양방향 전기자동차 충전기 시장 : 세계 및 지역별 분석 - 용도별, 제품별, 국가별 - 분석과 예측(2025-2034년)
Bidirectional Electric Vehicle Charger Market - A Global and Regional Analysis: Focus on Application, Product, and Country-Level Analysis - Analysis and Forecast, 2025-2034
상품코드:1679112
리서치사:BIS Research
발행일:2025년 03월
페이지 정보:영문
라이선스 & 가격 (부가세 별도)
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한글목차
양방향 전기자동차(EV) 충전기 시장은 여러 가지 이유로 초기 성장 단계에 있습니다.
첫째, 양방향 충전 기술은 비교적 새로운 개념이기 때문에 아직 시장에 완전히 보급되지 않았습니다. 이 기술을 통해 전기자동차는 그리드에서 에너지를 소비할 수 있을 뿐만 아니라 그리드에 에너지를 피드백하여 그리드 서비스를 제공하고 그리드의 전반적인 안정성과 회복력을 높일 수 있습니다. 둘째, 전기자동차의 보급은 아직 초기 단계에 있습니다. 그러나 친환경 모빌리티에 대한 수요가 증가하고 배터리 기술 비용이 감소함에 따라 향후 수년간 전기자동차의 채택이 증가할 것으로 예상됩니다. 더 많은 전기자동차가 도로를 달리게 되면 양방향 충전에 대한 수요도 증가할 것으로 예상됩니다. 마지막으로 양방향 충전이 제공할 수 있는 주파수 조정과 같은 그리드 서비스에 대한 요구가 증가하고 있습니다. 또한 태양광 및 풍력에너지는 본질적으로 간헐적이기 때문에 그리드의 균형을 맞추기 위해 양방향 충전과 같은 유연한 솔루션이 필요하며, 그리드 믹스에서 재생 에너지의 비율이 증가함에 따라 이러한 요구가 증가할 것으로 예상됩니다. 그 결과, 양방향 전기자동차 충전기 시장은 예측 기간 중 번창할 것으로 예상됩니다.
지속가능한 에너지로의 전환에 따라 태양전지판 및 풍력 터빈과 같은 재생 에너지를 전력망에 통합하려는 수요가 증가하고 있습니다. 양방향 EV 충전 기술을 통해 전기자동차 배터리는 재생에너지가 있을 때 잉여 에너지를 저장했다가 부족할 때 전력망에 공급할 수 있습니다.
전기자동차 보급이 증가함에 따라 충전 인프라에 대한 수요도 증가하고 있습니다. 양방향 EV 충전은 EV가 그리드로부터 전력을 공급받는 것뿐만 아니라 피크 시간대에 전력을 다시 보낼 수 있게 함으로써 충전 인프라를 개선할 수 있는 기회를 제공합니다.
양방향 충전 기술을 통해 전기자동차 소유자는 차량 배터리에 저장된 잉여 에너지를 전력망에 판매하거나 피크 시간대에 사용할 수 있습니다. 이 기능을 통해 EV 소유자는 에너지 비용을 절감하고 경우에 따라서는 이익을 얻을 수 있습니다.
세계 여러 정부는 양방향 전기자동차 충전 기술의 채택을 촉진하기 위해 세금 공제 및 보조금과 같은 인센티브를 제공합니다. 이는 제조업체들이 이러한 제품의 연구개발에 투자하도록 장려하고 있습니다.
최근 전기자동차 및 배터리 기술의 발전으로 양방향 충전 시스템의 효율성과 신뢰성이 향상되어 보급을 위한 보다 실용적인 선택이 되고 있습니다.
세계의 양방향 전기자동차 충전기 시장에 대해 조사했으며, 시장의 개요와 용도별, 제품별, 국가별 동향 및 시장에 참여하는 기업의 개요 등을 제공하고 있습니다.
목차
개요
제1장 시장 : 업계 전망
동향 : 현재 및 향후 영향 평가
이해관계자 분석
시장 역학의 개요
규제 상황
특허 분석
스타트업의 상황
비용과 가격 분석
향후 전망과 시장 로드맵
공급망 분석
밸류체인 분석
세계 가격 분석
업계의 매력
양방향 전기자동차 충전기의 기술 분석
양방향 충전기로의 길 : 그리드 통합 레벨
기술 로드맵
제2장 양방향 전기자동차 충전기 시장(용도별)
제품 세분화별 용도
제품별 용도 요약
양방향 전기자동차 충전기 시장(용도별)
양방향 전기자동차 충전기 시장(유래별)
양방향 전기자동차 충전기 시장(추진 유형별)
제3장 양방향 전기자동차 충전기 시장(제품별)
제품 세분화
제품 요약
양방향 전기자동차 충전기 시장(충전기의 도입 상황별)
양방향 전기자동차 충전기 시장(충전 유형별)
제4장 양방향 전기자동차 충전기 시장(지역별)
양방향 전기자동차 충전기 시장(지역별)
북미
유럽
아시아태평양
기타 지역
제5장 시장 - 경쟁 벤치마킹과 기업 개요
향후 전망
지역적 평가
기업 개요
Wallbox Chargers, S.L.
Indra Renewable Technologies Limited
Delta Electronics, Inc.
Fermata Energy
Power Research Electronics B.V.
Hyundai Mobis Co. Ltd.
ABB
Blink Charging Co.
Siemens AG
Denso Corporation
Hitachi Automotive Systems, Ltd.
Toyota Industries Corporation
MAGNUM CAP
Enphase Energy, Inc.
Autel Energy
The Mobility House GmbH
EVBox
JET Charge Pty Ltd
Emporia Corporation
Elinta Charge
제6장 조사 방법
KSA
영문 목차
영문목차
Bidirectional Electric Vehicle Charger Market Lifecycle Stage
The bidirectional electric vehicle (EV) charger market is in the early growth phase for several reasons. Firstly, bidirectional charging technology is a relatively new concept, and as such, it has not yet penetrated the market fully. This technology enables electric vehicles to not just consume energy from the grid but also feed it back to the grid, providing grid services and enhancing the overall stability and resiliency of the grid. Secondly, the adoption of electric vehicles is still in its early stages. However, with the increasing demand for greener mobility and the decreasing cost of battery technology, the adoption of electric vehicles is expected to increase in the coming years. As more and more electric vehicles hit the road, the demand for bidirectional charging will increase. Lastly, there is a growing need for grid services such as frequency regulation, which bidirectional charging can provide. Additionally, this need is expected to grow as the share of renewable energy in the grid mix increases, as solar and wind energy are inherently intermittent and require flexible solutions like bidirectional charging to help balance the grid. As a result, the bidirectional electric vehicle charger market is expected to flourish in the forecast period.
Impact
There are several factors driving the growth of the bidirectional electric vehicle (EV) charger market:
1. Increased Demand for Renewable Energy Integration: With the world shifting toward sustainable energy, there has been an increase in demand for integrating renewable energy sources like solar panels and wind turbines into the grid. Bidirectional EV charging technology allows electric vehicle batteries to store excess renewable energy when it is available and feed it back into the grid when there is a shortage.
2. Growing EV Penetration: As the adoption of EVs continues to grow, the demand for charging infrastructure is also increasing. Bidirectional EV charging provides an opportunity to improve charging infrastructure by allowing EVs to not only receive electricity from the grid but also send it back during peak demand.
3. Reduced Energy Costs: Bidirectional charging technology enables EV owners to sell excess energy stored in their vehicle batteries back to the grid or use it during peak demand hours. This feature can help EV owners reduce their energy costs and even earn profits in some cases.
4. Government Incentives: Various governments around the world are providing incentives such as tax credits and subsidies to promote the adoption of bidirectional EV charging technology. This has encouraged manufacturers to invest in research and development of these products.
5. Advancements in Technology: Recent advancements in electric vehicle and battery technology have improved the efficiency and reliability of bidirectional charging systems, making them a more practical option for widespread deployment.
Bidirectional Electric Vehicle Charger Market Segmentation:
Segmentation 1: by Application
Vehicle-to-Grid (V2G)
Vehicle-to-Home (V2H)
Others (Vehicle-to-Vehicle and Vehicle-to-Load)
Segmentation 2: by Source
OEM
Aftermarket
Segmentation 3: by Propulsion Type
Battery Electric Vehicle (BEV)
Plug-in Hybrid Electric Vehicle (PHEV)
The bidirectional electric vehicle charger market based on the propulsion type segment is expected to be dominated by the BEV segment throughout the forecast period 2025-2034. Based on the application, the V2G segment is expected to dominate the market throughout the forecast period. Moreover, based on the source, the OEM segment is anticipated to dominate the market during the forecast period.
Segmentation 4: by Deployment of Charger
Domestic
Commercial
Segmentation 5: by Charging Type
<20 kWh
20-40 kWh
40-100 kWh
>100 kWh
Based on the deployment of charger, the domestic segment is expected to dominate the market, and based on charging type, the <20 kWh is likely to dominate the market, offering a wide scope of development in the forecast period.
Segmentation 6: by Region
North America
Europe
Asia-Pacific
Rest-of-the-World
Europe is home to several electric vehicle manufacturers as well as bidirectional electric vehicle charger providers. Hence, the region is expected to dominate the bidirectional electric vehicle charger market during the forecast period.
Recent Developments in the Bidirectional Electric Vehicle Charger Market
In October 2021, WALLBOX Inc. partnered with Nuvve Holding Corporation for a pioneering vehicle-to-grid (V2G) cooperation in Iberia aimed at easing grid load and providing users with substantial financial incentives.
In October 2022, Indra, in collaboration with Manchester University NHS Foundation Trust (MFT) and Hitachi ZeroCarbon, a division of Hitachi Europe, released the findings from the first-ever NHS initiative to deploy ground-breaking vehicle-to-grid (V2G) technology after five Hitachi-funded Indra V2G chargers were installed for electric pharmacy truck fleet. The Trust received an average 6 per kWh drop in electricity costs.
In December 2022, Fermata Energy and Phoenix Motorcars formed a long-term partnership for V2X bidirectional charging. According to the deal, Fermata Energy would integrate Phoenix's zero-emission drive system with its V2X bidirectional chargers and AI-driven software platform.
In February 2020, a publicly financed V2G technology demonstration project received the all-clear in Japan in partnership with Mitsubishi. In several places throughout Japan, a vehicle-to-grid charging network for BEVs and PHEVs is to be established by 2025.
Demand - Drivers and Limitations
The following are the demand drivers for the Bidirectional Electric Vehicle Charger Market:
Growing Numbers of Electric Vehicles Worldwide
Government Initiatives for the Development of Electric Vehicle Charging Infrastructure
Need for Energy Self-Sufficiency
Advent of Intelligent Transportation Systems
The bidirectional electric vehicle charger market is expected to face some limitations as well due to the following challenges:
Lack of Standardization of Electric Vehicle (EV) Charging
Lack of Government Support in Bidirectional Charging
Reduced Battery Durability and Battery Efficiency of Vehicles due to Charging Lifecycles
Batteries Overheat Issue in Prolonged Bidirectional Charging
How can this report add value to an organization?
Product/Innovation Strategy: The product segment helps the reader understand the different applications of the available based on source (OEM and aftermarket), application (vehicle to grid, vehicle to home, and others (vehicle to vehicle and vehicle to load)), propulsion type (BEV and PHEV), deployment of charger (domestic and commercial), and charging type (<20 kWh, 20-40 kWh, 40-100 kWh, and >100 kWh). Increasing demand for electric vehicles is pushing the consumption of bidirectional electric vehicle charging. Therefore, the bidirectional electric vehicle charging business is a high-investment and high-revenue generating model.
Growth/Marketing Strategy: The bidirectional electric vehicle charger market is an exponentially growing market holding enormous opportunities for the market players. Some strategies covered in this segment are product launches, market developments, partnerships and collaborations, business expansions, and investments. The companies' preferred strategy has been market developments, partnerships, and collaborations to strengthen their positions in the global bidirectional electric vehicle charger market.
Competitive Strategy: Key players in the global bidirectional electric vehicle charger market analyzed and profiled in the study involve bidirectional electric charger manufacturers. Moreover, a detailed competitive benchmarking of the players operating in the global bidirectional electric vehicle charger market has been done to help the reader understand how players stack against each other, presenting a clear market landscape. Additionally, comprehensive competitive strategies such as partnerships, agreements, and collaborations will aid the reader in understanding the untapped revenue pockets in the market.
Key Market Players and Competition Synopsis
The companies that are profiled have been selected based on inputs gathered from primary experts and analyzing company coverage, product portfolio, and bidirectional electric vehicle charger market penetration.
The competitive landscape of the bidirectional electric vehicle charger market includes different strategies undertaken by bidirectional charger manufacturers to gain market presence. Some strategies adopted by them include new product launch and development activities, market development activities, partnerships, collaborations, joint ventures, and mergers and acquisitions. Among all the strategies adopted, market development activities have dominated the competitive landscape and are the most widely adopted strategies among service providers.
Some prominent names in this bidirectional electric vehicle charger market are:
Indra Renewable Technologies Limited
Delta Electronics, Inc.
Emporia Corp.
Tsubakimoto Chain Co.
Wallbox Chargers, S.L.
Power Research Electronics B.V.
ABB
Hyundai Mobis
Siemens AG
E.ON SE
Enel Spa
JET Charge Pty Ltd
MAGNUM CAP
Fermata Energy
Rectifier Technologies
Autel Energy
The Mobility House
Denso Corporation
Hitachi
Blink Charging Co
Toyota
Companies that are not a part of the aforementioned pool have been well represented across different sections of the report (wherever applicable).
Table of Contents
Executive Summary
Scope and Definition
Market/Product Definition
Key Questions Answered
Analysis and Forecast Note
1. Markets: Industry Outlook
1.1 Trends: Current and Future Impact Assessment
1.2 Stakeholder Analysis
1.2.1 Use Case
1.2.2 End User and Buying Criteria
1.3 Market Dynamics Overview
1.3.1 Market Drivers
1.3.2 Market Restraints
1.3.3 Market Opportunities
1.4 Regulatory Landscape
1.5 Patent Analysis
1.6 Start-Up Landscape
1.7 Cost & Pricing Analysis
1.8 Future Outlook and Market Roadmap
1.9 Supply Chain Analysis
1.10 Value Chain Analysis
1.11 Global Pricing Analysis
1.12 Industry Attractiveness
1.13 Technical Analysis of Bidirectional Electric Vehicle Charger
1.14 The Road to Bidirectional Chargers: Grid Integration Levels
1.15 Technology Roadmap
2. Bidirectional Electric Vehicle Charger Market (By Application)
2.1 Application by Product Segmentation
2.2 Application by Product Summary
2.3 Bidirectional Electric Vehicle Charger Market (by Application)
2.3.1 Vehicle-to-Grid (V2G)
2.3.2 Vehicle-to-Home (V2H)
2.3.3 Others
2.4 Bidirectional Electric Vehicle Charger Market (by Source)
2.4.1 OEM
2.4.2 Aftermarket
2.5 Bidirectional Electric Vehicle Charger Market (by Propulsion Type)
2.5.1 Battery Electric Vehicles (BEVs)
2.5.2 Plug-in Hybrid Electric Vehicles (PHEVs)
3. Bidirectional Electric Vehicle Charger Market (by Product)
3.1 Product Segmentation
3.2 Product Summary
3.3 Bidirectional Electric Vehicle Charger Market (by Deployment of Charger)
3.3.1 Domestic
3.3.2 Commercial
3.4 Bidirectional Electric Vehicle Charger Market (by Charging Type)
3.4.1 <20 kWh
3.4.2 20-40 kWh
3.4.3 40-100 kWh
3.4.4 >100 kWh
4. Bidirectional Electric Vehicle Charger Market (by region)
4.1 Bidirectional Electric Vehicle Charger Market (by Region)
4.2 North America
4.2.1 Regional Overview
4.2.2 Driving Factors for Market Growth
4.2.3 Factors Challenging the Market
4.2.4 Key Companies
4.2.5 Application
4.2.6 Product
4.2.7 U.S.
4.2.7.1 Market by Application
4.2.7.2 Market by Product
4.2.8 Canada
4.2.8.1 Market by Application
4.2.8.2 Market by Product
4.2.9 Mexico
4.2.9.1 Market by Application
4.2.9.2 Market by Product
4.3 Europe
4.3.1 Regional Overview
4.3.2 Driving Factors for Market Growth
4.3.3 Factors Challenging the Market
4.3.4 Key Companies
4.3.5 Application
4.3.6 Product
4.3.7 Germany
4.3.7.1 Market by Application
4.3.7.2 Market by Product
4.3.8 France
4.3.8.1 Market by Application
4.3.8.2 Market by Product
4.3.9 U.K.
4.3.9.1 Market by Application
4.3.9.2 Market by Product
4.3.10 Italy
4.3.10.1 Market by Application
4.3.10.2 Market by Product
4.3.11 The Netherlands
4.3.11.1 Market by Application
4.3.11.2 Market by Product
4.3.12 Nordic Countries
4.3.12.1 Market by Application
4.3.12.2 Market by Product
4.3.13 Rest-of-Europe
4.3.13.1 Market by Application
4.3.13.2 Market by Product
4.4 Asia-Pacific
4.4.1 Regional Overview
4.4.2 Driving Factors for Market Growth
4.4.3 Factors Challenging the Market
4.4.4 Ongoing Projects
4.4.5 Key Companies
4.4.6 Application
4.4.7 Product
4.4.8 China
4.4.8.1 Market by Application
4.4.8.2 Market by Product
4.4.9 Japan
4.4.9.1 Market by Application
4.4.9.2 Market by Product
4.4.10 India
4.4.10.1 Market by Application
4.4.10.2 Market by Product
4.4.11 South Korea
4.4.11.1 Market by Application
4.4.11.2 Market by Product
4.4.12 Rest-of-Asia-Pacific
4.4.12.1 Market by Application
4.4.12.2 Market by Product
4.5 Rest-of-the-World
4.5.1 Regional Overview
4.5.2 Driving Factors for Market Growth
4.5.3 Factors Challenging the Market
4.5.4 Ongoing Projects
4.5.5 Key Companies
4.5.6 Application
4.5.7 Product
4.5.8 South America
4.5.8.1 Market by Application
4.5.8.2 Market by Product
4.5.9 Middle East and Africa
4.5.9.1 Market by Application
4.5.9.2 Market by Product
5. Markets - Competitive Benchmarking & Company Profiles