Electric Vehicle Charging Station Market Forecast till 2030

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The Global Electric Vehicle Charging Station Market is segmented by charging stations into AC, DC, and inductive. The AC segment is projected to have the highest growth rate and market dominance in the forecast period.

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Description

Electric Vehicle Charging Stations Market Analysis

Market Overview

The Electric Vehicle Charging Station (EVSE) is a device that delivers electricity from the grid to charge electric vehicles, such as battery EVs, plug-in hybrids, and hybrids. There are 3 types of charging stations – AC, DC, and inductive – classified by residential and commercial use. EV charging involves converting AC electricity from the grid to DC electricity stored in EV batteries, with the charger acting as a power electronics device to control the conversion and charging.

The EV charging stations market is anticipating new innovations, like wireless charging and autonomous charging robots, for more convenient charging. For example, Siemens AG introduced a high-power Sicharge D charger in January 2021 with a scalable charging power of up to 300 kW, supporting voltages from 150 to 1,000 volts and currents of up to 1,000.

Segment Overview

The Global Electric Vehicle Charging Stations Market is segmented by charging stations into AC, DC, and inductive. The AC segment is projected to have the highest growth rate and market dominance in the forecast period. AC charging stations are the most common type of plug-in vehicle chargers and typically have lower power ratings than DC stations because of their lower rated AC onboard chargers. A typical AC charging station has one or more contactors to shut off power to the vehicle..

The Global Electric Vehicle Charging Stations Market is divided by application into Residential and Commercial. The Residential segment is expected to have the highest growth rate and market share in the forecast period. Level 1 and level 2 chargers in residential areas are charged at a fixed rate per kWh, and in some utilities, EVs are given a specific time-of-use rate to encourage off-peak charging which is cheaper than peak rates. This rate may have different brackets such as early evening or mid-afternoon rates based on the utility and service area.

Regional Analysis

The regions analyzed in the market are North America, Europe, Asia-Pacific, and Rest of the World. Asia-Pacific has a significant share in the electric vehicle charging station market, due to government initiatives in countries like China, Japan, India, and Singapore. These countries focus on investing in charging infrastructure and increasing collaborations between vehicle manufacturers and technology providers.

Favorable government policies, like tax waivers and incentives for EV owners, are not hindering factors in the region. In 2020, the rising sales of EVs prompted many manufacturers to establish operations in Asia-Pacific, including Tesla, Tata Motors, and Hyundai Motor Company who plan to produce EVs and charging stations. This is expected to boost sales and installation of EV charging infrastructure in the region.

Major Players

Key players in the market are Siemens (Germany), ABB (Switzerland), EVgo Services LLC (US), ChargePoint, Inc. (US), Eaton (Ireland), Webasto Group (Germany), Schneider Electric (France), and Tesla (US),

COVID 19 Impacts

Due to the widespread of the COVID-19 pandemic, automakers have taken drastic measures in the form of plant closures to prevent its spread. The impact of COVID-19 on the global economy is constantly evolving, posing a big challenge to various industries and causing job losses. The pandemic has caused widespread cancellations and postponements of recreational activities and sporting events due to global lockdowns. The ban on large gatherings has greatly impacted the motorsports industry.

Major players in the electric vehicle charging market have been hit by the slowdown caused by COVID-19, making it difficult for them to initiate projects and develop products. To mitigate the slowdown in production, many companies are relying on government support in the form of special tax schemes and incentives to minimize losses during the pandemic.

Automotive Active Health Monitoring System

TABLE OF CONTENTS

1 EXECUTIVE SUMMARY

1.1 MARKET ATTRACTIVENESS ANALYSIS

1.1.1 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY CHARGING STATION

1.1.2 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY CONNECTOR TYPE

1.1.3 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY APPLICATION

1.1.4 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY VEHICLE TYPE

1.1.5 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY REGION

2 MARKET INTRODUCTION

2.1 DEFINITION

2.2 SCOPE OF THE STUDY

2.3 MARKET STRUCTURE

3 RESEARCH METHODOLOGY

3.1 RESEARCH PROCESS

3.2 PRIMARY RESEARCH

3.3 SECONDARY RESEARCH

3.4 MARKET SIZE ESTIMATION

3.5 TOP-DOWN AND BOTTOM-UP APPROACH

3.6 FORECAST MODEL

3.7 LIST OF ASSUMPTIONS

4 MARKET DYNAMICS

4.1 INTRODUCTION

4.2 DRIVERS

4.2.1 INCREASE IN DEMAND FOR ELECTRIC VEHICLES

4.2.2 STRATEGIC INITIATIVES BY MAJOR PLAYERS

4.2.3 DRIVERS IMPACT ANALYSIS

4.3 RESTRAINTS

4.3.1 DEMAND FOR CNG AND LPG VEHICLES

4.3.2 RESTRAINTS IMPACT ANALYSIS

4.4 OPPORTUNITIES

4.4.1 LAUNCH OF ULTRA-FAST ELECTRIC VEHICLE CHARGING STATIONS

4.5 COVID-19 IMPACT ANALYSIS

4.5.1 ECONOMIC IMPACT ON AUTOMOTIVE INDUSTRY

4.5.2 IMPACT ON AUTOMOTIVE PRODUCTION

4.5.2.1 FORD

4.5.2.2 AMERICAN HONDA

4.5.2.3 FCA

4.5.2.4 KIA

4.5.2.5 VOLKSWAGEN

4.5.3 IMPACT ON ELECTRIC VEHICLE CHARGING STATION MARKET

4.5.3.1 IMPACT ON SUPPLY CHAIN

4.5.3.2 CASH FLOW CONSTRAINTS

4.5.4 IMPACT ON WORLD TRADE

5 MARKET FACTOR ANALYSIS

5.1 PORTER’S FIVE FORCES MODEL

5.1.1 THREAT OF NEW ENTRANTS

5.1.2 BARGAINING POWER OF SUPPLIERS

5.1.3 THREAT OF SUBSTITUTES

5.1.4 BARGAINING POWER OF BUYERS

5.1.5 INTENSITY OF RIVALRY

5.2 SUPPLY CHAIN ANALYSIS

5.2.1 DESIGN & DEVELOPMENT

5.2.2 RAW MATERIAL/COMPONENT SUPPLY

5.2.3 MANUFACTURE

5.2.4 DISTRIBUTION/SUPPLY

5.2.5 END USE

5.3 TECHNOLOGY TRENDS

5.3.1 SOLAR POWERED ELECTRIC VEHICLE CHARGING STATION

5.4 PATENT TRENDS: ELECTRIC VEHICLE CHARGING STATION

5.5 PLASTICS USED

5.5.1 POLYAMIDE

5.5.2 POLYCARBONATE

5.5.3 POLYURETHANE

5.5.4 POLYPROPYLENE

6 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY CHARGING STATION

6.1 OVERVIEW

6.2 AC CHARGING STATION

6.2.1 LEVEL 1

6.2.2 LEVEL 2

6.3 DC CHARGING STATION

6.4 INDUCTIVE CHARGING STATION

7 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY CONNECTOR TYPE

7.1 OVERVIEW

7.2 CHADEMO

7.3 COMBINED CHARGING SYSTEM

7.4 OTHERS

8 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY APPLICATION

8.1 OVERVIEW

8.2 RESIDENTIAL

8.3 COMMERCIAL

9 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY VEHICLE TYPE

9.1 OVERVIEW

9.2 BATTERY ELECTRIC VEHICLE (BEV)

9.3 PLUG–IN HYBRID VEHICLE (PHEV)

9.4 HYBRID ELECTRIC VEHICLE (HEV)

10 GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET, BY REGION

10.1 OVERVIEW

10.2 NORTH AMERICA

10.2.1 US

10.2.2 CANADA

10.2.3 MEXICO

10.3 EUROPE

10.3.1 GERMANY

10.3.2 UK

10.3.3 FRANCE

10.3.4 ITALY

10.3.5 REST OF EUROPE

10.4 ASIA-PACIFIC

10.4.1 CHINA

10.4.2 JAPAN

10.4.3 INDIA

10.4.4 REST OF ASIA-PACIFIC

10.5 REST OF THE WORLD

10.5.1 MIDDLE EAST & AFRICA

10.5.2 SOUTH AMERICA

11 COMPETITIVE LANDSCAPE

11.1 COMPETITIVE OVERVIEW

11.2 MAJOR GROWTH STRATEGY IN THE GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET

11.3 COMPETITIVE BENCHMARKING

11.4 MARKET SHARE ANALYSIS

11.5 KEY DEVELOPMENTS IN THE GLOBAL ELECTRIC VEHICLE CHARGING STATION MARKET

11.5.1 KEY DEVELOPMENTS: MERGERS & ACQUISITIONS

11.5.2 KEY DEVELOPMENTS: PARTNERSHIPS & COLLABORATIONS

11.5.3 KEY DEVELOPMENTS: EXPANSIONS

11.5.4 KEY DEVELOPMENTS: PRODUCT DEVELOPMENTS/LAUNCHES

12 COMPANY PROFILES

12.1 SCHNEIDER ELECTRIC

12.1.1 COMPANY OVERVIEW

12.1.2 FINANCIAL OVERVIEW

12.1.3 PRODUCTS OFFERED

12.1.4 KEY DEVELOPMENTS

12.1.5 SWOT ANALYSIS

12.1.6 KEY STRATEGIES

12.2 ABB

12.2.1 COMPANY OVERVIEW

12.2.2 FINANCIAL OVERVIEW

12.2.3 PRODUCTS OFFERED

12.2.4 KEY DEVELOPMENTS

12.2.5 SWOT ANALYSIS

12.2.6 KEY STRATEGY

12.3 EATON

12.3.1 COMPANY OVERVIEW

12.3.2 FINANCIAL OVERVIEW

12.3.3 PRODUCTS/SOLUTIONS/SERVICES OFFERED

12.3.4 KEY DEVELOPMENTS

12.3.5 SWOT ANALYSIS

12.3.6 KEY STRATEGIES

12.4 SIEMENS

12.4.1 COMPANY OVERVIEW

12.4.2 FINANCIAL OVERVIEW

12.4.3 PRODUCTS OFFERED

12.4.4 KEY DEVELOPMENTS

12.4.5 SWOT ANALYSIS

12.4.6 KEY STRATEGIES

12.5 WEBASTO GROUP

12.5.1 COMPANY OVERVIEW

12.5.2 FINANCIAL OVERVIEW

12.5.3 PRODUCTS OFFERED

12.5.4 KEY DEVELOPMENTS

12.5.5 SWOT ANALYSIS

12.5.6 KEY STRATEGIES

12.6 TESLA

12.6.1 COMPANY OVERVIEW

12.6.2 FINANCIAL OVERVIEW

12.6.3 PRODUCTS OFFERED

12.6.4 KEY DEVELOPMENTS

12.6.5 SWOT ANALYSIS

12.6.6 KEY STRATEGIES

12.7 EVGO SERVICES LLC

12.7.1 COMPANY OVERVIEW

12.7.2 FINANCIAL OVERVIEW

12.7.3 PRODUCTS OFFERED

12.7.4 KEY DEVELOPMENTS

12.8 CHARGEPOINT, INC.

12.8.1 COMPANY OVERVIEW

12.8.2 FINANCIAL OVERVIEW

12.8.3 PRODUCTS OFFERED

12.8.4 KEY DEVELOPMENTS

13 COMPANY PROFILES (PLASTIC SUPPLIERS)

13.1 BASF SE

13.1.1 COMPANY OVERVIEW

13.1.2 FINANCIAL OVERVIEW

13.1.3 PRODUCTS OFFERED

13.1.4 KEY DEVELOPMENTS

13.2 SABIC

13.2.1 COMPANY OVERVIEW

13.2.2 FINANCIAL OVERVIEW

13.2.3 PRODUCTS OFFERED

13.2.4 KEY DEVELOPMENTS

13.3 DUPONT

13.3.1 COMPANY OVERVIEW

13.3.2 FINANCIAL OVERVIEW

13.3.3 PRODUCTS OFFERED

13.3.4 KEY DEVELOPMENTS

13.4 COVESTRO

13.4.1 COMPANY OVERVIEW

13.4.2 FINANCIAL OVERVIEW

13.4.3 PRODUCTS OFFERED

13.4.4 KEY DEVELOPMENTS

13.5 LG CHEM

13.5.1 COMPANY OVERVIEW

13.5.2 FINANCIAL OVERVIEW

13.5.3 PRODUCTS OFFERED

13.5.4 KEY DEVELOPMENTS

13.6 EVONIK INDUSTRIES

13.6.1 COMPANY OVERVIEW

13.6.2 FINANCIAL OVERVIEW

13.6.3 PRODUCTS OFFERED

13.6.4 KEY DEVELOPMENTS

14 APPENDIX

14.1 DATA SOURCES

Additional information

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Geography Covered

Date Published

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Companies Mentioned

Siemens (Germany), ABB (Switzerland), EVgo Services LLC (US), ChargePoint, Inc. (US), Eaton (Ireland),  Webasto Group (Germany), Schneider Electric (France), and Tesla (US),