市场调查报告书
商品编码
1419600
全球电动车连接器市场评估:依连接器类型、电流类型、充电速度、安装类型、最终用户、地区、机会、预测(2017-2031)Electric Vehicle Connector Market Assessment, By Connector Type, By Current Type, By Charging Speed, By Mounting Type, By End-user, By Region, Opportunities and Forecast, 2017-2031F |
预计2023年全球电动车连接器市场规模将达到7548万美元,2031年将达到3.2563亿美元,2024-2031年预测期间复合年增长率为20.05%。我是。 由于全球电动车的普及,全球电动车连接器市场呈现快速成长。 政府推动向永续交通和清洁能源转型的举措正在推动电动车的需求,并推动电动车连接器市场的发展。 严格的排放法规和消费者环保意识的提高是推动该市场发展的重要因素。 随着汽车製造商继续大力投资电动车,对可靠、高效的充电基础设施的需求至关重要,从而推动了对先进电动车连接器的需求。 电动车连接器市场的创新特点是专注于更快的充电解决方案、增强的安全功能以及不同充电标准之间的兼容性。
高功率充电技术(例如可以在短时间内提供大量能量的超快速充电器)的出现解决了充电时间问题,这是电动车用户最关心的问题。 此外,智慧充电和无线充电技术越来越受欢迎,为用户提供了更多便利。 先进材料和设计增强的整合旨在使连接器更加耐用和高效。 汽车製造商和充电基础设施供应商之间的合作促进了互通性,并为世界各地的电动车用户提供无缝充电体验。 总体而言,电动车连接器市场正在迅速发展,以满足快速成长的电动车产业不断变化的需求。 例如,星巴克与沃尔沃合作,在科罗拉多州、犹他州、爱达荷州、俄勒冈州以及从丹佛到西雅图的15家星巴克门市开设了50个直流快速充电站。 该充电站可为带有CCS1或CHAdeMO连接器的电动车充电,包括Volvo的C40 Recharge。
由于主要参与者加大对充电网路的投资,全球电动车连接器市场正经历显着成长。 特斯拉等领先公司和充电网路营运商认识到充电基础设施在推动电动车发展方面的关键作用,正在投入大量资源来扩大和加强充电网路。 这些策略投资的重点是部署更多充电站,特别是快速充电站,以解决里程焦虑并鼓励电动车的采用。 汽车製造商和充电基础设施供应商之间的合作透过促进互通性和无缝充电体验进一步加速了这一趋势。 这种对建立全面充电网路的坚定承诺体现了领先公司为支持全球电动车的成长和普及所做的贡献。
随着持续创新解决关键挑战并提高整体效率,技术进步推动市场向前发展。 材料和设计的进步有助于开发更耐用、耐热的连接器。 高功率充电技术正在迅速发展,可实现更快的充电时间并解决电动车用户的关键问题。 通讯协定和无线连接等智慧功能的整合可改善用户体验并实现与充电基础架构的无缝互动。 此外,正在进行的研究和开发的重点是创建与各种充电标准相容的连接器,以提高互通性和灵活性。 例如,SEVD(TM)-V3 是一款专为车联网 (V2X) 应用而设计的电动车直流充电/放电连接器电缆。 这是一款 V2X 连接器,是 EV 和 V2H(车到家)应用的直流快速充电器的关键部件。 SEVD(TM)-V3是一种小型、轻量且安全的电动车连接器电缆组件,旨在为高效、安全的充电解决方案做出贡献。
本报告针对全球电动车连接器市场进行研究和分析,提供市场规模和预测、市场动态、主要参与者现状和前景等。
Global electric vehicle connector market size was valued at USD 75.48 million in 2023, expected to reach USD 325.63 million in 2031, with a CAGR of 20.05% for the forecast period between 2024 and 2031. The global electric vehicle connector market is experiencing a significant surge, driven by the increasing adoption of electric vehicles worldwide. The transition towards sustainable transportation and government initiatives promoting clean energy has fueled the demand for EVs, subsequently boosting the market for electric vehicle connectors. Stringent emissions regulations and a growing consumer environmental consciousness are pivotal factors propelling this market forward. As automakers continue to invest heavily in electric mobility, the need for reliable and efficient charging infrastructure becomes paramount, driving the demand for advanced EV connectors. Innovations in the EV connector market is marked by a focus on faster charging solutions, enhanced safety features, and compatibility across different charging standards.
The advent of high-power charging technologies, such as ultra-fast chargers capable of delivering substantial energy in a shorter time frame, addresses a key concern for EV users - charging time. Furthermore, smart, and wireless charging technologies are gaining prominence, providing added convenience to users. The integration of advanced materials and design enhancements aims to make connectors more durable and efficient. Collaborations between automakers and charging infrastructure providers are fostering interoperability, ensuring a seamless charging experience for EV users globally. Overall, the electric vehicle connector market is evolving rapidly to meet the evolving needs of the burgeoning electric mobility sector. For example, Starbucks has partnered with Volvo to open 50 DC fast charging stations at 15 Starbucks stores in Colorado, Utah, Idaho, Oregon, route from Denver to Seattle. The charging stations can recharge any electric car with a CCS1 or CHAdeMO connector, including Volvo's C40 Recharge.
The global electric vehicle connector market is witnessing a substantial boost due to the increasing investment in charging networks by key players. Recognizing the pivotal role of charging infrastructure in promoting electric mobility, major companies such as Tesla and charging network operators are allocating significant resources to expand and enhance charging networks. These strategic investments focus on deploying more charging stations, especially fast-charging ones, to address range anxiety and encourage widespread EV adoption. Collaborations between automakers and charging infrastructure providers further amplify this trend, fostering interoperability and a seamless charging experience. This robust commitment to building a comprehensive charging network underscores the key players' dedication to supporting the growth and accessibility of electric vehicles globally.
Technological advancements propel the market forward, as continuous innovation addresses key challenges and enhances overall efficiency. Advancements in materials and design contribute to the development of more durable and heat-resistant connectors. High-power charging technologies are evolving rapidly, enabling faster charging times, and addressing a critical concern for EV users. The integration of smart features, such as communication protocols and wireless connectivity, enhances user experience and enables seamless interactions with charging infrastructure. Moreover, ongoing research and development focus on creating connectors compatible with various charging standards, promoting interoperability and flexibility. For example, The SEVD™-V3 is a cable with a connector for EV DC charger/discharger, specifically designed for V2X (Vehicle-to-Everything) applications. It is a V2X connector that is the main part of the DC quick charger for EVs and vehicle-to-home (V2H) applications. The SEVD™-V3 is a compact, lightweight, and safe connector cable assembly for EVs, aiming to contribute to the realization of efficient and secure charging solutions.
The market is witnessing a significant shift towards DC fast charging points, reflecting the industry's commitment to address range anxiety and enhance the charging experience. DC fast charging technology allows for rapid charging, significantly reducing the time required to recharge EV batteries. This shift is crucial in supporting long-distance travel and accommodating the growing number of electric vehicles on the roads. Key players in the EV connector market are actively investing in the development and deployment of DC fast charging infrastructure, aligning with the evolving needs of electric mobility. This transition underscores a strategic focus on enhancing convenience and accessibility and encouraging the widespread adoption of electric vehicles across the globe.
For example, Fujikura Components Ltd. offers a CCS Type2 connector that is lightweight, compact, and has a robust structure. The connector is stylishly designed and conforms to IEC62196-3 standards. The CCS Type2 connector complies with IEC62196-3 Config FF, weighs 1.1kg, and is tough. The connector is suitable for DC charging and can be used for fast charging of electric vehicles.
Government regulations are pivotal in shaping the global electric vehicle connector market. Various countries are implementing stringent emission standards and providing financial incentives to promote the adoption of electric vehicles, driving the demand for EV connectors. Regulatory initiatives often include mandates for developing public charging infrastructure, influencing connector standards. Incentives such as tax credits, rebates, and subsidies for EV purchases create a favorable environment for consumers, stimulating market growth. Additionally, some regions are actively working on establishing standardized norms for connector design and safety features to ensure uniformity across the EV charging ecosystem. These evolving regulations underscore the commitment to sustainable transportation and significantly impact the dynamics of the global EV connector market.
For example, The Bureau of Indian Standards (BIS), India's National Standard Body, has approved the country's first indigenous AC and DC Combined Charging connector standard for light electric vehicles (LEVs). This standard, known as IS17017 (Part 2 / Sec 7): 2023, is the world's first combined AC and DC charging connector standard for LEVs. This innovation, developed in India, has the potential to set a global benchmark for the LEV industry.
The global electric vehicle connector market is characterized by the presence of key players driving innovation and market expansion. Leading companies such as Tesla and Siemens play pivotal roles, contributing to the development and deployment of advanced EV charging solutions. These companies focus on research and development to enhance connector technology, aiming for faster charging, improved safety, and compatibility across diverse charging standards. As the EV market continues to grow, collaborations and partnerships among key players become crucial for the establishment of a robust charging infrastructure. The outlook for the global EV connector market remains promising, with an increasing emphasis on interoperability, smart charging solutions, and sustainability in the evolving landscape of electric mobility.
For instance, in November 2022, Tesla made its EV charging connector design available to other automakers and network operators in North America to encourage adoption of the technology and make it the new standard. The charging connector in all Tesla vehicles offers AC charging and up to 1 MW DC charging, and its compact design and performance are considered superior to the Combined Charging System (CCS) connectors used by most EVs in North America. Tesla's design and specification files are available for download, and the company is actively working with relevant standards bodies to collect Tesla's charging connector as the North American Charging Standard (NACS).
For instance, in June 2022, Siemens invested USD 25 million to acquire a minority stake in WiTricity, a United States-based wireless charging technology company. The two companies aim to drive innovation in the wireless EV charging market, which is projected to reach USD 2 billion by 2028 in Europe and North America. They seek to address global standardization gaps, enable interoperability between vehicles and infrastructure, and advance the technical development of wireless charging systems.
All segments will be provided for all regions and countries covered:
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.