

INDUSTRY STRUCTURE AND MARKET DYNAMICS

(CONTINUED) ....................................................................................3

INDUSTRY STRUCTURE AND MARKET DYNAMICS

(CONTINUED) ....................................................................................4

INDUSTRY STRUCTURE AND MARKET DYNAMICS

(CONTINUED) ....................................................................................5

 Add 
4. TECHNOLOGY OVERVIEW6-32
$945.00
$850.50

TECHNOLOGY OVERVIEW ........................................................................................6

THE PIEZOELECTRIC EFFECT.......................................................................6

FERROELECTRIC DOMAINS AND POLARIZATION TO

PIEZOELECTRIC ...............................................................................7

DIRECT AND INVERSE PIEZO EFFECTS ...........................................7

ORTHOGONAL SYSTEM FOR PIEZOELECTRIC

MATERIALS........................................................................................8

FIGURE 1 ORTHOGONAL SYSTEM TO DESCRIBE PIEZOELECTRIC

MATERIALS....................................................................................................................................8

FIVE MODES OF PIEZOELECTRIC EFFECTS....................................8

TABLE 1 FIVE MODES OF PIEZO ELECTRIC EFFECTS ..............................................................9

DEFINITIONS OF COMMON TERMINOLOGIES USED IN

PIEZOELECTRIC MATERIAL AND DEVICES ........................................10

PIEZOELECTRIC CHARGE CONSTANT............................................10

PIEZOELECTRIC VOLTAGE CONSTANT..........................................10

PERMITTIVITY......................................................................................11

ELECTROMECHANICAL COUPLING FACTOR................................12

DIELECTRIC DISSIPATION FACTOR (DIELECTRIC

LOSS FACTOR).................................................................................13

CURIE TEMPERATURE .......................................................................13

MECHANICAL QUALITY FACTOR.....................................................14

TABLE 2 DEFINITIONS USED TO EXPRESS CHARACTERISTICS OF

PIEZOELECTRIC DEVICES ........................................................................................................14

TABLE 2 DEFINITIONS USED TO EXPRESS CHARACTERISTICS OF

PIEZOELECTRIC DEVICES (CONTINUED) .............................................................................15

REQUIRED FUNCTIONAL CHARACTERISTICS OF

DEVICES......................................................................................................16

PIEZO CHARACTERISTICS OF PZT MATERIALS AND

APPLICATIONS...........................................................................................16

TABLE 3 COMPARISON OF HARD AND SOFT PZT PROPERTIES............................................17

LEAD TITANATE...................................................................................17

LEAD MAGNESIUM NIOBATE – LEAD TITANATE

(PMN-PT)...........................................................................................18

FIVE CLASSES OF ACTIVE — CERAMICS – PZT.............................18

PZT MANUFACTURING PROCESS.....................................................19

PZT APPLICATIONS .............................................................................20

PZT APPLICATIONS (CONTINUED)........................................21

ALTERNATIVE PIEZOELECTRIC MATERIALS ..........................................22

PVDF .......................................................................................................22

PVDF (CONTINUED)..................................................................23

PVDF (CONTINUED)..................................................................24

PIEZOELECTRIC COMPOSITES....................................................................25

FIGURE 2 THREE PHASES OF PVDF MATERIAL........................................................................26

TABLE 4 INDIVIDUAL PROPERTIES OF PZT AND PVDF.........................................................27

TABLE 5 PROPERTIES OF PIEZOELECTRIC COMPOSITE AT DIFFERENTT

POLING FIELD.............................................................................................................................27

PIEZOELECTRIC COMPOSITES (CONTINUED) ..............................28

TYPES OF CERAMIC–POLYMER COMPOSITES..............................29

MANUFACTURING PROCESS.............................................................30

PROPERTIES .........................................................................................30

TABLE 6 PIEZOELECTRIC PROPERTIES OF SOME TRANSDUCTION

MATERIALS..................................................................................................................................31

PROPERTIES (CONTINUED)....................................................32

 Add 
5. APPLICATION SEGMENTS33-102
$2,450.00
$2,205.00

APPLICATION SEGMENTS.......................................................................................33

ACTUATORS.....................................................................................................33

ACTUATORS (CONTINUED)................................................................34

BIMORPH ACTUATORS .......................................................................35

CONSTRUCTION........................................................................35

CHARACTERISTICS...................................................................36

USAGE .........................................................................................37

UNIMORPH ACTUATORS....................................................................37

BUILDING BLOCK ACTUATORS........................................................38

FREQUENCY-LEVERAGED ACTUATORS ..............................39

MULTILAYER ACTUATORS ................................................................39

CONSTRUCTION........................................................................40

OTHER ACTUATOR APPLICATIONS .................................................41

X-Y STAGE FOR MICROSCOPE APPLICATIONS AND

DIGITAL SLIDE IMAGING SYSTEMS .....................................................41

X-Y STAGE FOR MICROSCOPE APPLICATIONS AND

DIGITAL SLIDE IMAGING SYSTEMS .....................................................42

CERAMIC SERVO MOTORS ...........................................................................43

CERAMIC SERVO MOTORS (CONTINUED)......................................44

CERAMIC SERVO MOTORS (CONTINUED)......................................45

CERAMIC SERVO MOTORS (CONTINUED)......................................46

HIGH VOLUME APPLICATIONS ........................................................47

PRECISION MECHANICS ....................................................................47

DATA STORAGE....................................................................................48

ROBOTS AND TOYS..............................................................................49

HVAC BUILDING CONTROL SYSTEMS..................................49

INTERIOR LIGHTING ..........................................................................50

BIOMEDICAL APPLICATIONS............................................................50

ULTRASONIC MOTORS..................................................................................51

SQUIGGLE MOTORS FOR CAMERA PHONES .................................52

SQUIGGLE MOTORS FOR CAMERA PHONES

(CONTINUED)........................................................................53

TECHNOLOGY OF PIEZOELECTRIC OPERATED

MOTORS............................................................................................54

TABLE 7 PIEZOELECTRIC MOTOR (TRAVELING WAVE) TYPICAL

COMMERCIAL SIZES...................................................................................................................55

TECHNOLOGY OF PIEZOELECTRIC

OPERATED MOTORS (CONTINUED).................................56

TABLE 8 KEY PIEZOELECTRIC MOTOR CHARACTERISTICS..................................................57

LANGEVIN ACTUATORS................................................................................57

FIGURE 3 SCHEMATIC DIAGRAM OF LANGEVIN TYPE ACTUATORS ..................................58

ULTRASONIC CLEANING ...................................................................59

PIEZO TRANSFORMERS ................................................................................60

FIGURE 4 PIEZO TRANSFORMER..................................................................................................61

CERAMIC RESONATORS................................................................................62

SURFACE ACOUSTIC WAVE (SAW) RESONATORS

USING CERAMICS...........................................................................63

TABLE 9 PREFERRED MATERIALS FOR SURFACE ACOUSTIC WAVE

DEVICES .......................................................................................................................................64

FIGURE 5 CONSTRUCTION OF CERAMIC SURFACE ACOUSTIC WAVE

RESONATORS ...............................................................................................................................64

FILM BULK ACOUSTIC RESONATORS (FBAR) ...............................65

FIGURE 6 CONSTRUCTION OF CERAMIC SURFACE THIN FILM BULK

ACOUSTIC WAVE RESONATOR................................................................................................65

BULK ACOUSTIC WAVE (BAW) RESONATOR.......................66

FIGURE 7 CONSTRUCTION OF BULK ACOUSTIC WAVE RESONATOR.................................66

TABLE 10 COMPARISON OF CERAMIC RESONATORS..............................................................67

TRANSDUCERS................................................................................................67

NOISE REDUCTION/VIBRATION DAMPING

APPLICATIONS................................................................................68

TABLE 11 CHARACTERSTICS OF PIEZOELECTRIC ULTRASONIC TESTING

PROBES.........................................................................................................................................69

EXAMPLES OF VIBRATION REDUCTION..............................70

FIGURE 8 ACTIVE V/S PASSIVE VIBRATION DAMPING...........................................................71

EXAMPLES OF VIBRATION REDUCTION

(CONTINUED)........................................................................72

VIBRATION MEASUREMENT

(ACCELEROMETERS) ..........................................................73

TRANSDUCER APPLICATIONS.....................................................................73

ULTRASONIC MEDICAL IMAGING ...................................................73

NONDESTRUCTIVE TESTING............................................................73

NONDESTRUCTIVE TESTING (CONTINUED).......................74

PIEZO GENERATORS......................................................................................75

FIGURE 9 SCHEMATIC REPRESENTATION OF THE PIEZOELECTRIC

ENERGY ARVESTING PROCESS...............................................................................................76

FIGURE 10 COMPARISON OF THE ENERGY DENSITY FOR THE THREE

TYPES OF MECHANICAL TO ELECTRICAL ENERGY CONVERTERS ...............................77

PIEZO GENERATORS (CONTINUED) ................................................78

SONARS FOR MILITARY AND CIVIL USE...................................................79

FIGURE 11 CLASSIFICATION OF SOUND BY FREQUENCY LEVEL .......................................80

ACTIVE SONAR.....................................................................................80

ACTIVE SONAR (CONTINUED)................................................81

PASSIVE SONAR...................................................................................82

TABLE 12 PIEZOELECTRIC CERAMIC VOLUME FRACTION SELECTED IN

PZT/PVDF COMPOSITE DEVICES FOR SONARS....................................................................83

TABLE 13 REQUIRED CHARACTERSTICS OF PIEZOELECTRIC

SONARS/HYDROPHONES ELEMENTS FOR NAVY................................................................84

TABLE 13 REQUIRED CHARACTERSTICS OF PIEZOELECTRIC

SONARS/HYDROPHONES ELEMENTS FOR NAVY (CONTINUED).....................................85

PIEZOELECTRIC SENSORS...........................................................................85

TABLE 14 USAGE OF PIEZOELECTRIC ACCELERATORS AND SENSORS

FOR SPECIAL APPLICATIONS ..................................................................................................86

TABLE 14 USAGE OF PIEZOELECTRIC ACCELERATORS AND SENSORS

FOR SPECIAL APPLICATIONS (CONTINUED) .......................................................................87

ULTRASONIC FLOW METERS............................................................88

ULTRASONIC SENSORS......................................................................88

HUMIDITY SENSORS...........................................................................88

PRESSURE SENSORS...........................................................................89

POSITION SENSORS ............................................................................89

KNOCK SENSORS.................................................................................90

ULTRASONIC LEVEL SENSORS ........................................................90

TABLE 15 COMPARISION OF CHARACTERSTICS OF PIEZO SENORS BY

DIFFERENT TECHNOLOGIES...................................................................................................91

TABLE 16 CHARACTERSTICS OF PIEZOELECTRIC SENSORS................................................92

ACCELEROMETERS.............................................................................93

ACOUSTIC DEVICES.......................................................................................94

CAR ALARMS.........................................................................................95

BEEPERS................................................................................................95

SIRENS ...................................................................................................96

SPEAKERS .............................................................................................96

MICROPHONES.....................................................................................96

RECEIVERS............................................................................................96

HEADSETS.............................................................................................97

TABLE 17 REQUIRED CHARACTERSTICS OF ACOUSTIC DEVICES ......................................97

MISCELLANEOUS APPLICATIONS..............................................................98

HIGH VOLTAGE DEVICES/GAS IGNITORS ......................................98

PIEZO PRINT HEADS...........................................................................99

DIESEL INJECTORS.............................................................................99

LASER MIRROR ALIGNMENT ..........................................................100

ACOUSTO-OPTIC MODULATORS.....................................................100

PIEZOELECTRIC DRIVERS AND AMPLIFIERS .............................100

ULTRASONIC VIBRATORS................................................................101

PIEZO CABLE FOR TRAFFIC CONTROL.........................................102

ULTRASONIC DENTAL SCALERS....................................................102

 Add 
6. MARKETS103-141
$1,950.00
$1,755.00

MARKETS ..................................................................................................................103

TABLE 18 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR

PIEZOELECTRIC OPERATED DEVICES BY PRODUCT TYPE, 2007 AND

2012 ..............................................................................................................................................104

FIGURE 12 MARKET SHARE FOR PIEZOELECTRIC DEVICES BY TYPE ,

2007 AND 2012............................................................................................................................105

ACTUATORS...................................................................................................106

TABLE 19 GLOBAL MARKET DISTRIBUTION OF PIEZOELECTRIC

ACTUATORS BY APPLICATION, 2007 AND 2012..................................................................106

ACTUATORS (CONTINUED)..............................................................107

ULTRASONIC MOTORS................................................................................108

ULTRASONIC MOTORS (CONTINUED............................................109

ULTRASONIC MOTORS (CONTINUED............................................110

TABLE 20 MARKET SHARE ACCORDING TO APPLICATIONS FOR

PIEZOELECTRIC DRIVEN ULTRASONIC MOTORS/CERAMIC

SERVOMOTORS, 2007 AND 2012 .............................................................................................111

LANGEVIN ACTUATORS..............................................................................111

TABLE 21 GLOBAL MARKET DISTRIBUTION OF LANGEVIN ACTUATORS

BY APPLICATION, 2007 AND 2012 ..........................................................................................112

PIEZO TRANSFORMERS FOR LAPTOP APPLICATIONS.........................112

RESONATORS FOR MOBILE PHONES.......................................................112

TRANSDUCERS FOR NONDESTRUCTIVE TESTING AND

ULTRASONIC MEDICAL IMAGING.......................................................112

TABLE 22 GLOBAL MARKET DISTRIBUTION OF PIEZOELECTRIC

TRANSDUCERS BY APPLICATION, 2007 AND 2012 ............................................................113

PIEZO GENERATORS FOR ENERGY HARVESTING................................113

SONARS FOR MILITARY AND CIVIL USE.................................................114

PIEZO SENSORS AND ACCELERATORS ...................................................114

TABLE 23 GLOBAL MARKET DISTRIBUTION OF PIEZOELECTRIC

SENSORS BY APPLICATION, 2007 AND 2012 .......................................................................114

ACOUSTIC DEVICES.....................................................................................115

TABLE 24 GLOBAL MARKET FOR PIEZOELECTRIC ACOUSTIC DEVICES

THRU 2012 ..................................................................................................................................115

ADDITIONAL PIEZOELECTRIC DEVICES.................................................115

TABLE 25 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR

PIEZOELECTRIC OPERATED DEVICES – MISCELLANEOUS CATEGORY,

2007 AND 2012............................................................................................................................116

MARKET SEGMENTS BY APPLICATION...................................................116

TABLE 26 GLOBAL MARKET SIZE AND PERCENTAGE SHARE FOR

PIEZOELECTRIC OPERATED DEVICES BY APPLICATION, 2007 AND

2012 ..............................................................................................................................................117

TABLE 27 APPLICATION WISE USAGE OF ELEVEN CATEGORIES OF

PIEZOELECTRIC DEVICES ......................................................................................................118

TABLE 27 APPLICATION WISE USAGE OF ELEVEN CATEGORIES OF

PIEZOELECTRIC DEVICES (CONTINUED)..........................................................................119

BROAD APPLICATION SEGMENTS IN THE MARKET..................120

TABLE 28 GLOBAL MARKET FOR PIEZOELECTRIC-OPERATED DEVICES

BY APPLICATIONS - MILITARY AND CIVILIAN - THROUGH 2012 ..................................121

MARKET SEGMENTATION BY PIEZO ELECTRIC

MATERIALS...............................................................................................121

TABLE 29 GLOBAL MARKET FOR PIEZOELECTRIC OPERATED DEVICES

SEGMENTED BY MATERIAL USED, 2007-2012 ....................................................................121

FIGURE 13 MARKET SHARE ACCORDING TO TYPE OF PIEZOELECTRIC

MATERIAL USED IN DEVICES, 2007 AND 2012 ...................................................................122

MARKET SEGMENTATION BY REGION....................................................123

TABLE 30 SUMMARY OF MARKET OF PIEZOELECTRIC DEVICES BY

REGION THROUGH 2012 ..........................................................................................................123

FIGURE 14 REGIONAL PERCENTAGES OF MARKET SHARE FOR

PIEZOELECTRIC DEVICES, 2007 AND 2012..........................................................................124

MARKET SEGMENTATION BY REGION

(CONTINUED) ................................................................................125

MARKET STRUCTURE..................................................................................126

MARKET STRUCTURE (CONTINUED) ............................................127

TABLE 31 PIEZOELECTRIC MATERIAL TOP SUPPLIERS PRODUCT LINE

REFERENCE ...............................................................................................................................128

MARKET STRUCTURE (CONTINUED) ............................................129

MARKET STRUCTURE (CONTINUED) ............................................130

MARKET SHARE OF COMPANIES..............................................................131

TABLE 32 TOP COMPANIES SHARING THE GLOBAL MARKET FOR

PIEZOELECTRIC CERAMIC, CERAMIC/POLYMER COMPOSITE AND

POLYMER ELEMENTS BASED DEVICES THROUGH 2007 ................................................133

COMPETITION...............................................................................................134

MERGERS, ACQUISITIONS AND DIVESTITURES...................................135

TABLE 33 ACQUISITION DEALS AMONG MANUFACTURERS OF

PIEZOELECTRIC DEVICES FROM 2000 TO 2007..................................................................136

BUSINESS MODELS AND PLAYERS ..........................................................137

TABLE 34 PIEZOELECTRIC DEVICE SUPPLIERS PRODUCT LINE

REFERENCE ...............................................................................................................................138

TABLE 34 PIEZOELECTRIC DEVICE SUPPLIERS PRODUCT LINE

REFERENCE (CONTINUED) ....................................................................................................139

TABLE 34 PIEZOELECTRIC DEVICE SUPPLIERS PRODUCT LINE

REFERENCE (CONTINUED) ....................................................................................................140

TABLE 34 PIEZOELECTRIC DEVICE SUPPLIERS PRODUCT LINE

REFERENCE (CONTINUED) ....................................................................................................141

 Add 
7. NEW DEVELOPMENTS142-146
$175.00
$157.50

NEW DEVELOPMENTS ...........................................................................................142

NEW MATERIALS..........................................................................................142

NEW PROCESSES..........................................................................................142

NEW APPLICATIONS....................................................................................143

NEW DEVICES ...............................................................................................144

FUTURE R&D TRENDS.................................................................................144

FUTURE R&D TRENDS (CONTINUED) ...........................................145

FUTURE R&D TRENDS (CONTINUED) ...........................................146

 Add 
8. PATENTS AND PATENT ANALYSIS147-152
$210.00
$189.00

PATENTS AND PATENT ANALYSIS......................................................................147

PATENT ANALYSIS.......................................................................................147

TABLE 35 NUMBER OF U.S. PATENTS GRANTED TO COMPANIES

MANUFACTURING PIEZOELECTRIC DEVICES FROM 2003 THROUGH

SEPT. 2007 ..................................................................................................................................148

FIGURE 15 COMPANIES BY NUMBER OF PATENTS GRANTED FOR

PIEZOELECTRIC DEVICES FROM 2003 TO SEPT. 2007......................................................149

INTERNATIONAL OVERVIEW OF U.S. PATENT ACTIVITY

IN PIEZOELECTRIC OPERATED DEVICES .........................................150

TABLE 36 U.S. PATENTS GRANTED TO ASSIGNED COUNTRY/REGION FOR

PIEZOELECTRIC DEVICES FROM JAN. 2003 TO 2007........................................................150

INTERNATIONAL OVERVIEW OF U.S. PATENT

ACTIVITY IN PIEZOELECTRIC OPERATED

DEVICES (CONTINUED) ..............................................................151

INTERNATIONAL OVERVIEW OF U.S. PATENT

ACTIVITY IN PIEZOELECTRIC OPERATED

DEVICES (CONTINUED) ..............................................................152

 Add 
9. COMPANY PROFILES153-185
$1,155.00
$1,039.50

COMPANY PROFILES..............................................................................................153

1 LTD ...............................................................................................................153

AIRMAR TECHNOLOGY CORPORATION ..................................................153

ALPHA CERAMICS, INC. ..............................................................................154

ANNON PIEZO TECHNOLOGY CO., LTD. ..................................................154

ARS TECH.......................................................................................................155

APC INTERNATIONAL, LTD. .......................................................................155

BRANSON ULTRASONICS CORPORATION...............................................156

CEDRAT TECHNOLOGIES SA .....................................................................156

CERAMTEC AG ..............................................................................................157

CERATEC INC. ...............................................................................................157

CHALLENGE ELECTRONICS ......................................................................158

CHANNEL INDUSTRIES...............................................................................158

CHANNEL PRODUCTS .................................................................................159

CTS ELECTRONIC COMPONENTS, INC. ...................................................160

DYNAMIC STRUCTURES & MATERIALS, LLC .........................................160

EDO COR. ELECTRO-CERAMIC PRODUCTS DIV.....................................161

EOPLEX TECHNOLOGIES, INC ..................................................................162

EPCOS AG.......................................................................................................163

FACE ELECTRONICS, LLC...........................................................................164

FACE INTERNATIONAL CORPORATION ..................................................165

FERROPERM PIEZOCERAMICS A/S...........................................................165

FUJITSU LABORATORIES, LTD..................................................................165

GCI ELECTRO-CERAMICS COMPANY.......................................................166

HOKURIKU ELECTRIC INDUSTRY CO., LTD. ..........................................166

HUASHENG ELECTRONICS CO., LTD .......................................................166

INSENSOR A/S ...............................................................................................167

JIANGSU JIANGJIA ELECTRONICS CO., LTD..........................................167

KYUNGWON FERRITE IND. CO., LTD .......................................................168

L-3 COMMUNICATIONS OCEAN SYSTEMS..............................................168

MAD CITY LABS, INC....................................................................................169

MATERIALS SYSTEMS INC. ........................................................................169

MEASUREMENT SPECIALTIES INC ..........................................................169

MICROJET TECHNOLOGY, CO., LTD.........................................................170

MICROMECHATRONICS INC ......................................................................171

MORGAN ELECTROCERAMICS LTD..........................................................171

MURATA..........................................................................................................172

NEC TOKIN CORPORATION........................................................................173

NPOINT, INC ..................................................................................................173

NANOMOTION LTD.......................................................................................174

NEW SCALE TECHNOLOGIES, INC. ..........................................................174

NGK/NTK JAPAN...........................................................................................175

NINGBO EAST ELECTRONICS LTD. ..........................................................175

NOLIAC A/S.....................................................................................................176

OCEANA SENSORS .......................................................................................176

PHYSIK INSTRUMENTE ..............................................................................177

PI CERAMIC GMBH.......................................................................................178

PIEZO SOLUTIONS........................................................................................178

PIEZO SYSTEMS, INC. ..................................................................................179

PIEZOSYSTEM JENA GMBH........................................................................179

PIEZO TECHNOLOGIES ...............................................................................180

SENSOR TECHNOLOGY LTD. .....................................................................180

SHANGHAI JINLING CO., LTD....................................................................181

SHENZHEN YUJIE ELECTRONICS CO.,LTD. ...........................................181

SICHAN INSTITUTE OF PIEZOELECTRIC AND ACOUSTOOPTIC

TECHNOLOGY (SIPAT) ...............................................................181

SONICS & MATERIALS, INC........................................................................182

SMART MATERIAL CORPORATION ...........................................................183

SUMITOMO METAL (SMI) ELECTRONIC DEVICES, INC. ......................183

SUNNY ELECTRONICS CORPORATION....................................................184

TAMURA..........................................................................................................184

ULTRA ELECTRONICS .................................................................................185

WEIFANG JUDE ELECTRONICS CO. LTD.................................................185

Proceed to Check Out
View More Reports
@iRAP 2013. All Rights Reserved.