ChipsInsight Newsletter Snapshot: July 28, 2025

Upstream Semiconductor Radar Companies

Calterah’s Advanced Cybersecurity Management System for mmWave Radar Chips to Protect Automotive Ecosystems

Calterah’s Advanced Cybersecurity Management System for mmWave Radar Chips

Key Highlights:

– Lifecycle Protection: Calterah’s Cybersecurity Management System (CSMS) safeguards its mmWave radar solutions throughout their entire lifecycle, tailored to ISO/SAE 21434:2021 standards.

– Threat Analysis and Risk Assessment (TARA): Drives the determination of Cybersecurity Assurance Levels (CALs) to mitigate risks effectively.

– Proactive Measures: Includes continuous monitoring and a dedicated Product Security Incident Response Team (PSIRT).

– Supplier Management: Establishes robust distributed processes via Cybersecurity Interface Agreements (CIAs) to minimize risks from suppliers.

– Framework Integration: Uses the V-Model to embed security development into product design, testing, and deployment cycles.

– Post-Development Support: Implements regular software updates, production cybersecurity processes, and incident response mechanisms to ensure prolonged security.

Insights:

Calterah’s CSMS represents a comprehensive approach to automotive radar cybersecurity, addressing vulnerabilities across the development chain while maintaining alignment with global standards for lifecycle security management.

source: [1]

company website: https://www.calterah.com/

Calterah Trailblazes with Dubhe Ultra-Wideband SoCs for Secure Ranging and Automotive Connectivity

Calterah Trailblazes with Dubhe Ultra-Wideband SoCs for Automotive and IoT Applications

Key Highlights:

– Dubhe UWB SoCs are the world’s first compliant with IEEE 802.15.4ab standards, featuring up to 400m detection range and sub-nanosecond accuracy.

– Enables robust non-line-of-sight positioning through obstacles, including scenarios where signals penetrate up to five vehicles in complex underground environments.

– Combines radar functionality with digital key capabilities like kick sensing and intrusion detection, reducing system costs via 2T4R radar technology.

– Designed using a 22 nm low-power architecture, reducing power consumption by up to 56%, suitable for standby-intensive automotive applications like the sentry mode.

Impact:

– Supports advanced automotive use cases like seamless locking/unlocking, in-cabin presence detection, and enhanced secure ranging.

– A future-forward solution for IoT and consumer applications, including remote controls, indoor navigation, and contactless access systems.

Calterah’s advancements in UWB and mmWave radar technologies reflect a clear focus on enhancing precision, reliability, and integration in automotive and connected device markets.

source: [1]

company website: https://www.calterah.com/

SGR Semi Secures Collaboration with Global Automaker to Innovate Automotive Radar Systems

SGR Semi Secures Collaboration with Global Automaker to Innovate Automotive Radar Systems

Key Highlights:

– Designated Project: SGR Semi has officially secured a radar system project with a global leading automaker, focusing on foot-sensing automatic tailgate systems.

– Technology Excellence: Millimeter-wave radar technology employed offers high precision, operates effectively under all weather conditions, and exhibits strong anti-interference capabilities.

– Collaboration Success: Partnership with a domestic Tier 1 supplier has enabled SGR to highlight significant improvements in performance and quality control, earning recognition from a global client.

– Volume Milestone: Over 10 million radar sensors delivered across automotive, drones, and smart home applications.

– Production Timeline: Mass production is anticipated to start in Q3/Q4 of 2026.

Insights:

This collaboration emphasizes China’s growing capability in automotive radar technologies, showcasing advancements in millimeter-wave radar for specialized applications.

source: [1]

company website: http://sgrsemi.com/

Exploring Millimeter-Wave Radar Innovations: Insights from SGR Semi’s CEO Dr. Lu Yumin

Exploring Millimeter-Wave Radar Innovations: Insights from SGR Semi’s CEO Dr. Lu Yumin

Key Highlights:

– Versatile Applications: SGR Semi’s millimeter-wave radar chips are used in automotive systems, drones, home appliances, sanitary devices, parking lots, and dam monitoring.

– Automotive Validation: Their radar chips have achieved compliance with AEC-Q standards, essential for vehicle-grade applications.

– Operational Footprint: Design and production centers span across prominent regions like Xiamen, Shanghai, Jiashan, Shenzhen, and Qingdao, underlining their expansive development network.

– Corporate Clientele: Serving Fortune 500 firms and industry-leading enterprises among the top 10 in specific niches globally.

Key Personnel:

– Dr. Lu Yumin: CEO and Chairman of SGR Semiconductors, recognized as a “National Thousand Talents Technology Leader.” He holds an IEEE senior membership and actively leads advancements in millimeter-wave radar technology.

Insights:

– SGR Semi is driving radar technology across industries, emphasizing everyday problem-solving and innovation through millimeter-wave radar applications.

source: [1]

company website: http://sgrsemi.com/

Calterah Kunlun-USRR 77 GHz Radar Chips Redefine Automotive Door Safety and Functionality

Calterah Kunlun-USRR 77 GHz Radar Chips Transform Automotive Door Safety and Operation

Key Highlights:

– World’s First 6T6R Radar SoC: Kunlun-USRR chips operate at 77 GHz for precise short-range sensing.

– Enhanced Door Operation: Enables automatic adjustment of door angles to avoid collisions with obstacles such as curbs, poles, or small objects.

– High Precision Detection: Features such as focused point cloud output enable accurate curb height determination and smart obstacle avoidance, reducing the risk of door scrapes or collisions.

– Compact Size and Design Efficiency: AiP (Antenna in Package) technology eliminates the need for external antenna design, offering a size reduction of 20% compared to previous-generation chips.

– Advanced Signal Processing: Powered by dual-core CPUs, RSP processors, and machine learning capabilities for robust radar performance.

– Ultra-Low Power Consumption: Consumption reduced to 1 mW in deep sleep mode, ideal for battery-operated systems.

Applications:

– Automotive door radars for obstacle detection and door angle optimization.

– Parking assist systems ensuring safer and easier parking.

– Integrated anti-collision alerts for doors and other short-range applications.

Implications for Automakers:

Kunlun-USRR chips reshape smart vehicle functionalities by enhancing safety, user convenience, and cost-effective radar integration.

source: [1], [2], [3]

company website: https://www.calterah.com/

Arbe Robotics Advances High-Resolution Imaging Radar to Address Autonomous Driving Challenges in Road Construction Zones

Arbe Robotics Advances High-Resolution Imaging Radar for Road Construction Zone Challenges

Key Highlights:

– Unique Challenges in Construction Zones:

– Dynamic environments: Unpredictable lane changes, temporary signs, and irregularly placed obstacles complicate navigation.

– Sensor limitations:

– Cameras struggle with overlapping or faded lane markings.

– Traditional radars often fail to detect static objects, posing safety risks in such zones.

• Arbe’s Radar Solution:
• High-resolution imaging radar:
  • Tracks multiple dynamic and static objects in complex, fast-changing environments.
  • Maintains precision in low visibility, poor weather, or obstructed scenarios.
• Path reliability:
  • Provides dependable guidance when road layouts change due to construction.
  • Operates like a reliable navigator, ensuring vehicles adapt smoothly and safely.

Insights:

Arbe’s radar technology is designed to address the limitations of existing sensors, ensuring safer autonomous driving and ADAS performance in construction zones with enhanced scene understanding and navigation.

source: [1]

company website: https://arberobotics.com/

STMicroelectronics Bridges RADAR and LiDAR for Enhanced Connected Vehicle Ecosystems

STMicroelectronics Bridges RADAR and LiDAR for Enhanced Connected Vehicle Ecosystems

Key Highlights:

• Integration of RADAR and LiDAR: STMicroelectronics integrates RADAR (using radio waves for long-range detection in adverse weather) and LiDAR (using laser light for high-precision 3D mapping) to enhance vehicle situational awareness.

• RADAR Technology Details:

• Operation in 24 GHz and 77 GHz bands, balancing range and resolution for automotive applications.
• 24 GHz RADAR: Focused on Advanced Driver Assistance Systems (ADAS) like blind-spot detection and collision avoidance.

• 77 GHz RADAR: Suitable for detecting vehicles, cyclists, and pedestrians within a 30–250 meter range, even in low-visibility conditions.

• LiDAR Advantages and Limitations:

• Ideal for high-precision 3D object classification in semi-autonomous driving scenarios.

• Susceptibility to weather conditions: LiDAR performance can degrade in fog or rain, unlike RADAR.

• V2X Communication Support:

• Enables real-time data exchange between vehicles, infrastructure, and other road users.
• Applications include adaptive traffic management and smart road signs to enhance road safety.
• Small-scale V2X ecosystem testing is underway in the US, China, and Portugal.

Insights:

STMicroelectronics’ approach underscores how RADAR, LiDAR, and V2X technologies work synergistically to usher in safer and more connected vehicle environments. This combination is pivotal for achieving a 360-degree operational view and enhanced crash prevention capabilities.

source: [1]

company website: https://www.st.com/

Arbe Robotics Highlights the Role of High-Resolution Imaging Radar in the Economic Accessibility of Autonomous Vehicles

Arbe Robotics Highlights the Role of High-Resolution Imaging Radar in Autonomous Vehicle Accessibility

Key Highlights:

– High-resolution imaging radar: Offers precise, long-range sensing capabilities, performing reliably in scenarios like rain, fog, and darkness. It addresses limitations of camera-only systems, enabling effective pedestrian detection, depth perception, and safe highway driving.

– Economic advantage: Radar technology is cost-effective compared to lidar, making it scalable for mass-market vehicles, robotaxi fleets, and trucks, bridging economic barriers for widespread adoption.

– Israeli innovation leadership: Companies like Arbe and Mobileye are spearheading the use of high-resolution radar, supported by global automaker partnerships. Arbe’s radar systems are among the most detailed in the industry, driving forward safer autonomous driving solutions.

Insights:

The integration of high-resolution imaging radar, coupled with its affordability, is pivotal in making autonomous vehicles both safe and economically viable for broader consumer markets. Israeli innovation demonstrates a commitment to advancing universal accessibility in this space.

source: [1], [2]

company website: https://arberobotics.com/

Greater China Mid-downstream radar companies

HiLink Introduces 24GHz Radar-Powered Human Presence Sensor with High-Power Relay

HiLink Introduces 24GHz Radar-Powered Human Presence Sensor with High-Power Relay

Key Highlights:

• Technology Integration: Employs 24GHz millimeter-wave radar coupled with AIoT sensor technology for precise human presence detection.
• Sensing Algorithm: Utilizes advanced radar distance measurement and signal processing techniques to detect motion, micro-movements, and presence with high precision.
• Detection Features: Supports a 9-meter detection range and a 30-second delayed shut-off, with a wide-angle sensing capability.
• Applications: Designed for versatile use across offices, residences, and other indoor environments requiring energy-efficient automation.
• Power Handling: Integrates a 10A high-power relay, enabling control over connected high-power devices seamlessly.
• Product Build: Compact design measuring 95mm x 64mm x 43.8mm, suited for ceiling-mounted installations.

Insights:

HiLink’s radar-based solution with human presence sensing and power relay functionalities underscores its contributions to efficient automation and smart-space utilization.

source: [1]

company website: https://hlktech.net/

INNOPRO Technology Launches Millimeter-Wave Radar Ecosystem Plan for Intelligent Service Evolution

INNOPRO Technology Launches Millimeter-Wave Radar Ecosystem Plan for Intelligent Service Evolution

Key Highlights:

• Technology Gateway: INNOPRO focuses on millimeter-wave radar as a key enabler for intelligent upgrades in service industries, emphasizing high-precision sensing capabilities to enhance user service experiences.

• Radar Integration: Innovative radar integration allows non-invasive sensing of parameters such as presence, vitals, sleep, and posture while enabling seamless customization for embedded solutions without product architecture modifications.

• AI-Driven Personalization: By combining radar sensing with AI and IoT, INNOPRO delivers tailored, immersive, and proactive services in sectors like smart healthcare and smart homes.

• Applications: Successful implementations include smart nursing beds (real-time health monitoring and alert systems), intelligent lighting (gesture-free interaction upgrades), and smart TVs (embedded radar-enabled active services).

• Ecosystem Launch: INNOPRO initiated its Millimeter-Wave Radar Ecosystem Plan to create industry-wide collaborations, developing customizable solutions validated through 500+ pilot trials and backed by a million-sample data foundation.

• Collaborative Vision: INNOPRO invites partners to co-develop radar-driven smart solutions, unlocking new growth opportunities in the “big service era” while driving value through ecosystem cooperation.

source: [1]

company website: https://innoprotech.cc/

Merrytek’s 4th-Generation MSA201 Z AI Presence Sensor Delivers Advanced Radar-Powered Sensing with Enhanced AI

Merrytek’s 4th-Generation MSA201 Z AI Presence Sensor: Enhanced Radar and AI Features

Key Highlights:

– Core Technology Upgrade: Utilizes 24GHz millimeter-wave radar paired with an automotive-grade M4 core MCU, delivering over 100x faster computational speed for higher precision in human presence detection.

– AI Adaptive Space Matching: Industry-first self-adjusting sensor setup post-power-on, minimizing manual calibration and reducing deployment costs.

– Interference Resistance: Equipped with 100+ AI models trained on 10,000+ interference signals, capable of filtering 99.9% of common indoor noise sources (e.g., fans, ambient motion).

– Tuya App Integration: Supports smart device connectivity via Tuya for dynamic scenario customization and device synchronization.

Key Functional Enhancements:

– Streamlined User Experience: Features visualized settings, scene presets, and one-click parameter duplication for quick device configuration.

– Customized Modes: Added functions like “Unoccupied State Reporting Loop” and light-sensing thresholds for tailored automation environments.

– Advanced Detection Ranges: Adjustable near-field shielding (0m, 0.6m, 1.2m, 1.6m) and long-distance detection (up to 4m radius).

Applications:

– Smart Homes: Automated lighting response to presence, energy-efficient bathroom exhaust activation, and cleaning management.

– Hotel Integration: Features like keyless energy activation and customizable lighting.

– Energy Optimization: Supports intelligent group control, dimming, and appliance automation.

Technical Details:

– Radar Range: Detection diameter up to 8 meters.

– Installation Compatibility: Embedded mounting with 55mm opening, height range 2.5–4m (typical: 3m).

– Power Supply: Operates on 220VAC.

Insights:

Merrytek’s MSA201 Z redefines radar-powered sensing with AI-driven automation, making it a versatile solution for homes, hotels, and offices.

source: [1]

company website: https://www.merrytek.com/

Modern Radar Proposes Hybrid Algorithm for Enhanced Multi-Target Detection Accuracy

Modern Radar Introduces Hybrid Algorithm Enhancing Multi-Target Detection Accuracy

Key Highlights:

• Algorithm Fusion: The proposed method combines 3D-FFT for initial detection with Improved Orthogonal Matching Pursuit (IOMP) for high-precision parameter estimation.
• Performance Gains: Simulation and real-world testing showed velocity and angle estimation improvements by 1-2 orders of magnitude compared to traditional techniques like 3D-FFT, OMP, and MUSIC.
• Enhanced Real-Time Capability: The algorithm significantly reduces computational complexity, enabling faster implementation suitable for multi-target detection.
• Stability in Adverse Conditions: Effective under low chirp counts and sparse array elements, maintaining accuracy even at low SNR conditions (0 dB).

Insights:

This algorithm offers promising engineering potential for millimeter-wave radar systems by balancing high detection accuracy with efficient computational demands, paving the way for advanced multi-target detection and tracking systems.

source: [1]

company website: http://www.modernradar.cn/

Collaborative Radar Innovation: How RDA Technologies and Changzi County Aim to Revolutionize Local Industry

Collaborative Radar Innovation: RDA Technologies and Changzi County

Key Highlights:

– Government Visit: Changzi County leadership team, led by Deputy Mayor Li Jinping, visited Hangzhou RDA Technologies to explore advancements in millimeter-wave radar technologies.

– Technology Focus: Discussions centered on millimeter-wave radar applications in smart transportation, home automation, and automotive safety systems, highlighting RDA’s expertise in sensors across 5.8GHz, 24GHz, and 77/79GHz frequency bands.

– Collaborative Goals: Both parties aim to leverage RDA’s radar innovations to modernize Changzi County’s urban governance and facilitate the upgrade of traditional industries, fostering high-quality economic transformation.

Insights:

This collaboration signifies a strategic alignment between government initiatives and private-sector radar advancements, presenting opportunities to integrate intelligent sensing technologies into regional development.

source: [1]

company website: https://rdatech.com.cn/

Ruixing Technology Develops MIMO Radar Array for Geohazard Monitoring: Insights into BR8-1 Applications

Ruixing Technology Develops MIMO Radar Array for Geohazard Monitoring

Key Highlights:

• Advanced Monitoring System: Ruixing’s geohazard alert system employs MIMO radar array technology for sub-millimeter accuracy in deformation tracking, addressing limitations of traditional InSAR radar systems.
• Core Device – BR8-1 Radar:
• FMCW-based design with phased array MIMO technology enables high-resolution imaging and large-area monitoring.
• Offers 0.1mm deformation detection in real-time, with robust performance against adverse weather conditions.
• Features include low power operation, multi-point scanning, self-diagnosis, and cost-effective deployment.
• System Components:
• Integrates radar, environmental sensors, solar power units, and wireless communication for round-the-clock monitoring.
• Supports multi-parameter analysis, intelligent warnings, and visualized management.
• Applications: Successfully utilized in Hebei’s infrastructure projects, deploying over 100 radar units with millimeter-level precision for roads, slopes, and bridges.

Insights:

Ruixing’s MIMO radar approach enhances safety and efficiency in geohazard monitoring, setting a foundation for smarter infrastructure management.

source: [1]

company website: nan

Dianmu Technology’s Millimeter-Wave Radar Module for Two-Wheel Electric Vehicles: Academic Collaboration Insights

Dianmu Technology’s Millimeter-Wave Radar Module for Two-Wheel Electric Vehicles

Key Highlights:

• Millimeter-Wave Radar Module: Specifically designed for two-wheel electric vehicles, the module detects vehicles within a 150-meter rear range and a 120-degree field of view, even in adverse conditions such as heavy rain or fog. This performance is achieved through years of optimization of Dianmu’s radar sensing algorithms.

• Academic Collaboration: Dianmu Technology, as a Production-Education-Research Collaboration Base for North China University of Technology, engages in joint research projects. Universities contribute foundational research to address technical challenges, while Dianmu provides industrial scenarios to validate theories.

• Hands-On Learning Experience: During a visit by university students, participants assembled radar semi-finished products, observed radar signal testing, and experienced precision manufacturing, bridging “classroom learning” with practical “real-world applications.”

• Broader Vision: The collaboration aims to translate more laboratory innovations into industrial implementations and align education, talent cultivation, and industrial development to promote advancements in radar technology.

source: [1]

company website: https://www.radareye.com.cn/

TsingLan Technology Deploys Millimeter Wave Radar for Smart Elderly Care in Community Hospitals

TsingLan Technology Deploys Millimeter Wave Radar for Smart Elderly Care in Community Hospitals

Key Highlights:

– Targeted Deployment: Millimeter wave radar installed in every hospital room at Anzhen Community Health Service Center in Beijing to cater to elderly and recovering patients.

– Monitoring Features: Radar detects patient health parameters such as breathing, heart rate, sleep patterns, and abnormal events like falls and bed departure.

– Integrated System: Connected to a backend monitoring system that supports pre-warning, confirmation, and alarm response workflows, optimizing caregiving processes.

– Impact on Efficiency: Enhances nurse response times, improves operational workflows, and reduces strain on staff during intensive monitoring tasks.

Insights:

This technological deployment underscores the integration of millimeter wave radar technology with healthcare infrastructure, aligning with goals for smarter, more efficient elderly-focused community care.

source: [1]

company website: https://www.tsinglantech.com/

Integration of TsingLan Technology’s AI Radar into Digital Elderly Care Platforms: A Case Study with Guotou Health Cloud

Integration of TsingLan Technology’s AI Radar into Digital Elderly Care Platforms

Key Highlights:

• Institutional Deployment: TsingLan Technology’s AI millimeter wave radar has been integrated into Guotou Health’s cloud platform at the Guotou Health Senior Apartment (Fuwai Project) for 24/7 non-intrusive monitoring of elderly residents.
• Technological Advantage: The radar system utilizes advanced AI algorithms to continuously monitor vital signs and provide real-time risk alerts without sensory discomfort to the residents.
• Enhanced Elder Care Services: The platform incorporates features such as vital sign monitoring, risk prevention, emergency rescue alerts, and security surveillance, enabling proactive and comprehensive care.
• Multi-Region Implementation: Guotou Health has elder care projects operational across multiple provinces in China, including Beijing, Shanghai, Guangdong, Jiangsu, and more, showcasing scalability and geographic reach.
• Smart Monitoring Benefits: The integration promises a tailored and intelligent eldercare experience, leveraging millimeter wave radar technology to address diverse lifecycle needs of seniors with cognitive impairments, disabilities, and active lifestyles.

source: [1]

company website: https://www.tsinglantech.com/

TsingRay’s Millimeter Wave Radar and AI: Redefining Nighttime Health Monitoring Systems

TsingRay’s Millimeter Wave Radar and AI: Redefining Nighttime Health Monitoring Systems

Key Highlights:

– Pioneering Solution: TsingRay has developed a globally innovative millimeter wave radar integrated with AI for non-contact nighttime health monitoring. This system detects key physiological indicators, such as respiratory rate and heart rate, without requiring wearable devices or disrupting sleep.

– Clinical Validation: Verified by prominent hospitals as a gold-standard tool for identifying nighttime health risks, including sleep apnea, abnormal heart rhythms, and cerebrovascular concerns.

– Comprehensive Coverage: Used in sleep centers, healthcare facilities, and elder care institutions for real-time monitoring, particularly aiding in proactive risk detection for chronic disease patients.

– Dual Operational Modes: Offers a lifetime free device usage model and a zero-cost lease-sharing approach, enabling broader accessibility and collaboration for healthcare providers.

– National Alignment: Supports China’s “Health China 2030” goals by opening access to advanced health monitoring for all demographics, redefining full-cycle health management paradigms.

source: [1]

company website: https://www.qingleitech.com/

Radar-Driven Sleep Monitoring: TsingRay’s Contribution to Children’s Obstructive Sleep Apnea Diagnosis

Radar-Driven Sleep Monitoring: TsingRay’s Contribution to Children’s Obstructive Sleep Apnea Diagnosis

Key Highlights:

– Non-Invasive Technology: TsingRay introduces China’s first millimeter-wave radar AI sleep monitoring platform, utilizing medical-grade radar to capture children’s sleep data without physical contact.

– Innovative Features: Combines AI algorithms with a remote internet platform for real-time synchronization and automatic data interpretation, enabling monitoring in both clinical and home environments during natural sleep states.

– Clinical Backing: Collaborated with Beijing Children’s Hospital on research integrating millimeter-wave radar and pulse oximetry for OSA diagnosis, published in Sleep Health, validating its effectiveness.

– Academic Recognition: Findings presented at the 2025 Asian Pediatric Pulmonology Conference, winning the Young Scholar Award—the only such recognition in pediatric sleep medicine.

– National Coverage: A related project with Beijing Tongren Hospital was featured on CCTV Children’s Channel during World Sleep Day, highlighting the innovation’s societal value.

Insights:

TsingRay’s radar-based platform directly addresses key challenges in diagnosing children’s obstructive sleep apnea—such as non-cooperative patients and operational complexity—while contributing to the “Healthy China” initiative with a focus on precision, intelligence, and accessibility.

source: [1]

company website: https://www.qingleitech.com/

National Guidelines Recognize TsingRay’s Millimeter Wave Radar for Obstructive Sleep Apnea Diagnosis

National Guidelines Recognize TsingRay’s Millimeter Wave Radar for Obstructive Sleep Apnea Diagnosis

Key Highlights:

– Guideline Endorsement: The newly released “Adult Obstructive Sleep Apnea Diagnosis and Surgical Treatment Guidelines (2024)” officially include millimeter wave radar sleep monitoring as a diagnostic tool, marking a milestone in standardizing OSA clinical practice in China.

– Clinical Validation: Studies confirm that TsingRay’s millimeter wave radar system achieves high sensitivity and specificity for OSA diagnosis, delivering results consistent with gold-standard PSG (Polysomnography) tests. Non-contact monitoring eliminates the discomfort of traditional electrode-based systems, making screening and long-term tracking more accessible.

– Broad Adoption: TsingRay’s radar technology has already been implemented in over 100 hospitals across China, reinforcing its practicality in both clinical and home settings.

– Technological Edge: The radar system combines advanced sensing algorithms with medical AI to precisely capture breathing events and sleep-stage data, seamlessly integrating into everyday environments for zero-contact monitoring.

– Impact: Guideline recognition supports TsingRay’s transition from an innovative technology to large-scale clinical application, addressing OSA challenges through better diagnostic accuracy and usability.

Insights:

TsingRay’s recognition in national guidelines signals a significant step toward changing how obstructive sleep apnea is diagnosed and managed with millimeter wave radar technology.

source: [1]

company website: https://www.qingleitech.com/

TsingRay Showcases KY-36 Radar and Advances Smart Elderly Care at Qingdao Expo

TsingRay Showcases KY-36 Radar and Advances Smart Elderly Care at Qingdao Expo

Key Highlights:

• Event Overview:
• Qingdao International Elderly Care Industry Expo held on July 10, 2025 attracted over 330 enterprises and saw more than 28,000 visitors.

• TsingRay utilized a dual approach with high engagement in both offline booth exhibits and online livestreams.

• Product Innovation:

• Unveiled the KY-36 Radar:

  • Capable of contactless, continuous monitoring of breathing, heart rate, motion, and sleep patterns.
  • Enhanced precision, response speed, and noise resistance, addressing challenges in medical monitoring.

• Service Innovation:

• Introduced a nighttime health check service targeted at elderly care institutions:

  • Based on a “0-cost, low-asset, and revenue-sharing” model, earning widespread customer approval.

• Technology Integration:

• TsingRay’s founder emphasized the synergy of millimeter-wave radar and AI in medical and elderly care solutions during his presentation at a dedicated sharing session.

• Strategic Partnerships:

• Conducted a licensing ceremony for six new partners, signifying an expansion of its ecosystem and bolstering support for smart elderly care advancements.

Insights:

TsingRay demonstrated leadership in smart elderly care by combining innovative radar technology with business models and fostering industry collaboration, giving clear indications of the technological trajectory in elderly care.

source: [1]

company website: https://www.qingleitech.com/

VORTRAD Showcases Millimeter-Wave Radar Solution for Meteorological Monitoring at Hefei Expo

Millimeter-Wave Radar Solution Showcased by VORTRAD at Hefei Expo

Key Highlights:

– Event Focus: VORTRAD demonstrated its Millimeter-Wave Radar technology for meteorological monitoring at the Meteorological Economy Expo held from July 18-20, 2025, in Hefei, China.

– Application: The showcased radar solution has applications in precise atmospheric condition analysis, aiding in weather prediction, environmental research, and disaster preparedness.

– Technology Edge: Millimeter-Wave Radar offers high precision in detecting minute changes in meteorological patterns compared to legacy weather-monitoring systems.

– Exhibition Details: VORTRAD occupied Booth 3B11-1 at the Hefei Binhu International Convention Center Hall 3.

Insights:

This exhibition aligns with the growing importance of radar systems in meteorological applications, leveraging improved accuracy and real-time data analysis capabilities.

source: [1]

company website: http://www.vortrad.com/

Huawei Integrates CAS 4.0 into Automotive Platforms: A Five-Dimensional Leap in Safety

Huawei Integrates CAS 4.0 into Automotive Platforms: A Five-Dimensional Leap in Safety

Key Highlights:

• CAS 4.0 Overview: Huawei’s “Five-Dimensional All-Directional Safety System” extends traditional radar-based vehicle safety beyond front, rear, and lateral detection to include upward and downward monitoring. This advancement eliminates spatial limitations of conventional systems.
• Precision: Utilizes centimeter-level high-precision detection to identify small obstacles and blind spots, ensuring comprehensive coverage in vehicle navigation.
• Safety Impact: Offers a “God’s-eye view” with a 360-degree monitoring system to prevent collisions and reduce anxiety related to blind spots.
• Driver Accessibility: The system helps inexperienced drivers gain confidence by mimicking the competencies of seasoned drivers, improving overall road safety.
• Blind-Spot Detection: Advanced field-of-view enhancements precisely address risks not visible in traditional radar systems, making maneuvering safer in complex scenarios.

Insights:

CAS 4.0 demonstrates Huawei’s commitment to radar-based automotive safety innovation, pushing the boundaries of obstacle detection with multi-dimensional sensing. The technology could mark a pivotal shift in smart vehicle safety design.

source: [1]

company website: https://www.huawei.com/

Huawei Powering Lantu FREE+ with Advanced Driving and Radar Technologies

Huawei Powering Lantu FREE+ with Advanced Driving and Radar Technologies

Key Highlights:

– ADS 4.0 Integration: All Lantu FREE+ variants feature Huawei’s Advanced Driving System (ADS) 4.0, enhancing intelligent driving capabilities through integrated radar systems.

– 4D mmWave Radar: Utilized for precise object detection and environmental mapping, supporting activities such as adaptive cruise control and obstacle recognition.

– 192-Line LiDAR: Installed for high-definition mapping and detailed situational awareness.

– Parking Assistance Innovations: Upgraded Vehicle-to-Vehicle P2P 2.0 functionality allows seamless navigation between parking spaces at 50,000 parking lots nationwide, enabling comprehensive “full-scene parking” usability.

– Model Variants and Pricing: Offered in three configurations:

– Rear-wheel-drive Qian Edition: Starting at 21.99万元.

– Four-wheel-drive Qian Edition: 24.99万元.

– Four-wheel-drive Sports Customized Edition: 27.99万元.

Insights:

Huawei’s radar and sensor technologies embedded in the Lantu FREE+ demonstrate its robust approach to autonomous driving and parking solutions, marking a significant step in intelligent radar-driven automotive innovation.

source: [1]

company website: https://www.huawei.com/

QuanTHium Technology Spotlights mmWave Radar for Smart Elderly Care at China Unicom Partner Conference

QuanTHium Technology Spotlights mmWave Radar for Smart Elderly Care at China Unicom Partner Conference

Key Highlights:

– Smart Care Solution: QuanTHium Technology highlights its “Time for Care” smart elderly care solution powered by mmWave radar sensing.

– Non-Contact Monitoring: Focuses on non-contact monitoring of life signs to ensure elderly safety without intrusive methods.

– Safety Systems: Develops home-based elderly care systems for fall prevention and enhanced security.

– Community Upgrades: Collaborates with China Unicom to enable intelligent upgrades of community-based elderly care.

Insights:

– QuanTHium aims to accelerate the adaptation of radar sensing technologies for elderly-specific applications, providing solutions that improve health and safety.

source: [1]

company website: quanthium.com.cn

INNOPRO Technology Advances Millimeter-Wave Radar for Smart Home and Elderly Care Ecosystems

INNOPRO Technology Advances Millimeter-Wave Radar for Smart Home and Elderly Care Ecosystems

Key Highlights:

• Millimeter-Wave Radar Integration for Smart Ecosystems:
• The “Millimeter-Wave Radar Ecosystem Integration Plan” embeds radar technology into consumer devices like smart lighting, TVs, nursing beds, and home furniture. This extends radar’s application from niche uses to broader consumer markets.

• Promotes the “Perception as a Service” paradigm, enabling products to intuitively sense human presence and environmental changes.

• Customizable SOS Safety Solutions:

• Modular SOS embedded systems integrate features like one-touch distress signals and voice communication into smart devices such as walking aids, wheelchairs, and bathroom fixtures.

• Integration across multiple product categories ensures compatibility, with strategic partnerships supporting diverse application launches.

• Enhanced Radar Product Series:

• New sensor upgrades include:
  • ED713M Life Sign Radar: Enhanced monitoring of breathing, heart rate, and sleep patterns, tailored for discreet form factors.
  • ED719 AI Fall Detection Radar: Detects falls, triggers alerts, and interacts via AI voice assistance.
  • ED719 People Counter Radar: Employs high-precision algorithms to monitor up to 8 individuals in indoor spaces, critical for commercial and public environments.

Insights:

These advancements mark a shift in radar applications from specialized industries to widespread adoption in elderly care, emergency response, and smart home systems, addressing critical needs for safety and interaction.

source: [1], [2]

company website: https://innoprotech.cc/

APAC Mid-downstream radar companies

Bitsensing Addresses Radar Interference Challenges for Autonomous Vehicles

Bitsensing Tackles Radar Interference Challenges in Autonomous Vehicles

Key Highlights:

• Critical Issue: Radar interference, particularly in dense urban environments, poses challenges such as degraded resolution, false detections, and object misclassification, impacting autonomous vehicle (AV) reliability.
• Interference Types:
• Self-Interference: Managed by OEMs via time/frequency domain techniques.
• External Interference: More complex, requiring adaptive modulation, interference detection, and configuration adjustments for mitigation.
• Mitigation Measures:
• Bitsensing employs adaptive modulation techniques like time-hopping and frequency-hopping for reduced signal collision.
• NXP focuses on programmable radar chipsets paired with advanced signal-processing algorithms to maintain data fidelity amidst interference.
• Future Focus: Bitsensing is investing in early-stage digital radar research, exploring solutions for interference management, though costs remain a limiting factor.

Radar interference remains infrequent but threatens system reliability as radar density grows. Proactive industry efforts aim to ensure stable performance in complex environments through architecture refinement and advanced mitigation strategies.

source: [1]

company website: https://bitsensing.com/

Bitsensing Showcases Smart Traffic and Healthcare Radar Solutions at WSCE 2025

Bitsensing Showcases Smart Traffic and Healthcare Radar Solutions at WSCE 2025

Key Highlights:

• Event Details:
• Dates: July 15–17, 2025

• Location: Busan, BEXCO

• Booth Activities:

• Booth W-G05:
  • Demonstration of the TIMOS™ + TraXight™ system.
  • The system enables:
  • Real-time traffic insights for improved city traffic management.
  • Smarter infrastructure control.

• Booth W-D17:

  • Highlighting radar-based, non-contact, accurate sleep monitoring technology.
  • Allows for precise sleep tracking without the need for wearable devices.

• Insights:

  Bitsensing is showcasing advancements in radar applications for smart cities and healthcare, providing visitors an opportunity to explore cutting-edge, non-contact technology that addresses modern urban challenges.

source: [1]

company website: https://bitsensing.com/

TIMOS™ and TraXight™: Bitsensing’s Radar Solutions for Intersection Safety in Canada

TIMOS™ and TraXight™: Radar Solutions for Intersection Safety in Canada

Key Highlights:

• Near-Miss Data Insights: Over 600,000 near-miss incidents recorded daily at Canadian intersections in June 2025, with 1 in 770 pedestrians and 1 in 500 cyclists involved in high-risk events, primarily due to right-turning vehicles.

• TIMOS™ Radar Features:

• Tracks up to 256 objects simultaneously at distances of up to 300 meters.
• AI-driven pedestrian and cyclist recognition with risk behavior analysis, including unsafe right turns and intersection blockages.

• Integrated GPU for simplified operation and Wi-Fi Mesh for scalability.

• TraXight™ ITS Platform:

• Real-time intersection monitoring and traffic visualization.
• Big data analysis for bottleneck identification and abnormal patterns.
• AI-based signal optimization for adaptive traffic management.

Insights:

Bitsensing’s technology targets preventive measures by capturing risks before collisions occur, enabling municipalities to transition from reactive to predictive traffic safety strategies.

source: [1]

company website: https://bitsensing.com/

US Mid-downstream radar companies

Avnet’s Radar-Powered Innovations for Non-Contact Vital Sign Monitoring

Avnet’s Radar-Powered Innovations for Non-Contact Vital Sign Monitoring

Key Highlights:

– Non-Invasive Technology: Avnet’s radar solution uses 60GHz millimeter-wave radar to detect vital signs like breathing, heartbeat, and snoring without physical contact. This technology can measure movements as small as 0.02mm (e.g., chest wall micro-vibrations).

– Applications: Ideal for infant monitoring, sleep tracking, and elderly caregiving, the radar system offers real-time monitoring while reducing discomfort associated with traditional electrode-based methods.

– Smart Integration: The radar design utilizes Infineon’s BGT60TR13 (integrated antenna radar sensor) and NXP’s MCU RT1050 (low power, real-time processor), enabling high performance with minimal energy consumption.

– Efficiency in Critical Scenarios: By integrating edge intelligence, the system performs rapid analysis (within 0.4 seconds) for applications like ambulance setups and urgent care, offering predictive insights on respiratory irregularities.

Insights:

Avnet’s radar-based sensing technology highlights the growing role of advanced millimeter-wave in healthcare, emphasizing precision, non-invasiveness, and real-time responsiveness for vital monitoring solutions.

source: [1]

company website: https://www.avnet.com/

EMEA Mid-downstream radar companies

Exploring Radiation Safety in Commercial mmWave Radar Systems: Insights from Novelic

Radiation Safety in Commercial mmWave Radar Systems

Key Highlights:

• Ionizing Radiation: mmWave radar operates at 20-80 GHz, with energy levels (~0.1 meV) that are 6 orders of magnitude below ionization thresholds, making them non-ionizing and safe from atom disruption.

• Thermal Effects: mmWave signals cause heating due to energy absorption, but modern radars emit power levels far below hazardous thresholds:

• Industry limits: 10 W/m² (general public) and 50 W/m² (occupational exposure).

• mmWave devices typically operate at 100 mW peak transmission, well below these levels.

• Skin Absorption: Up to 90% of mmWave energy is absorbed by the skin’s outer layers, causing localized heating (~1°C at 60 GHz and 50 W/m²). Energy diminishes significantly with depth and clothing layers.

• Eye Absorption Studies: Research on nonhuman primates and rabbits confirms:

• Exposure exceeding regulated limits can cause transient corneal effects, typically reversible within hours or days.
• Low-power radar systems are unlikely to pose significant risks.

Insights: Adhering to established standards ensures mmWave radar systems are safe for human use, with radiation impacts negligible compared to everyday sunlight exposure. Modern radars are designed as low-power, energy-efficient devices well within safety guidelines.

source: [1]

company website: https://www.novelic.com/

Plextek Explores mmWave Radar Applications in Space at Space South Central Event

Plextek Explores mmWave Radar Applications in Space at Space South Central

Key Highlights:

• Focus Area: Plextek’s Richard Jacklin is set to discuss mmWave radar applications in space, highlighting its potential benefits for contemporary space missions.
• Event Details:
• Date: Wednesday, 23rd July 2025,
• Time: 11:00 AM – 12:30 PM
• Location: Future Technology Centre, Portsmouth, UK.
• mmWave Radar Use Case: Space missions are increasingly leveraging mmWave radar technology for functions like precise object detection and environmental mapping in extreme conditions.
• Professional Networking: The event fosters collaboration among UK space industry leaders, with opportunities to exchange insights and learn about ongoing advancements.

Insights:

The discussion underscores the growing significance of mmWave radar technology as missions demand higher resolution sensing and robust performance under challenging conditions.

source: [1]

company website: https://www.plextek.com/

Plextek Advances Lunar Landings with mmWave Radar and Sensor Fusion Solutions

Plextek Advances Lunar Landings with mmWave Radar and Sensor Fusion Solutions

Key Highlights:

• Environmental Challenges: Lunar landings face obstacles such as regolith particulates and poor lighting that hinder traditional vision-based systems like cameras and LiDAR.
• mmWave Radar Benefits: Plextek’s mmWave radar improves precision tracking, ensures reliable performance in harsh lunar environments, and allows detailed terrain analysis for optimized landing strategies.
• Sensor Fusion Approach: Advanced solutions combining radar and other sensors enhance obstacle avoidance, optimize redundancy, and deliver full coverage for mission-critical stages.
• Configurability: Customizable radar systems adapt to different mission requirements, improving safety and efficiency during lunar operations.
• Collaboration with Texas Instruments (TI): Leveraging TI’s low-SWaP-C (Size, Weight, Power, Cost) platform, Plextek’s radar systems feature high-efficiency antennas, increased sensitivity, and robust environmental protection for space missions.

Insights:

Plextek’s expertise in radar and sensor fusion technology provides vital capabilities for overcoming lunar landing challenges, showcasing its significant role in expanding the frontier of space sensing applications.

source: [1]

company website: https://www.plextek.com/

Provizio Integrates VizioR&I™ Imaging Radar into Smart City Testbeds for Advanced Urban Safety

Provizio Integrates VizioR&I™ Imaging Radar into Smart City Testbeds for Advanced Urban Safety

Key Highlights:

– Urban Safety Expansion: Provizio’s perception technology integrates infrastructure-mounted radar into Future Mobility Campus Ireland’s smart city testbed to advance urban efficiency, sustainability, and safety.

– 5D Perception® Data Streaming: The roadside-mounted VizioR&I™ imaging radar streams real-time object location, classification, and trajectory insights to a central control hub, tracking vehicles as they navigate challenging visibility conditions, including rain, fog, and low light.

– V2X Technology Demonstration: The integration showcases Vehicle-to-Everything (V2X) technology, enabling cities to utilize precise data for traffic flow optimization and enhanced emergency response.

Technological Features:

– Integrated AI Capabilities: Combines a mmWave imaging radar sensor with embedded NVIDIA Jetson Orin™ Nano, offering high angular resolution (<0.5°), long-range detection (up to 550m), and 120° field of view.

– Robust Design: IP67-rated for versatility in diverse environments; supports plug-and-play functionality with 1Gb Ethernet and web interface configuration.

Applications:

– Smart Cities: Enhances intersection management, speed detection, incident response, and crowd management for urban infrastructure.

– Industry: Supports safety operations in construction sites and industrial environments through high-performance radar-based precision mapping.

source: [1]

company website: https://www.provizio.ai

RFBeam Microwave GmbH Discusses Key Factors Influencing Radar Sensor Detection Range

Factors Influencing Radar Sensor Detection Range by RFBeam Microwave GmbH

Key Highlights:

• Detection Range Fundamentals: RFBeam emphasizes key influences on radar sensor detection range, crucial for applications such as automotive safety and industrial automation.

• Refers to the maximum distance at which a radar sensor can reliably identify objects.

• Critical Parameters Identified:

• Transmitted Power: Higher transmission power directly increases detection range.
• Antenna Gain: Improved antenna gain extends coverage.
• Target Size & Reflectivity: Larger or more reflective objects are detected more reliably compared to smaller objects or less reflective surfaces.

• Material and Environmental Impact: Weather conditions (e.g., fog, rain) and physical barriers significantly affect sensor performance.

• Radar Equation Analysis: RFBeam investigates the physics behind radar detection, showcasing practical examples of how system variables influence range.

Insights on RFBeam’s Work:

– Specializes in planar radar sensors and RF engineering, offering solutions such as modules, antennas, and development kits.

– These contributions aid in system optimization for diverse application needs.

This article illustrates RFBeam’s data-driven approach to improving radar detection reliability through technical refinements.

source: [1]

company website: https://rfbeam.ch/

Smartmicro Seeks Hardware Developer to Advance Radar Sensor Technologies for Automotive and Smart Cities

Smartmicro Seeks Hardware Developer to Advance Automotive and Smart Cities Radar Technologies

Key Highlights:

– Role Scope: Hardware Developer position open in Brunswick, Germany, focusing on high-frequency and digital hardware design for automotive radar sensors and intelligent traffic systems.

– Core Responsibilities:

– Design and layout of digital and analog circuits using Altium Designer.

– Development of radar RF electronics, working closely with the RF/antenna team.

– Support prototype testing during production ramp-up for series manufacturing.

– Required Expertise:

– Several years’ experience in EMC-compliant hardware design, fast digital circuits, and high-frequency circuit development.

– Knowledge of PCB technologies, signal processing, and high-speed communication protocols.

– Work Environment and Benefits:

– Hybrid working model: 4 days on-site, with remote work options post-training.

– Emphasis on innovation with access to modern radar technologies and team-centric initiatives.

Insights:

This role is centered on contributing to high-performance radar technologies for autonomous driving and intelligent traffic systems, key areas for improving safety and enabling smart city initiatives.

source: [1]

company website: https://www.smartmicro.com/