Home Mikrocontroller (MCUs) & Prozessoren Mikroprozessoren & DSPs Netzwerk-SoCs für die Automobilindustrie
Home
Mikrocontroller (MCUs) & Prozessoren
Mikroprozessoren & DSPs
Netzwerk-SoCs für die Automobilindustrie

DRA829J-Q1

AKTIV

SoC mit Dual-Arm®-Cortex®-A72, Ethernet mit 4 Ports, PCIe mit 4 Ports und C7xDSP für Netzwerk und Da

Jetzt bestellen
Datenblatt
Benutzerhandbücher
Fehlerverzeichnis

DRA829J-Q1

AKTIV
Datenblatt Jetzt bestellen

Produktdetails

CPU 2 Arm Cortex-A72 Frequency (MHz) 2000 Coprocessors 6 Arm Cortex-R5F Graphics acceleration 1 3D Display type 1 DSI, 1 EDP, 2 DPI Protocols Ethernet PCIe 4 PCIe Gen 3 switch Hardware accelerators Deep learning accelerator, Video decode accelerator, Video encode accelerator Features Networking Operating system Linux, QNX, RTOS Security Cryptographic acceleration, Device attestation & anti-counterfeit, Hardware-enforced isolation, Secure boot, Secure debug, Secure storage, Software IP protection Rating Automotive Power supply solution LP8764-Q1, TPS6594-Q1 Operating temperature range (°C) -40 to 125 Edge AI enabled No
CPU 2 Arm Cortex-A72 Frequency (MHz) 2000 Coprocessors 6 Arm Cortex-R5F Graphics acceleration 1 3D Display type 1 DSI, 1 EDP, 2 DPI Protocols Ethernet PCIe 4 PCIe Gen 3 switch Hardware accelerators Deep learning accelerator, Video decode accelerator, Video encode accelerator Features Networking Operating system Linux, QNX, RTOS Security Cryptographic acceleration, Device attestation & anti-counterfeit, Hardware-enforced isolation, Secure boot, Secure debug, Secure storage, Software IP protection Rating Automotive Power supply solution LP8764-Q1, TPS6594-Q1 Operating temperature range (°C) -40 to 125 Edge AI enabled No
FCBGA (ALF) 827 576 mm² 24 x 24

Processor cores:

  • Dual 64-bit Arm Cortex-A72 microprocessor subsystem at up to 2.0GHz
    • 1MB shared L2 cache per dual-core Arm Cortex-A72 cluster
    • 32KB L1 DCache and 48KB L1 ICache per Cortex-A72 Core
  • Six Arm Cortex-R5F MCUs at up to 1.0GHz
    • 16K I-Cache, 16K D-Cache, 64K L2 TCM
    • Two Arm Cortex-R5F MCUs in isolated MCU subsystem
    • Four Arm Cortex-R5F MCUs in general compute partition
  • Deep-learning Matrix Multiply Accelerator (MMA), up to 8 TOPS (8b) at 1.0 GHz
  • C7x floating point, vector DSP, up to 1.0 GHz, 80 GFLOPS, 256 GOPS
  • Two C66x floating point DSP, up to 1.35 GHz, 40 GFLOPS, 160 GOPS
  • 3D GPU PowerVR Rogue 8XE GE8430, up to 750 MHz, 96 GFLOPS, 6 Gpix/sec

    Memory subsystem:

  • Up to 8MB of on-chip L3 RAM with ECC and coherency
    • ECC error protection
    • Shared coherent cache
    • Supports internal DMA engine
  • External Memory Interface (EMIF) module with ECC
    • Supports LPDDR4 memory types
    • Supports speeds up to 4266 MT/s
    • 32-bit data bus with inline ECC up to 14.9GB/s
  • General-Purpose Memory Controller (GPMC)
  • 512KB on-chip SRAM in MAIN domain, protected by ECC

    Display subsystem:

  • One eDP/DP interface with Multi-Display Support (MST)
    • HDCP1.4/HDCP2.2 high-bandwidth digital content protection
  • One DSI TX (up to 2.5K)
  • Up to two DPI

    Video acceleration:

  • Ultra-HD video, one (3840 × 2160p, 60 fps), or two (3840 × 2160p, 30 fps) H.264/H.265 decode
  • Full-HD video, four (1920 × 1080p, 60 fps), or eight (1920 × 1080p, 30 fps) H.264/H.265 decode
  • Full-HD video, one (1920 × 1080p, 60 fps), or up to three (1920 × 1080p, 30 fps) H.264 encode

    Functional Safety:

  • Functional Safety-Compliant targeted (on select part numbers)
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262/IEC 61508 functional safety system design up to ASIL-D/SIL-3 targeted
    • Systematic capability up to ASIL-D/SC-3 targeted
    • Hardware integrity up to ASIL-D/SIL-3 targeted for MCU Domain
    • Hardware integrity up to ASIL-B/SIL-2 targeted for Main Domain
    • Safety-related certification
      • ISO 26262 certification up to ASIL-D by TÜV SÜD planned
      • IEC 61508 certification up to SIL-3 by TÜV SÜD planned
  • AEC-Q100 qualified on part number variants ending in Q1

  • Device security (on select part numbers):

  • Secure boot with secure run-time support
  • Customer programmable root key, up to RSA-4K or ECC-512
  • Embedded hardware security module
  • Crypto hardware accelerators – PKA with ECC, AES, SHA, RNG, DES and 3DES

    High speed serial interfaces:

  • Two CSI2.0 4L RX plus one CSI2.0 4L TX
  • Integrated Ethernet switch supporting up to 8 external ports
    • All ports support 2.5Gb SGMII
    • All ports support 1Gb SGMII/RGMII
    • All ports support 100Mb RMII
    • Any two ports support QSGMII (using 4 internal ports per QSGMII)
  • Up to four PCI-Express (PCIe) Gen3 controllers
    • Gen1 (2.5GT/s), Gen2 (5.0GT/s), and Gen3 (8.0GT/s) operation with auto-negotiation
    • Up to two lanes per controller
  • Two USB 3.0 dual-role device (DRD) subsystem
    • Two enhanced SuperSpeed Gen1 ports
    • Each port supports Type-C switching
    • Each port independently configurable as USB host, USB peripheral, or USB DRD

    Automotive interfaces:

  • Sixteen Modular Controller Area Network (MCAN) modules with full CAN-FD support

    Audio interfaces:

  • Twelve Multichannel Audio Serial Port (MCASP) modules

    Flash memory interfaces:

  • Embedded MultiMediaCard interface ( eMMC™ 5.1)
  • Universal Flash Storage (UFS 2.1) interface with two lanes
  • Two Secure Digital 3.0/Secure Digital Input Output 3.0 interfaces (SD3.0/SDIO3.0)
  • Two simultaneous flash interfaces configured as
    • One OSPI and one QSPI flash interfaces
    • or one HyperBus™ and one QSPI flash interface

    System-on-Chip (SoC) architecture:

  • 16-nm FinFET technology
  • 24 mm × 24 mm, 0.8-mm pitch, 827-pin FCBGA (ALF), enables IPC class 3 PCB routing

    TPS6594-Q1 Companion Power Management ICs (PMIC):

  • Functional Safety support up to ASIL-D
  • Flexible mapping to support different use cases

Processor cores:

  • Dual 64-bit Arm Cortex-A72 microprocessor subsystem at up to 2.0GHz
    • 1MB shared L2 cache per dual-core Arm Cortex-A72 cluster
    • 32KB L1 DCache and 48KB L1 ICache per Cortex-A72 Core
  • Six Arm Cortex-R5F MCUs at up to 1.0GHz
    • 16K I-Cache, 16K D-Cache, 64K L2 TCM
    • Two Arm Cortex-R5F MCUs in isolated MCU subsystem
    • Four Arm Cortex-R5F MCUs in general compute partition
  • Deep-learning Matrix Multiply Accelerator (MMA), up to 8 TOPS (8b) at 1.0 GHz
  • C7x floating point, vector DSP, up to 1.0 GHz, 80 GFLOPS, 256 GOPS
  • Two C66x floating point DSP, up to 1.35 GHz, 40 GFLOPS, 160 GOPS
  • 3D GPU PowerVR Rogue 8XE GE8430, up to 750 MHz, 96 GFLOPS, 6 Gpix/sec

    Memory subsystem:

  • Up to 8MB of on-chip L3 RAM with ECC and coherency
    • ECC error protection
    • Shared coherent cache
    • Supports internal DMA engine
  • External Memory Interface (EMIF) module with ECC
    • Supports LPDDR4 memory types
    • Supports speeds up to 4266 MT/s
    • 32-bit data bus with inline ECC up to 14.9GB/s
  • General-Purpose Memory Controller (GPMC)
  • 512KB on-chip SRAM in MAIN domain, protected by ECC

    Display subsystem:

  • One eDP/DP interface with Multi-Display Support (MST)
    • HDCP1.4/HDCP2.2 high-bandwidth digital content protection
  • One DSI TX (up to 2.5K)
  • Up to two DPI

    Video acceleration:

  • Ultra-HD video, one (3840 × 2160p, 60 fps), or two (3840 × 2160p, 30 fps) H.264/H.265 decode
  • Full-HD video, four (1920 × 1080p, 60 fps), or eight (1920 × 1080p, 30 fps) H.264/H.265 decode
  • Full-HD video, one (1920 × 1080p, 60 fps), or up to three (1920 × 1080p, 30 fps) H.264 encode

    Functional Safety:

  • Functional Safety-Compliant targeted (on select part numbers)
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262/IEC 61508 functional safety system design up to ASIL-D/SIL-3 targeted
    • Systematic capability up to ASIL-D/SC-3 targeted
    • Hardware integrity up to ASIL-D/SIL-3 targeted for MCU Domain
    • Hardware integrity up to ASIL-B/SIL-2 targeted for Main Domain
    • Safety-related certification
      • ISO 26262 certification up to ASIL-D by TÜV SÜD planned
      • IEC 61508 certification up to SIL-3 by TÜV SÜD planned
  • AEC-Q100 qualified on part number variants ending in Q1

  • Device security (on select part numbers):

  • Secure boot with secure run-time support
  • Customer programmable root key, up to RSA-4K or ECC-512
  • Embedded hardware security module
  • Crypto hardware accelerators – PKA with ECC, AES, SHA, RNG, DES and 3DES

    High speed serial interfaces:

  • Two CSI2.0 4L RX plus one CSI2.0 4L TX
  • Integrated Ethernet switch supporting up to 8 external ports
    • All ports support 2.5Gb SGMII
    • All ports support 1Gb SGMII/RGMII
    • All ports support 100Mb RMII
    • Any two ports support QSGMII (using 4 internal ports per QSGMII)
  • Up to four PCI-Express (PCIe) Gen3 controllers
    • Gen1 (2.5GT/s), Gen2 (5.0GT/s), and Gen3 (8.0GT/s) operation with auto-negotiation
    • Up to two lanes per controller
  • Two USB 3.0 dual-role device (DRD) subsystem
    • Two enhanced SuperSpeed Gen1 ports
    • Each port supports Type-C switching
    • Each port independently configurable as USB host, USB peripheral, or USB DRD

    Automotive interfaces:

  • Sixteen Modular Controller Area Network (MCAN) modules with full CAN-FD support

    Audio interfaces:

  • Twelve Multichannel Audio Serial Port (MCASP) modules

    Flash memory interfaces:

  • Embedded MultiMediaCard interface ( eMMC™ 5.1)
  • Universal Flash Storage (UFS 2.1) interface with two lanes
  • Two Secure Digital 3.0/Secure Digital Input Output 3.0 interfaces (SD3.0/SDIO3.0)
  • Two simultaneous flash interfaces configured as
    • One OSPI and one QSPI flash interfaces
    • or one HyperBus™ and one QSPI flash interface

    System-on-Chip (SoC) architecture:

  • 16-nm FinFET technology
  • 24 mm × 24 mm, 0.8-mm pitch, 827-pin FCBGA (ALF), enables IPC class 3 PCB routing

    TPS6594-Q1 Companion Power Management ICs (PMIC):

  • Functional Safety support up to ASIL-D
  • Flexible mapping to support different use cases

DRA829 processors, based on the Arm®v8 64-bit architecture, provide advanced system integration to enable lower system costs of automotive and industrial applications. The integrated diagnostics and functional safety features are targeted to ASIL-B/C or SIL-2 certification/requirements. The integrated microcontroller (MCU) island eliminates the need for an external system MCU. The device features a Gigabit Ethernet switch and a PCIe hub which enables networking use cases that require heavy data bandwidth. Up to four Arm Cortex-R5F subsystems manage low level, timing critical processing tasks leaving the Arm Cortex-A72’s unencumbered for applications. A dual-core cluster configuration of Arm Cortex-A72 facilitates multi-OS applications with minimal need for a software hypervisor.

DRA829 processors, based on the Arm®v8 64-bit architecture, provide advanced system integration to enable lower system costs of automotive and industrial applications. The integrated diagnostics and functional safety features are targeted to ASIL-B/C or SIL-2 certification/requirements. The integrated microcontroller (MCU) island eliminates the need for an external system MCU. The device features a Gigabit Ethernet switch and a PCIe hub which enables networking use cases that require heavy data bandwidth. Up to four Arm Cortex-R5F subsystems manage low level, timing critical processing tasks leaving the Arm Cortex-A72’s unencumbered for applications. A dual-core cluster configuration of Arm Cortex-A72 facilitates multi-OS applications with minimal need for a software hypervisor.
filter Andere Netzwerk-SoCs für die Automobilindustrie suchen
Herunterladen Video mit Transkript ansehen Video

Technische Dokumentation

star =Von TI ausgewählte Top-Empfehlungen für dieses Produkt
Keine Ergebnisse gefunden. Bitte geben Sie einen anderen Begriff ein und versuchen Sie es erneut.
Alle anzeigen 43
Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet DRA829 Processors datasheet (Rev. K) PDF | HTML 22 Apr 2024
* Errata J721E DRA829/TDA4VM Processors Silicon Revision 2.0/1.1/1.0 (Rev. F) PDF | HTML 26 Feb 2025
* User guide J721E DRA829/TDA4VM Processors Silicon Revision 2.0, 1.1 Technical Reference Manual (Rev. D) PDF | HTML 16 Jan 2025
Application note Boot Flow Options on TDA4 Devices PDF | HTML 05 Jan 2026
Functional safety information J721E, J721S2, J7200, J784S4, and J742S2 TÜV SÜD Letter of Confirmation for Software Component Qualification 01 Okt 2025
Functional safety information J7200, J721E, J721S2, J722S, J742S2, and J784S4 SDL TÜV SÜD Functional Safety Certificate (Rev. A) 25 Sep 2025
Functional safety information J721E, J721S2, J7200, J722S, J742S2, J784S4 MCAL TÜV SÜD Functional Safety Certificate (Rev. A) 25 Sep 2025
Functional safety information DRA829/TDA4VM TÜV SÜD Functional Safety Certificate - Automotive - PG2.0 (Rev. A) 28 Aug 2025
Functional safety information DRA829/TDA4VM TÜV SÜD Functional Safety Report - Automotive - PG2.0 (Rev. A) 28 Aug 2025
Functional safety information TÜV SÜD Certificate for Functional Safety Software Development Process (Rev. D) 17 Jun 2025
White paper Securing Arm-Based Application Processors (Rev. F) PDF | HTML 26 Feb 2025
Application note Jacinto 7 LPDDR4 Board Design and Layout Guidelines (Rev. F) PDF | HTML 05 Aug 2024
Application note Debugging GPU Driver Issues on TDA4x and AM6x Devices PDF | HTML 20 Jun 2024
Application note Jacinto7 AM6x, TDA4x, and DRA8x High-Speed Interface Design Guidelines (Rev. A) PDF | HTML 04 Jun 2024
Application note MMC SW Tuning Algorithm (Rev. A) PDF | HTML 14 Mai 2024
Application note Jacinto7 AM6x/TDA4x/DRA8x Schematic Checklist (Rev. B) PDF | HTML 04 Apr 2024
Application note Jacinto7 HS Device Customer Return Process PDF | HTML 16 Nov 2023
Application note Using TSN Ethernet Features to Improve Timing in Industrial Ethernet Controllers PDF | HTML 15 Nov 2023
More literature Jacinto 7 EVM Quick Start Guide for TDA4VM and DRA829V Processors (Rev. A) PDF | HTML 09 Aug 2023
Application note Understanding TDA4VM or DRA829 Memory for Optimal Performance PDF | HTML 14 Jun 2023
Application note UART Log Debug System on Jacinto 7 SoC PDF | HTML 09 Jan 2023
Functional safety information Jacinto Functional Safety Enablers (Rev. A) PDF | HTML 12 Dez 2022
Product overview Jacinto™ 7 Safety Product Overview PDF | HTML 15 Aug 2022
Certificate J721E SDL TUV Certification 08 Aug 2022
Application note Proof of Concept Enablement for Jacinto TDA4VM OpenVx Host on R5F MCU2_0 PDF | HTML 25 Jul 2022
Application note Dual-TDA4x System Solution PDF | HTML 29 Apr 2022
Application note SPI Enablement & Validation on TDA4 Family PDF | HTML 05 Apr 2022
User guide TPS65941213-Q1 and LP876411B4-Q1 PMIC User Guide for J721E, PDN-1A PDF | HTML 02 Feb 2022
User guide TPS65941212-Q1 and TPS65941111-Q1 PMIC User Guide for J721E, PDN-0B (Rev. B) PDF | HTML 31 Jan 2022
Technical article How to simplify your embedded edge AI application development PDF | HTML 28 Jan 2022
Application note Enabling MAC2MAC Feature on Jacinto7 Soc 10 Jan 2022
More literature Jacinto™ 7 automotive processors 14 Dez 2021
Application note Jacinto 7 Display Subsystem Overview PDF | HTML 10 Dez 2021
Application note Jacinto 7 Thermal Management Guide - Software Strategies PDF | HTML 10 Dez 2021
Functional safety information Leverage Jacinto 7 Processors Functional Safety Features for Automotive Designs (Rev. A) PDF | HTML 13 Okt 2021
Application note TDA4 Flashing Techniques PDF | HTML 08 Jul 2021
Application note Jacinto 7 Camera Capture and Imaging Subsystem PDF | HTML 07 Jul 2021
Application note J721E DDR Firewall Example PDF | HTML 01 Jul 2021
White paper Sicherheitsaktivierung auf Jacinto™ 7-Prozessoren 04 Jan 2021
White paper Differenzierungsmöglichkeit durch MCU-Integration Prozessoren der Reihe Jacinto™ 22 Okt 2020
White paper Evolving automotive gateways for next-generation vehicles (Rev. B) 09 Okt 2020
Application note OSPI Tuning Procedure PDF | HTML 08 Jul 2020
Technical article Making ADAS technology more accessible in vehicles PDF | HTML 07 Jan 2020

Design und Entwicklung

Weitere Bedingungen oder erforderliche Ressourcen enthält gegebenenfalls die Detailseite, die Sie durch Klicken auf einen der unten stehenden Titel erreichen.

Evaluierungsplatine

J721EXCPXEVM — Gemeinsame Prozessorplatine für Jacinto™ 7-Prozessoren

Mit der gemeinsame Prozessorplatine J721EXCP01EVM für Jacinto™ 7-Prozessoren können Sie Bildverarbeitungs-, Analyse- und Netzwerkanwendungen im Automobil- und Industriebereich prüfen. Die gemeinsame Prozessorplatine ist kompatibel mit allen Jacinto 7-SoM-Prozessoren (System-on-Modules) – einzeln (...)

Benutzerhandbuch: PDF | HTML
Nicht verfügbar auf TI.com
Evaluierungsplatine

J721EXSOMXEVM — TDA4VM- und DRA829V-Stecksystem auf Modul (SoM)

Das J721EXSOMXEVM-Steck-System-on-Module (SoM), in Verbindung mit der gemeinsamen Prozessorplatine J721EXPCP01EVM, dient zur Evaluierung von TDA4VM- und DRA829V-Prozessoren in Bildanalytik- und Netzwerkanwendungen in den Automobil- und Industriemärkten. Diese Prozessoren eignen sich besonders gut (...)

Benutzerhandbuch: PDF | HTML
View Options
Evaluierungsplatine

J7EXPCXEVM — Gateway-/Ethernet-Switch-Erweiterungskarte

Expand the capabilities of the J721EXCP01EVM common processor board for evaluating Jacinto 7 processors in vision analytics and networking applications in automotive and industrial markets with our Gateway/Ethernet switch expansion card.

Benutzerhandbuch: PDF | HTML
Nicht verfügbar auf TI.com
Evaluierungsplatine

J7EXPEXEVM — Audio- und Display-Erweiterungskarte

Expand the capabilities of the J721EXCP01EVM common processor board for evaluating Jacinto 7 processors in vision analytics and networking applications in automotive and industrial markets with our audio and display expansion card.
Benutzerhandbuch: PDF | HTML
Nicht verfügbar auf TI.com
Debug-Tastkopf

TMDSEMU560V2STM-U — XDS560v2 System-Trace-USB-Debug-Tastkopf

Der XDS560v2 ist die leistungsstärkste Debug-Sonde aus der XDS560™ Familie von Debug-Sonden und unterstützt sowohl den traditionellen JTAG-Standard (IEEE1149.1) als auch cJTAG (IEEE1149.7).  Bitte beachten: Diese Lösung unterstützt kein Serial Wire Debug (SWD).

Alle XDS-Debug-Tastköpfe unterstützen (...)

Nicht verfügbar auf TI.com
Debug-Tastkopf

LB-3P-TRACE32-ARM — Debug- und Trace-System Lauterbach TRACE32® für Arm®-basierte Mikrocontroller und Prozessoren

Die TRACE32®-Tools von Lauterbach sind eine Suite hochmoderner Hardware- und Softwarekomponenten, mit denen Entwickler alle Arten von Arm®-basierten Mikrocontrollern und Prozessoren analysieren, optimieren und zertifizieren können. Die weltweit anerkannten Debugging- und Trace-Lösungen für (...)

Von: Lauterbach GmbH
View Options
Software-Entwicklungskit (SDK)

PROCESSOR-SDK-LINUX-J721E Linux SDK for DRA829 & TDA4VM Jacinto™ Processors

Processor SDK RTOS (PSDK RTOS) can be used together with either Processor SDK Linux (PSDK Linux) or Processor SDK QNX (PSDK QNX) to form a multi-processor software development platform for TDA4VM and DRA829 SoCs within TI’s Jacinto™ platform. The SDK provides a comprehensive (...)

Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Download-Optionen
Software-Entwicklungskit (SDK)

PROCESSOR-SDK-LINUX-RT-J721E Linux-RT SDK for DRA829 & TDA4VM Jacinto™ Processors

Processor SDK RTOS (PSDK RTOS) can be used together with either Processor SDK Linux (PSDK Linux) or Processor SDK QNX (PSDK QNX) to form a multi-processor software development platform for TDA4VM and DRA829 SoCs within TI’s Jacinto™ platform. The SDK provides a comprehensive (...)

Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Download-Optionen
Software-Entwicklungskit (SDK)

PROCESSOR-SDK-LINUX-SK-TDA4VM Linux SDK for edge AI applications on TDA4VM Jacinto™ processors

Processor SDK RTOS (PSDK RTOS) can be used together with either Processor SDK Linux (PSDK Linux) or Processor SDK QNX (PSDK QNX) to form a multi-processor software development platform for TDA4VM and DRA829 SoCs within TI’s Jacinto™ platform. The SDK provides a comprehensive (...)

Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Download-Optionen
Software-Entwicklungskit (SDK)

PROCESSOR-SDK-QNX-J721E QNX SDK for DRA829 & TDA4VM Jacinto™ Processors

Processor SDK RTOS (PSDK RTOS) can be used together with either Processor SDK Linux (PSDK Linux) or Processor SDK QNX (PSDK QNX) to form a multi-processor software development platform for TDA4VM and DRA829 SoCs within TI’s Jacinto™ platform. The SDK provides a comprehensive (...)

Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Download-Optionen
Software-Entwicklungskit (SDK)

PROCESSOR-SDK-RTOS-J721E RTOS SDK for DRA829 & TDA4VM Jacinto™ Processors

Processor SDK RTOS (PSDK RTOS) can be used together with either Processor SDK Linux (PSDK Linux) or Processor SDK QNX (PSDK QNX) to form a multi-processor software development platform for TDA4VM and DRA829 SoCs within TI’s Jacinto™ platform. The SDK provides a comprehensive (...)

Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Download-Optionen
Treiber oder Bibliothek

WIND-3P-VXWORKS-LINUX-OS — Wind-River-Prozessoren VxWorks und Linux-Betriebssysteme

Wind River is a global leader in delivering software for the Internet of Things (IoT). The company’s technology has been powering the safest, most secure devices in the world since 1981 and today is found in more than 2 billion products. Wind River offers a comprehensive edge-to-cloud product (...)
Von: Wind River Systems
Partner-Website besuchen
IDE, Konfiguration, Compiler oder Debugger

CCSTUDIO — Integrierte Entwicklungsumgebung (IDE) Code Composer Studio™

Code Composer Studio ist eine integrierte Entwicklungsumgebung (Integrated Development Environment, IDE) für die Mikrocontroller und Prozessoren von TI. Sie besteht aus einer umfangreichen Suite von Tools zum Erstellen, Debuggen, Analysieren und Optimieren von integrierten Anwendungen. Code (...)
Benutzerhandbuch: PDF | HTML
View Options
IDE, Konfiguration, Compiler oder Debugger

DDR-CONFIG-J721E DDR Configuration Tool

This SysConfig based tool simplifies the process of configuring the DDR Subsystem Controller and PHY to interface to SDRAM devices. Based on the memory device, board design, and topology the tool outputs files to initialize and train the selected memory.
Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Start
IDE, Konfiguration, Compiler oder Debugger

SYSCONFIG Standalone desktop version of SysConfig

SysConfig is a configuration tool designed to simplify hardware and software configuration challenges to accelerate software development.

SysConfig is available as part of the Code Composer Studio™ integrated development environment as well as a standalone application. Additionally SysConfig (...)

Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware
Start Download-Optionen
Betriebssystem (BS)

GHS-3P-INTEGRITY-RTOS — Green Hills INTEGRITY RTOS

The flagship of Green Hills Software operating systems—the INTEGRITY RTOS—is built around a partitioning architecture to provide embedded systems with total reliability, absolute security, and maximum real-time performance. With its leadership pedigree underscored by certifications in a (...)
Von: Green Hills Software
Partner-Website besuchen
Betriebssystem (BS)

QNX-3P-NEUTRINO-RTOS — QNX Neutrino RTOS

Das QNX Neutrino® Realtime Operating System (RTOS) ist ein voll ausgestattetes und robustes RTOS, das die nächste Generation von Produkten für eingebettete Systeme in den Bereichen Automobilindustrie, Medizintechnik, Transport, Militär und Industrie ermöglicht. Das Mikrokernel-Design und die (...)
Von: QNX Software Systems
Partner-Website besuchen
Support-Software

VCTR-3P-MICROSAR — Vector MICROSAR AUTOSAR-Software für Mikrocontroller und Hochleistungscomputer (HPCs)

Die MICROSAR- und DaVinci-Produktfamilien vereinfachen die Steuergeräte-Entwicklung mit ausgefeilter Embedded-Software und leistungsstarken Entwicklungswerkzeugen für Mikrocontroller und HPCs. Mit fortschrittlicher Infrastruktursoftware schaffen Sie eine optimale Basis für Ihre Steuergeräte und (...)
Von: Vector Informatik GmbH
View Options
Simulationsmodell

DRA829 and TDA4VM BSDL File

SPRM751.ZIP (14 KB) - BSDL Model
Herunterladen
Simulationsmodell

DRA829 and TDA4VM IBIS File

SPRM752.ZIP (1983 KB) - IBIS Model
Herunterladen
Simulationsmodell

DRA829 and TDA4VM Thermal Model

SPRM753.ZIP (1 KB) - Thermal Model
Herunterladen
Gehäuse Pins CAD-Symbole, Footprints und 3D-Modelle
FCBGA (ALF) 827 Ultra Librarian
Es gelten die allgemeinen Geschäftsbedingungen von TI für Evaluierungsartikel.

Bestellen & Qualität

Beinhaltete Information:
  • RoHS
  • REACH
  • Bausteinkennzeichnung
  • Blei-Finish/Ball-Material
  • MSL-Rating / Spitzenrückfluss
  • MTBF-/FIT-Schätzungen
  • Materialinhalt
  • Qualifikationszusammenfassung
  • Kontinuierliches Zuverlässigkeitsmonitoring
Beinhaltete Information:
  • Werksstandort
  • Montagestandort

Empfohlene Produkte können Parameter, Evaluierungsmodule oder Referenzdesigns zu diesem TI-Produkt beinhalten.

Support und Schulungen

TI E2E™-Foren mit technischem Support von TI-Ingenieuren

Alle Forenthemen auf Englisch anzeigen

Inhalte werden ohne Gewähr von TI und der Community bereitgestellt. Sie stellen keine Spezifikationen von TI dar. Siehe Nutzungsbedingungen.

Bei Fragen zu den Themen Qualität, Gehäuse oder Bestellung von TI-Produkten siehe TI-Support. ​​​​​​​​​​​​​​

Videos