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The automotive industry has experienced a profound transformation over the past few decades, with technological advancements playing a pivotal role. Among the most significant contributors to this transformation is the field of automotive electronics. From safety systems to entertainment features, automotive electronics have become integral to modern vehicles, shaping the driving experience in profound ways. The automotive electronics market has witnessed steady growth, driven by several key factors. One of the primary drivers is the increasing demand for advanced safety features.This report comes with 10% free customization, enabling you to add data that meets your specific business needs.
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Technologies such as anti-lock braking systems (ABS), electronic stability control (ESC), and advanced driver assistance systems (ADAS) have become standard in modern vehicles, bolstering safety standards and reducing the risk of accidents. Furthermore, the growing consumer preference for connected vehicles has fueled the demand for automotive electronics.
With the rise of the Internet of Things (IoT) and advancements in telematics, vehicles are becoming increasingly connected, enabling features such as real-time navigation, remote diagnostics, and over-the-air software updates. Additionally, the push towards electric and hybrid vehicles has created new opportunities for automotive electronics manufacturers.
Electric powertrains rely heavily on electronic control units (ECUs) to manage battery systems, motor control, and energy regeneration, driving the demand for sophisticated electronic components. As automakers race to develop fully autonomous vehicles, the demand for advanced sensors, radar systems, and artificial intelligence (AI) algorithms is expected to soar. Moreover, the rise of electric and autonomous vehicles has led to a greater focus on energy efficiency and sustainability in automotive electronics. Companies are investing in lightweight materials, energy-efficient components, and recyclable materials to minimize the environmental impact of electronic systems.
Integration of artificial intelligence and machine learning algorithms into automotive electronics is also driving the global market. These technologies enable vehicles to learn from real-world data, improving performance, efficiency, and safety over time. From predictive maintenance to personalized driving experiences, AI-powered automotive electronics hold immense potential for innovation.
According to the research report, the market is anticipated to cross USD 450 Billion by 2029, increasing from USD 161.92 Billion in 2023. The market is expected to grow with 5.72% CAGR by 2024-29.The technologies that make use of information are playing a very important role in the future of the automotive industry. The automotive industry is continuously adopting advanced technologies and integrating these technologies with its operations at a greater scale. In order to enhance the performance of automotive vehicles electronic components like airbags or integrated in the vehicles for providing safety. As there's a growing demand for electric vehicles and hybrid cars or hybrid vehicles there's an increasing demand for automotive electronics.
The growing trend of autonomous vehicles is also expected to drive the market of automotive electronics. Automotive electronics and software are interrelated. The COVID-19 pandemic her defected all of industries in a significant manner. The implementation of strict lockdown and social distancing policies which also restricted people from moving from one place to another across the country severely affected the automotive industry. The production of automotive cars was shut down. The disrupted supply chains and delays in the delivery of the components affected the production of this market.
Recently there has been a new technological development which is helpful in providing a digital identity to the way it kills which is extremely useful for differentiating the vehicles and tracking information relating to insurance as well as predictive maintenance. As the results of fossil fuel are quickly depleting there's an increasing demand for electronic vehicles in developing as well as developed nations. But the major challenges faced by the electronic vehicles industry are Steve inadequate infrastructure and the poor battery life. There is an increase in the use of artificial intelligence in the automotive industry.
The increased use of machine learning has been a boon fall the self-driving cars. The use of artificial intelligence in the automotive industry has also been extremely helpful in increasing the output of the automotive manufacturing units across the globe. The use of human-machine interfaces it will be very helpful and provide a better platform for the interaction between the driver and the vehicle.
Market Drivers
- Advancements in Vehicle Connectivity: The increasing integration of connected features in vehicles is a significant driver for the automotive electronics market. Consumers demand seamless connectivity for entertainment, navigation, and communication while on the road. Features like in-car Wi-Fi, Bluetooth connectivity, and smartphone integration have become standard offerings, driving the demand for automotive electronics that enable these functionalities.
- Rise of Electric and Autonomous Vehicles: The proliferation of electric vehicles (EVs) and the development of autonomous driving technology are reshaping the automotive landscape. Electric vehicles rely heavily on electronic systems for battery management, motor control, and energy efficiency. Similarly, autonomous vehicles require sophisticated sensors, AI algorithms, and computing power to navigate and make real-time decisions. As automakers invest in these technologies, the demand for automotive electronics continues to grow.
Market Challenges
- Regulatory Compliance: Compliance with increasingly stringent regulatory standards poses a significant challenge for automotive electronics manufacturers. Regulations related to vehicle emissions, safety standards, and data privacy vary across regions and often require substantial investments in research and development to ensure compliance. Navigating this complex regulatory landscape while maintaining competitiveness can be a challenge for companies operating in the automotive electronics market.
- Supply Chain Disruptions: The automotive industry is highly dependent on complex global supply chains for electronic components and raw materials. Disruptions such as natural disasters, geopolitical tensions, or unexpected events like the COVID-19 pandemic can significantly impact supply chain operations, leading to delays in production and increased costs. Managing supply chain risks and building resilience through diversification and localization strategies are essential for mitigating these challenges.
Market Trends
- Vehicle Electrification beyond EVs: While electric vehicles (EVs) have been a major focus of electrification efforts, there is a growing trend towards electrification across various vehicle segments. Hybrid vehicles, plug-in hybrids, and mild hybrids are gaining popularity as automakers seek to improve fuel efficiency and reduce emissions across their product portfolios. This trend is driving the demand for automotive electronics tailored to hybrid and electric powertrains, including hybrid control units, electric compressors, and battery management systems.
- Software-Defined Vehicles: The automotive industry is undergoing a paradigm shift towards software-defined vehicles, where software plays a central role in defining vehicle functionality and performance. This trend is driven by the increasing complexity of automotive systems, the need for over-the-air updates, and the rise of connected and autonomous vehicles. Software-defined architectures enable greater flexibility, scalability, and upgradability, allowing automakers to adapt to evolving consumer preferences and technological advancements more rapidly.
- Augmented Reality (AR) and Human-Machine Interface (HMI): Augmented reality technologies are being integrated into automotive electronics to enhance the driving experience and improve safety. Head-up displays (HUDs) and augmented reality navigation systems overlay relevant information directly onto the driver's field of view, reducing distractions and providing real-time guidance. Additionally, advancements in human-machine interface (HMI) design are enabling more intuitive and immersive interactions between drivers and vehicle systems, further enhancing user experience and convenience.
Current-carrying devices, such as silicon carbide (SiC) and gallium nitride (GaN) power semiconductors, are playing a crucial role in the automotive electronics market primarily because of the ongoing electrification trend in vehicles. As automakers transition towards electric and hybrid vehicles to meet stricter emissions regulations and consumer demand for cleaner transportation options, the demand for efficient power management solutions has surged. Current-carrying devices offer several advantages over traditional silicon-based semiconductors, including higher power density, lower switching losses, and improved thermal performance.
These attributes make them ideal for use in electric powertrains, battery management systems, and other critical components of electric vehicles. Moreover, current-carrying devices contribute to enhancing the overall efficiency and performance of automotive electronics systems. By minimizing power losses and improving energy conversion efficiency, these devices help optimize the operation of electric drivetrains, extend the range of electric vehicles, and enhance the charging infrastructure. As a result, automotive manufacturers are increasingly incorporating SiC and GaN power semiconductors into their vehicles to capitalize on these benefits and gain a competitive edge in the market.
The proliferation of advanced driver assistance systems (ADAS), infotainment systems, and in-vehicle connectivity features has further fueled the demand for current-carrying devices in automotive electronics. These systems require reliable and efficient power management solutions to support their operation and ensure seamless integration with the vehicle's electrical architecture. As automotive electronics become more sophisticated and interconnected, the role of current-carrying devices in enabling efficient power distribution and control becomes increasingly critical.
Passenger vehicles are leading in the automotive electronics market due to the growing consumer demand for safety, comfort, and connectivity features.
Passenger vehicles have emerged as leaders in the automotive electronics market primarily because of the increasing consumer demand for advanced safety, comfort, and connectivity features. As the automotive industry continues to evolve, consumers are placing greater emphasis on safety technologies that can mitigate the risk of accidents and enhance overall driving experience. Features such as anti-lock braking systems (ABS), electronic stability control (ESC), and advanced driver assistance systems (ADAS) have become standard offerings in passenger vehicles, driving the adoption of automotive electronics.
Moreover, passenger vehicles are at the forefront of incorporating cutting-edge technologies to enhance comfort and convenience for occupants. Infotainment systems, touchscreen displays, and voice-activated controls are becoming commonplace in modern passenger vehicles, providing occupants with access to entertainment, navigation, and communication features. The integration of these technologies requires sophisticated automotive electronics to ensure seamless functionality and user experience. The demand for connectivity features in passenger vehicles is driving innovation in automotive electronics.
Consumers expect their vehicles to offer seamless connectivity with smartphones, tablets, and other devices, enabling features such as Bluetooth connectivity, in-car Wi-Fi, and smartphone integration. Automotive manufacturers are responding to this demand by integrating advanced communication and telematics systems into passenger vehicles, further driving the growth of the automotive electronics market.
Passenger vehicles often serve as platforms for testing and deploying new automotive electronics technologies before they are integrated into commercial vehicles or other automotive segments. The competitive nature of the passenger vehicle market encourages automakers to differentiate their offerings through innovative electronics features, driving continuous investment in research and development.
Original Equipment Manufacturers (OEMs) are leading in the automotive electronics market due to their pivotal role in integrating advanced electronic systems into vehicles and setting industry standards.
Original Equipment Manufacturers (OEMs) hold a leading position in the automotive electronics market primarily because of their crucial role in integrating advanced electronic systems into vehicles and setting industry standards. As the primary manufacturers of vehicles, OEMs are responsible for designing, engineering, and assembling vehicles while ensuring compliance with regulatory requirements and meeting consumer expectations. In this process, OEMs play a central role in integrating a wide range of electronic components and systems into vehicles, ranging from safety and driver assistance systems to infotainment and connectivity features.
OEMs have significant influence over the automotive supply chain, collaborating with electronic component suppliers, semiconductor manufacturers, and technology companies to develop and implement innovative electronic solutions. OEMs leverage their expertise in vehicle design and engineering to integrate these electronic systems seamlessly into vehicles, ensuring reliability, performance, and safety. Additionally, OEMs often invest in research and development to drive innovation in automotive electronics, collaborating with industry partners to develop next-generation technologies and enhance the driving experience.
OEMs have the resources and capabilities to invest in the development of proprietary electronic platforms and architectures, giving them a competitive advantage in the automotive electronics market. By developing standardized electronic platforms that can be scaled across multiple vehicle models, OEMs streamline production processes, reduce costs, and accelerate time-to-market for new vehicles. This ability to leverage economies of scale and standardize electronic architectures positions OEMs as leaders in driving innovation and setting industry standards in the automotive electronics market.
Furthermore, OEMs have established strong relationships with regulatory agencies and industry stakeholders, enabling them to influence regulatory standards and shape the direction of the automotive electronics market. By proactively addressing regulatory requirements and incorporating advanced safety and emissions technologies into their vehicles, OEMs demonstrate their commitment to compliance and sustainability, further enhancing their leadership position in the market.
Safety systems are leading in the automotive electronics market due to their critical role in enhancing vehicle safety and reducing the risk of accidents.
Safety systems have emerged as leaders in the automotive electronics market primarily because of their fundamental importance in enhancing vehicle safety and mitigating the risk of accidents. As safety regulations become more stringent worldwide and consumers prioritize safety features when purchasing vehicles, the demand for advanced safety systems has skyrocketed. Safety systems encompass a wide range of electronic technologies designed to prevent accidents, protect occupants, and mitigate the severity of collisions.
Governments around the world have implemented stringent safety standards and regulations, mandating the inclusion of safety features such as anti-lock braking systems (ABS), electronic stability control (ESC), and airbag systems in vehicles. These regulations compel automakers to integrate advanced safety systems into their vehicles, driving the demand for automotive electronics that enable these functionalities. Moreover, consumers are increasingly prioritizing safety when choosing vehicles, leading to a surge in demand for vehicles equipped with advanced safety features.
Safety systems not only enhance occupant protection but also contribute to reducing insurance premiums and minimizing the likelihood of accidents, making them highly desirable among consumers. Features such as adaptive cruise control, lane departure warning, and automatic emergency braking have become standard offerings in modern vehicles, further driving the adoption of safety systems in the automotive market. Advancements in automotive electronics technology have significantly enhanced the effectiveness and capabilities of safety systems.
Sensors, cameras, radar, and AI algorithms enable safety systems to detect and respond to potential hazards in real time, providing drivers with critical information and assistance to prevent accidents. As these technologies continue to evolve and improve, safety systems are poised to become even more sophisticated and effective in enhancing vehicle safety and reducing accidents on the road.
The Asia-Pacific (APAC) region is leading in the automotive electronics market due to its robust manufacturing ecosystem, technological innovation, and growing demand for vehicles with advanced electronic features.
The Asia-Pacific (APAC) region has emerged as a leader in the automotive electronics market primarily due to its robust manufacturing ecosystem, technological innovation, and the increasing demand for vehicles equipped with advanced electronic features. As the largest automotive market globally, APAC is home to several key automotive manufacturing hubs, including China, Japan, South Korea, and India, which collectively account for a significant share of global vehicle production. The region's well-established supply chain infrastructure, cost-effective labor, and supportive government policies have attracted investments from automotive manufacturers and electronic component suppliers, driving the growth of the automotive electronics market.
Moreover, APAC is at the forefront of technological innovation in automotive electronics, with leading companies and research institutions spearheading developments in areas such as electric vehicles (EVs), autonomous driving technology, and connected vehicles. Countries like Japan and South Korea are renowned for their expertise in semiconductor manufacturing, while China is rapidly emerging as a powerhouse in EV production and battery technology. This technological prowess, coupled with a large pool of skilled engineers and researchers, has positioned APAC as a hotbed of innovation in automotive electronics.
Furthermore, the growing affluence and urbanization in APAC countries have led to an increase in the demand for vehicles with advanced electronic features, such as infotainment systems, navigation systems, and driver assistance systems. Rising disposable incomes, expanding middle-class populations, and changing consumer preferences are driving the adoption of premium vehicles equipped with sophisticated electronic features, further fueling the growth of the automotive electronics market in the region.
Government initiatives aimed at promoting electric mobility, reducing emissions, and enhancing road safety have accelerated the adoption of automotive electronics in APAC. Subsidies, incentives, and regulatory mandates for electric vehicles, coupled with investments in charging infrastructure and smart transportation systems, are driving the transition towards cleaner and smarter mobility solutions, creating opportunities for automotive electronics manufacturers and suppliers in the region.
- In March 2023, Infineon Technologies AG expanded its partnership with Delta Electronics, Inc., an energy, and power management company that would deepen its innovative activities to provide higher density and more efficient solutions for the growing market of electric vehicles. With partnership would provide EV drivetrain applications such as on-board chargers, DC-DC converters, and traction inverters, along with a wide range of components such as low-voltage and high-voltage microcontrollers and discrete as well as modulus.
- In January 2023, ZF Friedrichshafen AG announced the introduction of Smart Camera 6, a next-generation camera for automated driving and safety systems. The main focus of Smart Camera 6 is to fulfill the demand for 3D surround view and Interior Monitoring Systems with the support of Image Processing Module systems.
- In January 2023, Xilinx, Inc. collaborated with an embedded AI autonomous driving provider, Motovis to provide a solution that combines Motovis’ convolutional neural network (CNN) IP and Zynq system-on-chip (SoC), Xilinx Automotive (XA) platform for forward camera systems' vehicle control and perception in the automotive industry. The aim of the solution is to enhance customers with robust platforms and rapid development.
Years considered in this report:
- Historic year: 2018
- Base year: 2023
- Estimated year: 2024
- Forecast year: 2029
Aspects covered in the report:
- Automotive Electronics market Outlook with its value and forecast along with its segments
- Various drivers and challenges
- On-going trends and developments
- Top profiled companies
- Strategic recommendation
By Component:
- Electronic Control Unit
- Sensors
- Current Carrying Devices
- Others
By vehicle type:
- Passenger Vehicles
- Commercial Vehicles
By distribution channel:
- OEM
- Aftermarket
By Application:
- Advanced Driver Assistance Systems
- Safety Systems
- Body Electronics
- Entertainment
- Powertrain
The approach of the report:
This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, and government-generated reports and databases.After gathering the data from secondary sources, primary research was conducted by conducting telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. After this, the analysts made primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once the analysts acquired primary data, they started verifying the details obtained from secondary sources.
Intended audience:
This report can be useful to industry consultants, manufacturers, suppliers, associations, and organizations related to the Automotive Electronics industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.Table of Contents
1. Executive Summary5. Economic/Demographic Snapshot13. Strategic Recommendations15. Disclaimer
2. Market Dynamics
3. Research Methodology
4. Market Structure
6. Global Automotive Electronics Market Outlook
7. North America Automotive Electronics Market Outlook
8. Europe Automotive Electronics Market Outlook
9. Asia-Pacific Automotive Electronics Market Outlook
10. South America Automotive Electronics Market Outlook
11. Middle East & Africa Automotive Electronics Market Outlook
12. Competitive Landscape
14. Annexure
List of Figures
List of Tables
Companies Mentioned (Partial List)
A selection of companies mentioned in this report includes, but is not limited to:
- Hella GmbH & Co. KGaA
- Denso Corporation
- Robert Bosch GmbH
- Valeo S.A.
- ZF Friedrichshafen AG
- Magna International Inc
- Infineon Technologies AG
- Autoliv, Inc
- Continental AG
- HL Mando Corporation
- Mitsubishi Electric Corporation
- Lear Corporation
- Nidec Corporation
- Marelli Europe S.p.A.
- Visteon Corporation
- Hyundai Mobis
- Hitachi, Ltd.
- Aisin Seiki Co., Ltd.
- Gentex Corporation
- Texas Instruments Incorporated