EV Mobile Charging Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Vehicle Type (Two-Wheeler, Passenger Car, Commercial Vehicle), By Type (AC, DC), By Connector Type (Type 2, Type 1, UK 3-Pin, CHAdeMO, CCS, Others), By Charging Time (Slow, Fast), and By Region 2021-2031F

Forecast Period	2027-2031
Market Size (2025)	USD 1.98 Billion
CAGR (2026-2031)	23.01%
Fastest Growing Segment	Two-Wheeler
Largest Market	North America
Market Size (2031)	USD 6.86 Billion

Market Overview

The Global EV Mobile Charging Market will grow from USD 1.98 Billion in 2025 to USD 6.86 Billion by 2031 at a 23.01% CAGR. The Global EV Mobile Charging Market consists of portable battery systems and vehicle-mounted units designed to deliver electricity to electric vehicles independent of fixed grid connections. Key drivers propelling this market include the mitigation of range anxiety, the necessity for emergency roadside assistance, and the operational flexibility required by fleets in grid-constrained areas. These structural factors differ from transient trends, stemming from the fundamental disparity between rapid electric vehicle adoption and the slower deployment of permanent charging infrastructure.

A significant challenge impeding market expansion is the high capital cost of mobile storage technologies combined with complex regulatory frameworks governing off-grid energy transfer. According to the International Energy Agency, in 2024, more than 1.3 million public charging points were added to the global stock, a development that underscores the rapid pace of infrastructure growth while simultaneously highlighting the persistent coverage deficits that necessitate agile mobile charging interventions.

Key Market Drivers

The persistent gaps in fixed public charging infrastructure serve as a primary catalyst for the Global EV Mobile Charging Market, creating an immediate requirement for deployable off-grid power solutions. As electric vehicle sales continue to outpace the installation of permanent stations, mobile charging units are increasingly utilized to mitigate coverage deficits and provide emergency range extension. According to the Alliance for Automotive Innovation, June 2025, in the 'Get Connected Electric Vehicle Report Q1 2025', the disparity in infrastructure deployment resulted in a ratio of 42 new electric vehicles registered for every new public charging port added. This widening imbalance underscores the critical role of mobile systems in bridging the gap between vehicle adoption rates and the slower development of stationary grid-tied networks.

Simultaneously, the accelerated electrification of commercial and logistics fleets is driving substantial market growth, particularly in scenarios where depot grid capacity is insufficient. Fleet operators are rapidly scaling their electric assets, necessitating flexible charging strategies to maintain operational uptime without waiting for costly grid upgrades. According to the DHL Group, September 2025, in a corporate press release regarding electromobility progress, the company's global fleet has expanded to consist of over 42,000 electric vehicles. However, supporting such large-scale electrification is challenged by grid bottlenecks; according to Ofgem, in 2025, the grid connection queue for new energy projects has grown tenfold over the last five years, forcing operators to rely on mobile charging alternatives to bypass significant connection delays.

Download Free Sample Report

Key Market Challenges

The high capital cost of mobile storage technologies fundamentally restricts the expansion of the Global EV Mobile Charging Market by elevating the financial threshold for market entry and scalability. Mobile charging assets require substantial onboard battery capacity to service multiple electric vehicles effectively, making the initial capital expenditure for a single unit disproportionately high compared to fixed charging points. This cost structure forces operators to demand higher service fees to recover their investment, which limits the addressable customer base to those willing to pay a premium for convenience or emergency services. Consequently, the high upfront expense dampens the ability of fleets to scale operations rapidly, confining the technology to niche use cases rather than mass adoption.

According to the International Energy Agency, in 2024, the price of lithium-ion battery packs declined by approximately 20% due to lower raw material costs and manufacturing efficiencies. Despite this reduction, the aggregate cost of the high-capacity storage systems essential for commercial mobile charging remains a significant economic burden, preventing the market from achieving price parity with stationary infrastructure and hampering broader commercial viability.

Key Market Trends

The Emergence of Autonomous Mobile Charging Robots is fundamentally altering the market by automating the final connection between power sources and electric vehicles, particularly within space-constrained parking environments. These self-navigating units utilize advanced sensor fusion to locate vehicles and execute charging sessions without human intervention, effectively maximizing infrastructure utilization rates while eliminating the need for dedicated fixed stalls. This technological progression is rapidly expanding the service footprint of major industry players; according to Green Stock News, February 2025, in the 'NaaS Technology Achieves Strong Demand-side Growth in Charging Service Business' report, the company's integrated charging network, which includes these autonomous robotic solutions, has successfully achieved a coverage rate extending to over 60% of China's New Energy Vehicle owners.

The Adoption of Charging-as-a-Service (CaaS) Subscription Models is simultaneously reshaping the economic landscape by enabling fleet operators to shift from capital-intensive asset purchasing to flexible operational expenditure. This business model allows commercial fleets to access mobile power infrastructure on-demand, thereby bypassing the prohibitive upfront costs of hardware acquisition and the logistical complexities of permanent grid integration. The scalability of this approach has attracted substantial investment to support rapid deployment; according to CleanTechnica, June 2025, in the 'SparkCharge And Its Charging As A Service Platform' article, SparkCharge raised $30.5 million in capital specifically to accelerate the expansion of its mobile CaaS platform and support broader fleet electrification efforts across North America.

Segmental Insights

Based on recent industry analysis, the Two-Wheeler segment is emerging as the fastest-growing category within the Global EV Mobile Charging Market. This rapid expansion is primarily driven by the widespread electrification of last-mile delivery fleets and increasing personal adoption in densely populated urban regions. Unlike larger vehicles, two-wheelers benefit significantly from mobile charging solutions due to their smaller battery capacities, which allow for efficient, on-demand power replenishment without heavy infrastructure. Furthermore, the limited availability of fixed charging stations in developing economies necessitates flexible support, prompting fleet operators to rely on mobile units to ensure service uptime and mitigate range anxiety.

Regional Insights

North America commands the leading position in the Global EV Mobile Charging Market, primarily driven by robust electric vehicle adoption and strategic government investment in infrastructure resilience. The region's dominance is anchored by substantial federal support, specifically through the National Electric Vehicle Infrastructure (NEVI) program, which aims to eliminate charging accessibility gaps. This regulatory environment fosters high demand for flexible, off-grid, and portable charging solutions to address range anxiety and support commercial fleets. Consequently, the United States serves as the central hub for technological advancements that ensure consistent power availability for the growing electric mobility sector.

Recent Developments

• In October 2024, Power Innovations International (Pii) collaborated with Advanced Power & Energy to launch a new mobile charging unit tailored for the electric vehicle market. This development was introduced to address the growing demand for flexible charging solutions at industrial sites and automotive auctions where permanent chargers are impractical. The newly released mobile unit operates independently of the grid, offering rapid deployment capabilities for commercial fleets and temporary events. This product launch underscores the company's strategy to expand its portfolio of mobile power systems, ensuring reliable and efficient energy access for EVs in diverse and remote operational environments.
• In August 2024, Pioneer Power Solutions established a strategic partnership with SparkCharge to enhance the availability of mobile electric vehicle charging services. This collaboration focuses on integrating Pioneer's e-Boost mobile charging platform with SparkCharge's portable battery energy storage systems to create a robust mobile charging ecosystem. Under the agreement, Pioneer committed to supplying its e-Boost units to support the expansion of SparkCharge’s mobile charging network. The partnership aims to provide fleet operators and consumers with a seamless, off-grid charging solution that combines power-dense generation with zero-emission battery technology, thereby accelerating the adoption of mobile charging infrastructure.
• In June 2024, GoSun unveiled a portable solar-powered charging system designed to mount on the roof rack of electric vehicles. This breakthrough product harnesses solar energy to recharge the vehicle's battery, capable of providing up to 30 miles of range per day under optimal conditions. The system features a lightweight, collapsible solar array that can be deployed when the vehicle is parked, allowing drivers to generate their own power off-grid. This launch represents a significant advancement in mobile charging technology, offering EV owners a renewable and independent method to mitigate range anxiety without relying solely on the electrical grid.
• In March 2024, ZEVx announced the launch of its configurable Mobile Charging Unit (MCU) trailer at a major industry summit. This new product integrates proprietary battery technology with intelligent energy management to provide on-demand charging for electric vehicles in locations where fixed infrastructure is insufficient or unavailable. The trailer-based system is designed with high-density battery packs and can be customized with energy storage capacities ranging from 180 kWh to 480 kWh. By offering simultaneous DC fast charging for multiple vehicles, this innovation directly addresses the market need for flexible, mobile power solutions for fleets and rescue services.

Key Market Players

• SparkCharge
• Blink Charging
• FreeWire Technologies
• ChargePoint Holdings
• EV Safe Charge
• Shell Recharge
• Enel X
• Schneider Electric
• Heliox Energy
• JTM Power

By Vehicle Type	By Type	By Connector Type	By Charging Time	By Region
Two-Wheeler Passenger Car Commercial Vehicle	AC DC	Type 2 Type 1 UK 3-Pin CHAdeMO CCS Others	Slow Fast	North America Europe Asia Pacific South America Middle East & Africa

Report Scope:

In this report, the Global EV Mobile Charging Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• EV Mobile Charging Market, By Vehicle Type:

• Two-Wheeler
• Passenger Car
• Commercial Vehicle

• EV Mobile Charging Market, By Type:

• AC
• DC

• EV Mobile Charging Market, By Connector Type:

• Type 2
• Type 1
• UK 3-Pin
• CHAdeMO
• CCS
• Others

• EV Mobile Charging Market, By Charging Time:

• Slow
• Fast

• EV Mobile Charging Market, By Region:

• North America
• United States
• Canada
• Mexico
• Europe
• France
• United Kingdom
• Italy
• Germany
• Spain
• Asia Pacific
• China
• India
• Japan
• Australia
• South Korea
• South America
• Brazil
• Argentina
• Colombia
• Middle East & Africa
• South Africa
• Saudi Arabia
• UAE