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
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- 1.0 INTRODUCTION TO CERAMIC CAPACITOR MARKETS, TECHNOLOGIES & OPPORTUNITIES
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- 1.1 About the Author:
- 1.2 Research Methodology Employed:
- 1.3 The Paumanok Research Methodology:
- 1.3.1 Government Data Collection and Resources:
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- 1.3.2 Secondary Published Sources:
- 1.3.3 Primary Intelligence Gathering:
- 1.4 The Passive Component Supply Chain:
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- 1.4.1 Mining of Raw Materials:
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- 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:
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- 1.5.1 The Two Technical Economic Maxims Associated with Ceramic capacitors:
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- 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:
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- 1.6.1 The Fiscal Year Ending March 31, 2015
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- 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:
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- 2.1 Ceramic Capacitors: Technical-Economic Overview:
- 2.1.1 The Two Technical Economic Maxims Associated with Ceramic Capacitors:
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- 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):
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- 2.2.1 MLCC Materials and Construction:
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- 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
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- 3.1 Ceramic Capacitors: Global Market Update: 2015
- 3.1.1 Positive Market Indicators:
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- 3.1.2 Negative Market Indicators:
- 3.2 Overall Outlook To 2020:
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- 3.2.1 Changing View on Passive Component Unit Sales to 2020:
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- 3.3 Trends and Directions in Value-Added and Application Specific Ceramic Capacitors:
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- 3.4 CERAMIC CAPACITORS: TOTAL WORLD MARKET OVERVIEW: FY 2015
- 3.4.1 Global Value, Volume and Pricing For Ceramic Capacitors: FY 2015 Estimate
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- 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
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- 3.5.1 Multilayered Ceramic Chip Markets: 2015
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- 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
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- 3.6.1 Performance Characteristic (X5R, X7R,Y5V, NPO, Additional Variations)
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- 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
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- 3.7.1 MLCC Demand By Case Size: Dielectrics In Motion: 1991-2015
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- 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:
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- 3.8.1 Ceramic Capacitor Consumption By End-Use Market Segment: FY 2015 FY
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- 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
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- 3.9.1 Ceramic Capacitor Vendors: Ten Year Shift in Market Shares and Analysis:
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- 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
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- 3.10.1 China and Asia-10 Year Trend Analysis for Ceramic Capacitors Consumption to 2015
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- 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:
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- 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
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- 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:
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- 4.4 HIGH CAPACITANCE BME MLCC: GLOBAL MARKETS: 2015-2020
- 4.4.1 Global High Capacitance MLCC Shipment Volume: 2015
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- 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
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- 4.5.1 Being The First To Market Is Extremely Important:
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- 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:
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- 4.6.1 Flex Robust Terminations and Open Mode MLCC:
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- 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
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- 4.7.1 Technology Correlation With Thin Ceramic Layers:
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- 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:
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- 4.8.1 Changing Particle Sizes of Nickel Electrode Powders:
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- 5.0 HIGH-FREQUENCY CERAMIC CAPACITORS >1GHZ: WORLD MARKET OUTLOOK: 2015-2020
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- 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
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- 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
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- 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
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- 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:
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- 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
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- 6.5.1 High Temperature Ceramic SMD Chip-Average Unit Prices:
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- 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
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- 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
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- 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
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- 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
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- 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:
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- 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
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- 9.5.1 China and SE Asia: 2015-2020: Forecasted Shifts in Ceramic Capacitor Consumption
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- 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
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- 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
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- 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