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IWR2944

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Einchip-Hochleistungsradar, 76 GHz bis 81 GHz, für die Industrie mit integriertem DSP, MCU und Ether

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IWR2944

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Produktdetails

Type IC Frequency range 76 - 81 GHz Number of receivers 4 Number of transmitters 4 ADC sampling rate (ksps) 37500 TX power (dBm) 13.5 Arm CPU Arm Cortex-R5F at 300 MHz Hardware accelerators Radar hardware accelerator Edge AI enabled Yes DSP type C66x DSP 360MHz Interface type CSI-2, GPIO, I2C, SPI, LVDS, UART RAM (kByte) 4096 Operating temperature range (°C) -40 to 125 TI functional safety category Functional Safety-Compliant Security Cryptographic acceleration, Secure storage Rating Catalog
Type IC Frequency range 76 - 81 GHz Number of receivers 4 Number of transmitters 4 ADC sampling rate (ksps) 37500 TX power (dBm) 13.5 Arm CPU Arm Cortex-R5F at 300 MHz Hardware accelerators Radar hardware accelerator Edge AI enabled Yes DSP type C66x DSP 360MHz Interface type CSI-2, GPIO, I2C, SPI, LVDS, UART RAM (kByte) 4096 Operating temperature range (°C) -40 to 125 TI functional safety category Functional Safety-Compliant Security Cryptographic acceleration, Secure storage Rating Catalog
FCCSP (ALT) 266 1728 mm² 12 x 144
  • FMCW transceiver
    • Integrated PLL, transmitter, receiver, baseband and ADC
    • 76 to 81GHz coverage with over 4.5GHz continuous bandwidth
    • 4 receive and 4 transmit channels for PCB interface to antennas
    • Per transmit phase shifter
    • Ultra-accurate chirp engine based on fractional-N PLL
    • TX power
      • 13.5dBm
    • RX noise figure
      • 12dBm
    • Phase noise at 1MHz
      • -96dBc/Hz (76 to 77GHz)
      • -95dBc/Hz (76 to 81GHz)

  • Built-in calibration and self-test

    • Built in firmware (ROM)
    • Self-calibrating system across process and temperature
  • Processing elements
    • Arm Cortex-R5F core (supports lock step operation) @300MHz
    • TI digital signal processor C66x @360MHz
    • TI radar hardware accelerator (HWA2.1) for operations like FFT, log magnitude, and memory compression
    • Multiple EDMA instances for data movement
  • Host interface
    • 2x CAN-FD
    • 10/100Mbps RGMII/RMII/MII Ethernet
  • Supports a serial flash memory interface (loading user application from QSPI flash memory)
  • Other interfaces available to user application
    • Up to 9 ADC channels
    • 2 SPIs
    • 4 UARTs
    • I2C
    • GPIOs
    • 3 EPWMs
    • 4-lane Aurora LVDS interface for raw ADC data and debug instrumentation
    • CSI2 Rx interface to enable playback of the captured data
  • On-Chip RAM
    • 4MBytes of ‘On Chip’ RAM
    • Memory space split between DSP, MCU, and shared L3
  • Device security (on select part numbers)
    • Programmable embedded hardware security module (HSM)
    • Secure authenticated and encrypted boot support
    • Customer programmable root keys, symmetric keys (256 bit), asymmetric keys (up to RSA-4K or ECC-512) with key revocation capability
    • Cryptographic hardware accelerators: PKA with ECC, AES (up to 256 bit), SHA (up to 512 bit), TRNG/DRBG
  • 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 SIL-2 targeted
  • Advanced features
    • Embedded self-monitoring with no external processor involvement
    • Embedded interference detection capability
  • Power management
    • On-die LDO network for enhanced PSRR
    • LVCMOS IO supports dual voltage 3.3V and 1.8V
  • Clock source
    • 40MHz crystal with internal oscillator
    • Supports external oscillator at 40MHz
    • Supports externally driven clock (square or sine wave) at 40MHz
  • Effective Power Management
    • Recommended LP87745 Power Management ICs (PMIC)
      • Companion PMIC specially designed to meet device power supply requirements
      • Flexible mapping and factory programmed configurations to support different use cases
  • Cost-reduced hardware design
    • 0.65mm pitch, 12mm × 12mm flip chip BGA package for easy assembly and low-cost PCB design
    • Small solution size
  • Supports wide temperature operating range
    • Operating junction temperature range: –40°C to 125°C
  • FMCW transceiver
    • Integrated PLL, transmitter, receiver, baseband and ADC
    • 76 to 81GHz coverage with over 4.5GHz continuous bandwidth
    • 4 receive and 4 transmit channels for PCB interface to antennas
    • Per transmit phase shifter
    • Ultra-accurate chirp engine based on fractional-N PLL
    • TX power
      • 13.5dBm
    • RX noise figure
      • 12dBm
    • Phase noise at 1MHz
      • -96dBc/Hz (76 to 77GHz)
      • -95dBc/Hz (76 to 81GHz)

  • Built-in calibration and self-test

    • Built in firmware (ROM)
    • Self-calibrating system across process and temperature
  • Processing elements
    • Arm Cortex-R5F core (supports lock step operation) @300MHz
    • TI digital signal processor C66x @360MHz
    • TI radar hardware accelerator (HWA2.1) for operations like FFT, log magnitude, and memory compression
    • Multiple EDMA instances for data movement
  • Host interface
    • 2x CAN-FD
    • 10/100Mbps RGMII/RMII/MII Ethernet
  • Supports a serial flash memory interface (loading user application from QSPI flash memory)
  • Other interfaces available to user application
    • Up to 9 ADC channels
    • 2 SPIs
    • 4 UARTs
    • I2C
    • GPIOs
    • 3 EPWMs
    • 4-lane Aurora LVDS interface for raw ADC data and debug instrumentation
    • CSI2 Rx interface to enable playback of the captured data
  • On-Chip RAM
    • 4MBytes of ‘On Chip’ RAM
    • Memory space split between DSP, MCU, and shared L3
  • Device security (on select part numbers)
    • Programmable embedded hardware security module (HSM)
    • Secure authenticated and encrypted boot support
    • Customer programmable root keys, symmetric keys (256 bit), asymmetric keys (up to RSA-4K or ECC-512) with key revocation capability
    • Cryptographic hardware accelerators: PKA with ECC, AES (up to 256 bit), SHA (up to 512 bit), TRNG/DRBG
  • 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 SIL-2 targeted
  • Advanced features
    • Embedded self-monitoring with no external processor involvement
    • Embedded interference detection capability
  • Power management
    • On-die LDO network for enhanced PSRR
    • LVCMOS IO supports dual voltage 3.3V and 1.8V
  • Clock source
    • 40MHz crystal with internal oscillator
    • Supports external oscillator at 40MHz
    • Supports externally driven clock (square or sine wave) at 40MHz
  • Effective Power Management
    • Recommended LP87745 Power Management ICs (PMIC)
      • Companion PMIC specially designed to meet device power supply requirements
      • Flexible mapping and factory programmed configurations to support different use cases
  • Cost-reduced hardware design
    • 0.65mm pitch, 12mm × 12mm flip chip BGA package for easy assembly and low-cost PCB design
    • Small solution size
  • Supports wide temperature operating range
    • Operating junction temperature range: –40°C to 125°C

The IWR2944 is a single-chip mmWave sensor composed of a FMCW transceiver, capable of operation in the 76 to 81GHz band, radar data processing elements, and peripherals for in-vehicle networking. The IWR2944 is built with TI’s low-power 45nm RFCMOS process and enables unprecedented levels of integration in a small form factor and minimal BOM. The IWR2944 is a device for low-power, self-monitored, ultra-accurate radar systems in the industrial space.

TI’s low-power 45nm RFCMOS process enables a monolithic implementation of a 4 TX, 4 RX system with integrated PLL, VCO, mixer, and baseband ADC. Integrated in the DSP subsystem (DSS), is TI’s high-performance C66x DSP for radar signal processing. The device includes a Radio Processor Subsystem (RSS), which is responsible for radar front-end configuration, control, and calibration. Within the Main Subsystem (MSS), the device implements a user-programmable Arm Cortex-R5F processor allowing for custom control and industrial interface applications. The hardware accelerator block (HWA 2.1) supplements the DSS and MSS by offloading common radar processing such as FFT, constant false alarm rate (CFAR), scaling, and compression. This saves MIPS on the DSS and MSS, opening up resources for custom applications and higher-level algorithms.

A Hardware Security Module (HSM) is also provisioned in the device (available for only secure part variants). The HSM consists of a programmable Arm Cortex-M4 core and the necessary infrastructure to provide a secure zone of operation within the device.

Simple programming model changes can enable a wide variety of sensor implementation (Short, Mid, Long) with the possibility of dynamic reconfiguration for implementing a multimode sensor.

Additionally, the IWR2944 is provided as a complete platform solution including TI hardware and software reference designs, software drivers, sample configurations, API guides, and user documentation.

The IWR2944 is a single-chip mmWave sensor composed of a FMCW transceiver, capable of operation in the 76 to 81GHz band, radar data processing elements, and peripherals for in-vehicle networking. The IWR2944 is built with TI’s low-power 45nm RFCMOS process and enables unprecedented levels of integration in a small form factor and minimal BOM. The IWR2944 is a device for low-power, self-monitored, ultra-accurate radar systems in the industrial space.

TI’s low-power 45nm RFCMOS process enables a monolithic implementation of a 4 TX, 4 RX system with integrated PLL, VCO, mixer, and baseband ADC. Integrated in the DSP subsystem (DSS), is TI’s high-performance C66x DSP for radar signal processing. The device includes a Radio Processor Subsystem (RSS), which is responsible for radar front-end configuration, control, and calibration. Within the Main Subsystem (MSS), the device implements a user-programmable Arm Cortex-R5F processor allowing for custom control and industrial interface applications. The hardware accelerator block (HWA 2.1) supplements the DSS and MSS by offloading common radar processing such as FFT, constant false alarm rate (CFAR), scaling, and compression. This saves MIPS on the DSS and MSS, opening up resources for custom applications and higher-level algorithms.

A Hardware Security Module (HSM) is also provisioned in the device (available for only secure part variants). The HSM consists of a programmable Arm Cortex-M4 core and the necessary infrastructure to provide a secure zone of operation within the device.

Simple programming model changes can enable a wide variety of sensor implementation (Short, Mid, Long) with the possibility of dynamic reconfiguration for implementing a multimode sensor.

Additionally, the IWR2944 is provided as a complete platform solution including TI hardware and software reference designs, software drivers, sample configurations, API guides, and user documentation.
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Technische Dokumentation

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Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet IWR2944 Single-Chip 76 to 81GHz FMCW Radar Sensor datasheet (Rev. A) PDF | HTML 12 Feb 2026
* Errata IWR2944 Errata PDF | HTML 14 Feb 2024
* User guide AWR294x Technical Reference Manual (Rev. D) 28 Aug 2024
Application note Power Optimization Techniques for the AWR294x PDF | HTML 21 Mär 2025
Application note Getting Started with mmWave Sensors PDF | HTML 12 Mär 2025
Application note Flash Variants Supported by the mmWave Sensor (Rev. G) PDF | HTML 17 Dez 2024
Application note AWR294x, AWR2544 Primary and Secondary Bootloader (Rev. B) PDF | HTML 13 Dez 2024
User guide AWR2944 mmWave Demo Visualizer User's Guide (Rev. A) PDF | HTML 27 Mär 2023
Application note Self-Calibration of mmWave Radar Devices (Rev. C) PDF | HTML 11 Jan 2023
White paper How Radar is Displacing Traditional Technologies PDF | HTML 11 Feb 2022
Design guide High-End Corner Radar Reference Design PDF | HTML 12 Nov 2021
Application note Interference Mitigation on the AWR294x PDF | HTML 12 Nov 2021
Certificate AWR2944EVM EU RoHS Declaration of Conformity (DoC) 08 Nov 2021
Application note mmWave Radar Radome Design Guide PDF | HTML 17 Aug 2021

Design und Entwicklung

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Evaluierungsplatine

AWR2944EVM — Evaluierungsmodul AWR2944 für Hochleistungs-SoC, 76 bis 81 GHz, zur Verwendung in Automobilanwendung

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Hardware-Programmiertool

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Third-party accessory

GAPW-3P-ANTENNA — Antennendesign für ADAS-Radarsensoren von GapWaves

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Software-Entwicklungskit (SDK)

MMWAVE-MCUPLUS-SDK — mmWave-Software Development Kit (SDK) für AWR2944, AWR2544, AWR2944LC, AM2732 und IWR2944

Das mmWave-Mikrocontroller (MCU) plus Software Development Kit (MMWAVE-MCUPLUS-SDK) ist eine Sammlung von Softwarepaketen, die die Anwendungsevaluierung und -Entwicklung auf mmWave-Sensoren von TI ermöglichen. Dieses Tool enthält das MMWAVE-MCUPLUS-SDK und Begleitpakete, um Ihre Designanforderungen (...)
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From evaluation to deployment the TI Developer Zone provides a comprehensive range of software, tools and training to ensure that you have everything you need for each stage of the development process.
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Software-Programmiertool

UNIFLASH UniFlash for most TI microcontrollers (MCUs) and mmWave sensors

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