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積層セラミックチップコンデンサ (MLCC) 向けニッケル電極用パウダー・ペースト - 世界市場・技術・機会:2019-2024年

Nickel Electrode Powder and Paste: World Markets, Technologies and Opportunities: 2019-2024

出版日: | 発行: Paumanok Publications, Inc. | ページ情報: 英文 180 Pages; 80 Figures | 納期: 即日から翌営業日

価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=106.56円
積層セラミックチップコンデンサ (MLCC) 向けニッケル電極用パウダー・ペースト - 世界市場・技術・機会:2019-2024年
出版日: 2019年09月30日
発行: Paumanok Publications, Inc.
ページ情報: 英文 180 Pages; 80 Figures
納期: 即日から翌営業日
  • 全表示
  • 概要
  • 目次
概要

当レポートでは、積層セラミックチップコンデンサ (MLCC:multilayered ceramic chip capacitors) の電極層として使用される超高純度ニッケル電極用パウダー・ペーストの世界市場について詳細に調査し、世界市場の規模 (消費:数量ベース・金額ベース) 、1kgあたりの平均価格、粒度別の消費規模 (金額ベース) 、国・地域別による主要顧客、および主要企業などについて分析しています。

第1章 イントロダクション

第2章 セラミックコンデンサ:技術概要

  • 新しいコンデンサ技術
  • 新しいコンデンサ製造技術
  • 新市場向けコンデンサの設計
  • 次世代コンデンサ

第3章 ニッケル金属粉・ペースト:世界市場、技術、予測およびブレークスルー

  • 電子材料サプライチェーンの急成長セグメント
  • MLCC電極:急成長する電子材料市場
  • MLCC:市場成長が促進するニッケル電極の消費
  • ニッケル電極材料
  • ニッケル電極用パウダー・ペーストにおける技術ロードマップ
  • ニッケル電極用パウダーの粒度
  • ニッケル金属パウダー・ペースト:世界市場、技術、予測およびブレークスルー

第4章 MLCC (積層セラミックコンデンサ) の不足:ケースサイズ別

  • イントロダクション
  • 動向分析:ケースサイズ別
  • 小型化:市場による/市場向けの促進
  • MLCCの区分別展望
  • MLCCにおけるティア別戦略
  • MLCCの影響を受けるその他の市場

第5章 MLCCのEOL (END-OF-LIFE) 発表はハイテク経済の破壊に一役買う

  • 概要
  • 背景
  • MLCC生産ラインを停止する理由
  • MLCC生産停止のサマリー
  • 高圧MLCC
  • ケースサイズ、電圧および動作温度

第6章 MLCCの世界市場

  • コンデンサーの世界市場における規模 (金額ベース・数量ベース) 、および平均ユニット価格
  • 出荷高 (金額ベース) アップデート
  • 世界のコンデンサー需要規模 (金額ベース) :タイプ別 (誘電性)
  • 出荷高 (数量ベース) アップデート
  • MLCC価格アップデート

第7章 MLCCの需要を促進する最終市場

  • エンドユーズ市場のアップデート
  • コンデンサの消費規模 (金額ベース) の変動:エンドユーズ市場セグメント別
  • 自動車・輸送用電子機器におけるコンデンサの主な成長市場
  • 産業用電子機器におけるコンデンサの主な成長市場
  • 消費者向けAVにおけるコンデンサの主な成長市場
  • 医療用電子機器におけるコンデンサの主な成長市場
  • 防衛・航空宇宙用電子機器におけるコンデンサの主な成長市場
  • IoTにおけるコンデンサの主な成長市場
  • 5Gの展開におけるコンデンサの主な成長市場
  • 主な成長市場
  • コンデンサベンダー:世界の売上・市場シェア
  • セラミックコンポーネント:生産性を改善するためのベストプラクティス

第8章 大容量MLCC:高い収益性

  • BME MLCCにおける重要な市場発展
  • 大容量MLCC:粒子レベルの競争
  • イントロダクション:大容量MLCCにおける競争の激化
  • 大容量MLCC:代替技術を優越
  • 大容量MLCC:差別化された製品で最初に市場へ出す、ほか

第9章 ニッケルを消費するMLCC工場 (国別の顧客)

  • 日本のMLCC工場
  • 韓国のセラミックコンデンサ生産量
  • 中国のセラミックコンデンサ生産量
  • フィリピンのセラミックコンデンサ生産量
  • 南北アメリカのセラミックコンデンサ生産量
  • マレーシアのセラミックコンデンサ生産量
  • 欧州のセラミックコンデンサ生産量

第10章 世界のMLCC市場における容量拡大

第11章 原材料サプライチェーン

第12章 MLCC市場向けニッケル電極の生産者・ペーストサプライヤー

  • BHP
  • CNPC
  • ダイキン工業
  • HONGWU INTERNATIONAL GROUP
  • JFE MINERAL
  • JINCHUAN GROUP INTERNATIONAL
  • JIANGSU BOQIAN NEW MATERIALS STOCK CO., LTD (NINGBO ASSETS)
  • 村田製作所 (CAPTIVE)
  • PJSC "MMC "NORILSK NICKEL"
  • PRED MATERIALS INTERNATIONAL
  • QUANTUM SPHERE
  • SEMCO (CAPTIVE)
  • 昭栄化学工業
  • 東邦チタニウム
  • 住友金属鉱山
  • TEKNA PLASMA SYSTEMS
  • VALE SA (INCO)
目次
Product Code: ISBN: 1-89-3211-38-X (2019)

“Nickel Electrode Powder and Paste: World Markets, Technologies and Opportunities: 2019-2024 ISBN: 1-89-3211-38-X (2019)” , takes a detailed look at the global market for ultra-high purity nickel electrode powders and pastes consumed as the electrode layers of multilayered ceramic chip capacitors (MLCC). POWDER: This study updates the 1995 and 2005 studies of the same title by the same publisher and the same author. The study analyzes the global value and volume of consumption for nickel electrode MLCC powder, as well as the average price per kilogram over time as benchmarked by the prior studies. The study establishes the long-term historical value, volume and pricing for nickel electrode powder over time. The study also details the value of consumption for nickel electrode powder by particle size, and establishes price and end-product consumption points of differentiation based upon the mean particle size of the powder (<0.1, 0.1-0.19, 0.2-0.3, 0.4 to 0.5+ nm diameter). The study also discusses the world's top customers for nickel electrode powder by country and world region, including an analyses of all known factories producing MLCC by country (80+ MLCC Factories By Country and Location Worldwide).

The study also addresses the detailed “matching systems” for nickel electrode powder and pastes in ceramic dielectrics and termination materials, and synergies between vendors of PBM and BME, barium titanate and additive materials. PASTE: The study also addresses the global paste nickel electrode paste markets for MLCC, detailing the supply chain from powder to paste and addresses how some of the best pastes are available form the merchant market, but how most paste is produced captive by the MLCC manufacturers. Most importantly the study addresses recent changes in the market, including the captive development of nickel electrode powder and paste by some of the world's top MLCC producers. Market share data for (1) nickel powders and (2) nickel pastes are also given by vender. MLCC ROADMAP FORWARD: The study also shows the roadmap of development with respect to the application of nickel electrode powder in MLCC going forward and the recent breakthroughs in nanotechnology and paste development that have enabled (A) a dramatic increase in capacitance value in microfarads per MLCC, as well as a (B) potential to increase voltage per MLCC to threaten alternative electrolytic capacitor technologies. FORECASTS: The outlook for nickel electrode powder consumed in MLCC is discussed in terms of its ability to win new designs in emerging markets as it competes against related electrostatic and electrolytic material systems. The study also addresses recent spikes in MLCC market activity, MLCC shortages and "EOL" timeliness, and the resulting capacity expansion by the major MLCC manufacturers in 2019 as well as long term market forecasts to 2024.

Table of Contents

ABOUT THE AUTHOR

1.0 INTRODUCTION

  • 1.1 FOCUS OF THIS SPECIFIC REPORT
  • 1.2 RESEARCH METHODOLOGY EMPLOYED:
  • 1.3 THE PAUMANOK RESEARCH METHODOLOGY: 30 YEARS STUDYING PASSIVE CAPACITOR MARKETS
    • 1.3.1 Government Data Collection and Resources:
    • 1.3.2 Secondary Published Sources:
    • 1.3.3 Primary Intelligence Gathering:
  • 1.4 FIXED CAPACITORS AND THEIR RESPECTIVE SUB-CATEGORIES: FY 2019
  • 1.5 THE PASSIVE CAPACITOR SUPPLY CHAIN:
    • 1.5.1 Mining of Raw Materials:
    • 1.5.2 Raw Materials Processing:
    • 1.5.3 Capacitor Manufacturing:
    • 1.5.4 Capacitor Distribution:
    • 1.5.5 End-Market Consumption:
    • 1.5.6 Recycling of Critical Materials:
  • 1.6 THE TECHNICAL ECONOMIC MAXIMS ASSOCIATED WITH PASSIVE ELECTRONIC CAPACITORS:
  • 1.7 THE TWO TECHNICAL ECONOMIC MAXIMS ASSOCIATED WITH PASSIVE ELECTRONIC CAPACITORS:
    • 1.7.1 Ubiquitous Nature of Passive Electronic Capacitors In Electrical and Electronic Circuits:
    • 1.7.2 Relationship Between Performance and Available Surface Area:
  • 1.8 FINANCIAL CONSIDERATIONS WITH RESPECT TO THIS REPORT:
    • 1.8.1 Fiscal Year Reporting
  • Currency Translation
    • 1.8.2 Yen Valuation To The US Dollar: Trend and Directions For The March and June 2019 Quarters:
    • 1.8.3 Positive Market Indicators:
    • 1.8.4 Negative Market Indicators:
    • 1.8.5 Overall Outlook To 2024:
    • 1.8.6 Changing View on Passive Component Unit Sales to 2024:
  • 1.9 KEY FINDINGS OF THIS REPORT:
    • 1.9.1 CRL Annual Review and Forecast: Passive Electronic Component: FY 2018- FY 2019 Market Summary
    • 1.9.2 Key Passive Products Growth in USD Annualized year-On Year: FDY 2018-FY 2019
    • 1.9.3 Regional Growth in FY 2018 and FY 2019:
    • 1.9.4 End Use Segment Growth in FY 2018 and FY 2019
  • 1.10 KEY FORECASTING OF FUTURE MARKETS
    • 1.10.1 Capacity Expansion Estimates
    • 1.10.2 Price Adjustments:
  • 1.11 THE BOOMING CAPACITOR MARKETS: FY 2019
  • 1.12 CAPACITOR LEAD TIMES AND SHORTAGES
    • 1.12.1 Lead-Time Trends In Passive Components: FY 2019 By Month
    • 1.12.2 2018 and 2019 Component SHORTAGES
    • 1.12.3 Capacitor Lead Times Sow Shortages in 2018 Lead Time For Capacitors By Dielectric Type and Sub-Category
    • 1.12.4 Capacitor Lead Time Trends: 2013-2019 By Month
    • 1.12.5 Capacitor Lead Times in Weeks: Overall Trend by Month to August 2019
    • 1.12.6 MLCC Lead Times- Overall Through August 2019 (8 Categories)
      • 1.12.5.1 Ceramic, 0201 MLCC (Chips (0201 BaTI02):
      • 1.12.5.2 Ceramic, 0402 MLCC (Chips (0402 BaTI02):
      • 1.12.5.3 Ceramic, 0603 MLCC (Chips (0603 BaTI02):
      • 1.12.5.4 Ceramic, 0805 MLCC (Chips (0805 BaTI02):
      • 1.12.5.5 Ceramic, 1206 MLCC (Chips (1206 BaTI02):
      • 1.12.5.6 Ceramic, 1210-1225 MLCC (Chips (1210-1225 BaTI02):
      • 1.12.5.7 Ceramic, High-CV MLCC (Chips All Sizes BaTI02 In Hydrothermal, alk-oxide or sol-gel):
      • 1.12.5.8 Ceramic, Specialty Capacitors:
  • 1.13 Volume, Value and Pricing Data:
  • 1.14 Forecasting Methodology: Fundamental Aspects of the 20 Year Growth Cycle In Passive Components:

2.1 CERAMIC CAPACITORS: TECHNOLOGY OVERVIEW: 2019

  • 2.1.1 Ceramic Capacitor Types:
  • 2.1.2 Ceramic Capacitor Configurations:
  • 2.1.3 MLCC Design:
  • 2.1.4 MLCC Case Sizes:
  • 2.1.5 Ceramic Capacitor Metallization:
  • 2.1.6 Palladium Electrodes:
  • 2.1.7 Nickel Electrodes:
  • 2.1.8 Copper Electrodes:
  • 2.1.9 Termination Materials:
  • 2.1.10 Ceramic Dielectric Materials (Where Ceramic Capacitors Get Their Name):
  • 2.1.11 Ceramic Capacitor Performance Classes
  • 2.1.12 Class I Ceramics (NPO/COG):
  • 2.1.13 Developments in COG BME MLCC
  • 2.1.14 Class II Ceramics (X7R/Z5U/Y5V)
  • 2.1.15 X7R Capacitors (BX)
  • 2.1.16 Developments in X7R BME MLCC
  • 2.1.18 Z5U (BZ) Capacitors
  • 2.1.19 Y5V Capacitors
  • 2.1.21 Class III Ceramics
  • 2.2 EMERGING CAPACITOR TECHNOLOGIES: 2019-2025
  • 2.3 EMERGING CAPACITOR MANUFACTURING TECHNIQUES: 2019-2025
  • 2.4 DESIGNING CAPACITORS FOR EMERGING MARKETS: 2019-2025
  • 2.5 THE NEXT GENERATION CAPACITOR: 2019-2025

3.0 NICKEL METAL POWDER AND PASTE: WORLD MARKETS, TECHNOLOGIES, FORECASTS AND BREAKTHROUGHS: 2019-2024

  • 3.1 The Fastest Growth Segment of The Electronic Materials Supply Chain in 2019
  • 3.2 MLCC Electrodes- The Fastest Growth Electronic Materials Market in 2019:
  • 3.3 MLCC: Market Growth Drives Nickel Electrode Consumption:
  • 3.4 Nickel Electrode Technology: Key Enabling Electronic Material
  • 3.5 MLCC Electrode Materials:
  • 3.5 Technology Roadmapping in Nickel Electrode Powders and Pastes:
  • 3.6 Particle Sizes of Nickel Electrode Powders:
  • 3.7 NICKEL METAL POWDER AND PASTE: WORLD MARKETS, TECHNOLOGIES, FORECASTS AND BREAKTHROUGHS: 2019-2024
    • 3.7.1 NICKEL ELECTRODE POWDERS: WORLD MARKETS, TECHNOLOGIES & OPPORTUNITIES: 2019
    • 3.7.2 Development of the Nickel Electrode Powder for MLCC Consumption Volume (Tons): 1997-2020
    • 3.7.3 Market Growth in Nickel Electrode Powder for MLCC Value ($/MM) 1997-2020 FORECAST IN MILLIONS OF US DOLLARS
    • 3.7.4 Nickel Electrode Powder For MLCC Price Per Kilogram: 1997-2020F
    • 3.7.5 Pricing Extrapolation- Ni Price Per Kg- Ni Electrode Powder Pricing by Mean Particle Size in Nanometers (USD Per Kg)
    • 3.7.6 Raw Materials Consumed in the Production of MLCC: Cost Breakdown (TOTAL COST OF GOODS SOLD) VARIABLE COSTS- RAW MATERIALS ONLY)
    • 3.7.7 MLCC Nickel Electrode Powder Market by Particle Size: FY 2019
    • 3.7.8 Nickel Electrode Powder Sales By World Region: FY 2019
    • 3.7.9 Nickel Electrode Powder Sales By Key Customer in MLCC - FY 2019-
    • 3.7.10 MLCC Manufacturers: 2019 Competition by MLCC Capacitance Value
    • 3.7.11 Nickel Electrode Powder Vendors to the Global MLCC Market: FY 2019 Estimated Sales and Market Shares:
    • 3.7.12 NICKEL ELECTRODE PASTE FOR MLCC: WORLD MARKETS AND KEY TECHNOLOGIES: FY 2019
    • 3.7.13 Nickel Paste Vendors To MLCC: FY 2019 Estimated Market Shares:
    • 3.7.14 New Nickel Paste Development: FY 2020 Breakthrough in Japan
    • 3.7.15 Ni Electrode Thickness/MLCC Capacitance (Murata and SEMCO Patents Point The Way)
    • 3.7.16 MLCC Leads The Field In Passive Component Volumetric Efficiency
    • 3.7.17 Increasing Capacitance While Decreasing Case Size in MLCC
    • 3.7.18 Areas of Research & Development - Market Expansion in High Capacitance MLCC by Case Size and Voltage Per Cell
    • 3.7.19 Maximum Voltage at Maximum Capacitance by Case Size in MLCC
    • 3.7.20 MLCC Materials Supply Chain: Opportunities for Market and Technology Synergy
    • 3.7.21 Nickel Electrode Powder Forecasts: 2019-2024
    • 3.7.22 MLCC Market Forecasts: FY 2020-2024
    • 3.7.23 Nickel Electrode Powder Forecasts: FY 2020-2024
    • 3.7.24 MLCC Nickel Powder Market Value Forecasts: FY 2020-2025

4.0 MLCC SHORTAGES BY CASE SIZE: 2018-2019 (WHERE THE MONEY IS NOW)-

  • 4.1 Introduction:
  • 4.2 Trend Analysis By Case Size:
  • 4.3 MINIATURIZATION: DRIVEN BY AND FOR THE MARKET:
  • 4.4 A SEPARATE OUTLOOK FOR MLCC BY CASE SIZE
  • 4.5 TIER-TO-TIER STRATEGY IN MLCC:
  • 4.6 OTHER MARKETS IMPACTED BY MLCC

5.0 HOW RECENT MLCC END-OF-LIFE ANNOUNCEMENTS HELPED TO DISRUPT THE HIGH-TECH ECONOMY IN 2018 AND 2019

  • 5.1 Overview-
  • 5.2 Background-
    • 5.2.1 EOL- End-Of-Life-Announcement of Discontinuation-
    • 5.2.2 Last Order Date-
    • 5.2.3 Last Shipment Date-
  • 5.3 Reasons for Discontinuation of MLCC Product Lines-
    • 5.3.1 Unprofitable-
    • 5.3.2 Deteriorating Equipment-
    • 5.3.3 Inconsistent Raw Materials Supply-
    • 5.3.4 The Timeline For MLCC Discontinuation:
  • 5.5 Summary of MLCC Discontinuations:
    • 5.5.1 - 22 and 47 Microfarad MLCC (Large Case Size)
  • 5.6 HIGH VOLTAGE MLCC
  • 5.7 CASE SIZE, VOLTAGE AND OPERATING TEMPERATURE

6.0 MLCC: WORLD MARKETS: 2018-2019

  • 6.1 Global Market Value, Volume and Average Unit Pricing for Capacitors: 2007-2008-2009-2010-2011-2012-2013-2014-2015-2016-2017, 2018 and FY 2019 Estimates
  • 6.2 Value Shipment Update: FY 2019-
    • 6.2.1 1 Global Consumption Value For Capacitors: FY 2019:
  • 6.3 Global Capacitor Value Demand By Type (Dielectric): FY 2019 And Historical 13 Year Market Growth
    • 6.3.1 (MLCC) Ceramic Capacitor Markets: FY 2019
    • 6.3.2 Summary of Changes in Capacitor Shipment Value By Dielectric: FY 2015 to FY 2019
  • 6.4 Volume Shipment Update: FY 2019
    • 6.4.1 Trend In Global Volume Shipments For Capacitors: FY 2007-2019
    • 6.4.2 Global Capacitor Volume Demand By Type (Dielectric): FY 2019 And Historical 14- Year Market Growth
  • 6.7 MLCC Pricing Update: FY 2019
    • 6.7.1 Average Unit Selling Price For Capacitors: FY 2007-2019
    • 6.7.2 Global Capacitor Pricing Trends By Type (Dielectric): FY 2019 And Historical 15 Year Market Trend

7.0 END-MARKETS DRIVING DEMAND FOR MLCC

  • 7.1 END-USE MARKET UPDATE: FY 2019-2024 OUTLOOK
    • 7.1.1 Capacitor Consumption By End-Use Market Segment: FY 2019
  • 7.2 Changes In The Value of Consumption for Capacitors By End-Use Market Segment: FY 2014-FY 2019
    • 7.2.1 HANDSETS AND BACKBONE-Market For Capacitors In The Telecommunications Segment: FY 2019 and FY 2024 Outlook:
    • 7.2.2 5G Roll-Out Impact on Capacitor Markets: FY 2020- FY 2024
    • 7.2.3 5 COMPUTERS-Market For Capacitors In The Computer & Business Machine Segment: FY 2019 and FY 2024 Outlook:
    • 7.2.4 HOME THEATRE-Market For Capacitors In The Consumer AV Segment: FY 2018 and FY 2024 Outlook:
    • 7.2.5 8 AUTOMOTIVE Market For Capacitors In The Automotive Segment: FY 2019 and FY 2024 Outlook:
    • 7.2.6 Market For Capacitors In The Power, Industrial and Infrastructure Segment: FY 2019 and FY 2024 Outlook:
    • 7.2.7 POWER AND LIGHTING- Industrial Electronics Segment-
    • 7.2.8 SPECIALTY Market For Capacitors In The In Specialty Electronics Segment: FY 2019 and FY 2024 Outlook:
    • 7.2.9 BENCHMARKING- MURATA WORLD'S LARGEST CAPACITOR MANUFACTURER- SALES BY END-USE MARKET SEGMENT FY 2015-fy 2019
  • 7.3 Key Growth Markets For Capacitors in Automotive and Transportation Electronics: FY 2019-2024
  • 7.4 Key Growth Markets for Capacitors in Industrial Electronics: FY 2019-2024
  • 7.5 Key Growth Markets for Capacitors in Consumer AV: FY 2019-2024
  • 7.6 Key Growth Markets for Capacitors in Medical Electronics: FY 2019-2024
  • 7.7 Key Growth Markets for Capacitors in Defense and Space Electronics: FY 2019-2024
  • 7.8 Key Growth Markets for Capacitors in The IOT: FY 2019-2024
  • 7.9 Key Growth Markets for Capacitors in The Roll-Out of 5G: FY 2019-2024
  • 7.10 KEY GROWTH MARKETS: 2019-2024 AND BEYOND
    • 7.10.1 The Forecast Methodology Employed:
    • 7.10.2 Smartphones:
    • 7.10.3 The Internet of Things:
    • 7.10.4 Wearable Technology:
    • 7.10.5 Personal Medical Devices:
    • 7.10.6 Renewable Energy:
    • 7.10.7 7 Oil & Gas Electronics:
    • 7.10.8 Home Automation:
    • 7.10.9 Advanced Television:
    • 7.10.10 Automotive Electronics:
    • 7.10.11 Additional Developments:
  • 7.11 CAPACITOR VENDORS: GLOBAL SALES & MARKET SHARES: FY 2019
    • 7.11.1 Ceramic Capacitor (MLCC and Other Ceramic Capacitor Configuration) Manufacturers: FY 2019 Sales & Market Shares
  • 7.12 CERAMIC COMPONENTS: BEST PRACTICES FOR INCREASING PROFITABILITY:
    • 7.12.1 In-House Production of Ceramic Formulations:
    • 7.12.2 In-House Production of Advanced Barium Titanate:
    • 7.12.3 Displacing Precious Metals With Base Metals In Electrodes and Terminations:
    • 7.12.4 Tunnel Versus Batch Kilns:
    • 7.12.5 Developing Massive Economies of Scale:
    • 7.12.6 Having Specialty Parts in The Portfolio To Offset Price Erosion Trends in Large Runners:
    • 7.12.7 Low Cost Regional Production:

8.0 HIGH CAPACITANCE MLCC: THE BIG MONEYMAKER: 2015-2020:

  • 8.1 Important Market Developments In BME MLCC: 2015
  • 8.2 High Capacitance MLCC: Competition At The Granular Level
  • 8.3 Introduction: Competition in High Capacitance MLCC Is Intense
  • 8.4 High Capacitance MLCC: Market Dominance Over Alternative Technologies:
  • 8.5 High Capacitance MLCC: To Be First To Market With Differentiated Products:
  • 8.6 Increasing The Maximum Overall MLCC Capacitance Value:
  • 8.7 Increasing The Maximum Capacitance Value for Each of the MLCC Chip Case Sizes
  • 8.8 Increasing MLCC Capacitance Value While Also Increasing Chip Operating Voltage
  • 8.9 Increasing MLCC Capacitance Value While Not Impeding Chip Performance Characteristics:
  • 8.10 Increasing MLCC Capacitance Value While Decreasing Chip Thickness:
  • 8.11 BME MLCC Markets: Summary and Conclusion:

9.0 MLCC FACTORIES CONSUMING NICKEL (CUSTOMERS BY COUNTRY)

  • 9.1 Japanese MLCC Factories:
    • 9.1.1 Top 15 Factories Producing Ceramic Capacitors In Japan- 2019
  • 9.2 Korean Production Output of Ceramic Capacitors in 2019
    • 9.2.1 Top 4 Factories Producing MLCC In Korea ROK
  • 9.3 Chinese Production Output of Ceramic Capacitors: FY 2015
    • 9.3.1 Top 36 Factories Producing MLCC In China
  • 9.3 Philippines Production Output Of Ceramic Capacitors 2019
    • 9.3.1 Top 2 Factories Producing MLCC In Philippines
  • 9.4 Singapore Production Output Of Ceramic Capacitors: FY 2015
    • 9.4.1 Top Factory Producing MLCC In Singapore
  • 9.5 Americas Production Of Ceramic Capacitors: FY 2015
    • 9.5.1 Top 20 Factories Producing MLCC In the United States
    • 9.5.2 Mexico Production Of Ceramic Capacitors: FY 2019
      • 9.5.2.1 Top Factories Producing Ceramic Capacitors In Mexico: 2015
  • 9.6 Malaysia Production of Ceramic Capacitors: FY 2019
    • 9.6.1 Top Factories Producing Ceramic Capacitors In Malaysia: 2015
  • 9.7 European and ROW Production of Ceramic Capacitors: FY 2019
    • 9.7.1 Top Factories Producing MLCC In Europe and Israel: 2019

10.0 CAPACITY EXPANSION IN THE GLOBAL MLCC MARKETS

  • 10.1 CAPACITY EXPANSION IN THE GLOBAL CERAMIC CAPACITOR INDUSTRY: CALENDAR-YEAR 2018-2019:
  • 10.2 WHY THE 2018 UP-CYCLE RESEMBLES THE 2007 UP-CYCLE:
  • 10.3 When The Market Goes South...
  • 10.4 MLCC Expansion Strategy Analysis-
    • 10.4.1 ROI Equations Over Time Show Yields Lower Over Time
    • 10.4.2 Regional Expansion Analysis:
  • 10.4.3Supply Chain Analysis: Materials Availability:
    • 10.4.4 High Cap Versus Low Cap Revenue Analysis:
    • 10.4.5 Market Share Analysis: Maintenance and Roadmaps:
    • 10.4.6 Where Capacity Expansion Is Expected: MLCC Dielectric Chemistry:
      • 10.4.7 X5R High Capacitance MLCC
      • 10.4.8 Y5V High Capacitance MLCC
      • 10.9.9 X7R High Capacitance MLCC
  • 10.5 Additional Markets Impacted By Capex In MLCC
    • 10.5.1 Integration and Modularization Markets Outlook-
  • 10.6 Summary and Conclusion:
  • 10.7 MLCC CAPACITY EXPANSION (TECHNOLOGY AND CASE SIZES):
    • 10.7.1 When The Market Goes South...
    • 10.7.2 MLCC Expansion Strategy Analysis-
    • 10.7.3 ROI Equations Over Time Show Yields Lower Over Time
    • 10.7.4 Regional Expansion Analysis:
    • 10.7.5 Supply Chain Analysis: Materials Availability:
    • 10.7.6 High Cap Versus Low Cap Revenue Analysis:
    • 10.7.8 Market Share Analysis: Maintenance and Roadmaps:
    • 10.7.9 Where Capacity Expansion Is Expected: MLCC Dielectric Chemistry:
  • 10.8 TECHNOLOGY ASSESSMENT OF THE HIGH CAPACITANCE X5R MLCC MARKET SEGMENT: 2005, 2013, 2018 COMPARISONS
    • 10.8.1 X5R MLCC MARKET IMPACTED BY ACQUISITIONS AND SLOW ADOPTION OF TECHNOLOGY: 2005-2013-2018
      • 10.8.2 Competitive Environment In X5R High Capacitance MLCC Markets By Maximum μF: 2005-2013-2018
      • 10.8.4 Technology Assessment of The High Capacitance X7R MLCC Market Segment: 2005, 2013, 2018 Comparisons of The Roadmap:
      • 10.8.3 X7R MLCC Market Impacted By Lack of Investment in High Capacitance Variations: 2005-2013-2018
      • 10.8.5 Competitive Environment In X7R High Capacitance MLCC Markets By Maximum μF: 2005-2013-2018
    • 10.8.6 SUMMARY AND CONCLUSIONS: MLCC ARE HARD TO MAKE
  • 10.9 MLCC CASE SIZE PRODUCTION STRATEGY (30+ MANUFACTURERS)
    • 10.10 Capacity Expansion In The Global Ceramic Capacitor Industry: Calendar-Year 2018-2019
    • 10.11 Capacity Expansion Comparative Analysis: 2018, 2007, 2000 Upcycles

11.0 RAW MATERIAL SUPPLY CHAIN REVIEW: 2019

  • 11.1 Introduction: Mining & Materials: The Supply Chain Begins in the Ground
  • 11.2 Mining & Materials: Electronics: Electronics Begin in the Groound
  • 10.2 Component End-Markets Driving Demand for Engineered Materials: FY 2019
  • 11.3 FEEDSTOCKS: Relationship Between Raw Materials And Specific Electronic Components
  • 11.4 BASE METALS:
    • 11.1.1 Nickel:
    • 11.1.2 Copper:
  • 11.5 PRECIOUS METALS:
    • 11.5.1 Palladium:
    • 11.5.2 Silver:
  • 11.6 ENGINEERED MATERIALS: Relationship Between Raw Materials And Specific Electronic Components
  • 11.7 Some Key Areas of Intense Market Value In Engineered Raw Materials:
    • 11.7.1 Barium Titanate:
    • 11.7.2 Ceramic Dielectric Materials:
    • 11.7.3 Ceramic Additive Materials:
    • 11.7.4 Electrode Powders and Pastes:
    • 11.7.5 Termination Powders and Pastes:
  • 11.8 Electronic Components, Engineered Materials & Surface Area:
  • 11.9 Why Ceramic Components Are So Economical:
  • 11.10 The Requirement of Nanotechnology In Electronic Circuits:

12.0 NICKEL ELECTRODE PRODUCER AND PASTE SUPPLIERS TO THE MLCC MARKET:

  • 12.1 BHP
  • 12.2 CNPC
  • 12.3 DAIKIN INDUSTRIES
  • 12.4 HONGWU INTERNATIONAL GROUP
  • 12.5 JFE MINERAL
  • 12.6 JINCHUAN GROUP INTERNATIONAL
  • 12.7 JIANGSU BOQIAN NEW MATERIALS STOCK CO., LTD (NINGBO ASSETS)
  • 12.8 MURATA MANUFACTURING (CAPTIVE)
  • 12.9 PJSC “MMC “NORILSK NICKEL”
  • 12.10 PRED MATERIALS INTERNATIONAL
  • 12.11 QUANTUM SPHERE
  • 12.12 SEMCO (CAPTIVE)
  • 12.13 SHOEI CHEMICAL
  • 12.14 TOHO TITANIUM
  • 12.15 SUMITOMO METAL MINING
  • 12.16 TEKNA PLASMA SYSTEMS
  • 12.17 VALE SA (INCO)

LIST OF FIGURES

  • Figure 1: Paumanok Research Methodology
  • Figure 2: Fixed Capacitor Market Breakdown by Sub-Category: FY 2019
  • Figure 3: The Passive Electronic Capacitor Supply Chain
  • Figure 4: The Technical Economic Maxims Associated With Passive Electronic Capacitors
  • Figure 5: Currency Translations Used In This Report: FY 2013, 2014, 2015, 2016, 2017 2018 and 2019 26
  • Figure 6: Lead Times for Capacitors for 29 Components
  • Figure 7: Lead Times for Capacitors for 30 Components-VISUALIZATION
  • Figure 8: Ceramic Capacitors: Lead Time Trends In Weeks by Ceramic Capacitor Type and MLCC Case Size: January 2013- August 2019
  • Figure 9: MLCC Production by Case Size Trend: 1991-2008
  • Figure 10: MLCC Manufacturers by Case Size: 30+ Vendors
  • Figure 11: MLCC Lead Time Trend By Case And End-Of-Life Announcement Coorelation
  • Figure 12: Global Market Value, Volume and Average Unit Pricing For Capacitors: FY 2019
  • Figure 13: Global Consumption Value For Capacitors: FY 2007-2019
  • Figure 14: Changes in Global Value of Demand for Capacitors By Dielectric: FY 2003-FY 2018 and 2019 Forecast
  • Figure 15: Changes in Capacitor Consumption Value By Dielectric: FY 2017 to FY 2019
  • Figure 16: Global Consumption Volume for Capacitors: FY 2007-2019
  • Figure 17: Capacitor Consumption Volume Worldwide by Dielectric: FY 2003-2018;2019 Estimates
  • Figure 18: Global Average Unit Selling price for Capacitors: 2003-2018 and 2019 Estimates (In USD per thousand pieces)
  • Figure 19: Capacitor Pricing Trends By Dielectric: FY 2003-2018 and 2019 Estimates
  • Figure 20: Global Consumption Value for Capacitors By End-Use Market Segment: FY 2018-2019
  • Figure 21: Changes in The Value of Consumption for Capacitors By End-Use Market Segment: FY 2014-FY 2019
  • Figure 22: Global Consumption Value Forecast For Capacitors By End-Use Market Segment: FY 2019-2024
  • Figure 23: Revenues By End-Use Market Segment For The World's Top Capacitor Manufacturer (Murata): FY 2015-2019 ACTUAL
  • Figure 24: Key Growth Product Markets in Automotive and Transportation Electronics
  • Figure 25: Key Growth Product Markets in Industrial Electronics
  • Figure 26: Key Growth Product Markets in Consumer AV Electronics
  • Figure 27: Key Growth Product Markets for Capacitors in Medical Electronics
  • Figure 28: Key Growth Product Markets for Capacitors in Defense and Space Electronics
  • Figure 29: Key Growth Product Markets for Passive Components in IOT Electronics
  • Figure 30: Vision of IOT Electronics-
  • Figure 31: Key Growth Product Markets for Passive Components in IOT Electronics
  • Figure 32: Key Products and Enhancements Expected To Be Introduced 2019-2023
  • Figure 33: Top 12 Vendors of Capacitors: FY 2019 Capacitor Revenues & Market Shares
  • Figure 34: Top Vendors of Ceramic Capacitors (MLCC and Other Ceramic Capacitor Configurations): FY 2019 Global Changes in Market Shares
  • Figure 35: Historical Development of Maximum Capacitance For The 100 μF X5R MLCC at 6.3 Vdc and Roadmap to 2023
  • Figure 36: Maximum Capacitance Value For The X5R MLCC at 6.3 Vdc by Case Size in 2003, 2013 and 2023 Forecasts (In Microfarads)
  • Figure 37: Top 15 Factories Producing MLCC In Japan:2019
  • Figure 38: Top 4 Factories Producing MLCC In Korea ROK: 2019
  • Figure 39: Top 36 Factories Producing MLCC In China: 2019
  • Figure 40: Top 2 Factories Producing MLCC In Philippines: 2019
  • Figure 41: Top Factory Producing MLCC In Singapore: 2015
  • Figure 42: Top 20 Factories Producing MLCC in the United States
  • Figure 43: Top Factories Producing MLCC in Mexico
  • Figure 44: Top Factories Producing MLCC in Malaysia
  • Figure 45: Top Factories Producing MLCC in Europe and ROW: 2015
  • Figure 46: Competitive Environment in X5R High Capacitance MLCC Markets by Maximum Capacitance Value in Microfarads: 2005-2013-2018 Comparison
  • Figure 47: Competitive Environment in X7R High Capacitance MLCC Markets By Maximum Capacitance Value: 2005-2013-2018 Comparison
  • Figure 48: MLCC Vendors by Case Size: 2018
  • Figure 46: Mining & Materials: The Supply Chain Begins in The Ground
  • Figure 47: Global Market Overview For Nickel Electrode Powder for MLCC: FY 2019
  • Figure 48: Development of the Nickel Electrode Powder for MLCC Consumption Volume (Tons): 1997-2020
  • Figure 49: Development of the Nickel Electrode Powder for MLCC Consumption Value (Millions of USD): 1997-2020
  • Figure 50: Nickel Electrode Powder for MLCC (Price per Kilogram): 2003-2019: 2020 Forecast
  • Figure 51: Pricing Extrapolation- Ni Price Per Kg- Ni Electrode Powder Pricing by Mean Particle Size in Nanometers (USD Per Kg)
  • Figure 52: Raw Materials Consumed in the Production of MLCC: Cost Breakdown (TOTAL COST OF GOODS SOLD) VARIABLE COSTS- RAW MATERIALS ONLY
  • Figure 53: MLCC Nickel Electrode Powder Market by Particle Size: FY 2019
  • Figure 54: Nickel Electrode Powder Sales By World Region: FY 2019
  • Figure 55: MLCC Manufacturers: 2019 Competition by MLCC Capacitance Value
  • Figure 56: Nickel Electrode Powder Vendors to the Global MLCC Market: FY 2019 Estimated Sales and Market Shares
  • Figure 57: Nickel Paste Vendors To MLCC: FY 2019 Estimated Market Shares
  • Figure 58: New Nickel Paste Development: FY 2020 Breakthrough in Japan
  • Figure 59: Ni Electrode Thickness/MLCC Capacitance
  • Figure 60: MLCC Leads The Field In Passive Component Volumetric Efficiency
  • Figure 61: Increasing Capacitance While Decreasing Case Size in MLCC
  • Figure 62: MLCC Manufacturers: 2019 Competition by MLCC Capacitance Value
  • Figure 63: Maximum Voltage at Maximum Capacitance by Case Size in MLCC
  • Figure 64: MLCC Supply Chain Opportunities: 2019-2024
  • Figure 65: MLCC Market Forecasts: Global Consumption Volume Forecasts: 2020-2024
  • Figure 66: MLCC Nickel Powder Forecasts: FY 2020-2024 (In Tons)
  • Figure 67: MLCC Nickel Powder Market Value Forecasts (Worldwide): FY 2020-2025 (In Millions of US Dollars)
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