Up to 1-GHz Sitara™ARM®Cortex®-A8 32‑Bit RISC Processor
NEON™ SIMD Coprocessor
32KB of L1 Instruction and 32KB of Data Cache With Single-Error Detection (Parity)
256KB of L2 Cache With Error Correcting Code (ECC)
176KB of On-Chip Boot ROM
64KB of Dedicated RAM
Emulation and Debug - JTAG
Interrupt Controller (up to 128 Interrupt Requests)
On-Chip Memory (Shared L3 RAM)
64KB of General-Purpose On-Chip Memory Controller (OCMC) RAM
Accessible to All Masters
Supports Retention for Fast Wakeup
External Memory Interfaces (EMIF)
mDDR(LPDDR), DDR2, DDR3, DDR3L Controller:
mDDR: 200-MHz Clock (400-MHz Data Rate)
DDR2: 266-MHz Clock (532-MHz Data Rate)
DDR3: 400-MHz Clock (800-MHz Data Rate)
DDR3L: 400-MHz Clock (800-MHz Data Rate)
16-Bit Data Bus
1GB of Total Addressable Space
Supports One x16 or Two x8 Memory Device Configurations
General-Purpose Memory Controller (GPMC)
Flexible 8-Bit and 16-Bit Asynchronous Memory Interface With up to Seven Chip Selects (NAND, NOR, Muxed-NOR, 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 in Conjunction 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, EtherNet/IP™, and More
Two Programmable Real-Time Units (PRUs)
32-Bit Load/Store RISC Processor Capable of Running at 200 MHz
8KB of Instruction RAM With Single-Error Detection (Parity)
8KB of Data RAM With Single-Error Detection (Parity)
Single-Cycle 32-Bit Multiplier With 64-Bit Accumulator
Enhanced GPIO Module Provides Shift-In/Out Support and Parallel Latch on External Signal
12KB of Shared RAM With Single-Error Detection (Parity)
Three 120-Byte Register Banks Accessible by Each PRU
Interrupt Controller (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 Enhanced Capture (eCAP) Module
Two MII Ethernet Ports that Support Industrial Ethernet, such as EtherCAT
One MDIO Port
Power, Reset, and Clock Management (PRCM) Module
Controls the Entry and Exit of Stand-By and Deep-Sleep Modes
Responsible for Sleep Sequencing, Power Domain Switch-Off Sequencing, Wake-Up Sequencing, and Power Domain Switch-On Sequencing
Clocks
Integrated 15- to 35-MHz High-Frequency Oscillator Used to Generate a Reference Clock 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], LCD Pixel Clock)
Power
Two Nonswitchable Power Domains (Real-Time Clock [RTC], Wake-Up Logic [WAKEUP])
Three Switchable Power Domains (MPU Subsystem [MPU], SGX530 [GFX], Peripherals and Infrastructure [PER])
Implements SmartReflex™ Class 2B for Core Voltage Scaling Based On Die Temperature, Process Variation, and Performance (Adaptive Voltage Scaling [AVS])
Dynamic Voltage Frequency Scaling (DVFS)
Real-Time Clock (RTC)
Real-Time Date (Day-Month-Year-Day of Week) and Time (Hours-Minutes-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 (EXT_WAKEUP) for External Wake Events
Programmable Alarm Can be Used to Generate Internal Interrupts to the PRCM (for Wakeup) or Cortex-A8 (for Event Notification)
Programmable Alarm Can be Used With External Output (PMIC_POWER_EN) to Enable the Power Management IC to Restore Non-RTC Power Domains
Peripherals
Up to Two USB 2.0 High-Speed DRD (Dual-Role Device) Ports With Integrated PHY
Up to Two Industrial Gigabit Ethernet MACs (10, 100, 1000 Mbps)
Integrated Switch
Each MAC Supports MII, RMII, RGMII, and MDIO Interfaces
Ethernet MACs and Switch Can Operate Independent of Other Functions
IEEE 1588v1 Precision Time Protocol (PTP)
Up to Two Controller-Area Network (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 Two Master and Slave McSPI Serial Interfaces
Up to Two Chip Selects
Up to 48 MHz
Up to Three MMC, SD, SDIO Ports
1-, 4- and 8-Bit MMC, SD, SDIO Modes
MMCSD0 has Dedicated Power Rail for 1.8‑V or 3.3-V Operation
Up to 48-MHz Data Transfer Rate
Supports Card Detect and Write Protect
Complies With MMC4.3, SD, 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 Four Banks of General-Purpose I/O (GPIO) Pins
32 GPIO Pins per Bank (Multiplexed With Other Functional Pins)
GPIO Pins 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
Eight 32-Bit General-Purpose Timers
DMTIMER1 is a 1-ms Timer Used for Operating System (OS) Ticks
DMTIMER4–DMTIMER7 are Pinned Out
One Watchdog Timer
SGX530 3D Graphics Engine
Tile-Based Architecture Delivering up to 20 Million Polygons per Second
Universal Scalable Shader Engine (USSE) 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, and OpenMax
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
LCD Controller
Up to 24-Bit Data Output; 8 Bits per Pixel (RGB)
Resolution up to 2048 × 2048 (With Maximum 126-MHz Pixel Clock)
Input can be Selected from any of the Eight Analog Inputs Multiplexed Through an 8:1 Analog Switch
Can be Configured to Operate as a 4-Wire, 5-Wire, or 8-Wire Resistive Touch Screen Controller (TSC) Interface
Up to Three 32-Bit eCAP Modules
Configurable as Three Capture Inputs or Three Auxiliary PWM Outputs
Up to Three Enhanced High-Resolution PWM Modules (eHRPWMs)
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 Enhanced Quadrature Encoder Pulse (eQEP) Modules
Device Identification
Contains Electrical Fuse Farm (FuseFarm) of Which Some Bits are Factory Programmable
Production ID
Device Part Number (Unique JTAG ID)
Device Revision (Readable by Host ARM)
Debug Interface Support
JTAG and cJTAG for ARM (Cortex-A8 and PRCM), PRU-ICSS Debug
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, Slave Peripherals)
Inter-Processor Communication (IPC)
Integrates Hardware-Based Mailbox for IPC and Spinlock for Process Synchronization Between Cortex-A8, PRCM, and PRU-ICSS
Mailbox Registers that Generate Interrupts
Four Initiators (Cortex-A8, PRCM, PRU0, PRU1)
Spinlock has 128 Software-Assigned Lock Registers
Security
Crypto Hardware Accelerators (AES, SHA, RNG)
Secure Boot (optional; requires custom part engagement with TI)
Boot Modes
Boot Mode is Selected Through Boot Configuration Pins Latched on the Rising Edge of the PWRONRSTn Reset Input Pin
Packages:
298-Pin S-PBGA-N298 Via Channel Package
(ZCE Suffix), 0.65-mm Ball Pitch