Marktanalyse - Power Electronics Market by Material (Silicon, SiC, GaN, Sapphire), Device Type (Discrete, Module, and IC), Vertical (ICT, Consumer Electronics, Power, Industrial, Automotive, and Aerospace and Defense), and Geography - Global Forecast to 2022

MarketsandMarkets
02.2017
171 Seiten

 
Typ:
Marktanalyse
Verfüg­barkeit:
verfügbar
Regionen/­Länder:
  • Europa
  • Asien / Pazifik
  • Mittlerer Osten / Afrika
  • Nordamerika / USA
  • Australien
  • Mittel- / Südamerika
Sprache:
Englisch

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The overall power electronics market is expected to grow at a CAGR of 2.4%”
The power electronics market is expected to reach USD 41.73 billion by 2022, growing at a CAGR of 2.4% between 2016 and 2022. Enhancement of power infrastructure and the growing focus toward using renewable power sources is one of the major factors fueling the growth of this market. In addition, increasing demand for energy-efficient battery-powered portable devices and rising trend of energy harvesting technologies are expected to generate demand for power electronics. The key restraining factor for the growth of the power electronics market are the complex design and integration process for advanced technology devices and slow adoption of new technologies.

'The power electronics market for gallium nitride (GaN) is expected to grow at a highest rate during the forecast period”
The market for gallium nitride (GaN) is expected to grow at the highest rate between 2016 and 2022. GaN has various features such as a wider band gap, high break-down voltage, larger critical electric field, and higher thermal conductivity. These features assist in providing higher voltages and high switching frequencies, handling higher power density, and offering enhanced power efficiency than the pure silicon (Si), Silicon Carbide (SiC), and sapphire substrate wafer technology-based devices. Hence, the power electronics market for GaN is expected to grow at a faster rate than the other materials.

'Power IC is expected to hold the largest share during the forecast period”
The power integrated circuits (IC) is expected to hold the largest share of the power electronics market during 2016—2022. Power ICs are suitable for high-frequency range, high power amplification, and microwave radiation applications. The large market share of IC based on device type segment in power electronics market can be attributed to the increasing demand of power ICs from the RF industry, specifically in the case of monolithic microwave integrated circuits MMICs for high-frequency power amplification.
'APAC to hold the largest market and also grow at the highest rate in the power electronics market”
Asia-Pacific (APAC) is expected to hold the largest share of the power electronics market during 2016—2022. This region is home to many established power electronics manufacturing companies such as Renesas Electronics Corp. (Japan) and Mitsubishi Electric Corp. (Japan) among others. The power electronics market in APAC is expected to grow at a high rate during the forecast period. The APAC region has emerged as a strong manufacturing hub with leading manufacturers of consumer goods increasing their manufacturing activities in this region. Cost advantages and initiatives by different countries in this region are expected to boost the domestic manufacturing and provide further impetus for the growth of the power electronics market.

In the process of determining and verifying the market size for several segments and subsegments gathered through secondary research, extensive primary interviews have been conducted with key people in the power electronics market. The break-up of primary participants for the report has been shown below:
• By Company Type: Tier 1 — 20 %, Tier 2 — 55%, and Tier 3 — 25%
• By Designation: C-Level Executives — 50%, Directors — 25%, and Others — 25%
• By Region: Americas — 60%, Europe — 20%, APAC — 10%, and RoW — 10%
The report also profiles the key players in the power electronics market and analyzes their market ranking. The prominent players profiled in this report are Infineon Technologies AG (Germany), Texas Instruments, Inc. (U.S.), ON Semiconductor Corp. (U.S.), STMicroelectronics N.V. (Switzerland), Maxim Integrated Products, Inc. (U.S.), Fuji Electric Co., Ltd. (Japan), NXP Semiconductors N.V. (The Netherland), Qualcomm, Inc. (U.S), Vishay Intertechnology, Inc. (U.S.), Renesas Electronics Corp. (Japan), and Mitsubishi Electric Corp. (Japan).
Research Coverage:
This research report categorizes the overall power electronics market on the basis of material, device type, vertical, and geography. Moreover, the report provides the Porter’s five forces analysis, along with the description of each of its forces and their respective impact on the power electronics market. Furthermore, the report discusses the major drivers, restraints, challenges, and opportunities pertaining to the market; value chain analysis; and market ranking analysis.
Reasons to Buy the Report
The report would help leaders/new entrants in the power electronics market in the following ways:
1. This report segments the power electronics market comprehensively and provides the closest market size estimation for subsegments across different regions.
2. The report would help stakeholders understand the pulse of the market and provide them with the information on key drivers, restraints, challenges, and opportunities for market growth.
3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The competitive landscape section includes competitor ecosystem, new product launches, mergers, acquisitions, and collaborations.
TABLE OF CONTENTS



1 INTRODUCTION 15

1.1 OBJECTIVES OF THE STUDY 15

1.2 MARKET DEFINITION 15

1.3 STUDY SCOPE 16

1.3.1 MARKETS COVERED 16

1.3.2 GEOGRAPHIC SCOPE 17

1.3.3 YEARS CONSIDERED FOR THE STUDY 17

1.4 CURRENCY 18

1.5 MARKET STAKEHOLDERS 18

2 RESEARCH METHODOLOGY 19

2.1 RESEARCH DATA 19

2.1.1 SECONDARY DATA 20

2.1.1.1 List of major secondary sources 20

2.1.1.2 Key data from secondary sources 21

2.1.2 PRIMARY DATA 21

2.1.2.1 Primary interviews with experts 22

2.1.2.2 Key data from primary sources 22

2.1.2.3 Key industry insights 23

2.1.2.4 Breakdown of primaries 23

2.1.3 SECONDARY AND PRIMARY RESEARCH 24

2.2 MARKET SIZE ESTIMATION 25

2.2.1 BOTTOM-UP APPROACH 26

2.2.1.1 Approach for capturing the market share by bottom-up analysis (demand side) 26

2.2.2 TOP-DOWN APPROACH 27

2.2.2.1 Approach for capturing the market share by top-down analysis (supply side) 27

2.2.3 MARKET RANKING ESTIMATION 28

2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 28

2.4 RESEARCH ASSUMPTIONS 29

3 EXECUTIVE SUMMARY 30

4 PREMIUM INSIGHTS 35

4.1 ATTRACTIVE OPPORTUNITIES IN THE OVERALL POWER ELECTRONICS MARKET 35

4.2 POWER ELECTRONICS MARKET, BY MATERIAL 36

4.3 POWER ELECTRONICS MARKET, BY DEVICE TYPE AND VERTICAL 36

4.4 COUNTRY-WISE ANALYSIS OF THE POWER ELECTRONICS MARKET 37

4.5 POWER ELECTRONICS MARKET SIZE, BY REGION 38

5 MARKET OVERVIEW 39

5.1 INTRODUCTION 40

5.2 MARKET SEGMENTATION 40

5.2.1 POWER ELECTRONICS MARKET, BY MATERIAL 40

5.2.2 POWER ELECTRONICS MARKET, BY DEVICE TYPE 40

5.2.3 POWER ELECTRONICS MARKET, BY VERTICAL 41

5.2.4 BY GEOGRAPHY 41

5.3 MARKET DYNAMICS 42

5.3.1 DRIVERS 43

5.3.1.1 Increasing demand for energy-efficient battery-powered portable devices 43

5.3.1.2 Rising trend of energy harvesting technologies 43

5.3.1.3 Enhancement of power infrastructure and the growing focus toward using renewable power sources 44

5.3.2 RESTRAINTS 45

5.3.2.1 Complex design and integration process for advanced technology devices 45

5.3.2.2 Slow adoption of new technologies 45

5.3.3 OPPORTUNITIES 45

5.3.3.1 Growing demand for hybrid and electric vehicles 45

5.3.3.2 Growing demand for deployment of low carbon emission power system 47

5.3.3.3 Deployment of smart grid 47

5.3.4 CHALLENGES 48

5.3.4.1 Demand for compact devices with high efficiency 48

6 INDUSTRY TRENDS 49

6.1 INTRODUCTION 49

6.2 VALUE CHAIN ANALYSIS 49

6.3 PORTER’S FIVE FORCES ANALYSIS 51

6.3.1 THREAT OF NEW ENTRANTS 53

6.3.2 THREAT OF SUBSTITUTES 54

6.3.3 BARGAINING POWER OF SUPPLIERS 55

6.3.4 BARGAINING POWER OF BUYERS 56

6.3.5 COMPETITIVE RIVALRY 57

7 POWER ELECTRONICS MARKET, BY MATERIAL 58

7.1 INTRODUCTION 59

7.2 SILICON (SI) 60

7.3 SILICON CARBIDE (SIC) 61

7.4 GALLIUM NITRIDE (GAN) 62

7.5 SAPPHIRE 63

7.6 OTHERS 64

8 POWER ELECTRONICS MARKET, BY DEVICE TYPE 65

8.1 INTRODUCTION 66

8.2 DISCRETE 67

8.2.1 DIODE 68

8.2.1.1 PIN diode 68

8.2.1.2 Zener diode 68

8.2.1.3 Schottky diode 68

8.2.1.4 Light emitting diode (LED) 68

8.2.2 TRANSISTOR 69

8.2.2.1 Bipolar junction transistor (BJT) 69

8.2.2.2 Integrated gate bipolar junction transistor (IGBT) 69

8.2.2.3 Field effect transistor (FET) 70

8.2.3 THYRISTOR 70

8.2.3.1 Gate turn off (GTO) thyristor 71

8.2.3.2 Integrated gate commutated thyristor (IGCT) 71

8.2.3.3 MOS-controlled thyristor (MCT) 71

8.3 MODULE 74

8.3.1 INTELLIGENT POWER MODULE (IPM) 75

8.3.1.1 Hybrid 75

8.3.1.2 Monolithic 75

8.3.2 POWER INTEGRATED MODULE (PIM) 76

8.3.2.1 MOSFET modules 76

8.3.2.2 IGBT modules 77

8.4 IC 79

8.4.1 POWER MANAGEMENT IC (PMIC) 80

8.4.2 APPLICATION SPECIFIC IC (ASIC) 81

9 POWER ELECTRONICS MARKET, BY VERTICAL 84

9.1 INTRODUCTION 85

9.2 ICT 86

9.2.1 SWITCHING SYSTEM 88

9.2.2 WIRELESS 88

9.2.3 RADAR 88

9.2.4 RF 88

9.2.5 OTHERS 89

9.3 CONSUMER ELECTRONICS 89

9.3.1 INVERTER 91

9.3.2 LED 91

9.3.3 SMPS 91

9.3.4 OTHERS 91

9.4 POWER 92

9.4.1 UPS 93

9.4.2 CONVERTER 93

9.4.3 OTHERS 94

9.5 INDUSTRIAL 94

9.5.1 POINT-OF-LOAD CONVERSION 95

9.5.2 POWER MANAGEMENT 96

9.5.3 RENEWABLE ENERGY SYSTEM 96

9.5.4 HVAC 97

9.5.5 RAIL TRACTION 97

9.5.6 MOTOR DRIVE 97

9.5.7 SMART GRID 98

9.5.8 OTHER 98

9.6 AUTOMOTIVE 98

9.6.1 VEHICULAR POWER CONVERTER SYSTEMS 100

9.6.2 ELECTRIC VEHICLE CHARGING 100

9.6.3 OTHERS 100

9.7 AEROSPACE AND DEFENSE 100

9.7.1 MICROWAVE RADIATION 102

9.7.2 COMBAT VEHICLE 102

9.7.3 OTHERS 102

9.8 OTHERS 103

10 POWER ELECTRONICS MARKET, BY GEOGRAPHY 104

10.1 INTRODUCTION 105

10.2 AMERICAS 106

10.2.1 U.S. 108

10.2.2 CANADA 109

10.2.3 LATIN AMERICA 110

10.3 EUROPE 111

10.3.1 FRANCE 113

10.3.2 GERMANY 114

10.3.3 U.K. 114

10.3.4 REST OF EUROPE 115

10.4 ASIA-PACIFIC 116

10.4.1 CHINA 118

10.4.2 INDIA 119

10.4.3 JAPAN 120

10.4.4 SOUTH KOREA 121

10.4.5 REST OF APAC 121

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10.5 ROW 122

10.5.1 MIDDLE EAST 124

10.5.2 AFRICA 124

11 COMPETITIVE LANDSCAPE 125

11.1 OVERVIEW 125

11.2 MARKET SHARE ANALYSIS 126

11.3 COMPETITIVE SCENARIO 127

11.3.1 NEW PRODUCT LAUNCHES 128

11.3.2 MERGERS, ACQUISITIONS, AND COLLABORATION 129

12 COMPANY PROFILES 130

(Company at a Glance, Recent Financials, Products & Services, Strategies & Insights, & Recent Developments)*

12.1 INTRODUCTION 130

12.2 INFINEON TECHNOLOGIES AG 131

12.3 TEXAS INSTRUMENTS, INC. 135

12.4 ON SEMICONDUCTOR CORP. 138

12.5 STMICROELECTRONICS N.V. 142

12.6 MAXIM INTEGRATED PRODUCTS, INC. 145

12.7 FUJI ELECTRIC CO., LTD. 147

12.8 NXP SEMICONDUCTOR N.V. 149

12.9 QUALCOMM, INC. 152

12.10 VISHAY INTERTECHNOLOGY, INC. 154

12.11 RENESAS ELECTRONICS CORP. 157

12.12 MITSUBISHI ELECTRIC CORP. 159

*Details on company at a glance, recent financials, products & services, strategies & insights, & recent developments might not be captured in case of unlisted companies.

13 APPENDIX 161

13.1 INSIGHTS OF INDUSTRY EXPERTS 161

13.2 DISCUSSION GUIDE 162

13.3 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 164

13.4 INTRODUCING RT: REAL-TIME MARKET INTELLIGENCE 166

13.5 AVAILABLE CUSTOMIZATIONS 168

13.6 RELATED REPORTS 168

13.7 AUTHOR DETAILS 169





LIST OF TABLES



TABLE 1 GOVERNMENT INCENTIVES FOR ELECTRIC VEHICLES IN VARIOUS COUNTRIES 46

TABLE 2 PORTER’S FIVE FORCES ANALYSIS WITH THEIR WEIGHTAGE IMPACT 52

TABLE 3 POWER ELECTRONICS MARKET, BY MATERIAL, 2013—2022 (USD BILLION) 59

TABLE 4 POWER ELECTRONICS MARKET, BY DEVICE TYPE, 2013—2022 (USD BILLION) 66

TABLE 5 POWER ELECTRONICS MARKET FOR DISCRETE, BY DEVICE TYPE,

2013—2022 (USD BILLION) 67

TABLE 6 POWER ELECTRONICS MARKET FOR DISCRETE, BY REGION,

2013—2022 (USD BILLION) 72

TABLE 7 POWER ELECTRONICS MARKET IN AMERICAS FOR DISCRETE, BY COUNTRY,

2013—2022 (USD BILLION) 72

TABLE 8 POWER ELECTRONICS MARKET FOR DISCRETE IN EUROPE, BY COUNTRY,

2013—2022 (USD BILLION) 72

TABLE 9 POWER ELECTRONICS MARKET FOR DISCRETE IN APAC, BY COUNTRY,

2013—2022 (USD BILLION) 73

TABLE 10 POWER ELECTRONICS MARKET FOR DISCRETE IN ROW, BY COUNTRY,

2013—2022 (USD BILLION) 73

TABLE 11 POWER ELECTRONIC MARKET FOR MODULE, BY DEVICE TYPE,

2013—2022 (USD BILLION) 74

TABLE 12 POWER ELECTRONICS MARKET FOR MODULE, BY REGION,

2013—2022 (USD BILLION) 77

TABLE 13 POWER ELECTRONICS MARKET FOR MODULE IN AMERICAS, BY COUNTRY,

2013—2022 (USD BILLION) 78

TABLE 14 POWER ELECTRONICS MARKET FOR MODULE IN EUROPE, BY COUNTRY,

2013—2022 (USD BILLION) 78

TABLE 15 POWER ELECTRONICS MARKET FOR MODULE IN APAC, BY COUNTRY,

2013—2022 (USD BILLION) 78

TABLE 16 POWER ELECTRONICS MARKET FOR MODULE IN ROW, BY COUNTRY,

2013—2022 (USD BILLION) 79

TABLE 17 POWER ELECTRONIC MARKET FOR IC, BY DEVICE TYPE, 2013—2022 (USD BILLION) 80

TABLE 18 POWER ELECTRONICS MARKET FOR IC, BY REGION, 2013—2022 (USD BILLION) 81

TABLE 19 POWER ELECTRONICS MARKET FOR IC IN AMERICAS, BY COUNTRY,

2013—2022 (USD BILLION) 81

TABLE 20 POWER ELECTRONICS MARKET FOR IC IN EUROPE, BY COUNTRY,

2013—2022 (USD BILLION) 82

TABLE 21 POWER ELECTRONICS MARKET FOR IC IN APAC, BY COUNTRY,

2013—2022 (USD BILLION) 82

TABLE 22 POWER ELECTRONICS MARKET FOR IC IN ROW, BY COUNTRY,

2013—2022 (USD BILLION) 83

TABLE 23 POWER ELECTRONICS MARKET, BY VERTICAL, 2013—2022 (USD BILLION) 85

TABLE 24 POWER ELECTRONICS MARKET FOR ICT, BY APPLICATION,

2013—2022 (USD BILLION) 86

TABLE 25 POWER ELECTRONICS MARKET FOR ICT, BY REGION, 2013—2022 (USD BILLION) 87

TABLE 26 POWER ELECTRONICS MARKET FOR CONSUMER ELECTRONICS, BY APPLICATION, 2013—2022 (USD BILLION) 89

TABLE 27 POWER ELECTRONICS MARKET FOR CONSUMER ELECTRONICS, BY REGION,

2013—2022 (USD BILLION) 90

TABLE 28 POWER ELECTRONICS MARKET FOR POWER, BY APPLICATION,

2013—2022 (USD BILLION) 92

TABLE 29 POWER ELECTRONICS MARKET FOR POWER, BY REGION,

2013—2022 (USD BILLION) 93

TABLE 30 POWER ELECTRONICS MARKET FOR INDUSTRIAL, BY APPLICATION,

2013—2022 (USD BILLION) 94

TABLE 31 POWER ELECTRONICS MARKET FOR INDUSTRIAL, BY REGION,

2013—2022 (USD BILLION) 95

TABLE 32 POWER ELECTRONICS MARKET FOR AUTOMOTIVE, BY APPLICATION,

2013—2022 (USD BILLION) 98

TABLE 33 POWER ELECTRONICS MARKET FOR AUTOMOTIVE, BY REGION,

2013—2022 (USD BILLION) 99

TABLE 34 POWER ELECTRONICS MARKET FOR AEROSPACE AND DEFENSE, BY APPLICATION, 2013—2022 (USD BILLION) 100

TABLE 35 POWER ELECTRONICS MARKET FOR AEROSPACE AND DEFENSE, BY REGION,

2013—2022 (USD BILLION) 101

TABLE 36 POWER ELECTRONICS MARKET FOR OTHERS, BY REGION,

2013—2022 (USD BILLION) 103

TABLE 37 POWER ELECTRONICS MARKET, BY REGION, 2013—2022 (USD BILLION) 105

TABLE 38 POWER ELECTRONICS MARKET IN AMERICAS, BY COUNTRY,

2013—2022 (USD BILLION) 107

TABLE 39 POWER ELECTRONICS MARKET IN AMERICAS, BY DEVICE TYPE,

2013—2022 (USD BILLION) 108

TABLE 40 POWER ELECTRONICS MARKET IN AMERICAS, BY VERTICAL,

2013—2022 (USD BILLION) 108

TABLE 41 POWER ELECTRONICS MARKET IN U.S., BY DEVICE TYPE, 2013—2022 (USD BILLION) 109

TABLE 42 POWER ELECTRONICS MARKET IN CANADA, BY DEVICE TYPE,

2013—2022(USD BILLION) 110

TABLE 43 POWER ELECTRONICS MARKET IN LATIN AMERICA, BY DEVICE TYPE,

2013—2022 (USD BILLION) 110

TABLE 44 POWER ELECTRONICS MARKET IN EUROPE, BY COUNTRY,

2013—2022 (USD BILLION) 112

TABLE 45 POWER ELECTRONICS MARKET IN EUROPE, BY DEVICE TYPE,

2013—2022 (USD BILLION) 112

TABLE 46 POWER ELECTRONICS MARKET IN EUROPE, BY VERTICAL,

2013—2022 (USD BILLION) 112

TABLE 47 POWER ELECTRONICS MARKET IN FRANCE, BY DEVICE TYPE,

2013—2022 (USD BILLION) 113

TABLE 48 POWER ELECTRONICS MARKET IN GERMANY, BY DEVICE TYPE,

2013—2022 (USD BILLION) 114

TABLE 49 POWER ELECTRONICS MARKET IN U.K., BY DEVICE TYPE, 2013—2022 (USD BILLION) 115

TABLE 50 POWER ELECTRONICS MARKET IN REST OF EUROPE, BY DEVICE TYPE,

2013—2022 (USD BILLION) 116

TABLE 51 POWER ELECTRONICS MARKET IN APAC, BY COUNTRY, 2013—2022 (USD BILLION) 117

TABLE 52 POWER ELECTRONICS MARKET FOR APAC, BY DEVICE TYPE,

2013—2022 (USD BILLION) 118

TABLE 53 POWER ELECTRONICS MARKET IN APAC, BY VERTICAL, 2013—2022 (USD BILLION) 118

TABLE 54 POWER ELECTRONICS MARKET IN CHINA, BY DEVICE TYPE,

2013—2022 (USD BILLION) 119

TABLE 55 POWER ELECTRONICS MARKET IN INDIA, BY DEVICE TYPE,

2013—2022 (USD BILLION) 120

TABLE 56 POWER ELECTRONICS MARKET IN JAPAN, BY DEVICE TYPE,

2013—2022 (USD BILLION) 120

TABLE 57 POWER ELECTRONICS MARKET IN SOUTH KOREA, BY DEVICE TYPE,

2013—2022 (USD BILLION) 121

TABLE 58 POWER ELECTRONICS MARKET IN REST OF APAC, BY DEVICE TYPE,

2013—2022 (USD BILLION) 121

TABLE 59 POWER ELECTRONICS MARKET IN ROW, BY COUNTRY, 2013—2022 (USD BILLION) 123

TABLE 60 POWER ELECTRONICS MARKET IN ROW, BY DEVICE TYPE,

2013—2022 (USD BILLION) 123

TABLE 61 POWER ELECTRONICS MARKET IN ROW, BY VERTICAL, 2013—2022 (USD BILLION) 123

TABLE 62 POWER ELECTRONICS MARKET IN MIDDLE EAST, BY DEVICE TYPE,

2013—2022 (USD BILLION) 124

TABLE 63 POWER ELECTRONICS MARKET IN AFRICA, BY DEVICE TYPE,

2013—2022 (USD BILLION) 124

TABLE 64 10 MOST RECENT NEW PRODUCT LAUNCHES IN THE POWER ELECTRONICS MARKET 128

TABLE 65 5 MOST RECENT MERGERS, ACQUISITIONS, AND COLLABORATION IN THE POWER ELECTRONICS MARKET 129





LIST OF FIGURES



FIGURE 1 POWER ELECTRONICS MARKET: RESEARCH DESIGN 19

FIGURE 2 PROCESS FLOW 25

FIGURE 3 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 26

FIGURE 4 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 27

FIGURE 5 MARKET BREAKDOWN & DATA TRIANGULATION 28

FIGURE 6 ASSUMPTIONS OF THE RESEARCH STUDY 29

FIGURE 7 POWER IC WOULD BE THE MAJORLY USED DEVICE TYPE IN THE POWER ELECTRONICS MARKET BETWEEN 2016 AND 2022 31

FIGURE 8 GALLIUM NITRIDE (GAN) IN POWER ELECTRONICS MARKET EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022 32

FIGURE 9 AUTOMOTIVE AND ICT EXPECTED TO BE THE FASTEST-GROWING APPLICATIONS BETWEEN 2016 AND 2022 33

FIGURE 10 APAC EXPECTED TO BE THE FASTEST-GROWING REGION IN THE POWER ELECTRONICS MARKET BETWEEN 2016 AND 2022 34

FIGURE 11 INCREASING DEMAND FOR HYBRID AND ELECTRIC VEHICLES EXPECTED TO INCREASE THE DEMAND FOR POWER ELECTRONICS 35

FIGURE 12 SILICON (SI) TO LEAD THE POWER ELECTRONICS MARKET BETWEEN

2016 AND 2022 36

FIGURE 13 IC DEVICE TYPE AND POWER VERTICAL HAD A HIGHER DEMAND IN 2016 36

FIGURE 14 JAPAN HELD THE LARGEST SHARE OF THE POWER ELECTRONICS MARKET IN 2016 37

FIGURE 15 POWER ELECTRONICS MARKET IN APAC EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022 38

FIGURE 16 POWER ELECTRONICS MARKET, BY GEOGRAPHY 41

FIGURE 17 POWER ELECTRONICS MARKET DYNAMICS 42

FIGURE 18 RISING ENERGY HARVESTING SYSTEM MARKET, 2014—2018 (USD MILLION) 44

FIGURE 19 GLOBAL ELECTRIC VEHICLES PRODUCTION, 2013—2020 46

FIGURE 20 VALUE CHAIN ANALYSIS: MAJOR VALUE IS ADDED DURING THE DISCRETE ELECTRONIC COMPONENT MANUFACTURING AND POWER MODULE & ICS MANUFACTURING PHASES 49

FIGURE 21 PORTER’S FIVE FORCES MODEL FOR POWER ELECTRONICS MARKET, 2016 51

FIGURE 22 PORTER’S FIVE FORCES ANALYSIS 52

FIGURE 23 MEDIUM IMPACT OF THREAT OF NEW ENTRANTS BECAUSE OF HIGH MARKET GROWTH RATE 53

FIGURE 24 LOW IMPACT OF THE THREAT OF SUBSTITUTES BECAUSE OF LACK OF VIABLE ALTERNATIVES 54

FIGURE 25 MEDIUM IMPACT OF BARGAINING POWER OF SUPPLIERS BECAUSE OF MODERATE SUPPLIER CONCENTRATION 55

FIGURE 26 HIGH IMPACT OF BARGAINING POWER OF BUYERS BECAUSE OF LARGE NUMBER OF SUPPLIERS 56

FIGURE 27 HIGH DEGREE OF COMPETITIVE RIVALRY IN THE MARKET BECAUSE OF HIGH INDUSTRY GROWTH RATE 57

FIGURE 28 GALLIUM NITRIDE SEGMENT EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022 59

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FIGURE 29 THE POWER ELECTRONICS MARKET FOR THE MODULE DEVICE TYPE IS EXPECTED TO HAVE THE FASTEST GROWTH RATE BETWEEN 2016 AND 2022 66

FIGURE 30 DISCRETE DEVICE TYPE FOR TRANSISTOR EXPECTED TO HAVE THE FASTEST GROWTH RATE BETWEEN 2016 AND 2022 67

FIGURE 31 INTELLIGENT POWER MODULE (IPM) IN POWER MODULE BY DEVICE TYPE EXPECTED TO GROW AT THE FASTEST RATE BETWEEN 2016 AND 2022 74

FIGURE 32 POWER MANAGEMENT INTEGRATED CIRCUITS (PMIC) IN POWER IC BY DEVICE TYPE EXPECTED TO GROW AT THE FASTEST RATE BETWEEN 2016 AND 2022 80

FIGURE 33 POWER ELECTRONICS MARKET FOR AUTOMOTIVE VERTICAL EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022 86

FIGURE 34 OTHERS EXPECTED TO BE THE FASTEST GROWING APPLICATION OF THE ICT VERTICAL BETWEEN 2016 AND 2022 87

FIGURE 35 OTHERS EXPECTED TO BE THE FASTEST GROWING APPLICATION OF THE CONSUMER ELECTRONICS VERTICAL BETWEEN 2016 AND 2022 90

FIGURE 36 UPS AND OTHERS EXPECTED TO BE THE FASTEST GROWING APPLICATIONS OF

THE POWER VERTICAL BETWEEN 2016 AND 2022 92

FIGURE 37 POWER MANAGEMENT EXPECTED TO BE THE FASTEST GROWING APPLICATION OF THE INDUSTRIAL VERTICAL BETWEEN 2016 AND 2022 95

FIGURE 38 ELECTRIC VEHICLE CHARGING EXPECTED TO BE THE FASTEST GROWING APPLICATION OF THE AUTOMOTIVE VERTICAL BETWEEN 2016 AND 2022 99

FIGURE 39 COMBAT VEHICLE EXPECTED TO BE THE FASTEST GROWING APPLICATION OF

THE AEROSPACE AND DEFENSE VERTICAL BETWEEN 2016 AND 2022 101

FIGURE 40 POWER ELECTRONICS MARKET: GEOGRAPHIC SNAPSHOT 105

FIGURE 41 OVERVIEW OF THE POWER ELECTRONICS MARKET IN AMERICAS 107

FIGURE 42 OVERVIEW OF THE POWER ELECTRONICS MARKET IN EUROPE 111

FIGURE 43 OVERVIEW OF THE POWER ELECTRONICS MARKET IN ASIA-PACIFIC 117

FIGURE 44 OVERVIEW OF THE POWER ELECTRONICS MARKET IN ROW 122

FIGURE 45 COMPANIES ADOPTED NEW PRODUCT LAUNCHES AS THE KEY GROWTH STRATEGY BETWEEN JANUARY 2014 AND DECEMBER 2016 125

FIGURE 46 MARKET SHARE OF TOP 5 PLAYERS IN THE POWER ELECTRONICS MARKET, 2015 126

FIGURE 47 POWER ELECTRONICS MARKET EVALUATION FRAMEWORK 127

FIGURE 48 BATTLE FOR THE MARKET SHARE 128

FIGURE 49 GEOGRAPHIC REVENUE MIX OF THE TOP 5 MARKET PLAYERS 130

FIGURE 50 INFINEON TECHNOLOGIES AG: COMPANY SNAPSHOT 131

FIGURE 51 INFINEON TECHNOLOGIES AG: SWOT ANALYSIS 134

FIGURE 52 TEXAS INSTRUMENTS, INC.: COMPANY SNAPSHOT 135

FIGURE 53 TEXAS INSTRUMENTS, INC.: SWOT ANALYSIS 137

FIGURE 54 ON SEMICONDUCTOR CORP.: COMPANY SNAPSHOT 138

FIGURE 55 ON SEMICONDUCTOR CORP.: SWOT ANALYSIS 141

FIGURE 56 STMICROELECTRONICS N.V.: COMPANY SNAPSHOT 142

FIGURE 57 STMICROELECTRONICS N.V.: SWOT ANALYSIS 144

FIGURE 58 MAXIM INTEGRATED PRODUCTS, INC.: COMPANY SNAPSHOT 145

FIGURE 59 MAXIM INTEGRATED PRODUCTS, INC.: SWOT ANALYSIS 146

FIGURE 60 FUJI ELECTRIC CO., LTD.: COMPANY SNAPSHOT 147

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FIGURE 61 NXP SEMICONDUCTORS N.V.: COMPANY SNAPSHOT 150

FIGURE 62 QUALCOMM, INC.: COMPANY SNAPSHOT 152

FIGURE 63 VISHAY INTERTECHNOLOGY, INC.: COMPANY SNAPSHOT 154

FIGURE 64 RENESAS ELECTRONICS CORP.: COMPANY SNAPSHOT 157

FIGURE 65 MITSUBISHI ELECTRIC CORP.: COMPANY SNAPSHOT 159

* Alle Preise sind netto ausgewiesen. In Abhängigkeit von Ihrer Rechnungsanschrift ist hierauf noch USt. zu entrichten (Deutschland z.Z. 19%). Unser Angebot richtet sich ausschließlich an Unternehmen, Gewerbetreibende und Freiberufler.

 

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