Electric Vehicle On-Board Charger Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Propulsion Type (Battery Electric Vehicles (BEVs, Plug-In Hybrid Electric Vehicle (PHEVs)), By Vehicle Type (Passenger Vehicles, Commercial Vehicles), By Charging Power (<=6.6kW, 6.7-11.0kW, 11.1-22.0kW, >22.0kW), By Distribution Channel (OEMs, Aftermarket), By Design Type (Unidirectional, Bidirectional), By Product Type (Without Embedded DC/DC Converter, With Embedded DC/DC Converter), and By Region 2021-2031F

Forecast Period	2027-2031
Market Size (2025)	USD 7.13 Billion
CAGR (2026-2031)	16.34%
Fastest Growing Segment	BEVs
Largest Market	Asia Pacific
Market Size (2031)	USD 17.68 Billion

Market Overview

The Global Electric Vehicle On-Board Charger Market will grow from USD 7.13 Billion in 2025 to USD 17.68 Billion by 2031 at a 16.34% CAGR. An electric vehicle onboard charger is a power conversion device integrated into the vehicle that transforms alternating current from external sources into direct current for the battery pack. The market is primarily supported by the accelerating worldwide adoption of electric mobility and legislative mandates regarding clean transportation which compel manufacturers to ensure widespread AC charging compatibility.

A notable challenge potentially impeding market expansion is the increasing development of direct current fast charging stations which bypass the onboard charger and reduce the necessity for high capacity internal converters. According to the International Energy Agency, in 2024, global electric car sales exceeded 17 million units.

Key Market Drivers

The accelerating global adoption of battery and plug-in hybrid electric vehicles acts as the primary driver for the on-board charger market, as these units are essential for converting grid alternating current to the direct current required by battery packs. This surge in vehicle manufacturing directly amplifies the demand for efficient power conversion modules across all vehicle classes. According to the China Association of Automobile Manufacturers, October 2025, in the 'September 2025 New Energy Vehicle Production and Sales' update, monthly sales of new energy vehicles in China reached 1.6 million units. To provide broader context on this consumption shift, according to the European Automobile Manufacturers' Association, in 2025, battery-electric vehicles captured 16.4% of the total European Union market share during the first ten months of the year.

Concurrently, the expansion of public and private AC charging infrastructure networks fundamentally underpins the necessity for reliable on-board charging solutions. Despite the emergence of fast-charging technologies, the widespread deployment of alternating current terminals at residences and commercial venues ensures that internal converters remain a critical subsystem for daily vehicle operation. According to the International Energy Agency, April 2025, in the 'Global EV Outlook 2025', the inventory of public charging points in Europe expanded by more than 35% in 2024 compared to the preceding year. This infrastructure proliferation compels automotive OEMs to integrate versatile chargers that ensure compatibility with an increasingly dense and diverse grid ecosystem.

Download Free Sample Report

Key Market Challenges

The increasing development of Direct Current (DC) fast-charging stations presents a significant impediment to the growth of the Global Electric Vehicle On-Board Charger Market. Unlike standard charging methods that rely on the vehicle's internal hardware to convert Alternating Current (AC) into energy for the battery, DC fast chargers perform this high-power conversion externally. This architecture allows electricity to bypass the onboard charger entirely, effectively rendering the component redundant during rapid charging sessions. As automakers and infrastructure providers prioritize charging speed, the strategic necessity for expensive, high-capacity internal chargers diminishes, threatening to devalue the market as manufacturers may opt for lower-specification units suitable only for slower residential charging.

This shift toward external power conversion is quantifiable and accelerating. According to the Alliance for Automotive Innovation, in 2024, the number of public DC fast chargers in the United States increased by 31 percent compared to the previous year. Such rapid expansion of external conversion infrastructure directly limits the market scope for onboard chargers, reducing the reliance on in-vehicle power electronics for public charging applications and constraining revenue potential for high-performance units.

Key Market Trends

The Transition to Silicon Carbide and Gallium Nitride Semiconductors represents a critical technical evolution reshaping the On-Board Charger (OBC) landscape. As automotive manufacturers increasingly migrate toward 800-volt high-voltage architectures to facilitate ultra-fast charging, OBCs require the superior power density and thermal efficiency that wide-bandgap materials provide over traditional silicon-based components. This shift compels suppliers to re-engineer converter topologies to minimize switching losses and reduce the physical footprint of the module within the vehicle. Validating this industrial pivot, according to STMicroelectronics, January 2025, in the 'Q4 and FY 2024 Financial Results' press release, the company prioritized the acceleration of its 200mm Silicon Carbide wafer fabrication capacity to meet automotive demand, reporting full-year net revenues of $13.27 billion.

Simultaneously, the Widespread Adoption of Bidirectional Vehicle-to-Grid Technology is transforming the OBC from a passive load into an active grid asset. This trend necessitates the integration of complex bi-directional power flow capabilities, enabling electric vehicles to stabilize municipal power networks and provide emergency backup during outages. Consequently, OEMs are launching commercial services that monetize this functionality, thereby incentivizing the consumer purchase of V2G-capable hardware. Exemplifying this commercialization, according to BMW Group, September 2025, in the press release 'BMW Group and E.ON introduce Germany's first customer solution enabling electric cars to actively participate in the energy market', the company launched a service for the BMW iX3 that allows owners to potentially earn up to €720 annually by feeding stored battery energy back into the power grid.

Segmental Insights

The Battery Electric Vehicle segment represents the fastest-growing category in the Global Electric Vehicle On-Board Charger Market, fueled by the accelerating transition to zero-emission transportation. This trajectory is supported by rigorous environmental mandates from organizations such as the European Commission, which incentivize the replacement of internal combustion engines with fully electric alternatives. Because these vehicles rely solely on external electricity, they require essential on-board chargers to convert grid power for battery storage. Consequently, the rising production of all-electric models directly amplifies the demand for compatible charging units, establishing this segment as a primary driver of market expansion.

Regional Insights

Asia Pacific maintains a leading position in the global electric vehicle on-board charger market, largely attributed to the high volume of electric vehicle manufacturing and sales in China. This dominance is reinforced by stringent government initiatives aimed at reducing emissions. Notably, the Ministry of Industry and Information Technology in China has established policies that mandate the production of new energy vehicles, directly driving the demand for on-board chargers. The established automotive supply chain and increasing investments in charging infrastructure throughout the region further support this sustained market superiority.

Recent Developments

• In December 2025, Inovance Automotive and Innoscience announced that their jointly developed 6.6-kilowatt on-board charger had entered mass installation in vehicles manufactured by Changan Automobile. This new charging system utilized 650-volt gallium nitride technology, which the companies claimed enabled a significant increase in power density and operational efficiency compared to traditional silicon-based solutions. The collaboration resulted in a "two-in-one" power system that integrated the on-board charger with a DC-DC converter, achieving a 20 percent reduction in system weight and optimizing the vehicle's overall packaging and energy consumption.
• In September 2024, Valeo inaugurated a new production facility in Pune, India, specifically dedicated to expanding its manufacturing capabilities for electric vehicle power electronics. The new plant was established to produce the company's "On-Board Power Supply 3-in-1" combo unit, which integrates an on-board charger, a DC-DC converter, and a power distribution unit into a single compact solution. This expansion was part of the company's strategy to deepen localization and meet the growing demand for electrified powertrain components in the region, ensuring long-term competitiveness in the electrification market.
• In June 2024, Texas Instruments and Delta Electronics revealed a long-term collaboration aimed at advancing the development of next-generation on-board charging solutions for electric vehicles. The companies established a joint innovation laboratory in Taiwan to leverage their combined research and development capabilities in power management. A primary focus of this partnership was the creation of a lighter and more cost-effective 11-kilowatt on-board charger utilizing real-time microcontrollers and active electromagnetic interference filtering. This joint effort reportedly resulted in a charger design that reduced the overall size by 30 percent while maintaining high power conversion efficiency.
• In February 2024, Vitesco Technologies announced that it had prepared its High Voltage Box for series production, a modular system designed to integrate key electric vehicle power components into a single unit. This device combined the on-board charger for AC grid charging, a DC/DC converter for the 12-volt vehicle net, and power electronics for high-voltage distribution. The company highlighted that this integrated solution was developed to support 800-volt system architectures and utilized silicon carbide technology to achieve charging efficiencies exceeding 95 percent, thereby reducing vehicle weight and optimizing installation space for automakers.

Key Market Players

• PHINIA Inc
• HYUNDAI MOBIS CO.,LTD
• LG Corporation
• STMicroelectronics
• Ficosa International S.A.
• Valeo SE
• Delta Energy Systems AG
• Toyota Industries Corporation
• Brusa Elektronik AG
• VisIC Technologies Ltd
• Bel Fuse Inc.

By Propulsion Type	By Vehicle Type	By Charging Power	By Distribution Channel	By Design Type	By Product Type	By Region
Battery Electric Vehicles (BEVs Plug-In Hybrid Electric Vehicle (PHEVs))	Passenger Vehicles Commercial Vehicles	<=6.6kW 6.7-11.0kW 11.1-22.0kW >22.0kW	OEMs Aftermarket	Unidirectional Bidirectional	Without Embedded DC/DC Converter With Embedded DC/DC Converter	North America Europe Asia Pacific South America Middle East & Africa

Report Scope:

In this report, the Global Electric Vehicle On-Board Charger Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Electric Vehicle On-Board Charger Market, By Propulsion Type:

• Battery Electric Vehicles (BEVs
• Plug-In Hybrid Electric Vehicle (PHEVs))

• Electric Vehicle On-Board Charger Market, By Vehicle Type:

• Passenger Vehicles
• Commercial Vehicles

• Electric Vehicle On-Board Charger Market, By Charging Power:

• <=6.6kW
• 6.7-11.0kW
• 11.1-22.0kW
• >22.0kW

• Electric Vehicle On-Board Charger Market, By Distribution Channel:

• OEMs
• Aftermarket

• Electric Vehicle On-Board Charger Market, By Design Type:

• Unidirectional
• Bidirectional

• Electric Vehicle On-Board Charger Market, By Product Type:

• Without Embedded DC/DC Converter
• With Embedded DC/DC Converter

• Electric Vehicle On-Board Charger 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