Automotive Radio Frequency System-on-Chip (RF SoC) and Module Research Report, 2025
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Automotive RF SoC Research: The Pace of Introducing "Nerve Endings" such as UWB, NTN Satellite Communication, NearLink, and WIFI into Intelligent Vehicles Quickens 

RF SoC (Radio Frequency System-on-Chip) is an integrated circuit that integrates multiple functional modules such as RF front-end, baseband processing, and memory. It provides a single-chip solution for wireless communication of devices.

In the automotive field, RF SoCs are usually integrated into communication modules or various electronic systems to enhance vehicle intelligence and safety. For example, RF components are used to realize V2V (Vehicle-to-Vehicle), V2P (Vehicle-to-Pedestrian), and V2I (Vehicle-to-Infrastructure) connections, improving traffic safety and efficiency; RF identification technology is used to facilitate keyless entry and vehicle startup, enhancing user experience; RF sensors are used for tire pressure monitoring, in-vehicle life presence detection, and other information detection, enabling real-time monitoring of vehicle status and internal space.  

By communication connection form, automotive communication applications are divided into wireless communication and wired communication. Wired communication is mainly used for data transmission between in-vehicle devices, while wireless communication is split into wide-area network (WAN) wireless communication and local area network (LAN) wireless communication according to transmission distance:  
LAN wireless communication mainly uses wireless technologies based on unlicensed spectrum, such as V2X direct communication, Bluetooth, Wi-Fi, UWB, and NearLink, for connection. It supports communication rates from 1 Mbps to several Gbps, with a network coverage generally ranging from several meters to hundreds of meters. 
WAN wireless communication mainly includes cellular communication technologies based on licensed spectrum, as well as satellite communication, GNSS communication, etc.

With the increasing demand for vehicle intelligence and connection, the installation rate of 5G communication further rises. Moreover, multi-dimensional and three-dimensional communications such as in-vehicle communication, cellular communication, and space-ground integrated communication have gradually become rigid demands, and communication domain controllers have become a development trend.    

UWB: As Application Scenarios Expand, It Leads Wireless Technologies Such as Wi-Fi and Bluetooth in Terms of Development Potential.

In automotive, UWB products can be applied to automotive digital keys, in-vehicle life presence detection, gesture recognition, intrusion alarm, automated parking, positioning for collision avoidance, etc. Compared with wireless technologies such as Wi-Fi and Bluetooth, UWB has higher temporal resolution and greater anti-multipath capability, enabling centimeter-level positioning and fine motion capture in complex environments. When this technology is integrated with edge AI algorithms, it derives a new capability: on-device spatial intelligence realizing real-time judgment of human presence, behavior, and posture directly on terminal devices without sending data to the cloud or server for processing.  

Currently, UWB is mainly applied in digital keys and is accelerating expansion to other fields to improve hardware reusability:
Automotive digital key (keyless entry): Compared with the security defects of traditional Bluetooth and RFID (Radio Frequency Identification) technologies in automotive access control systems, UWB with nanosecond-level pulse signals has accurate ranging capability, and can effectively identify the signal delay of relay devices. Combined with dynamic encryption technology, it completely eliminates the possibility of signal replay and relay range extension. Under accurate distance perception, UWB automotive digital keys can realize welcome, wake-up, and unlock functions. Specifically, UWB can realize the welcome function in an area of 10-20 meters. 
In-cabin life presence detection and child presence detection (CPD): Relying on its characteristics of strong penetration and insusceptibility to light and occlusion, UWB technology shows unique advantages in the field of in-cabin life presence detection. By monitoring vital sign signals such as breathing and heartbeat, UWB technology can be used for child presence detection, pet stay reminder, and blind passenger assistance, as well as vehicle theft prevention.  
Gesture recognition and intrusion alarm: Based on coherent demodulation architecture and ranging algorithms, UWB radar supports non-contact operations, such as waving to control car doors and kicking to open the trunk. UWB radar can also detect slight vibrations caused by window breakage or illegal entry, and reduce the false positive rate by combining with life detection detection.
UWB radar (trunk): UWB is installed inside the vehicle and at the outer side of the trunk. Currently, many solutions require integrating a long capacitive sensor in the trunk, while UWB only needs to deploy one chip node and its antenna is also very small, which can achieve a similar effect.
UWB radar (automated parking and positioning for collision avoidance): UWB radar can detect the distance to surrounding objects to prevent collisions, and it can also assist in overtaking and automated parking. In addition, UWB technology can enable multiple communications and collaborations such as vehicle-to-vehicle, vehicle-to-road, and vehicle-to-cloud to improve the vehicle's perception of the surroundings, thereby enhancing traffic efficiency and safety.

(1) Application of UWB in Digital Key Scenario
According to statistics of ResearchInChina, in 2024, UWB keys for passenger cars in China entered the mass production stage: installed in 1.073 million cars, a year-on-year upsurge of 354.6%; the installation rate was 4.7%, up by 3.6 percentage points compared with the previous year. Based on this calculation, the demand for passenger car UWB chips in China exceeded 5 million pieces in 2024.

(2) Application of UWB in CPD (Child Presence Detection) Scenario
Countries around the world have begun to face CPD (Child Presence Detection) squarely. For example, the European Union has listed CPD technology as one of the standard configurations in "E-NCAP 2025", requiring all new vehicles in 2025 to pack CPD technology to obtain the highest safety score. The U.S. Hot Cars Act is also expected to be passed in 2025. In China, CPD was included in the evaluation system for the first time in the 2024 C-NCAP.

In 2021, the China Automotive Technology and Research Center (CATARC) launched the "C-NCAP Management Regulation", which includes the second-row child safety protection in the new car rating system for the first time. Since July 1, 2024, the "C-NCAP Management Regulation" (2024 Edition) has been officially implemented, further upgrading the child protection content, e.g., including the CPD function into the bonus items (with a maximum of 2 points). It also requires that the CPD system should be integrated into vehicles and cannot be assembled as an aftermarket auto part, which will stimulate the demand for UWB and other sensors.

Starting from 2025, only CPD solutions using direct sensing technology can obtain E-NCAP scores, so the direct identification method is undoubtedly the focus of the future market. Wherein, cameras are not suitable for the latest CPD requirements due to privacy and light occlusion issues. Currently 60GHz radar and UWB are relatively reliable CPD solutions, and the ultrasonic solution is unfit for CPD applications due to low resolution and susceptibility to interference.

Furthermore, since 60GHz has not been fully recognized by the State Radio Regulatory Commission of China as a standard frequency band, there are policy risks. At this stage, many manufacturers mainly promote CPD functions based on UWB solutions.

The UWB CPD solution adopted by Ligong Technology is based on NXP NCJ29D6 single-chip SoC solution. This solution can share a set of hardware with Ligong Technology's UWB digital key AOA anchor solution.

(3) Application of UWB in Parking Assist and AVP (Automated Valet Parking) Scenario, Expected to Replace Ultrasonic Radar or Visual Fusion Parking Solutions
In November 2024, Chengdu KNOWNO Technology Co., Ltd. released the world's first production-ready parking assist solution based on UWB radar. This solution is developed based on an automotive-grade UWB chip of Unisoc UIW7710 and its grouped chip UIW7705. Installation of 4 UWB radar sensors in vehicles can replace ultrasonic radars to enable such functions as UPA and APA, and offers benefits such as accurate height measurement, smaller blind spots, and higher detection success rate at 0-10 km/h.

Wi-Fi 7: Reliable Links, High Network Capacity, and Higher Connection Stability

Wi-Fi 7 can transmit data simultaneously on the 2.4GHz, 5GHz, and 6GHz frequency bands, thereby achieving faster Wi-Fi speed, lower latency, and higher connection stability. If the device supports the highest specifications, Wi-Fi 7 can provide a peak speed of more than 40 Gbps, 4 times faster than Wi-Fi 6E. In terms of automotive applications, Wi-Fi 7 supports real-time update on HD maps, uninterrupted connection when encountering interference, smooth operation of in-vehicle infotainment system, and efficient data transmission with surrounding buildings.

The next-generation Wi-Fi 8 is also being developed. Its design goal is to provide a stable, low-latency, and nearly lossless connection experience even in highly congested, interference-prone, and highly mobile environments. According to Qualcomm, based on the IEEE 802.11bn standard being developed, Wi-Fi 8 takes "Ultra-High Reliability (UHR)" as the framework and has been optimized in terms of throughput, delay distribution, and packet loss in complex signal environments.

In 2024, Qualcomm announced Qualcomm QCA6797AQ the industry’s first Automotive Grade Wi-Fi 7 Access Point. Based on Wi-Fi 7, Qualcomm QCA6797AQ is designed for in-vehicle experiences and applications, enabling enables improved link-reliability, lower latency, greater network capacity, and faster connectivity.
With support for High Band Simultaneous (HBS) and Multi-link Multi-Radio (MLMR), Wi-Fi 7 significantly improves connection reliability, virtually eliminating any dropped connections due to external interference. 
Movie streaming, gaming and other latency-sensitive applications run smoother and with less lag or dropped connections in the face of interference from toll booths, congested intersections and fixed wireless links.
Wi-Fi 7 offers significantly increased capacity enabled through 6GHz spectrum, which allows for 320 MHz channels. Coupled with 4K QAM, Wi-Fi 7 can achieve peak throughputs of up to 5.8 Gbps, allowing vehicles to download High-Definition Maps even faster.

Qualcomm also simultaneously launched a technical combination of automotive-grade Bluetooth 5.4 and Wi-Fi 7, further expanding application scenarios:
The sensing distance of mobile phone keys is extended to 50 meters;
The audio transmission bandwidth is doubled, supporting 192kHz/24bit lossless music play;
Realizes wireless connection of all vehicle sensors (radar, in-cabin cameras, etc.).

In addition, OEMs have also begun to make layouts. Xiaomi YU7 is the first car to support introduction of Wi-Fi 7, and also supports the industry-leading dual 5G parallel capability, providing a smoother and more stable experience in both in-vehicle entertainment and remote vehicle control. With a theoretical peak rate of up to 46Gbps, Wi-Fi 7 can realize:
Allows multiple people in the vehicle to watch 4K videos, play online games, and hold video conferences at the same time;
Multi-link operation technology greatly reduces latency, making IVI screen mirroring and cloud game control responsive, and eliminating stutters and trailing smears; 
Supports simultaneous high-speed access of more devices, such as mobile phone, tablet PC, laptop, and game console.

5G NTN: Expand the Coverage and Reliability of In-Vehicle Communication

In-vehicle satellite communication is similar to mobile phone satellite communication, that is, satellites are used as communication base stations to enable intelligent connected vehicles to establish direct communication network connections with satellites, without the need for forwarding via ground base stations and satellite earth stations. In the automotive field, in-vehicle satellite communication can enable functions such as location monitoring, vehicle alarm, emergency rescue call, and social contact and entertainment.

In-vehicle satellite communication has also been officially integrated into the 5G ecosystem. 5G NTN (Non-Terrestrial Network) is a globally covered communication system formed by integrating non-terrestrial devices such as satellite constellations covering Low Earth Orbit (LEO), Medium Earth Orbit (MEO), and Geostationary Orbit (GEO), and High Altitude Platform Stations (HAPS), and Unmanned Aerial Vehicles (UAVs) with terrestrial 5G networks. It solves the connection problem in areas (e.g., oceans, deserts, and remote mountainous areas) that cannot be covered by traditional ground base stations, with the goal of increasing the global network coverage from less than 40% on land to all areas. 

Currently, 5G NTN includes two technical routes: NR-NTN (New Radio-Non-Terrestrial Network, 5G smart terminal access for non-terrestrial networks) and IoT-NTN (Internet of Things-Non-Terrestrial Network, IoT terminal access for non-terrestrial networks). The IoT technology of 5G NTN is to a certain extent based on Narrowband Internet of Things (NB-IoT) technology, and is optimized for the characteristics of satellite communication such as long distance, high latency, and high path loss. NR can provide high-speed data transmission services, supporting users to enjoy high-traffic and high-bandwidth applications such as high-definition video streaming, Virtual Reality (VR), and Augmented Reality (AR) on mobile devices.

MediaTek's latest automotive-grade chip MT2739 supports both NB-NTN and NR-NTN satellite communication standards. This means that even when a vehicle travels in remote areas that are difficult to reach by terrestrial networks, it can still maintain communication connection through satellites, greatly expanding the coverage and reliability of in-vehicle communication. 

Based on the 3GPP NTN R17 standard, Unisoc's first satellite communication SoC V8821 uses IoT NTN as infrastructure, and is easy to integrate with the terrestrial core network. Through L-band maritime satellites and S-band Tiantong satellites, V8821 provides functions such as data transmission, text messaging, calls, and location sharing. It can also be extended to support access to other high-orbit satellite systems. It is widely applicable to communication needs in areas where cellular networks are difficult to cover, such as oceans, urban edges, and remote mountainous areas. 

The foundation for realizing in-vehicle satellite communication lies in the vehicle direct satellite connection technology. Through the Tiantong satellite network, this technology enables vehicles to directly send and receive voice calls and text messages without the need for mobile phone signal towers. At present, several OEMs have implemented this technology, including Seres (AITO Series, with in-depth integration of satellite modules with HarmonyOS), BYD, Geely, etc.

5.5G: Low-Latency, High-Speed, and Reliable Data Transmission

In the first half of 2024, the 3GPP R18 (The 3rd Generation Partnership Project Release 18) was frozen, marking that the evolution of 5G technology enters the second round of innovation, namely 5G-Advanced, which is now known as 5.5G in the industry. 

The application of 5.5G Internet of Vehicles technology will accelerate the upgrading of autonomous driving technology. Its low latency, high speed, and reliable data transmission provide greater perception and decision capabilities for autonomous driving systems, helping to realize higher-level autonomous driving functions.

Sanechips is deploying a S2V chip for 5.5G NR + V2X, which will have a peak rate of 7Gbps and support multiple cards and multiple channels, and also NTN broadband satellite communication capabilities. This chip is expected to be mass-produced in 2026.
Large bandwidth: 3GPP Release 18, Sub6G 6CC 400MHz, LTE Cat20;
Higher spectrum efficiency: 1024QAM, 8Rx MIMO, UL enhancement;
More advanced process: upgraded process, improved performance, reduced power consumption;
Enhanced network reliability: NTN space-air-ground integration, DSDA (Dual SIM Dual Active), uRLLC (ultra-reliable low-latency communication).

1 Overview of Automotive RF SoC 
1.1 Definition and Classification of Automotive RF SoC  
Definition of RF SoC  
RF SoC Belongs to Automotive Wireless Communication Chips  
Architectural Design of RF SoC (1)  
Architectural Design of RF SoC (2)   
Types of Wireless Communication Technologies for RF SoC (1)  
Types of Wireless Communication Technologies for RF SoC (2)  
Types of Wireless Communication Technologies for RF SoC (3)  
Types of Wireless Communication Technologies for RF SoC (4)  
Automotive Application Scenarios of RF SoC  

1.2 Automotive RF SoC Industry Chain   
Automotive RF SoC Industry Chain  
Automotive RF SoC Industry Chain: Chip Design  
Automotive RF SoC Industry Chain: Chip Foundry  
Automotive RF SoC Industry Chain: Advanced Packaging Technologies (1)  
Automotive RF SoC Industry Chain: Advanced Packaging Technologies (2)  

1.3 Competitive Pattern of Automotive RF SoC  
Major Automotive RF SoC Vendors 
Summary of Global and Chinese RF SoC Vendors and Cooperation Dynamics (1)  
Summary of Global and Chinese RF SoC Vendors and Cooperation Dynamics (2)  
Summary of Global and Chinese RF SoC Vendors and Cooperation Dynamics (3)  
Summary of Global and Chinese RF SoC Vendors and Cooperation Dynamics (4)  
............  

1.4 Automotive RF SoC Market Size
Automotive RF SoC Market Size, 2022-2030E  
Automotive RF SoC Market Size, 2022-2030E, Appendix Table (1)  
Automotive RF SoC Market Size, 2022-2030E, Appendix Table (2)  


2 Types of Automotive RF SoC  
2.1 Automotive RF SoC: 5G Chip  
2.1.1 Definition and Technology Iteration of 5G Chips  
Definition of Mobile Cellular Chips  
Development and Evolution of Mobile Cellular Chips (1)  
Development and Evolution of Mobile Cellular Chips (2)  
Next-Generation Technologies of Mobile Cellular Chips: 5.5G Communication (1)  
Next-Generation Technologies of Mobile Cellular Chips: 5.5G Communication (2)  
Next-Generation Technologies of Mobile Cellular Chips: 5.5G Communication (3)  
Next-Generation Technologies of Mobile Cellular Chips: 5.5G Communication (4)  
Next-Generation Technologies of Mobile Cellular Chips: 6G Communication (1)  
Next-Generation Technologies of Mobile Cellular Chips: 6G Communication (2)   

2.1.2 Applications and Solutions of Automotive 5G Chips  
Evolution Trend of Automotive Communication Technologies (4G/5G/6G)  
Technology Evolution and Application Scenarios of Automotive Communication Chips (4G/5G/6G) (1)  
Technology Evolution and Application Scenarios of Automotive Communication Chips (4G/5G/6G) (2)  
Technology Evolution and Application Scenarios of Automotive Communication Chips (4G/5G/6G) (3)  
Functional Development Roadmap of Automotive 5G Communication Chips  
Automotive 5G Communication Chip R17 Protocol: Improvements Compared with R16 Protocol (1)  
Automotive 5G Communication Chip R17 Protocol: Improvements Compared with R16 Protocol (2)   
Modules and Chip Solutions for Automotive Communication (R16 & R17 Protocols) (1)  
Modules and Chip Solutions for Automotive Communication (R16 & R17 Protocols) (2)  
Modules and Chip Solutions for Automotive Communication (R16 & R17 Protocols) (3)  
Modules and Chip Solutions for Automotive Communication (R16 & R17 Protocols) (4)  
Automotive 5G Communication Solution 1  
Automotive 5G Communication Solution 2  
Automotive 5G Communication Solution 3  
Automotive 5G Communication Solution 4  
Automotive 5G Communication Solution 5  
Automotive 5G Communication Solution 6  
Automotive 5G Communication Solution 7  

2.1.3 Automotive 5G Communication Chip Market Size  
Penetration Rate of Internet of Vehicles (4G/5G/5.5G) in Passenger Cars in China, 2020-2030E  
China's Passenger Car Communication Chip (4G/5G/5.5G) Market Size, 2022-2030E  
Appendix Table: China's Passenger Car Communication Chip (4G/5G/5.5G) Market Size, 2022-2030E   

2.1.4 Competitive Pattern of Automotive 5G Communication Chips  
Summary of Chinese and Foreign Automotive 5G Communication Chip Vendors (1)  
Summary of Chinese and Foreign Automotive 5G Communication Chip Vendors (2)  
Summary of Chinese and Foreign Automotive 5G Communication Chip Vendors (3)  
Summary of Chinese and Foreign Automotive 5G Communication Chip Vendors (4)  

2.2 Automotive RF SoC: Bluetooth Chip  
2.2.1 Definition and Technology Iteration of Bluetooth Chips  
Definition and Classification of Bluetooth Chips  
Working Principle of Bluetooth Chips  
Composition Architecture of Bluetooth Protocol Stack  
Evolution of Bluetooth Chip Standards  
Bluetooth Positioning Technology 1  
Bluetooth Positioning Technology 2  
Bluetooth Positioning Technology 3  
Comparison between Bluetooth Positioning Technologies  

2.2.2 Applications and Solutions of Automotive Bluetooth Chips  
Technology Evolution of Automotive Bluetooth Chips (1)  
Technology Evolution of Automotive Bluetooth Chips (2)  
Technology Evolution of Automotive Bluetooth Chips (3)  
Technology Evolution of Automotive Bluetooth Chips (4)  
Application Scenarios of Automotive Bluetooth Chips (1)  
Application Scenarios of Automotive Bluetooth Chips (2)  
Application Scenarios of Automotive Bluetooth Chips (3)  
Application Scenarios of Automotive Bluetooth Chips: Digital Key  
Application Scenario Case 1 of Automotive Bluetooth Chips  
Application Scenario Case 2 of Automotive Bluetooth Chips  
Application Scenario Case 3 of Automotive Bluetooth Chips  
Application Scenarios of Automotive Bluetooth Chips: Tire Pressure Monitoring System (TPMS)  
Application Scenario Case 1 of Automotive Bluetooth Chips  
Application Scenarios of Automotive Bluetooth Chips: Infotainment System and Its Solutions  
Application Scenario Trend of Automotive Bluetooth Chips: Battery Management System/On-Board Diagnostic (OBD) Device  

2.2.3 Automotive Bluetooth Chip Market Size 
Penetration Rate of Automotive Bluetooth Chips (by Version) in China, 2022-2030E  
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: Installation Rate of Digital Keys in Passenger Cars in China, 2022-2030E  
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: Installation Rate and Technology Type of Digital Keys in Passenger Cars in China, 2020-2024   
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: China's Passenger Car Digital Key Market Structure by Segment, 2022-2030E  
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: China's Passenger Car Digital Key Market Trend by Segment, 2022-2030E  
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: China's Passenger Car BLE Digital Key Chip Market Size, 2022-2030E  
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: China's Passenger Car BLE Digital Key Chip Market Size, 2022-2030E, Appendix Table   
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: China's Passenger Car TPMS BLE Chip Market Size, 2022-2030E    
Application Scenarios of Bluetooth Low Energy (BLE) in Vehicles: China's Passenger Car TPMS BLE Chip Market Size, 2022-2030E, Appendix Table  
Application Scenarios of Automotive Bluetooth: China's Passenger Car IVI BLE Chip Market Size, 2022-2030E   
Application Scenarios of Automotive Bluetooth: China's Passenger Car IVI BLE Chip Market Size, 2022-2030E, Appendix Table   
China's Passenger Car BLE Chip Market Size, 2022-2030E   

2.2.4 Competitive Pattern of Automotive Bluetooth Chips  
Summary of Overseas Automotive Bluetooth Chip Vendors (1)  
Summary of Overseas Automotive Bluetooth Chip Vendors (2)  
Summary of Overseas Automotive Bluetooth Chip Vendors (3)  
Summary of Chinese Automotive Bluetooth Chip Vendors  

2.3 Automotive RF SoC: Wi-Fi Chip  
2.3.1 Definition and Technology Iteration of Wi-Fi Chips  
Definition and Working Principle of Wi-Fi Technology  
Frequency Band Characteristics of Wi-Fi Technology  
Development and Evolution of Wi-Fi Technology (1)  
............  
Development and Evolution of Wi-Fi Technology (5)  

2.3.2 Applications and Solutions of Automotive Wi-Fi Chips  
Technology Evolution of Automotive Wi-Fi Chips (1)  
Technology Evolution of Automotive Wi-Fi Chips (2)  
Application Solutions of Automotive Wi-Fi Chips  
Application Solution 1 of Automotive Wi-Fi Chips  
Application Solution 2 of Automotive Wi-Fi Chips  
Application Solution 3 of Automotive Wi-Fi Chips (1)  
Application Solution 3 of Automotive Wi-Fi Chips (2)  
Application Solution 4 of Automotive Wi-Fi Chips  

2.3.3 Automotive Wi-Fi Chip Market Size  
Penetration Rate and Installations of Wi-Fi in Passenger Cars in China, 2022-2030E  
Penetration Rate and Installations of Wi-Fi in Passenger Cars in China, 2022-2030E, Estimation Table  
China's Passenger Car Wi-Fi Chip Market Size, 2022-2030E  
China's Passenger Car Wi-Fi Chip Market Size, 2022-2030E, Estimation Table  

2.3.4 Competitive Pattern of Automotive Wi-Fi Chips  
Summary of Chinese and Foreign Wi-Fi Chip Vendors (1)  
Summary of Chinese and Foreign Wi-Fi Chip Vendors (2)  
Summary of Chinese and Foreign Wi-Fi Chip Vendors (3)   

2.4 Automotive RF SoC: UWB Chip  
2.4.1 Definition and Technology Iteration of UWB Chips  
Working Principle of UWB Technology  
Performance and Advantages of UWB Technology  
Positioning Solutions of UWB Technology  
Next-Generation Technical Standard of UWB: 802.15.4ab (1)  
Next-Generation Technical Standard of UWB: 802.15.4ab (2)  

2.4.2 Applications and Solutions of Automotive UWB Chips  
Automotive Application Scenarios of UWB  
UWB Usage per Vehicle  
UWB Digital Key Solutions (1)  
UWB Digital Key Solutions (2)   
UWB Digital Key Integrated Glass Solution  
UWB Digital Key Layout of OEMs  
Summary of UWB Digital Key Solutions of Suppliers  
UWB Digital Key Solution 1 of Suppliers  
UWB Digital Key Solution 2 of Suppliers  
UWB Digital Key Solution 3 of Suppliers  
UWB Digital Key Solution 4 of Suppliers (1)  
UWB Digital Key Solution 4 of Suppliers (2)  
UWB Digital Key Solution 5 of Suppliers (1)  
UWB Digital Key Solution 5 of Suppliers (2)   
UWB Function Expansion: Development of Integrated UWB Functions by Some Suppliers  
UWB Function Expansion: Child Presence Detection (CPD) Function (1)  
UWB Function Expansion: Child Presence Detection (CPD) Function (2)  
UWB Function Expansion: Advantage and Disadvantage of CPD Technologies (1)  
UWB Function Expansion: Advantage and Disadvantage of CPD Technologies (2)  
UWB Function Expansion: Advantage and Disadvantage of CPD Technologies (3)  
UWB Function Expansion: Advantage and Disadvantage of CPD Technologies (4)  
Summary of CPD Cases Based on UWB Technology (1)  
Summary of CPD Cases Based on UWB Technology (2)  
CPD Case 1 (1)  
CPD Case 1 (2)  
CPD Case 2  
CPD Case 3  
CPD Case 4  
CPD Case 5  
UWB Function Expansion: Parking Assist and AVP (Automated Valet Parking) (1)  
UWB Function Expansion: Parking Assist and AVP (Automated Valet Parking) (2)   

2.4.3 Automotive UWB Chip Market Size 
Installations and Installation Rate of UWB Digital Keys in Passenger Cars in China, 2021-2024  
Installations and Installation Rate of UWB Digital Keys in Passenger Cars (by Price Range) in China, 2022-2024   
China's Passenger Car UWB Chip Shipments and Market Size, 2022-2030E  
China's Passenger Car UWB Chip Shipments and Market Size, 2022-2030E, Estimation Table  

2.4.4 Competitive Pattern of Automotive UWB Chips  
Competitive Pattern of UWB Chips  
Summary of Chinese and Foreign Automotive UWB Chip Vendors (1)  
Summary of Chinese and Foreign Automotive UWB Chip Vendors (2)  
Summary of Chinese and Foreign Automotive UWB Chip Vendors (3)  
Summary of Chinese and Foreign Automotive UWB Chip Vendors (4)

2.5 Automotive RF SoC: NearLink Chip
2.5.1 Definition and Technology Iteration of NearLink Chips
Performance and Advantages of NearLink Technology
NearLink Technology Industry Chain and Industrial Map
Architectural Design of NearLink Chips
Communication Interfaces of NearLink Chips
Technology Evolution of NearLink Chips

2.5.2 Applications and Solutions of Automotive NearLink Chips
Automotive Applications of NearLink Chips
Automotive Application Trends of NearLink Chips 
List of NearLink Module Suppliers and Products (1)
List of NearLink Module Suppliers and Products (2)
Summary of Automotive Application Solutions for NearLink Chips
Automotive Application Solutions of NearLink Chips: 360° Panoramic Surround View System (1)
Automotive Application Solutions of NearLink Chips: 360° Panoramic Surround View System (2)
Automotive Application Solutions of NearLink Chips: Immersive Vehicle Sound Field and Noise Reduction
Automotive Application Solutions of NearLink Chips: Wireless Intelligent Battery Management System/Wireless Interactive Mirroring
Automotive Application Solutions of NearLink Chips: NearLink Digital Key (1)
Automotive Application Solutions of NearLink Chips: NearLink Digital Key (2)
Automotive Application Solutions of NearLink Chips: NearLink Digital Key (3)
Automotive Application Solutions of NearLink Chips: NearLink Digital Key (4)
NearLink Digital Key Solution 1 (1) 
NearLink Digital Key Solution 1 (2)

2.5.3 Automotive NearLink Chip Market Size 
China's Passenger Car NearLink Chip Market Size, 2025-2030E
China's Passenger Car NearLink Chip Market Size, 2025-2030E - Estimation Table

2.5.4 Competitive Pattern of Automotive NearLink Chips
Competitive Pattern of NearLink Chips
Summary of Chinese Automotive NearLink Chip Vendors

2.6 Automotive RF SoC: NFC Chip
2.6.1 Definition and Working Principle of NFC Chips
Definition of NFC Technology
Working Principle of NFC Technology

2.6.2 Applications and Solutions of Automotive NFC Chips
Application Trends of Automotive NFC Chips
Automotive Application Solution of NFC Chips: NFC Digital Key
NFC Digital Key Solution 1
NFC Digital Key Solution 2
NFC Digital Key Solution 3

2.6.3 Automotive NFC Chip Market Size
China's Passenger Car NFC Chip Market Size, 2022-2030E
China's Passenger Car NFC Chip Market Size, 2022-2030E - Estimation Table

2.6.4 Competitive Pattern of Automotive NFC Chips
Competitive Pattern of NFC Chips
Summary of Chinese and Foreign Automotive NFC Chip Vendors (1)
Summary of Chinese and Foreign Automotive NFC Chip Vendors (2)

2.7 Automotive RF SoC: V2X Chip
2.7.1 Definition and Technology Iteration of V2X Chips
Definition and Communication Types of V2X
V2X Technical Route 1: DSRC (1)
V2X Technical Route 1: DSRC (2)
V2X Technical Route 2: C-V2X (1)
V2X Technical Route 2: C-V2X (2)
Comparison between V2X Technical Routes
V2X Industry Chain 
Working Principle of V2X Chips
Architectural Design of V2X Chips
Evolution of V2X Chip Standards 
Technology Evolution of V2X Chips

2.7.2 Applications and Solutions of Automotive V2X Chips
Functional Logic of Automotive Applications of V2X Chips
Development and Evolution of Automotive Applications of V2X Chips
Summary of Automotive Application Solutions for V2X Chips
Automotive Application Solution 1 of V2X Chips
Automotive Application Solution 2 of V2X Chips
Automotive Application Solution 3 of V2X Chips
Automotive Application Solution 4 of V2X Chips
Summary of Automotive V2X Module Vendors and Products (1)
Summary of Automotive V2X Module Vendors and Products (2)
Summary of Automotive V2X Module Vendors and Products (3)

2.7.3 Automotive V2X Chip Market Size 
OEM Installations of C-V2X in Passenger Cars in China, 2022-2030E
China's Passenger Car V2X Chip Market Size, 2022-2030E
China's Passenger Car V2X Chip Market Size, 2022-2030E - Estimation Table

2.7.4 Competitive Pattern of Automotive V2X Chips
Competitive Pattern of Chinese and Foreign Automotive V2X Chips (1)
Competitive Pattern of Chinese and Foreign Automotive V2X Chips (2) 

2.8 Automotive RF SoC: GNSS Chip
2.8.1 Definition and Technology Iteration of GNSS Chips
Definition and Working Principle of GNSS Chips
Classification and Implementation Forms of GNSS Chips
Comparison between Different Positioning Technologies for GNSS Chips

2.8.2 Applications and Solutions of Automotive GNSS Chips
Application Scenarios of Automotive GNSS Chips
Application Scenarios of Automotive GNSS Chips: Requirements of Different NOA for High-Precision Positioning
Application Scenarios of Automotive GNSS Chips: Requirements of Urban NOA for High-Precision Positioning
Summary of Automotive Application Solutions for GNSS Chips
Automotive Application Solution 1 of GNSS Chips
Automotive Application Solution 2 of GNSS Chips
Automotive Application Solution 3 of GNSS Chips
Automotive Application Solution 4 of GNSS Chips
Automotive Application Solution 5 of GNSS Chips
Summary of Automotive GNSS Positioning Module Products and Suppliers (1)
............
Summary of Automotive GNSS Positioning Module Products and Suppliers (5)

2.8.3 Automotive GNSS Chip Market Size 
Penetration Rate of Autonomous Driving Systems in Passenger Cars in China, 2022-2030E
China's Passenger Car GNSS Chip Market Size, 2022-2030E
China's Passenger Car GNSS Chip Market Size, 2022-2030E - Estimation Table

2.8.4 Competitive Pattern of Automotive GNSS Chips
Competitive Pattern of Automotive GNSS Chips
Summary of Chinese and Foreign Automotive GNSS Chip Vendors (1)
Summary of Chinese and Foreign Automotive GNSS Chip Vendors (2)
Summary of Chinese and Foreign Automotive GNSS Chip Vendors (3)

2.9 Automotive RF SoC: Satellite Communication Chip
2.9.1 Definition and Technology Iteration of Satellite Communication Chips
Definition and Advantages of Automotive Satellite Communication
Core Technology of Automotive Satellite Communication: Vehicle Direct Satellite Connection Technology (1)
Core Technology of Automotive Satellite Communication: Vehicle Direct Satellite Connection Technology (2)
Classification of Automotive Satellite Communication Chips
Technology Evolution of Automotive Satellite Communication: 5G NTN (1)
Technology Evolution of Automotive Satellite Communication: 5G NTN (2)
Technology Evolution of Automotive Satellite Communication: 5G NTN (3)
Technology Evolution of Automotive Satellite Communication: 6G NTN (1)
Technology Evolution of Automotive Satellite Communication: 6G NTN (2)

2.9.2 Applications and Solutions of Automotive Satellite Communication Chips
Application Scenarios of Automotive Satellite Communication
Summary of Satellite Communication Layout of OEMs
Satellite Communication Layout of OEMs (1)
Satellite Communication Layout of OEMs (2)
............
Satellite Communication Layout of OEMs (6)
Summary of Automotive Application Solutions for Satellite Communication Chips 
Automotive Application Solution 1 of Satellite Communication Chips
Automotive Application Solution 2 of Satellite Communication Chips
Automotive Application Solution 3 of Satellite Communication Chips

2.9.3 Automotive Satellite Communication Chip Market Size
China's Passenger Car Satellite Communication Chip Market Size, 2024-2030E
China's Passenger Car Satellite Communication Chip Market Size, 2024-2030E - Estimation Table

2.9.4 Competitive Pattern of Automotive Satellite Communication Chips
Summary of Chinese and Foreign Automotive Satellite Communication Chip Vendors (1)
Summary of Chinese and Foreign Automotive Satellite Communication Chip Vendors (2)

2.10 Automotive RF SoC: Radar Chip
2.10.1 Definition and Technology Iteration of Radar Chips
Radar Frequency Bands
Comparison of Application Types of Automotive Radars
Technical Characteristics of Automotive Radars
Architectural Design of Automotive Radars
Working Principle of Automotive Radars
Automotive Radar Chip Industry Chain 
Development Trends of Automotive Radars (1)
Development Trends of Automotive Radars (2)
Development Trends of Automotive Radars (3)
Two Major Schools of Automotive Radar Chips

2.10.2 Applications and Solutions of Automotive Radar Chips
Application Scenarios of Automotive Radars
Application Solutions of Automotive Radars
Technological Upgrades of Automotive Radar Chips (1)
Technological Upgrades of Automotive Radar Chips (2)
Technological Upgrades of Automotive Radar Chips (3)
Technological Upgrades of Automotive Radar Chips (4)
Application Solution 1 of 4D Radar Chips
Application Solution 2 of 4D Radar Chips
Application Evolution Direction of Automotive Radars: Central Computing Radar (1) 
Application Evolution Direction of Automotive Radars: Central Computing Radar (2)
Several Implementation Schemes of Radars by Algorithm Deployment Location (1)
Several Implementation Schemes of Radars by Algorithm Deployment Location (2)
Several Implementation Schemes of Radars by Algorithm Deployment Location (3) 
Deployment Case 1 of Central Computing Radar Products
Deployment Case 2 of Central Computing Radar Products (1)
Deployment Case 2 of Central Computing Radar Products (2)
Deployment Case 2 of Central Computing Radar Products (3)
Deployment Case 3 of Central Computing Radar Products (1)
Deployment Case 3 of Central Computing Radar Products (2)
Deployment Case 4 of Central Computing Radar Products
Deployment Case 5 of Central Computing Radar Products
Chip Solution 1 for Central Computing Radars
Chip Solution 2 for Central Computing Radars

2.10.3 Automotive Radar Chip Market Size
Installations of Radars (Traditional, 4D, Central Computing) in Passenger Cars in China, 2022-2030E
Installations of Radars (Traditional, 4D, Central Computing) in Passenger Cars in China, 2022-2030E -Estimation Table

2.10.4 Competitive Pattern of Automotive Radar Chips
Competitive Pattern of Automotive Radar Chips
Summary of Chinese Automotive Radar Chip Vendors (1)
Summary of Chinese Automotive Radar Chip Vendors (2) 
Summary of Chinese Automotive Radar Chip Vendors (3) 
Summary of Foreign Automotive Radar Chip Vendors (1)
Summary of Foreign Automotive Radar Chip Vendors (2) 

3 Major Foreign RF SoC Vendors 
3.1 Qualcomm
Comprehensive Automotive Solutions: Digital Chassis (1)
Comprehensive Automotive Solutions: Digital Chassis (2)
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
RF SoC Product Line (4)
Automotive-grade WiFi Chips
Wireless Connectivity Chips (1)
Wireless Connectivity Chips (2)
Wireless Connectivity Chips (3)
5G Communication Chips (1)
5G Communication Chips (2)
V2X Chipset (1)
............
V2X Chipset (5)
Snapdragon 5G Platform (1)
Snapdragon 5G Platform (2)

3.2 Samsung
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
Automotive 5G Chips
UWB Chips (1)
UWB Chips (2)

3.3 Renesas Electronics
Automotive-grade Bluetooth Chips (1)
Automotive-grade Bluetooth Chips (2)
............
Automotive-grade Bluetooth Chips (6)

3.4 Infineon
Automotive Radar Chip Product Layout 
RF SoC Product Line (1)
RF SoC Product Line (2)
Radar Chips
24GHz Radar Chips (1)
24GHz Radar Chips (2)
77GHz Radar Chips
77GHz Radar Microcontrollers

3.5 Synaptics
Automotive WiFi 7 Chip

3.6 NXP
Automotive Access Control System Solutions
Automotive Radar System Solutions (1)
Automotive Radar System Solutions (2)
RF SoC Product Line (1)
............
RF SoC Product Line (5)
Automotive-grade Bluetooth Chips (1)
Automotive-grade Bluetooth Chips (2)
Automotive-grade Bluetooth Chips (3)
Automotive-grade NFC Chips (1)
............
Automotive-grade NFC Chips (5)
NFC+BLE Digital Key Solution
NFC+BLE+UWB Digital Key Solution (1)
NFC+BLE+UWB Digital Key Solution (2)
WiFi Chip Product Line
Automotive-grade WiFi Chips (1)
Automotive-grade WiFi Chips (2)
Imaging Radar Chips
Radar Chips (1)
Radar Chips (2)
Radar Chips (3)
Radar Chips (4)
Bluetooth MCUs
Automotive-grade UWB Chips (1)
Automotive-grade UWB Chips (2)
Chip Products Corresponding to C-V2X Architecture
C-V2X Chips (1)
C-V2X Chips (2)
C-V2X Chips (3)
C-V2X Solutions

3.7 TI
Profile
Capacity Layout of Chip Business
Radar Chip Layout
Radar Chip Parameters
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
60GHz Radar Chips (1)
60GHz Radar Chips (2)
60GHz Radar Chips (3)
77GHz Radar Chips (1)
77GHz Radar Chips (2)
77GHz Radar Chips (3)
77GHz Radar Chips (4)
Integrated Radar Chips
Bluetooth Chips (1)
Bluetooth Chips (2)
Bluetooth Chips (3)
Bluetooth Chips (4)
Bluetooth Chip Solutions
Digital Key System

3.8 MediaTek
Automotive Communication Business
Dimensity Auto Solutions
RF SoC Product Line (1)
RF SoC Product Line (2)
Automotive 5G Communication Chips
Automotive Communication Platforms (1)
Automotive Communication Platforms (2)
Automotive-grade GNSS Chips
Automotive-grade Radar Chips (1)
Automotive-grade Radar Chips (2)

3.9 Qorvo
Business
RF SoC Product Line (1)
RF SoC Product Line (2)
WiFi Product Layout (1)
WiFi Product Layout (2)
Overall UWB Solutions
UWB Chip Development History
Automotive-grade UWB Chips (1)
............
Automotive-grade UWB Chips (5)
Automotive Front-end Modules

3.10 Broadcom
Automotive Solutions
RF SoC Product Line (1)
RF SoC Product Line (2)
Summary of WiFi Combo Chips
WiFi Combo Chips (1)
WiFi Combo Chips (2)
WiFi Combo Chips (3)
Summary of GNSS/GPS Chips
GNSS/GPS Chips (1)
GNSS/GPS Chips (2)
GNSS/GPS Chips (3)

3.11 STMicroelectronics
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
NFC Chip Layout
Automotive-grade NFC Chips
Automotive-grade NFC Reader ICs
Digital Key Solutions (1)
Digital Key Solutions (2)
Digital Key Solutions (3)
Digital Key Partners
24GHz Radar Chips
77GHz Radar Chips
Wireless Communication Modules
Automotive-grade GNSS Chips (1)
............
Automotive-grade GNSS Chips (5)
Automotive-grade GNSS Modules (1)
Automotive-grade GNSS Modules (2)

3.12 Nordic Semiconductor?
Business 
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
Bluetooth Chips

3.13 Autotalks
Business 
RF SoC Product Line
C-V2X Chipsets (1)
C-V2X Chipsets (2)
C-V2X Chipset Application Case 1
C-V2X Chipset Application Case 2

3.14 u-blox
Business Lines and Product Technology Routes
RF SoC Product Line
Automotive-grade V2X Chips
High-precision Positioning Modules (GNSS)
Automotive Communication Module Product Layout
Automotive Communication Modules

3.15 Silicon Labs
Business 
Bluetooth 6.0 Product Layout
Core Technologies
RF SoC Product Line (1)
RF SoC Product Line (2)
Automotive-grade Bluetooth Chips (1)
Automotive-grade Bluetooth Chips (2)

4 Major Chinese RF SoC Vendors
4.1 Huawei HiSilicon 
Automotive Satellite Communication
NearLink Layout
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
NearLink Chips (1)
NearLink Chips (2)
NearLink Chips (3)
NearLink Chips (4)
NearLink Chip Solutions (1)
NearLink Chip Solutions (2)
5G Communication Chips (1)
5G Communication Chips (2)
Communication Chips
C-V2X Solutions (1)
............
C-V2X Solutions (5)

4.2 Calterah
Business 
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
RF SoC Product Line (4)
Automotive-grade UWB SoC (1)
Automotive-grade UWB SoC (2)
Automotive-grade 4D Imaging Radar SoC
Automotive-grade Radar SoC (1)
Automotive-grade Radar SoC (2)
ADAS Radar SoC (1)
ADAS Radar SoC (2)
ADAS Radar SoC (3)
ADAS Radar SoC (4)
Imaging Radar SoC
Emerging Radar SoC (1)
Emerging Radar SoC (2)

4.3 Unisoc
Business 
Automotive Chip Product Layout
RF SoC Product Line
5G Intelligent Cockpit SoC (1)
5G Intelligent Cockpit SoC (2) 
UWB Chips (1)
UWB Chips (2)
5G Communication Chips
Satellite Communication Chips

4.4 Optek?
Business
RF SoC Product Line
Automotive-grade UWB Chips
UWB System Solutions

4.5 Allystar
Business
RF SoC Product Line
Automotive-grade GNSS Chips (1)
Automotive-grade GNSS Chips (2)
Automotive GNSS Modules

4.6 BYNAV? 
Basestation-free Solutions
RF SoC Product Line (1)
RF SoC Product Line (2)
RF SoC Product Line (3)
Automotive-grade GNSS Chips (1)
Automotive-grade GNSS Chips (2)
Automotive-grade GNSS Chips (3)
GNSS Boards (1)
GNSS Boards (2)
GNSS Modules
Integrated Navigation Modules (1)
Integrated Navigation Modules (2)
High-precision Integrated Navigation Algorithm Architecture

4.7 Unicore 
Intelligent Driving Solutions
Intelligent Cockpit Solutions
Future Layout in the Automotive Field 
RF SoC Product Line (1)
RF SoC Product Line (2)
Automotive-grade GNSS Chips (1)
Automotive-grade GNSS Chips (2)
Automotive-grade GNSS Modules
Integrated Navigation Modules (1)
Integrated Navigation Modules (2)
............
Integrated Navigation Modules (6)

4.8 ComNav? 
Business
Core Technologies
RF SoC Product Line (1)
RF SoC Product Line (2)
GNSS Chip Technology Evolution
Automotive-grade GNSS Chips (1)
............
Automotive-grade GNSS Chips (5)
Integrated Positioning Modules (1)
Integrated Positioning Modules (2)
Integrated Positioning Modules (3)

4.9 Kisilicon 
RF SoC Product Line
Automotive-grade GNSS Chips (1)
............
Automotive-grade GNSS Chips (5)

4.10 Morningcore
Business
Internet of Vehicles (IoV) Solution 1
Internet of Vehicles (IoV) Solution 2
RF SoC Product Line
V2X Chip Evolution
Automotive-grade V2X Chips (1)
Automotive-grade V2X Chips (2)
V2X Chip Modules (Cooperative Products)
V2X Solutions
V2X Modules (1)
V2X Modules (2)

4.11 Geespace
Business
RF SoC Product Line
Satellite Communication Chips
Automotive-grade Satellite Communication Modules
Automotive Satellite Communication Terminals

4.12 HWA Create
Business
RF SoC Product Line
Satellite Communication Chips
Satellite Navigation Chips
Tiantong Automotive Voice Modules

4.13 Sanechips?
Business
Intelligent Connected Vehicle Chip Layout
RF SoC Product Line
Intelligent Connected Vehicle Chip Evolution
Intelligent Connected Vehicle Chips (1)
Intelligent Connected Vehicle Chips (2)
Intelligent Connected Vehicle Chips (3)
Intelligent Connected Vehicle Chips: Next Generation (1)
Intelligent Connected Vehicle Chips: Next Generation (2)

4.14 ASR Microelectronics
Revenue 
Baseband Chip Business
RF SoC Product Line 
Automotive-grade 5G Communication Chips
Automotive-grade 4G Communication Chips (1)
Automotive-grade 4G Communication Chips (2)
Automotive-grade 4G Communication Chips (3)

4.15 Sylincom?
Business
Software Services
Hardware Services 
NearLink Platform
RF SoC Product Line (1)
RF SoC Product Line (2)
Satellite Communication Chips
5G Communication Chips
NearLink Chips
Communication Modules
Automotive Terminal Modules

4.16 Triductor
Business
RF SoC Product Line
NearLink Chips (1)
NearLink Chips (2)
NearLink Chips (3)

4.17 Telink Semiconductor
Business 
Main Products and Downstream Applications (1)
Main Products and Downstream Applications (2)
Automotive Digital Key Solutions
Automotive Digital Key Solutions Have Four Key Advantages
RF SoC Product Line (1)
RF SoC Product Line (2)
Classic Bluetooth Chips (1)
Classic Bluetooth Chips (2)
Bluetooth Low Energy Chips (1)
............
Bluetooth Low Energy Chips (5)

4.18 Ingchips
Business
RF SoC Product Line
Automotive-grade Bluetooth Chips
Automotive-grade Bluetooth Chip Solution 1
Automotive-grade Bluetooth Chip Solution 2
Bluetooth Chips

4.19 Fudan Microelectronics?
RF SoC Product Line
NFC Chips (1)
NFC Chips (2)
NFC Chips (3)

4.20 Andar Technology
RF SoC Product Line
Automotive-grade 4D Imaging Radar Chips
AiP 60GHz Radar Chips
77GHz Radar Chips (1)
77GHz Radar Chips (2)
77GHz Radar Chips (3)
77/79GHz Radar Chips

4.21 SGR Semiconductors
Radar Chip Product Layout
24GHz Radar Chips (1)
24GHz Radar Chips (2)
77GHz Radar Chips

4.22 Runchip
77GHz Radar Chips
Capability of Replacing Foreign Radar Chips 

4.23 Ultraception
Business
Core Technologies
RF SoC Product Line
UWB Chip Series
Automotive-grade UWB Chips

4.24 Newradiotech 
Business
UWB Chip Products and Core Performance Evolution
Technical Advantages of UWB Chips
Automotive Solutions
RF SoC Product Line (1)
RF SoC Product Line (2)
Automotive-grade UWB Chips

4.25 Chixin Semiconductor?
Business
RF SoC Product Line
Automotive-grade UWB Chips

4.26 MKSEMi
Business
RF SoC Product Line
UWB Chips
UWB Chip Solutions

4.27 Chipsbank
Business and UWB Core Technologies
RF SoC Product Line
UWB Chips

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