Bidirectional EV Charging V2GV2H System Market

Bidirectional EV Charging (V2G/V2H) System Market Size

The global bidirectional EV charging (V2G/V2H) system market was valued at USD 1.4 billion in 2024. The market is expected to grow from USD 1.7 billion in 2025 to USD 12.5 billion in 2034, at a CAGR of 24.8%, according to latest report published by Global Market Insights Inc.

The bidirectional EV charging (V2G/V2H) system market is expected to experience robust growth over the coming years, fueled by the accelerating adoption of electric vehicles, the expansion of EV fleets, and the rising demand for intelligent energy management solutions. As bidirectional charging infrastructure, vehicle-grid integration, and energy storage technologies advance, stakeholders are prioritizing operational efficiency, grid reliability, and optimized load distribution to enable scalable, cost-effective, and resilient charging networks. The market is evolving toward connected, automated, and data-driven V2G/V2H operations, reshaping conventional approaches to energy management.

The increasing integration of IoT-enabled bidirectional chargers, AI-driven load balancing algorithms, and cloud-based energy management platforms is transforming the V2G/V2H landscape. These technologies allow real-time monitoring of grid demand, predictive scheduling of energy discharge from EVs, and seamless coordination between utilities, fleet operators, and charging network providers. By leveraging smart meters, telematics, and AI-powered analytics, market participants can enhance energy efficiency, reduce peak load stress, and optimize operational costs, supporting the evolution toward intelligent and resilient bidirectional charging ecosystems.

Digital transformation in the V2G/V2H domain is further driven by the deployment of automated demand-response systems, digital twin models of charging infrastructure, and vehicle-to-grid integration. These solutions improve forecasting accuracy, streamline energy distribution, and enable simulation-based planning for future network expansion. Integration of bidirectional charging platforms with utility ERP systems, renewable energy sources, and cloud-based monitoring tools also strengthens grid coordination, regulatory compliance, and sustainability tracking.

For instance, in 2024, leading companies such as Wallbox, Siemens, Schneider Electric, and ABB expanded their bidirectional charging solutions to include AI-based predictive energy management, dynamic load balancing, and V2G-enabled infrastructure for residential, commercial, and fleet applications. Similarly, utility-backed networks like Enel X and EVgo are investing in smart V2G-enabled chargers, grid-responsive energy dispatch, and integrated energy management systems to ensure reliable, scalable, and efficient charging services. These initiatives highlight the growing focus on connected, technology-driven solutions across the global bidirectional EV charging ecosystem.

The market continues to advance technologically, propelled by the convergence of AI, IoT, cloud analytics, and high-voltage safety standards for bidirectional power flow. Providers are increasingly emphasizing interoperable, scalable platforms that support real-time monitoring, predictive load management, and sustainability-focused energy optimization. These innovations are redefining the bidirectional EV charging (V2G/V2H) system market, enabling faster, safer, and more efficient energy exchange while contributing to the global transition toward smart mobility, carbon-neutral transportation, and sustainable energy ecosystems.

Bidirectional EV Charging (V2G/V2H) System Market Trends

The demand for bidirectional EV charging (V2G/V2H) systems is rapidly increasing, driven by growing collaboration among utilities, charging network operators, technology providers, and EV OEMs to enhance grid reliability, energy efficiency, and sustainable energy distribution. These partnerships focus on developing scalable, data-driven, and interoperable V2G/V2H ecosystems that integrate AI-powered load optimization, IoT-enabled real-time monitoring, predictive energy scheduling, and cloud-based management platforms. The shared goal is to optimize energy flows between EVs and the grid, minimize peak load stress, and ensure compliance with evolving smart grid and bidirectional charging standards.

In 2024, ABB and Siemens launched initiatives to advance AI-driven bidirectional load management and predictive energy optimization for EV fleets, improving grid stability, dynamic energy dispatch, and V2G/V2H utilization efficiency. Similarly, Wallbox and Enel X are deploying region-specific bidirectional charging networks across Europe, North America, and Asia-Pacific, emphasizing real-time monitoring, telematics-based energy scheduling, and integration with renewable energy sources. These developments highlight a shift toward intelligent, connected charging frameworks that combine automation, real-time analytics, and sustainable energy management.

Regional localization of bidirectional charging services is emerging as a key trend. Utilities and network operators are establishing region-specific energy hubs to meet local grid requirements, renewable energy targets, and regulatory standards. These hubs integrate local data infrastructure, V2G-enabled chargers, and cloud platforms to deliver faster response times, improved load balancing, and seamless coordination with smart meters and grid operators. Such initiatives enhance regional energy resilience while supporting ESG and sustainability objectives.

The entry of emerging technology startups offering modular, AI-based V2G/V2H optimization and predictive energy management solutions is reshaping the competitive landscape. Companies focusing on vehicle-to-grid integration, high-voltage system monitoring, and cloud-based energy scheduling are introducing flexible and cost-effective solutions. These innovations allow utilities, fleet operators, and charging networks to enhance energy efficiency, reduce peak load stress, and improve user experience.

The development of standardized, interoperable, and modular bidirectional charging platforms is revolutionizing the V2G/V2H ecosystem. Leading players such as ABB, Wallbox, and Nissan are deploying cloud-integrated platforms that support multiple EV models, charger types, and grid configurations. These solutions enhance operational transparency, enable real-time energy tracking, and ensure network-wide compatibility. Growing adoption of modular architecture is reducing energy management costs, improving grid stability, and fostering a future-ready, connected bidirectional EV charging landscape.

Bidirectional EV Charging (V2G/V2H) System Market Analysis

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Based on charging, the market is divided into AC bidirectional charging systems and DC bidirectional charging systems. The AC bidirectional charging systems segment dominated the market accounting for around 65% share in 2024 and is expected to grow at a CAGR of over 25.2% from 2025 to 2034.

• The AC bidirectional charging systems segment plays a crucial role in enabling efficient V2G/V2H energy flow, supporting residential, commercial, and fleet applications. This segment leverages onboard AC chargers, smart load controllers, and communication interfaces to facilitate energy discharge from EVs to homes or grids. Its widespread adoption is driven by compatibility with most EVs, lower installation costs, and ease of integration with existing grid infrastructure.
  
• DC bidirectional charging systems are witnessing gradual growth, fueled by high-power applications such as commercial fleets, public fast-charging hubs, and V2G-enabled energy services. These systems require specialized inverters, high-capacity power electronics, and advanced grid protection mechanisms. While DC systems offer faster bidirectional energy transfer, their higher costs and complex installation limit immediate adoption compared to AC systems.
  
• AC bidirectional charging systems dominate the market, owing to their broad residential adoption, cost-effectiveness, and seamless integration with V2H and V2G applications. DC bidirectional systems are emerging as a growth driver in commercial and high-power segments, offering scalable solutions for future grid-responsive and fleet-based energy management deployments.
  

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Based on power capacity, the bidirectional EV charging (V2G/V2H) system market is divided into low power AC (3.3–7.2 kW), medium power AC (11–22 kW), DC fast charging (50–150 kW) and high-power DC (150+ kW). Low Power AC (3.3–7.2 kW) segment dominates the market accounting for around 50% share in 2024, and the segment is expected to grow at a CAGR of over 24.5% from 2025 to 2034.

• The Low Power AC (3.3–7.2kW) segment dominates the market, primarily driven by residential V2H and V2G applications. Its cost-effectiveness, ease of installation, and compatibility with most EVs make it the preferred choice for home and small commercial users. Smart bidirectional chargers, IoT-enabled monitoring, and AI-driven energy scheduling further enhance energy optimization and grid efficiency in this segment.
  
• The Medium Power AC (11–22kW) segment is experiencing steady growth, supported by adoption in workplaces, commercial complexes, and multi-unit residential environments. Integration with predictive load management, telematics, and software-based control systems enables efficient energy discharge from EVs while maintaining grid stability and operational reliability.
  
• DC Fast Charging (50–150kW) and High Power DC (150+kW) segments are emerging, mainly for commercial fleets, public V2G hubs, and depot charging applications. While offering higher power transfer and advanced grid services, these systems face slower adoption due to higher costs and complex infrastructure requirements. Low Power AC remains the market leader, with medium- and high-power segments expected to grow steadily as bidirectional charging infrastructure expands.
  

Based on charging location, the bidirectional EV charging (V2G/V2H) system market is divided into residential charging, workplace charging, fleet depot charging and public charging. The residential charging segment dominated the market and was valued at USD 503.5 million in 2024.

• The residential charging segment dominates the market, driven by the growing adoption of V2H and V2G-enabled home chargers. This segment plays a critical role in enabling energy discharge to homes and the grid, enhancing household energy efficiency, and supporting grid stability. Homeowners increasingly rely on AI-enabled predictive load management, IoT-based monitoring, and cloud-connected energy platforms to optimize energy flows, reduce peak load stress, and manage multiple charging points, reinforcing the dominance of residential charging in the market.
  
• The workplace charging segment is witnessing steady growth as companies deploy smart bidirectional chargers to manage energy distribution across office complexes and employee parking facilities. Integration with predictive scheduling, telematics, and automated load balancing allows efficient energy use, reduces operational costs, and improves system reliability, fueling demand for workplace charging solutions.
  
• Fleet depot charging and public charging segments are emerging as high-potential areas. Fleet depots benefit from high-capacity V2G/V2H chargers for commercial vehicles, while public charging hubs support grid services, renewable energy integration, and demand-response programs. These segments are essential for scaling bidirectional charging infrastructure, ensuring operational efficiency, and enabling sustainable transportation networks.
  

Based on integration level, the bidirectional EV charging (V2G/V2H) system market is divided into standalone bidirectional chargers, integrated with solar PV, integrated with stationary battery storage, fully integrated home energy systems and microgrid-integrated systems. The standalone bidirectional chargers segment dominated the market and was valued at USD 483.6 million in 2024.

• The standalone bidirectional chargers segment dominates the market, driven by the widespread adoption of simple, cost-effective V2G/V2H solutions that do not require additional energy infrastructure. Standalone chargers provide reliable bidirectional energy flow, enabling residential and small commercial users to discharge energy to homes or grids, while ensuring ease of installation, interoperability, and scalable deployment.
  
• Service providers and EV owners increasingly leverage AI-enabled load optimization, cloud-connected management platforms, and IoT-based monitoring to maximize energy efficiency, reduce peak load stress, and enhance operational performance, reinforcing the dominance of standalone bidirectional chargers in the market.
  
• The integrated systems segments including chargers integrated with solar PV, stationary battery storage, fully integrated home energy systems, and microgrid-integrated solutions are witnessing steady growth. These systems support renewable energy utilization, energy storage optimization, and grid-responsive V2G/V2H applications. Fully integrated and microgrid-connected platforms enable advanced load management, demand-response participation, and large-scale energy coordination, representing high-potential opportunities for future expansion alongside the established standalone charger segment.
  

Based on end use, the bidirectional EV charging (V2G/V2H) system market is divided into residential users, commercial & fleet operators, electric utilities & grid operators, industrial facilities and public sector & emergency services. Residential users segment dominated the market and was valued at USD 475.8 million in 2024.

• The residential users segment dominates the market, driven by the growing adoption of V2H and V2G-enabled home chargers. Homeowners are increasingly leveraging AI-powered load management, IoT-enabled monitoring, and cloud-based energy platforms to optimize energy flows, reduce peak load stress, and enhance household energy efficiency. The ease of installation, cost-effectiveness, and compatibility with most EVs reinforce the dominance of residential users in the bidirectional charging market.
  
• The commercial and fleet operators’ segment is witnessing steady growth, fueled by electrification of delivery fleets, buses, and company vehicles. Fleet operators are deploying specialized load management systems, predictive energy scheduling, and real-time monitoring to ensure operational efficiency, reduce energy costs, and maintain uptime. Regulatory mandates for emissions reduction and centralized energy management are further driving adoption in commercial and fleet applications.
  
• Electric utilities & grid operators, industrial facilities, and public sector & emergency services are emerging as high-potential segments. Utilities leverage V2G-enabled infrastructure for grid balancing and demand response, while industrial and public sector applications focus on energy reliability, peak load optimization, and integration with renewable sources. These end-use segments support broader adoption of bidirectional charging systems, complementing residential and commercial deployments to create a resilient and scalable energy ecosystem.  
  

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In 2024, Germany dominated the Europe bidirectional EV charging (V2G/V2H) system market with around 40% market share and generated approximately USD 194.8 million in revenue.

• Germany dominated the Europe market in 2024, driven by strong automotive manufacturing capabilities, supportive regulatory frameworks, and rapid adoption of V2G-enabled, connected charging infrastructure. The country is witnessing increasing deployment of AI-enabled load optimization, IoT-connected bidirectional chargers, predictive energy scheduling, and cloud-integrated energy management platforms to improve operational efficiency, grid reliability, and compliance with evolving energy standards.
  
• Germany’s key trends include the integration of V2G-enabled fast chargers, AI-driven load balancing, real-time monitoring, and predictive energy management across residential, commercial, and fleet charging networks. Operators leverage interoperable, modular, and scalable platforms to ensure consistent energy efficiency, optimize grid load, and support the growing EV fleet nationwide.
  
• Other European markets, including the Netherlands, France, and the UK, are also witnessing growth, supported by investments in smart bidirectional charging infrastructure, cloud-based management platforms, and skilled workforce training. While these regions focus on residential, workplace, and commercial applications, Germany remains Europe’s central hub for V2G innovation due to its industrial capability, technological leadership, and early adoption of intelligent bidirectional charging solutions.
  

US holds share of 88% share in North America market and it will grow tremendously between 2025 and 2034.

• North America dominated the bidirectional EV charging (V2G/V2H) system market in 2024, led by the United States, which benefits from a strong automotive manufacturing base, rapid deployment of V2G-enabled charging infrastructure, and a well-established presence of leading technology providers. The region has witnessed accelerated adoption of AI-driven load optimization, IoT-enabled real-time monitoring of bidirectional chargers, predictive energy scheduling, and cloud-based management platforms across residential, commercial, and fleet charging networks.
• Government initiatives promoting EV adoption, smart grid deployment, and sustainability targets, along with investments in clean energy transitions, are supporting market growth. Federal and state-level regulations encourage the installation of interoperable chargers, advanced V2G load management systems, and connected energy networks, enabling operators to reduce peak load stress, improve energy efficiency, and ensure compliance with environmental and safety standards.
  
• Key states such as California, Michigan, and Texas are emerging as innovation hubs for bidirectional EV charging technologies, driven by collaborations among utilities, OEMs, and technology vendors. Leading companies including ABB, Siemens, Schneider Electric, Wallbox, and Enel X are expanding their U.S. offerings, providing AI-powered load balancing, IoT-connected monitoring, predictive energy management, and cloud-integrated platforms, reinforcing the region’s dominant position in the North American V2G/V2H market.
  

China holds share of 33% in Asia Pacific market and it is expected to grow tremendously between 2025 and 2034.

• Asia-Pacific held a major share of the bidirectional EV charging (V2G/V2H) system market in 2024, supported by a rapidly growing automotive ecosystem, increasing adoption of connected EVs, and expanding investments in smart charging infrastructure, IoT monitoring, and predictive energy management technologies. The region has witnessed steady growth as OEMs, charging network operators, and technology providers deploy scalable, secure, and intelligent load management solutions to optimize energy distribution, enhance grid reliability, and ensure regulatory compliance.
  
• China dominated the Asia-Pacific bidirectional EV charging (V2G/V2H) system market, driven by strong demand from OEMs, fleet operators, and energy providers for high-performance, AI-enabled, and connected charging solutions. Key trends include adoption of AI-driven load balancing, IoT-enabled real-time monitoring of fast chargers, cloud-integrated energy management platforms, and predictive scheduling tools across public, residential, and commercial charging networks. Chinese operators are deploying modular, interoperable, and scalable platforms to meet national and regional energy regulations, enhance operational efficiency, and support the rapid expansion of electric mobility across the country.
  
• Other Asia-Pacific countries, including India, Japan, and South Korea, are emerging markets showing increasing adoption of advanced EV charging solutions across passenger and commercial networks. These markets are supported by government digitalization initiatives, smart grid modernization, and sustainability-focused policies, along with growing interest in connected load management, predictive energy analytics, and cloud-based monitoring platforms. These deployments enhance operational efficiency, ensure regulatory compliance, and facilitate large-scale, reliable, and cost-effective bidirectional EV charging across the region.
  

The bidirectional EV charging (V2G/V2H) system market in Brazil will experience significant growth between 2025 and 2034.

• Brazil holds the largest share of the bidirectional EV charging (V2G/V2H) system industry in 2024, supported by increasing adoption of AI-enabled load management, cloud-integrated energy platforms, IoT-based real-time monitoring, and predictive scheduling solutions. Demand is primarily driven by OEMs, fleet operators, and charging network providers seeking scalable, reliable, and intelligent systems to optimize public, fleet, and residential EV charging while ensuring grid stability, operational efficiency, and regulatory compliance.
  
• Brazil represents the largest market in Latin America, driven by strong investments in smart charging infrastructure, cloud-based load management platforms, and advanced energy analytics technologies. Network operators and service providers are deploying AI-powered load balancing, IoT-connected fast chargers, predictive energy management, and modular, interoperable platforms to improve grid efficiency, reduce peak demand, and optimize operational performance. These solutions enable accurate real-time monitoring, regulatory compliance, and enhanced energy utilization for passenger and commercial EV charging, reinforcing Brazil’s position as the regional leader in EV charging load management.
  
• Mexico is emerging as the fastest-growing market in Latin America, fueled by investments in smart charging infrastructure, cloud-based energy platforms, and AI-driven predictive scheduling solutions. Network operators and service providers are deploying interoperable, modular platforms, IoT-connected chargers, and advanced energy analytics to improve grid efficiency, reduce peak demand, and optimize operational performance. These solutions enable real-time monitoring, regulatory compliance, and enhanced energy utilization for passenger and commercial EV charging.
  

The bidirectional EV charging (V2G/V2H) system market in UAE will experience significant growth between 2025 and 2034.

• Middle East & Africa (MEA) accounted for a modest share of the market in 2024, supported by increasing adoption of AI-enabled load management, cloud-based energy platforms, IoT-connected monitoring, and predictive scheduling solutions. The region is witnessing steady growth as utilities, charging network operators, OEMs, and technology providers deploy scalable, secure, and intelligent systems for public, residential, and fleet charging, enhancing operational efficiency, grid stability, and regulatory compliance.
  
• UAE represents the leading market in the MEA region, driven by demand from OEMs, fleet operators, and service providers for high-performance, connected, and AI-enabled charging solutions. Network operators and service providers are deploying AI-powered load optimization, IoT-enabled real-time monitoring of fast chargers, cloud-integrated energy management platforms, and predictive scheduling tools across passenger and commercial charging networks. These modular, interoperable, and scalable platforms improve energy efficiency, ensure regulatory compliance, and optimize grid and charger utilization, reinforcing UAE’s position as the regional leader in EV charging load management.
  
• Ongoing adoption of advanced telematics-based monitoring, AI-driven predictive analytics, and cloud-connected management systems are supporting market growth. Utilities, charging network operators, and technology vendors are increasingly leveraging these solutions to enhance operational transparency, reduce peak load stress, and enable data-driven, sustainable, and efficient EV charging, strengthening UAE’s leadership in the MEA region.
  

Bidirectional EV Charging (V2G/V2H) System Market Share

• The top 7 companies in the market are ABB, Siemens, Nuvve, Wallbox Chargers, Enel X, The Mobility House and Nissan Motor. These companies hold around 40% of the market share in 2024.
  

• ABB provides comprehensive bidirectional EV charging (V2G/V2H) and load management solutions, including high-power bidirectional chargers, smart load controllers, and energy management platforms. ABB leverages AI-enabled load optimization, IoT-connected monitoring, predictive energy scheduling, and cloud-integrated management systems to enhance operational efficiency, reduce peak load stress, and ensure grid reliability. Its global solutions support interoperability, modular deployment, and compliance with regional and international energy standards.
  
• Siemens delivers advanced bidirectional EV charging infrastructure, load management systems, and grid integration platforms. Siemens integrates AI-driven load balancing, predictive energy management, cloud-connected monitoring, and telematics-based analytics to optimize V2G/V2H network operations, enhance reliability, and support utilities, OEMs, and fleet operators in scalable deployment. Its solutions emphasize modularity, interoperability, and regulatory compliance.
  
• Nuvve offers cloud-connected V2G platforms and intelligent bidirectional charging solutions. Nuvve focuses on AI-powered load optimization, predictive energy management, and IoT-enabled real-time monitoring to enhance grid stability, maximize energy utilization, and support commercial, fleet, and residential EV networks. Its interoperable and scalable solutions enable utilities and fleet operators to integrate V2G efficiently.
  
• Wallbox Chargers provides smart bidirectional chargers and energy management platforms for residential, commercial, and fleet applications. Wallbox integrates AI-driven predictive scheduling, IoT-enabled monitoring, and cloud-based load management to improve operational efficiency, reduce peak demand, and enable flexible energy flows. Its modular and interoperable systems support seamless integration with diverse EVSE networks.
  
• Enel X offers comprehensive V2G charging and load management solutions, including bidirectional chargers, energy management platforms, and grid-responsive systems. Enel X leverages AI-enabled predictive scheduling, IoT-connected monitoring, and cloud-integrated management tools to optimize energy distribution, support demand-response programs, and enhance operational efficiency, scalability, and regulatory compliance across public, residential, and fleet charging networks.
  
• The Mobility House delivers intelligent V2G charging solutions and energy management services, integrating AI-powered load optimization, predictive scheduling, and IoT-based monitoring. Its modular and interoperable platforms enable utilities, OEMs, and fleet operators to efficiently manage bidirectional energy flows, improve grid stability, and optimize charger utilization across multiple applications.
  
• Nissan Motor provides bidirectional EV charging solutions leveraging vehicle-to-grid and vehicle-to-home technologies. Nissan integrates AI-enabled load management, cloud-based energy platforms, and IoT-connected monitoring to support residential, fleet, and commercial applications. Its interoperable V2G systems enhance operational efficiency, reduce peak load stress, and enable flexible energy use while ensuring compliance with regional and international energy regulations.
  

Bidirectional EV Charging (V2G/V2H) System Market Companies

Major players operating in the bidirectional EV charging (V2G/V2H) system industry include:

• ABB
• ChargePoint
• Eaton
• Enel X
• Nissan Motor
• Nuvve
• Schneider Electric
• Siemens
• The Mobility House
• Wallbox Chargers
  

• The bidirectional EV charging (V2G/V2H) system market is highly competitive, with leading technology providers, utilities, and OEMs such as ABB, Siemens, Nuvve Holding, Wallbox Chargers, Enel X, The Mobility House, and Nissan Motor occupying key segments across DC fast bidirectional charging, AC load management, smart energy platforms, grid integration, and predictive load optimization.
  
• ABB, Siemens, and Nuvve lead the market with comprehensive solutions integrating AI-powered load balancing, IoT-enabled real-time monitoring, cloud-connected energy management, and predictive scheduling platforms. These companies focus on optimizing charging efficiency, reducing peak load stress, enhancing grid reliability, and supporting scalable deployments across public, residential, and fleet charging networks.
  
• Wallbox, Enel X, The Mobility House, and Nissan Motor specialize in modular, interoperable, and cloud-based bidirectional load management platforms spanning residential, fleet, and commercial charging applications. Their solutions emphasize predictive energy scheduling, real-time monitoring, demand-response integration, and sustainability-focused operations while ensuring compatibility across different chargers, OEMs, and network providers.
  
• The market is marked by intense competition, with players continuously innovating in AI-driven load optimization, IoT-connected monitoring, cloud-integrated management platforms, and predictive energy analytics. Companies are focused on delivering efficient, scalable, and reliable V2G/V2H solutions that support operational efficiency, regulatory compliance, and sustainable electrification of transportation networks globally.
  

Bidirectional EV Charging (V2G/V2H) System Industry News

• In July 2025, Shell Recharge Solutions launched AI-enabled V2G platforms for fleet and commercial operators in Europe, integrating predictive load control, IoT-connected monitoring, and cloud-based energy management. The deployment aims to optimize energy flow, reduce peak demand, and improve operational efficiency across public and private charging networks.
  
• In June 2025, Eaton Corporation expanded its V2G load management solutions in North America, implementing AI-driven optimization, cloud-connected monitoring, and predictive maintenance for high-capacity DC chargers and smart AC networks. These initiatives aim to enhance reliability, support scalable deployments, and reduce operational costs for utilities and fleet operators.
  
• In May 2025, Schneider Electric SE introduced modular, interoperable V2G load management platforms for residential, commercial, and fleet applications. The solution combines AI-powered predictive scheduling, real-time IoT monitoring, and cloud-integrated energy control to maximize charger utilization, improve grid efficiency, and support sustainable energy management.
  
• In April 2025, ChargePoint Holdings deployed advanced V2G-enabled chargers across key U.S. metropolitan areas, leveraging AI-based load balancing, cloud-connected platforms, and predictive energy management to optimize grid usage, enhance interoperability across networks, and support public and fleet charging expansion.
  
• In March 2025, Enel X partnered with utilities and commercial operators to expand bidirectional energy services, deploying smart V2G chargers, predictive energy management platforms, and cloud-integrated monitoring systems. The initiative focuses on enhancing operational efficiency, improving peak load management, and enabling sustainable energy integration across multiple charging applications.
  
• In February 2025, The Mobility House implemented V2G platforms for multi-site fleet operators, integrating AI-driven load optimization, IoT-enabled monitoring, and cloud-based energy analytics. The deployment supports grid stability, reduces operational costs, and provides scalable, reliable bidirectional charging services.
  
• In January 2025, Nissan Motor expanded its vehicle-to-grid (V2G) and vehicle-to-home (V2H) offerings, integrating AI-powered load scheduling, IoT-connected monitoring, and cloud energy management platforms. The deployment improves energy efficiency, reduces peak demand stress, and supports scalable, compliant bidirectional charging solutions for residential and fleet networks.
  

The bidirectional EV charging (V2G/V2H) system market research report includes in-depth coverage of the industry with estimates & forecasts in terms of revenue ($ Bn) and volume (Units) from 2021 to 2034, for the following segments:

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Market, By Charging 

• AC bidirectional charging systems
• DC bidirectional charging systems

Market, By Power Capacity

• Low power AC (3.3–7.2 kW)
• Medium power AC (11–22 kW)
• DC fast charging (50–150 kW)
• High power DC (150+ kW)

Market, By Charging Location

• Residential charging
• Workplace charging
• Fleet depot charging
• Public charging

Market, By Integration Level

• Standalone bidirectional chargers
• Integrated with solar PV
• Integrated with stationary battery storage
• Fully integrated home energy systems
• Microgrid-integrated systems

Market, By End Use

• Residential users
• Commercial & fleet operators
• Electric utilities & grid operators
• Industrial facilities
• Public sector & emergency services

The above information is provided for the following regions and countries:

• North America
  • US
  • Canada
• Europe
  • UK
  • Germany
  • France
  • Italy
  • Spain
  • Belgium
  • Netherlands
  • Sweden
• Asia Pacific
  • China
  • India
  • Japan
  • Australia
  • Singapore
  • South Korea
  • Vietnam
  • Indonesia 
• Latin America
  • Brazil
  • Mexico
  • Argentina 
• MEA
  • South Africa
  • Saudi Arabia
  • UAE