CMOS mmWave Radar Chip Market Size, Share, Growth, and Industry Analysis, By Types (60 GHz,77 GHz,Other), By Applications Covered (Automotive,Industrial Sector,Other), Regional Insights and Forecast to 2033

CMOS mmWave Radar Chip Market Size

The global CMOS mmWave radar chip market was valued at USD 292 million in 2024 and is expected to grow to USD 319 million in 2025. Fueled by rising demand for compact, energy-efficient radar solutions in automotive, consumer electronics, and industrial automation sectors, the market is projected to reach USD 631 million by 2033, exhibiting a robust compound annual growth rate (CAGR) of 8.9% during the forecast period [2025–2033]. CMOS-based mmWave radar chips offer high-resolution detection and low latency, making them ideal for applications in ADAS (Advanced Driver Assistance Systems), smart home devices, and robotics. Their integration with AI and edge processing technologies is driving their adoption further. Advancements in chip fabrication and falling production costs are enabling wider deployment in mid-range automotive models and mass-market electronics.

In 2024, the United States accounted for the shipment of approximately 14.2 million CMOS mmWave radar chips, making up nearly 23% of total global unit volumes. Out of this, about 8.6 million units were installed in passenger vehicles equipped with ADAS features, particularly in models from Tesla, Ford, and GM. Roughly 3.1 million units were utilized in smart home and consumer electronics devices such as security systems, gesture-controlled appliances, and health-monitoring tools. An additional 1.6 million chips were deployed in industrial and robotics automation across manufacturing hubs in the Midwest and West Coast. The remaining 900,000 units supported R&D efforts, military testing programs, and university-level innovation labs. With federal funding for next-gen mobility and AI-led automation, the U.S. market is expected to remain a key growth engine for mmWave radar chip integration across multiple sectors.

Key Findings

• Market Size: Valued at USD 319 million in 2025, expected to reach USD 631 million by 2033, growing at a CAGR of 8.9%.
• Growth Drivers: 68% vehicle integration, 33% industrial growth, 38% improvement in city logistics, 22% wearable radar increase.
• Trends:2% short-range radar use, 61% automotive demand, 28 million consumer radars, 39% use in 77 GHz applications.
• Key Players: Calterah, TI, NXP, Bosch Group, Infineon Technologies
• Regional Insights: Asia-Pacific 37%, Europe 30%, North America 28%, Middle East & Africa 5%; APAC leads due to chip fabrication.
• Challenges: 44% suppliers delayed, 29% interference issues, 16% supply fluctuation, 12% design limitation feedback.
• Industry Impact: 31% rise in smart factory deployments, 24% sensor-led safety upgrades, 21% IoT device use increase.
• Recent Developments: 5 new product launches, 2 major partnerships, 1 new radar SDK, 38% rise in edge-AI integrations.

CMOS mmWave Radar Chip Market continues to expand as semiconductor integration becomes vital for ADAS and industrial sensing. These chips, leveraging 60 GHz and 77 GHz bands, offer cost-effective, low-power devices ideal for automotive collision avoidance, smart factories, and robotics. In 2023, global shipments exceeded 521 million units, with over 60% used in automotive radar-on-chip systems. Short-range 60 GHz chips dominate proximity detection, particularly in parking and blind-spot applications. This rising adoption among automakers and industrial equipment suppliers is accelerating market reach and enabling broader consumer integration.

CMOS mmWave Radar Chip Market Trends

The CMOS mmWave Radar Chip Market has seen a surge in adoption of integrated radar-on-chip platforms in automotive, industrial, and consumer devices. Over 70 million radar sensors were shipped by key Tier‑1 suppliers like Bosch, Continental, Denso, and Autoliv‑Veoneer in 2023. Among these, 60 GHz modules held a 45.2% share of total mmWave chips used for short-range object detection. The market reports record usage of nearly 28 million low-power imaging radar units in consumer electronics, reflecting AI-enabled imaging trends in smart devices. Wireless AoA (angle of arrival) technology and 4D mmWave innovations are also entering industrial and traffic-control applications, pushing 4D chip deployments in robotics and public safety. The automotive sector alone accounts for over 60% of total CMOS mmWave chip demand, driven by ADAS systems integrating long-range 77 GHz radars for forward collision avoidance and adaptive cruise control. North America retains a 39.6% regional share owing to advanced vehicle manufacturing and automation, while Asia-Pacific is rapidly expanding. Europe contributes significantly, with over 40% of global auto radar output, led by Germany and France. Advances in CMOS fabrication have lowered cost and size, fueling modular and scalable chip designs, including integrated 4D radar systems with superior resolution and image fidelity.

CMOS mmWave Radar Chip Market Dynamics

The CMOS mmWave Radar Chip Market is driven by increasing integration of high-frequency radar modules into compact electronic systems. Growth is supported by surging demand for autonomous driving features, factory automation, and consumer electronics with spatial awareness. Radar-on-chip solutions provide lower latency and enhanced resolution, ideal for adaptive cruise control, collision avoidance, and gesture recognition. Semiconductor miniaturization trends are boosting production scalability, while improved energy efficiency has widened industrial applicability. However, competition from LiDAR and ultrasonic sensors, combined with electromagnetic interference challenges, creates dynamic market conditions requiring ongoing innovation and cost optimization strategies.

OPPORTUNITY

Expansion of 4D radar in robotics and smart cities

In 2024, pilot programs across Europe and Japan utilized CMOS mmWave radar chips in autonomous drones, delivery robots, and traffic-monitoring systems. Urban planners reported a 38% improvement in vehicular flow efficiency after deploying radar-guided signaling infrastructure. Demand for compact sensors with spatial precision also surged across e-health applications such as elderly monitoring systems, with over 17 million units shipped for wearable and contactless monitoring devices globally.

DRIVERS

Rising adoption of ADAS technologies in mid-range vehicles

In 2023, 68% of newly launched vehicles incorporated CMOS mmWave radar chips for blind-spot monitoring, lane departure alerts, and front collision warning. Increased affordability and size reduction of radar modules contributed to broader deployment. Demand is also pushed by safety regulations in the EU and U.S., mandating radar-based driver assistance systems. Industrial sectors saw a 33% growth in deployment of 60 GHz radar for robotic arms and motion detection, especially in warehouse automation and security applications.

RESTRAINT

"Design complexity and integration issues with multi-frequency radar modules"

Nearly 29% of reported failures in radar-based systems during 2023 were linked to chip interference, substrate heat issues, or inconsistent signal modulation at 77 GHz frequencies. Furthermore, LiDAR and camera systems remain preferred in luxury vehicles for higher-resolution mapping, limiting CMOS mmWave chip adoption in premium automotive segments. The high cost of radar calibration equipment and testing infrastructure is another factor deterring small- and mid-sized enterprises from rapid integration.

CHALLENGE

"Standardization and frequency licensing hurdles"

In 2023, 44% of suppliers in emerging markets cited delays in obtaining mmWave spectrum approval for 60 GHz and 77 GHz bands. The inconsistency in testing protocols and regional safety compliance created deployment delays, especially for exports. Additionally, semiconductor supply chain disruptions—particularly in substrate and packaging materials—led to fluctuating availability, impacting production timelines and pricing stability across regions.

Segmentation Analysis

The CMOS mmWave Radar Chip Market segmentation reflects distinct performance and application trends across frequency bands and industry verticals. Types are mainly classified into 60 GHz, 77 GHz, and other frequency ranges. Applications cover automotive, industrial sectors, and other segments like consumer electronics and healthcare devices. Each segment displays varying adoption trends based on cost, range, power efficiency, and use case requirements. For example, 60 GHz chips are favored for proximity sensing, while 77 GHz modules are preferred in long-range ADAS systems.

By Type

• 60 GHz: This type dominates short-range sensing applications due to its low power consumption and compact design. It is widely used in consumer electronics, gesture control, and automotive parking assist systems. In 2023, 60 GHz chips held approximately 45% of global CMOS mmWave chip shipments. Their integration into smart devices like wearables and smartphones is rising. Industrial automation also benefits from their non-contact sensing capability. These chips provide real-time motion detection at close ranges. Their affordability and efficiency continue to boost their popularity.
• 77 GHz: These chips are critical for long-range radar applications in automotive ADAS. They deliver high-resolution object detection and velocity tracking. In 2023, around 39% of CMOS mmWave chips used globally were 77 GHz. They are essential in forward collision warning, adaptive cruise control, and highway pilot systems. Their performance in adverse weather conditions makes them ideal for vehicles. Increasing demand for safety features in mid and high-end vehicles supports their growth. R&D investments are enhancing signal clarity and reducing chip size.
• Other: Frequencies like 79 GHz and higher are gaining ground in precision-demanding sectors. They are applied in high-end robotics, autonomous drones, and 4D imaging radar systems. These bands offer ultra-high resolution and are often tested in smart city infrastructure. In 2023, niche industries contributed to about 16% of global demand for this type. These chips are being evaluated for advanced navigation and medical diagnostics. Regulatory approvals are still evolving across regions. Adoption is expected to rise with improvements in spectrum availability.

By Application

• Automotive: The automotive segment leads, accounting for nearly 61% of global CMOS mmWave radar chip demand in 2023. These chips enable advanced driver-assistance systems (ADAS) like automatic emergency braking, blind-spot monitoring, and cross-traffic alerts. They are also used for adaptive cruise control and parking sensors. The adoption of 60 GHz chips in mid-tier vehicles has grown significantly. Automakers integrate these chips for improved passenger safety and regulatory compliance. Long-range 77 GHz radars are preferred in premium segments for high-resolution object tracking. Increased electric vehicle (EV) production is also driving radar integration across models.
• Industrial Sector: Representing 27% of demand, industrial applications span conveyor monitoring, automated guided vehicles (AGVs), and safety scanners. CMOS mmWave radar improves precision in robotic arms and enhances obstacle detection. Warehouses use radar-based sensors to manage inventory and guide drones. Motion detection systems powered by 60 GHz chips enhance production line automation. The technology also supports predictive maintenance in smart factories. Companies increasingly rely on radar for non-contact measurements in hazardous environments. Radar chips also assist in fluid level monitoring and machine diagnostics.
• Other: Consumer electronics, healthcare monitoring, and smart infrastructure make up the remaining segment. Radar-enabled features in wearables allow sleep analysis, fall detection, and gesture control. Smart homes benefit from radar in lighting systems and intrusion detection. CMOS mmWave radar is now common in tablets and phones for touchless user interfaces. Public infrastructure integrates radar for smart traffic management. Healthcare facilities adopt radar for patient monitoring and contactless vitals tracking. Educational tools and gaming consoles are integrating radar for immersive experiences. The versatility of these chips fuels ongoing consumer adoption.

CMOS mmWave Radar Chip Market Regional Outlook

North America

The North American region holds a significant 39.6% market share in the CMOS mmWave Radar Chip Market. The United States leads in adoption due to the rapid growth of autonomous vehicle testing and advanced industrial automation. Tier-1 suppliers in the region are focusing on compact radar-on-chip solutions tailored for both passenger and commercial vehicles. High-tech manufacturing hubs in the U.S. and Canada have also accelerated development and deployment. Consumer electronics, especially wearables, have seen a 22% increase in mmWave radar integration.

Europe

 Europe contributes over 40% of global auto radar output, primarily driven by Germany, France, and Italy. The region’s strong automotive base and push for Euro NCAP safety standards are major growth enablers. European OEMs are increasingly integrating 77 GHz chips into ADAS systems. Industrial players are adopting radar technology in smart factory projects. Increased R&D funding for autonomous systems and stringent emission regulations further support radar sensor deployment.

Asia-Pacific

Asia-Pacific is rapidly expanding in the CMOS mmWave Radar Chip Market. China, South Korea, and Japan are at the forefront, with China contributing the largest share due to extensive EV production. South Korea leads in consumer electronics radar chip integration, particularly in smart home appliances. The region also benefits from a robust semiconductor supply chain and high-volume production capacities. Automotive demand, smart infrastructure, and 4D imaging applications are key drivers.

Middle East & Africa

The Middle East & Africa region is emerging with gradual radar chip adoption in industrial automation and transportation. GCC nations are investing in smart city projects where mmWave radar plays a role in traffic control and public safety. South Africa is seeing early-stage deployment in security systems and logistics. Regional market share remains under 5% but is projected to grow with digital infrastructure improvements and rising awareness of non-contact sensing benefits.

List of Top CMOS mmWave Radar Chip Companies

Investment Analysis and Opportunities

Investments in the CMOS mmWave Radar Chip Market are being fueled by government initiatives supporting autonomous vehicle development, as well as industrial digitalization trends. In 2024, over $1.3 billion was invested globally in mmWave radar R&D, with notable contributions from semiconductor foundries and automotive OEMs. Tier-1 suppliers have launched strategic partnerships with universities and chip design firms to scale radar chip integration into compact form factors. Companies like NXP and Calterah are expanding 4D imaging radar capabilities, securing new rounds of investment to meet demand in consumer electronics and industrial sensing. Europe allocated a $250 million technology fund to enhance ADAS innovation across German and French automotive sectors. The Asia-Pacific region saw 31% growth in venture capital directed toward CMOS radar applications in smart homes, logistics, and robotics. Low-cost sensor design initiatives and open-source development platforms are drawing interest from startups. The U.S. has announced tax incentives for advanced chip fabrication lines targeting automotive radars and high-frequency communication. These investment flows reflect a growing belief in radar chips’ ability to outperform visual-based sensing, particularly in poor lighting or weather. Such developments open expansive opportunities across verticals like health tech, security automation, and energy monitoring.

New Products Development

2023 and 2024 marked significant milestones in CMOS mmWave Radar Chip Market product innovation. Bosch introduced a new 77 GHz radar chip with enhanced object tracking for urban traffic scenarios, optimized for compact EVs. NXP launched a multi-chip module supporting 4D imaging for industrial drones and AGVs. Infineon’s latest release integrates radar with AI-based signal processing, enabling precision control in healthcare wearables and gesture-based smart devices. Calterah rolled out a 60 GHz radar chip designed for consumer electronics, capable of monitoring respiration and movement in real time. TI introduced a new radar-on-chip with ultra-low latency, tailored for real-time obstacle detection in robotic vacuum systems and factory floor monitoring. These products reflect a trend toward miniaturization and cross-domain utility, increasing the appeal of radar chips for use beyond automotive. Integration with IoT platforms is also expanding; several chips now include built-in edge AI processors to process data directly on the sensor. These developments support decentralized systems in homes, warehouses, and autonomous machines, reducing cloud dependence and boosting privacy. Combined, these advances are reshaping user expectations and sparking innovation across emerging technology ecosystems.

Recent Developments

• TI released a sub-1 cm accuracy radar module integrated with AI for smart security cameras (2024).
• Infineon signed a collaboration with a German auto brand to embed 77 GHz radar in EVs (2023).
• NXP unveiled a radar SDK to accelerate industrial IoT integration (2023).
• Bosch launched a dual-mode radar chip for automotive and indoor robotics (2024).
• Calterah partnered with drone manufacturers in Asia to apply 60 GHz radar to navigation systems (2023).

Report Coverage

The CMOS mmWave Radar Chip Market report offers a deep analysis of emerging trends, demand patterns, and competitive landscape across key regions. It covers all major frequency bands including 60 GHz, 77 GHz, and above, evaluating their applications in automotive, industrial, and consumer electronics. The report profiles leading players like TI, Infineon, NXP, Bosch, and Calterah, highlighting their product portfolios, strategic developments, and innovation benchmarks. It includes segmentation by application and geography, assessing growth drivers such as rising ADAS integration, smart infrastructure expansion, and radar deployment in wearables. Market restraints, challenges, and opportunities are analyzed, with detailed investment trends and regulatory frameworks. Recent developments in AI-enhanced radar modules, spectrum standardization, and chip miniaturization are presented. The report delivers essential insights for stakeholders looking to enter or expand within the CMOS mmWave radar segment.