产品详细信息

Number of receivers 4 Number of transmitters 3 ADC sampling rate (Max) (MSPS) 25 Arm CPU ARM-Cortex R4F 200MHz Interface type 2 CAN-FD, I2C, QSPI, SPI, UART Hardware accelerators Radar hardware accelerator RAM 1472 Rating Automotive Operating temperature range (C) -40 to 125
Number of receivers 4 Number of transmitters 3 ADC sampling rate (Max) (MSPS) 25 Arm CPU ARM-Cortex R4F 200MHz Interface type 2 CAN-FD, I2C, QSPI, SPI, UART Hardware accelerators Radar hardware accelerator RAM 1472 Rating Automotive Operating temperature range (C) -40 to 125
FCCSP (ABL) 161 108 mm² 10.4 x 10.4
  • FMCW transceiver
    • Integrated PLL, transmitter, receiver, Baseband, and ADC
    • 60- to 64-GHz coverage with 4-GHz continuous bandwidth
    • Four receive channels
    • Three transmit channels
    • Supports 6-bit phase shifter
    • Ultra-accurate chirp engine based on fractional-N PLL
    • TX power: 12 dBm
    • RX noise figure:
      • 12 dB
    • Phase noise at 1 MHz:
      • –93 dBc/Hz
  • Built-in calibration and self-test
    • Arm Cortex-R4F-based radio control system
    • Built-in firmware (ROM)
    • Self-calibrating system across frequency and temperature
    • Embedded self-monitoring with no host processor involvement on Functional Safety-Compliant targeted devices
  • C674x DSP for advanced signal processing (AWR6843 only)
  • Hardware accelerator for FFT, filtering, and CFAR processing
  • Memory compression
  • Arm® Cortex®-R4F microcontroller for object detection, and interface control
    • Supports autonomous mode (loading user application from QSPI flash memory)
  • Internal memory with ECC
    • AWR6843:1.75 MB, divided into MSS program RAM (512 KB), MSS data RAM (192 KB), DSP L1RAM (64KB) and L2 RAM (256 KB), and L3 radar data cube RAM (768 KB)
    • AWR6443: 1.4 MB, divided into MSS program RAM (512 KB), MSS data RAM (192 KB), and L3 radar data cube RAM (768 KB)
    • Technical reference manual includes allowed size modifications
  • Other interfaces available to user application
    • Up to 6 ADC channels (low sample rate monitoring)
    • Up to 2 SPI ports
    • Up to 2 UARTs
    • 2 CAN-FD interfaces
    • I2C
    • GPIOs
    • 2 lane LVDS interface for raw ADC data and debug instrumentation
  • Functional Safety-Compliant targeted
    • Developed for functional safety applications
    • Documentation will be available to aid ISO 26262 functional safety system design
    • Hardware integrity up to ASIL-B targeted
    • Safety-related certification ISO 26262 certification by TUV Sud planned
  • Non-Functional safety variants
  • AEC-Q100 qualified
  • Power management
    • Built-in LDO network for enhanced PSRR
    • I/Os support dual voltage 3.3 V/1.8 V
  • Clock source
    • 40.0 MHz crystal with internal oscillator
    • Supports external oscillator at 40 MHz
    • Supports externally driven clock (square/sine) at 40 MHz
  • Easy hardware design
    • 0.65-mm pitch, 161-pin 10.4 mm × 10.4 mm flip chip BGA package for easy assembly and low-cost PCB design
    • Small solution size
  • Supports automotive temperature operating range
  • FMCW transceiver
    • Integrated PLL, transmitter, receiver, Baseband, and ADC
    • 60- to 64-GHz coverage with 4-GHz continuous bandwidth
    • Four receive channels
    • Three transmit channels
    • Supports 6-bit phase shifter
    • Ultra-accurate chirp engine based on fractional-N PLL
    • TX power: 12 dBm
    • RX noise figure:
      • 12 dB
    • Phase noise at 1 MHz:
      • –93 dBc/Hz
  • Built-in calibration and self-test
    • Arm Cortex-R4F-based radio control system
    • Built-in firmware (ROM)
    • Self-calibrating system across frequency and temperature
    • Embedded self-monitoring with no host processor involvement on Functional Safety-Compliant targeted devices
  • C674x DSP for advanced signal processing (AWR6843 only)
  • Hardware accelerator for FFT, filtering, and CFAR processing
  • Memory compression
  • Arm® Cortex®-R4F microcontroller for object detection, and interface control
    • Supports autonomous mode (loading user application from QSPI flash memory)
  • Internal memory with ECC
    • AWR6843:1.75 MB, divided into MSS program RAM (512 KB), MSS data RAM (192 KB), DSP L1RAM (64KB) and L2 RAM (256 KB), and L3 radar data cube RAM (768 KB)
    • AWR6443: 1.4 MB, divided into MSS program RAM (512 KB), MSS data RAM (192 KB), and L3 radar data cube RAM (768 KB)
    • Technical reference manual includes allowed size modifications
  • Other interfaces available to user application
    • Up to 6 ADC channels (low sample rate monitoring)
    • Up to 2 SPI ports
    • Up to 2 UARTs
    • 2 CAN-FD interfaces
    • I2C
    • GPIOs
    • 2 lane LVDS interface for raw ADC data and debug instrumentation
  • Functional Safety-Compliant targeted
    • Developed for functional safety applications
    • Documentation will be available to aid ISO 26262 functional safety system design
    • Hardware integrity up to ASIL-B targeted
    • Safety-related certification ISO 26262 certification by TUV Sud planned
  • Non-Functional safety variants
  • AEC-Q100 qualified
  • Power management
    • Built-in LDO network for enhanced PSRR
    • I/Os support dual voltage 3.3 V/1.8 V
  • Clock source
    • 40.0 MHz crystal with internal oscillator
    • Supports external oscillator at 40 MHz
    • Supports externally driven clock (square/sine) at 40 MHz
  • Easy hardware design
    • 0.65-mm pitch, 161-pin 10.4 mm × 10.4 mm flip chip BGA package for easy assembly and low-cost PCB design
    • Small solution size
  • Supports automotive temperature operating range

The AWR device is an integrated single chip mmWave sensor based on FMCW radar technology capable of operation in the 60-GHz to 64-GHz band. It is built with TI’s low power45-nm RFCMOS process and enables unprecedented levels of integration in an extremely small formfactor. This is an ideal solution for low power, self-monitored, ultra-accurate radar systems in the automotive space. Multiple automotive qualified variants are currently available including Functional Safety-Compliant targeted devices and non-functional safety devices.

The AWR device is an integrated single chip mmWave sensor based on FMCW radar technology capable of operation in the 60-GHz to 64-GHz band. It is built with TI’s low power45-nm RFCMOS process and enables unprecedented levels of integration in an extremely small formfactor. This is an ideal solution for low power, self-monitored, ultra-accurate radar systems in the automotive space. Multiple automotive qualified variants are currently available including Functional Safety-Compliant targeted devices and non-functional safety devices.

下载

您可能感兴趣的类似产品

open-in-new 产品比较
功能与比较器件相似。
AWR6843 正在供货 集成 DSP、MCU 和雷达加速器的单芯片 60GHz 至 64GHz 汽车雷达传感器 AWR6443 has the same pinout as AWR6843, but down in functionality without the DSP.

技术文档

star = TI 精选相关文档
未找到结果。请清除搜索,并重试。
显示全部 6 项
类型 标题 下载最新的英文版本 日期
* 数据表 AWR6443, AWR6843 Single-Chip 60- to 64-GHz mmWave Sensor 数据表 (Rev. C) 2021年 4月 1日
* 勘误表 AWR6443 Device Errata, Silicon Revision 2.0 2020年 4月 1日
应用手册 mmWave Radar Radome Design Guide 2021年 8月 17日
功能安全信息 Radar - FuSa Certificate for IWR6843 (Rev. A) 2021年 8月 5日
应用手册 Memory Compression and Decompression Engine for TI mmwave Radar 2019年 12月 2日
白皮书 Complex base band arch. For FMCW radar systems (Auto) - IQ​ 2017年 4月 17日

设计与开发

有关其他条款或所需资源,请点击下面的任何链接来查看详情页面。

评估板

AWR6843ISK — AWR6843 单芯片 60GHz 至 64GHz 汽车雷达传感器天线插件模块

AWR6843ISK 是一款基于 AWR6843 器件的易用型 60GHz 毫米波传感器评估套件。AWR6843ISK 可用于评估 AWR6843 和 AWR6443 器件。该板由 USB 接口供电,可通过 USB 或 CAN-FD 接口访问点云数据。

此套件配备有毫米波工具和软件,其中包括 mmWave Studio (MMWAVE-STUDIO) 和毫米波软件开发套件 (MMWAVE-SDK)。

可以使用附加板来启用其他功能。例如,DCA1000EVM 支持通过 LVDS 接口访问传感器的原始数据。MMWAVEICBOOST 支持通过 TI 的 CCS 实现软件开发和跟踪功能。

与 (...)

现货
数量限制: 5
评估板

DCA1000EVM — 适用于雷达感应应用的实时数据捕捉适配器评估模块

DCA1000 评估模块 (EVM) 为来自 TI AWR 和 IWR 雷达传感器 EVM 的两通道和四通道低压差分信号 (LVDS) 流量提供实时数据捕获和流式传输。数据可以通过 1Gbps 以太网实时流式传输到运行 MMWAVE-STUDIO 工具的 PC 机上,以进行捕获、可视化,然后可以将其传递给所选的应用进行数据处理和算法开发。

评估板

MMWAVEICBOOST — 毫米波传感器承载卡平台

MMWAVEICBOOST 承载卡扩展了某些 60GHz 毫米波评估模块的功能。该板通过 TI 的 Code Composers 兼容调试器提供高级软件开发、调试功能(例如跟踪和单步执行)。板载 Launchpad 接口可与 TI BoosterPack™ 兼容的硬件配对,以提供更多的传感器和无线连接。TI 的 LaunchPad 生态系统可使 MMWAVEICBOOST 访问更多外设并建立更多连接。

MMWAVEICBOOST 具有可实现扩展连接的 LaunchPad™ 开发套件接口,例如以太网供电 (PoE)、Wi-Fi®、Sub-1 GHz 等。

参考设计

TIDEP-01023 — 使用 60GHz 封装天线毫米波传感器的车内儿童检测和乘员检测参考设计

该参考设计展示了如何使用 AWR6843AOP,后者是一款具有集成天线的 60GHz 单芯片毫米波传感器。该传感器还具有集成的 DSP、MCU 和硬件加速器,可进行快速傅里叶变换处理。

AWR6843AOP 传感器可以帮助开发人员解决车内传感应用的各种问题,包括检测汽车两排座椅之间是否有儿童、安全带警告和入侵者检测等用例。其外形小巧,因此支持在后视镜周围的顶部控制台、顶篷内衬、B/C 柱和座椅等位置放置传感器。通过该器件,一级供应商和汽车制造商可以灵活地规划最终使用案例。

封装 引脚 下载
FCCSP (ABL) 161 了解详情

订购与质量

包含信息:
  • RoHS
  • REACH
  • 器件标识
  • 引脚镀层/焊球材料
  • MSL 等级/回流焊峰值温度
  • MTBF/FIT 估算
  • 材料成分
  • 认证摘要
  • 持续可靠性监测

推荐产品的参数、评估模块或参考设计可能与此 TI 产品相关

支持与培训

视频