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Global Heavy-duty electric vehicle charging infrastructure Market Research Report - Forecast till 2030
Publisher: Market Research Future
Published: 2020/07/01
Page: 87
Format: PDF
Global Heavy-duty electric vehicle charging infrastructure Market Research Report - Forecast till 2030
Market Overview
Global Heavy-Duty Electric Vehicle Charging Infrastructure Market is accounted to register 35.07% CAGR during the review period. The entire structure used to transfer electricity from the electric grid and distribute electricity to charge an electric vehicle is known as a heavy-duty electric vehicle charging infrastructure. Technically it is the process of acquiring AC electricity through the AC grid and converting it into DC power to store it in a DC battery of electric vehicles.
The Global Heavy-Duty Electric Vehicle Charging Infrastructure Market is anticipated to exhibit an incredible market expansion owing to the rising alertness regarding the impact of gasoline vehicles. Additionally, the government initiatives taken to set up an eco-friendly transport system are also fuelling the adoption of electric vehicles globally. As per the study, in September 2017, the Indian Ministry of Road Transport and Highways announced a list of non-fiscal incentives to ensure that electric vehicles account for 15% of the total vehicle sales in the country for the next five years. therefore, the surge in demand for electric vehicles is expected to further raise the construction and adoption of heavy-duty charging infrastructure during the assessment period.
Market Segmentation
The global heavy-duty electric vehicle charging market has been bifurcated by Charger Type and Charging Method.
Based on Charger Type, the global heavy-duty electric vehicle charging infrastructures market is classified into DC charger and AC charger. In terms of the Charging Method, the global heavy-duty electric vehicle charging infrastructures market is segmented into fast charging and slow charging.
Regional Analysis
By Region, Global Heavy-Duty Electric Vehicle Charging Infrastructure Market is segmented into North America, Europe, Asia-Pacific, and the Rest of the World
Asia-Pacific is expected to dominate the market owing to the largest market share in 2019. Owing to the organized electric vehicle industry and the presence of top heavy-duty electric vehicle charging infrastructure manufacturers. The increasing demand for electric buses and the initiatives for propelling the development of heavy-duty electric vehicles taken by the governments of developing countries such as China, Japan, and India are estimated to surge the market during the study period.
The European market accounted for the second-largest market share in 2019. The regional market is categorized into Germany, France, and the UK, the Netherlands, Nordic countries, and the rest of Europe. Germany is one of the leading markets due to the increasing demand for electric vehicles in the country. Additionally, the automotive OEMs in the country are focusing on the development of charging infrastructure for supporting the electric buses and trucks in the region.
Major Players
The key industry competitors of the global heavy-duty electric vehicle charging infrastructure market are ABB, Siemens, Bombardier Inc., Kempower OY, Tesla, Proterra, Chargepoint, Inc., Schunk Group, EFACEC, Shijiazhuang Tonhe Electronics Technologies Co., Ltd., and Kehua Hengsheng Co., Ltd.
COVID 19 Impacts
We are continuously tracking the impact of the COVID-19 pandemic on various industries and verticals within all domains. Our research reports include the same and help you understand the drop and rise, owing to the impact of COVID-19 on the industries. Also, we help you to identify the gap between the demand and supply of your interested market. Moreover, the report helps you with the analysis, amended government regulations, and many other useful insights.
Market Overview
Global Heavy-Duty Electric Vehicle Charging Infrastructure Market is accounted to register 35.07% CAGR during the review period. The entire structure used to transfer electricity from the electric grid and distribute electricity to charge an electric vehicle is known as a heavy-duty electric vehicle charging infrastructure. Technically it is the process of acquiring AC electricity through the AC grid and converting it into DC power to store it in a DC battery of electric vehicles.
The Global Heavy-Duty Electric Vehicle Charging Infrastructure Market is anticipated to exhibit an incredible market expansion owing to the rising alertness regarding the impact of gasoline vehicles. Additionally, the government initiatives taken to set up an eco-friendly transport system are also fuelling the adoption of electric vehicles globally. As per the study, in September 2017, the Indian Ministry of Road Transport and Highways announced a list of non-fiscal incentives to ensure that electric vehicles account for 15% of the total vehicle sales in the country for the next five years. therefore, the surge in demand for electric vehicles is expected to further raise the construction and adoption of heavy-duty charging infrastructure during the assessment period.
Market Segmentation
The global heavy-duty electric vehicle charging market has been bifurcated by Charger Type and Charging Method.
Based on Charger Type, the global heavy-duty electric vehicle charging infrastructures market is classified into DC charger and AC charger. In terms of the Charging Method, the global heavy-duty electric vehicle charging infrastructures market is segmented into fast charging and slow charging.
Regional Analysis
By Region, Global Heavy-Duty Electric Vehicle Charging Infrastructure Market is segmented into North America, Europe, Asia-Pacific, and the Rest of the World
Asia-Pacific is expected to dominate the market owing to the largest market share in 2019. Owing to the organized electric vehicle industry and the presence of top heavy-duty electric vehicle charging infrastructure manufacturers. The increasing demand for electric buses and the initiatives for propelling the development of heavy-duty electric vehicles taken by the governments of developing countries such as China, Japan, and India are estimated to surge the market during the study period.
The European market accounted for the second-largest market share in 2019. The regional market is categorized into Germany, France, and the UK, the Netherlands, Nordic countries, and the rest of Europe. Germany is one of the leading markets due to the increasing demand for electric vehicles in the country. Additionally, the automotive OEMs in the country are focusing on the development of charging infrastructure for supporting the electric buses and trucks in the region.
Major Players
The key industry competitors of the global heavy-duty electric vehicle charging infrastructure market are ABB, Siemens, Bombardier Inc., Kempower OY, Tesla, Proterra, Chargepoint, Inc., Schunk Group, EFACEC, Shijiazhuang Tonhe Electronics Technologies Co., Ltd., and Kehua Hengsheng Co., Ltd.
COVID 19 Impacts
We are continuously tracking the impact of the COVID-19 pandemic on various industries and verticals within all domains. Our research reports include the same and help you understand the drop and rise, owing to the impact of COVID-19 on the industries. Also, we help you to identify the gap between the demand and supply of your interested market. Moreover, the report helps you with the analysis, amended government regulations, and many other useful insights.
TABLE OF CONTENT
1 EXECUTIVE SUMMARY
1.1 GLOBAL HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MARKET, BY CHARGER TYPE 14
1.2 GLOBAL HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MARKET, BY CHARGING METHOD 15
1.3 GLOBAL HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MARKET, BY REGION 16
2 MARKET INTRODUCTION
2.1 DEFINITION 17
2.2 SCOPE OF THE STUDY 17
2.3 MARKET STRUCTURE 17
3 RESEARCH METHODOLOGY
3.1 RESEARCH PROCESS 18
3.2 PRIMARY RESEARCH 19
3.3 SECONDARY RESEARCH 19
3.4 MARKET SIZE ESTIMATION 20
3.5 FORECAST MODEL 22
3.6 LIST OF ASSUMPTIONS 23
4 MARKET DYNAMICS
4.1 INTRODUCTION 24
4.2 DRIVERS 25
4.2.1 INCREASE IN DEMAND FOR ELECTRIC VEHICLES 25
4.2.2 STRATEGIC INITIATIVES BY MAJOR PLAYERS 26
4.2.3 DRIVERS IMPACT ANALYSIS 27
4.3 RESTRAINT 27
4.3.1 DEMAND FOR CNG AND LPG VEHICLES 27
4.3.2 RESTRAINT IMPACT ANALYSIS 28
4.4 OPPORTUNITIES 28
4.4.1 LAUNCH OF ULTRA-FAST EV CHARGING INFRASTRUCTURES 28
4.5 CHALLENGE 28
4.5.1 LACK OF STANDARDIZATION 28
4.6 COVID-19 IMPACT ANALYSIS 29
4.6.1 ECONOMIC IMPACT ON THE AUTOMOTIVE INDUSTRY 29
4.6.2 IMPACT ON AUTOMOTIVE PRODUCTION 29
4.6.3 IMPACT ON HEAVY DUTY EV CHARGING INFRASTRUCTURE INDUSTRY 29
4.6.3.1 IMPACT ON SUPPLY CHAIN 29
4.6.3.2 IMPACT ON RAW MATERIALS 30
4.6.3.3 CASH FLOW CONSTRAINTS 30
4.6.4 IMPACT ON WORLD TRADE 30
5 MARKET FACTOR ANALYSIS
5.1 PORTER’S FIVE FORCES MODEL 31
5.1.1 THREAT OF NEW ENTRANTS 31
5.1.2 BARGAINING POWER OF SUPPLIERS 32
5.1.3 BARGAINING POWER OF BUYERS 32
5.1.4 THREAT OF SUBSTITUTES 32
5.1.5 RIVALRY 32
5.2 SUPPLY CHAIN ANALYSIS: 33
5.2.1 DESIGN AND DEVELOPMENT 33
5.2.2 RAW MATERIAL/COMPONENTS SUPPLY 33
5.2.3 HEAVY DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MANUFACTURE 33
5.2.4 HEAVY DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE DISTRIBUTION 34
5.2.5 END USE 34
5.3 TECHNOLOGY TRENDS 34
5.3.1 SOLAR POWERED HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE 34
5.4 V2G ANALYSIS 35
5.4.1 OVERVIEW 35
5.4.2 GOVERNMENT STRATEGIES & SUPPORT 35
5.4.3 APPROACH ADOPTED BY INDUSTRY PLAYERS 35
5.4.4 FACTORS INFLUENCING V2G TECHNOLOGY 36
6 GLOBAL HEAVY DUTY EV CHARGING INFRASTRUCTURE MARKET, BY CHARGER TYPE
6.1 OVERVIEW 37
6.1.1 DC CHARGER 37
6.1.2 AC CHARGER 37
7 GLOBAL HEAVY DUTY EV CHARGING INFRASTRUCTURE MARKET, BY CHARGING METHOD
7.1 OVERVIEW 39
7.2 FAST CHARGING 39
7.3 SLOW CHARGING 39
8 GLOBAL HEAVY DUTY EV CHARGING INFRASTRUCTURE MARKET, BY REGION
8.1 OVERVIEW 41
8.2 NORTH AMERICA 43
8.2.1 US 45
8.2.2 CANADA 46
8.3 EUROPE 47
8.3.1 GERMANY 49
8.3.2 UK 50
8.3.3 FRANCE 51
8.3.4 THE NETHERLANDS 52
8.3.5 NORDIC 53
8.3.6 REST OF EUROPE 54
8.4 ASIA PACIFIC 55
8.4.1 CHINA 57
8.4.2 JAPAN 58
8.4.3 INDIA 59
8.4.4 REST OF ASIA PACIFIC 60
8.5 REST OF WORLD 61
8.5.1 SOUTH AMERICA 63
8.5.2 MIDDLE EAST & AFRICA 64
9 COMPETITIVE LANDSCAPE
9.1 COMPETITIVE OVERVIEW 65
9.2 MARKET SHARE ANALYSIS 65
9.3 COMPETITIVE BENCHMARKING 66
9.4 KEY DEVELOPMENTS IN THE GLOBAL HEAVY-DUTY EV CHARGING INFRASTRUCTURE MARKET 67
9.4.1 KEY DEVELOPMENTS: MERGERS & ACQUISITIONS 67
9.4.2 KEY DEVELOPMENTS: CONTRACTS & AGREEMENTS 67
9.4.3 KEY DEVELOPMENTS: PARTNERSHIP 68
9.4.4 KEY DEVELOPMENTS: EXPANSION 69
9.4.5 KEY DEVELOPMENTS: PRODUCT DEVELOPMENTS 69
9.5 PRICING ANALYSIS 70
10 COMPANY PROFILES
10.1 ABB 71
10.1.1 COMPANY OVERVIEW 71
10.1.2 FINANCIAL OVERVIEW 72
10.1.3 PRODUCTS/SERVICES OFFERED 72
10.1.4 KEY DEVELOPMENTS 73
10.1.5 SWOT ANALYSIS 74
10.1.6 KEY STRATEGIES 74
10.2 SIEMENS 75
10.2.1 COMPANY OVERVIEW 75
10.2.2 FINANCIAL OVERVIEW 76
10.2.3 PRODUCTS/SERVICES OFFERED 76
10.2.4 KEY DEVELOPMENTS 77
10.2.5 SWOT ANALYSIS 77
10.2.6 KEY STRATEGIES 78
10.3 BOMBARDIER INC. 79
10.3.1 COMPANY OVERVIEW 79
10.3.2 FINANCIAL OVERVIEW 79
10.3.3 PRODUCTS/SERVICES OFFERED 80
10.3.4 KEY DEVELOPMENTS 80
10.3.5 SWOT ANALYSIS 80
10.3.6 KEY STRATEGIES 81
10.4 KEMPOWER OY 82
10.4.1 COMPANY OVERVIEW 82
10.4.2 FINANCIAL OVERVIEW 82
10.4.3 PRODUCTS/SERVICES OFFERED 82
10.4.4 KEY DEVELOPMENTS 82
10.4.5 SWOT ANALYSIS 83
10.4.6 KEY STRATEGIES 83
10.5 TESLA 84
10.5.1 COMPANY OVERVIEW 84
10.5.2 FINANCIAL OVERVIEW 84
10.5.3 PRODUCTS/SERVICES OFFERED 85
10.5.4 KEY DEVELOPMENTS 85
10.5.5 SWOT ANALYSIS 85
10.5.6 KEY STRATEGIES 86
10.6 PROTERRA 87
10.6.1 COMPANY OVERVIEW 87
10.6.2 FINANCIAL OVERVIEW 87
10.6.3 PRODUCTS OFFERED 87
10.6.4 KEY DEVELOPMENTS 87
10.6.5 SWOT ANALYSIS 88
10.6.6 KEY STRATEGIES 89
10.7 CHARGEPOINT, INC. 90
10.7.1 COMPANY OVERVIEW 90
10.7.2 FINANCIAL OVERVIEW 90
10.7.3 PRODUCTS/SERVICES OFFERED 90
10.7.4 KEY DEVELOPMENTS 90
10.7.5 SWOT ANALYSIS 91
10.7.6 KEY STRATEGIES 91
10.8 SCHUNK GROUP 92
10.8.1 COMPANY OVERVIEW 92
10.8.2 FINANCIAL OVERVIEW 92
10.8.3 PRODUCTS/SERVICES OFFERED 92
10.8.4 KEY DEVELOPMENTS 92
10.9 EFACEC 93
10.9.1 COMPANY OVERVIEW 93
10.9.2 FINANCIAL OVERVIEW 93
10.9.3 PRODUCTS/SERVICES OFFERED 93
10.9.4 KEY DEVELOPMENTS 93
10.10 SHIJIAZHUANG TONHE ELECTRONICS TECHNOLOGIES CO., LTD. 94
10.10.1 COMPANY OVERVIEW 94
10.10.2 FINANCIAL OVERVIEW 94
10.10.3 PRODUCTS OFFERED 94
10.10.4 KEY DEVELOPMENTS 94
10.11 KEHUA HENGSHENG CO., LTD. 95
10.11.1 COMPANY OVERVIEW 95
10.11.2 FINANCIAL OVERVIEW 95
10.11.3 PRODUCTS/SERVICES OFFERED 96
10.11.4 KEY DEVELOPMENTS 96
11 APPENDIX
11.1 REFERENCES 97
11.2 RELATED REPORTS 97
1 EXECUTIVE SUMMARY
1.1 GLOBAL HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MARKET, BY CHARGER TYPE 14
1.2 GLOBAL HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MARKET, BY CHARGING METHOD 15
1.3 GLOBAL HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MARKET, BY REGION 16
2 MARKET INTRODUCTION
2.1 DEFINITION 17
2.2 SCOPE OF THE STUDY 17
2.3 MARKET STRUCTURE 17
3 RESEARCH METHODOLOGY
3.1 RESEARCH PROCESS 18
3.2 PRIMARY RESEARCH 19
3.3 SECONDARY RESEARCH 19
3.4 MARKET SIZE ESTIMATION 20
3.5 FORECAST MODEL 22
3.6 LIST OF ASSUMPTIONS 23
4 MARKET DYNAMICS
4.1 INTRODUCTION 24
4.2 DRIVERS 25
4.2.1 INCREASE IN DEMAND FOR ELECTRIC VEHICLES 25
4.2.2 STRATEGIC INITIATIVES BY MAJOR PLAYERS 26
4.2.3 DRIVERS IMPACT ANALYSIS 27
4.3 RESTRAINT 27
4.3.1 DEMAND FOR CNG AND LPG VEHICLES 27
4.3.2 RESTRAINT IMPACT ANALYSIS 28
4.4 OPPORTUNITIES 28
4.4.1 LAUNCH OF ULTRA-FAST EV CHARGING INFRASTRUCTURES 28
4.5 CHALLENGE 28
4.5.1 LACK OF STANDARDIZATION 28
4.6 COVID-19 IMPACT ANALYSIS 29
4.6.1 ECONOMIC IMPACT ON THE AUTOMOTIVE INDUSTRY 29
4.6.2 IMPACT ON AUTOMOTIVE PRODUCTION 29
4.6.3 IMPACT ON HEAVY DUTY EV CHARGING INFRASTRUCTURE INDUSTRY 29
4.6.3.1 IMPACT ON SUPPLY CHAIN 29
4.6.3.2 IMPACT ON RAW MATERIALS 30
4.6.3.3 CASH FLOW CONSTRAINTS 30
4.6.4 IMPACT ON WORLD TRADE 30
5 MARKET FACTOR ANALYSIS
5.1 PORTER’S FIVE FORCES MODEL 31
5.1.1 THREAT OF NEW ENTRANTS 31
5.1.2 BARGAINING POWER OF SUPPLIERS 32
5.1.3 BARGAINING POWER OF BUYERS 32
5.1.4 THREAT OF SUBSTITUTES 32
5.1.5 RIVALRY 32
5.2 SUPPLY CHAIN ANALYSIS: 33
5.2.1 DESIGN AND DEVELOPMENT 33
5.2.2 RAW MATERIAL/COMPONENTS SUPPLY 33
5.2.3 HEAVY DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE MANUFACTURE 33
5.2.4 HEAVY DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE DISTRIBUTION 34
5.2.5 END USE 34
5.3 TECHNOLOGY TRENDS 34
5.3.1 SOLAR POWERED HEAVY-DUTY ELECTRIC VEHICLE CHARGING INFRASTRUCTURE 34
5.4 V2G ANALYSIS 35
5.4.1 OVERVIEW 35
5.4.2 GOVERNMENT STRATEGIES & SUPPORT 35
5.4.3 APPROACH ADOPTED BY INDUSTRY PLAYERS 35
5.4.4 FACTORS INFLUENCING V2G TECHNOLOGY 36
6 GLOBAL HEAVY DUTY EV CHARGING INFRASTRUCTURE MARKET, BY CHARGER TYPE
6.1 OVERVIEW 37
6.1.1 DC CHARGER 37
6.1.2 AC CHARGER 37
7 GLOBAL HEAVY DUTY EV CHARGING INFRASTRUCTURE MARKET, BY CHARGING METHOD
7.1 OVERVIEW 39
7.2 FAST CHARGING 39
7.3 SLOW CHARGING 39
8 GLOBAL HEAVY DUTY EV CHARGING INFRASTRUCTURE MARKET, BY REGION
8.1 OVERVIEW 41
8.2 NORTH AMERICA 43
8.2.1 US 45
8.2.2 CANADA 46
8.3 EUROPE 47
8.3.1 GERMANY 49
8.3.2 UK 50
8.3.3 FRANCE 51
8.3.4 THE NETHERLANDS 52
8.3.5 NORDIC 53
8.3.6 REST OF EUROPE 54
8.4 ASIA PACIFIC 55
8.4.1 CHINA 57
8.4.2 JAPAN 58
8.4.3 INDIA 59
8.4.4 REST OF ASIA PACIFIC 60
8.5 REST OF WORLD 61
8.5.1 SOUTH AMERICA 63
8.5.2 MIDDLE EAST & AFRICA 64
9 COMPETITIVE LANDSCAPE
9.1 COMPETITIVE OVERVIEW 65
9.2 MARKET SHARE ANALYSIS 65
9.3 COMPETITIVE BENCHMARKING 66
9.4 KEY DEVELOPMENTS IN THE GLOBAL HEAVY-DUTY EV CHARGING INFRASTRUCTURE MARKET 67
9.4.1 KEY DEVELOPMENTS: MERGERS & ACQUISITIONS 67
9.4.2 KEY DEVELOPMENTS: CONTRACTS & AGREEMENTS 67
9.4.3 KEY DEVELOPMENTS: PARTNERSHIP 68
9.4.4 KEY DEVELOPMENTS: EXPANSION 69
9.4.5 KEY DEVELOPMENTS: PRODUCT DEVELOPMENTS 69
9.5 PRICING ANALYSIS 70
10 COMPANY PROFILES
10.1 ABB 71
10.1.1 COMPANY OVERVIEW 71
10.1.2 FINANCIAL OVERVIEW 72
10.1.3 PRODUCTS/SERVICES OFFERED 72
10.1.4 KEY DEVELOPMENTS 73
10.1.5 SWOT ANALYSIS 74
10.1.6 KEY STRATEGIES 74
10.2 SIEMENS 75
10.2.1 COMPANY OVERVIEW 75
10.2.2 FINANCIAL OVERVIEW 76
10.2.3 PRODUCTS/SERVICES OFFERED 76
10.2.4 KEY DEVELOPMENTS 77
10.2.5 SWOT ANALYSIS 77
10.2.6 KEY STRATEGIES 78
10.3 BOMBARDIER INC. 79
10.3.1 COMPANY OVERVIEW 79
10.3.2 FINANCIAL OVERVIEW 79
10.3.3 PRODUCTS/SERVICES OFFERED 80
10.3.4 KEY DEVELOPMENTS 80
10.3.5 SWOT ANALYSIS 80
10.3.6 KEY STRATEGIES 81
10.4 KEMPOWER OY 82
10.4.1 COMPANY OVERVIEW 82
10.4.2 FINANCIAL OVERVIEW 82
10.4.3 PRODUCTS/SERVICES OFFERED 82
10.4.4 KEY DEVELOPMENTS 82
10.4.5 SWOT ANALYSIS 83
10.4.6 KEY STRATEGIES 83
10.5 TESLA 84
10.5.1 COMPANY OVERVIEW 84
10.5.2 FINANCIAL OVERVIEW 84
10.5.3 PRODUCTS/SERVICES OFFERED 85
10.5.4 KEY DEVELOPMENTS 85
10.5.5 SWOT ANALYSIS 85
10.5.6 KEY STRATEGIES 86
10.6 PROTERRA 87
10.6.1 COMPANY OVERVIEW 87
10.6.2 FINANCIAL OVERVIEW 87
10.6.3 PRODUCTS OFFERED 87
10.6.4 KEY DEVELOPMENTS 87
10.6.5 SWOT ANALYSIS 88
10.6.6 KEY STRATEGIES 89
10.7 CHARGEPOINT, INC. 90
10.7.1 COMPANY OVERVIEW 90
10.7.2 FINANCIAL OVERVIEW 90
10.7.3 PRODUCTS/SERVICES OFFERED 90
10.7.4 KEY DEVELOPMENTS 90
10.7.5 SWOT ANALYSIS 91
10.7.6 KEY STRATEGIES 91
10.8 SCHUNK GROUP 92
10.8.1 COMPANY OVERVIEW 92
10.8.2 FINANCIAL OVERVIEW 92
10.8.3 PRODUCTS/SERVICES OFFERED 92
10.8.4 KEY DEVELOPMENTS 92
10.9 EFACEC 93
10.9.1 COMPANY OVERVIEW 93
10.9.2 FINANCIAL OVERVIEW 93
10.9.3 PRODUCTS/SERVICES OFFERED 93
10.9.4 KEY DEVELOPMENTS 93
10.10 SHIJIAZHUANG TONHE ELECTRONICS TECHNOLOGIES CO., LTD. 94
10.10.1 COMPANY OVERVIEW 94
10.10.2 FINANCIAL OVERVIEW 94
10.10.3 PRODUCTS OFFERED 94
10.10.4 KEY DEVELOPMENTS 94
10.11 KEHUA HENGSHENG CO., LTD. 95
10.11.1 COMPANY OVERVIEW 95
10.11.2 FINANCIAL OVERVIEW 95
10.11.3 PRODUCTS/SERVICES OFFERED 96
10.11.4 KEY DEVELOPMENTS 96
11 APPENDIX
11.1 REFERENCES 97
11.2 RELATED REPORTS 97