United States Electric Vehicle Charging Infrastructure (EVCI) Market Outlook - Forecast Trends, Market Size, Share and Growth Analysis Report (2025-2034)

The United States electric vehicle charging infrastructure (EVCI) market size reached around USD 5.48 Billion in 2024. The market is projected to grow at a CAGR of 39.90% between 2025 and 2034 to reach nearly USD 157.38 Billion by 2034.

Electric vehicle (EV) charging infrastructure refers to the network of facilities and equipment designed to supply electric energy for recharging electric vehicles. The infrastructure also includes the software and services necessary for operating the charging stations, managing payment systems, and integrating with the electric grid. This can involve smart charging solutions that optimise charging times based on electricity demand and supply, and vehicle-to-grid technologies that allow EVs to return energy to the grid, among others.

The United States electric vehicle charging infrastructure (EVCI) market growth can be attributed to the introduction of government policies aimed at improving the electric vehicle (EV) system, including charging stations in car parks and charging stations. In order to support the market development over the forecast period, important public and private initiatives to promote the use of EVs are also anticipated. Furthermore, government bodies like municipalities and the federal government are investing with the aid of private entities in the construction of EV charging stations.

Key Trends and Developments

Rapid expansion of DC fast chargers, rising use of renewable energy, adoption of smart charging technologies, and PPE for infrastructure development are positively impacting the United States electric vehicle charging infrastructure (EVCI) market growth

Feb 15th 2024

Michigan awarded nearly $23 million for EV infrastructure, aiming to boost EV accessibility statewide under the National Electric Vehicle Infrastructure Formula Program.

Jan 15th 2024

LG Electronics opened its first U.S. EV charger factory in Fort Worth, Texas, to support the growing EV infrastructure demand and create jobs.

Dec 11th 2023

The U.S. government committed to creating a network of over 500,000 public EV chargers by 2030, aiming to enhance America's electric vehicle infrastructure and usage.

Jul 26th 2023

Seven automakers, including BMW and GM, united to launch a high-powered charging network across North America, planning at least 30,000 charge points.

Expansion of Fast Charging Networks

The U.S. is rapidly expanding its network of DC fast chargers along major highways and urban areas to reduce charging times and facilitate long-distance EV travel.

Integration of Renewable Energy Sources

There is a growing trend towards integrating EV charging infrastructure with renewable energy sources, such as solar and wind, to ensure sustainable and environmentally friendly charging solutions.

Smart Charging Technologies Adoption

Smart charging technologies that enable real-time communication between EVs and the grid, optimising charging schedules for efficiency and grid stability are increasingly adopted.

Public-Private Partnerships for Infrastructure Development

To accelerate the deployment of EV charging stations, the U.S. is witnessing a rise in public-private partnerships, leveraging both governmental support and private-sector innovation and investment.

United States Electric Vehicle Charging Infrastructure (EVCI) Market Trends

The market expansion is buoyed by the automotive industry's substantial investments in electric vehicle production, with major manufacturers announcing plans to significantly increase their EV offerings in the coming years. This surge in available EVs is driving the demand for more accessible and convenient charging options, spanning from urban centres to rural areas, thereby necessitating a widespread and reliable charging infrastructure.

The emergence and concentration of major automobile and electrical equipment industries in the United States also propel the United States electric vehicle charging infrastructure (EVCI) market expansion. Strict government restrictions on carbon emissions and pollution levels and the increasing popularity and adoption of EVs that involve the deployment of supporting infrastructure are further supporting the market.

However, high infrastructure costs and initial installations may hinder the United States electric vehicle charging infrastructure (EVCI) market growth. The costs of research and development activities are extremely significant as they require a committed workforce.

Market Segmentation

“United States Electric Vehicle Charging Infrastructure (EVCI) Market Report and Forecast 2025-2034” offers a detailed analysis of the market based on the following segments:

Breakup by Charger Type

• Slow Chargers
• Fast Chargers

Breakup by Connector

• CHAdeMO
• Combined Charging System (CCS)
• Others

Breakup by Application

• Commercial
• Residential

Breakup by Region

• New England
• Mideast
• Great Lakes
• Plains
• Southeast
• Southwest
• Rocky Mountain
• Far West

Slow chargers are likely to be most prevalent in public and private places owing to their cost effectiveness

Slow chargers, primarily Level 1 and Level 2 chargers, are the most common types of EV charging stations currently installed across the United States. Level 1 chargers, offering the slowest charging speed, typically use a standard 120-volt AC plug and are often used for residential charging, providing about 2 to 5 miles of range per hour of charging.

Level 2 chargers, on the other hand, operate on 240-volt AC power and are much faster, offering about 12 to 80 miles of range per hour of charging. These are widely installed in both public and private settings, including homes, workplaces, and public parking areas.

Meanwhile, fast chargers, or DC Fast Chargers (DCC), are expected to dominate the United States electric vehicle charging infrastructure (EVCI) market share in the forecast period as they provide significantly higher charging speeds, offering 60 to 100 miles of range in just 20 minutes of charging, depending on the model and charging capacity.

Increasing adoption of combined charging systems is expected to propel the growth of the United States electric vehicle charging infrastructure (EVCI) market

Combined charging system (CCS) is a DC fast charging standard that has been widely adopted by American and European automakers. It integrates AC charging capability (using the J1772 connector in the U.S.) and DC fast charging into a single port on the vehicle, offering a versatile solution for EV charging. This universality, combined with significant backing from a large number of manufacturers, has driven its adoption. In the United States electric vehicle charging infrastructure (EVCI) market, the infrastructure for CCS is rapidly expanding, with major investments from both public and private sectors aimed at increasing the availability of CCS fast charging stations across the country.

CHAdeMO is a DC fast charging standard that originated in Japan. It was one of the first such standards to be widely adopted, supported primarily by Japanese automakers like Nissan and Mitsubishi.

United States Electric Vehicle Charging Infrastructure (EVCI) Market Analysis By Region

The Southwest, particularly California, is unequivocally the leader in the United States EVCI market. California's aggressive push for electrification, supported by stringent regulations, comprehensive incentives, and a tech-savvy population, has established it as a model for EV adoption and infrastructure development. The state's ambition to phase out gasoline-powered vehicles by 2035 further underscores its leading position.

Meanwhile, New England, known for its progressive environmental policies, has a growing electric vehicle charging infrastructure (EVCI), supported by state-level incentives and a commitment to reducing carbon emissions. The Mideast region includes states with a mix of urban and rural areas, where EV adoption is growing, particularly in densely populated urban centres.

States like New York and New Jersey have implemented ambitious programmes to expand their EV charging networks and offer various incentives for EV buyers and infrastructure developers, fuelling the United States electric vehicle charging infrastructure (EVCI) market expansion.

Competitive Landscape

Some of the major players in the United States electric vehicle charging infrastructure (EVCI) market are increasingly investing in the development of advanced charging technologies:

ChargePoint, Inc.

ChargePoint is at the forefront of advancing electric vehicle (EV) charging networks, providing an extensive array of products and services, including hardware, software, and support. It caters to businesses, fleets, and individual drivers, with a strong presence in North America and Europe.

AeroVironment, Inc.

AeroVironment stands out for its dual expertise in unmanned aircraft systems and electric vehicle charging solutions, catering to a diverse clientele from military to commercial sectors worldwide. Its innovation-driven approach aims to enhance efficiency and sustainability in both domains.

General Electric Company

As a diversified multinational conglomerate, General Electric operates across several sectors, including aviation, power, and renewable energy. It is increasingly focusing on electric vehicle charging solutions, leveraging its broad technological base to innovate in the sustainable energy space.

Leviton Manufacturing Co.

With a long history in electrical wiring equipment, Leviton has expanded its offerings to include electric vehicle chargers, alongside a comprehensive range of products for residential, commercial, and industrial applications. It emphasises smart technology and sustainability in its solutions.

Other key players in the United States electric vehicle charging infrastructure (EVCI) market are SemaConnect, Inc., and Tesla, Inc., among others.

Significant investments are being made in developing more advanced charging technologies, including faster chargers and more efficient systems, as well as expanding the physical infrastructure to cover more geographic areas. This includes both public and private investment, with initiatives aimed at increasing the number of charging stations across highways, residential areas, and commercial spaces.
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