市场调查报告书
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1324347
到 2030 年车身控制模块 (BCM) 的全球市场预测:按车辆类型、组件、功能、电动车、通讯协定、位大小、配电组件和区域进行分析Body Control Module Market Forecasts to 2030 - Global Analysis By Vehicle Type, Component, Functionality, Electric Vehicle, Communication Protocol, Bit Size, Power Distribution Component and By Geography |
据Stratistics MRC预测,2023年全球车身控制模块(BCM)市场规模将达到349亿美元,预计到2030年将达到478亿美元,预测期内年复合成长率为4.5%。
称为车身控制模块 (BCM)的电控系统负责监控和管理汽车中安装的所有电子零件。电动车窗、电动后视镜、空调、防盗系统、中控锁和许多其他功能均由 BCM 控制。车辆总线是连接各种车辆部件的内部通讯网络,并充当 BCM 和车辆处理器之间的接口。其主要功能是控制道路驾驶员,驾驶员激活继电器来执行锁门和调暗沙龙头顶灯等功能。 BCM 利用功能强大的微处理器来连接输入和输出。
嵌入式软件在汽车开发中日益重要,是影响该行业的主要趋势之一。对复杂汽车嵌入式解决方案的需求是由这些系统的小尺寸驱动的。先进的车队管理视频远程信息处理和嵌入式电子设备可以在您的车辆中安装新的位置导航系统,及早发现潜在问题,并避免紧急更换机械零件。
由于对众多汽车零件实施动态监管,OEM面临着巨大的成本压力。严格的排放法规、高昂的研发成本、市场竞争力和不断变化的客户需求影响着OEM的高成本压力。此外,如果出现产品缺陷或召回,OEM必须承担责任。这些因素可能会限制预期期间的市场扩张。
汽车BCM的设计主要变得更加复杂。儘管许多 BCM 用于容纳汽车中越来越多的电子零件,但对较小 BCM 的需求仍在增加。由于不断的市场创新和进步,BCM 製造商也开始製造更小、更可靠的汽车 BCM。因此,由于持续的技术创新趋势以及对小型可靠模块的需求不断增加,车身控制模块市场在预测期内可能会出现良好的增长。
BCM 是一个包含软件的嵌入式系统,因此它变得更加精密、复杂和线路集中。使用 BCM 的OEM必须确保复杂性的增加不会导致车辆服务故障。 BCM整合不仅会导致复杂的网络拓扑,还会导致与控制单元的通讯和接口问题。因此,所有这些要素预计将在不久的将来抑制车身控制模块市场的增长。
全球车身控制模块市场受到了 COVID-19 疫情的严重影响。受疫情影响,消费者支出下降,经济不确定性增加,导致汽车销量大幅下降。由于汽车需求下降,汽车製造商减少了产量。车身控制模块(BCM)市场立即受到需求下降的影响。全球製造业和供应链因遏制疫情的关闭和限製而受到干扰。采购必要的零件,尤其是 BCM,一直是许多电子设备供应商和製造商面临的挑战,导致製造延迟和产品短缺。
高端市场预计将出现良好增长。由于对车内礼宾车身功能和处理此类关键功能的需求不断增长,OEM面临着为其车辆配备高端车身控制模块的压力。 BCM将具有更先进的微控制器结构。 High BCM 用于挡风玻璃刮水器、座椅调节、中控锁系统以及外部和内部照明。
控制器局域网(CAN)领域预计在预测期内将以最快的年复合成长率增长。随着物联网(IoT)、车联网、云计算技术的发展,CAN总线正在引领全球市场。按应用,市场还可细分为 MCV 和 HCV、LCV 和乘用车。由于发达国家和新兴国家对乘用车的需求不断增加,预计乘用车市场在预测期内将出现更快的增长。
预计亚太地区在预测期内将占据最大的市场份额。中国、韩国和印度等其他亚太国家是最大的汽车製造商之一。预计中国汽车行业在预测期内将增长十倍。由于车辆产量的增加和附加电子零件的加入,预计未来几年对车身控制模块 (BCM) 的需求将会增加。
由于高檔汽车製造的增加,预计欧洲在预测期内将出现最高的年复合成长率。对信息娱乐系统和车载连接的需求也推动了该地区的市场增长。各国可支配收入水平的提高和都市化的加快进一步增加了对乘用车和商用车的需求。随着消费者购买意愿的不断提高,具有先进功能的车辆的采用率不断增加,进一步推动了对 BCM 和以太网技术的需求。
According to Stratistics MRC, the Global Body Control Module Market is accounted for $34.9 billion in 2023 and is expected to reach $47.8 billion by 2030 growing at a CAGR of 4.5% during the forecast period. An electronic control unit called the body control module (BCM) is in charge of keeping an eye on and managing all of the installed electronic components in a car. The power windows, power mirrors, air conditioning, immobilizer system, central locking, and a number of additional features can all be controlled by the BCM. The vehicle bus, an internal communication network connecting various vehicle components, serves as the interface between the BCM and on-board processors. Its main function is to control load drivers, which in turn activate relays to carry out functions such as locking the doors or dimming the salon overhead lamp. BCM makes use of potent microprocessors to link inputs and outputs.
The increasing importance of embedded software in vehicle development is one of the key trends influencing this industry. The demand for complicated embedded automotive solutions is driven by the tiny size of these systems. The installation of new location-navigation systems in cars, the detection of potential problems early on, and avoiding the need for hurried mechanical part replacement are all made possible by advanced fleet management video telematics and embedded electronics.
OEMs are facing intense cost pressure as a result of dynamic rules imposed on numerous vehicle components. OEMs' high-cost pressures were influenced by strict emission regulations, significant R&D expenditures, market competitiveness, and changing customer needs. Additionally, they are responsible for any such product failures or recalls, which can have an effect on the bottom line, since they are required to keep production costs low in order to fulfill demand while simultaneously delivering high-quality products. These elements could limit market expansion during the anticipated term.
The design of automotive BCMs has primarily become more intricate. Despite the fact that many BCMs are used to account for the rising electronic content in automobiles, there is an increasing need for tiny BCMs. BCM producers have also started making compact and reliable BCMs for cars thanks to ongoing market innovation and advancement. As a result, the market for body control modules will experience favourable growth over the course of the forecast period due to the trend of ongoing innovation and growing demand for compact, dependable modules.
BCMs are embedded systems with embedded software, which is what causes them to become more sophisticated, complex, and line-intensive. OEMs utilizing BCMs must control the rise in complexity that causes services in vehicles to fail. The integration of BCMs causes a complex network topology, as w ell as communication and interface issues with the controlling units. Therefore, it is anticipated that all of these factors will in the near future restrain the growth of the body control module market .
The global market for body control modules was significantly impacted by the COVID-19 epidemic. Vehicle sales significantly reduced as a result of the pandemic as consumer spending fell and economic uncertainty increased. Automobile producers had cut their output due to a decline in vehicle demand. The body control module (BCM) market was immediately influenced by this reduction in demand. The global manufacturing and supply chain were interrupted by closures and limitations imposed to stop the outbreak. Finding the necessary components, especially BCMs, was challenging for many electronics vendors and manufacturers, which caused manufacturing delays and product shortages.
The high end segment is estimated to have a lucrative growth. OEMs are being forced to deploy high-end body control modules in vehicle models as a result of the rising demand for concierge body function inside the vehicles and handling such a crucial function. A microcontroller with a higher configuration is placed in BCM. High BCM is utilized in windshield wipers, seat adjustments, central locking systems, and outside and interior illumination.
The controller area network (CAN) segment is anticipated to witness the fastest CAGR growth during the forecast period. As the internet of things (IoT), connected car, and cloud computing technologies have developed, the CAN bus has taken the lead in the global market. On the basis of application, the market can also be segmented into MCVs and HCVs, LCVs, and passenger automobiles. Due to a rise in demand for passenger cars in both developed and emerging nations, the passenger car segment is anticipated to grow more quickly throughout the projected period.
Asia Pacific is projected to hold the largest market share during the forecast period. One of the top makers of automobiles are nations in the Asia Pacific, including China, South Korea, and others are India. The Chinese automotive sector is anticipated to develop tenfold throughout the projection period. Due to increased vehicle production and the installation of additional electronic components, the need for body control modules is anticipated to increase in the upcoming years.
Europe is projected to have the highest CAGR over the forecast period, owing to the increase in premium car manufacture. The demand infotainment systems, and in-car connectivity is also driving regional market growth. The rising disposable income levels and increasing urbanization in countries have further increased the demand for passenger cars and commercial vehicles. With the rising consumer purchasing power, vehicles with advanced features are witnessing increased adoption, further propelling the demand for BCM & Ethernet technology in the market.
Some of the key players profiled in the Body Control Module Market include: Visteon, Infineon Technologies, Lear Corporation, Continental, Denso Corporation, Stmicroelectronics, Renesas Electronics Corporation, NXP Semiconductors, Robert Bosch, Hella, Aptiv, Mitsubishi Electric Corporation, Toshiba Corporation, Diamond Electric, New Japan Radio, Delphi Automotive PLC and Mouser Electronics.
In May 2022, Renesas and Intel partnered to develop a new BCM using Intel's Atom processor. The BCM is more powerfuls & energy-efficient than its previous models and supports a wider range of features such as ADAS & autonomous driving.
In January 2022, Bosch and Nvidia partnered to develop a new BCM based on Nvidia's Drive Orin platform. It is designed to be more powerful and efficient than previous BCM models and can support a wider range of features such as ADAS & autonomous driving.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.