表紙:スーパーキャパシター - 世界市場、技術、機会:2020年~2025年
市場調査レポート
商品コード
971200

スーパーキャパシター - 世界市場、技術、機会:2020年~2025年

Supercapacitors: World Markets, Technologies & Opportunities: 2020-2025

出版日: | 発行: Paumanok Publications, Inc. | ページ情報: 英文 228 Pages; 57 Charts & Graphs | 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=115.68円
スーパーキャパシター - 世界市場、技術、機会:2020年~2025年
出版日: 2020年11月17日
発行: Paumanok Publications, Inc.
ページ情報: 英文 228 Pages; 57 Charts & Graphs
納期: 即日から翌営業日
  • 全表示
  • 概要
  • 図表
  • 目次
概要

当レポートでは、世界のスーパーキャパシター市場について調査分析し、2019年度・2020年度の市場動向、2021年度の市場の変化、2025年度までの市場予測について、体系的な情報を提供しています。

目次

第1章 スーパーキャパシターのイントロダクション

第2章 スーパーキャパシター技術の概要と分析

  • イントロダクションとEDLC
  • スーパーキャパシターとは
  • スーパーキャパシターの需要創出
  • スーパーキャパシター市場の場所
  • スーパーキャパシター技術のバリエーション
  • スーパーキャパシターの価値提案
  • 市場の魅力
  • 従来型コンデンサー (キャパシター) の変位
  • サマリー

第3章 世界のコンデンサー (キャパシター) 市場の最新動向

  • 世界のコンデンサー (キャパシター) の消費金額

第4章 スーパーキャパシター:世界市場の概要

  • スーパーキャパシター市場分析
  • 世界のスーパーキャパシター市場の成長率

第5章 スーパーキャパシター:コンポーネントタイプ別・構成別

  • 大型CANスーパーキャパシター
  • PCBマウント用小型スーパーキャパシター
  • スーパーキャパシターの世界の需要:構成別
  • スーパーキャパシターの過去5年間の市場需要の変化:構成別

第6章 スーパーキャパシターの需要:最終用途市場セグメント別

  • スーパーキャパシターのコンポーネント需要:最終用途市場セグメント別
  • スーパーキャパシターのハイブリッド電気バス市場

第7章 スーパーキャパシターの需要:世界の地域別

  • スーパーキャパシター:コンポーネント需要の世界地域
  • 地域分析:アジア
  • 地域分析:南北アメリカ
  • 地域分析:欧州・イスラエル

第8章 スーパーキャパシターの競合と市場シェア

  • スーパーキャパシター - 競合環境:タイプ別・コンポーネントサブカテゴリー別
  • コンポーネントメーカー:世界の市場シェア推定
  • 競合環境 - スーパーキャパシターメーカー:コンポーネント構成別
  • 世界のスーパーキャパシターの競合環境:ベンダー別
  • スーパーキャパシターベンダー:市場シェアの変化

第9章 EDLCスーパーキャパシター:原材料サプライチェーン分析

  • 鉱業・材料
  • エンジニアリング材料の需要を促進
  • コンポーネントの最終市場が需要を促進
  • スーパーキャパシターに必須の技術
  • 炭素粉末・炭素布市場
  • 粉末 vs. 布の性能比較
  • BET表面積の懸念
  • スーパーキャパシターの活性炭の含有量
  • スーパーキャパシター業界に対する活性炭材料のサプライチェーン
  • 誘電体基板として機能するための炭素材料の要件

第10章 スーパーキャパシターの5ヶ年予測

  • 単一製品
  • 広範な製品ライン
  • 特殊コンポーネントのみ
  • スーパーキャパシター市場予測:タイプ別
  • 地域予測
  • スーパーキャパシター消費金額:最終市場セグメント別

第11章 スーパーキャパシター・炭素材料:生産業者プロファイル

  • 収益の推定と収益性に関する注記
  • 製品ポートフォリオ
  • 最終地域市場
  • 最終用途市場
  • 場所 (製造)
  • AVX
  • BEIJING ZHONG TUO MATERIAL TECHNOLOGY CO., LTD
  • BEIJING ZHONG TUO
  • CALGON
  • CABOT
  • CAP-XX
  • CDE
  • DONGGUAN GONGHE
  • EATON
  • ELNA
  • EVANS
  • GORE
  • HYPERION、など
図表

List of Figures:

  • Figure 1: Paumanok Research Methodology
  • Figure 2: Fixed Capacitor Market Breakdown by Sub-Category: FY 2020
  • 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 2013-2020 (Yen, NT$ and Won Currencies To The United States Dollar Quarterly Exchange Rates)
  • Figure 6: Global Market Correction In The Passive Components Industry
  • Figure 7: Electrolytic Capacitor Market Trend: 100 Months of Data
  • Figure 8: Lead Time Trend For Supercapacitors: April 2013 to September 2020 by Month (In Weeks)
  • Figure 9: The Technical Benefit of Supercapacitors: Where they Find Their Niche In Energy Storage Devices
  • Figure 10: Global Consumption Value For Capacitors: FY 2007-2020
  • Figure 11: Changes in Global Value of Demand for Capacitors By Dielectric: FY 2003-FY 2020 and 2021 Forecast
  • Figure 12: Changes in Capacitor Consumption Value By Dielectric: FY 2017 to FY 2020; FY 2021 Forecasts
  • Figure 13: Global Shipment Value for Supercapacitors: 2020; (2013-2020 Historical Growth by Year)
  • Figure 14: Global Market for Supercapacitors By Type (EDLC, Li-Ion/Polyacene and Mixed Metal Hybrids)
  • Figure 15: Global Value of Consumption for Supercapacitors by Type: 2020 (2013-2020 Historical Reference)
  • Figure 16: Global Value of Consumption for Supercapacitors by Configuration: FY 2020
  • Figure 17: Global Consumption Value for Supercapacitors By End-Use Market Segment: 2020
  • Figure 18: Automotive Requirements for EDLC Supercapacitors
  • Figure 19: Official: Global Market Summary: Component Forecasts By End-Use Market Segment for FY 2020 and FY 2025
  • Figure 20: Passive Component Consumption: 25 Year Trend By Country
  • Figure 21: Overall Supercapacitor Consumption Value By World Region: FY 2020 (In Millions of USD)
  • Figure 22: The Asian Market For Supercapacitors by Key Country: FY 2020
  • Figure 23: The American Market For Components by Key Country: FY 2020
  • Figure 24: The European Market For Components by Key Country: FY 2020
  • Figure 25: Competitive Environment in Supercapacitors By Type and Component Sub-Category: FY 2020
  • Figure 26: Supercapacitor Manufacturers: FY 2020 Estimated Global Market Shares
  • Figure 27: Supercapacitor Vendors To The Global Market By Configuration: FY 2020
  • Figure 28: Large Can and Snapmount Supercapacitor Vendors by Voltage Rating: FY 2020
  • Figure 29: Radial Leaded Supercapacitor Vendors by Voltage Rating: FY 2020
  • Figure 30: Module Assembly Supercapacitor Vendors by Voltage Rating: FY 2020
  • Figure 31: 2-Pack Small Can Supercapacitor Vendors: 2020
  • Figure 32: Multi-pack Pack Small Can Supercapacitor Vendors: 2020
  • Figure 33: Coin Cell Supercapacitor Vendors by Voltage Rating: FY 2020
  • Figure 35: Supercapacitor Line Cards At The Top 5 Capacitor Distributors
  • Figure 36: Supercapacitor Vendors To The Global Market: FY 2020 Market Shares (2013-2020 Historical Reference)
  • Figure 37: Mining & Materials: The Supply Chain Begins in The Ground
  • Figure 38: Four Step Materials Process for EDLC Cell Construction
  • Figure 39: EDLC Supercapacitors: Costs To Produce: 202
  • Figure 40: Global Materials Markets For Supercapacitors: 2020
  • Figure 41: Pricing for Activated Carbon Materials by End-Use Market Segment: 2020
  • Figure 42: Activated Carbon Powder in Pelletized, Granular and Powdered Forms
  • Figure 43: Carbon; Surface Area; Total Pore; Micropore Comparison
  • Figure 44: Edge Plane Versus Basel Plane Carbons in Capacitors- A Comparison
  • Figure 45: The Carbon Supply Chain To The Supercapacitor Industry
  • Figure 46: Mass Production Process at Kuraray Chemical Company Limited
  • Figure 47: Key End-Use Product Markets For Passive Components: 2021-2025
  • Figure 48: Quarterly GDP Forecast By World Region
  • Figure 49: Global Supercapacitor Market Forecasts: 2021-2025
  • Figure 50: Global Value of Shipments By Component Type (Small Cell Versus Large Can/Module Assembly): 2003-2015; 2016-2021 Forecast
  • Figure 51: Global Volume Shipments By Supercapacitor Type: 2013-2020; 2021-2025 Forecast
  • Figure 52: Global Value of Consumption for Supercapacitors By Type: FY 2021-2025 (EDLC, Li-Ion, Hybrid)
  • Figure 53: Global Consumption Value Forecasts For Supercapacitors In Asia-Pacific By Country: FY 2016-2021
  • Figure 54: Global Consumption Value Forecasts For Supercapacitors In Americas By Country: FY 2016-2021
  • Figure 55: Global Consumption Value Forecasts For Supercapacitors In Europe By Country: FY 2016-2021
  • Figure 56: Official: Global Market Summary: Supercapacitor Forecasts By End-Use Market Segment for FY 2020 and FY 2025
目次
Product Code: ISBN #:0-929717-60-0 (2020)

The study addresses electric double layer carbon, lithium-ion, polyacene and mixed metal hybrid supercapacitor markets for FY 2020 with detailed forecasts to 2025. Paumanok Publications, Inc. the Big Data company focused on global capacitor markets for 30 years offers its global assessment of the market developments in FY 2019 and FY 2020 and the shift in markets in FY 2021 with forecasts to FY 2025. The study is broken into ten main chapters and a producer profile section. The chapters include an introduction, a technology overview, an executive summary, a global market overview for capacitors and supercapacitors, a breakdown of the supercapacitor market by component type and configuration; a detailed chapter on end-use market segments for supercapacitors (key verticals); a detailed country by country analysis for supercapacitor consumption in Asia, Europe and the USA; a detailed competitive analysis and market share intelligence by vendor for more than 40 companies; a detailed analysis of the global market for activated carbon powder and cloth; a detailed five year forecast by end-use market segment; world region and supercapacitor type and configuration.

Paumanok has conducted multi-client, single client and custom consulting research on electric double layer carbon supercapacitors, mixed metal hybrid supercapacitors since 1993 and lithium-ion and polyacene capacitors since 2000. Our intelligent gathering capabilities include the following resources; prior supercapacitor studies published in 1993, 1995, 1998, 2000, 2002, 2005, 2013, 2016; The CARTS Marketing and Technology Seminars we participated in- presentations for those events in the United States, Europe and China on supercapacitor materials and components; and includes intelligence gathered from primary interviews conducted at CARTS, ECA, ECIA, EDS, MITI, KAIST events as well as the Paumanok presentation at China's premier passive component and materials conference PCI Shenzhen and multiple presentations at the Florida Atlantic University's EDLC Capacitor Conference. Forecasts to FY 2025.

TABLE OF CONTENTS

1.0 INTRODUCTION TO SUPERCAPACITORS

  • 1.1. FOCUS OF THIS SPECIFIC REPORT
  • 1.2. RESEARCH METHODOLOGY EMPLOYED:
    • 1.2.1. How We Have Researched EDLC Markets, Technologies & Opportunities Since 1993 (Methodology)
    • 1.2.2. Our 30 Year Conclusions On The Development of The Global Market for Supercapacitors
    • 1.2.3. Over 30 Years- Where Supercapacitors Find Their Niche
  • 1.3. THE PAUMANOK RESEARCH METHODOLOGY: 30 YEARS STUDYING PASSIVE CAPACITOR MARKETS
    • 1.3.1. Government Data Collection and Resources:
      • 1.3.1. (A)-Government Resources on EDLC Supercapacitors
    • 1.3.2. Secondary Published Sources:
      • 1.3.2. (A) The Best Secondary Published Resources on Supercapacitors
    • 1.3.3. Primary Intelligence Gathering:
      • 1.3.3. (A) Paumanok Primary Intelligence on Supercapacitors
  • 1.4. FIXED CAPACITORS AND THEIR RESPECTIVE SUB-CATEGORIES: FY 2020
    • 1.4.1. Fixed Capacitors and Their Respective Sub-Categories: FY 2020
  • 1.5. THE PASSIVE CAPACITOR SUPPLY CHAIN:
    • 1.5.1. Mining of Raw Materials:
      • 1.5.1. (A) Supercapacitor Feedstocks:
    • 1.5.2. Raw Materials Processing:
      • 1.5.2. (A) Carbon Materials Processing:
    • 1.5.3. Capacitor Manufacturing:
      • 1.5.3. (A) SuperCapacitor Manufacturing:
    • 1.5.4. Capacitor Distribution:
    • 1.5.5. End-Market Consumption:
      • 1.5.5. (A) End-Market Consumption For Supercapacitors:
    • 1.5.6. Recycling of Critical Materials:
      • 1.5.6. (A) EDLC Challenging History With Electrolytes
  • 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:
      • 1.7.2. (A) How Activated Carbon Complies With These Maxims:
  • 1.8. FINANCIAL CONSIDERATIONS WITH RESPECT TO THIS REPORT:
    • 1.8.1. Fiscal Year Reporting
    • 1.8.2. THE FISCAL YEARS OF 2020 AND 2021
    • 1.8.3. Positive Market Indicators:
    • 1.8.4. Negative Market Indicators:
  • 1.9. KEY FINDINGS OF THIS REPORT:
    • 1.9.1. Short-Term Outlook FY 2020-FY 2021: ALL CAPACITOR PRODUCTS AND DIELECTRICS
    • 1.9.2. SIGNIFICANT DEVELOPMENT for FY 2021
    • 1.9.4. Regional Growth in Capacitor Sales FY 2021
    • 1.9.5. End Use Segment Growth in Capacitor Sales- FY 2020-FY 2021
  • 1.10. MODELING THE CYCLE TRENDS FY 2021:
    • 1.10.1. Global Market Correction - FY 2020-2021
      • 1.10.1. (A) Electrolytic Capacitor Market Trend: 100 Months of Data
      • 1.10.1. (B) Supercapacitor Market Trend: 100 Months of Data Lead Time Trend for Supercapacitors: April 2013 to September 2020 (By Month) {In Weeks}

2.0. SUPERCAPACITOR TECHNOLOGY OVERVIEW & ANALYSIS:

  • 2.1. Introduction and Paumanok Research in EDLC:
  • 2.2. What is a Supercapacitor?
  • 2.3. Demand Creation For Supercapacitors:
  • 2.4. Where Do Supercapacitors Find Their Market?
    • 2.4.1. How Carbon/Carbon Materials and Carbon/Pb02 Materials Compete with Lead Acid and Rechargeable Bateries
      • 2.4.1. (A) Energy Density- Compare and Contrast:
      • 2.4.1. (B) Watt Power Per Kilogram- Compare and Contrast:
      • 2.4.1. (C) Weight in Kilograms- Compare and Contrast:
      • 2.4.1. (D) Cost Comparison-Batteries Versus Capacitors
  • 2.5. Variations In Supercapacitor Technology:
    • 2.5.1. Carbon Based:
    • 2.5.2. Metal Based:
  • 2.6. What is The Value Proposition for Supercapacitors?
    • 2.6.1. Highest Capacitor Density Of Any Capacitor:
    • 2.6.2. Reliable, Long Life:
    • 2.6.3. Safe Operation:
  • 2.7. Market Attractiveness
    • 2.7.1. Supercapacitors: On The Cusp Of Two Big Markets:
      • 2.7.1. (A) Battery Augmentation Markets
      • 2.7.1. (B) Battery Displacement:
  • 2.8. Conventional Capacitor Displacement:
    • 2.8.1. Aluminum Electrolytic Capacitor Displacement:
    • 2.8.2. Industrial Electronics Opportunities for Displacement and Augmentation:
    • 2.8.3. Automotive Electronic Opportunities for Displacement and Augmentation
  • 2.9. Summary- Gaps And Showstoppers in Moving The Technology Forward:
    • 2.9.1. Linking Multiple Cells:
    • 2.9.2. ESR Issues:
      • 2.9.2. (A) Impact of Technology Focus on ESR: 2016 Study Versus 2020 Study
    • 2.9.3. Temperature Issues:+65 to 85 to 200 C
    • 2.9.4. High Cost Of Raw Materials:

3.0. GLOBAL CAPACITOR MARKET UPDATE: 2020-2021

  • 3.1. Global Consumption Value For Capacitors: FY 2020:
    • 3.1.1. Global Capacitor Value Demand By Type (Dielectric): FY 2020 And Historical 13 Year Market Growth
      • 3.1.1. (A) How Supercapacitors Compete With Other Dielectrics
    • 3.1.2. (MLCC) Ceramic Capacitor Markets: FY 2020-2021
      • 3.1.2. (A) EDLC Supply Chain Synergies With SLC Ceramics
    • 3.1.3. Tantalum Capacitor Markets: FY 2020-2021
      • 3.1.2. (A) EDLC Competition With Molded Chip Tantalum Capacitors
    • 3.1.4. Aluminum Electrolytic Capacitors: FY 2020-2021
      • 3.1.2. (A) EDLC As an Offshoot of Aluminum Capacitor Supply Chains
    • 3.1.5. DC Film Capacitor Markets: FY 2020
    • 3.1.6. AC Power Film Capacitors: FY 2020-2021
      • 3.1.6. (A) Film Capacitor Manufacturers Synergy With EDLC Supercapacitors-
    • 3.1.7. EDLC SuperCapacitors and Other Capacitors: FY 2020-2021
    • 3.1.10. Summary of Changes in Capacitor Shipment Value By Dielectric: FY 2021` Overall Outlook

4.0. SUPERCAPACITORS-WORLD MARKET OVERVIEW: 2020

  • 4.2. SUPERCAPACITOR MARKET VIEW: FY 2020
  • 4.3. WORLDWIDE SUPERCAPACITOR MARKET GROWTH: CHANGES IN VALUE, VOLUME AND UNIT PRICING: FY 2020:
    • 4.3.1. Global Market Value, Volume and Average Unit Pricing for SuperCapacitors: 2020 (HISTORICAL GROWTH 2013-2019)
    • 4.3.2. Global Value of Demand for Supercapacitors by Type (EDLC, Li-Ion/Polyacene and Hybrid Mixed Metal)
    • 4.3.3. Growth Trends in EDLC, Li-Ion and Hybrid Supercapacitors

5.0. SUPERCAPACITOR - DEMAND BY COMPONENT TYPE AND CONFIGURATION:

  • 5.1. LARGE CAN SUPERCAPACITORS
    • 5.1.1. Screw Terminal (Large Cans) Supercapacitor:
    • 5.1.2. Snap Mount (Large Can) Supercapacitors
      • 5.1.2. (A) Module Assemblies:
  • 5.2. SMALL SUPERCAPACITORS FOR PCB MOUNTING
    • 5.2.1. Small Cell Bundling/Modules
    • 5.2.2. Coin Cell Supercapacitors:
    • 5.2.3. Radial Leaded/Cylindrical (Small Cans) Supercapacitors:
    • 5.2.4. Surface Mount Supercapacitors (Flatpacks and Molded Chips)
  • 5.3. Global Demand for Supercapacitors by Configuration: 2020
  • 5.4. How The Market Demand Changed Over The Past Five Years for Supercapacitors by Configuration

6.0. SUPERCAPACITOR DEMAND BY END-USE MARKET SEGMENT: 2020

  • 6.1. Supercapacitor Component Demand By End-Use Market Segment: FY 2020
  • 6.2. Hybrid Electric Bus Markets For Supercapacitors:
    • 6.2.1. Automotive Requirements for Supercapacitors (Starter Generator; Regenerative Braking; Boost Power; Drive by Wire).
    • 6.2.1. Consumer Audio and Video Imaging Equipment Markets For Supercapacitors
    • 6.2.2. Smart Metering Equipment Markets For Supercapacitors
    • 6.2.3. Wind Turbine Markets For Supercapacitors
    • 6.2.3. Solid State Disc Drive Markets For Supercapacitors
    • 6.2.4. Security Alarm System Markets For Supercapacitors
    • 6.2.5. Computer Markets For Supercapacitors
    • 6.2.6. Industrial and Home Appliance Markets For Supercapacitors
    • 6.2.7. Aerospace (Satellite) Markets For Supercapacitors

7.0. SUPERCAPACITOR DEMAND BY WORLD REGION:

  • 7.1. Supercapacitor: Component Demand World Region: FY 2020
  • 7.2. REGIONAL ANALYSIS: ASIA:
    • 7.2.1. Greater China: Includes The People's Republic of China, Taiwan ROC, Hong Kong and Macau.
    • 7.2.2. Japan:
    • 7.2.3. Singapore:
    • 7.2.4. Thailand:
    • 7.2.5. Korea: Includes the Republic of Korea (South Korea).
    • 7.2.6. VietNam:
    • 7.2.7. Malaysia:
    • 7.2.8. India:
    • 7.2.9. Philippines:
  • 7.3. REGIONAL ANALYSIS: DEFINITIONS AND MARKET SIZE: THE AMERICAS
    • 7.3.1. The United States:
    • 7.3.2. Mexico:
    • 7.3.3. Canada:
  • 7.4. REGIONAL ANALYSIS: DEFINITIONS AND MARKET SIZE: EUROPE AND ISRAEL
    • 7.4.1. Germany:
    • 7.4.2. Holland:
    • 7.4.3. Hungary:
    • 7.4.4. France:
    • 7.4.5. United Kingdom:
      • The United Kingdom is a $ 4 million market for supercapacitors (large cans) in FY 2020. The UK market includes end-use markets in Automotive, defense electronics and aerospace, as well as a key global presence in motors and generators.
    • 7.5.6. Czech Republic:
      • The Czech Republic is a $ 2 million market for supercapacitors in FY 2020. The Czech Republic resembles the end-markets in Hungary- largely back-end assembly of consumer AV and professional electronics.
    • 7.5.7. Israel:

8.0. SUPERCAPACITOR COMPETITION AND MARKET SHARES:

  • 8.1. Supercapacitors- Competitive Environment By Type & Component Sub-Category: FY 2020
    • 8.3.1. Electrochemical Capacitor Migration From Batteries and Other Capacitors:
    • 8.3.1. Companies that Have Exited Supercapacitors and Why:
  • 8.4. Component Manufacturers: FY 2020 Estimated Global Market Shares
  • 8.5. Competitive Environment: Supercapacitor Manufacturers by Component Configuration: FY 2020
    • 8.5.1. Screw Terminal (Large Cans) Supercapacitor Vendors:
      • 8.5.1. (A) Large Can and Snap Mount Supercapacitor Markets By Voltage Rating: 1.5 to 4.2 Volts
    • 8.5.2. Radial Leaded/Cylindrical (Small Cans) Supercapacitor Vendors:
      • 8.5.2. (A) Radial Leaded Supercapacitor Markets By Voltage Rating: 2.3 to 3.0 Volts
      • 8.5.2. (B) Discontinuation of the Goldcap Product Line-
    • 8.5.4. Module Assemblies: Module Assemblies (Large Cans) Supercapacitor Markets By Voltage Rating: 7.5 to 240 V+ Volts
    • 8.5.4. Small Can Assemblies:
      • 8.5.4. (A) 2-Pack Small Can Assemblies: 5 to 6 V+ Volts
      • 8.5.4. (A) Multi-Pack Small Can Assemblies: 16 to 316 V+ Volts
    • 8.5.5. Coin Cell Supercapacitor Vendors:
      • 8.5.5. (A) Coin Cell Supercapacitor Markets By Voltage Rating: 3.6 to 8.4 Volts
    • 8.5.6. Surface Mount Supercapacitor Vendors:
      • 8.5.6.(A) Surface Mount and Flatpack Supercapacitor Markets By Voltage Rating: 2.1 to 12 Volts
    • 8.5.7. Supercapacitor Vendor Relationships With Major Electronic Component Distributors: 2020 (TTI/Mouser; Arrow, Avnet, Digi-Key, Future)
  • 8.6. Global Competitive Environment For Supercapacitors By Vendor: FY 2020
    • 8.6.1. AVX Corporation (USA):
    • 8.6.2. Bollore- Batscap (France)Now Blue Solutions, Inc; Capacitor Sciences
    • 8.6.3. Cap-XX (Australia):
    • 8.6.5. Chaoyang Liyuan (China):
    • 8.6.6. Cornell-Dubilier Electronics (USA):
    • 8.6.7. Dongguan Gonghe (China):
    • 8.6.8. Eaton-Cooper-Bussman-PowerStor (USA)
    • 8.6.9. ELTON JSC (Russia):
    • 8.6.10. Extreme Capacitor (USA)
    • 8.6.11. Heter Electronics (China):
    • 8.6.12. Inmatech, Inc. (USA):
    • 8.6.13. Ioxus, Inc. (USA)
    • 8.6.14. Jinzhou Kaimei (China)
    • 8.6.17. LS MTron (Korea):
    • 8.6.18. Man Yue (China):
    • 8.6.19. Maxwell Technologies (USA):
      • 8.6.19. (A) Maxwell On EDLC Growth Since 2003; Profitability and Accessing More Vertical Markets
      • 8.6.19. (B) Tesla Buys Maxwell
    • 8.6.20. Murata Manufacturing Company Limited (Japan)
    • 8.6.21. NEC TOKIN (Japan) KEMET- YAGEO
      • 8.6.21. (A) Re-Built Production Line; Purchase by KEMET; Unique EDLC Technology; Other Related Cathode Developments
    • 8.6.22. NESS Capacitor (Korea ROK): (NOW MAXWELL/TESLA)
      • 8.6.22. (A) NESS and Regenerative Braking; UPS Systems
      • 8.6.22. (B) Maxwell Buys NESS; Tesla Buys Maxwell:
    • 8.6.23. Nichicon (Japan):
    • 8.6.24. Nippon Chemi-Con (Japan):
      • 8.6.24. (A) NCC and EDLC- A Key Pillar For The Future
    • 8.6.25. Nissan Diesel Motor Co., Ltd. (Japan)
    • 8.6.26. OptiXtal (USA):
    • 8.6.27. Panasonic (Japan):
      • 8.6.27. (A) Panasonic On GoldCap:
    • 8.6.30. Rubycon Corporation (Japan):
    • 8.6.31. Samwha Capacitor (Korea):
    • 8.6.31. Shenzhen Forecon (China):
    • 8.6.33. Shizuki Electric (Japan):
    • 8.6.34. Taiyo Yuden (Japan):
      • 8.6.34. (A) Taiyo Yuden Acquires Advanced Supercapacitor Technology
    • 8.6.35. Tavrima Canada Limited (Canada):
    • 8.6.35. TDK Corporation:
    • 8.6.36. Vina Tech (Korea):
    • 8.6.37. Vishay-BCC (Holland):
    • 8.6.38. WIMA (Germany):
    • 8.6.39. Yunasko Limited (Ukraine):
    • 8.6.40. Yeong Long Technologies (China):
  • 8.7. Supercapacitor Vendors: Changing Market Shares Over Time:

9.0. EDLC SUPERCAPACITOR- RAW MATERIAL SUPPLY CHAIN REVIEW:

  • 9.1. MINING & MATERIALS: THE SUPPLY CHAIN BEGINS IN THE GROUND
  • 9.2. COMPONENT END-MARKETS DRIVING DEMAND FOR ENGINEERED MATERIALS: FY 2016
  • 9.3. FUNDAMENTAL SUPERCAPACITOR TECHNOLOGY:
    • 9.3.1. RAW MATERIAL PROCESS FOR EDLC:
      • 9.3.1. (A) Carbon Electrodes Composition
      • 9.3.1. (B) Current Collector
      • 9.3.1. (C) Electrolyte
      • 9.3.1. (D) Separator
    • 9.3.1. Carbon Material Costs:
    • 9.3.2. Can/Sleeve Costs:
    • 9.3.3. Electrolyte Costs:
      • 9.3. (B) The Challenging Supply Of Electrolyte To EDLC Markets (Concerns Around Toxicity of AN)
    • 9.3.4. End Seals:
    • 9.3.5. Separator Materials:
    • 9.3.6. Electrode Tab Material:
    • 9.3.7. Lead Wires/Lugs:
  • 9.4. CARBON POWDER & CLOTH MARKETS:
    • 9.4.1. Pricing For Activated Carbon Materials By End-Use Market Segment:
    • 9.4.2. Powder Versus Cloth Pricing and Key Variables (BET/ASH; Added Processing, Final Form Factor)
    • 9.4.3. Activated Carbon Market In Supercapacitors: Market Size in Value and Volume of Demand
    • 9.4.4. Cloth Versus Powder Market Breakdown:
      • 9.4.4. (A) CARBON: Thermally, Alkali, Chemically Activated Carbon Resin, Coconut, Wood Comparison
    • 9.4.5. Vendor Market Shares in Powder and Cloth Supply To The Market: 2020
  • 9.5. Powder Versus Cloth Performance Comparison:
    • 9.5.1. ESR Considerations
    • 9.5.2. Power & Energy Density Considerations:
  • 9.6. BET Surface Area Considerations:
    • 9.6.1. Edge Versus Basel Plane Considerations:
      • 9.6.1. (A) How Mesophase Based Carbon Outperforms Organics in EDLC Supercapacitors
    • 9.6.2. Pore Density Considerations:
  • 9.7. Activated Carbon Content In Supercapacitors
  • 9.8. Supply Chain Of Activated Carbon Materials To The Supercapacitor Industry: (Powder & Cloth; Electrode, Anode/Capacitor)
    • 9.8.1. Kuraray Chemical and Calgon Carbon Corporation (YP50F and YP80)-
    • 9.8.2. WL Gore- Exellerator:
    • 9.8.3. Cabot Corporation (Graphene):
  • 9.9. Carbon Material Requirements To Perform As A Dielectric Substrate

10.0. SUPERCAPACITOR FIVE-YEAR FORECASTS: 2021-2025

  • 10.1.1. Single Product Focus:
  • 10.1.2. Broad Product Line:
  • 10.1.3. Specialty Components Only:
  • 10.5. SUPERCAPACITOR MARKET FORECASTS BY TYPE: 2021-2025
    • 10.5.1. Methodology For The 2021- 2025 Capacitor Forecasts:
    • 10.5.2. Key Growth Product Markets for Passive Components: 2021 - 2025 Forecasts:
    • 10.5.3. GDP Outlook: Impact on High-Tech
    • 10.5.4. Quarterly GDP Forecast by World Region: 2020-2021
    • 10.5.5. Churning and Changing Markets
    • 10.5.1. Global Value Of Shipments By Supercapacitor Type (Small Cell Versus Large Can/Modules): 2016-2021 Forecasts
    • 10.5.2. Global Value Of Shipments By Supercapacitor Type (Small Cell Versus Large Can): 2013-2020; 2021-2025 Forecasts
    • 10.5.4. Superecapacitor Forecasts By Type (EDLC, Li-Ion and Hybrid): 2021-2025
    • 10.6.1. The Forecast Methodology Employed:
  • 10.7. REGIONAL FORECASTS: 2021-2025
    • 10.7.1. ASIA-PACIFIC FORECASTS: Global Consumption Value by Country Forecasts In Asia-Pacific: FY 2021-2025
    • 10.7.2. AMERICAS FORECASTS: Global Consumption Value by Country Forecasts In Americas: FY 2021-2025
    • 10.7.3. EUROPE FORECASTS: Global Consumption Value for Supercapacitors By Country In Europe: FY 2020-2025
  • 10.8. SUPERCAPACITOR CONSUMPTION VALUE BY END-USE MARKET SEGMENT: 2020-2025

11.0. SUPERCAPACITOR AND CARBON MATERIALS- PRODUCER PROFILES:

  • 11.1. REVENUE ESTIMATES AND NOTES ON PROFITABILITY:
  • 11.2. PRODUCT PORTFOLIO:
  • 11.3. END-GEOGRAPHICAL MARKETS:
  • 11.4. END-USE MARKETS:
  • 11.5. LOCATIONS (MANUFACTURING):
    • Revenue Analysis for The Passive Component Operations Of Selected Market Leaders in the Field:
  • 11.1. AVX
  • AVX CORPORATION (NYSE: AVX : RIC 6971:):
    • Introduction To AVX Corporation:
    • Passive Component Products From AVX:
  • AVX'S POSITION IN THE GLOBAL PASSIVE COMPONENT INDUSTRY
    • AVX Corporation (USA): Supercapacitors
  • 11.2. BEIJING ZHONG TUO
  • BEIJING ZHONG TUO MATERIAL TECHNOLOGY CO., LTD.
    • Activated carbon graphene-modified
  • 11.3. CALGON
  • CALGON CARBON CORPORATION (KURARAY SUBSIDIARY)
    • Kuraray Buys Calgon
  • 11.4. CABOT
    • Cabot Corporation
    • Cabot Graphene PBX 300
  • 11.5. CAP-XX
    • Cap-XX (Australia):
    • Key Highlights
  • 11.6. CDE
  • CORNELL-DUBILIER ELECTRONICS (INCLUDING YORK CAPACITOR)
    • About This Company:
      • Cornell-Dubilier Electronics (USA):
  • 11.7. DONGGUAN GONGHE
    • Dongguan Gonghe (China):
    • Dongguan Gonghe (China):
  • 11.8. EATON
    • Eaton-Cooper-Bussman-Powerstor (USA)
    • Eaton-Cooper-Bussman-PowerStor (USA)
  • 11.9. ELNA
    • ELNA (Taiyo Yuden) {EDLC & LI-ION}
  • ELNA COMPANY LIMITED
    • Public Company:
    • Company Revenues:
    • Employees:
    • Product Lines:
    • Capacitor Product Line:
  • 10.11. EVANS
  • EVANS CAPACITOR CO.
  • 11.11. GORE
    • Gore Electrochemical Device & Fuel Cell Components
  • 11.12. HYPERION
  • HYPERION CATALYSIS INTERNATIONAL
  • 11.13. INMATECH
    • Inmatech, Inc.
      • Inmatech, Inc. (USA):
  • 11.14. ILLINOIS CAPACITOR
    • Illinois Capacitor (Cornell Dubilier-CDE)
  • 11.14. IOXUS
    • Ioxus, Inc. (USA)
      • Ioxus sells and delivers product all across the world for a wide range of applications.
  • 11.15. JAMICON
  • JAMICON ELECTRONICS CORPORATION
    • Jamicon: About This Company:
    • Jamicon: Company Revenues:
    • Jamicon: Conductive Polymer Radial Leaded Designs:
      • PS Type Radial Leaded Low ESR
      • PT Type Radial Leaded Super Low ESR
      • PH Type Radial Leaded Low ESR Capacitors
      • The PC Type Chip V-Chip Solid Polymer Aluminum Capacitor
      • The PF Type V-Chip with Super Low ESR
      • The PB Type V-Chip with Super Low ESR & High Heat Resistance
  • 11.16. JONZHOU KAIMEI
    • Jinzhou Kaimei Power Co.,Ltd
      • Jinzhou Kaimei (China)
  • 11.17. KEMET
  • KEMET ELECTRONICS (NYSE: KEM):
    • Introduction To Kemet
  • KEMET'S: POSITION IN THE PASSIVE COMPONENTS INDUSTRY:
    • KEMET-NT Supercapacitor Business
      • Re-Built Production Line; Purchase by KEMET; Unique EDLC Technology; Other Related Cathode Developments
    • Yageo Buys KEMET
  • 11.18. KURARAY
    • Kuraray Chemical Co., Ltd.
    • Purchase of Calgon Carbon
    • Japan Activities of Kuraray
  • 11.19. LELON
  • LELON ELECTRONICS CORP.
    • About Lelon:
    • Lelon History:
    • Lelon: Conductive Polymer Aluminum Capacitor Product Line:
    • Lelon: Radial Leaded Conductive Polymer Capacitor Line:
      • OCR Radial Capacitor Line:
      • OCV Chip Capacitor Line:
  • 11.20. LICAP
    • LICAP Technologies, Inc.
    • LiCap Technical Notes-
  • 11.21. LMSTRON
    • LSMTRON
      • LS MTron (Korea):
  • 11.22. MANYUE
    • Man Yue
  • MAN YUE ELECTRONICS COMPANY LIMITED
    • About This Company:
      • Man Yue (China): Supercapacitors
  • 11.23. MURATA
  • MURATA MANUFACTURING COMPANY LIMITED (RIC: 6981):
    • About Murata:
  • MURATA'S POSITION IN THE PASSIVE COMPONENT INDUSTRY
    • Murata Manufacturing Company Limited (Japan): Supercapacitors
    • Murata Exits Cap-XX Business
  • 11.24. NANTONG JIANGHAI
  • NANTONG JIANGHAI CAPACITOR CO. LTD.
    • Nantong Jianghai: About This Company:
    • Nantong Jianghai: Capacitor Product Line:
    • Nantong Jianghai: Revenue and Market Share Analysis:
    • Nantong Jianghai: Trends In Private Labeling
    • Supercapacitor Product Line:
  • 11.25. NESS
    • NESS Capacitor (Korea ROK):
      • NESS and Regenerative Braking; UPS Systems
  • 11.26. NICHICON
  • NICHICON CORPORATION (RIC: 6996)
    • About Nichicon:
  • NICHICON'S POSITION IN THE PASSIVE COMPONENT INDUSTRY:
    • Nichicon (Japan): Supercapacitors
  • 11.27. NIPPON CHEMI-CON
  • NIPPON CHEMI-CON CORPORATION (RIC:6996)
    • About Nippon Chemi-Con:
  • NIPPON CHEMI-CON'S POSITION IN THE PASSIVE COMPONENT INDUSTRY:
    • Nippon Chemi-Con (Japan): Supercapacitors
      • NCC and EDLC- A Key Pillar For The Future
  • 11.28. OHMITE
  • Ohmite MaxcapR Double-Layer Capacitors (DLCs)
  • 11.29. OPTIXTAL
    • OptiXtal, Inc.
      • OptiXtal (USA): Supercapacitor
  • 11.30. OSAKA GAS
  • OSAKA GAS CHEMICALS CO., LTD.
  • The Shirasagi Carbon For Supercapacitors-
  • 11.31. NIC
  • NIPPON INDUSTRIES, INC.
    • Company Description:
    • Corporate History:
    • Aluminum Capacitor Product Line:
    • Nippon Industries: Revenue and Market Share Analysis:
    • Supercapacitor Product Line
  • 11.32. PANASONIC
  • PANASONIC CORPORATION (RIC: 6752):
    • Panasonic Corporation: Description:
    • Panasonic Corporation: Importance To The Passive Component Industry:
      • Panasonic (Japan): Supercapacitors
        • Panasonic On GoldCap History and Success:
        • Panasonic To Exit GoldCap:
  • 11.33. QYNERGY
  • Qynergy
    • Qynergy Corporation (USA)
  • 11.34. RUBYCON
  • RUBYCON CORPORATION (PRIVATE)
    • Rubycon: Company Description
    • Rubycon Product Lines:
    • Rubycon Revenue Estimates For Passive Components
  • RUBYCON'S POSITION IN THE PASSIVE COMPONENT INDUSTRY:
    • Rubycon Corporation (Japan): Supercapacitors
  • 11.35. SAMWHA
  • SAMWHA ELECTRIC COMPANY LIMITED
    • Capacitor Products:
    • About This Company:
      • Samwha Capacitor (Korea): Supercapacitors
  • 10.34. SHENZHEN FORECON
    • Shenzhen Forecon
      • Shenzhen Forecon (China): Supercapacitors
  • 11.36. SURGE
    • Surge Components
      • North America Headquarters
      • Asia Headquarters
        • Hong Kong
    • Surge Components Supercapacitors
  • 11.37. TAIYO YUDEN
    • Taiyo Yuden Company Limited (RIC: 6976):
    • Taiyo Yuden: Company Description: FY 2016
  • TAIYO YUDEN'S POSITION IN THE PASSIVE COMPONENT INDUSTRY: FY 2016:
    • Taiyo Yuden (Japan): Supercapacitors
      • Taiyo Yuden Acquires Advanced Supercapacitor Technology
  • 11.38. TAVRIMA
    • TAVRIMA CANADA LTD.
      • Tavrima Canada Limited (Canada):
  • 10.39. TDK
    • TDK Corporation (RIC: 6762):
    • About TDK Corporation:
    • TDK EPCOS, Becromal and Heidenheim:
      • EPCOS: Aluminum Electrolytic Capacitor Products:
      • EPCOS: Applications For Aluminum Capacitors By Type:
  • 11.40. TECATE
    • Tecate Ultracapacitors
      • Tecate Products:
  • 11.41. TESLA
    • TESLA - MAXWELL TECHNOLOGIES, INC.- NESSCAP
      • Maxwell Technologies (USA): Supercapacitor Market Leader
        • Maxwell On EDLC Growth Since 2003; Profitability and Accessing More Vertical Markets
  • 11.42. VINA
    • Vina Tech
      • Vina Tech (Korea): Supercapacitors
  • 11.43. VISHAY
    • Vishay Intertechnology (NYSE:VSH)
    • About Vishay:
  • VISHAY'S POSITION IN THE PASSIVE COMPONENT INDUSTRY:
    • Vishay-BCC (Holland): Supercapacitors
  • 11.44. WIMA
  • WIMA
    • Wilhelm Westermann-WIMA AC and Pulse Capacitors
    • WIMA (Germany): Supercapacitors
  • 11.45. WURTH
  • Wurth Electronik
    • Company Description & Relation With Adolf Wurth GmbH & Co. KG:
    • Wurth Electronik: Revenue Data:
    • Wurth Electronik: Electronic & Electromechanical Components Group:
    • Wurth Electronik: Electronic & Electromechanical: Standard Parts
    • Wurth Electronik: Electronic & Electromechanical: IBE Automotive Parts
    • Wurth Electronik: Electronic & Electromechanical: Midcom Custom
    • Wurth Electronik: Manufacturing Facilities:
    • Wurth Supercapacitors
  • 11.46. YUNASKO
    • YUNASKO LTD.
      • Yunasko Limited (Ukraine): Supercapacitors
  • 11.47. YEONG LONG
    • Yeong Long Technologies (China): Supercapacitors
    • High-performance energy storage solutions based on breakthrough graphene material
    • WHAT ARE SUPER CAPACITORS?
    • Ultracapacitors vs. Batteries
  • 11.48. ZOXCELL
    • Zoxcell Limited