Automotive Lidar System-on-chip SoC Market

Market Overview

The Automotive Lidar System-on-chip SoC market in the automotive industry represents a crucial component of modern vehicle design and functionality, supporting advancements in safety, efficiency, emissions control, connectivity, and autonomous technologies. Automotive Lidar System-on-chip SoC components are pivotal across various automotive systems, from traditional internal combustion engine (ICE) vehicles to electric vehicles (EVs) and autonomous vehicles (AVs). As the global automotive industry shifts toward electrification, sustainability, and smart mobility, the demand for Automotive Lidar System-on-chip SoC components has grown significantly. This market is heavily influenced by evolving consumer preferences, stringent regulatory mandates, and technological innovation across regions.

Regional Trends and Changes in the Automotive Lidar System-on-chip SoC Market

China:

China, as the world’s largest automotive producer, accounts for over 30% of global vehicle production. With approximately 26 million vehicles produced annually, the country leads the transition to New Energy Vehicles (NEVs), which represented nearly 30% of all passenger vehicle sales in 2023. This shift has driven a significant demand for Automotive Lidar System-on-chip SoC components, particularly those supporting energy efficiency, emissions control, and lightweighting. Government policies, such as subsidies for NEVs and strict emissions regulations, have propelled domestic brands like BYD and Nio to innovate in Automotive Lidar System-on-chip SoC technologies. China’s extensive EV charging infrastructure further supports growth, as specialized Automotive Lidar System-on-chip SoC components are needed for power management and connectivity solutions.

United States:

The U.S. automotive market is characterized by a high preference for light trucks and SUVs, which account for over 70% of vehicle sales. In 2023, the U.S. produced approximately 10.6 million vehicles. Federal and state policies promoting EV adoption, such as tax credits and zero-emission vehicle (ZEV) mandates, have increased the demand for advanced Automotive Lidar System-on-chip SoC components in EV production. Additionally, investments in domestic supply chain resilience, including local battery production, are driving the need for innovative materials and systems. The U.S. market also emphasizes advanced driver-assistance systems (ADAS), boosting the demand for connectivity-enhancing Automotive Lidar System-on-chip SoC components tailored for autonomy and smart mobility.

Europe:

Europe, the second-largest automotive market, produced more than 12 million vehicles in 2023. The region is a global leader in electrification, with battery-electric vehicles (BEVs) capturing over 15% of total vehicle sales. Stringent CO₂ emission targets from the European Union have accelerated the adoption of Automotive Lidar System-on-chip SoC components that enhance sustainability, such as lightweight materials and energy-efficient systems. European automakers, including Volkswagen, BMW, and Stellantis, are heavily investing in localized battery production and sustainable manufacturing processes. Trade policies protecting local suppliers have also driven innovation in region-specific Automotive Lidar System-on-chip SoC technologies.

Asia (Excluding China):

Asia, excluding China, is dominated by automotive powerhouses such as Japan, South Korea, and India. Japan leads with approximately 8.3 million vehicles produced annually, focusing on hybrid vehicles and advanced R&D in autonomous systems. South Korea’s robust EV production, led by Hyundai and Kia, drives demand for lightweight Automotive Lidar System-on-chip SoC components and battery systems. Meanwhile, India, producing over 5 million vehicles annually, is focusing on expanding EV adoption and enhancing local production capacity. Stringent emission norms and the localization of supply chains are fostering regional demand for Automotive Lidar System-on-chip SoC technologies that cater to energy efficiency and cost-effectiveness.

Rest of the World (ROW):

Emerging markets in South America, Africa, and the Middle East are witnessing increased vehicle demand due to urbanization and economic growth. Brazil leads South America in automotive production, with over 2 million vehicles produced annually, focusing on cost-effective Automotive Lidar System-on-chip SoC components that comply with local emissions standards. Infrastructure developments and manufacturing incentives in regions like the Middle East further boost demand for innovative Automotive Lidar System-on-chip SoC technologies that align with regional requirements.

Investments in the Automotive Lidar System-on-chip SoC Market

The Automotive Lidar System-on-chip SoC market in the automotive industry has seen significant investments globally, driven by the push for electrification, autonomy, and sustainability.

• China:The government has committed$50 billionto NEV subsidies, boosting demand for Automotive Lidar System-on-chip SoC components in EV systems such as battery management and lightweight materials.
• United States:Through initiatives like the Inflation Reduction Act, the U.S. is investing$370 billionin clean energy, with substantial allocations for EV production and domestic battery supply chains, fueling growth in advanced Automotive Lidar System-on-chip SoC technologies.
• Europe:Automakers and governments collectively plan to invest over€250 billionin EV infrastructure and battery production by 2030, emphasizing innovations in lightweight and recyclable Automotive Lidar System-on-chip SoC components.
• South Korea:Hyundai and Kia are investing$16 billionin EV production and supply chains by 2026, driving demand for Automotive Lidar System-on-chip SoC materials tailored for energy efficiency.
• India:The Faster Adoption and Manufacturing of Hybrid and Electric Vehicles (FAME) scheme allocates₹10,000 crore($1.2 billion) to accelerate EV adoption, promoting local Automotive Lidar System-on-chip SoC component development.

Private sector contributions are equally impactful. Companies like Tesla, Toyota, and Volkswagen have announced combined investments exceeding$500 billionin electrification and autonomous technologies, which heavily rely on advanced Automotive Lidar System-on-chip SoC components.

Supply Chain Insights for Automotive Lidar System-on-chip SoC Market

The supply chain for Automotive Lidar System-on-chip SoC components is shaped by material availability, geopolitical dynamics, and the push for localization. Over60% of global lithiumis sourced from Australia, while70% of cobaltoriginates in the DRC, emphasizing regional dependencies that make raw material sourcing critical. Semiconductor shortages in 2023 caused a production loss of over 6 million vehicles globally, prompting investments exceeding$100 billionin semiconductor fabs. Localization is also a major focus: China leads battery production with70% of global capacity, the U.S. has allocated$50 billionunder the Inflation Reduction Act to enhance domestic production, and Europe hosts40% of planned EV battery plants globally. Additionally, a strong shift toward a circular economy is underway, with the EU mandating70% recyclabilityfor EV batteries by 2030, driving the integration of recycled materials into Automotive Lidar System-on-chip SoC components. Geopolitical tensions, such as those involving Taiwan, have spurred diversification of semiconductor sourcing to countries like India, Vietnam, and Mexico, ensuring a more resilient supply chain.

Automotive Lidar System-on-chip SoC Market Segmentation

The Automotive Lidar System-on-chip SoC market in the automotive industry can be segmented into the following categories:

By Application:

• Powertrain (ICE and EV systems)
• Safety and ADAS
• Connectivity and Infotainment
• Lightweighting and Emissions Control

By Industry:

• Passenger Vehicles
• Commercial Vehicles
• Electric Vehicles (EVs)
• Autonomous Vehicles (AVs)

By Geography:

• North America
• Asia-Pacific (China, Japan, South Korea, India)
• Europe
• Rest of the World

Future Outlook

The future of the Automotive Lidar System-on-chip SoC market in the automotive industry is poised for significant growth, fueled by evolving consumer demands, stricter environmental regulations, and rapid technological advancements.

• Electrification:With EV sales expected to exceed35 million units by 2030, demand for Automotive Lidar System-on-chip SoC components tailored for energy efficiency, battery systems, and lightweighting will surge.
• Autonomy and Connectivity:The global autonomous vehicle market is projected to grow at aCAGR of 20%by 2030, driving the need for Automotive Lidar System-on-chip SoC technologies in ADAS, connectivity, and data processing.
• Sustainability:Regulatory pressures and consumer awareness will lead to innovations in recyclable materials and low-carbon Automotive Lidar System-on-chip SoC manufacturing solutions.
• Supply Chain Localization:Geopolitical dynamics and supply chain challenges will encourage regional production of Automotive Lidar System-on-chip SoC components, particularly in North America and Europe.
• Emerging Markets:Rising vehicle demand in Southeast Asia, South America, and Africa will create opportunities for cost-effective and region-specific Automotive Lidar System-on-chip SoC solutions.
• Innovation in Mobility:Shared mobility and smart city initiatives will further boost the demand for advanced Automotive Lidar System-on-chip SoC components supporting connected and autonomous ecosystems.

As global automotive revenue is projected to exceed$4 trillion by 2030, the Automotive Lidar System-on-chip SoC market will remain a cornerstone of innovation, enabling advancements in efficiency, safety, and sustainability.