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市场调查报告书
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超级电容-市场占有率分析、产业趋势与统计、成长预测(2025-2030)

Supercapacitors - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)
出版日期: | 出版商: Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

预计预测期内超级电容市场将以 11.14% 的复合年增长率成长。

超级电容器市场-IMG1

超级电容因其快速充电和温度稳定性而迅速取代传统的电动车电池。此外,超级电容比标准电池更灵活。在研究市场中,GPS、可携式媒体播放机、笔记型电脑、行动装置等应用程式对稳定电源的需求很高,这是一个新兴趋势。

主要亮点

  • 超级电容的充电和放电也有助于维持尖峰负载和备用电源,这对于持续运作非常重要。这包括电池供电的工业应用,如智慧电錶、烟雾侦测器、可视门铃和医疗应用。为了支持这一点,各个供应商都在发布新产品。例如,德克萨斯(TI)最近推出了一款新型双向降压/升压转换器,静态电流(IQ)为 60nA。此外,与常用的混合层电容器相比,TPS61094 降压升压转换器具有降压模式,可为超级电容充电,同时提供超低 IQ,使工程师能够将电池寿命延长多达 20%。 (混合层电容器(HLC))。
  • 目前正在进行进一步研究,以基于现有的超级电容技术开发经济实惠的创新解决方案。这为当前模型提供了更经济、更环保的替代方案,并强调了降低碳基电极製造成本和对关键零件的依赖的必要性。例如,伦敦帝国学院和伦敦大学学院 (UCL) 的研究人员最近为超级电容开发了更永续、能量密度更高的电极材料,为高功率、快速充电电动车技术的更广泛市场应用铺平了道路。
  • 近年来,电讯和太空通讯系统推动了对超级电容的需求。印度太空研究组织 (ISRO) 维克拉姆·萨拉巴伊太空中心 (VSSC) 开发了一项技术,可以製造各种电容值(如 5F、120F、350F 和 500F)的超级电容(2.5V),以满足与太空和社会需求相关的特定应用。超级电容正以多种方式有效利用来提高混合动力电动车的效率。
  • 例如,Maxwell开发了一种超级电容连接的铅酸电池,可用于取代传统的汽车电池。该应用背后的想法是,启动汽车等高能量需求会降低电池的总能量容量。该公司拥有一系列基于超级电容的模组,温度可高达华氏 3000 度。用于混合动力启动停止应用的超级电容已售出超过 60 万个。
  • 此外,各个市场供应商都见证了电动车业务的销售成长,从而推动了汽车行业超级电容的成长。例如,预计2022年电动车销量将达到1.06亿辆,较2021年成长57%,其中纯电动车销量将达到800万辆,插电式混合动力车销量将达到2,600万辆。预计2022年底,电动车运作将接近2,700万辆,其中70%为轻型汽车,30%为纯电动车,30%为插电式混合动力车。
  • 此外,由于新冠疫情爆发,电力产业正受到经济数位革命的影响。从智慧电錶、数位变电站和智慧电动车充电基础设施到人工智慧、数位双胞胎、动态线路评级和区块链技术等软体解决方案,政府、公用事业和製造商越来越多地采用数位技术。例如,印度政府在透过国家智慧电网计画成功筹集3亿美元投资后,最近宣布对配电产业计画进行改革,改革成本超过400亿美元,总预算支持超过100亿美元。此类投资预计将为超级电容市场带来新的机会。

超级电容市场趋势

可再生能源解决方案需求的不断增长预计将推动市场成长

今年超级电容市场价值为5.491亿美元。预计未来五年将达到 11.146 亿美元,预测期内复合年增长率为 13.19%。超级电容因其快速充电和温度稳定性而迅速取代传统的电动车电池。此外,超级电容比标准电池更灵活。在所研究的市场中,对 GPS、可携式媒体播放机、笔记型电脑和行动装置等应用的稳定电源的需求不断增加,这是一个新兴趋势。

  • 超级电容的充电和放电也有助于维持尖峰负载和备用电源,这对于持续运作非常重要。这也包括电池供电的工业应用,如智慧电錶、烟雾侦测器、可视门铃和医疗应用。为了支持这一点,各个供应商都在发布新产品。例如,德克萨斯(TI)最近推出了一款新型双向降压/升压转换器,静态电流(IQ)为 60nA。此外,与常用的混合层电容器相比,TPS61094 降压升压转换器具有降压模式,可为超级电容充电,同时提供超低 IQ,使工程师能够将电池寿命延长多达 20%。 (混合层电容器(HLC))。
  • 目前正在进行进一步研究,以基于现有的超级电容技术开发经济实惠的创新解决方案。这为当前模型提供了更经济、更环保的替代方案,并强调了降低碳基电极製造成本和对关键零件的依赖的必要性。例如,伦敦帝国学院和伦敦大学学院 (UCL) 的研究人员最近为超级电容开发了更永续、能量密度更高的电极材料,为高功率、快速充电电动车技术的更广泛市场应用铺平了道路。
  • 近年来,电讯和太空通讯系统推动了对超级电容的需求。印度太空研究组织 (ISRO) 维克拉姆·萨拉巴伊太空中心 (VSSC) 开发了一项技术,可以製造各种电容值(如 5F、120F、350F 和 500F)的超级电容(2.5V),以满足与太空和社会需求相关的特定应用。超级电容正以多种方式有效利用来提高混合动力电动车的效率。
  • 例如,Maxwell开发了一种超级电容连接的铅酸电池,可用于取代传统的汽车电池。该应用背后的想法是,启动汽车等高能量需求会降低电池的总能量容量。该公司拥有一系列基于超级电容的模组,温度可高达华氏 3000 度。用于混合动力启动停止应用的超级电容已售出超过 60 万个。
  • 此外,各个市场供应商都见证了电动车业务的销售成长,从而推动了汽车行业超级电容的成长。例如,预计2022年电动车销量将达到1.06亿辆,较2021年成长57%,其中纯电动车销量将达到800万辆,插电式混合动力车销量将达到2,600万辆。预计2022年底,电动车运作将接近2,700万辆,其中70%为轻型汽车,30%为纯电动车,30%为插电式混合动力车。
  • 此外,由于新冠疫情爆发,电力产业正受到经济数位革命的影响。从智慧电錶、数位变电站和智慧电动车充电基础设施到人工智慧、数位双胞胎、动态线路评级和区块链技术等软体解决方案,政府、公用事业和製造商越来越多地采用数位技术。例如,印度政府在透过国家智慧电网计画成功筹集3亿美元投资后,最近宣布对配电产业计画进行改革,改革成本超过400亿美元,总预算支持超过100亿美元。这些投资预计将为超级电容市场带来新的机会。

预计亚太地区成长最快

  • 随着中国努力实现2060年碳中和目标,预计超级电容的需求将以全球最高的长期速度成长。受惠于电动车等下游市场需求的成长,中国超级电容的整体市场占有率可能会持续上升。在政府政策的支持下,许多新参与企业正在进入市场。
  • 知名市场参与者包括国营企业中国铁路车辆(CRRC)、南通江海、上海奥威和锦州凯美。在超级电容製造方面,出现了北海森斯碳材料科技、江苏中天科技集团、天津普兰奈米能源科技等新公司。东华大学、江苏大学、南中大学、清华大学等科研院所及大学透过专利申请等方式参与超级电容领域的技术创新。
  • 中国汽车工业蓬勃发展,在全球汽车市场中发挥越来越重要的作用。政府将汽车工业(包括汽车零件产业)视为国家支柱产业之一。中国中央政府预测,2025年,中国汽车产量将达到3,500万辆,满足超级电容的需求。电动车越来越受欢迎,中国被认为是领先的采用者之一。对于中国交通运输业的发展,「十三五」规划鼓励发展混合动力汽车汽车、电动车等绿色交通方式。
  • 此外,交通运输是支撑日本经济的重要基础设施之一,伴随其他产业的发展而发展。此外,日本正在走电动车之路。日本最大的汽车製造商丰田与另一家公司马自达合作,共同开发包括微型车、轿车、SUV和小型卡车在内的电动车技术。这满足了对超级电容的需求。
  • 日本政府的目标是到2050年,日本销售的所有新车都是电动或混合动力汽车。日本将提供补贴,加速私人开发电动车电池和马达。此外,随着政府推动减少汽车温室气体排放,日本公车和卡车製造商正专注于生产电动车。例如,日野汽车推出了首款柴油电动混合动力卡车。
  • 日本电力公司正在采用智慧电錶。日本政府已将重点转向需求面管理,强调透过智慧电网和节能技术实现能源安全和弹性。日本最大的电力公司东京电力公司(TEPCO)计划在2020年安装2,900万台智慧电錶,预计2024年将安装约8,000万台,比原计画提早8年。因此,超级电容在这些领域的应用不断扩大可望推动市场发展。
  • 在日本,一座商业建筑中安装了一套4MW系统,采用大型超级电容来减少电网消耗,并在尖峰时段需求期间减轻负载。在其他应用中,备用发电机在停电期间启动以提供电力,直到切换稳定为止。

超级电容产业概况

超级电容市场竞争适中,有几个主要企业。该市场还包括已投入大量老字型大小企业。目前,少数几家大公司占据市场主导地位。这些占据了绝对市场份额的大公司正致力于扩大海外基本客群。这些公司正在利用策略合作措施来增加市场占有率和盈利。主要企业包括伊顿公司、麦克斯韦科技公司(特斯拉公司)等。目前市场参与者包括:

  • 2022 年 8 月-京瓷 AXA 推出一系列袋式超级电容,以减少电池的电流突波。这些电容器可以单独用作系统电源的备用设备,在某些情况下可以替代电池,或与一次电池或二次电池组合使用。
  • 2022 年 5 月 - CAP-XX Limited 与 Iconic Industries 成立合资企业,为各市场开发新型石墨烯,并将还原氧化石墨烯 (rGO) 商业化用于超级电容和其他能源储存设备。 CAP-XX 将代表合资企业以 CAP-XX 品牌生产和销售基于 rGO 的超级电容和能源储存设备。

其他福利:

  • Excel 格式的市场预测 (ME) 表
  • 3个月的分析师支持

目录

第一章 引言

  • 研究假设和市场定义
  • 研究范围

第二章调查方法

第三章执行摘要

第四章 市场洞察

  • 市场概览
  • 产业吸引力-波特五力分析
    • 供应商的议价能力
    • 消费者议价能力
    • 新进入者的威胁
    • 替代品的威胁
    • 竞争对手之间的竞争强度
  • COVID-19 市场影响评估

第五章市场动态

  • 市场驱动因素
    • 对可再生能源解决方案的需求不断增加
    • 环境问题导致基于超级电容的汽车产量增加
  • 市场挑战
    • 产品成本上升

第六章 技术简介

  • 超级电容与传统电介质的比较分析
  • 超级电容的类型-EDLC、伪、混合

第七章市场区隔

  • 按最终用户
    • 消费性电子产品
    • 能源和公共产业
      • 电网应用(包括微电网和UPS)
      • 风和其他
    • 工业的
    • 汽车/运输
      • 巴士和卡车
      • 铁路和路面电车
      • 48V轻度混合动力汽车
      • 微混合动力汽车和其他车辆
      • 大型车辆
  • 按地区
    • 美国
    • 欧洲
    • 中国
    • 日本
    • 韩国等亚洲国家
    • 世界其他地区

第八章竞争格局

  • 公司简介
    • 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

第九章投资分析

第十章:市场的未来

简介目录
Product Code: 50580

The Supercapacitors Market is expected to register a CAGR of 11.14% during the forecast period.

Supercapacitors - Market - IMG1

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 1,114.60 million 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.

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 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