パワーエレクトロニクスの世界市場規模・シェア・開発・成長・需要予測(~2022年):デバイス別(電力ディスクリート、電力モジュール、電力IC)・エンドユーザー別(家庭用電化製品、自動車、産業、電力・エネルギー、ICT、航空・防衛、その他)・ボルテージ別(低、中、高、極高)の産業インサイト

調査会社P&S Market Research社が発行したリサーチレポート(データ管理コード:PSM802084)
◆英語タイトル:Global Power Electronics Market Size, Share, Development, Growth and Demand Forecast to 2022 - Industry Insights by Device (Power Discrete, Power Modules, Power IC), by End-User (Consumer Electronics, Automotive, Industrial, Power & Energy, ICT, Aerospace & Defense, Others), By Voltage (Low Voltage, Medium Voltage, High Voltage, Very High Voltage)
◆発行会社/調査会社:P&S Market Research
◆商品コード:PSM802084
◆発行日:2017年3月1日
◆調査対象地域:グローバル
◆産業分野:産業未分類
◆ページ数:139
◆レポート言語:英語
◆レポート形式:PDF
◆納品方式:Eメール
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★グローバルリサーチ資料[パワーエレクトロニクスの世界市場規模・シェア・開発・成長・需要予測(~2022年):デバイス別(電力ディスクリート、電力モジュール、電力IC)・エンドユーザー別(家庭用電化製品、自動車、産業、電力・エネルギー、ICT、航空・防衛、その他)・ボルテージ別(低、中、高、極高)の産業インサイト]についてメールでお問い合わせはこちら
*** レポート概要(サマリー)***

The study reveals that the global power electronics market is likely to grow from $12.9 billion in 2015 to $20.0 billion by 2022. Power electronics is used in various industries such as automotive, power & energy, ICT, consumer electronics, and aerospace & defense; however, among these industries, the largest user of power electronics is consumer electronics industry.
Insights on market segments

As per the research findings, among the various devices, power discrete has been the largest market. The power modules segment is expected to witness fastest growth in demand during the forecast period. Among the various end-users, the global power electronics market has been generating maximum revenue through the consumer electronics segment.

Asia-Pacific continues to be the largest power electronics market

Geographically, Asia-Pacific has been the largest revenue contributor to the global power electronics market. China has been the largest market in Asia-Pacific, while the U.S. led the North American market. Germany has been the major European market, whereas U.A.E. stood as the largest market in Rest of the World.

Increasing requirement for higher power density emerges as the major market driver

Power density is a prime factor in the PE industry, particularly in high-power applications. For instance, PE devices in electric rail traction drives, wind power generators, inverter systems, and solar power generators use PE devices to increase their operational efficiency. Vendors in the market are investing in R&D to develop devices that work at higher power density levels. PE devices have several advantages, such as less driving power, simplified circuits, and optimum forward and reverse blocking capabilities, which can enable them to work in higher power densities. Furthermore, compact PE device designs are the ideal choices for usage in high power densities. Thus, the escalation in demand for higher power density in numerous high-power applications is one of the drivers for the growth of the global market.

The increased penetration of PE devices in utility applications is also driving the market growth. It is expected that by 2030, up to 80% of the electricity produced will use power electronic devices. These devices enhance the performance of electricity grid. This is complemented by the increased integration of renewable energy sources into the grid. It is expected to empower consumers in the residential, industrial, and commercial sectors.

The global need to generate electrical energy from renewable energy sources is escalating rapidly. It is projected that global energy consumption will increase by over 60% by 2030, which is expected to boost the adoption of power electronics in renewable technologies such as those for solar and wind power. These devices are used in wind turbine converters, grid converters, and inverters in solar panels to increase power efficiency and switching speed. Thus, the growing need for improved thermal capacity and power cycling capacity is also playing a substantial role, thus increasing the implementation of power electronics devices in the renewable energy sector.

One of the major challenges in the global power electronics market is the high cost of power electronic devices. The high cost of these products makes the market more price-sensitive, thereby affecting its growth. Despite such challenges, the market is expected to witness steady growth due to the presence of several emerging trends that could have a positive impact on the market during the forecast period. Thus, the combined effect of drivers and trends is expected to foster the market growth over the next few years.

Intensity of rivalry remains high in the global power electronics market

The overall intensity of rivalry in the power electronics market is high. The intensity of rivalry is high due to existence of a large number of players in the market. The medium industry growth rate creates a moderate degree of rivalry in the power electronics market. The intensity of rivalry is also high because of low differentiation among the products. The low switching cost further elevates the level of competition in the power electronics market. Some of the key players in the global market include NXP Semiconductors N.V., Infineon Technologies AG, STMicroelectronics N.V., ON Semiconductor, Vishay Intertechnology Inc., Microsemi Corporation, Toshiba Corporation, Texas Instrumentation Inc., and ABB Ltd.

Major power electronic companies introduces new products

According to the findings, Infineon Technologies, STMicroelectronics and ON Semiconductor have been the major players to introduce new power electronic products in the recent years. The other major developments in the market include merger and acquisition, and partnerships and collaborations.

*** レポート目次(コンテンツ)***

Chapter 1. Research Scope and Methodology

1.1 Market Definition

1.2 Research Scope

1.2.1 Power electronics market segmentation

1.2.2 Next generation power electronics market segmentation

1.2.3 Wafer material market segmentation

1.3 Research Methodology and Sources

Chapter 2. Executive Summary

2.1 Key Findings

2.2 Research Summary

Chapter 3. Market Outlook

3.1 Introduction

3.2 Trends in the Global Power Electronics Market

3.2.1 High investments in R&D

3.2.2 Increasing applications across various sectors

3.2.3 Increasing need for energy conservation

3.3 Opportunities in the Global Power Electronics Market

3.3.1 Adoption of power electronic devices in renewable energy industry

3.4 Factors Driving the Growth of Market and its Impact on Market Forecast

3.4.1 Increasing requirement for higher power density

3.4.2 Increased penetration of power electronic devices in utility applications

3.4.3 Impact analysis of drivers on market forecast

3.5 Factors Hindering the Growth of Market and its Impact on Market Forecast

3.5.1 High cost of power electronic devices

3.5.2 Uncertain global economic conditions

3.5.3 Poor reliability and slow cooling

3.5.4 Impact analysis of restraints on market forecast

Chapter 4. Global Power Electronics Market Size and Forecast (2012 – 2022)

4.1 Global Power Electronics Market, by Device

4.1.1 Power discrete

4.1.2 Power modules

4.1.3 Power IC

4.2 Global Power Electronics Market, by End User

4.2.1 Consumer electronics

4.2.2 Automotive

4.2.3 Industrial

4.2.4 Power & energy

4.2.5 Information and communications technology (ICT)

4.2.6 Aerospace & defense

4.2.7 Others

4.3 Global Power Electronics Market, by Voltage

4.3.1 Low voltage (400V – 1.1kV)

4.3.2 Medium voltage (1.2kV – 1.9kV)

4.3.3 High voltage (2kV – 3.3kV)

4.3.4 Very high voltage (> 3.3KV)

4.4 Global Power Electronics Market, by Region

Chapter 5. Global Power Electronics Market, by Power Devices

5.1 Global Power Discrete Market

5.1.1 Global power discrete market, by technology

5.1.2 Global power discrete market, by application

5.2 Global Power Module Market

5.2.1 Global power module market, by technology

5.2.2 Global power module market, by application

5.3 Global Power IC Market

5.3.1 Global power IC market, by technology

5.3.2 Global power IC market, by application

Chapter 6. Global Power Electronics Market, by Geography

6.1 Asia-Pacific Power Electronics Market

6.1.1 Asia-Pacific power electronics market, by country

6.2 Europe Power Electronics Market

6.2.1 Europe power electronics market, by country

6.3 North America Power Electronics Market

6.3.1 North America power electronics market, by country

6.4 Rest of the World Power Electronics Market

6.4.1 RoW power electronics market, by country

Chapter 7. Global Next Generation Power Electronics Market

7.1 Global Next Generation Power Electronics Market, by Power Device

7.1.1 Global SiC power device market

7.1.1.1 Global SiC power device market, by voltage

7.1.1.2 Global SiC power device market, by application

7.1.2 Global GaN power device market

7.1.2.1 Global GaN power device market, by voltage

7.1.2.2 Global GaN power device market, by application

7.2 Global wafer materials market analysis

Chapter 8. Competitive Positioning Analysis

8.1 Porter’s Five Forces of Competitive Position Analysis

8.1.1 Bargaining power of buyers

8.1.2 Bargaining power of suppliers

8.1.3 Threat of new entrants

8.1.4 Intensity of rivalry

8.1.5 Threat of substitutes

8.2 Competitive Positioning in the Global Power Electronics Market, by Device

Chapter 9. Company Profiles and Strategic Developments

9.1 Key Company Profiles

9.1.1 NXP Semiconductors N.V.

9.1.1.1 Business overview

9.1.1.2 Product and service offerings

9.1.2 Infineon Technologies AG

9.1.2.1 Business overview

9.1.2.2 Product and service offerings

9.1.3 STMicroelectronics N.V.

9.1.3.1 Business overview

9.1.3.2 Product and service offerings

9.1.4 ON Semiconductor

9.1.4.1 Business overview

9.1.4.2 Product and service offerings

9.1.5 Vishay Intertechnology Inc.

9.1.5.1 Business overview

9.1.5.2 Product and service offerings

9.1.6 Microsemi Corporation

9.1.6.1 Business overview

9.1.6.2 Product and service offerings

9.1.7 Toshiba Corporation

9.1.7.1 Business overview

9.1.7.2 Product and service offerings

9.1.8 Texas Instruments Inc.

9.1.8.1 Business overview

9.1.8.2 Product and service offerings

9.1.9 ABB Ltd.

9.1.9.1 Business overview

9.1.9.2 Product and service offerings

9.2 Strategic Developments in the Power Electronics Market

9.2.1 Product Launch

9.2.2 Merger and acquisition

9.2.3 Partnership

Chapter 10. Appendix

10.1 List of Abbreviations

LIST OF TABLES

TABLE 1: SPECIFIC PRIMARY AND SECONDARY SOURCES USED FOR THIS PUBLICATION

TABLE 2: GLOBAL TRADITIONAL POWER ELECTRONICS MARKET SNAPSHOT

TABLE 3: GLOBAL NEXT GENERATION POWER ELECTRONICS MARKET SNAPSHOT

TABLE 4: DRIVERS FOR THE MARKET: IMPACT ANALYSIS

TABLE 5: RESTRAINTS FOR THE MARKET: IMPACT ANALYSIS

TABLE 6: GLOBAL POWER ELECTRONICS MARKET, BY DEVICE, $M (2012 – 2015)

TABLE 7: GLOBAL POWER ELECTRONICS MARKET, BY DEVICE, $M (2016 – 2022)

TABLE 8: GLOBAL POWER ELECTRONICS MARKET, BY END-USER, $M (2012 – 2015)

TABLE 9: GLOBAL POWER ELECTRONICS MARKET, BY END-USER, $M (2016 – 2022)

TABLE 10: GLOBAL POWER ELECTRONICS MARKET, BY VOLTAGE, $M (2012 – 2015)

TABLE 11: GLOBAL POWER ELECTRONICS MARKET, BY VOLTAGE, $M (2016 – 2022)

TABLE 12: GLOBAL POWER ELECTRONICS MARKET, BY REGION $M (2012 – 2015)

TABLE 13: GLOBAL POWER ELECTRONICS MARKET, BY REGION, $M (2016 – 2022)

TABLE 14: GLOBAL POWER DISCRETE MARKET, BY TECHNOLOGY, $M (2012 – 2015)

TABLE 15: GLOBAL POWER DISCRETE MARKET, BY TECHNOLOGY, $M (2016 – 2022)

TABLE 16: GLOBAL POWER DISCRETE MARKET, BY APPLICATION, $M (2012 – 2015)

TABLE 17: GLOBAL POWER DISCRETE MARKET, BY APPLICATION, $M (2016 – 2022)

TABLE 18: GLOBAL POWER MODULE MARKET, BY TECHNOLOGY, $M (2012 – 2015)

TABLE 19: GLOBAL POWER MODULE MARKET, BY TECHNOLOGY, $M (2016 – 2022)

TABLE 20: GLOBAL POWER MODULE MARKET, BY APPLICATION, $M (2012 – 2015)

TABLE 21: GLOBAL POWER MODULE MARKET, BY APPLICATION, $M (2016 – 2022)

TABLE 22: GLOBAL POWER IC MARKET, BY TECHNOLOGY, $M (2012 – 2015)

TABLE 23: GLOBAL POWER IC MARKET, BY TECHNOLOGY, $M (2016 – 2022)

TABLE 24: GLOBAL POWER IC MARKET, BY APPLICATION, $M (2012 – 2015)

TABLE 25: GLOBAL POWER IC MARKET, BY APPLICATION, $M (2016 – 2022)

TABLE 26: ASIA-PACIFIC POWER ELECTRONICS MARKET, BY COUNTRY, $M (2012 – 2015)

TABLE 27: ASIA PACIFIC POWER ELECTRONICS MARKET, BY COUNTRY, $M (2016 – 2022)

TABLE 28: EUROPE POWER ELECTRONICS MARKET, BY COUNTRY, $M (2012 – 2015)

TABLE 29: EUROPE POWER ELECTRONICS MARKET, BY COUNTRY, $M (2016 – 2022)

TABLE 30: NORTH AMERICA POWER ELECTRONICS MARKET, BY COUNTRY, $M (2012 – 2015)

TABLE 31: NORTH AMERICA POWER ELECTRONICS MARKET, BY COUNTRY, $M (2016 – 2022)

TABLE 32: REST OF THE WORLD POWER ELECTRONICS MARKET, BY COUNTRY, $M (2012 – 2015)

TABLE 33: REST OF THE WORLD POWER ELECTRONICS MARKET, BY COUNTRY, $M (2016 – 2022)

TABLE 34: GLOBAL NEXT GENERATION POWER ELECTRONICS MARKET, BY POWER DEVICE, $M (2012 – 2015)

TABLE 35: GLOBAL NEXT GENERATION POWER ELECTRONICS MARKET, BY POWER DEVICE, $M (2016 – 2022)

TABLE 36: GLOBAL SIC POWER DEVICE MARKET, BY VOLTAGE, $M (2012 – 2015)

TABLE 37: GLOBAL SIC POWER DEVICE MARKET, BY VOLTAGE, $M (2016 – 2022)

TABLE 38: GLOBAL SIC POWER DEVICE MARKET, BY APPLICATION, $M (2012 – 2015)

TABLE 39: GLOBAL SIC POWER DEVICE MARKET, BY APPLICATION, $M (2016 – 2022)

TABLE 40: GLOBAL GAN POWER DEVICE MARKET, BY VOLTAGE, $M (2012 – 2015)

TABLE 41: GLOBAL GAN POWER DEVICE MARKET, BY VOLTAGE, $M (2016 – 2022)

TABLE 42: GLOBAL GAN POWER DEVICE MARKET, BY APPLICATION, $M (2012 – 2015)

TABLE 43: GLOBAL GAN POWER DEVICE MARKET, BY APPLICATION, $M (2016 – 2022)

TABLE 44: GLOBAL WAFER MATERIALS MARKET, BY TYPE, $M (2012 – 2015)

TABLE 45: GLOBAL WAFER MATERIALS MARKET, BY TYPE, $M (2016 – 2022)

TABLE 46: NXP SEMICONDUCTORS N.V. – KEY FACTS

TABLE 47: INFINEON TECHNOLOGIES AG – KEY FACTS

TABLE 48: STMICROELECTRONICS N.V. – KEY FACTS

TABLE 49: ON SEMICONDUCTOR – KEY FACTS

TABLE 50: VISHAY INTERTECHNOLOGY INC. – KEY FACTS

TABLE 51: MICROSEMI CORPORATION – KEY FACTS

TABLE 52: TOSHIBA CORPORATION – KEY FACTS

TABLE 53: TEXAS INSTRUMENTS INC. – KEY FACTS

TABLE 54: ABB LTD. – KEY FACTS

LIST OF FIGURES

FIG 1: RESEARCH SCOPE FOR GLOBAL POWER ELECTRONICS MARKET

FIG 2: RESEARCH SCOPE FOR GLOBAL NEXT GENERATION POWER ELECTRONICS MARKET

FIG 3: RESEARCH SCOPE FOR WAFER MATERIAL MARKET

FIG 4: RESEARCH METHODOLOGY FOR GLOBAL POWER ELECTRONICS MARKET

FIG 5: GLOBAL POWER ELECTRONICS MARKET, BY DEVICE, $M (2012 – 2022)

FIG 6: GLOBAL POWER ELECTRONICS MARKET, BY END-USER, $M (2012 – 2022)

FIG 7: GLOBAL POWER ELECTRONICS MARKET, BY VOLTAGE, $M (2012 – 2022)

FIG 8: GLOBAL POWER ELECTRONICS MARKET, BY REGION, $M (2012 – 2022)

FIG 9: GLOBAL POWER DISCRETE MARKET, $M (2012 – 2022)

FIG 10: GLOBAL POWER MODULE MARKET, $M (2012 – 2022)

FIG 11: GLOBAL POWER IC MARKET, $M (2012 – 2022)

FIG 12: WORLDWIDE MAJOR MARKETS FOR POWER ELECTRONICS

FIG 13: ASIA-PACIFIC POWER ELECTRONICS MARKET, $M (2012 – 2022)

FIG 14: EUROPE POWER ELECTRONICS MARKET, $M (2012 – 2022)

FIG 15: NORTH AMERICA POWER ELECTRONICS MARKET, $M (2012 – 2022)

FIG 16: REST OF THE WORLD POWER ELECTRONICS MARKET, $M (2012 – 2022)

FIG 17: NEXT GENERATION POWER ELECTRONICS MARKET, $M (2012 – 2022)

FIG 18: GLOBAL SIC POWER DEVICE MARKET, $M (2012 – 2022)

FIG 19: GLOBAL GAN POWER DEVICE MARKET, $M (2012 – 2022)

FIG 20: GROWTH OF WAFER MATERIALS IN GLOBAL NEXT GENERATION POWER ELECTRONICS MARKET (2012 – 2022)

FIG 21: PORTER’S FIVE FORCES OF COMPETITIVE POSITION ANALYSIS

FIG 22: GLOBAL POWER ELETRONICS MARKET SPLIT, BY DEVICE (2015 AND 2022)

FIG 23: NXP SEMICONDUCTOR N.V. REVENUE SPLIT, BY SEGMENT (2014 & 2015)

FIG 24: NXP SEMICONDUCTOR N.V. EMPLOYEES SPLIT, BY REGION (2014 & 2015)

FIG 25: NXP SEMICONDUCTOR N.V. REVENUE SPLIT, BY GEOGRAPHY (2014 & 2015)

FIG 26: INFINEON TECHNOLOGIES AG REVENUE SPLIT, BY SEGMENT (2014 & 2015)

FIG 27: INFINEON TECHNOLOGIES AG REVENUE SPLIT, BY GEOGRAPHY (2014 & 2015)

FIG 28: INFINEON TECHNOLOGIES AG EMPLOYEES SPLIT, BY GEOGRAPHY (2014 & 2015)

FIG 29: STMICROELECTRONICS N.V. REVENUE SPLIT, BY SEGMENT (2014 & 2015)

FIG 30: STMICROELECTRONICS N.V. REVENUE SPLIT, BY GEOGRAPHY (2014 & 2015)

FIG 31: STMICROELECTRONICS N.V. EMPLOYEES SPLIT, BY GEOGRAPHY (2014 & 2015)

FIG 32: ON SEMICONDUCTOR REVENUE SPLIT, BY SEGMENT (2014 & 2015)

FIG 33: ON SEMICONDUCTOR REVENUE SPLIT, BY GEOGRAPHY (2014 & 2015)

FIG 34: VISHAY INTERTECHNOLOGY REVENUE SPLIT, BY SEGMENT (2015)

FIG 35: VISHAY INTERTECHNOLOGY REVENUE SPLIT, BY GEOGRAPHY (2015)

FIG 36: VISHAY INTERTECHNOLOGY REVENUE SPLIT, BY END-MARKET (2015)

FIG 37: R&D EXPENDITURE OF MICROSEMI CORPORATION, $M (2013 – 2015)

FIG 38: TOSHIBA CORPORATION REVENUE SPLIT, BY SEGMENT (2015)

FIG 39: TEXAS INSTRUMENTS INC. REVENUE SPLIT, BY SEGMENT (2015 & 2016)

FIG 40: ABB LTD REVENUE SPLIT, BY SEGMENT (2015)



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※当サイト上のレポートデータは弊社H&Iグローバルリサーチ運営のMarketReport.jpサイトと連動しています。
※当市場調査資料(PSM802084 )"パワーエレクトロニクスの世界市場規模・シェア・開発・成長・需要予測(~2022年):デバイス別(電力ディスクリート、電力モジュール、電力IC)・エンドユーザー別(家庭用電化製品、自動車、産業、電力・エネルギー、ICT、航空・防衛、その他)・ボルテージ別(低、中、高、極高)の産業インサイト" (英文:Global Power Electronics Market Size, Share, Development, Growth and Demand Forecast to 2022 - Industry Insights by Device (Power Discrete, Power Modules, Power IC), by End-User (Consumer Electronics, Automotive, Industrial, Power & Energy, ICT, Aerospace & Defense, Others), By Voltage (Low Voltage, Medium Voltage, High Voltage, Very High Voltage))はP&S Market Research社が調査・発行しており、H&Iグローバルリサーチが販売します。


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