These chips are primarily used in the automotive field and can be categorized based on their functions and features into types such as System on Chip (SoC), Analog-to-Digital Converters (ADC), Digital Signal Processors (DSP), Microcontrollers (MCU), Radar Sensors, Clock Jitter Cleaners, Analog Front Ends, and Digital Micromirror Device (DMD) Controllers:
- System on Chip (SoC)
- Used in Digital Cockpits and Infotainment Systems: DRA829J-Q1 features a dual-core Arm Cortex-A72, quad-core Cortex-R5F, multi-core DSP, 8-port Ethernet, and 4-port PCIe switch, suitable for complex automotive networks and high-performance computing scenarios, meeting the demands for multi-device connectivity and large data processing in digital cockpits. DRA77P is suitable for digital cockpit applications, equipped with extended peripherals and ISP, enhancing display and image signal processing capabilities. DRA756, DRA750, DRA785, DRA726, DRA725, DRA722, DRA718, DRA716, DRA712, etc., are suitable for infotainment systems and instrument clusters, integrating graphics and DSP, and meeting the infotainment functionality requirements from basic to high-end, such as multimedia playback and navigation display.
- For ADAS and Autonomous Driving Assistance: TDA4VE-Q1 achieves automatic parking and driving assistance through AI, integrating visual preprocessing and GPU, quickly processing camera images to support intelligent driving functions. TDA4AL-Q1 implements front camera and ADAS domain control through cameras and radar sensors, integrating multi-sensor data for decision-making. TDA4VL-Q1 has AI and graphics capabilities, suitable for surround parking assistance applications, processing surround camera data for precise parking. TDA2SX, TDA2SG, TDA2HG, TDA2HV, TDA2SA, TDA2HF, TDA2E, TDA2EG – 17 are suitable for ADAS applications, with varying degrees of graphics, video, and vision acceleration capabilities, applicable for lane departure warning, blind spot monitoring, and other ADAS functions. TDA4VEN-Q1 is suitable for entry-level parking assistance applications, equipped with AI, graphics, and display functions, supporting basic parking assistance systems. TDA4AEN-Q1 is suitable for front camera and driving applications, featuring AI capabilities, focusing on front camera data processing and driving decisions. TDA3MV is suitable for ADAS applications, with complete processing, imaging, and vision acceleration capabilities and low power consumption, suitable for power-sensitive ADAS devices.
- Other General and Specific Application Scenarios: AM67 features triple display, 3D graphics, PCIe 3, USB3, and 4K video codec, suitable for HMI (Human-Machine Interface), providing high-quality display and multimedia interaction capabilities for smart cockpits. AM5718 and AM5716 are Sitara processors, integrating Arm Cortex-A15 and DSP for multimedia processing, applicable in automotive infotainment and smart cockpit systems. AM62A7-Q1 and AM62A3-Q1 are suitable for driver monitoring and front camera-related applications with 1-2 cameras, featuring 2TOPS and 1TOPS computing capabilities and RGB-IR ISP for processing camera images for driver status monitoring. AM625-Q1 is suitable for digital instrument clusters and has embedded safety features, providing display and safety assurance for digital instrument clusters. DRA821U-Q1, as an automotive gateway SoC, features dual-core Arm® Cortex®-A72, quad-core Cortex-R5F, four-port Ethernet switch, and PCIe, responsible for data exchange and communication between different networks within the vehicle.
- High Sampling Rate Multi-Channel Type: ADC12QJ1600-Q1, ADC12DJ1600-Q1, ADC12SJ1600-Q1, ADC12QJ800-Q1, ADC12DJ800-Q1, ADC12SJ800-Q1, etc., with sampling rates of 1.6GSPS and 800MSPS, and a resolution of 12 bits, available in different channel counts (single-channel, dual-channel, quad-channel). Suitable for automotive systems that require high precision and speed in analog signal acquisition, such as engine management systems and airbag systems, with multi-channel capability to simultaneously acquire multiple signals, and high sampling rates to accurately capture signal changes.
- Medium Resolution and Sampling Rate Type
- ADC09QJ1300-Q1, ADC09DJ1300-Q1, ADC09SJ1300-Q1, ADC09DJ800-Q1, ADC09SJ800-Q1, etc., with a resolution of 9 bits and sampling rates of 800MSPS or 1.3GSPS. These chips are relatively low-cost and suitable for automotive electronic scenarios that do not require high precision but still need a certain sampling speed, such as auxiliary sensor signal acquisition, like in-vehicle temperature and humidity environmental sensor signal conversion.
- High Performance Type: TMS320C6424Q is a C64x+ fixed-point DSP, up to 600MHz, 16/8-bit EMIFA, 32/16-bit DDR2; TMS320DM6437Q digital media processor, with performance up to 4800MIPS, 600MHz clock rate, 1 McASP, 2 McBSP; TMS320DM6435Q with performance up to 4800MIPS, 600MHz clock rate, 1 McASP, 1 McBSP. These chips have high processing performance and rich interfaces, suitable for automotive applications requiring high digital signal processing, such as advanced audio signal processing (to achieve high-quality automotive sound effects), and complex motor control algorithms (for electric vehicle motor drive systems).
- Medium Performance Type: TMS320C6421Q is a C64x+ fixed-point DSP, up to 600MHz, 8-bit EMIFA, 16-bit DDR2, with relatively weaker processing capability and interface configuration, and lower price. Suitable for automotive application scenarios where DSP performance is not extremely high, such as some simple audio processing tasks and basic motor control functions.
- High Performance and Reliability Type: TMS570LC4357 is a 16/32-bit RISC flash MCU based on the Arm Cortex-R5F core, integrating EMAC, FlexRay, and certified by Q-100 automotive standards. Suitable for automotive electronic systems requiring high reliability and communication functions, such as automotive chassis control (precise control of braking, steering, etc.), and body network node control (ensuring stable communication between various electronic modules in the body).
- General Type: F28M35H52C-Q1 is an automotive C2000™ dual-core 32-bit MCU with 250MIPS processing capability and 1024KB flash; TMS320C28346-Q1 has 300MIPS, FPU, 516KB RAM, EMIF, automotive C2000™ 32-bit MCU. These chips can be used in automotive power systems (such as engine control units, precise control of fuel injection and ignition timing), and industrial control scenarios requiring certain real-time and storage capabilities, capable of handling relatively complex control algorithms.
- Low-Cost Type: TMS320F2811-Q1, TMS320F2812-Q1, TMS320F2809-Q1, TMS320F2810-Q1, etc., with a main frequency around 150MHz, varying flash memory capacities, and relatively low prices. Suitable for automotive electronic control scenarios that are cost-sensitive and have relatively low performance requirements, such as window control, wiper control, and interior lighting control for simple devices.
- Feature-Rich Type: TMS320F28335-Q1, TMS320F28235-Q1, TMS320F28234-Q1, etc., with different resource configurations such as FPU, ADC, etc. Can be used in automotive control applications requiring certain functionality and storage, such as electronic throttle control (precisely adjusting engine intake), battery management systems (monitoring and controlling battery charge and discharge states).
- Basic Type: TMS570LS3137, TMS570LS3135, TMS570LS3134 are 16/32-bit RISC flash MCUs based on the Arm Cortex-R4F core, integrating different communication interfaces. Commonly used in automotive body control networks, safety systems, and other scenarios requiring high reliability, such as control units in electronic stability systems (ESP) to ensure stable operation under various conditions.
- High Integration High Performance Type: AWR2544 is a 76-81GHz FMCW satellite chip radar sensor; AWR1843AOP is a single-chip 76GHz to 81GHz automotive radar sensor integrating packaged antenna, DSP, and MCU; AWR6843AOP is a single-chip 60GHz to 64GHz automotive radar sensor integrating packaged antenna, DSP, and MCU; AWR2944 is a second-generation 76GHz to 81GHz high-performance SoC suitable for angle radar and long-range radar. These radar sensors are highly integrated and powerful, capable of achieving high-precision distance, speed, and angle detection, suitable for advanced driver assistance systems (such as adaptive cruise control, automatic emergency braking) and autonomous driving systems, providing detailed perception information about the surrounding environment for vehicles.
- Medium Performance Type: AWR6843 is a single-chip 60GHz to 64GHz automotive radar sensor integrating DSP, MCU, and radar accelerator; AWR1843 is a single-chip 76GHz to 81GHz automotive radar sensor integrating DSP, MCU, and radar accelerator; AWR6443 is a single-chip 60GHz to 64GHz automotive radar sensor integrating MCU and radar accelerator; AWR1642 is a single-chip 76GHz to 81GHz automotive radar sensor integrating DSP and MCU. They have slightly lower performance than high integration high performance types but still meet most ADAS function requirements, achieving a good balance between cost and performance, such as lane-keeping assistance, blind spot monitoring, etc.
- Basic Type: AWR1443 is a single-chip 76GHz to 81GHz automotive radar sensor integrating MCU and hardware accelerator, relatively basic in functionality, suitable for cost-sensitive applications where radar performance is not extremely high, such as simple collision warning systems in some low-end models.
- Clock Jitter Cleaner: LMK04714-Q1 is an automotive ultra-low noise 3.2GHz dual-loop clock jitter cleaner compliant with JESD204B and JESD204C standards. It provides stable, low-jitter clock signals for automotive electronic systems, ensuring the accuracy of data transmission and processing, playing an important role in high-speed data acquisition and communication systems (such as high-speed network communication modules within vehicles) that require high clock precision.
- Analog Front End: AFE5401-Q1 is a four-channel integrated analog front end for automotive radar, responsible for preprocessing the analog signals collected by radar sensors, such as amplification and filtering, providing high-quality input signals for subsequent digital signal processing, and is an indispensable front-end processing module in radar systems.
- Digital Micromirror Device (DMD) Controllers: DLPC230S-Q1, DLPC230-Q1, DLPC231S-Q1, DLPC231-Q1, etc., are all automotive digital micromirror device (DMD) controllers suitable for DLP chipsets. They are used in automotive projection display systems, such as head-up displays (HUD), in-car projectors, etc., controlling DMD chips to achieve image projection and display, providing convenient information display methods for drivers.
| Model | Description | Price (Yuan) |
| DRA829J-Q1 | Dual-core Arm Cortex-A72, quad-core Cortex-R5F, multi-core DSP, 8-port Ethernet, and 4-port PCIe switch | 496.734 |
| TDA4VE-Q1 | Automotive SoC with AI for automatic parking and driving assistance, featuring visual preprocessing and GPU | 480.08 |
| DRA77P | High-performance multi-core SoC suitable for digital cockpit applications with extended peripherals and ISP | 452.564 |
| DRA756 | 1.5GHz dual-core A15, dual EVE, dual DSP extended peripherals SoC processor suitable for infotainment applications | 452.564 |
| TDA4AL-Q1 | Automotive SoC implementing front camera and ADAS domain control through cameras and radar sensors | 422.297 |
| TDA4VL-Q1 | Automotive SoC with AI and graphics, suitable for surround parking assistance applications | 402.167 |
| TDA2SX | SoC processor suitable for ADAS applications with complete graphics, video, and vision acceleration capabilities | 392.21 |
| ADC09QJ1300-Q1 | Automotive four-channel 9-bit 1.3GSPS ADC with JESD204C interface | 390.291 |
| TDA2SG | SoC processor suitable for ADAS applications with advanced graphics, video, and vision acceleration capabilities | 370.893 |
| VSP5324-Q1 | Automotive 4-channel 12-bit 80MSPS ADC | 370.089 |
| TDA2HG | SoC processor suitable for ADAS applications with graphics, video, and vision acceleration capabilities | 341.501 |
| TDA2P-ACD | High-performance SoC series suitable for ADAS with graphics, imaging processing, video, and vision acceleration options | 335.803 |
| TDA4VEN-Q1 | Automotive-grade ADAS SoC with AI, graphics, and display functions suitable for entry-level parking assistance applications | 333.949 |
| TDA4AEN-Q1 | Automotive-grade ADAS SoC suitable for front camera and driving applications with AI capabilities | 325.846 |
| AM67 | Arm® Cortex®-A53 SoC suitable for HMI with triple display, 3D graphics, PCIe 3, USB3, and 4K video codec | 325.846 |
| TDA2HV | SoC processor suitable for ADAS applications with video and vision acceleration capabilities | 316.795 |
| ADC09DJ1300-Q1 | Automotive dual-channel 9-bit 1.3GSPS ADC with JESD204C interface | 310.64 |
| DRA750 | 1.0GHz dual-core A15, dual DSP, extended peripherals SoC processor suitable for infotainment systems | 279.055 |
| DRA785 | SoC processor suitable for audio amplifiers with 2 1000MHz C66x DSP and 2 dual-core Arm Cortex-M4 | 271.538 |
| TDA2SA | SoC processor suitable for ADAS applications with video and vision acceleration capabilities | 253.436 |
| ADC09SJ1300-Q1 | Automotive single-channel 9-bit 1.3GSPS ADC with JESD204C interface | 246.919 |
| TMS570LC4357 | 16/32-bit RISC flash MCU, Arm Cortex-R5F, EMAC, FlexRay, certified by Q-100 automotive standards | 245.007 |
| TDA2EG-17 | SoC processor suitable for ADAS applications with graphics and video acceleration capabilities (17mm package) | 234.747 |
| ADC09QJ800-Q1 | Automotive four-channel 9-bit 800MSPS ADC with JESD204C interface | 230.989 |
| DRA745 | SoC processor suitable for automotive infotainment systems and instrument clusters with graphics and DSP, 1.2GHz dual-core Arm Cortex-A15 | 229.178 |
| DRA726 | 1.5GHz Arm Cortex-A15 suitable for infotainment systems and instrument clusters with graphics and DSP | 226.282 |
| DRA821U-Q1 | Automotive gateway SoC with dual-core Arm® Cortex®-A72, quad-core Cortex-R5F, four-port Ethernet switch, PCIe | 224.399 |
| AM5718 | Sitara processor: Arm Cortex-A15 and DSP, multimedia | 217.636 |
| AWR2544 | 76-81GHz FMCW satellite chip radar sensor | 217.231 |
| LMK04714-Q1 | Automotive ultra-low noise 3.2GHz dual-loop clock jitter cleaner compliant with JESD204B and JESD204C standards | 217.158 |
| TDA2HF | SoC processor suitable for ADAS applications with complete video and vision acceleration capabilities | 213.161 |
| TDA2E | SoC processor suitable for ADAS applications with graphics and video acceleration capabilities (23mm package) | 204.124 |
| AM5716 | Sitara processor: Arm Cortex-A15 and DSP | 197.854 |
| ADC09DJ800-Q1 | Automotive dual-channel 9-bit 800MSPS ADC with JESD204C interface | 188.194 |
| DRA725 | SoC processor suitable for automotive infotainment systems and instrument clusters with graphics and DSP, 1.2GHz Arm Cortex-A15 | 183.111 |
| TMS320C6424Q | C64x+ fixed-point DSP – up to 600MHz, 16/8-bit EMIFA, 32/16-bit DDR2 | 181.685 |
| DRA722 | SoC processor suitable for automotive infotainment systems and instrument clusters with graphics and DSP, 800MHz Arm Cortex-A15 | 181.388 |
| TDA3MV | Low-power SoC suitable for ADAS applications with complete processing, imaging, and vision acceleration capabilities | 177.912 |
| TMS320DM6437Q | Digital media processor, performance up to 4800MIPS, 600MHz clock rate, 1 McASP, 2 McBSP | 174.835 |
| AWR1843AOP | Single-chip 76GHz to 81GHz automotive radar sensor integrating packaged antenna, DSP, and MCU | 173.35 |
| AWR6843AOP | Single-chip 60GHz to 64GHz automotive radar sensor integrating packaged antenna, DSP, and MCU | 166.131 |
| AWR2944 | Second-generation 76GHz to 81GHz high-performance automotive-grade MMIC suitable for angle radar and long-range radar | 159.549 |
| AM62A7-Q1 | Automotive visual SoC suitable for 1-2 cameras, driver monitoring, front camera with RGB-IR ISP, 2TOPS | 156.102 |
| F28M35H52C-Q1 | Automotive C2000™ dual-core 32-bit MCU with 250MIPS, 1024KB flash | 154.987 |
| DRA782 | SoC processor suitable for audio amplifiers with 2 500MHz C66x DSP and 2 dual-core Arm Cortex-M4 | 153.872 |
| ADC09SJ1300-Q1 | Automotive single-channel 9-bit 1.3GSPS ADC with JESD204C interface | 152.062 |
| DRA718 | SoC processor suitable for automotive infotainment systems and instrument clusters with graphics and DSP, 1GHz Arm Cortex-A15 | 149.527 |
| TMS320C28346-Q1 | Automotive C2000™ 32-bit MCU with 300MIPS, FPU, 516KB RAM, EMIF | 147.463 |
| DLPC230S-Q1 | Automotive DLP® DMD controller suitable for DLP553x-Q1 chipsets, compliant with automotive functional safety standards | 144.516 |
| AWR6843 | Single-chip 60GHz to 64GHz automotive radar sensor integrating DSP, MCU, and radar accelerator | 144.458 |
| AWR1843 | Single-chip 76GHz to 81GHz automotive radar sensor integrating DSP, MCU, and radar accelerator | 144.458 |
| TMS320DM6435Q | Digital media processor, performance up to 4800MIPS, 600MHz clock rate, 1 McASP, 1 McBSP | 142.786 |
| ADC08B200-Q1 | 8-bit 200MSPS ADC – compliant with automotive application standards | 138.781 |
| DLPC230-Q1 | Automotive DLP® digital micromirror device (DMD) controller suitable for DLP553x-Q1 chipsets | 137.637 |
| TMS320F2811-Q1 | Automotive C2000™ 32-bit MCU with 150MHz frequency, 256KB flash | 136.334 |
| AWR1642 | Single-chip 76GHz to 81GHz automotive radar sensor integrating DSP and MCU | 125.994 |
| AM62A7-Q1 | Automotive visual SoC suitable for 1-2 cameras, driver monitoring, dashcam with RGB-IR ISP, 2TOPS | 124.314 |
| TMS320F2810-Q1 | Automotive C2000™ 32-bit MCU with 150MHz frequency, 128KB flash | 121.048 |
| DLPC231-Q1 | Automotive DLP® digital micromirror device (DMD) controller suitable for DLP553x-Q1 and DLP462x-Q1 chipsets | 120.816 |
| TMS320F28235-Q1 | Automotive C2000™ 32-bit MCU with 150MIPS, 512KB flash, EMIF, 12-bit ADC | 118.637 |
| TMS570LS3137 | 16/32-bit RISC flash MCU, Arm Cortex-R4F, EMAC, FlexRay | 117.464 |
| TMS320F28234-Q1 | Automotive C2000™ 32-bit MCU with 150MIPS, 256KB flash, EMIF, 12-bit ADC | 117.341 |
| AFE5401-Q1 | Four-channel integrated analog front end for automotive radar | 113.604 |
| AWR1443 | Single-chip 76GHz to 81GHz automotive radar sensor integrating MCU and hardware accelerator | 113.394 |
| DRA712 | SoC processor suitable for automotive infotainment systems and instrument clusters with graphics and dual-core Arm Cortex-M4, 600MHz Arm Cortex-A15 | 112.221 |
| TMS570LS3135 | 16/32-bit RISC flash MCU, Arm Cortex-R4F, FlexRay | 110.73 |
| ADC3421-Q1 | Automotive four-channel, 12-bit, 25MSPS ADC | 109.998 |
| AM625-Q1 | Automotive display SoC suitable for digital instrument clusters with embedded safety features | 109.738 |
| TMS320F2809-Q1 | Automotive C2000™ 32-bit MCU with 100MHz frequency, 256KB flash, 12-channel PWM | 109.709 |
| TMS320C6421Q | C64x+ fixed-point DSP – up to 600MHz, 8-bit EMIFA, 16-bit DDR2 | 104.857 |
| TMS570LS3134 | 16/32-bit RISC flash MCU, Arm Cortex-R4F | 103.988 |
| TMS320DM6431Q | Digital media processor, performance up to 2400MIPS, 300MHz clock rate | 100.542 |
