electric vehicle infrastructure market 2021 - brochure

M a r k e t I n t e l l i g e n c e . C o n s u l t i n g

Global Electric Vehicle Infrastructure Market By Type, By Instal led Location,

By Region, Competit ion Forecast and Opportunities , 2011 - 2021

P r o d u c t O v e r v i e w

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© TechSci Research

Electric Vehicle Infrastructure:

Electric vehicle infrastructure includes the charging equipments which are necessary to charge the battery of the

vehicle which acts as the fuel for its movement. The charging infrastructure of electric vehicles when connected

with the vehicle it recharges the battery with electrical energy by the flow of current. The charging equipments

can be installed at home, offices, buildings and at highways where there is supply of electricity which can be fed

into the vehicle.

The electric vehicle chargers are of alternating current and direct current types and those are categorised based

on charging power levels which decides the rate and quantum of charge to the vehicles’ battery.

Types of Chargers:

AC (Level 1) – It uses the current level which is available at home and the level 1 chargers can be connected

with the electric supply and any electrical infrastructure upgrade is not required. It can charge up to 1.92 Kilo

Watt(KW) from a 120 Volt supply and the power consumption is approximately to that of a toaster.

AC (Level 2) – This type of chargers uses 208 or 240 volt supply of electricity and charges the battery faster

than level 1 chargers and installation of these require installation by a qualified electrician. The power supplied

by level 2 chargers is up to 19.2 KW.

DC (Level 3) – This type of chargers are used for fast charging of electric vehicles and they can supply power up

to 100 KW. The installation of level 3 chargers require dedicated socket and connectors which can supply direct

current up to 480 Volts.

T a b l e o f C o n t e n t s

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S. No. Contents

1. Product Overview

2. Research Methodology

3. Analyst View

4. Global Electric Vehicle Market Overview

5. Global Electric Vehicle Infrastructure Market Outlook

5.1. Market Size & Forecast

5.1.1. By Value

5.1.2. By Volume

5.2. Market Share & Forecast

5.2.1. By Type (AC & DC)

5.2.2. By Region (North America, Europe & Asia-Pacific)

5.2.3. By Installed Location (Residential & Commercial)

5.3. Market Attractiveness Index

6. Global Electric Vehicle Infrastructure Market Segmental Analysis

6.1. Global AC Electric Vehicle Infrastructure market outlook

6.1.1. Market Size & Forecast

6.1.1.1. By Value

6.1.1.2. By Volume

6.1.2. Market Share & Forecast

6.1.2.1. By Company

6.1.2.2. By Installed Location (Residential & Commercial)


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6.1.2.3. By Region (North America, Europe & Asia-Pacific)

6.2. Global DC Electric Vehicle Infrastructure Market Outlook


6.2.1.1. By Value

6.2.1.2. By Volume


6.2.2.1. By Company

6.2.2.3. By Region (North America, Europe & Asia-Pacific)

7. Global Electric Vehicle Infrastructure Market Regional Analysis

7.1. North America Electric Vehicle Infrastructure Market Outlook


7.1.1.1. By Value

7.1.1.2. By Volume


7.1.2.1. By Type (AC & DC)


7.1.2.3. By Country

7.1.3. Market Size & Forecast – By Country (United States, Canada & Mexico)


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7.1.3.1. United States Electric Vehicle Infrastructure

7.1.3.1.1. Market Size & Forecast

7.1.3.1.2. Policy & Regulatory Landscape

7.1.3.2. Canada Electric Vehicle Infrastructure



7.1.3.3. Mexico Electric Vehicle Infrastructure


7.2. Europe Electric Vehicle Infrastructure Market Outlook

7.2.1. Market Size and Forecast

7.2.1.1. By Value

7.2.1.2. By Volume


7.2.2.1. By Type (AC & DC)


7.2.3.Market Size & Forecast – By Country (Germany, France, Norway, Denmark, Netherlands &

United Kingdom)

7.2.3.1. Germany Electric Vehicle Infrastructure




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7.2.3.2. France Electric Vehicle infrastructure



7.2.3.3. Norway Electric Vehicle infrastructure



7.2.3.4. Denmark Electric Vehicle infrastructure



7.2.3.5. Netherlands Electric Vehicle infrastructure



7.2.3.6. United Kingdom Electric Vehicle infrastructure



7.3. Asia-Pacific Electric Vehicle Infrastructure Market Outlook

7.3.1. Market Size and Forecast

7.3..1.1. By Value

7.3.1.2. By Volume


7.3.2.1. By Type (AC & DC)


7.3.2.3. By Country


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S. No. Contents

7.3.3. Market Size & Forecast – By Country (China, Japan & South Korea)

7.3.3.1. China Electric Vehicle Infrastructure



7.3.3.2. Japan Electric Vehicle Infrastructure



7.3.3.3. South Korea Electric Vehicle Infrastructure



8. Market Dynamics

8.1. Drivers

8.2. Challenges

9. Market Trends and Developments

9.1. Inductive Charging of Electric Vehicles

9.2. Growing Focus on Lithium Ion Battery Technology

9.3. Rising Trend of Vehicle to Grid Communication

9.4. Growing Need for Flexibility in Power Systems

9.5. Time of Use Pricing

9.6. Increasing Role of Aggregators

9.7. Rising Focus on Ancillary Services Market

9.8. Emergence of Hydrogen Fuel Cell Vehicles


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S. No. Contents

10. Competitive Landscape

10.1. Competition Matrix

10.2. Company Profiles

10.2.1. ChargePoint Inc.

10.2.2. DBT-CEV

10.2.3. Chargemaster Plc.

10.2.4. ClipperCreek, Inc.

10.2.5. Aerovironment Inc.

10.2.6. ABB Electrical Industries Co. Ltd

10.2.7. NRG EVgo

10.2.8. Leviton Manufacturing Co., Inc.

10.2.9. Greenlots

10.2.10. Legrand

10.2.11. Car Charging Group, Inc.

10.2.12. Eaton Corporation

10.2.13. Schneider Electric

10.2.14. Shanghai Sunlight New Energy Technology Co. Ltd.

10.2.15. Besen International Group Limited

11. Strategic Recommendations

12. About Us & Disclaimer

R e s e a r c h M e t h o d o l o g y

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Companies Interviewed

ABB Ltd. Schneider Electric

ChargePoint , Inc. Legrand

Leviton Manufacturing Co., Inc. Clipper Creek

NRG EVgo Siemens Ltd.

TechSci Research has scrutinized various published documents from following key sources in order to fill the data

gaps and verify information being collected through primary research surveys.

Secondary Sources

International Energy Agency Electric Vehicles News

The International Council On Clean Transportation Electric Drive

Asia Pacific Economic Cooperation Company Websites

The World Bank Group International Transport Forum

Enerdata Electric Vehicles Transportation Center

U.S. Department of Energy National Laboratory The Association of Electrical and Medical Imaging Equipment Manufacturers

OBJECTIVE: The primary objective of the study was to understand the present market and forecast the global

electric vehicle infrastructure market.

APPROACH & SOURCES: In order to analyze and forecast global electric vehicle infrastructure market, both top

down and bottom up approaches were used. Multiple employees from the following companies have been interviewed

through telephonic conversations in order to extract and verify the information being collected at the source.

R e s e a r c h M e t h o d o l o g y

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In the beginning, a brief study of the electric vehicle infrastructure across the world was made which included analysis of

information such as types of chargers, development of technology, initiatives of governments to support adoption of

electric vehicles, etc.

Moreover, detailed and in-depth scrutiny of information was done to understand each and every policy or external or

internal factor that could effect the market for electric vehicles infrastructure. For this various documents related to

energy sector were studied, followed by a detailed assessment of use of electricity for electric vehicle charging.

Finally, region and country specific market for electric vehicles was analyzed and major companies which provide electric

vehicles infrastructure were identified. Electric vehicle technology is in developing phase and factors driving market

growth were assessed to forecast market size.

To extract data for electric vehicle infrastructure, primary research surveys were conducted with key end user industries

and electric infrastructure manufacturers to assess the past market trend. However, for forecasting the market for the

electric infrastructure following assumptions were made -

1. Historical trends in global electric vehicle infrastructure market have been considered to for market forecasting the same

2. Growing awareness about electric vehicles and adoption of technology has been used to estimate the market for electric vehicle infrastructure.

3. Growth in demand of electric vehicle has been used to forecast demand for electric vehicle infrastructure4. Policies of local governments to promote electric vehicle have also been taken into consideration

Considering these assumptions, our dedicated team of industry experts has comprehensively monitored and analyzed

various aspects of the global electric vehicle infrastructure market. The team analyzed various industry segments and

speculated a positive future for the global electric vehicle infrastructure market. Taking into consideration developments,

capital investments, government support, etc., our team of analysts has provided a prudent analysis of the industry’s

performance in the future.

I n d u s t r y B r i e f

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Electric Vehicle Infrastructure Market Set to Grow at CAGR 27% till 2021

Rising adoption of electric vehicles and increasing government focus on reducing carbon emissions to drive global electricvehicle infrastructure market through 2021

According to TechSci Research report “Global Electric Vehicle Infrastructure Market By Type, By Installed Location, ByRegion, Competition Forecast and Opportunities, 2011 - 2021”, the global market for electric vehicle infrastructure isprojected to grow at a CAGR of over 27% during 2016-2021, on account of increasing electric vehicle fleet size andimplementation of stringent regulations by local governments to promote use of electric vehicles in the transportation sector.Rising concerns over Increasing pollution from the transportation sector and depleting natural resources is leading toadoption of policies that discourage use of conventional vehicles and promote the use electric vehicles, which is in turnanticipated to bolster growth in global electric vehicle infrastructure market during 2016-2021. Global sales of electricvehicles are forecast to reach 3.86 million units by 2020, up from 1.37 million units in 2012.

In 2013, the transport sector accounted for a share of 23% in the overall global carbon dioxide emissions. Increasingpenetration of electric vehicles in the transport sector is projected to reduce pollution and lower dependence onconventional fuels. Consequently, with increasing use of electric vehicles across the globe, global electric vehicleinfrastructure market is projected to witness an upsurge in the forecast period. Furthermore, incentives and subsidies offeredby local governments and deployment of rapid charging infrastructure for quick charging of electric vehicles is projected toincrease adoption of these vehicles and related charging infrastructure across commercial and residential sectors. In order topromote the use of electric vehicles, governments across the globe are focusing on the development of robust charginginfrastructure.

“Demand Response Program, conducted by electric utilities, is projected to fuel growth in the global electric vehicleinfrastructure market during the forecast period. This program enables electric vehicle owners to feed electricity back to thegrid, thereby helping owners reduce total cost of ownership of electric vehicles. Demand Response Program aims atmanaging load profile of electricity grid, with electric vehicle owners being able to manage their consumption and also feedpower back to the grid.” said Mr. Karan Chechi, Research Director with TechSci Research, a research based globalmanagement consulting firm.

http://www.techsciresearch.com/report/global-electric-vehicle-infrastructure-market-by-type-ac-charger-dc-charger-by-installed-location-commercial-residential-by-region-north-america-europe-asia-pacific-competition-forecast-and-opportunities-2011-2021/688.html

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S a m p l e D a t a - S n a p s h o t

Global Electric Vehicle Infrastructure Market

Size, By Value (USD Billion), By Volume

(Million Units), 2011-2021F

1 2 3 4 5 7 8 9 10 11 123 5 7 9 11 15 17 19 21 23 25

By Value (USD Billion) By Volume (Million Units)

0.00%

0.50%

1.00%

1.50%

2.00%

2.50%

3.00%

3.50%

0.00 1.00 2.00 3.00 4.00

Asia-Pacific

North America

Global Electric Vehicle Infrastructure

Market Attractiveness Index, By Region,

By Value, 2015-2021F

Europe

1

2

3

2012 2017F 2020F

Global Electric Vehicles

Sales, 2012, 2017F &

2020F (Million Units)

Canada Electric Vehicle Infrastructure Market

Size, By Value, 2011-2021F (USD Billion)

1 2 3 4 57 8 9 10 11 12

Global Electric Vehicle

Infrastructure Market Share, By

Type, By Value, 2015 & 2021F

AC Charger

, 50.00%

DC Charger

, 50.00%

AC Charger

, 50.00%

DC Charger

, 50.00%

1 2 3 4 5 6

3 5 7 911

13

Year 1 Year 2 Year 3 Year 4 Year 5 Year 6

Conventional Vehicle Electric Vehicle

Europe Comparison of Total Cost of

Ownership of Conventional and

Electric Vehicle, (USD)

Transportation, 25.00%

Industrial, 25.00%

Commercial, 25.00%

Residential, 25.00%

United States Carbon Dioxide

Emissions, By Sector, 2014

0.00%

0.50%

1.00%

1.50%

2.00%

2.50%

0.00 0.50 1.00 1.50 2.00 2.50

DC Type

Global Electric Vehicle Infrastructure

Market Attractiveness Index, By Type,

By Value, 2015-2021F

AC Type

23

45

6 7

United States Number of States

Providing Incentives for Electric Vehicle

Infrastructure, By Incentive Type, 2015

© TechSci Research

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Report Name: Global Electric Vehicle Infrastructure Market By Type, By

Installed Location, By Region, Competition Forecast and

Opportunities, 2011 - 2021

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Electronic Access - Multi-User License $8000

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The contents of this report are based on information generally available to the public from sources believed to be reliable. No representation is made that itis timely, accurate or complete. TechSci Research has taken due care and caution in compilation of data as this has been obtained from various sourcesincluding which it considers reliable and first hand. However, TechSci Research does not guarantee the accuracy, adequacy or completeness of anyinformation and it is not responsible for any errors or omissions or for the results obtained from the use of such information and especially states that ithas no financial liability whatsoever to the subscribers / users of this report. The information herein, together with all estimates and forecasts, can changewithout notice. All the figures provided in this document are indicative of relative market size and are strictly for client’s internal consumption. Usage of thesame for purpose other than internal will require prior approval of TechSci Research.

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