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AM4377

AKTIV

Sitara-Prozessor: Arm Cortex-A9, PRU-ICSS, EtherCAT

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AM4377

AKTIV
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CPU 1 Arm Cortex-A9 Frequency (MHz) 800, 1000 Display type 1 LCD Protocols EtherCAT, EtherNet/IP, Ethernet, Profibus, Profinet, Sercos Hardware accelerators CPU only, Industrial communications subsystem, Programable real-time unit, Security Accelerator Features General purpose, Networking Operating system Linux, RTOS Security Cryptographic acceleration, Hardware-enforced isolation, Secure boot, Secure debug Rating Catalog Power supply solution TPS65216, TPS65218D0 Operating temperature range (°C) -40 to 105 Edge AI enabled Yes
CPU 1 Arm Cortex-A9 Frequency (MHz) 800, 1000 Display type 1 LCD Protocols EtherCAT, EtherNet/IP, Ethernet, Profibus, Profinet, Sercos Hardware accelerators CPU only, Industrial communications subsystem, Programable real-time unit, Security Accelerator Features General purpose, Networking Operating system Linux, RTOS Security Cryptographic acceleration, Hardware-enforced isolation, Secure boot, Secure debug Rating Catalog Power supply solution TPS65216, TPS65218D0 Operating temperature range (°C) -40 to 105 Edge AI enabled Yes
NFBGA (ZDN) 491 289 mm² 17 x 17
  • Highlights
    • Sitara™ ARM® Cortex®-A9 32-Bit RISC Processor With Processing Speed up to 1000 MHz
      • NEON™ SIMD Coprocessor and Vector Floating Point (VFPv3) Coprocessor
      • 32KB of Both L1 Instruction and Data Cache
      • 256KB of L2 Cache or L3 RAM
    • 32-Bit LPDDR2, DDR3, and DDR3L Support
    • General-Purpose Memory Support (NAND, NOR, SRAM) Supporting up to 16-Bit ECC
    • SGX530 Graphics Engine
    • Display Subsystem
    • Programmable Real-Time Unit Subsystem and Industrial Communication Subsystem (PRU-ICSS)
    • Real-Time Clock (RTC)
    • Up to Two USB 2.0 High-Speed Dual-Role (Host or Device) Ports With Integrated PHY
    • 10, 100, and 1000 Ethernet Switch Supporting up to Two Ports
    • Serial Interfaces:
      • Two Controller Area Network (CAN) Ports
      • Six UARTs, Two McASPs, Five McSPIs, Three I2C Ports, One QSPI, and One HDQ or 1-Wire
    • Security
      • Crypto Hardware Accelerators (AES, SHA, RNG, DES, and 3DES)
      • Secure Boot (Avaliable Only on AM437x High-Security [AM437xHS] Devices)
    • Two 12-Bit Successive Approximation Register (SAR) ADCs
    • Up to Three 32-Bit Enhanced Capture (eCAP) Modules
    • Up to Three Enhanced Quadrature Encoder Pulse (eQEP) Modules
    • Up to Six Enhanced High-Resolution PWM (eHRPWM) Modules
  • MPU Subsystem
    • ARM Cortex-A9 32-Bit RISC Microprocessor With Processing Speed up to 1000 MHz
    • 32KB of Both L1 Instruction and Data Cache
    • 256KB of L2 Cache (Option to Configure as L3 RAM)
    • 256KB of On-Chip Boot ROM
    • 64KB of On-Chip RAM
    • Secure Control Module (SCM) (Avaliable Only on AM437xHS Devices)
    • Emulation and Debug
      • JTAG
      • Embedded Trace Buffer
    • Interrupt Controller
  • On-Chip Memory (Shared L3 RAM)
    • 256KB of General-Purpose On-Chip Memory Controller (OCMC) RAM
    • Accessible to All Masters
    • Supports Retention for Fast Wakeup
    • Up to 512KB of Total Internal RAM
      (256KB of ARM Memory Configured as L3 RAM + 256KB of OCMC RAM)
  • External Memory Interfaces (EMIFs)
    • DDR Controllers:
      • LPDDR2: 266-MHz Clock (LPDDR2-533 Data Rate)
      • DDR3 and DDR3L: 400-MHz Clock (DDR-800 Data Rate)
      • 32-Bit Data Bus
      • 2GB of Total Addressable Space
      • Supports One x32, Two x16, or Four x8 Memory Device Configurations
  • General-Purpose Memory Controller (GPMC)
    • Flexible 8- and 16-Bit Asynchronous Memory Interface With up to Seven Chip Selects (NAND, NOR, Muxed-NOR, and SRAM)
    • Uses BCH Code to Support 4-, 8-, or 16-Bit ECC
    • Uses Hamming Code to Support 1-Bit ECC
  • Error Locator Module (ELM)
    • Used With the GPMC to Locate Addresses of Data Errors From Syndrome Polynomials Generated Using a BCH Algorithm
    • Supports 4-, 8-, and 16-Bit Per 512-Byte Block Error Location Based on BCH Algorithms
  • Programmable Real-Time Unit Subsystem and Industrial Communication Subsystem (PRU-ICSS)
    • Supports Protocols such as EtherCAT®, PROFIBUS®, PROFINET®, and EtherNet/IP™, EnDat 2.2, and More
    • Two Programmable Real-Time Units (PRUs) Subsystems With Two PRU Cores Each
      • Each Core is a 32-Bit Load and Store RISC Processor Capable of Running at 200 MHz
      • 12KB (PRU-ICSS1), 4KB (PRU-ICSS0) of Instruction RAM With Single-Error Detection (Parity)
      • 8KB (PRU-ICSS1), 4KB (PRU-ICSS0) of Data RAM With Single-Error Detection (Parity)
      • Single-Cycle 32-Bit Multiplier With 64-Bit Accumulator
      • Enhanced GPIO Module Provides Shift-In and Shift-Out Support and Parallel Latch on External Signal
    • 12KB (PRU-ICSS1 Only) of Shared RAM With Single-Error Detection (Parity)
    • Three 120-Byte Register Banks Accessible by Each PRU
    • Interrupt Controller Module (INTC) for Handling System Input Events
    • Local Interconnect Bus for Connecting Internal and External Masters to the Resources Inside the PRU-ICSS
    • Peripherals Inside the PRU-ICSS
      • One UART Port With Flow Control Pins, Supports up to 12 Mbps
      • One eCAP Module
      • Two MII Ethernet Ports that Support Industrial Ethernet, such as EtherCAT
      • One MDIO Port
    • Industrial Communication is Supported by Two PRU-ICSS Subsystems
  • Power, Reset, and Clock Management (PRCM) Module
    • Controls the Entry and Exit of Deep-Sleep Modes
    • Responsible for Sleep Sequencing, Power Domain Switch-Off Sequencing, Wake-Up Sequencing, and Power Domain Switch-On Sequencing
    • Clocks
      • Integrated High-Frequency Oscillator Used to Generate a Reference Clock (19.2, 24, 25, and 26 MHz) for Various System and Peripheral Clocks
      • Supports Individual Clock Enable and Disable Control for Subsystems and Peripherals to Facilitate Reduced Power Consumption
      • Five ADPLLs to Generate System Clocks (MPU Subsystem, DDR Interface, USB, and Peripherals [MMC and SD, UART, SPI, I2C], L3, L4, Ethernet, GFX [SGX530], and LCD Pixel Clock)
    • Power
      • Two Nonswitchable Power Domains (RTC and Wake-Up Logic [WAKE-UP])
      • Three Switchable Power Domains (MPU Subsystem, SGX530 [GFX], Peripherals and Infrastructure [PER])
      • Dynamic Voltage Frequency Scaling (DVFS)
  • Real-Time Clock (RTC)
    • Real-Time Date (Day, Month, Year, and Day of Week) and Time (Hours, Minutes, and Seconds) Information
    • Internal 32.768-kHz Oscillator, RTC Logic, and 1.1-V Internal LDO
    • Independent Power-On-Reset (RTC_PWRONRSTn) Input
    • Dedicated Input Pin (RTC_WAKEUP) for External Wake Events
    • Programmable Alarm Can Generate Internal Interrupts to the PRCM for Wakeup or Cortex-A9 for Event Notification
    • Programmable Alarm Can Be Used With External Output (RTC_PMIC_EN) to Enable the Power-Management IC to Restore Non-RTC Power Domains
  • Peripherals
    • Up to Two USB 2.0 High-Speed Dual-Role (Host or Device) Ports With Integrated PHY
    • Up to Two Industrial Gigabit Ethernet MACs
      (10, 100, and 1000 Mbps)
      • Integrated Switch
      • Each MAC Supports MII, RMII, and RGMII and MDIO Interfaces
      • Ethernet MACs and Switch Can Operate Independent of Other Functions
      • IEEE 1588v2 Precision Time Protocol (PTP)
    • Up to Two CAN Ports
      • Supports CAN Version 2 Parts A and B
    • Up to Two Multichannel Audio Serial Ports (McASPs)
      • Transmit and Receive Clocks up to 50 MHz
      • Up to Four Serial Data Pins Per McASP Port With Independent TX and RX Clocks
      • Supports Time Division Multiplexing (TDM), Inter-IC Sound (I2S), and Similar Formats
      • Supports Digital Audio Interface Transmission (SPDIF, IEC60958-1, and AES-3 Formats)
      • FIFO Buffers for Transmit and Receive (256 Bytes)
    • Up to Six UARTs
      • All UARTs Support IrDA and CIR Modes
      • All UARTs Support RTS and CTS Flow Control
      • UART1 Supports Full Modem Control
    • Up to Five Master and Slave McSPIs
      • McSPI0–McSPI2 Support up to Four Chip Selects
      • McSPI3 and McSPI4 Support up to Two Chip Selects
      • Up to 48 MHz
    • One Quad-SPI
      • Supports eXecute In Place (XIP) from Serial NOR FLASH
    • One Dallas 1-Wire® and HDQ Serial Interface
    • Up to Three MMC, SD, and SDIO Ports
      • 1-, 4-, and 8-Bit MMC, SD, and SDIO Modes
      • 1.8- or 3.3-V Operation on All Ports
      • Up to 48-MHz Clock
      • Supports Card Detect and Write Protect
      • Complies With MMC4.3 and SD and SDIO 2.0 Specifications
    • Up to Three I2C Master and Slave Interfaces
      • Standard Mode (up to 100 kHz)
      • Fast Mode (up to 400 kHz)
    • Up to Six Banks of General-Purpose I/O (GPIO)
      • 32 GPIOs per Bank (Multiplexed With Other Functional Pins)
      • GPIOs Can be Used as Interrupt Inputs (up to Two Interrupt Inputs per Bank)
    • Up to Three External DMA Event Inputs That Can Also be Used as Interrupt Inputs
    • Twelve 32-Bit General-Purpose Timers
      • DMTIMER1 is a 1-ms Timer Used for Operating System (OS) Ticks
      • DMTIMER4–DMTIMER7 are Pinned Out
    • One Public Watchdog Timer
    • One Free-Running, High-Resolution 32-kHz Counter (synctimer32K)
    • One Secure Watchdog Timer (Avaliable Only on AM437xHS Devices)
    • SGX530 3D Graphics Engine
      • Tile-Based Architecture Delivering up to 20M Poly/sec
      • Universal Scalable Shader Engine is a Multithreaded Engine Incorporating Pixel and Vertex Shader Functionality
      • Advanced Shader Feature Set in Excess of Microsoft VS3.0, PS3.0, and OGL2.0
      • Industry Standard API Support of Direct3D Mobile, OGL-ES 1.1 and 2.0
      • Fine-Grained Task Switching, Load Balancing, and Power Management
      • Advanced Geometry DMA-Driven Operation for Minimum CPU Interaction
      • Programmable High-Quality Image Anti-Aliasing
      • Fully Virtualized Memory Addressing for OS Operation in a Unified Memory Architecture
    • Display Subsystem
      • Display Modes
        • Programmable Pixel Memory Formats (Palletized: 1-, 2-, 4-, and 8-Bits Per Pixel; RGB 16- and 24-Bits Per Pixel; and YUV 4:2:2)
        • 256- × 24-Bit Entries Palette in RGB
        • Up to 2048 × 2048 Resolution
      • Display Support
        • Four Types of Displays Are Supported: Passive and Active Colors; Passive and Active Monochromes
        • 4- and 8-Bit Monochrome Passive Panel Interface Support (15 Grayscale Levels Supported Using Dithering Block)
        • RGB 8-Bit Color Passive Panel Interface Support (3,375 Colors Supported for Color Panel Using Dithering Block)
        • RGB 12-, 16-, 18-, and 24-Bit Active Panel Interface Support (Replicated or Dithered Encoded Pixel Values)
        • Remote Frame Buffer (Embedded in the LCD Panel) Support Through the RFBI Module
        • Partial Refresh of the Remote Frame Buffer Through the RFBI Module
        • Partial Display
        • Multiple Cycles Output Format on 8-, 9-, 12-, and 16-Bit Interface (TDM)
      • Signal Processing
        • Overlay and Windowing Support for One Graphics Layer (RGB or CLUT) and Two Video Layers (YUV 4:2:2, RGB16, and RGB24)
        • RGB 24-Bit Support on the Display Interface, Optionally Dithered to RGB 18‑Bit Pixel Output Plus 6-Bit Frame Rate Control (Spatial and Temporal)
        • Transparency Color Key (Source and Destination)
        • Synchronized Buffer Update
        • Gamma Curve Support
        • Multiple-Buffer Support
        • Cropping Support
        • Color Phase Rotation
    • Two 12-Bit SAR ADCs (ADC0, ADC1)
      • 867K Samples Per Second
      • Input Can Be Selected from Any of the Eight Analog Inputs Multiplexed Through an 8:1 Analog Switch
      • ADC0 Can Be Configured to Operate as a 4‑, 5-, or 8-Wire Resistive Touch Screen Controller (TSC)
    • Up to Three 32-Bit eCAP Modules
      • Configurable as Three Capture Inputs or Three Auxiliary PWM Outputs
    • Up to Six Enhanced eHRPWM Modules
      • Dedicated 16-Bit Time-Base Counter With Time and Frequency Controls
      • Configurable as Six Single-Ended, Six Dual-Edge Symmetric, or Three Dual-Edge Asymmetric Outputs
    • Up to Three 32-Bit eQEP Modules
  • Device Identification
    • Factory Programmable Electrical Fuse Farm (FuseFarm)
      • Production ID
      • Device Part Number (Unique JTAG ID)
      • Device Revision (Readable by Host ARM)
      • Security Keys (Avaliable Only on AM437xHS Devices)
      • Feature Identification
  • Debug Interface Support
    • JTAG and cJTAG for ARM (Cortex-A9 and PRCM) and PRU-ICSS Debug
    • Supports Real-Time Trace Pins (for Cortex-A9)
    • 64-KB Embedded Trace Buffer (ETB)
    • Supports Device Boundary Scan
    • Supports IEEE 1500
  • DMA
    • On-Chip Enhanced DMA Controller (EDMA) Has Three Third-Party Transfer Controllers (TPTCs) and One Third-Party Channel Controller (TPCC), Which Supports up to 64 Programmable Logical Channels and Eight QDMA Channels
    • EDMA is Used for:
      • Transfers to and from On-Chip Memories
      • Transfers to and from External Storage (EMIF, GPMC, and Slave Peripherals)
  • InterProcessor Communication (IPC)
    • Integrates Hardware-Based Mailbox for IPC and Spinlock for Process Synchronization Between the Cortex-A9, PRCM, and PRU-ICSS
  • Boot Modes
    • Boot Mode is Selected Through Boot Configuration Pins Latched on the Rising Edge of the PWRONRSTn Reset Input Pin
  • Camera
    • Dual Port 8- and 10-Bit BT656 Interface
    • Dual Port 8- and 10-Bit Including External Syncs
    • Single Port 12-Bit
    • YUV422/RGB422 and BT656 Input Format
    • RAW Format
    • Pixel Clock Rate up to 75 MHz
  • Package
    • 491-Pin BGA Package (17-mm × 17-mm) (ZDN Suffix), 0.65-mm Ball Pitch With Via Channel Array Technology to Enable Low-Cost Routing
  • Highlights
    • Sitara™ ARM® Cortex®-A9 32-Bit RISC Processor With Processing Speed up to 1000 MHz
      • NEON™ SIMD Coprocessor and Vector Floating Point (VFPv3) Coprocessor
      • 32KB of Both L1 Instruction and Data Cache
      • 256KB of L2 Cache or L3 RAM
    • 32-Bit LPDDR2, DDR3, and DDR3L Support
    • General-Purpose Memory Support (NAND, NOR, SRAM) Supporting up to 16-Bit ECC
    • SGX530 Graphics Engine
    • Display Subsystem
    • Programmable Real-Time Unit Subsystem and Industrial Communication Subsystem (PRU-ICSS)
    • Real-Time Clock (RTC)
    • Up to Two USB 2.0 High-Speed Dual-Role (Host or Device) Ports With Integrated PHY
    • 10, 100, and 1000 Ethernet Switch Supporting up to Two Ports
    • Serial Interfaces:
      • Two Controller Area Network (CAN) Ports
      • Six UARTs, Two McASPs, Five McSPIs, Three I2C Ports, One QSPI, and One HDQ or 1-Wire
    • Security
      • Crypto Hardware Accelerators (AES, SHA, RNG, DES, and 3DES)
      • Secure Boot (Avaliable Only on AM437x High-Security [AM437xHS] Devices)
    • Two 12-Bit Successive Approximation Register (SAR) ADCs
    • Up to Three 32-Bit Enhanced Capture (eCAP) Modules
    • Up to Three Enhanced Quadrature Encoder Pulse (eQEP) Modules
    • Up to Six Enhanced High-Resolution PWM (eHRPWM) Modules
  • MPU Subsystem
    • ARM Cortex-A9 32-Bit RISC Microprocessor With Processing Speed up to 1000 MHz
    • 32KB of Both L1 Instruction and Data Cache
    • 256KB of L2 Cache (Option to Configure as L3 RAM)
    • 256KB of On-Chip Boot ROM
    • 64KB of On-Chip RAM
    • Secure Control Module (SCM) (Avaliable Only on AM437xHS Devices)
    • Emulation and Debug
      • JTAG
      • Embedded Trace Buffer
    • Interrupt Controller
  • On-Chip Memory (Shared L3 RAM)
    • 256KB of General-Purpose On-Chip Memory Controller (OCMC) RAM
    • Accessible to All Masters
    • Supports Retention for Fast Wakeup
    • Up to 512KB of Total Internal RAM
      (256KB of ARM Memory Configured as L3 RAM + 256KB of OCMC RAM)
  • External Memory Interfaces (EMIFs)
    • DDR Controllers:
      • LPDDR2: 266-MHz Clock (LPDDR2-533 Data Rate)
      • DDR3 and DDR3L: 400-MHz Clock (DDR-800 Data Rate)
      • 32-Bit Data Bus
      • 2GB of Total Addressable Space
      • Supports One x32, Two x16, or Four x8 Memory Device Configurations
  • General-Purpose Memory Controller (GPMC)
    • Flexible 8- and 16-Bit Asynchronous Memory Interface With up to Seven Chip Selects (NAND, NOR, Muxed-NOR, and SRAM)
    • Uses BCH Code to Support 4-, 8-, or 16-Bit ECC
    • Uses Hamming Code to Support 1-Bit ECC
  • Error Locator Module (ELM)
    • Used With the GPMC to Locate Addresses of Data Errors From Syndrome Polynomials Generated Using a BCH Algorithm
    • Supports 4-, 8-, and 16-Bit Per 512-Byte Block Error Location Based on BCH Algorithms
  • Programmable Real-Time Unit Subsystem and Industrial Communication Subsystem (PRU-ICSS)
    • Supports Protocols such as EtherCAT®, PROFIBUS®, PROFINET®, and EtherNet/IP™, EnDat 2.2, and More
    • Two Programmable Real-Time Units (PRUs) Subsystems With Two PRU Cores Each
      • Each Core is a 32-Bit Load and Store RISC Processor Capable of Running at 200 MHz
      • 12KB (PRU-ICSS1), 4KB (PRU-ICSS0) of Instruction RAM With Single-Error Detection (Parity)
      • 8KB (PRU-ICSS1), 4KB (PRU-ICSS0) of Data RAM With Single-Error Detection (Parity)
      • Single-Cycle 32-Bit Multiplier With 64-Bit Accumulator
      • Enhanced GPIO Module Provides Shift-In and Shift-Out Support and Parallel Latch on External Signal
    • 12KB (PRU-ICSS1 Only) of Shared RAM With Single-Error Detection (Parity)
    • Three 120-Byte Register Banks Accessible by Each PRU
    • Interrupt Controller Module (INTC) for Handling System Input Events
    • Local Interconnect Bus for Connecting Internal and External Masters to the Resources Inside the PRU-ICSS
    • Peripherals Inside the PRU-ICSS
      • One UART Port With Flow Control Pins, Supports up to 12 Mbps
      • One eCAP Module
      • Two MII Ethernet Ports that Support Industrial Ethernet, such as EtherCAT
      • One MDIO Port
    • Industrial Communication is Supported by Two PRU-ICSS Subsystems
  • Power, Reset, and Clock Management (PRCM) Module
    • Controls the Entry and Exit of Deep-Sleep Modes
    • Responsible for Sleep Sequencing, Power Domain Switch-Off Sequencing, Wake-Up Sequencing, and Power Domain Switch-On Sequencing
    • Clocks
      • Integrated High-Frequency Oscillator Used to Generate a Reference Clock (19.2, 24, 25, and 26 MHz) for Various System and Peripheral Clocks
      • Supports Individual Clock Enable and Disable Control for Subsystems and Peripherals to Facilitate Reduced Power Consumption
      • Five ADPLLs to Generate System Clocks (MPU Subsystem, DDR Interface, USB, and Peripherals [MMC and SD, UART, SPI, I2C], L3, L4, Ethernet, GFX [SGX530], and LCD Pixel Clock)
    • Power
      • Two Nonswitchable Power Domains (RTC and Wake-Up Logic [WAKE-UP])
      • Three Switchable Power Domains (MPU Subsystem, SGX530 [GFX], Peripherals and Infrastructure [PER])
      • Dynamic Voltage Frequency Scaling (DVFS)
  • Real-Time Clock (RTC)
    • Real-Time Date (Day, Month, Year, and Day of Week) and Time (Hours, Minutes, and Seconds) Information
    • Internal 32.768-kHz Oscillator, RTC Logic, and 1.1-V Internal LDO
    • Independent Power-On-Reset (RTC_PWRONRSTn) Input
    • Dedicated Input Pin (RTC_WAKEUP) for External Wake Events
    • Programmable Alarm Can Generate Internal Interrupts to the PRCM for Wakeup or Cortex-A9 for Event Notification
    • Programmable Alarm Can Be Used With External Output (RTC_PMIC_EN) to Enable the Power-Management IC to Restore Non-RTC Power Domains
  • Peripherals
    • Up to Two USB 2.0 High-Speed Dual-Role (Host or Device) Ports With Integrated PHY
    • Up to Two Industrial Gigabit Ethernet MACs
      (10, 100, and 1000 Mbps)
      • Integrated Switch
      • Each MAC Supports MII, RMII, and RGMII and MDIO Interfaces
      • Ethernet MACs and Switch Can Operate Independent of Other Functions
      • IEEE 1588v2 Precision Time Protocol (PTP)
    • Up to Two CAN Ports
      • Supports CAN Version 2 Parts A and B
    • Up to Two Multichannel Audio Serial Ports (McASPs)
      • Transmit and Receive Clocks up to 50 MHz
      • Up to Four Serial Data Pins Per McASP Port With Independent TX and RX Clocks
      • Supports Time Division Multiplexing (TDM), Inter-IC Sound (I2S), and Similar Formats
      • Supports Digital Audio Interface Transmission (SPDIF, IEC60958-1, and AES-3 Formats)
      • FIFO Buffers for Transmit and Receive (256 Bytes)
    • Up to Six UARTs
      • All UARTs Support IrDA and CIR Modes
      • All UARTs Support RTS and CTS Flow Control
      • UART1 Supports Full Modem Control
    • Up to Five Master and Slave McSPIs
      • McSPI0–McSPI2 Support up to Four Chip Selects
      • McSPI3 and McSPI4 Support up to Two Chip Selects
      • Up to 48 MHz
    • One Quad-SPI
      • Supports eXecute In Place (XIP) from Serial NOR FLASH
    • One Dallas 1-Wire® and HDQ Serial Interface
    • Up to Three MMC, SD, and SDIO Ports
      • 1-, 4-, and 8-Bit MMC, SD, and SDIO Modes
      • 1.8- or 3.3-V Operation on All Ports
      • Up to 48-MHz Clock
      • Supports Card Detect and Write Protect
      • Complies With MMC4.3 and SD and SDIO 2.0 Specifications
    • Up to Three I2C Master and Slave Interfaces
      • Standard Mode (up to 100 kHz)
      • Fast Mode (up to 400 kHz)
    • Up to Six Banks of General-Purpose I/O (GPIO)
      • 32 GPIOs per Bank (Multiplexed With Other Functional Pins)
      • GPIOs Can be Used as Interrupt Inputs (up to Two Interrupt Inputs per Bank)
    • Up to Three External DMA Event Inputs That Can Also be Used as Interrupt Inputs
    • Twelve 32-Bit General-Purpose Timers
      • DMTIMER1 is a 1-ms Timer Used for Operating System (OS) Ticks
      • DMTIMER4–DMTIMER7 are Pinned Out
    • One Public Watchdog Timer
    • One Free-Running, High-Resolution 32-kHz Counter (synctimer32K)
    • One Secure Watchdog Timer (Avaliable Only on AM437xHS Devices)
    • SGX530 3D Graphics Engine
      • Tile-Based Architecture Delivering up to 20M Poly/sec
      • Universal Scalable Shader Engine is a Multithreaded Engine Incorporating Pixel and Vertex Shader Functionality
      • Advanced Shader Feature Set in Excess of Microsoft VS3.0, PS3.0, and OGL2.0
      • Industry Standard API Support of Direct3D Mobile, OGL-ES 1.1 and 2.0
      • Fine-Grained Task Switching, Load Balancing, and Power Management
      • Advanced Geometry DMA-Driven Operation for Minimum CPU Interaction
      • Programmable High-Quality Image Anti-Aliasing
      • Fully Virtualized Memory Addressing for OS Operation in a Unified Memory Architecture
    • Display Subsystem
      • Display Modes
        • Programmable Pixel Memory Formats (Palletized: 1-, 2-, 4-, and 8-Bits Per Pixel; RGB 16- and 24-Bits Per Pixel; and YUV 4:2:2)
        • 256- × 24-Bit Entries Palette in RGB
        • Up to 2048 × 2048 Resolution
      • Display Support
        • Four Types of Displays Are Supported: Passive and Active Colors; Passive and Active Monochromes
        • 4- and 8-Bit Monochrome Passive Panel Interface Support (15 Grayscale Levels Supported Using Dithering Block)
        • RGB 8-Bit Color Passive Panel Interface Support (3,375 Colors Supported for Color Panel Using Dithering Block)
        • RGB 12-, 16-, 18-, and 24-Bit Active Panel Interface Support (Replicated or Dithered Encoded Pixel Values)
        • Remote Frame Buffer (Embedded in the LCD Panel) Support Through the RFBI Module
        • Partial Refresh of the Remote Frame Buffer Through the RFBI Module
        • Partial Display
        • Multiple Cycles Output Format on 8-, 9-, 12-, and 16-Bit Interface (TDM)
      • Signal Processing
        • Overlay and Windowing Support for One Graphics Layer (RGB or CLUT) and Two Video Layers (YUV 4:2:2, RGB16, and RGB24)
        • RGB 24-Bit Support on the Display Interface, Optionally Dithered to RGB 18‑Bit Pixel Output Plus 6-Bit Frame Rate Control (Spatial and Temporal)
        • Transparency Color Key (Source and Destination)
        • Synchronized Buffer Update
        • Gamma Curve Support
        • Multiple-Buffer Support
        • Cropping Support
        • Color Phase Rotation
    • Two 12-Bit SAR ADCs (ADC0, ADC1)
      • 867K Samples Per Second
      • Input Can Be Selected from Any of the Eight Analog Inputs Multiplexed Through an 8:1 Analog Switch
      • ADC0 Can Be Configured to Operate as a 4‑, 5-, or 8-Wire Resistive Touch Screen Controller (TSC)
    • Up to Three 32-Bit eCAP Modules
      • Configurable as Three Capture Inputs or Three Auxiliary PWM Outputs
    • Up to Six Enhanced eHRPWM Modules
      • Dedicated 16-Bit Time-Base Counter With Time and Frequency Controls
      • Configurable as Six Single-Ended, Six Dual-Edge Symmetric, or Three Dual-Edge Asymmetric Outputs
    • Up to Three 32-Bit eQEP Modules
  • Device Identification
    • Factory Programmable Electrical Fuse Farm (FuseFarm)
      • Production ID
      • Device Part Number (Unique JTAG ID)
      • Device Revision (Readable by Host ARM)
      • Security Keys (Avaliable Only on AM437xHS Devices)
      • Feature Identification
  • Debug Interface Support
    • JTAG and cJTAG for ARM (Cortex-A9 and PRCM) and PRU-ICSS Debug
    • Supports Real-Time Trace Pins (for Cortex-A9)
    • 64-KB Embedded Trace Buffer (ETB)
    • Supports Device Boundary Scan
    • Supports IEEE 1500
  • DMA
    • On-Chip Enhanced DMA Controller (EDMA) Has Three Third-Party Transfer Controllers (TPTCs) and One Third-Party Channel Controller (TPCC), Which Supports up to 64 Programmable Logical Channels and Eight QDMA Channels
    • EDMA is Used for:
      • Transfers to and from On-Chip Memories
      • Transfers to and from External Storage (EMIF, GPMC, and Slave Peripherals)
  • InterProcessor Communication (IPC)
    • Integrates Hardware-Based Mailbox for IPC and Spinlock for Process Synchronization Between the Cortex-A9, PRCM, and PRU-ICSS
  • Boot Modes
    • Boot Mode is Selected Through Boot Configuration Pins Latched on the Rising Edge of the PWRONRSTn Reset Input Pin
  • Camera
    • Dual Port 8- and 10-Bit BT656 Interface
    • Dual Port 8- and 10-Bit Including External Syncs
    • Single Port 12-Bit
    • YUV422/RGB422 and BT656 Input Format
    • RAW Format
    • Pixel Clock Rate up to 75 MHz
  • Package
    • 491-Pin BGA Package (17-mm × 17-mm) (ZDN Suffix), 0.65-mm Ball Pitch With Via Channel Array Technology to Enable Low-Cost Routing

The TI AM437x high-performance processors are based on the ARM Cortex-A9 core.

The processors are enhanced with 3D graphics acceleration for rich graphical user interfaces, as well as a coprocessor for deterministic, real-time processing including industrial communication protocols, such as EtherCAT, PROFIBUS, EnDat, and others. The devices support high-level operating systems (HLOS). Linux® is available free of charge from TI. Other HLOSs are available from TI’s Design Network and ecosystem partners.

These devices offer an upgrade to systems based on lower performance ARM cores and provide updated peripherals, including memory options such as QSPI-NOR and LPDDR2.

The processors contain the subsystems shown in the Functional Block Diagram, and a brief description of each follows.

The processor subsystem is based on the ARM Cortex-A9 core, and the PowerVR SGX™ graphics accelerator subsystem provides 3D graphics acceleration to support display and advanced user interfaces.

The programmable real-time unit subsystem and industrial communication subsystem (PRU-ICSS) is separate from the ARM core and allows independent operation and clocking for greater efficiency and flexibility. The PRU-ICSS enables additional peripheral interfaces and real-time protocols such as EtherCAT, PROFINET, EtherNet/IP, PROFIBUS, Ethernet Powerlink, Sercos, EnDat, and others. The PRU-ICSS enables EnDat and another industrial communication protocol in parallel. Additionally, the programmable nature of the PRU-ICSS, along with their access to pins, events and all system-on-chip (SoC) resources, provides flexibility in implementing fast real-time responses, specialized data handling operations, custom peripheral interfaces, and in off-loading tasks from the other processor cores of the SoC.

High-performance interconnects provide high-bandwidth data transfers for multiple initiators to the internal and external memory controllers and to on-chip peripherals. The device also offers a comprehensive clock-management scheme.

One on-chip analog to digital converter (ADC0) can couple with the display subsystem to provide an integrated touch-screen solution. The other ADC (ADC1) can combine with the pulse width module to create a closed-loop motor control solution.

The RTC provides a clock reference on a separate power domain. The clock reference enables a battery-backed clock reference.

The camera interface offers configuration for a single- or dual-camera parallel port.

Cryptographic acceleration is available in all devices. All other supported security features, including support for Secure boot, debug security and support for Trusted execution environment is available on HS (High-Security) devices. For more information about HS devices, contact your TI sales representative.

The TI AM437x high-performance processors are based on the ARM Cortex-A9 core.

The processors are enhanced with 3D graphics acceleration for rich graphical user interfaces, as well as a coprocessor for deterministic, real-time processing including industrial communication protocols, such as EtherCAT, PROFIBUS, EnDat, and others. The devices support high-level operating systems (HLOS). Linux® is available free of charge from TI. Other HLOSs are available from TI’s Design Network and ecosystem partners.

These devices offer an upgrade to systems based on lower performance ARM cores and provide updated peripherals, including memory options such as QSPI-NOR and LPDDR2.

The processors contain the subsystems shown in the Functional Block Diagram, and a brief description of each follows.

The processor subsystem is based on the ARM Cortex-A9 core, and the PowerVR SGX™ graphics accelerator subsystem provides 3D graphics acceleration to support display and advanced user interfaces.

The programmable real-time unit subsystem and industrial communication subsystem (PRU-ICSS) is separate from the ARM core and allows independent operation and clocking for greater efficiency and flexibility. The PRU-ICSS enables additional peripheral interfaces and real-time protocols such as EtherCAT, PROFINET, EtherNet/IP, PROFIBUS, Ethernet Powerlink, Sercos, EnDat, and others. The PRU-ICSS enables EnDat and another industrial communication protocol in parallel. Additionally, the programmable nature of the PRU-ICSS, along with their access to pins, events and all system-on-chip (SoC) resources, provides flexibility in implementing fast real-time responses, specialized data handling operations, custom peripheral interfaces, and in off-loading tasks from the other processor cores of the SoC.

High-performance interconnects provide high-bandwidth data transfers for multiple initiators to the internal and external memory controllers and to on-chip peripherals. The device also offers a comprehensive clock-management scheme.

One on-chip analog to digital converter (ADC0) can couple with the display subsystem to provide an integrated touch-screen solution. The other ADC (ADC1) can combine with the pulse width module to create a closed-loop motor control solution.

The RTC provides a clock reference on a separate power domain. The clock reference enables a battery-backed clock reference.

The camera interface offers configuration for a single- or dual-camera parallel port.

Cryptographic acceleration is available in all devices. All other supported security features, including support for Secure boot, debug security and support for Trusted execution environment is available on HS (High-Security) devices. For more information about HS devices, contact your TI sales representative.
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Spezielle Hinweise

Erweiterte Sicherheit für AM437xS Secure-Boot-Bausteine ist auf Anfrage verfügbar. Um sichere Dokumentation anzufordern, besuchen Sie diese Seite. Um sichere Software zu erhalten, verwenden Sie dieses Anforderungsformular.

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Technische Dokumentation

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Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet AM437x Sitara™ Processors datasheet (Rev. E) PDF | HTML 21 Mär 2018
* Errata AM437x Sitara Processors Silicon Errata (Silicon Revisions 1.1, 1.2) (Rev. D) PDF | HTML 03 Jun 2021
* User guide AM437x and AMIC120 ARM® Cortex™-A9 Processors Technical Reference Manual (Rev. I) 23 Dez 2019
Application note HSR/PRP Solutions on Sitara Processors for Grid Substation Communication (Rev. A) PDF | HTML 30 Jan 2026
Application note Enabling Matter on Sitara MPU (Rev. A) PDF | HTML 24 Nov 2025
Application note Industrial Communication Protocols Supported on TI Processors and MCUs (Rev. F) PDF | HTML 03 Sep 2025
White paper Securing Arm-Based Application Processors (Rev. F) PDF | HTML 26 Feb 2025
Application note Basic Ethernet Interface Debug With Linux PDF | HTML 11 Okt 2024
White paper Time Sensitive Networking for Industrial Automation (Rev. C) 31 Jul 2023
Application note Intra Drive Communication Using 8b-10b Line Code With Programmable Real Time Uni PDF | HTML 24 Mai 2023
Application note High-Speed Interface Layout Guidelines (Rev. J) PDF | HTML 24 Feb 2023
Application note PRU-ICSS Feature Comparison (Rev. G) PDF | HTML 11 Okt 2022
White paper Utilizing Sitara Processors and Microcontrollers for Industry 4.0 Servo Drives (Rev. C) 06 Okt 2021
Application note nfBGA Packaging (Rev. C) PDF | HTML 17 Mai 2021
Application note Ethernet PHY Configuration Using MDIO for Industrial Applications (Rev. A) 07 Mai 2021
More literature From Start to Finish: A Product Development Roadmap for Sitara™ Processors 16 Dez 2020
Application note AM437x Schematic Checklist (Rev. A) 25 Sep 2020
White paper EtherCAT® on Sitara™ Processors (Rev. I) 28 Jul 2020
White paper EtherNet/IP on TI's Sitara AM335x Processors (Rev. D) 28 Jul 2020
E-book Ein Techniker-Leitfaden für Industrieroboter-Designs 25 Mär 2020
User guide Powering the AM335x, AM437x, and AM438x with TPS65218D0 (Rev. B) 27 Feb 2020
Application note Programmable Logic Controllers — Security Threats and Solutions PDF | HTML 13 Sep 2019
Product overview Sitara™ processors + WiLink™ 8 Wi-Fi® + Bluetooth® combo connectivity (Rev. A) 30 Jul 2019
Application note Calculating Useful Lifetimes of Embedded Processors (Rev. B) PDF | HTML 07 Mai 2019
Application note AM43xx EMIF Tools (Rev. A) 18 Apr 2019
User guide Powering AMIC110, AMIC120, AM335x, and AM437x with TPS65216 11 Apr 2019
Application brief Flexible Timing Configuration with IO-Link Master Frame Handler 26 Mär 2019
Application note PRU-ICSS Getting Started Guide on TI-RTOS (Rev. A) 18 Jan 2019
Application note McASP Design Guide - Tips, Tricks, and Practical Examples 10 Jan 2019
Application note PRU Read Latencies (Rev. A) 21 Dez 2018
Application note PRU-ICSS Getting Starting Guide on Linux (Rev. A) 10 Dez 2018
White paper Ensuring real-time predictability (Rev. B) 04 Dez 2018
Application note PRU-ICSS EtherCAT Slave Troubleshooting Guide 07 Nov 2018
Application note PRU-ICSS / PRU_ICSSG Migration Guide 05 Nov 2018
White paper PROFINET on TI’s Sitara™ processors (Rev. D) 13 Okt 2018
User guide How-To and Troubleshooting Guide for PRU-ICSS PROFIBUS 24 Sep 2018
User guide PRU Assembly Instruction User Guide 16 Feb 2018
User guide Discrete Power Solution for AM437x (Rev. A) 01 Dez 2017
Application note Thermal Design Guide for DSP and Arm Application Processors (Rev. B) 14 Aug 2017
Application note AM43xx Power Estimation Tool 07 Aug 2017
Product overview AM43x Security Product Bulletin (Rev. A) 26 Mai 2017
Application note Sitara AM437x DDR-Less System How-To Instructions and Benchmarks (Rev. A) 21 Feb 2017
Technical article How to integrate position encoder master protocols into Sitara™ processor applicat PDF | HTML 25 Aug 2016
White paper Enable security and amp up chip performance w/ hardware-accelerated cryptograpy (Rev. A) 11 Aug 2016
Application note Plastic Ball Grid Array [PBGA] Application Note (Rev. B) 13 Aug 2015
Technical article Selecting the right processor: WiLink 8 plug and play platforms PDF | HTML 26 Jun 2015
White paper Highly integrated single-chip industrial drive to connect, control & communicate 29 Apr 2015
White paper Mainline Linux™ ensures stability and innovation 27 Mär 2014
More literature AM437x Sitara Processors Evaluation Module Quick Start Guide 20 Mär 2014
White paper Scalable Solutions for HMI 21 Nov 2013
White paper Linaro Speeds Development in TI Linux SDKs 27 Aug 2013
White paper The Yocto Project:Changing the way embedded Linux software solutions are develop 14 Mär 2013

Design und Entwicklung

Lösungen für die Stromversorgung

Verfügbare Lösungen für die Stromversorgung für den AM4377 finden. TI bietet Stromversorgungslösungen für Ein-Chip-Systeme (SoCs), Prozessoren, Mikrocontroller, Sensoren und feldprogrammierbare Gate-Arrays (FPGAs) von TI und von Fremdherstellern an.

Lösungen anzeigen
Evaluierungsplatine

TMDSEVM437X — AM437x-Evaluierungsmodul

Das AM437x-Evaluierungsmodul (EVM) TMDXEVM437X ermöglicht Entwicklern den schnellen Einstieg in die Evaluierung der AM437x-Prozessorfamilie (AM4372, AM4376, AM4377, AM4378), die Realisierung von Anwendungen sowie die schnellere Entwicklung von Anwendungen in den Bereichen HMI, Industrie und (...)

Benutzerhandbuch: PDF
Nicht verfügbar auf TI.com
Evaluierungsplatine

TMDSIDK437X — Entwicklungskit AM437x/AMIC120 für Industrieanwendungen (IDK)

Das AM437x/AMIC120 Entwicklungskit für Industrieanwendungen (IDK) ist eine Anwendungsentwicklungsplattform zur Evaluierung der Möglichkeiten der Sitara™-Prozessoren AM4379AM4377 und AMIC120 im Bereich industrieller Kommunikation und Steuerung.

Die Prozessoren  AM4379AM4377 und AMIC120 eignen (...)

Benutzerhandbuch: PDF
Nicht verfügbar auf TI.com
Evaluierungsplatine

TMDXSK437X — AM437x-Starterkit

Das AM437x-Starterkit bietet eine stabile und preiswerte Plattform für den schnellen Einstieg in die Arbeit mit den Sitara™ Arm® Cortex®-A9 AM437x-Prozessoren (AM4376, AM4378) und die beschleunigte Entwicklung von Anwendungen in den Bereichen HMI, Industrie und Netz. Es handelt sich um eine (...)

Benutzerhandbuch: PDF
Nicht verfügbar auf TI.com
Evaluierungsplatine

TPS65218EVM-100 — TPS65218-Evaluierungsmodul

The TPS65218EVM is a fully assembled platform for evaluating the performance of the TPS65218 power management device.

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

BYTES-3P-SITARASOMS — Bytes at Work Sitara-SOMs

bytes at work develops industrial computing products and services. They offer SOMs based on Sitara Arm® processors.

Learn more about bytes at work at http://www.bytesatwork.io/en. 


Von: bytes at work AG
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Evaluierungsplatine

COMPU-3P-SITARASOMS — Compulab Sitara-SOMs

CompuLab is a leading manufacturer of computer-on-module boards and miniature PC systems. CompuLab's products excel with an advanced set of features, outstanding level of integration, high reliability and affordable prices. Annual manufacturing rate of over 100,000 boards and systems positions (...)
Von: CompuLab
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Evaluierungsplatine

MISTR-3P-POM-AM437X — Mistral Solutions AM437x PoM und Anwendungsplatinen

The Mistral Solutions AM437x PoM is a low-cost, small form factor, high performance, easy-to-use Product on Module (PoM) built around the TI Sitara AM437x processor. With extensive integration such as quad core PRU-ICSS, 3D acceleration core, dual camera, QSPI-NOR, up to 512KB on-chip memory, dual (...)
Von: Mistral Solutions Pvt. Ltd
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Evaluierungsplatine

SVT-3P-SITARA-SOMS — SVTronics System-on-Module für AM437x CPUs

SOM437x is a system-on-module for TI's Sitara™ AM437x processors. It has the AM437x device, DDR3, PMIC (TPS65218), eMMC/NAND FLASH, Gigabit PHY on board and uses a 2.0mm DIP connector. Except for the DDR3 and power pins, all other CPU pins have been connected to the DIP connector. Standard (...)
Von: SVTRONICS INC
Partner-Website besuchen
Evaluierungsplatine

VAR-3P-SITARASOMS — Variscite Sitara-SOMs

Variscite designs and produces a variety of system on modules and single board computers based TI's Sitara™, OMAP™ and DaVinci™ processors, covering a wide range of products, segments and markets. Variscite provides its customers with a complete development kit supporting Windows (...)
Von: Variscite
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Tochterkarte

PRUCAPE — TI PRU-Cape

The TI PRU Cape is a BeagleBone Black add-on board that allows users get to know TI’s powerful Programmable Real-Time Unit (PRU) core and basic functionality. The PRU is a low-latency microcontroller subsystem integrated in the Sitara AM335x and AM437x family of devices.  The PRU core is (...)

Nicht verfügbar auf TI.com
Debug-Tastkopf

TMDSEMU200-U — XDS200-USB-Debug-Tastkopf

Der XDS200 ist ein Debug-Tastkopf (Emulator) zum Debugging von Embedded-Bausteinen von TI. Für die meisten Bausteine wird die Verwendung der neueren, kostengünstigeren XDS110 (www.ti.com/tool/TMDSEMU110-U) empfohlen. Der XDS200 unterstützt eine große Zahl von Standards (IEEE1149.1, IEEE1149.7, SWD) (...)

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

TMDSEMU560V2STM-UE — XDS560v2 System-Trace-USB-und Ethernet-Debug-Tastkopf

The XDS560v2 is the highest performance of the XDS family of debug probes and supports both the traditional JTAG standard (IEEE1149.1) and cJTAG (IEEE1149.7). Note that it does not support serial wire debug (SWD).

All XDS debug probes support Core and System Trace in all ARM and DSP processors that (...)

Nicht verfügbar auf TI.com
Software-Entwicklungskit (SDK)

PROCESSOR-SDK-LINUX-AM437X Linux processor SDK for AM437x

Processor SDK (Software Development Kit) is a unified software platform for TI embedded processors providing easy setup and fast out-of-the-box access to benchmarks and demos.  All releases of Processor SDK are consistent across TI’s broad portfolio, allowing developers to seamlessly (...)

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Software-Entwicklungskit (SDK)

PROCESSOR-SDK-LINUX-RT-AM437X Linux-RT Processor SDK for AM437x

Processor SDK (Software Development Kit) is a unified software platform for TI embedded processors providing easy setup and fast out-of-the-box access to benchmarks and demos.  All releases of Processor SDK are consistent across TI’s broad portfolio, allowing developers to seamlessly (...)

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Software-Entwicklungskit (SDK)

PROCESSOR-SDK-RTOS-AM437X TI-RTOS processor SDK for AM437x and AMIC120 (No design support from TI available. Refer to Overview- RTOS Highlights for details.)

Processor SDK (Software Development Kit) is a unified software platform for TI embedded processors providing easy setup and fast out-of-the-box access to benchmarks and demos.  All releases of Processor SDK are consistent across TI’s broad portfolio, allowing developers to seamlessly (...)

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Software-Entwicklungskit (SDK)

PRU-SWPKG Programmable Real-time Unit (PRU) Software Support Package

The PRU Software Support Package is an add-on package that provides a framework and examples for developing software for the Programmable Real-time Unit sub-system and Industrial Communication Sub-System (PRU-ICSS) in the supported TI processors.  The PRU-ICSS achieves deterministic, real-time (...)

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Software-Entwicklungskit (SDK)

TIBLUETOOTHSTACK-SDK — Dual-Mode Bluetooth®-Stack von TI

Der Dual-Mode-Bluetooth-Stack von TI ermöglicht Bluetooth + Bluetooth Low Energy und besteht aus Single-Mode- und Dual-Mode-Angeboten, welche die Bluetooth 4.0/4.1/4.2-Spezifikation implementieren. Der Bluetooth-Stack ist vollständig für Bluetooth Special Interest Group (SIG) qualifiziert, (...)
Benutzerhandbuch: PDF | HTML
Benutzerhandbuch: PDF
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Treiber oder Bibliothek

PRU-ICSS-ETHERCAT-SLAVE PRU-ICSS software for EtherCAT slave

The PRU-ICSS Protocols enables real-time industrial communications for TI Sitara processors.  The PRU-ICSS protocols are built to use on top of Processor-SDK-RTOS, TI’s unified software development platform, and contain optimized PRU-ICSS firmware, a corresponding PRU-ICSS driver for the (...)

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PRU-ICSS-ETHERNETIP-ADAPTER PRU-ICSS software for EtherNetIP adapter

The PRU-ICSS Protocols enables real-time industrial communications for TI Sitara processors.  The PRU-ICSS protocols are built to use on top of Processor-SDK-RTOS, TI’s unified software development platform, and contain optimized PRU-ICSS firmware, a corresponding PRU-ICSS driver for the (...)

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PRU-ICSS-HSR-PRP-DAN PRU-ICSS software for HSR/PRP

The PRU-ICSS Protocols enables real-time industrial communications for TI Sitara processors.  The PRU-ICSS protocols are built to use on top of Processor-SDK-RTOS, TI’s unified software development platform, and contain optimized PRU-ICSS firmware, a corresponding PRU-ICSS driver for the (...)

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PRU-ICSS-INDUSTRIAL-DRIVES PRU-ICSS software for industrial drives (EnDat2.2, Tamagawa, Hiperface DSL,SDDF and motor control support)

The PRU-ICSS Protocols enables real-time industrial communications for TI Sitara processors.  The PRU-ICSS protocols are built to use on top of Processor-SDK-RTOS, TI’s unified software development platform, and contain optimized PRU-ICSS firmware, a corresponding PRU-ICSS driver for the (...)

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PRU-ICSS-PROFIBUS-SLAVE PRU-ICSS software for PROFIBUS slave

The PRU-ICSS Protocols enables real-time industrial communications for TI Sitara processors.  The PRU-ICSS protocols are built to use on top of Processor-SDK-RTOS, TI’s unified software development platform, and contain optimized PRU-ICSS firmware, a corresponding PRU-ICSS driver for the (...)

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PRU-ICSS-PROFINET-SLAVE PRU-ICSS software for Profinet slave

The PRU-ICSS Protocols enables real-time industrial communications for TI Sitara processors.  The PRU-ICSS protocols are built to use on top of Processor-SDK-RTOS, TI’s unified software development platform, and contain optimized PRU-ICSS firmware, a corresponding PRU-ICSS driver for the (...)

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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
Treiber oder Bibliothek

WIT-3P-SITARABSP — Witekio Sitara Android- und Windows-Betriebssysteme

Witekio brings expertise on low (OS, driver, firmware) and high level software (application, connectivity, cloud) for TI's OMAP and Sitara AM335x, AM437x, and AM57x platforms. Witekio offers BSPs, drivers, application development/UI/custom drivers for Android, Linux and Windows embedded systems as (...)
Von: Witekio
Partner-Website besuchen
IDE, Konfiguration, Compiler oder Debugger

CCSTUDIO Code Composer Studio integrated development environment (IDE)

Code Composer Studio is an integrated development environment (IDE) for TI's microcontrollers and processors. It is comprised of a rich suite of tools used to build, debug, analyze and optimize embedded applications. Code Composer Studio is available across Windows®, Linux® and macOS® platforms.

(...)

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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 (...)

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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)

MG-3P-NUCLEUS-RTOS — Mentor Grafik Nucleus RTOS

Software driven power management is crucial for battery operated or low power budget embedded systems. Embedded developers can now take advantage of the latest power saving features in popular TI devices with the built-in Power Management Framework in the Nucleus RTOS. Developers specify (...)
Von: Mentor Graphics Corporation
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
Software-Programmiertool

SITARA-DDR-CONFIG-TOOL-AM335X AM335x and AMIC110 EMIF Tools

The Sitara™ EMIF tool is a software tool which provides an interface to configure the TI processors for accessing the external DDR memory devices. The tool also optimizes the Delay Locked Loop (DLL) settings to compensate for board routing skews. The results are output as EMIF configuration (...)

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Software-Programmiertool

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

UniFlash is a software tool for programming on-chip flash on TI microcontrollers and wireless connectivity devices and on-board flash for TI processors. UniFlash provides both graphical and command-line interfaces.

UniFlash can be run from the cloud on the TI Developer Zone or downloaded and used (...)

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Support-Software

AUTOMATA-3P-INDUSTRIALCOMMS — Cannon Automata Sercos III

The Sercos III Slave Communiction Stack allows to implement the Real-time Ethernet protocol Sercos III for any kind of slave devices. The source code includes SCP (Sercos Communication Profile) and GDP (General Device Profile). In addition, the stack already includes many optional function classes (...)
Von: AUTOMATA
Partner-Website besuchen
Simulationsmodell

AM437x BSDL Model (Rev. B)

SPRM635B.ZIP (11 KB) - BSDL Model
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Simulationsmodell

AM437x IBIS Model (Rev. A)

SPRM636A.ZIP (23511 KB) - IBIS Model
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Montagezeichnung

AM437x Starter Kit (SK) Assembly Drawing File (Top)

SPRR205.PDF (143 KB)
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Montagezeichnung

AM437x Starter Kit (SK) Assembly Drawing File (Bottom)

SPRR206.PDF (174 KB)
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Montagezeichnung

AM437x Starter Kit (SK) Gerber Files

SPRR207.ZIP (4537 KB)
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Stückliste (BOM)

AM437x Starter Kit (SK) Bill of Materials (BOM)

SPRR204.ZIP (30 KB)
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Berechnungstool

CLOCKTREETOOL — Taktbaum-Tool für Sitara, Automobilanwendungen, Sichtanalytik und digitale Signalprozessoren

The Clock Tree Tool (CTT) for Sitara™ ARM®, Automotive, and Digital Signal Processors is an interactive clock tree configuration software that provides information about the clocks and modules in these TI devices. It allows the user to:
  • Visualize the device clock tree
  • Interact with clock tree (...)
Benutzerhandbuch: PDF
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POWEREST — Tool zur Schätzung des Stromverbrauchs (Power Estimation Tool, PET)

Das Tool zur Schätzung des Stromverbrauchs (Power Estimation Tool, PET) bietet Benutzern die Möglichkeit, Einblicke in den Stromverbrauch ausgewählter TI-Prozessoren zu erhalten. Das Tool bietet dem Benutzer die Möglichkeit, mehrere Anwendungsszenarien auszuwählen und ein besseres Verständnis des (...)
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Berechnungstool

SITARA-DDR-CONFIG-TOOL — Sitara External Memory Interface (EMIF)-Tool

Das Sitara™ EMIF-Tool ist ein Softwaretool, das eine Schnittstelle zur Konfiguration der TI-Prozessoren für den Zugriff auf die externen DDR-Speicherbausteine bereitstellt. Das Tool optimiert auch die Delay Locked Loop (DLL)-Einstellungen, um Versatz beim Platinenlayout zu kompensieren. Die (...)
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Berechnungstool

SITARA-DDR-CONFIG-TOOL-AM65X-DRA80XM AM65x/DRA80xM EMIF Tool Spreadsheet

The Sitara™ EMIF tool is a software tool which provides an interface to configure the TI processors for accessing the external DDR memory devices. The tool also optimizes the Delay Locked Loop (DLL) settings to compensate for board routing skews. The results are output as EMIF configuration (...)

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