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Ceramic Capacitors: World Markets, Technologies & Opportunities: 2015-2020

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from $2,750 249 Pages Paumanok Publications June, 2015 BEEQ5602857
Lowest Prices Guaranteed
Price from $2,750
Length 249 Pages
Publisher Paumanok Publications
Published Date June, 2015
SKU BEEQ5602857
$2,750
 
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Ceramic Capacitors: World Markets, Technologies & Opportunities: 2015-2020

The new market research report entitled “Ceramic Capacitors: World Markets, Technologies & Opportunities: 2015-2020” has been published by Paumanok Publications, Inc. (Cary, NC USA) and is now available for download from our on-line library of market intelligence reports. This latest study addresses the $10 billion global market for ceramic capacitors for FY 2015 with detailed forecasts to FY 2020 by capacitor type and configuration; performance characteristic; electrode type; MLCC case size; end-use market segment and world region. The study offers detailed value, volume and pricing forecasts, with historical supporting charts (from 1991 to 2015 showing Big Data); and detailed value, volume and pricing forecasts for each year to FY 2020. Also included is a detailed analysis of each of the 49 global manufacturers of ceramic capacitors in 2015.


CERAMIC CAPACITORS: WORLD MARKETS, TECHNOLOGIES & OPPORTUNITIES: 2015-2020
1.0 INTRODUCTION TO CERAMIC CAPACITOR MARKETS, TECHNOLOGIES & OPPORTUNITIES
1.1 About the Author:
1.2 Research Methodology Employed:
1.3 The Paumanok Research Methodology:
1.3.1 Government Data Collection and Resources:
1.3.2 Secondary Published Sources:
1.3.3 Primary Intelligence Gathering:
1.4 The Passive Component Supply Chain:
1.4.1 Mining of Raw Materials:
1.4.2 Raw Materials Processing:
1.4.3 Component Manufacturing:
1.4.4 Component Distribution:
1.4.5 End-Market Consumption:
1.4.6 Recycling of Critical Materials:
1.5 Technical Economic Maxims Related To Passive Electronic Components:
1.5.1 The Two Technical Economic Maxims Associated with Ceramic capacitors:
1.5.2 Ubiquitous Nature of Ceramic capacitors:
1.5.3 Relationship Between Capacitance and Available Surface Area:
1.6 Financial Considerations With Respect To This Report:
1.6.1 The Fiscal Year Ending March 31, 2015
1.6.2 Currency Translation
1.6.3 Currency Headwinds in 2015:
1.6.3 Volume, Value and Pricing Data:
2.0 CERAMIC CAPACITORS: TECHNOLOGY OVERVIEW:
2.1 Ceramic Capacitors: Technical-Economic Overview:
2.1.1 The Two Technical Economic Maxims Associated with Ceramic Capacitors:
2.1.2 Ubiquitous Nature of Ceramic Capacitors:
2.1.3 Relationship Between Capacitance and Available Surface Area in Ceramic Capacitors:
2.2 MLCC (THE INDUSTRY WORKHORSE):
2.2.1 MLCC Materials and Construction:
2.2.1 (A) MLCC Design:
2.2.1 (B) MLCC Case Sizes:
2.2.1 (C ) Ceramic Capacitor Metallization:
2.2.1 (CA) Palladium Electrodes:
2.2.1 (CB) Nickel Electrodes:
2.2.1 (CC) Copper Electrodes:
2.2.1 (CD) Termination Materials:
2.2.1 (D) Ceramic Dielectric Materials:
2.2.1 (E) Ceramic Capacitor Performance Classes
2.2.2 (E1) Class I Ceramics (NPO/COG):
2.2.2 (E1A) Developments in COG BME MLCC
2.2.1 (E2) Class II Ceramics (X7R/Z5U/Y5V)
2.2.1 (E21) X7R Capacitors (BX)
2.2.1 (E21A) Developments in X7R BME MLCC
2.2.1 (E21B) The Development of The Popular X5R High Capacitance MLCC:
2.2.1 (E22) Z5U (BZ) Capacitors
2.2.1 (E23) Y5V Capacitors
2.2.1 (E23A) Developments in Y5V BME MLCC
2.2.1 (E3) Class III Ceramics
2.2.2 Additional Ceramic Capacitor Configurations:
2.2.2 (1) Single Layered Ceramic Disc Capacitor:
2.2.2 (2) Multilayered Axial Ceramic Capacitor:
2.2.2 (3) Multilayered Radial Ceramic Capacitor:
2.2.2 (4) Other Configurations:
3.0 CERAMIC CAPACITORS: WORLD MARKET OUTLOOK: FY 2015-2020
3.1 Ceramic Capacitors: Global Market Update: 2015
3.1.1 Positive Market Indicators:
3.1.2 Negative Market Indicators:
3.2 Overall Outlook To 2020:
3.2.1 Changing View on Passive Component Unit Sales to 2020:
3.3 Trends and Directions in Value-Added and Application Specific Ceramic Capacitors:
3.4 CERAMIC CAPACITORS: TOTAL WORLD MARKET OVERVIEW: FY 2015
3.4.1 Global Value, Volume and Pricing For Ceramic Capacitors: FY 2015 Estimate
3.4.2 Global Value of Ceramic Capacitor Consumption: FY 2015 and % Changes
3.4.3 Impact of Recent Events On The Value of Ceramic Capacitor Shipments for FY 2015
3.4.4 25-Year Analysis of Global Ceramic Capacitor Shipment Value: 1991-2015
3.4.5 Reasons for Revenue Growth in The Global MLCC Market: 25 Year Analysis:
3.4.6 Global Volume of Ceramic Capacitor Consumption: FY 2015 and % Changes:
3.4.7 25-Year Volume of Consumption For Ceramic Capacitors: 1991-2015
3.4.8 Reasons for Unit Expansion In The Global MLCC Market Over Time:
3.4.9 Global Average Unit Selling Price for Ceramic Capacitors: FY 2015 and % Changes
3.4.10 25 -Year Average Unit Price Trend for Ceramic Capacitors: 1991-2015:
3.4.11 Reason for Changes in Average Unit Selling Price for MLCC Over Time:
3.4.12 Capacity Utilization Rate in Ceramic Capacitors: 1991-2015
3.4.13 Summary of Global Consumption for Ceramic Capacitors: 1991-2015 (Value, Volume, Pricing, Utilization)
3.5 CERAMIC CAPACITORS: GLOBAL DEMAND BY CONFIGURATION: 2015
3.5.1 Multilayered Ceramic Chip Markets: 2015
3.5.2 Single Layered Disc Markets: 2015
3.5.3 Multilayered Ceramic Radial Leaded Markets: 2015
3.5.4 Multilayered Ceramic Axial Leaded Markets: 2015
3.5.5 Multichip Capacitor Array and Other Markets: 2015
3.5.6 Global Ceramic Capacitor Consumption Value By Configuration (MLCC, SLC, Radial, Axial, Array): 2015
3.5.7 Forecasts for Ceramic Capacitor Consumption By Configuration: 2015-2020
3.5.8 Ceramic Capacitors: Global Competitive Analysis by Type and Configuration for 2015
3.6 CERAMIC CAPACITORS: GLOBAL DEMAND BY PERFORMANCE CHARACTERISTICS: 2015
3.6.1 Performance Characteristic (X5R, X7R,Y5V, NPO, Additional Variations)
3.6.1 (A) X5R Capacitor Markets: 2015
3.6.1 (B) X7R Capacitor Markets: 2015
3.6.1 (C ) NPO Capacitor Markets: 2015
3.6.1 (D) Y5V Capacitor Markets: 2015
3.6.1 (E) Other Capacitor Markets With Respect To Performance: 2015
3.6.2 Forecast: Ceramic Capacitor Consumption Forecasts by Performance Characteristics: 2015-2020
3.7 MLCC DEMAND BY CASE SIZE: 2015
3.7.1 MLCC Demand By Case Size: Dielectrics In Motion: 1991-2015
3.7.2 Global Production of Ceramic Chip Capacitors By Case Size: 1991-2015 (In Millions of Pieces)
3.7.3 Unit Demand By MLCC Case Size: 2015 Worldwide Estimates
3.7.4 MLCC Consumption Forecasts By Case Size: 2015‐2020
3.8 CERAMIC CAPACITORS: DEMAND BY END-USE MARKET SEGMENT FY 2015-2020:
3.8.1 Ceramic Capacitor Consumption By End-Use Market Segment: FY 2015 FY
3.8.1 (A) Telecommunications Equipment Markets for Ceramic Capacitors: FY 2015
3. 8.1.(A1) Telecommunications Markets: 10 Year Analysis for Ceramic Capacitor Consumption:
3.8.2 Computer Markets For Ceramic Capacitors: FY 2015
3.8.2 (A1) Computer & Peripherals: 10 Year Analysis for MLCC Consumption:
3.8.3 Consumer Audio and Video Imaging Markets For Ceramic Capacitors: FY 2015
3.8.3 (A1) Consumer AV: 10 Year Analysis for MLCC Consumption:
3.8.4 Automotive Markets For Ceramic Capacitors: FY 2015
3.8.4 (A1) Automotive: 10 Year Analysis for MLCC Consumption:
3.8.5 Industrial and Specialty Markets For Ceramic Capacitors: FY 2015
3.8.5 (A1) Specialty Electronics Segment (Defense, Medical, Oil & Gas, Mining and Other) Markets for Ceramic Capacitors: FY 2015
3.8.5 (A2) Industrial & Specialty: Ten Year Market Analysis:
3.9 CERAMIC CAPACITOR VENDORS: DETAILED MARKET SHARES: FY 2015
3.9.1 Ceramic Capacitor Vendors: Ten Year Shift in Market Shares and Analysis:
3.9.3 Value-Added and Application Specific Ceramic Capacitor Markets As a Subset of The Global Ceramic Capacitor Markets: FY 2015
3.9.4 Operating Margins: Structure of The Ceramic Capacitor Profit Centers in 2015
3.9.5 Balancing Margins in 2015
3.10 CERAMIC CAPACITOR CONSUMPTION BY WORLD REGION: FY 2015
3.10.1 China and Asia-10 Year Trend Analysis for Ceramic Capacitors Consumption to 2015
3.10.2 Japan-10 Year Trend Analysis for Ceramic Capacitors Consumption to 2015
3.10.3 Europe-10 Year Trend Analysis for Ceramic Capacitors Consumption to 2015
3.10.4 Americas-10 Year Trend Analysis for Ceramic Capacitors Consumption to 2015
3.10.5 CERAMIC CAPACITOR PRODUCTION TRENDS BY COUNTRY AND VENDOR: FY 2015
3.10.1 (A) Japanese Production Output of Ceramic Capacitors for 2015
3.10.1 (A1) Top 15 Factories Producing Ceramic Capacitors In Japan
3.10.2 Korean Production Output of Ceramic Capacitors in 2015
3.10.2 (A1) Top 4 Factories Producing MLCC In Korea ROK
3.10.3 Chinese Production Output of Ceramic Capacitors: FY 2015
3.10.3 (A) Top 36 Factories Producing MLCC In China
3.10.4 Philippines Production Output Of Ceramic Capacitors: FY 2015
3.10.4 (A) Top 2 Factories Producing MLCC In Philippines
3.10.5 Singapore Production Output Of Ceramic Capacitors: FY 2015
3.10.5 (A) Top Factory Producing MLCC In Singapore
3.10.6 Americas Production Of Ceramic Capacitors: FY 2015
3.10.7 Mexico Production Of Ceramic Capacitors: FY 2015
3.8. 7 (A) Top Factories Producing Ceramic Capacitors In Mexico: 2015
3.10.8 Malaysia Production of Ceramic Capacitors: FY 2015
3.10.8 (A) Top Factories Producing Ceramic Capacitors In Malaysia: 2015
3.10.9 European and ROW Production of Ceramic Capacitors: FY 2015
3.10.9 (A) Top Factories Producing MLCC In Europe and Israel: 2015
4.0 HIGH CAPACITANCE MLCC: THE BIG MONEYMAKER: 2015-2020:
4.1 Important Market Developments In BME MLCC: 2015
4.2 High Capacitance MLCC: Competition At The Granular Level
4.2.1 Introduction: Competition in High Capacitance MLCC Is Intense
4.2.2 High Capacitance MLCC: Market Dominance Over Alternative Technologies:
4.2.3 High Capacitance MLCC: To Be First To Market With Differentiated Products:
4.2.3 (A) Increasing The Maximum Overall MLCC Capacitance Value:
4.2.3 (B) Increasing The Maximum Capacitance Value for Each of the MLCC Chip Case Sizes
4.2.3 (C ) Increasing MLCC Capacitance Value While Also Increasing Chip Operating Voltage
4.2.3 (D) Increasing MLCC Capacitance Value While Not Impeding Chip Performance Characteristics:
4.2.3 (E) Increasing MLCC Capacitance Value While Decreasing Chip Thickness:
4.3 BME MLCC Markets: Summary and Conclusion:
4.4 HIGH CAPACITANCE BME MLCC: GLOBAL MARKETS: 2015-2020
4.4.1 Global High Capacitance MLCC Shipment Volume: 2015
4.4.1 (A) High Capacitance MLCC Seven Year Market Volume Growth Analysis
4.4.2 Global High Capacitance MLCC Shipment Value: 2015
4.4.2 (A) High Capacitance MLCC Seven Year Market Value Growth Analysis
4.4.3 Global High Capacitance MLCC Average Unit Pricing: 2015
4.4.3 (A) High Capacitance MLCC Seven Year Pricing Analysis:
4.4.4 Global Market Shares in High Capacitance MLCC: 2015
4.4.4 (A) Shifting Market Shares in High Capacitance MLCC: 10 Year Analysis
4.4.5 Ceramic Capacitor Vendors: OVERALL Market Shares: FY 2015
4.5 TECHNOLOGY TRENDS & DIRECTIONS IN HIGH CAPACITANCE CERAMIC CAPACITORS: 2015-2020
4.5.1 Being The First To Market Is Extremely Important:
4.5.2 Technology Leadership in High Capacitance MLCC is Changing:
4.5.3 The Need For Thinner MLCC is Also Driving Demand:
4.5.4 Understanding The Overall High Capacitance MLCC Trend For The Future: 2015-2020
4.5.6 The 220 Microfarad and 330 Microfarad MLCC Development:
4.6 Important Technical Trends In Value-Added and Application Specific Ceramic Capacitors:
4.6.1 Flex Robust Terminations and Open Mode MLCC:
4.6.2 Vendors Selling MLCC With Flexible Terminations: FY 2015
4.6.3 MLCC With Precious Metal Derivative Terminations:
4.6.3 (A) Vendors Selling MLCC With Derivative Terminations: FY 2015
4.7 Technology Trends In Nano-Powders for High Capacitance BME MLCC: 2015-2020
4.7.1 Technology Correlation With Thin Ceramic Layers:
4.7.2 Dielectric Layer Thicknesses Achieved by Various Process Methods for Barium Titanate:
4.7.3 Dielectric Layer Thicknesses for Barium Titanate: Trends 2001-2017; 2020 Forecasts
4.7.4 Technology Roadmap for MLCC Dielectric Layer Thickness:
4.7.6 Correlation Between Dielectric Layer Thickness and Barium Titanate Particle Size and Outlook to 2020:
4.7.7 Future Focus of Ceramic Dielectric Materials Technology Improvements
4.7.7 (A) Improving The Purity of Precursors:
4.7.7 (B) Improving Fired Dielectric Thickness Capabilities:
4.7.7 (C ) Improving Particle Size Shape and Consistency:
4.7.7 (D) Reducing Agglomeration in BTO Powders (NanoOxalate Development)
4.7.7 (E) Developments in Micro-emulsion Synthesis of Barium Titanate:
4.7.7 (F) Improving Powder Dispersion In Slurry:
4.7.7 (G) Improving Electrode Matching & Leach Prevention:
4.7.7 (H) Improving Tape Yield Ratios:
4.8 Technology Roadmapping in Nickel Electrode Powders and Pastes:
4.8.1 Changing Particle Sizes of Nickel Electrode Powders:
5.0 HIGH-FREQUENCY CERAMIC CAPACITORS >1GHZ: WORLD MARKET OUTLOOK: 2015-2020
5.1 High Frequency Ceramic Capacitor Applications > 1 Ghz: Introduction and Scope of Coverage
5.2 UHF, SHF and VHF Ceramic Capacitor Markets: FY 2015
5.3 End-Products for Ceramic Capacitors In The UHF, SHF and VHF Range: FY 2015
5.4 Value & Volume of Global Consumption For High Frequency Ceramic Capacitors> 1GHz: FY 2015 and Forecasts to 2020
5.5 High Frequency Ceramic Capacitor Market >1 GHz By World Region: 2015 and 2020 Outlook
5.5.1 NAFTA High Frequency Ceramic Capacitor Market: FY 2015 and 2020 Forecast
5.5.2 Europe High Frequency Ceramic Capacitor Market: FY 2015 and 2020 Forecast
5.5.3 Asia-Pacific High Frequency Ceramic Capacitor Market: FY 2015 and 2020 Forecast
5.6 High Frequency Ceramic Capacitor Consumption By End-Use Market Segment: FY 2015
5.6.1 Wireless Access: High Frequency Base Station Markets for Ceramic Capacitors: FY 2015 and FY 2020 Forecast
5.6.2 Medical Test & Scan Equipment Markets for High Frequency Ceramic Capacitors: FY 2015 and FY 2020 Forecast
5.6.3 Defense Communications Markets for High Frequency Ceramic Capacitors: FY 2015 and FY 2020 Forecast
5.6.4 RF Sputtering/Lasers/ Other Markets for High Frequency Ceramic Capacitors: FY 2015 and FY 2020 Forecast
5.7 Value of Demand For High Frequency Ceramic Capacitors By Dielectric Type (NPO, X7R, Low Loss Porcelain, Z5U): FY 2015
5.8 Value of Consumption for High Frequency Ceramic Capacitors By Configuration (Thick Versus Thin Film): FY 2015
5.9 Competitive Analysis: UHF/Microwave Ceramic Capacitors: FY 2015 Update
5.10 High Frequency Ceramic Capacitor Suppliers: FY 2015 Sales & Market Shares
6.0 HIGH TEMPERATURE CERAMIC CAPACITORS >200 DEGREES C: WORLD MARKET OUTLOOK: 2015-2020
6.1 Global Market Size and Growth: FY 2015 and Forecasts To 2020
6.2 High Temperature Ceramic Capacitor Configurations: FY 2015
6.3 High Temperature Ceramic Capacitor Markets By End-Use Market Segment: FY 2015 and 2020 Outlook
6.4 High Temperature Ceramic Capacitor Markets (Through hole): FY 2015
6.4.1 Axial and Radial Leaded Ceramic Capacitors For High Temperature Applications-Average Unit Prices:
6.4.2 Axial and Radial Leaded Ceramic Capacitors For High Temperature Applications - End-Use Markets:
6.4.3 Axial and Radial Leaded Ceramic Capacitors For High Temperature Applications- Circuit Applications:
6.5 High Temperature Ceramic Capacitor (SMD Chip): FY 2015
6.5.1 High Temperature Ceramic SMD Chip-Average Unit Prices:
6.5.2 High Temperature Ceramic SMD Chip End-Use Markets:
6.5.3 High Temperature Ceramic SMD Chip – Circuit Applications:
6.6 Competitive Environment in Ceramic Capacitors for High Temperature Applications: FY 2015
6.7 High Temperature Ceramic Capacitor Vendors >200 C: FY 2015 Estimated Sales & Market Shares
7.0 CERAMIC SAFETY CAPACITORS (X&Y): WORLD MARKET OUTLOOK: 2015-2020
7.1 Introduction To Ceramic Safety Capacitor Markets: FY 2015
7.2 Ceramic Safety Capacitors (X and Y Capacitors): World Markets: FY 2015 and 2020 Outlook
7.3 Competitive Environment in Ceramic Safety Capacitors: FY 2015
7.4 Ceramic Safety Capacitor Consumption By End-Use Market Segment: FY 2015
7.5 Ceramic Safety Capacitor Consumption By World Region: FY 2015 ($/MM)
7.6 Ceramic Versus Film Safety Capacitor Markets: FY 2015
7.7 Value, Volume and Pricing Forecasts For Ceramic Safety Capacitors To 2020:
8.0 AUTOMOTIVE UNDER THE HOOD (UTH) MARKETS FOR CERAMIC CAPACITORS: WORLD MARKET OUTLOOK: 2015-2020
8.1 Ceramic Capacitor Revenues By Location in The Automobile (UTH Versus BTF)
8.2 Automotive Under The Hood To 175 Degrees C: World Markets: World Market Value, Volume and Pricing: FY 2015 and Forecasts To 2020
8.3 Ceramic Capacitor Consumption In Automotive Electronic Sub-assemblies By World Region: FY 2015
8.4 Overall Market Shares In Ceramic Capacitor Supply To The Automotive Market Segment: FY 2015
8.5 Ceramic Capacitor Consumption In UTH Environments By Maximum Operating Temperature (125 C, 150 C, 175 C): FY 2015
8.6 High Temperature Automotive MLCC Vendors (150 Degrees C +) Competitive Environment: FY 2015
8.7 Estimated Global Consumption Value For High Temperature Automotive MLCC 150 Degrees C + By Region
9.0 CERAMIC CAPACITORS: GLOBAL MARKET FORECASTS TO 2020
9.1 Forecasts for Ceramic Capacitor Consumption Based Upon Dollar Value: 2015-2020
9.2 Forecasts: Global Volume of Consumption for Ceramic Capacitors: 2015-2020:
9.3 Forecasts: Average Unit Price Forecast for Ceramic Capacitors: 2015-2020
9.4 Forecasts: Global Value of Consumption for MLCC By End-Use Market Segment: 2015-2020
9.4.1 Market Forecasts For Capacitor Consumption In The Wireless Handset Market Segment: 2015-2020:
9.4.2 Market Forecasts For Ceramic Capacitor Consumption In The Computer & Business Machine Segment: 2015-2020:
9.4.3 Market Forecasts For Ceramic Capacitor Consumption In The Consumer AV Segment: 2015-2020:
9.4.4 Market Forecasts For Ceramic Capacitor Consumption In The Automotive Segment: 2015-2020:
9.4.5 Market Forecasts For Ceramic Capacitor Consumption In The Industrial and Specialty Segment: 2015-2020
9.5 Forecasts: Global Value of Consumption for Ceramic Capacitor By World Region: 2015-2020
9.5.1 China and SE Asia: 2015-2020: Forecasted Shifts in Ceramic Capacitor Consumption
9.5.2 Japan: 2015-2020: Forecasted Shifts in Ceramic Capacitor Consumption
9.5.3 Europe: 2015-2020: Forecasted Shifts in Ceramic Capacitor Consumption
9.5.4 Americas: 2015-2020: Forecasted Shifts in Ceramic Capacitor Consumption
9.6 Forecasts for Ceramic Capacitor Consumption By Configuration: 2015-2020
9.7 Forecast: Ceramic Capacitor Consumption Forecasts by Performance Characteristics: 2015-2020
9.8 MLCC Consumption Forecasts By Case Size: 2015‐2020
10.0 GLOBAL DIRECTORY OF CERAMIC CAPACITOR MANUFACTURERS: 2015
10.1 ACAP
ACAP CORPORATION (PRIVATE)
10.2 AMC
ADVANCED MONOLYTHIC CERAMICS (A JOHANSON DIELECTRICS, INC. COMPANY)
10.3 ATC
AMERICAN TECHNICAL CERAMICS (AN AVX COMPANY)
10.4 AVX
AVX/KYOCERA CORPORATION (NYSE: AVX : RIC 6971:):
10.5 AFM MICRO
AFM MICROELECTRONICS, INC. (PRIVATE)
10.6 CALRAMIC
CALRAMIC TECHNOLOGIES LLC (PRIVATE)
10.7 CANARYTEC
CANARYTEC COMPANY LIMITED (PRIVATE)
10.8 CKE
CKE (INCLUDES DEAN TECHNOLOGY, HV POWER ASSOCIATES AND HV POWER SOLUTIONS)
10.9 COMPEX
COMPEX CORPORATION (PRIVATE)
10.10 DALICAP
DALIAN DALICAP CO., LTD. (PRIVATE)
10.11 DARFON
DARFON ELECTRONICS CORP (PUBLIC, TPE:8163)
10.12 DIELECTRIC LABS
DIELECTRIC LABORATORIES, INC. (A KNOWLES COMPANY)
10.13 EUROFARAD
EUROFARAD (AN EXXELIA COMPANY)
10.14 EXXELIA
EXXELIA GROUP
10.15 EYANG
EYANG HOLDINGS (GROUP) COMPANY LTD. (PUBLIC, HKG:0117)
10.16 FENG HUA
GUANGDONG FENGHUA ADV. TECH. (HLDG) CO (PUBLIC, SHE:000636)
10.17 GREATBATCH, INC.
GREATBATCH, INC. (PUBLIC: NYSE: GB)
10.18 HIGH ENERGY
HIGH ENERGY CORPORATION (INDUCTOTHERM)
10.20 HOLYSTONE
HOLY STONE ENTERPRISE CO., LTD. (PUBLIC, TPE:3026)
10.21 JOHANSON
JOHANSON DIELECTRICS (JOHANSON TECHNOLOGY, ADVANCED MONOLYTHIC CAPACITORS)
10.22 KEKON
KEKON CERAMIC CAPACITORS
10.23 KEMET
KEMET ELECTRONICS (NYSE: KEM):
10.24 KNOWLES
KNOWLES CAPACITORS (PUBLIC, NYSE: KN) {NOVACAP, DLI AND SYFER}
10.25 KYOCERA
KYOCERA CORPORATION (TYO:6971
10.26 MARUWA
MARUWA CO., LTD. (PUBLIC, TYO:5344)
10.27 MORGAN
MORGAN TECHNICAL CERAMICS (ELECTROCERAMICS, RUABON DIVISION)
10.28 MURATA
MURATA MANUFACTURING COMPANY LIMITED (RIC: 6981):
10.29 NOVACAP
NOVACAP (A KNOWLES COMPANY)
10.30 PRESIDIO
PRESIDIO COMPONENTS, INC. (PRIVATE)
10.31 SEMCO
SAMSUNG ELECTRO-MECHANICAL (KSE: 009150):
10.32 SPECTRUM CONTROL
SPECTRUM ADVANCED SPECIALTY PRODUCTS GROUP
10.33 SRT-MC
SRT MICRO-CERAMIQUE
10.34 SYFER
SYFER TECHNOLOGY LIMITED (A KNOWLES SUBSIDIARY)
10.35 TAIYO YUDEN
TAIYO YUDEN COMPANY LIMITED (RIC: 6976):
10.36 TEAM YOUNG
TEAM YOUNG ADVANCED CERAMICS COMPANY LTD. (5345:R.O.C)
10.37 TDK
TDK CORPORATION (RIC: 6762):
10.38 TECDIA
TECDIA
10.39 TEKNIS
TEKNIS CERAMIC PRODUCTS
10.40 TEMEX
TEMEX-CERAMICS (EXXELIA)
10.41 TRS
TRS TECHNOLOGIES, INC. (INCLUDES CENTRE CAPACITOR)
10.42 TUSONIX
TUSONIX (CTS CORP.)
10.43 UNION TECHNOLOGY
UNION TECHNOLOGY CORPORATION
10.44 VALLEY DESIGN
VALLEY DESIGN CORPORATION
10.45 VISHAY
VISHAY INTERTECHNOLOGY (NYSE:VSH)
10.46 WALSIN
WALSIN TECHNOLOGY CORPORATION (2492):
10.47 WRIGHT
WRIGHT CAPACITORS, INC. (PRIVATE)
10.48 YAGEO
YAGEO CORPORATION (TW 2327):
10.49 ZONKAS
ZONKAS ELECTRONIC COMPANY LIMITED

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