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超級電容器市場規模和份額分析 - 增長趨勢和預測(2023-2028)

Supercapacitors Market Size & Share Analysis - Growth Trends & Forecasts (2023 - 2028)
出版日期: | 出版商: Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3個工作天內

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簡介目錄

超級電容器市場規模預計到2023年為6.9億美元,預計到2028年將達到11.7億美元,在預測期內(2023-2028年)複合年增長率為11.14%。

由於其快速充電和溫度穩定性,超級電容器正在取代傳統電動汽車電池。此外,超級電容器比標準電池更靈活。GPS、便攜式媒體播放器、筆記本電腦和移動設備等應用對穩定電源的高需求是所研究市場的新興趨勢。

主要亮點

  • 超級電容器充電和放電還有助於維持峰值負載和備用電源,這對於連續運行非常重要。這包括電池供電的工業應用,例如智能電錶、煙霧探測器、視頻門鈴和醫療應用。各個供應商都推出了新產品來支持這一點。例如,Texas Instruments (TI) 最近推出了一款靜態電流 (IQ) 為 60nA 的新型雙向降壓/升壓轉換器。此外,與常用的混合層電容器相比,TPS61094 降壓/升壓轉換器具有用於超級電容器充電的降壓模式,同時提供超低 IQ,使工程師能夠將電池壽命延長高達 20%。(混合層電容器(HLC))。
  • 目前正在進行進一步研究,以基於現有超級電容器技術開發經濟實惠的創新解決方案。這凸顯了為當前模型提供經濟實惠且生態的替代品的必要性,並減少對碳基電極製造成本和關鍵部件的依賴。例如,倫敦帝國理工學院和倫敦大學學院(UCL)的研究人員最近開發了一種更具可持續性和能量密度的超級電容器電極材料,可用於高功率、快速充電的電動汽車技術,這為進一步的市場鋪平了道路利用
  • 近年來,電信和空間通信系統推動了對超級電容器的需求。在印度空間研究組織(ISRO)的Vikram Sarabhai Space Center(VSSC),我們開發了處理5F、120F、350F、500F等各種電容值的超級電容器(2.5V)的技術,並正在工作滿足空間和社會的需求,用於與以下相關的特定用途超級電容器已被有效地用於以多種方式提高混合動力電動汽車的效率。
  • 例如,Maxwell開發了超級電容器連接的鉛酸電池,可用於替代傳統汽車電池。該應用背後的想法是,高能量需求(例如啟動汽車)會降低電池的總能量容量。該公司擁有基於超級電容器的模塊產品線,溫度可高達 3000 華氏度。用於混合啟停應用的超級電容器銷量超過 600,000 個。
  • 此外,由於COVID-19的爆發,電力行業受到經濟數字革命的影響。從智能電錶、數字變電站、智能電動汽車充電基礎設施,到人工智能、數字孿生、動態線路評級和區塊鏈技術等軟件解決方案,政府、公用事業和製造商越來越多地擁抱數字技術。例如,印度政府在通過國家智能電網使命推進智能電網的部署並成功籌集3億美元投資後,最近宣布總預算支持超過400億美元,總預算支持超過100億美元宣布更新配電部門計劃。此類投資預計將為超級電容器市場帶來新的機遇。

超級電容器市場趨勢

對可再生能源解決方案的需求不斷增長預計將推動市場增長

今年超級電容器市場價值為5.491億美元。預計未來五年將達到11.1億美元,預測期內復合年增長率為13.19%。由於其快速充電和溫度穩定性,超級電容器正在取代傳統電動汽車電池。此外,超級電容器比標準電池更靈活。GPS、便攜式媒體播放器、筆記本電腦和移動設備等應用對穩定電源的高需求是所研究市場的一個新興趨勢。

  • 超級電容器充電和放電還有助於維持峰值負載和備用電源,這對於連續運行非常重要。還包括電池供電的工業應用,例如智能電錶、煙霧探測器、視頻門鈴和醫療應用。各個供應商正在推出新產品來支持這一點。例如,Texas Instruments (TI) 最近推出了一款靜態電流 (IQ) 為 60nA 的新型雙向降壓/升壓轉換器。此外,與常用的混合層電容器相比,TPS61094 降壓/升壓轉換器具有用於超級電容器充電的降壓模式,同時提供超低 IQ,使工程師能夠將電池壽命延長高達 20%。(混合層電容器(HLC))。
  • 目前正在進行進一步研究,以基於現有超級電容器技術開發經濟實惠的創新解決方案。這凸顯了為當前模型提供經濟實惠且生態的替代品的必要性,並減少對碳基電極製造成本和關鍵部件的依賴。例如,倫敦帝國理工學院和倫敦大學學院(UCL)的研究人員最近開發了一種更具可持續性和能量密度的超級電容器電極材料,可用於高功率、快速充電的電動汽車技術,為進一步市場使用鋪平了道路的
  • 近年來,電信和空間通信系統推動了對超級電容器的需求。在印度空間研究組織(ISRO)的Vikram Sarabhai Space Center(VSSC),我們開發了處理5F、120F、350F、500F等各種電容值的超級電容器(2.5V)的技術,並正在工作滿足空間和社會的需要,用於相關的特定用途。超級電容器已被有效地用於以多種方式提高混合動力電動汽車的效率。
  • 例如,Maxwell開發了一種連接超級電容器的鉛酸電池,可以代替傳統汽車電池。該應用背後的想法是,高能量需求(例如啟動汽車)會降低電池的總能量容量。該公司擁有一系列基於超級電容器的模塊,溫度可高達 3000 華氏度。用於混合啟停應用的超級電容器已售出超過 600,000 個。
  • 此外,各市場供應商都見證了電動汽車業務銷量的增長,推動了超級電容器在汽車行業的增長。例如,根據電動汽車銷量數據,預計2022年銷量將達到1060萬輛,較2021年增長57%,其中純電動汽車800萬輛,插電式混合動力汽車260萬輛。預計到 2022 年底,電動汽車保有量將接近 2700 萬輛,其中 70% 為純電動汽車,30% 為插電式混合動力汽車。
  • 此外,由於COVID-19的爆發,電力行業受到經濟數字革命的影響。從智能電錶、數字變電站和智能電動汽車充電基礎設施,到人工智能、數字孿生、動態線路評級和區塊鏈技術等軟件解決方案,政府、公用事業和製造商越來越多地擁抱數字技術。例如,印度政府通過國家智能電網任務推進智能電網部署,在成功籌集3億美元投資後,最近宣布將花費超過400億美元,總預算支持超過100億美元宣布更新配電部門計劃。這些投資預計將為超級電容器市場帶來新的機遇。
超級電容器市場-IMG1

亞太地區預計增長最快

  • 在中國,隨著中國尋求到 2060 年實現碳中和目標,從長遠來看,超級電容器的需求預計將以全球最高的速度增長。受益於電動汽車等下游市場需求的增加,中國超級電容器整體市場份額將持續上升。許多新進入者在政府政策支持下進入市場。
  • 著名的市場參與者包括State-owned CRRC (China Railway Rolling Stock Corporation), Nantong Jianghai, Shanghai Aowei, Jinzhou Kaimei。在超級電容器製造領域,出現了Beihai Sence Carbon Materials Technology、Jiangsu Zhongtian Technology Group、Tianjin Plannano Energy Technologies等新企業。東華大學、江蘇大學、南中大學、清華大學等科研院所和高校已通過專利申請等方式參與超級電容器領域的技術創新。
  • 中國汽車工業發展迅速,在全球汽車市場中發揮著越來越重要的作用。政府認為汽車工業,包括汽車零部件行業,是國家的支柱產業之一。中國中央政府預計,到2025年,中國汽車產量將達到3500萬輛,滿足超級電容器的需求。電動汽車越來越受歡迎,中國被認為是主要採用者之一。對於中國交通運輸業的發展,“十三五”規劃鼓勵發展混合動力汽車、電動汽車等綠色出行。
  • 此外,交通運輸是支撐日本經濟的重要基礎設施,與其他產業一起發展。此外,日本正在走上電動汽車之路。該國最大的汽車製造商Toyota與另一家公司Mazda合作,開發電動汽車技術,包括微型汽車、乘用車、SUV 和輕型卡車。滿足了對超級電容器的需求。
  • 日本政府的目標是到 2050 年在日本銷售的所有新車均為電動或混合動力汽車。國家將提供補貼,加速電動汽車電池和電機的民間發展。此外,隨著政府推動減少汽車溫室氣體排放,日本公共汽車和卡車製造商開始關注電動汽車的生產。例如,Hino Motors推出了首款柴電混合動力卡車車型。
  • 日本電力公司正在採用智能電錶。日本政府將重點轉向需求側管理,強調通過智能電網和節能技術實現能源安全和彈性。日本最大的電力公司Tokyo Electric Power Company (TEPCO) 計劃在 2020 年安裝 2900 萬個智能電錶。預計到 2024 年將安裝約 8000 萬台,比原計劃提前八年。因此,超級電容器在這些領域的擴大應用有望推動市場的發展。
  • 在日本,商業建築中也安裝了4MW系統,採用大型超級電容器來減少電網消耗並減輕用電高峰期的負荷。其他應用在停電時啟動備用發電機並提供電力,直到開關穩定為止。
Supercapacitors Market-IMG2

超級電容器行業概況

超級電容器市場競爭適中,由幾家主要參與者組成。該市場還包括進行了大量投資的老牌公司。目前,少數大公司主導著市場。憑藉主導市場份額,這些巨頭專注於擴大海外客戶群。這些公司利用戰略合作計劃來增加市場份額和盈利能力。主要公司包括Eaton Corporation PLC、Maxwell Technologies Inc.(Tesla Inc.)。目前市場上的參與者有:

  • 2022 年 8 月 - Kyocera AXA 推出一系列袋式超級電容器,以減少電池電流浪湧。這些電容器可以單獨用作系統電源備用設備,在某些情況下替代電池,或與一次或二次電池結合使用。
  • 2022年5月——CAP-XX Limited與Iconic Industries成立合資企業,為各個市場開發新型石墨烯,並為超級電容器和其他儲能設備開發還原氧化石墨烯(rGO)並實現商業化。CAP-XX將代表合資公司以CAP-XX品牌生產和銷售基於rGO的超級電容器和儲能設備。

其他福利:

  • Excel 格式的市場預測 (ME) 表
  • 3 個月的分析師支持

目錄

第 1 章 簡介

  • 研究假設和市場定義
  • 調查範圍

第二章研究方法論

第三章執行摘要

第四章市場洞察

  • 市場概況
  • 行業吸引力——波特五力分析
    • 供應商的議價能力
    • 消費者議價能力
    • 新進入者的威脅
    • 替代品的威脅
    • 競爭公司之間敵對關係的強度
  • COVID-19 的市場影響評估

第五章市場動態

  • 市場驅動力
    • 對可再生能源解決方案的需求不斷增長
    • 由於環境問題,基於超級電容器的汽車產量增加
  • 市場挑戰
    • 產品成本上升

第 6 章技術概覽

  • 超級電容器與傳統電介質的對比分析
  • 超級電容器的類型 - EDLC、Psuedo、混合

第七章市場細分

  • 按最終用戶
    • 消費類電子產品
    • 能源和公用事業
      • 電網應用(包括微電網和UPS)
      • 風電及其他
    • 行業
    • 汽車/交通
      • 巴士/卡車
      • 鐵路和有軌電車
      • 48V輕度混合動力車
      • 微混合動力車和其他車輛
      • 大型汽車
  • 按地區
    • 美國
    • 歐洲
    • 中國
    • 日本
    • 韓國和亞洲其他地區
    • 世界其他地區

第八章 競爭格局

  • 公司簡介
    • Eaton Corporation PLC
    • Maxwell Technologies Inc.(Tesla Inc.)
    • Skeleton Technologies Inc.
    • Cap-XX Limited
    • Kyocera Corporation
    • Supreme Power Solutions
    • LS Mtron Ltd
    • TOKIN Corporation
    • Shanghai Aowei Technology Development Co. Ltd
    • Loxus Inc.
    • Panasonic Corporation
    • Nantong Jianghai Capacitor Co. Ltd
    • Beijing HCC Energy
    • Jinzhou Kaimei Power Co. Ltd(KAM)
    • Shanghai Green Tech Co. Ltd(GTCAP)
    • Shenzhen Topmay Electronic Co. Ltd
    • Liaoning Brother Electronics Technology Co. Ltd
    • SEMG(Seattle Electronics Manufacturing Group(HK)Co. Ltd)
    • Chengdu Ztech Polymer Material Co. Ltd
    • Shanghai Pluspark Electronics Co. Ltd
    • Nippon Chemi-Con Corporation

第九章投資分析

第 10 章 市場期貨

簡介目錄
Product Code: 50580

The Supercapacitors Market size is estimated at USD 0.69 billion in 2023, and is expected to reach USD 1.17 billion by 2028, growing at a CAGR of 11.14% during the forecast period (2023-2028).

Supercapacitors are replacing traditional electric car batteries with quick charging and temperature stability. Additionally, supercapacitors are more flexible than standard batteries. The high demand for a stable power supply for applications such as GPS, portable media players, laptops, and mobile devices, is an emerging trend in the market studied.

Key Highlights

  • Supercapacitor charging and discharging also helps sustain peak loads and backup power, which is significant for continuous operation. It includes battery-powered industrial applications such as smart meters, smoke detectors, video doorbells, and medical applications. To support this, various vendors are launching new products. For instance, Texas Instruments (TI) recently announced a new bidirectional buck/boost converter with a quiescent current (IQ) of 60 nA. Additionally, compared to frequently used hybrid-layer capacitors, the TPS61094 buck/boost converter includes a buck mode for supercapacitor charging while delivering ultra-low IQ, allowing engineers to extend battery life by up to 20%. (hybrid-layer capacitors (HLCs)).
  • Further research is underway in developing affordable and innovative solutions built on existing supercapacitor technology. It offers a more affordable and ecological alternative to present models and emphasizes the need to reduce the carbon-based electrode production cost and the dependency on crucial components. For instance, researchers from Imperial College London and University College London (UCL) recently developed a more sustainable and energy-dense electrode material for supercapacitors, paving the way for further market use of high-power, quick-charging electric vehicle technology.
  • In recent years, communication systems in telecom and space have propelled the supercapacitors demand. The Indian Space Research Organization (ISRO), at its Vikram Sarabhai Space Center (VSSC), developed the technology for processing supercapacitors (2.5 V) of varying capacitance values viz., 5 F, 120 F, 350 F, and 500 F, catering to specific applications related to space and societal needs. Supercapacitors are effectively being used to improve the efficiency of hybrid electric vehicles in various ways.
  • For instance, Maxwell developed a supercapacitor-connected lead-acid battery that may be used to replace a traditional vehicle battery. The idea behind this application is that high-energy demands, such as starting an automobile, reduce the battery's total energy capacity. The company has a line of supercapacitor-based modules that can reach temperatures of 3000 degrees Fahrenheit. Over 600,000 supercapacitors have been sold for hybrid start-stop applications.
  • Furthermore, various market vendors have witnessed increased sales in the electric vehicle business, pushing the supercapacitor growth in the automotive industry. For instance, according to EV volumes, for the entire year of 2022, sales of 10,6 million were expected, showing a growth of 57 % over 2021, with BEVs reaching 8 million units and PHEVs 2,6 million units. Also, by the end of 2022, it was expected that there would be nearly 27 million EVs in operation, counting light vehicles, 70 % BEVs, and 30 % PHEVs.
  • Additionally, with the COVID-19 outbreak, the power sector is impacted by the economy's digital revolution. From smart meters, digital substations, and smart EV charging infrastructure to software solutions, such as artificial intelligence, digital twins, dynamic line rating, and blockchain technology, governments, utilities, and manufacturers, are increasingly embracing digital technologies. For instance, after successfully advancing smart grid deployment and mobilizing investments of USD 300 million through its National Smart Grid Mission, the Indian government recently announced a Revamped Distribution Sector Scheme with a cost of over USD 40 billion and gross budgetary support of over USD 10 billion. Such investments are expected to bring new opportunities to the supercapacitor market.

Supercapacitors Market Trends

Increasing Demand for Renewable Energy Solutions is Expected to Drive the Market Growth

The Supercapacitors Market was valued at USD 549.1 million in the current year. It is expected to reach a value of USD 1.11 billion by the next five years, registering a CAGR of 13.19% during the forecast period. Supercapacitors are replacing traditional electric car batteries with quick charging and temperature stability. Additionally, supercapacitors are more flexible than standard batteries. The high demand for a stable power supply for applications such as GPS, portable media players, laptops, and mobile devices, is an emerging trend in the market studied.

  • Supercapacitor charging and discharging also helps sustain peak loads and backup power, which is significant for continuous operation. It includes battery-powered industrial applications such as smart meters, smoke detectors, video doorbells, and medical applications. To support this, various vendors are launching new products. For instance, Texas Instruments (TI) recently announced a new bidirectional buck/boost converter with a quiescent current (IQ) of 60 nA. Additionally, compared to frequently used hybrid-layer capacitors, the TPS61094 buck/boost converter includes a buck mode for supercapacitor charging while delivering ultra-low IQ, allowing engineers to extend battery life by up to 20%. (hybrid-layer capacitors (HLCs)).
  • Further research is underway in developing affordable and innovative solutions built on existing supercapacitor technology. It offers a more affordable and ecological alternative to present models and emphasizes the need to reduce the carbon-based electrode production cost and the dependency on crucial components. For instance, researchers from Imperial College London and University College London (UCL) recently developed a more sustainable and energy-dense electrode material for supercapacitors, paving the way for further market use of high-power, quick-charging electric vehicle technology.
  • In recent years, communication systems in telecom and space have propelled the supercapacitors demand. The Indian Space Research Organization (ISRO), at its Vikram Sarabhai Space Center (VSSC), developed the technology for processing supercapacitors (2.5 V) of varying capacitance values viz., 5 F, 120 F, 350 F, and 500 F, catering to specific applications related to space and societal needs. Supercapacitors are effectively being used to improve the efficiency of hybrid electric vehicles in various ways.
  • For instance, Maxwell developed a supercapacitor-connected lead-acid battery that may be used to replace a traditional vehicle battery. The idea behind this application is that high-energy demands, such as starting an automobile, reduce the battery's total energy capacity. The company include a line of supercapacitor-based modules that can reach temperatures of 3000 degrees Fahrenheit. Over 600,000 supercapacitors have been sold for hybrid start-stop applications.
  • Furthermore, various market vendors have witnessed increased sales in the electric vehicle business, pushing the supercapacitor growth in the automotive industry. For instance, according to EV volumes, for the entire year of 2022, sales of 10.6 million were expected, showing a growth of 57 % over 2021, with BEVs reaching 8 million units and PHEVs 2.6 million units. Also, by the end of 2022, it was expected that there would be nearly 27 million EVs in operation, counting light vehicles, 70 % BEVs, and 30 % PHEVs.
  • Additionally, with the COVID-19 outbreak, the power sector is impacted by the economy's digital revolution. From smart meters, digital substations, and smart EV charging infrastructure to software solutions, such as artificial intelligence, digital twins, dynamic line rating, and blockchain technology, governments, utilities, and manufacturers, are increasingly embracing digital technologies. For instance, after successfully advancing smart grid deployment and mobilizing investments of USD 300 million through its National Smart Grid Mission, the Indian government recently announced a Revamped Distribution Sector Scheme with a cost of over USD 40 billion and gross budgetary support of over USD 10 billion. Such investments are expected to bring new opportunities to the supercapacitor market.
Supercapacitors Market - IMG1

Asia Pacific Expected to be the Fastest-growing Region

  • In China, the demand for supercapacitors is expected to grow by one of the highest growth rates in the world for a long time to meet the carbon neutrality targets by 2060. Benefiting from the increased demand in downstream markets, such as electric vehicles, the overall market share of supercapacitors in China would continue to rise. With policy support from the government, many new players have positioned themselves in the market.
  • Prominent market players include the state-owned CRRC (China Railroad Rolling Stock Corporation), Nantong Jianghai, Shanghai Aowei, and Jinzhou Kaimei. There are new players in supercapacitor manufacturing, such as Beihai Sence Carbon Materials Technology, Jiangsu Zhongtian Technology Group, and Tianjin Plannano Energy Technologies. Research institutions and universities, including Donghua University, Jiangsu University, South Central University, and Tsinghua University, have been involved in innovation in the supercapacitors sector through patent filing, among other things.
  • China's automotive industry is overgrowing, and the country plays an increasingly important role in the global automotive market. The government views the automotive industry, including the auto parts sector, as one of its country's pillar industries. The Central Government of China estimates that China's automobile output shall reach 35 million units by 2025, which caters to supercapacitors' demand. Electric vehicles are becoming more popular, and China is considered one of the leading adopters. For developments in China's transportation industry, the 13th Five-Year Plan encourages the development of green mobility alternatives such as hybrid and electric vehicles.
  • Additionally, transportation is one of the critical infrastructures that supported the Japanese economy and evolved along with other industries' growth. Additionally, Japan is on the road toward electric vehicles. The biggest motor vehicle company in the country, Toyota, partnered with another player, Mazda, to develop electric vehicle technologies for electric cars, including mini-vehicles, passenger cars, SUVs, and light trucks. It caters to the demand for supercapacitors.
  • The Japanese government aimed to have all new cars sold in Japan be electric or hybrid vehicles by 2050. The country plans to offer subsidies to accelerate the private-sector development of batteries and motors for electricity-powered cars. Furthermore, Japanese bus and truck makers are focusing more on electric vehicle production as the government is pushing to reduce greenhouse gas emissions from vehicles. For instance, Hino Motors Ltd launched its first model of a diesel-electric hybrid truck.
  • Utility companies in Japan are adopting smart electricity meters. The Japanese government moved its focus to demand-side management, emphasizing energy security and resiliency via smart grid and energy-saving technologies. Tokyo Electric Power (TEPCO), Japan's largest power utility, was expected to have 29 million smart meters installed in 2020. The country estimates to have about 80 million units deployed by 2024, a target brought forward eight years from the original plan. Hence, the growing applications of supercapacitors in such areas are expected to drive the market.
  • Japan also employs large supercapacitors as the 4 MW systems are installed in commercial buildings to reduce grid consumption at peak demand times and ease loading. Other applications start backup generators during power outages and provide power until the switchover is stabilized.
Supercapacitors Market - IMG2

Supercapacitors Industry Overview

The Supercapacitors Market is moderately competitive and consists of several major players. The market includes long-standing, established players who have made significant investments. A few major players currently dominate the market in terms of share. With a prominent share in the market, these considerable players focus on expanding their customer base across foreign countries. These companies leverage strategic collaborative initiatives to increase their market share and profitability. Eaton Corporation PLC, Maxwell Technologies Inc. (Tesla Inc.), and others are key players. The current advancement in the market are:

  • August 2022 - Kyocera AXA introduced a series of pouch-style supercapacitors for decreasing current surge batteries. These capacitors can be used on their own as system power backup devices, replacing batteries in some cases, or they can be used in conjunction with primary or secondary batteries.
  • May 2022 - CAP-XX Limited formed a joint venture with Iconic Industries, which is developing new forms of graphene for various markets and involves the commercialization of reduced graphene oxide (rGO) for supercapacitors and other energy storage devices. CAP-XX will manufacture and sell supercapacitors and energy storage devices using rGO, on behalf of the joint venture, under the CAP-XX brand.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumptions and Market Definition
  • 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

  • 4.1 Market Overview
  • 4.2 Industry Attractiveness - Porter's Five Forces Analysis
    • 4.2.1 Bargaining Power of Suppliers
    • 4.2.2 Bargaining Power of Consumers
    • 4.2.3 Threat of New Entrants
    • 4.2.4 Threat of Substitute Products
    • 4.2.5 Intensity of Competitive Rivalry
  • 4.3 Assessment of the Impact of COVID-19 on the Market

5 MARKET DYNAMICS

  • 5.1 Market Drivers
    • 5.1.1 Rising Demand for Renewable Energy Solutions
    • 5.1.2 Increasing Production of Supercapacitor-based Vehicles Owing to Environmental Concerns
  • 5.2 Market Challenges
    • 5.2.1 Higher Costs Associated with Products

6 TECHNOLOGY SNAPSHOT

  • 6.1 Comparative Analysis of Supercapacitors and Conventional Dielectric
  • 6.2 Types of Supercapacitors - EDLC, Psuedo, and Hybrid

7 MARKET SEGMENTATION

  • 7.1 By End-User
    • 7.1.1 Consumer Electronics
    • 7.1.2 Energy and Utilities
      • 7.1.2.1 Grid Applications (Including Micro Grid and UPS)
      • 7.1.2.2 Wind and Others
    • 7.1.3 Industrial
    • 7.1.4 Automotive/Transportation
      • 7.1.4.1 Bus and Truck
      • 7.1.4.2 Rail and Tram
      • 7.1.4.3 48V Mild Hybrid Car
      • 7.1.4.4 Micro Hybrids and Other Cars
      • 7.1.4.5 Heavy Vehicles
  • 7.2 By Geography
    • 7.2.1 United States
    • 7.2.2 Europe
    • 7.2.3 China
    • 7.2.4 Japan
    • 7.2.5 Korea and Rest of Asia
    • 7.2.6 Rest of the World

8 COMPETITIVE LANDSCAPE

  • 8.1 Company Profiles
    • 8.1.1 Eaton Corporation PLC
    • 8.1.2 Maxwell Technologies Inc. (Tesla Inc.)
    • 8.1.3 Skeleton Technologies Inc.
    • 8.1.4 Cap-XX Limited
    • 8.1.5 Kyocera Corporation
    • 8.1.6 Supreme Power Solutions
    • 8.1.7 LS Mtron Ltd
    • 8.1.8 TOKIN Corporation
    • 8.1.9 Shanghai Aowei Technology Development Co. Ltd
    • 8.1.10 Loxus Inc.
    • 8.1.11 Panasonic Corporation
    • 8.1.12 Nantong Jianghai Capacitor Co. Ltd
    • 8.1.13 Beijing HCC Energy
    • 8.1.14 Jinzhou Kaimei Power Co. Ltd (KAM)
    • 8.1.15 Shanghai Green Tech Co. Ltd (GTCAP)
    • 8.1.16 Shenzhen Topmay Electronic Co. Ltd
    • 8.1.17 Liaoning Brother Electronics Technology Co. Ltd
    • 8.1.18 SEMG (Seattle Electronics Manufacturing Group (HK) Co. Ltd)
    • 8.1.19 Chengdu Ztech Polymer Material Co. Ltd
    • 8.1.20 Shanghai Pluspark Electronics Co. Ltd
    • 8.1.21 Nippon Chemi-Con Corporation

9 INVESTMENT ANALYSIS

10 FUTURE OF THE MARKET