Global Automotive Radar SoC Market Outlook 2026-2032: Revenue Forecast at US$ 1,531 Million with 20.3% CAGR

The Automotive Radar SoC market represents a core segment of the global automotive semiconductor and sensing technology ecosystem. Radar SoCs are highly integrated chips that combine radar transmission, reception, signal processing, and control logic into a single platform, enabling accurate detection of vehicles, pedestrians, and obstacles across short, medium, and long ranges. These solutions are essential to modern vehicle safety and autonomy architectures, supporting functions such as adaptive cruise control, automatic emergency braking, blind-spot detection, and lane-change assistance.

Between 2025 and 2031, the market is expected to experience strong growth as regulatory mandates, consumer safety expectations, and technological advancements drive widespread adoption of radar-based sensing. Automotive Radar SoCs are increasingly favored over discrete architectures due to their compact size, lower power consumption, and ability to support scalable, software-defined radar systems.

The market outlook reflects the automotive industry's transition toward sensor-rich, software-driven vehicles where radar plays a critical role in enabling safe and reliable perception under diverse environmental conditions.

The global market for Automotive Radar SoC was estimated to be worth US$ 420 million in 2025 and is projected to reach US$ 1531 million, growing at a CAGR of 20.3% from 2026 to 2032.

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Market Key Drivers

One of the primary drivers of the Automotive Radar SoC market is the rapid proliferation of advanced driver assistance systems across passenger and commercial vehicles. Governments and safety organizations worldwide are mandating or encouraging the adoption of features such as collision avoidance and automatic braking, directly increasing demand for radar-enabled sensing solutions.

Another significant growth driver is the progression toward autonomous and semi-autonomous driving. Radar SoCs are a foundational component of perception systems, offering robust performance in poor visibility conditions such as rain, fog, and darkness where camera-based systems may be limited. Their reliability makes radar indispensable for higher levels of vehicle autonomy.

Cost efficiency and integration benefits are also accelerating market adoption. Automotive Radar SoCs reduce system complexity by integrating multiple functions into a single chip, lowering bill-of-materials cost, simplifying design, and improving reliability. These advantages are particularly important as radar sensors are deployed in increasing numbers per vehicle.

In addition, continuous advancements in semiconductor process technologies, RF design, and signal processing algorithms are improving radar resolution, range, and accuracy, further expanding the addressable application scope of radar SoCs.

Competitive Landscape

The competitive landscape of the Automotive Radar SoC market is characterized by the presence of global semiconductor companies, automotive-focused chip manufacturers, and specialized radar technology providers. Competition is driven by integration level, performance metrics, power efficiency, and compliance with automotive safety and quality standards.

Leading players are investing heavily in research and development to enhance radar resolution, enable advanced signal processing, and support software-defined radar architectures. Close collaboration with automotive OEMs and tier-one suppliers is a critical strategy, enabling early design wins and long-term supply agreements.

Emerging companies and technology innovators are focusing on differentiation through advanced algorithms, higher levels of integration, and support for next-generation autonomous driving platforms. Competitive ranking in the market is influenced by technological maturity, manufacturing scalability, automotive qualification, and global customer reach.

High entry barriers, including long design-in cycles and strict automotive certification requirements, contribute to a competitive environment dominated by technologically advanced and well-capitalized players.

Key Players Mentioned in the Global Automotive Radar SoC Market Research Report:

Texas Instruments
Infineon Technologies
Arbe Robotics
Smartmicro
Muniu Tech
WHST
HUAWEI
Calterah Semiconductor

Market Segmentation

The Automotive Radar SoC Market report has been segregated based on distinct categories, such as product type, application, end user, and region. Each and every segment is evaluated on the basis of CAGR, share, and growth potential. In the regional analysis, the report highlights the prospective region, which is estimated to generate opportunities in the global Automotive Radar SoC market in the forthcoming years. This segmental analysis will surely turn out to be a useful tool for the readers, stakeholders, and market participants to get a complete picture of the global Automotive Radar SoC market and its potential to grow in the years to come.

Segment by Type:

4Tx/4Rx
3Tx/4Rx
Others

Segment by Application:

Corner Radar
Front Radar
Others

Regional Insights

Asia-Pacific represents the largest and fastest-growing regional market for automotive radar SoCs, driven by high vehicle production volumes, rapid adoption of ADAS features, and strong semiconductor manufacturing capabilities. The region's leadership in electric vehicle production and smart mobility initiatives is further boosting demand for advanced radar solutions.

Europe remains a key market, supported by stringent vehicle safety regulations, advanced automotive engineering capabilities, and widespread deployment of ADAS technologies. The region's focus on road safety and environmental sustainability is encouraging automakers to integrate radar-based systems across vehicle segments.

North America continues to show strong growth, fueled by high consumer demand for safety features, increasing penetration of semi-autonomous driving technologies, and ongoing innovation in automotive electronics. Investment in next-generation mobility and connected vehicle platforms supports sustained demand for automotive radar SoCs.

Together, these regions define global market trends, influence technology standards, and shape competitive strategies within the Automotive Radar SoC market.

Market Trends & Dynamics

Several trends are shaping the evolution of the Automotive Radar SoC market. One major trend is the shift toward higher-resolution and imaging radar, enabled by advanced SoC architectures and increased processing capability. These developments support more detailed object detection and classification.

Another important dynamic is the integration of radar SoCs into centralized vehicle computing platforms. Radar data is increasingly fused with inputs from cameras and other sensors to create comprehensive perception systems for autonomous driving.

The market is also witnessing a move toward software-defined radar, where SoCs support flexible configuration and upgradability through software, extending system lifespan and enabling feature enhancements over time.

Supply chain resilience and semiconductor capacity planning remain critical considerations, influencing sourcing strategies and encouraging long-term partnerships between automakers and chip suppliers.

Five-Year Outlook for Investors, Researchers, and Manufacturers (2025-2031)

Looking ahead, the Automotive Radar SoC market is positioned for robust growth as safety, automation, and connectivity become central pillars of vehicle design. For investors, the market offers exposure to a high-growth semiconductor segment closely aligned with long-term automotive technology trends. For manufacturers, competitive success will depend on innovation, system integration, cost optimization, and close collaboration with automotive customers. For researchers, continued advances in RF design, signal processing, and artificial intelligence will further expand radar capabilities.

As vehicles evolve toward fully autonomous, intelligent platforms, automotive radar SoCs are expected to remain indispensable components supporting safe, reliable, and scalable mobility solutions through 2031.

Research Methodology

Our high-value analysis of the global Automotive Radar SoC market is a result of an intelligent blend of primary and secondary research. The analysts consulted and gathered information from subject matter experts, key opinion leaders such as purchase managers, VPs, CSOs, and CEOs, distributors and suppliers, and research and development participants. In order to validate data derived from secondary research, they conducted primary interviews. For further validation of current and future market growth trends and penetration and several other studies, they contacted major distributors and manufacturers and industry experts.

Market participants were approached through face-to-face discussions, video conferences, emails, and telephonic conversations. For secondary research, we used paid data sources such as Hoovers, OneSource, Bloomberg, Factiva, and Reuters.

This Automotive Radar SoC Market Research Report Contains Answers to your following Questions

(A) Which Manufacturing Technology is Used for Automotive Radar SoC? What Developments Are Going On in That Technology? Which Trends Are Causing These Developments?

(B) Who Are the Global Key Players in This Automotive Radar SoC Market? What's Their Company Profile, Their Product Information, and Contact Information?

(C) What Was Global Market Status of Automotive Radar SoC Market? What Was Capacity, Production Value, Cost and PROFIT of Automotive Radar SoC Market?

(D) What Is Current Market Status of Automotive Radar SoC Industry? What's Market Competition in This Industry, Both Company, and Country Wise? What's Market Analysis of Automotive Radar SoC Market by Taking Applications and Types in Consideration?

(E) What Are Projections of Global Automotive Radar SoC Industry Considering Capacity, Production and Production Value? What Will Be the Estimation of Cost and Profit? What Will Be Market Share, Supply and Consumption? What about Import and Export?

(F) What Is Automotive Radar SoC Market Chain Analysis by Upstream Raw Materials and Downstream Industry?

(G) What Is Economic Impact on Automotive Radar SoC Industry? What are Global Macroeconomic Environment Analysis Results? What Are Global Macroeconomic Environment Development Trends?

(H) What Are Market Dynamics of Automotive Radar SoC Market? What Are Challenges and Opportunities?

(I) What Should Be Entry Strategies, Countermeasures to Economic Impact, Marketing Channels for Automotive Radar SoC Industry?

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Table of Contents

1 Market Overview
1.1 Automotive Radar SoC Product Introduction
1.2 Global Automotive Radar SoC Market Size Forecast
1.2.1 Global Automotive Radar SoC Sales Value (2021-2032)
1.2.2 Global Automotive Radar SoC Sales Volume (2021-2032)
1.2.3 Global Automotive Radar SoC Sales Price (2021-2032)
1.3 Automotive Radar SoC Market Trends & Drivers
1.3.1 Automotive Radar SoC Industry Trends
1.3.2 Automotive Radar SoC Market Drivers & Opportunities
1.3.3 Automotive Radar SoC Market Challenges
1.3.4 Automotive Radar SoC Market Restraints
1.3.5 Impact of U.S. Tariffs
1.4 Assumptions and Limitations
1.5 Study Objectives
1.6 Years Considered
2 Competitive Analysis by Company
2.1 Global Automotive Radar SoC Players Revenue Ranking (2025)
2.2 Global Automotive Radar SoC Revenue by Company (2021-2026)
2.3 Global Automotive Radar SoC Sales Volume Ranking of Players (2025)
2.4 Global Automotive Radar SoC Sales Volume by Company (2021-2026)
2.5 Global Automotive Radar SoC Average Price by Company (2021-2026)
2.6 Key Manufacturers Automotive Radar SoC Manufacturing Base and Headquarters
2.7 Key Manufacturers Automotive Radar SoC Product Offerings
2.8 Key Manufacturers Start of Mass Production of Automotive Radar SoC
2.9 Automotive Radar SoC Market Competitive Analysis
2.9.1 Automotive Radar SoC Market Concentration Rate (2021-2026)
2.9.2 Global 5 and 10 Largest Manufacturers by Automotive Radar SoC Revenue in 2025
2.9.3 Global Companies by Tier (Tier 1, Tier 2, Tier 3), based on Automotive Radar SoC revenue, 2025
2.10 Mergers & Acquisitions and Expansion
3 Segmentation by Type
3.1 Introduction by Type
3.1.1 4Tx/4Rx
3.1.2 3Tx/4Rx
3.1.3 Others
3.2 Global Automotive Radar SoC Sales Value by Type
3.2.1 Global Automotive Radar SoC Sales Value by Type (2021 vs 2025 vs 2032)
3.2.2 Global Automotive Radar SoC Sales Value, by Type (2021-2032)
3.2.3 Global Automotive Radar SoC Sales Value, by Type (%), 2021-2032
3.3 Global Automotive Radar SoC Sales Volume by Type
3.3.1 Global Automotive Radar SoC Sales Volume by Type (2021 vs 2025 vs 2032)
3.3.2 Global Automotive Radar SoC Sales Volume, by Type (2021-2032)
3.3.3 Global Automotive Radar SoC Sales Volume, by Type (%), 2021-2032
3.4 Global Automotive Radar SoC Average Price by Type (2021-2032)
4 Segmentation by Process Node
4.1 Introduction by Process Node
4.1.1 40nm
4.1.2 28nm
4.1.3 Others
4.2 Global Automotive Radar SoC Sales Value by Process Node
4.2.1 Global Automotive Radar SoC Sales Value by Process Node (2021 vs 2025 vs 2032)
4.2.2 Global Automotive Radar SoC Sales Value, by Process Node (2021-2032)
4.2.3 Global Automotive Radar SoC Sales Value, by Process Node (%), 2021-2032
4.3 Global Automotive Radar SoC Sales Volume by Process Node
4.3.1 Global Automotive Radar SoC Sales Volume by Process Node (2021 vs 2025 vs 2032)
4.3.2 Global Automotive Radar SoC Sales Volume, by Process Node (2021-2032)
4.3.3 Global Automotive Radar SoC Sales Volume, by Process Node (%), 2021-2032
4.4 Global Automotive Radar SoC Average Price by Process Node (2021-2032)
5 Segmentation by Grade
5.1 Introduction by Grade
5.1.1 ISO 26262 ASIL-B
5.1.2 ISO 26262 ASIL-C
5.1.3 Others
5.2 Global Automotive Radar SoC Sales Value by Grade
5.2.1 Global Automotive Radar SoC Sales Value by Grade (2021 vs 2025 vs 2032)
5.2.2 Global Automotive Radar SoC Sales Value, by Grade (2021-2032)
5.2.3 Global Automotive Radar SoC Sales Value, by Grade (%), 2021-2032
5.3 Global Automotive Radar SoC Sales Volume by Grade
5.3.1 Global Automotive Radar SoC Sales Volume by Grade (2021 vs 2025 vs 2032)
5.3.2 Global Automotive Radar SoC Sales Volume, by Grade (2021-2032)
5.3.3 Global Automotive Radar SoC Sales Volume, by Grade (%), 2021-2032
5.4 Global Automotive Radar SoC Average Price by Grade (2021-2032)
6 Segmentation by Application
6.1 Introduction by Application
6.1.1 Corner Radar
6.1.2 Front Radar
6.1.3 Others
6.2 Global Automotive Radar SoC Sales Value by Application
6.2.1 Global Automotive Radar SoC Sales Value by Application (2021 vs 2025 vs 2032)
6.2.2 Global Automotive Radar SoC Sales Value, by Application (2021-2032)
6.2.3 Global Automotive Radar SoC Sales Value, by Application (%), 2021-2032
6.3 Global Automotive Radar SoC Sales Volume by Application
6.3.1 Global Automotive Radar SoC Sales Volume by Application (2021 vs 2025 vs 2032)
6.3.2 Global Automotive Radar SoC Sales Volume, by Application (2021-2032)
6.3.3 Global Automotive Radar SoC Sales Volume, by Application (%), 2021-2032
6.4 Global Automotive Radar SoC Average Price by Application (2021-2032)
7 Segmentation by Region
7.1 Global Automotive Radar SoC Sales Value by Region
7.1.1 Global Automotive Radar SoC Sales Value by Region: 2021 vs 2025 vs 2032
7.1.2 Global Automotive Radar SoC Sales Value by Region (2021-2026)
7.1.3 Global Automotive Radar SoC Sales Value by Region (2027-2032)
7.1.4 Global Automotive Radar SoC Sales Value by Region (%), 2021-2032
7.2 Global Automotive Radar SoC Sales Volume by Region
7.2.1 Global Automotive Radar SoC Sales Volume by Region: 2021 vs 2025 vs 2032
7.2.2 Global Automotive Radar SoC Sales Volume by Region (2021-2026)
7.2.3 Global Automotive Radar SoC Sales Volume by Region (2027-2032)
7.2.4 Global Automotive Radar SoC Sales Volume by Region (%), 2021-2032
7.3 Global Automotive Radar SoC Average Price by Region (2021-2032)
7.4 North America
7.4.1 North America Automotive Radar SoC Sales Value, 2021-2032
7.4.2 North America Automotive Radar SoC Sales Value by Country (%), 2025 vs 2032
7.5 Europe
7.5.1 Europe Automotive Radar SoC Sales Value, 2021-2032
7.5.2 Europe Automotive Radar SoC Sales Value by Country (%), 2025 vs 2032
7.6 Asia Pacific
7.6.1 Asia Pacific Automotive Radar SoC Sales Value, 2021-2032
7.6.2 Asia Pacific Automotive Radar SoC Sales Value by Region (%), 2025 vs 2032
7.7 South America
7.7.1 South America Automotive Radar SoC Sales Value, 2021-2032
7.7.2 South America Automotive Radar SoC Sales Value by Country (%), 2025 vs 2032
7.8 Middle East & Africa
7.8.1 Middle East & Africa Automotive Radar SoC Sales Value, 2021-2032
7.8.2 Middle East & Africa Automotive Radar SoC Sales Value by Country (%), 2025 vs 2032
8 Segmentation by Key Countries/Regions
8.1 Key Countries/Regions Automotive Radar SoC Sales Value Growth Trends, 2021 vs 2025 vs 2032
8.2 Key Countries/Regions Automotive Radar SoC Sales Value and Sales Volume
8.2.1 Key Countries/Regions Automotive Radar SoC Sales Value, 2021-2032
8.2.2 Key Countries/Regions Automotive Radar SoC Sales Volume, 2021-2032
8.3 United States
8.3.1 United States Automotive Radar SoC Sales Value, 2021-2032
8.3.2 United States Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.3.3 United States Automotive Radar SoC Sales Value by Application, 2025 vs 2032
8.4 Europe
8.4.1 Europe Automotive Radar SoC Sales Value, 2021-2032
8.4.2 Europe Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.4.3 Europe Automotive Radar SoC Sales Value by Application, 2025 vs 2032
8.5 China
8.5.1 China Automotive Radar SoC Sales Value, 2021-2032
8.5.2 China Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.5.3 China Automotive Radar SoC Sales Value by Application, 2025 vs 2032
8.6 Japan
8.6.1 Japan Automotive Radar SoC Sales Value, 2021-2032
8.6.2 Japan Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.6.3 Japan Automotive Radar SoC Sales Value by Application, 2025 vs 2032
8.7 South Korea
8.7.1 South Korea Automotive Radar SoC Sales Value, 2021-2032
8.7.2 South Korea Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.7.3 South Korea Automotive Radar SoC Sales Value by Application, 2025 vs 2032
8.8 Southeast Asia
8.8.1 Southeast Asia Automotive Radar SoC Sales Value, 2021-2032
8.8.2 Southeast Asia Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.8.3 Southeast Asia Automotive Radar SoC Sales Value by Application, 2025 vs 2032
8.9 India
8.9.1 India Automotive Radar SoC Sales Value, 2021-2032
8.9.2 India Automotive Radar SoC Sales Value by Type (%), 2025 vs 2032
8.9.3 India Automotive Radar SoC Sales Value by Application, 2025 vs 2032
9 Company Profiles
9.1 Texas Instruments
9.1.1 Texas Instruments Company Information
9.1.2 Texas Instruments Introduction and Business Overview
9.1.3 Texas Instruments Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.1.4 Texas Instruments Automotive Radar SoC Product Offerings
9.1.5 Texas Instruments Recent Developments
9.2 Infineon Technologies
9.2.1 Infineon Technologies Company Information
9.2.2 Infineon Technologies Introduction and Business Overview
9.2.3 Infineon Technologies Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.2.4 Infineon Technologies Automotive Radar SoC Product Offerings
9.2.5 Infineon Technologies Recent Developments
9.3 Arbe Robotics
9.3.1 Arbe Robotics Company Information
9.3.2 Arbe Robotics Introduction and Business Overview
9.3.3 Arbe Robotics Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.3.4 Arbe Robotics Automotive Radar SoC Product Offerings
9.3.5 Arbe Robotics Recent Developments
9.4 Smartmicro
9.4.1 Smartmicro Company Information
9.4.2 Smartmicro Introduction and Business Overview
9.4.3 Smartmicro Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.4.4 Smartmicro Automotive Radar SoC Product Offerings
9.4.5 Smartmicro Recent Developments
9.5 Muniu Tech
9.5.1 Muniu Tech Company Information
9.5.2 Muniu Tech Introduction and Business Overview
9.5.3 Muniu Tech Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.5.4 Muniu Tech Automotive Radar SoC Product Offerings
9.5.5 Muniu Tech Recent Developments
9.6 WHST
9.6.1 WHST Company Information
9.6.2 WHST Introduction and Business Overview
9.6.3 WHST Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.6.4 WHST Automotive Radar SoC Product Offerings
9.6.5 WHST Recent Developments
9.7 HUAWEI
9.7.1 HUAWEI Company Information
9.7.2 HUAWEI Introduction and Business Overview
9.7.3 HUAWEI Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.7.4 HUAWEI Automotive Radar SoC Product Offerings
9.7.5 HUAWEI Recent Developments
9.8 Calterah Semiconductor
9.8.1 Calterah Semiconductor Company Information
9.8.2 Calterah Semiconductor Introduction and Business Overview
9.8.3 Calterah Semiconductor Automotive Radar SoC Sales, Revenue, Price and Gross Margin (2021-2026)
9.8.4 Calterah Semiconductor Automotive Radar SoC Product Offerings
9.8.5 Calterah Semiconductor Recent Developments
10 Industry Chain Analysis
10.1 Automotive Radar SoC Industrial Chain
10.2 Automotive Radar SoC Upstream Analysis
10.2.1 Key Raw Materials
10.2.2 Key Suppliers of Raw Materials
10.2.3 Manufacturing Cost Structure
10.3 Midstream Analysis
10.4 Downstream Analysis (Customer Analysis)
10.5 Sales Model and Sales Channelss
10.5.1 Automotive Radar SoC Sales Model
10.5.2 Sales Channels
10.5.3 Automotive Radar SoC Distributors
11 Research Findings and Conclusion
12 Appendix
12.1 Research Methodology
12.1.1 Methodology/Research Approach
12.1.1.1 Research Programs/Design
12.1.1.2 Market Size Estimation
12.1.1.3 Market Breakdown and Data Triangulation
12.1.2 Data Source
12.1.2.1 Secondary Sources
12.1.2.2 Primary Sources
12.2 Author Details
12.3 Disclaimer

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