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大容量BME MLCC (卑金属電極積層セラミックコンデンサ) の世界市場:市場・技術・機会

High Capacitance BME MLCC: World Markets, Technologies & Opportunities: 2017-2022

発行 Paumanok Publications, Inc. 商品コード 296249
出版日 ページ情報 英文 177 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=113.19円で換算しております。
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大容量BME MLCC (卑金属電極積層セラミックコンデンサ) の世界市場:市場・技術・機会 High Capacitance BME MLCC: World Markets, Technologies & Opportunities: 2017-2022
出版日: 2017年06月02日 ページ情報: 英文 177 Pages
概要

当レポートでは、大容量BME MLCC (卑金属電極積層セラミックコンデンサ) の世界市場を調査し、関連する積層セラミックコンデンサ (MLCC) 市場と併せ、市場の推移とその分析、売上高、販売数、価格動向の予測 (今後5年) 、エンドユーザー産業・地域別の詳細な市場動向、市場シェアの分析や成長戦略、主要企業のプロファイルなど、体系的な情報を提供しています。

第1章 調査範囲

第2章 技術概要

  • コンポーネント技術の概要
  • MLCC:産業の主力製品
    • MLCCの材料と構造

第3章 積層セラミックコンデンサ (MLCC) :世界市場の最新状況

  • 市場価値の推移:過去27年の市場評価
  • 市場規模の推移:過去27年の市場評価
  • 平均販売価格の推移:過去27年の市場評価
  • MLCC消費動向:地域別
    • 過去12年の評価
    • セラミックコンデンサの生産動向−過去10年の市場分析:国別
  • MLCC消費動向:エンドユーザー産業別
    • セラミックコンデンサの収益構造
    • 携帯電話
    • コンピュータ & 付属品
    • 消費者向けオーディオ・ビジュアル機器
    • 自動車
    • 工業 & 特殊工業
    • セラミックコンデンサの消費動向:エンドユーザー産業別
  • セラミックコンデンサの売上高:エンドユーサー産業別
  • 市場シェアの予測
    • セラミックコンデンサベンダーの市場シェア予測
    • 過去12年の市場シェアの推移
  • 四半期の価格動向

第4章 大容量MLCC市場:収益要因

  • 大容量BME MLCC:主な市場動向
  • 大容量MLCC:競合情勢の詳細
  • 大容量BME MLCC:世界市場の予測
  • 大容量MLCCの世界市場:セグメント別
    • 販売台数
    • 売上高
    • 平均販売価格
    • 需要:性能別
    • 需要:ケースサイズ別
  • 総論

第5章 BME MLCCの世界市場の予測

  • MLCC売上高
  • MLCC販売数
  • 平均販売価格
  • MLCC売上高:地域別
    • 中国・東南アジア
    • 日本
    • 欧州
    • 南北アメリカ
  • MLCC売上高:エンドユーザー産業別
    • 携帯電話
    • コンピュータ & オフィス機器
    • オーディオ・ビジュアル機器
    • 自動車
    • 産業・特殊産業
  • 大容量セラミックコンデンサの技術動向
  • 大容量BME MLCC市場の阻害要因
  • セラミック誘電体の技術発展

第6章 大容量BME MLCC市場の主要企業

  • 京セラ
  • 村田製作所
  • SEMCO
  • 太陽誘電
  • TDK
  • WALSIN
  • YAGEO

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目次
Product Code: ISBN # 1-893211-02-9 (2017)

This study addresses how the rapidly expanding value and volume of consumption for high capacitance BME MLCC is now threatened by an inability for the technology to keep up with the needs of future portable electronic designs. This is creating an increase in lead times for these important parts that may last longer than previous shortages. This ©2017 study analyzes the dynamic global market for high capacitance base metal electrode multilayered ceramic chip capacitors (MLCC). This study, which updates the ©2000, ©2005, and ©2013 market studies of the same name, addresses the global market for MLCC with capacitance values from 2.2 microfarad to 470 microfarad for FY 2017. At fault are the raw materials consumed in the unique production of thousand plus layer stacked ceramic and metal electronic component production. The detailed study addresses the current increase in lead times in 2017 and the impact on the supply chain as well as the current and future impact on average unit pricing trends and directions; consumption by world region, production by country, consumption by end-use market segment, market shares and forecasts for consumption to 2022. The study also offers a detailed comparative technology roadmap for future developments in high capacitance BME MLCC that includes microfarad development, stacking abilities, nano-powder development in ceramic dielectric and nickel electrode powders, as well as long term forecasting for high capacitance BME MLCC materials consumption by type (Ceramic, nickel and copper); and for high capacitance BME MLCC by world region; MLCC and by end-use markets segment to 2022. At the heart of this report is a detailed analysis of specific high capacitance BME MLCC products from specific manufacturers and comparative pricing, number of vendors and shifts in capacitance and case size for these components between the 2nd quarter of 2013 and the second quarter of 2017. This exercise pinpoints specific areas where the market has moved forward and areas where it has pulled back.

Report Highlights:

High Capacitance BME MLCC Markets: 27 year historical market analysis on high capacitance MLCC markets worldwide including value, volume and pricing and five year forecasts; demand by region and end-use market segment; production by country; costs to produce; technology roadmapping, growth strategies, competition, deep technology comparative analysis, market shares strategies for moving forward and detailed forecasts to 2022.

Table of Contents

1.0. SCOPE OF COVERAGE:

  • 1.0(A) Report Highlights:
  • 1.0(B) Introduction to High Capacitance BME MLCC Markets:
  • 1.0(C ) Nickel Electrode Powder & Paste Markets:
  • 1.0(D) Copper Termination Powder and Flake Markets:
  • (E) Ceramic Dielectric Material Markets:
  • 1.1. REASON FOR THE REPORT:
    • 1.1(A) 2017 HIGH Cap BME MLCC Shortages:
  • 1.2. BACKGROUND OF THE REPORT:
    • 1.2(A) About the Author:
    • 1.2.(B) Methodology Employed:
    • 1.2(C ) The Paumanok Research Methodology:
      • 1.2.(C1) Government Data Collection and Resources:
      • 1.2.(C2) Secondary Published Sources:
      • 1.2.(C3 ) Primary Intelligence Gathering:
    • 1.3. Fixed Capacitors and Their Respective Market Valuations and Sub-Categories: 2017
    • 1.4. The Fundamental Capacitor Supply Chain:
      • 1.4(A) Mining of Raw Materials:
      • 1.4(B) Raw Materials Processing:
      • 1.4(C ) Component Manufacturing:
      • 1.4(D) Component Distribution:
      • 1.4(E) End-Market Consumption:
      • 1.4(F) Recycling of Critical Materials:
    • 1.5.1. The Two Primary Technical Economic Maxims Associated with MLCC:
  • 1.6. FINANCIAL CONSIDERATIONS WITH RESPECT TO THIS REPORT:
    • 1.6(A) Fiscal Year Reporting
    • 1.6(B) Currency Translation
      • 1.6(C ) Yen Valuation To The US Dollar: Trend and Directions For The March and June 2017 Quarters:
      • 1.6(D) NT$ Valuation To The US Dollar: Trend and Directions:
      • 1.6(E) Won Valuation To The US Dollar: Trend and Directions:
      • 1.6(F) Volume, Value and Pricing Data:
      • 1.6(G) How Currency Valuations are Impacting the Capacity Expansion of MLCC Manufacturers

2.0. TECHNOLOGY OVERVIEW:

  • TECHNOLOGY:
    • 2.1. COMPONENT TECHNOLOGY OVERVIEW:
      • 2.1.1. THE TWO TECHNICAL ECONOMIC MAXIMS ASSOCIATED WITH MLCC:
      • 2.1.2. Ubiquitous Nature of MLCC:
      • 2.1.3. Relationship Between Capacitance and Available Surface Area in MLCC:
  • 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
        • 2.2.1(E1) Class I Ceramics(NPO/COG):
          • 2.2.1(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

3.0. MLCC: GLOBAL MARKET UPDATE: 2017

  • VALUE AND VOLUME OF MLCC CONSUMPTION
    • 3.1. Changes In MLCC Market Value Over Time: 27 Year Market Assessment
      • 3.1.1. Impact of Yen Valuation On MLCC Sales in FY 2017
      • 3.1.2. Reasons for Revenue Growth in The Global MLCC Market: 27 Year Analysis:
      • 3.1.3. High Cap BME MLCC - Historical Production-
  • 3.2. Changes In MLCC Market Volume Over Time: 27 Year Market Assessment:
    • 3.2.1. Reasons for Unit Expansion In The Global MLCC Market Over Time:
  • PRICING:
  • 3.3. Global Average Unit Selling Price for MLCC: 27 Year Market Assessment
    • 3.3.1. Reason for Changes in Average Unit Selling Price for MLCC Over Time:
  • REGIONS AND COUNTRIES:
  • 3.4. MLCC Consumption By World Region: FY 2017
    • 3.4(A) Shifts in Global Consumption By World Region Over Time: 12 Year Analysis
    • 3.4(B) Ceramic Capacitor Production Trends By Country -- Ten Year Analysis
      • 3.4.1. China and Asia-12 Year Trend Analysis for MLCC Consumption
        • 3.4.1(A) China-Top MLCC Vendors To The Region in 2017
      • 3.6.3. Chinese Production Output of MLCC: 2017
        • 3.6.3(A) Top 36 Factories Producing MLCC In China
        • 3.4.1(B) Korean Factory Output of MLCC:
      • 3.4.2. Japan-12 Year Trend Analysis for MLCC Consumption
        • 3.4.2(A) Japan-Top MLCC Vendors To The Region in 2017
      • 3.4.2. Japanese Factory Output of MLCC in 2017
      • 3.4.3. Europe-12 Year Trend Analysis for MLCC Consumption
        • 3.4.3(A) Europe-Top MLCC Vendors To The Region in 2017
      • 3.4.4. Americas-12 Year Trend Analysis for MLCC Consumption
        • 3.4.4(A) Americas-Top MLCC Vendors To The Region in 2017
          • 3.4.4(A) Benchmarking: Capacitor Revenues By Major Vendor and World Region: FY 2017
  • END-MARKETS:
    • 3.5. MLCC Consumption By End-Use Market: FY 2017
      • 3.5.0. Operating Margins: Structure of The Ceramic Capacitor Profit Centers in 2015
        • 3.5.0(A) Balancing Margins in 2017
        • 3.5(A) End-Use Market Segments & Capacitor Consumption Correlation:
      • 3.5.1. Wireless Handset Markets: 12 Year Analysis for MLCC Consumption:
      • 3.5.2. Computer & Peripherals: 12 Year Analysis for MLCC Consumption:
      • 3.5.3. Consumer AV: 12 Year Analysis for MLCC Consumption:
      • 3.5.4. Automotive: 12 Year Analysis for MLCC Consumption:
      • 3.5.5. Industrial & Specialty: 12 Year Analysis for MLCC Consumption:
      • 3.5.6. Capacitor Ceramic Capacitor Consumption By End-Use Market Segment: FY 2017
    • 3.6. Benchmarking: Capacitor Sales By End-Use Market Segment For The Top Vendors of Capacitors: FY 2017
  • MARKET SHARES:
    • 3.7. MLCC: Market Shares: 2017
      • 3.7.1. Ceramic Capacitor Vendors: Detailed Market Shares: 2017
      • 3.7.2. 12-Year Shift in Global Market Shares in Ceramic Capacitors:
  • TECHNICAL COMPETITION
    • 3.7.3. Competitive Analysis of High Capacitance MLCC Manufacturers By Performance and Capacitance Value: 2017
      • 3.7.3(A) X5R Maximum Ceramic Chip Capacitance By Manufacturer: 2017
      • 3.7.3(B) X7R Maximum Ceramic Chip Capacitance By Manufacturer: 2017
      • 3.7.3(C) Y5V Maximum Ceramic Chip Capacitance By Manufacturer: 2017
      • 3.7.3(D) Other Developments In High Cap BME MLCC: 2017
        • 3.7.3(D1) X6S Dielectric Developments:
        • 3.7.3(D1) X7S Dielectric Developments(Temperature Stable, Class II, 22 fEF):
  • 3.8. HISTORICAL QUARTERLY PRICE DATA(3Q 2012- 2Q 2017)
    • 3.8.1. Time Period When The Selected MLCC Entered The Supply Chain:
    • 3.8.2. Changes in Selected MLCC Pricing Over Time:
    • 3.8.3. Key Reasons for Price Erosion in Selected MLCC:
    • 3.8.4. MLCC Thickness(T-Max): Another Key Factor In MLCC Development
      • 3.8.4(A) Historical Pricing For The X5R, 0603, 10.00UF, 10.00 V,+/- 20% MLCC {Tape and Reel}
      • 3.8.4(B) Vendors With X5R, 0603, 10.0 UF at 10 V Capabilities: 2013 versus 2017
    • 3.8.5. Historical Pricing For The X5R, 0603, 22.000UF, 6.300 V,+/- 20% MLCC {Tape and Reel}
      • 3.8.4(B) Vendors X5R 0603, 22 Microfarad 6.3 Volt MLCC Capabilities: 2013 versus 2017
    • 3.8.5. Historical Pricing For The X5R, 0805, 47.00UF, 6.300 V,+/- 20% MLCC {Tape and Reel}
    • 3.8.6. Historical Pricing For The X5R, 0805, 22.00UF, 10.00 V ,+/- 20% MLCC {Tape and Reel}
    • 3.8.7. IS A 100 MICROFARAD 0603 POSSIBLE?
      • 3.8.7(A) The Development of The 47 Microfarad 0603MLCC-(X5R, 0603, 47.000UF, 6.300 V(0.80 to 1.0 mm T)
    • 3.8.8. NUMBER OF VENDORS IN KEY HIGH CAPACITANCE MLCC PARTS
    • 3.8.9. WHAT IS THE TREND FOR THE AVAILABLE THICKNESS OF THE FINISHED MLCC?
    • 3.8.10. MOVEMENT FROM 1MM TO 0.8MM THICKNESS TRENDS?

4.0. HIGH CAPACITANCE MLCC MARKETS: THE PROFIT DRIVER: 2017-2022

  • HIGH CAP BME MLCC
    • 4.1. Important Market Developments In BME MLCC: 2017
    • 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:
    • 4.4. HIGH CAPACITANCE BME MLCC: GLOBAL MARKETS: 2017-2022
  • VOLUME(UNIT SALES)
    • 4.4.1. Global High Capacitance MLCC Shipment Volume: 2017
      • 4.4.1(A) High Capacitance MLCC Ten Year Market Volume Growth Analysis
    • 4.4.2. Global High Capacitance MLCC Shipment Value: 2017
  • VALUE(DOLLAR SALES)
    • 4.4.2(A) High Capacitance MLCC Ten Year Market Value Growth Analysis
      • 4.4.3. Global High Capacitance MLCC Average Unit Pricing: 2017
  • PRICING(ASP)
    • 4.4.3(A) High Capacitance MLCC Ten Year Pricing Analysis:
      • 4.4.4. Global Market Shares in High Capacitance MLCC: 2017
    • 4.4.4(A) Shifting Market Shares in High Capacitance MLCC: 12 Year Analysis
  • PERFORMANCE
    • 4.3. CERAMIC CAPACITORS: GLOBAL DEMAND BY PERFORMANCE CHARACTERISTICS: 2017
      • 4.3.1. Performance Characteristic(X5R, X7R,Y5V, NPO, Additional Variations)
        • 3.6.1(A) X5R Capacitor Markets: 2017
        • 3.6.1(B) X7R Capacitor Markets: 2017
        • 3.6.1(C ) NPO Capacitor Markets: 2017
        • 3.6.1(D) Y5V Capacitor Markets: 2017
        • 3.6.1(E) Other Capacitor Markets With Respect To Performance: 2017
  • CASE SIZES:
    • 3.7.1. MLCC Demand By Case Size: Dielectrics In Motion:
      • 3.7.3. Unit Demand By MLCC Case Size: 2017 Worldwide Estimates
  • 4.3. BME MLCC Markets: Summary and Conclusion:
  • FORECASTS:

5.0. FORECASTS FOR BME MLCC: 2017-2022

  • 5.1. Forecasts: Global Volume of Consumption for MLCC: 2017-2022
  • 5.2. Forecasts: Global Value of Consumption for MLCC: 2017-2022
  • 5.3. Forecasts: Global Average Unit Pricing for MLCC: 2017-2022
  • 5.4. Forecasts: Global Value of Consumption for MLCC By World Region: 2017-2022
    • 5.4.1. China and SE Asia: 2017-2022: Forecasted Shifts in MLCC Consumption
    • 5.4.2. Japan: 2017-2022: Forecasted Shifts in MLCC Consumption
    • 5.4.3. Europe: 2017-2022: Forecasted Shifts in MLCC Consumption
    • 5.4.4. Americas: 2017-2022: Forecasted Shifts in MLCC Consumption
  • 5.5 Forecasts: Global Value of Consumption for MLCC By End-Use Market Segment: 2017-2022
    • 5.5.1. Market Forecasts For Capacitor Consumption In The Wireless Handset Market Segment: 2017-2022:
    • 5.5.2. Market Forecasts For Capacitor Consumption In The Computer & Business Machine Segment: 2017-2022:
    • 5.5.3. Market Forecasts For Capacitor Consumption In The Consumer AV Segment: 2017-2022:
    • 5.5.4. Market Forecasts For Capacitor Consumption In The Automotive Segment: 2017-2022:
    • 5.5.5. Market Forecasts For MLCC Consumption In The Industrial and Specialty Segment: 2017-2022
    • 5.5.6. Unit Forecasts For MLCC By End-Use Market Segment: FY 2017-2022
      • 5.5.7. MLCC Content By End-Product and Forecasts: FY 2017-FY 2022
      • 5.5.7. MLCC Unit Consumption Forecasts By End-Use Market Segment and Key Product Market: FY 2017-2022
  • OPPORTUNITIES:
    • 5.5.6. Opportunities for Growth of BME MLCC Markets in Alternative Dielectrics: 2017-2022
      • 5.5.6(1) BME MLCC: Targeting Molded Tantalum Chip Capacitors: 2017-2022
      • 5.5.6(2) BME MLCC: Targeting DC Film Capacitors: 2017-2022
      • 5.5.6(3) BME MLCC: Targeting Aluminum Electrolytic Capacitors: 2017-2022
      • 5.5.6(4) BME MLCC: Targeting PGM MLCC: 2017-2022
        • 5.5.6(4)(A) NPO and X7R Low Layer Count MLCC Target Markets
        • 5.5.6(4)(B) Value-Added and Application Specific Ceramic Capacitor Markets
      • 5.5.7. Summary of Market Opportunities for BME MLCC in Alternative Dielectrics: 2017-2022
  • TRENDS & DIRECTIONS:
    • 5.6. TECHNOLOGY TRENDS & DIRECTIONS IN HIGH CAPACITANCE CERAMIC CAPACITORS: 2017-2022
      • 5.6.1. Feedback on EDS Keynote About Future High Capacitance Product Development: 2017-2022
      • 5.6.2. Being The First To Market Is Important To Maximize Profitability
      • 5.6.3. Technology Leadership in High Capacitance MLCC is Changing:
      • 5.6.4. Understanding The Overall High Capacitance MLCC Trend For The Future: 2017-2023
      • 5.6.5. The Need For Thinner MLCC is Also Driving Demand:
      • 5.6.6. The 220 Microfarad and 330 Microfarad MLCC Development:
  • GAPS AND SHOWSTOPPERS:
    • 5.7. Gaps And Showstoppers Slowing The Development of High Capacitance BME MLCC: 2017-2023
      • 5.7.1. Technology Development Correlation With Thin Ceramic Layers:
      • 5.7.2. Dielectric Layer Thicknesses Achieved by Various Process Methods for Barium Titanate:
      • 5.7.3. Dielectric Layer Thicknesses for Barium Titanate: Trends 2001-2017; 2020 Forecasts
      • 5.7.5. Technology Roadmap for MLCC Dielectric Layer Thickness:
      • 5.7.6. Correlation Between Dielectric Layer Thickness and Barium Titanate Particle Size and Outlook to 2020:
  • 5.8. Future Focus of Ceramic Dielectric Materials Technology Improvements
    • 5.8.1. Improving The Purity of Precursors:
    • 5.8.2. Improving Fired Dielectric Thickness Capabilities:
    • 5.8.3. Improving Particle Size Shape and Consistency:
    • 5.8.4. Reducing Agglomeration in BTO Powders(NanoOxalate Development)
    • 5.8.5. Developments in Micro-emulsion Synthesis of Barium Titanate:
    • 5.8.6. Improving Powder Dispersion In Slurry:
    • 5.8.7. Improving Electrode Matching & Leach Prevention:
    • 5.8.8. Improving Tape Yield Ratios:
    • 5.8.9. Technology Roadmapping in Nickel Electrode Powders and Pastes:
    • 5.8.10. Changing Particle Sizes of Nickel Electrode Powders:

6.0. PRODUCER PROFILES: TOP HIGH CAPACITANCE BME MLCC VENDORS: 2017

  • 6.0. KYOCERA
    • 6.0.1. KYOCERA CORPORATION
      • 6.0.1. About Kyocera:
      • 6.0.2. Kyocera Financial Status- FY 2017
      • 6.0.3. Kyocera Electronic Device Group:
      • 6.0.4. Kyocera High Cap MLCC Developments
        • KYOCERA Develops Multilayer Ceramic Capacitors with Industry-Leading Volumetric Efficiency Ideal for Smartphones
  • 6.1. MURATA
    • 6.1.1. MURATA MANUFACTURING COMPANY LIMITED(RIC: 6981):
      • 6.1.1. About Murata:
      • 6.1.2. Quarterly Revenue Update
      • 6.1.3. End-Market Demand Update
      • 6.1.4. 2017 Outlook
    • 6.1.6. Annual Revenues for Murata's Capacitor Group: 2009-2017
    • 6.1.7. Quarterly Revenues For MURATA: 2014-2017 {Capacitor Operations Only}
    • 6.1.8. Murata Revenues By End-Use Market Segment: FY 2017 Forecasts
    • 6.1.9. Murata Revenue Trend By End-Use Market Segment: FY 2009-2015; FY 2017 Forecasts
    • 6.1.10. MURATA: ECONOMIC INDICATOR: SHIFTING END-MARKET DATA IN FY 2017
    • 6.1.11. Murata Revenues By World Region & Trends: FY 2009-2015; FY 2017 Forecasts
    • 6.1.12. MURATA: ECONOMIC INDICATOR: SHIFTING SALES DATA IN FY 2017
    • 6.1.13. MURATA'S POSITION IN THE PASSIVE COMPONENT INDUSTRY: FY 2017
  • 6.2. SEMCO
    • 6.2.1. SAMSUNG ELECTRO-MECHANICAL(KSE: 009150):
    • 6.2.2. About SEMCO:
    • 6.2.3. Annual Revenues For SEMCO LCR Group: FY 2009-2017
    • 6.2.4. Quarterly Revenues For SEMCO LCR GROUP: FY 2012-2017(Won in Billions) MLCC
    • 6.2.5. SAMSUNG'S POSITION IN THE PASSIVE COMPONENT INDUSTRY: FY 2017
  • 6.3. TAIYO YUDEN
    • 6.3.1. TAIYO YUDEN COMPANY LIMITED(RIC: 6976):
    • 6.3.2. About Taiyo Yuden Company Limited
    • 6.3.3. Quarterly Revenues For Taiyo Yuden Capacitors Group: 2011-2014(Yen in Billions)
    • 6.3.4. Taiyo Yuden SWOT Analysis:
      • 6.3.4(A) Taiyo Yuden Strengths:
      • 6.3.4(B) Taiyo Yuden Weaknesses:
      • 6.3.4(C ) Taiyo Yuden Opportunities:
      • 6.3.4(D) Taiyo Yuden Threats:
      • 6.4. TDK
    • 6.4.1. TDK CORPORATION(RIC: 6762):
    • 6.4.2. About TDK Corporation:
    • 6.4.3. Current Economic Environment:
    • 6.4.4. End-Use Market Demand Update:
    • 6.4.5. 2017 Outlook:
    • 6.4.6. Annual Revenues for TDK's Capacitor Group: 2009-2015; FY 2017 Forecast
    • 6.4.7. Quarterly Revenues For TDK Capacitors Group: FY 2012-2017
    • 6.4.8. TDK: ECONOMIC INDICATOR: SHIFTING SALES DATA IN FY 2017
    • 6.4.9. TDK'S POSITION IN THE PASSIVE COMPONENT INDUSTRY: FY 2017:
  • 6.5. WALSIN
    • 6.5.1. WALSIN TECHNOLOGY CORPORATION(2492):
    • 6.5.2. About WTC:
    • 6.5.3. 2017 Update:
    • 6.5.4. Walsin Technology Corp; Revenues by End-Use Market Segment: FY 2017
    • 6.5.6. Annual Revenues For Walsin Technology Corporation(Passives Group): 2009-2017
    • 6.5.7. Quarterly Revenues For Walsin Technology Corporation(Passives Group): 2014-2017
    • 6.5.8. WALSIN'S POSITION IN THE GLOBAL PASSIVE COMPONENT INDUSTRY: FY 2017
  • 6.6. YAGEO
    • YAGEO CORPORATION(TW 2327):
      • About Yageo:
      • Annual Revenues For Yageo Corporation: 2009-2017
    • QUARTERLY ESTIMATES AND OUTLOOK FOR YAGEO CORPORATION
    • YAGEO'S POSITION IN THE PASSIVE COMPONENT INDUSTRY:

Table of Figures:

  • Figure 1: Fixed Capacitor Market Breakdown by Capacitor Type/Dielectric: 2017
  • Figure 2: The Supply Chain For Capacitors
  • Figure 3: Currency Translations Used In This Report: FY 2013, 2014, 201, 2017 and 2017 (Yen, NT$ and Won Currencies The United States Dollar Quarterly Exchange Rates)
  • Figure 4: 25 Year Market Analysis: Global Market Consumption Value For MLCC: 1990-2017
  • Figure 5: 27 Year Market Analysis: Global Market Consumption Volume For MLCC: 1990-2017
  • Figure 6: 27 Year Market Analysis: Global MLCC Pricing: 1990-2017
  • Figure 7: Ceramic Capacitor Consumption Value by World Region: 12 Year Analysis
  • Figure 8: Global Value of Demand For MLCC By World Region; FY 2017 (In Millions of USD)
  • Figure 9: Global MLCC Production Volume by Country: Ten Year Analysis
  • Figure 10: Top 36 Factories Producing MLCC In China: 2017
  • Figure 11: Top 4 Factories Producing MLCC In Korea ROK: 2017
  • Figure 12: Top 15 Factories Producing MLCC In Japan: 2017
  • Figure 13: Capacitor Revenues BY Vendor and World Region: FY 2017
  • Figure 14: Operating Margins and Value-Added Ceramic Capacitor Markets: FY 2017 Part 1)
  • Figure 15: Operating Margins and Value-Added Ceramic Capacitor Markets: FY 2015 (Part 2)
  • Figure 16: Capacitor Consumption By Type and End-Use Market Segment (Strengths and Weaknesses by Dielectric)
  • Figure 17: Global Consumption Value for Ceramic Capacitors By End-Use Market Segment: FY 2017
  • Figure 18: Revenues By End-Use Market Segment For The World's Top Capacitor Manufacturers: FY 2017 Estimates
  • Figure 19: Ceramic Capacitor Manufacturers: FY 2017 Market Shares
  • Figure 20: 12-Year Shift in Global Market Shares in Ceramic Capacitors by Vendor: 2004 Versus 2017
  • Figure 21: X5R Maximum Ceramic Chip Capacitance By Manufacturer: 2017
  • Figure 22: X7R Maximum Ceramic Chip Capacitance By Manufacturer: 2017
  • Figure 23: Y5V Maximum Ceramic Chip Capacitance By Manufacturer: 2017
  • Figure 24: Historical Price Comparison for the X5R, 0603, 10.0 UF at 10 V: 2017 Versus 2013
  • Figure 25: Vendors With X5R 0603 10 Microfarad 10 Volt Capabilities
  • Figure 26: Comparison Pricing for the X5R 0603, 22 Microfarad 6.3 Volt MLCC - 2017 versus 2013
  • Figure 27: Vendors With X5R 0603 22 Microfarad 6.3 Volt Capabilities
  • Figure 28: X5R 0805 47 microafard 6.3 volt MLCC Price Comparison 2013 Versus 2017
  • Figure 29: X5R 0805 22 Microfarad 10 V MLCC pricing Comparison: 2017 Versus 2017
  • Figure 30: Vendors By MLCC Thickness- Current Capabilities By Selected MLCC
  • Figure 31: Historical Development of Maximum Capacitance For The 100 fEF X5R MLCC at 6.3 Vdc and Roadmap to 2023
  • Figure 32: Maximum Capacitance Value For The X5R MLCC at 6.3 Vdc by Case Size in 2003, 2013 and 2023 Forecasts (In Microfarads)
  • Figure 33: Global Consumption Volume for High Capacitance MLCC: 2017 and Ten Year Transitional Analysis
  • Figure 34: Global Consumption Value for High Capacitance MLCC: 2017 and Ten- Year Transitional Analysis
  • Figure 35: Global Average Unit Selling Price for High Capacitance MLCC: 2017 and Ten Year Transitional Analysis
  • Figure 36: High Capacitance MLCC Manufacturers: 2017 Sales and Market Shares
  • Figure 37: Global Ceramic Capacitor Consumption Value by Performance Characteristic: 2017
  • Figure 38: MLCC Demand By Case Size in Units 2015
  • Figure 39: FORECASTS: Global Volume of Consumption for MLCC: 2017-2022 (In Billions of Pieces)
  • Figure 40: FORECASTS: Global Value of Consumption for MLCC: 2017-2022 (In Millions of US Dollars)
  • Figure 41: FORECASTS: Global Average Unit Pricing for MLCC: 2017-2022 (In US Dollars Per Thousand Pieces)
  • Figure 42: FORECASTS: Global Value of Consumption For MLCC By World Region: 2017-2022 (In Millions of US Dollars)
  • Figure 43: FORECASTS: Global Value of Consumption For MLCC By End-Use Market Segment: 2017-2022 (In Millions of US Dollars)
  • Figure 44: Projected Production VOLUME for Key END-PRODUCTS Consuming Capacitors, Resistors and Inductors (Top 16 End-Products) To 2022
  • Figure 45: Average Passive Component Content Per Black Box By Type: FY 2011-2017 Actual and FY 2017 to FY 2022 Forecasts
  • Figure 46: MLCC Consumption Volume Forecasts: FY 2017 to FY 2022
  • Figure 47: Correlation of Dielectric Layer Thickness Achieved by Various Process Methods for Barium Titanate (In Microns)
  • Figure 48: MLCC Dielectric Thickness Layer Trend in Microns: 1998-2017
  • Figure 49: Correlation Between MLCC Case Size; Ceramic Dielectric Thickness and Barium Titanate Particle Size: 2008-2012-2017
  • Figure 50: Kyocera Corporation Revenue: 2007-2017
  • Figure 51: MURATA MFG CO LTD CAPACITOR GROUP: Annual Revenues: 2009-2015; 2017 Forecasts
  • Figure 52: MURATA MFG CO LTD CAPACITOR GROUP; Quarterly Revenues: 2009-2015; 2017 Forecasts
  • Figure 53: Murata Annual Revenues by End-Use Market Segment: FY 2017
  • Figure 54: Murata Annual Revenues by End-Use Market Segment: FY 2009-FY 2014; FY 2017 Forecasts
  • Figure 55: Murata Revenues by World Region: FY 2015-2017 (9 Months of Data; shifting markets)
  • Figure 56: Murata Revenues by World Region: FY 2009-2015; FY 2017 Forecasts
  • Figure 57: Murata Revenues by World Region: FY 2015-2017 (9 Months of Data; shifting markets)
  • Figure 58: Samsung Electro-Mechanics: LCR Group; Annual Revenues: 2009-2015; 2017 Forecasts
  • Figure 59: Samsung Electro-Mechanics: LCR Group; Quarterly Revenues: 2012-2017
  • Figure 60: Quarterly Revenues in Taiyo Yuden's Capacitor Group: FY 2011-2014
  • Figure 61: TDK Corporation; Capacitor Group: Annual Revenues: 2009-2015; 2015 Forecasts
  • Figure 62: TDK Corporation; Capacitor Group: Quarterly Revenues: 2012-2017
  • Figure 63: TDK Revenues by World Region: FY 2015-2017 (9 Months of Data; shifting markets)
  • Figure 64: Walsin Technology Corporation; Passive Components: Annual Revenues: 2009-2015; 2017 Forecasts
  • Figure 65: Quarterly Revenues for Walsin Technology Corporation (Passives Only): 2014-2017
  • Figure 66: Yageo Corporation: Annual Revenues: 2009-2015; 2017 Forecasts
  • Figure 67: Yageo Corporation: Quarterly Revenues: 2012-2015; 2017 Forecasts
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