SWRU626 December   2025 CC3501E , CC3551E

 

  1.   1
  2. Read This First
    1. 1.1 About This Manual
    2. 1.2 Register, Field, and Bit Calls
    3.     Trademarks
  3. Architecture Overview
    1. 2.1  Target Applications
    2. 2.2  Introduction
    3. 2.3  Internal System Diagram
    4. 2.4  Arm Cortex M33
      1. 2.4.1 Processor Core
      2. 2.4.2 SysTick Timer
      3. 2.4.3 Nested Vectored Interrupt Controller
      4. 2.4.4 System Control Block (SCB)
      5. 2.4.5 TI AI instruction extensions
    5. 2.5  Power Management
      1. 2.5.1 VDD_MAIN
      2. 2.5.2 VDD_IO
      3. 2.5.3 VDDSF
      4. 2.5.4 VDD_PA
    6. 2.6  Debug Subsystem (DEBUGSS)
    7. 2.7  Memory Subsystem (MEMSS)
      1. 2.7.1 External Memory Interface
    8. 2.8  Hardware Security Module
    9. 2.9  General Purpose Timers (GPT)
    10. 2.10 Real Time Clock (RTC)
    11. 2.11 Direct Memory Access
    12. 2.12 GPIOs
    13. 2.13 Communication Peripherals
      1. 2.13.1 UART
      2. 2.13.2 I2C
      3. 2.13.3 SPI
      4. 2.13.4 I2S
      5. 2.13.5 SDMMC
      6. 2.13.6 SDIO
      7. 2.13.7 CAN
      8. 2.13.8 ADC
  4. Arm Cortex-M33 Processor
    1. 3.1 Arm Cortex-M33 Processor Introduction
    2. 3.2 Block Diagram
    3. 3.3 M33 instantiation parameters
    4. 3.4 Arm Cortex-M33 System Peripheral Details
      1. 3.4.1 Floating Point Unit (FPU)
      2. 3.4.2 Memory Protection Unit (MPU)
      3. 3.4.3 Digital Signal Processing (DSP)
      4. 3.4.4 Security Attribution Unit (SAU)
      5. 3.4.5 System Timer
      6. 3.4.6 Nested Vectored Interrupt Controller
      7. 3.4.7 System Control Block
      8. 3.4.8 System Control Space
    5. 3.5 CPU Sub-System Peripheral Details
      1. 3.5.1 Trace Port Interface Unit (TPIU)
      2. 3.5.2 DAP Bridge and Debug Authentication
      3. 3.5.3 Implementation Defined Attribution Unit (IDAU)
    6. 3.6 Programming Model
      1. 3.6.1 Modes of operation and execution
        1. 3.6.1.1 Security states
        2. 3.6.1.2 Operating modes
        3. 3.6.1.3 Operating states
        4. 3.6.1.4 Privileged access and unprivileged user access
      2. 3.6.2 Instruction set summary
      3. 3.6.3 Memory model
        1. 3.6.3.1 Private Peripheral Bus
        2. 3.6.3.2 Unaligned accesses
      4. 3.6.4 Processor core registers summary
      5. 3.6.5 Exceptions
        1. 3.6.5.1 Exception handling and prioritization
    7. 3.7 TrustZone-M
      1. 3.7.1 Overview
      2. 3.7.2 M33 Configuration
      3. 3.7.3 Description of elements
        1. 3.7.3.1 IDAU (Implementation Defined Attribution Unit)
          1. 3.7.3.1.1 Expected use
    8. 3.8 CC35xx Host MCU Registers
      1. 3.8.1 HOSTMCU_AON Registers
      2. 3.8.2 HOST_MCU Registers
      3. 3.8.3 HOST_MCU_SEC Registers
    9. 3.9 Arm® Cortex®-M33 Registers
      1. 3.9.1  CPU_ROM_TABLE Registers
      2. 3.9.2  TPIU Registers
      3. 3.9.3  DCB Registers
      4. 3.9.4  DIB Registers
      5. 3.9.5  DWT Registers
      6. 3.9.6  FPB Registers
      7. 3.9.7  FPE Registers
      8. 3.9.8  ICB Registers
      9. 3.9.9  ITM Registers
      10. 3.9.10 MPU Registers
      11. 3.9.11 NVIC Registers
      12. 3.9.12 SAU Registers
      13. 3.9.13 SCB Registers
      14. 3.9.14 SYSTIMER Registers
      15. 3.9.15 SYSTICK Registers
  5. Memory Map
    1. 4.1 Memory Map
  6. Interrupts and Events
    1. 5.1 Exception Model
      1. 5.1.1 Exception States
      2. 5.1.2 Exception Types
      3. 5.1.3 Exception Handlers
      4. 5.1.4 Vector Table
      5. 5.1.5 Exception Priorities
      6. 5.1.6 Interrupt Priority Grouping
      7. 5.1.7 Exception Entry and Return
        1. 5.1.7.1 Exception Entry
        2. 5.1.7.2 Exception Return
    2. 5.2 Fault Handling
      1. 5.2.1 Fault Types
      2. 5.2.2 Fault Escalation to HardFault
      3. 5.2.3 Fault Status Registers and Fault Address Registers
      4. 5.2.4 Lockup
    3. 5.3 Security State Switches
    4. 5.4 Event Manager
      1. 5.4.1 Introduction
      2. 5.4.2 Interrupts List
      3. 5.4.3 Wakeup Sources
      4. 5.4.4 Shared Peripherals MUX Selector
        1. 5.4.4.1 ADC HW Event Selector Mux
        2. 5.4.4.2 I2S HW Event Selector Mux
        3. 5.4.4.3 PDM HW Event Selector Mux
      5. 5.4.5 Timers MUX Selector Mux
        1. 5.4.5.1 SysTimer0 HW Event Selector Mux
        2. 5.4.5.2 SysTimer1 HW Event Selector Mux
        3. 5.4.5.3 RTC HW Event Selector Mux
      6. 5.4.6 GPTIMERs MUX Selector Mux
        1. 5.4.6.1 GPTIMER0 HW Event Selector Mux
        2. 5.4.6.2 GPTIMER1 HW Event Selector Mux
    5. 5.5 SOC_IC Registers
    6. 5.6 SOC_AON Registers
    7. 5.7 SOC_AAON Registers
  7. Debug Subsystem (DEBUGSS)
    1. 6.1 Introduction
    2. 6.2 Block Diagram
    3. 6.3 Overview
    4. 6.4 Physical Interface
    5. 6.5 Debug Access Ports
    6. 6.6 Debug Features
      1. 6.6.1 Processor Debug
      2. 6.6.2 Breakpoint Unit (BPU)
      3. 6.6.3 Peripheral Debug
    7. 6.7 Behavior in Low Power Modes
    8. 6.8 Debug Access Control
    9. 6.9 SOC_DEBUGSS Registers
  8. Power, Reset, Clock Management
    1. 7.1 Power Management
      1. 7.1.1 Power Supply System
        1. 7.1.1.1 VDD_MAIN
        2. 7.1.1.2 VIO
        3. 7.1.1.3 VDDSF
        4. 7.1.1.4 VPA
      2. 7.1.2 Power States
      3. 7.1.3 Power Domains
      4. 7.1.4 Brownout (BOR)
      5. 7.1.5 Boot Sequence
    2. 7.2 Reset
      1. 7.2.1 Reset Cause
      2. 7.2.2 Watchdog Timer (WDT)
    3. 7.3 Clocks
      1. 7.3.1 Fast Clock
      2. 7.3.2 Slow Clock
        1. 7.3.2.1 Slow Clock Overview
        2. 7.3.2.2 Slow Clock Tree
        3. 7.3.2.3 Slow Clock Boot Process
    4. 7.4 PRCM_AON Registers
    5. 7.5 PRCM_SCRATCHPAD Registers
  9. Memory Subsystem (MEMSS)
    1. 8.1  Introduction
    2. 8.2  SRAM
    3. 8.3  D-Cache
    4. 8.4  Flash
    5. 8.5  PSRAM
    6. 8.6  XiP Memory Access
      1. 8.6.1 OTFDE
      2. 8.6.2 xSPI
      3. 8.6.3 Topology
      4. 8.6.4 µDMA
      5. 8.6.5 Arbiter
    7. 8.7  ICACHE Registers
    8. 8.8  DCACHE Registers
    9. 8.9  OSPI Registers
    10. 8.10 HOST_XIP Registers
  10. Hardware Security Module (HSM)
    1. 9.1 Introduction
    2. 9.2 Overview
    3. 9.3 Mailbox and Register Access Firewall
    4. 9.4 DMA Firewall
    5. 9.5 HSM Key Storage
    6. 9.6 HSM Registers
    7. 9.7 HSM_NON_SEC Registers
    8. 9.8 HSM_SEC Registers
  11. 10Device Boot and Bootloader
    1. 10.1 CC35xx Boot Concept
    2. 10.2 Features
    3. 10.3 Vendor Images Format and Processing
      1. 10.3.1 External Flash Arrangement
      2. 10.3.2 Vendor Images Format
    4. 10.4 Boot Flows
      1. 10.4.1 Application Execution Boot Flow
      2. 10.4.2 Activation Flow
      3. 10.4.3 Initial Programming Flow
      4. 10.4.4 Reprogramming Flow
      5. 10.4.5 Wireless Connectivity Testing Tool Flow
    5. 10.5 Chain of Trust
  12. 11Direct Memory Access (DMA)
    1. 11.1 Overview
    2. 11.2 Block Diagram
    3. 11.3 Functional Description
      1. 11.3.1 Channels Assignment
      2. 11.3.2 Transfer Types
      3. 11.3.3 Addressing Modes
      4. 11.3.4 Transfer Modes
      5. 11.3.5 DMA Aligner Support
      6. 11.3.6 Initiating DMA Transfers
      7. 11.3.7 Stopping DMA Transfers
      8. 11.3.8 Channel Priorities
      9. 11.3.9 DMA Interrupts
    4. 11.4 HOST_DMA Registers
  13. 12One Time Programming (OTP)
  14. 13General Purpose Timers (GPT)
    1. 13.1 Overview
    2. 13.2 Block Diagram
    3. 13.3 Functional Description
      1. 13.3.1  Prescaler
      2. 13.3.2  Counter
      3. 13.3.3  Target
      4. 13.3.4  Channel Input Logic
      5. 13.3.5  Channel Output Logic
      6. 13.3.6  Channel Actions
        1. 13.3.6.1 Period and Pulse Width Measurement
        2. 13.3.6.2 Clear on Zero, Toggle on Compare Repeatedly
        3. 13.3.6.3 Set on Zero, Toggle on Compare Repeatedly
      7. 13.3.7  Channel Capture Configuration
      8. 13.3.8  Channel Filters
        1. 13.3.8.1 Setting up the Channel Filters
      9. 13.3.9  Synchronize Multiple GPTimers
      10. 13.3.10 Interrupts, ADC Trigger, and DMA Request
    4. 13.4 Timer Modes
      1. 13.4.1 Quadrature Decoder
      2. 13.4.2 DMA
      3. 13.4.3 IR Generation
      4. 13.4.4 Fault and Park
      5. 13.4.5 Dead-Band
      6. 13.4.6 Dead-Band, Fault and Park
      7. 13.4.7 Example Application: Brushless DC (BLDC) Motor
    5. 13.5 GPTIMER Registers
  15. 14System Timer (SysTimer)
    1. 14.1 Overview
    2. 14.2 Block Diagram
    3. 14.3 Functional Description
      1. 14.3.1 Common Channel Features
        1. 14.3.1.1 Compare Mode
        2. 14.3.1.2 Capture Mode
        3. 14.3.1.3 Additional Channel Arming Methods
      2. 14.3.2 Interrupts and Events
    4. 14.4 SYSRESOURCES Registers
    5. 14.5 SYSTIM Registers
  16. 15Real-Time Clock (RTC)
    1. 15.1 Introduction
    2. 15.2 Block Diagram
    3. 15.3 Interrupts and Events
      1. 15.3.1 Input Event
      2. 15.3.2 Output Event
      3. 15.3.3 Arming and Disarming Channels
    4. 15.4 CAPTURE and COMPARE Configurations
      1. 15.4.1 CHANNEL 0 - COMPARE CHANNEL
      2. 15.4.2 CHANNEL 1 - CAPTURE CHANNEL
    5. 15.5 RTC Registers
  17. 16General Purpose Input/Output (GPIOs)
    1. 16.1 Introduction
    2. 16.2 Block Diagram
    3. 16.3 I/O Mapping and Configuration
      1. 16.3.1 Basic I/O Mapping
      2. 16.3.2 Pin Mapping
    4. 16.4 Edge Detection
    5. 16.5 GPIO
    6. 16.6 I/O Pins
    7. 16.7 Unused Pins
    8. 16.8 IOMUX Registers
  18. 17Universal Asynchronous Receivers/Transmitters (UART)
    1. 17.1 Introduction
    2. 17.2 Block Diagram
    3. 17.3 UART Functional Description
      1. 17.3.1 Transmit and Receive Logic
      2. 17.3.2 Baud Rate Generation
      3. 17.3.3 FIFO Operation
        1. 17.3.3.1 FIFO Remapping
      4. 17.3.4 Data Transmission
      5. 17.3.5 Flow Control
      6. 17.3.6 IrDA Encoding and Decoding
      7. 17.3.7 Interrupts
      8. 17.3.8 Loopback Operation
    4. 17.4 UART-LIN Specification
      1. 17.4.1 Break transmission in UART mode
      2. 17.4.2 Break reception in UART mode
      3. 17.4.3 Break/Synch transmission in LIN mode
      4. 17.4.4 Break/Synch reception in LIN mode
      5. 17.4.5 Dormant mode operation
      6. 17.4.6 Event signal generation
      7. 17.4.7 Event signal detection when device is in active/idle modes
      8. 17.4.8 Event signal detection when device is in sleep mode
    5. 17.5 Interface to Host DMA
    6. 17.6 Initialization and Configuration
    7. 17.7 UART Registers
  19. 18Serial Peripheral Interface (SPI)
    1. 18.1 Overview
      1. 18.1.1 Features
      2. 18.1.2 Block Diagram
    2. 18.2 Signal Description
    3. 18.3 Functional Description
      1. 18.3.1  Clock Control
      2. 18.3.2  FIFO Operation
        1. 18.3.2.1 Transmit FIFO
        2. 18.3.2.2 Repeated Transmit Operation
        3. 18.3.2.3 Receive FIFO
        4. 18.3.2.4 FIFO Flush
      3. 18.3.3  Interrupts
      4. 18.3.4  Data Format
      5. 18.3.5  Delayed Data Sampling
      6. 18.3.6  Chip Select Control
      7. 18.3.7  Command Data Control
      8. 18.3.8  Protocol Descriptions
        1. 18.3.8.1 Motorola SPI Frame Format
        2. 18.3.8.2 Texas Instruments Synchronous Serial Frame Format
        3. 18.3.8.3 MICROWIRE Frame Format
      9. 18.3.9  CRC Configuration
      10. 18.3.10 Auto CRC Functionality
      11. 18.3.11 SPI Status
      12. 18.3.12 Debug Halt
    4. 18.4 Host DMA Operation
    5. 18.5 Initialization and Configuration
    6. 18.6 SPI Registers
  20. 19Inter-Integrated Circuit (I2C) Interface
    1. 19.1 Introduction
    2. 19.2 Block Diagram
    3. 19.3 Functional Description
      1. 19.3.1 Clock Control
        1. 19.3.1.1 Internal Clock
        2. 19.3.1.2 External Clock
      2. 19.3.2 General Architecture
        1. 19.3.2.1  Start and Stop Conditions
        2. 19.3.2.2  Data Format with 7-Bit Address
        3. 19.3.2.3  Data Format with 10-Bit Addressing
          1. 19.3.2.3.1 Additional 10-Bit Scenarios
        4. 19.3.2.4  Acknowledge
        5. 19.3.2.5  Repeated Start
        6. 19.3.2.6  Clock Stretching
        7. 19.3.2.7  Arbitration
        8. 19.3.2.8  Multi-Controller mode
        9. 19.3.2.9  Glitch Suppression
        10. 19.3.2.10 FIFO Operation
        11. 19.3.2.11 Burst Mode Operation
        12. 19.3.2.12 DMA Operation
        13. 19.3.2.13 Flush Stale Tx Data in Target Mode
          1. 19.3.2.13.1 Recommended Sequence
        14. 19.3.2.14 SMBUS 3.0 Support
          1. 19.3.2.14.1 Quick Command
          2. 19.3.2.14.2 Acknowledge Control
          3. 19.3.2.14.3 Alert Response protocol
          4. 19.3.2.14.4 Address Resolution Protocol
          5. 19.3.2.14.5 Enhanced Acknowledge Control
    4. 19.4 Initialization and Configuration
    5. 19.5 Interrupts
    6. 19.6 I2C Registers
  21. 20Secure Digital Multimedia Card (SDMMC)
    1. 20.1 Introduction
      1. 20.1.1 SDMMC Features
      2. 20.1.2 Integration
    2. 20.2 Functional Description
      1. 20.2.1  SDMMC Functional Modes
        1. 20.2.1.1 SDMMC Connected to an SD Card
        2. 20.2.1.2 Protocol and Data Format
          1. 20.2.1.2.1 Protocol
          2. 20.2.1.2.2 Data Format
      2. 20.2.2  SD Card Feedback
      3. 20.2.3  Resets
        1. 20.2.3.1 Hardware Reset
        2. 20.2.3.2 Software Reset
      4. 20.2.4  Interrupt Requests
        1. 20.2.4.1 Interrupt-Driven Operation
        2. 20.2.4.2 Polling
      5. 20.2.5  DMA Modes
        1. 20.2.5.1 DMA Peripheral Mode Operations
          1. 20.2.5.1.1 DMA Receive Mode
          2. 20.2.5.1.2 DMA Transmit Mode
      6. 20.2.6  Buffer Management
        1. 20.2.6.1 Data Buffer
          1. 20.2.6.1.1 Memory Size and Block Length
          2. 20.2.6.1.2 Data Buffer Status
      7. 20.2.7  Transfer Process
        1. 20.2.7.1 Different Types of Commands
        2. 20.2.7.2 Different Types of Responses
      8. 20.2.8  Transfer or Command Status and Error Reporting
        1. 20.2.8.1 Busy Timeout for R1b, R5b Response Type
        2. 20.2.8.2 Busy Timeout After Write CRC Status
        3. 20.2.8.3 Write CRC Status Timeout
        4. 20.2.8.4 Read Data Timeout
      9. 20.2.9  Auto Command 12 Timings
        1. 20.2.9.1 Auto Command 12 Timings During Write Transfer
        2. 20.2.9.2 Auto Command 12 Timings During Read Transfer
      10. 20.2.10 Transfer Stop
      11. 20.2.11 Output Signals Generation
        1. 20.2.11.1 Generation on Falling Edge of SDMMC Clock
        2. 20.2.11.2 Generation on Rising Edge of SDMMC Clock
      12. 20.2.12 Test Registers
      13. 20.2.13 SDMMC Hardware Status Features
    3. 20.3 Low-Level Programming Models
      1. 20.3.1 SDMMC Initialization Flow
        1. 20.3.1.1 Enable OCP and CLKADPI Clocks
        2. 20.3.1.2 SD Soft Reset Flow
        3. 20.3.1.3 Set SD Default Capabilities
        4. 20.3.1.4 SDMMC Host and Bus Configuration
      2. 20.3.2 Operational Modes Configuration
        1. 20.3.2.1 Basic Operations for SDMMC
        2. 20.3.2.2 Card Detection, Identification, and Selection
    4. 20.4 SDMMC Registers
  22. 21Secure Digital Input/Output (SDIO)
    1. 21.1 Introduction
    2. 21.2 Block Diagram
    3. 21.3 Functional Description
      1. 21.3.1 SDIO Interface Description
      2. 21.3.2 Protocol and Data Format
      3. 21.3.3 I/O Read/Write Command
        1. 21.3.3.1 IO_WR_DIRECT Command (CMD52)
        2. 21.3.3.2 IO_WR_EXTENDED Command (CMD53)
      4. 21.3.4 Reset
      5. 21.3.5 FIFO Operation
        1. 21.3.5.1 Rx FIFO (For Host Write)
        2. 21.3.5.2 Tx FIFO (For Host Read)
      6. 21.3.6 Interrupt Request
        1. 21.3.6.1 External Host IRQ
        2. 21.3.6.2 M33 IRQ
      7. 21.3.7 Transaction Details
        1. 21.3.7.1 Host write to SDIO IP (Rx FIFO)
          1. 21.3.7.1.1 Host write to SDIO IP (Rx FIFO) – Long SW latency case
          2. 21.3.7.1.2 Host write to SDIO IP (Rx FIFO) – CRC Error Case
        2. 21.3.7.2 Host reads from SDIO (TX buffer)
    4. 21.4 SDIO_CORE Registers
    5. 21.5 SDIO_CARD_FN1 Registers
  23. 22Inter-Integrated Circuit Sound (I2S)
    1. 22.1  Introduction
    2. 22.2  Block Diagram
    3. 22.3  Signal Descriptions
    4. 22.4  Functional Description
      1. 22.4.1 Pin Configuration
      2. 22.4.2 Serial Format Configuration
        1. 22.4.2.1 Register Configuration
      3. 22.4.3 Left-Justified (LJF)
        1. 22.4.3.1 Register Configuration
      4. 22.4.4 Right-Justified (RJF)
        1. 22.4.4.1 Register Configuration
      5. 22.4.5 DSP
        1. 22.4.5.1 Register Configuration
      6. 22.4.6 Clock Configuration
    5. 22.5  Memory Interface
      1. 22.5.1 Sample Word Length
      2. 22.5.2 Padding Mechanism
      3. 22.5.3 Channel Mapping
      4. 22.5.4 Sample Storage in Memory
      5. 22.5.5 DMA Operation
        1. 22.5.5.1 Start-Up
        2. 22.5.5.2 Operation
        3. 22.5.5.3 Shutdown
    6. 22.6  Samplestamp Generator
      1. 22.6.1 Samplestamp Counters
      2. 22.6.2 Start-Up Triggers
      3. 22.6.3 Samplestamp Capture
      4. 22.6.4 Achieving constant audio latency
    7. 22.7  Error Detection
    8. 22.8  Usage
      1. 22.8.1 Start-Up Sequence
      2. 22.8.2 Shutdown Sequence
    9. 22.9  I2S Configuration Guideline
    10. 22.10 I2S Registers
  24. 23Pulse Density Modulation (PDM)
    1. 23.1  Introduction
    2. 23.2  Block Diagram
    3. 23.3  Input Selection
      1. 23.3.1 PDM Data Mode
      2. 23.3.2 Manchester Input Mode
    4. 23.4  CIC Filter
      1. 23.4.1 Filter Design
      2. 23.4.2 Digital Filter Output
      3. 23.4.3 Offset Binary Mode
      4. 23.4.4 Twos-Complement Mode
    5. 23.5  FIFO Organization in Different Modes
      1. 23.5.1 Single Mono Microphone Configuration
        1. 23.5.1.1 24-bit Sample Size
          1. 23.5.1.1.1 32-bit Data Read
        2. 23.5.1.2 16-bit Sample Size
          1. 23.5.1.2.1 32-bit Data Read
          2. 23.5.1.2.2 16-bit Data Read
        3. 23.5.1.3 8-bit Sample Size
          1. 23.5.1.3.1 32-bit Data Read
          2. 23.5.1.3.2 16-bit Data Read
          3. 23.5.1.3.3 8-bit Data Read
      2. 23.5.2 Stereo or Dual Mono Microphone Configuration
        1. 23.5.2.1 24-bit Sample Size
          1. 23.5.2.1.1 32-bit Data Read
        2. 23.5.2.2 16-bit Sample Size
          1. 23.5.2.2.1 32-bit Data Read
          2. 23.5.2.2.2 16-bit Data Read
        3. 23.5.2.3 8-bit Sample Size
          1. 23.5.2.3.1 32-bit Data Read
          2. 23.5.2.3.2 16-bit Data Read
          3. 23.5.2.3.3 8-bit Data Read
      3. 23.5.3 FIFO Threshold Setting
      4. 23.5.4 Reset FIFO
    6. 23.6  Automatic Gain Control (AGC)
      1. 23.6.1 Operation in 2's Complement Format
      2. 23.6.2 Operation in Offset Binary Format
    7. 23.7  Interrupts
    8. 23.8  Clock Select and Control
    9. 23.9  DMA Operation
    10. 23.10 Samplestamp Generator
      1. 23.10.1 Samplestamp Counters
      2. 23.10.2 Start-Up Triggers
      3. 23.10.3 Samplestamp Capture
      4. 23.10.4 Achieving Constant Audio Latency
    11. 23.11 Debug‑Mode Flag Behavior
    12. 23.12 Software Guidelines
    13. 23.13 PDM Registers
  25. 24Analog to Digital Converter (ADC)
    1. 24.1 Overview
    2. 24.2 Block Diagram
    3. 24.3 Functional Description
      1. 24.3.1  ADC Core
      2. 24.3.2  Voltage Reference Options
      3. 24.3.3  Internal Channels
      4. 24.3.4  Resolution Modes
      5. 24.3.5  ADC Clocking
      6. 24.3.6  Power Down Behavior
      7. 24.3.7  Sampling Trigger Sources and Sampling Modes
        1. 24.3.7.1 AUTO Sampling Mode
        2. 24.3.7.2 MANUAL Sampling Mode
      8. 24.3.8  Sampling Period
      9. 24.3.9  Conversion Modes
      10. 24.3.10 ADC Data Format
      11. 24.3.11 Status Register
      12. 24.3.12 ADC Events
        1. 24.3.12.1 Generic Event Publishers (INT_EVENT0 & INT_EVENT1)
        2. 24.3.12.2 DMA Trigger Event Publisher (INT_EVENT2)
        3. 24.3.12.3 Generic Event Subscriber
      13. 24.3.13 Advanced Features
        1. 24.3.13.1 Window Comparator
        2. 24.3.13.2 DMA & FIFO Operation
          1. 24.3.13.2.1 DMA/CPU Operation in Non-FIFO Mode (FIFOEN=0)
          2. 24.3.13.2.2 DMA/CPU Operation in FIFO Mode (FIFOEN=1)
          3. 24.3.13.2.3 DMA/CPU Operation Summary Matrix
        3. 24.3.13.3 Ad-hoc Single Conversion
    4. 24.4 ADC Registers
  26. 25Controller Area Network (CAN)
    1. 25.1 Introduction
    2. 25.2 Functions
    3. 25.3 DCAN Subsystem
    4. 25.4 DCAN Functional Description
      1. 25.4.1 Operating Modes
        1. 25.4.1.1 Software Initialization
        2. 25.4.1.2 Normal Operation
        3. 25.4.1.3 Restricted Operation Mode
        4. 25.4.1.4 Bus Monitoring Mode
        5. 25.4.1.5 Disabled Automatic Retransmission
          1. 25.4.1.5.1 Frame Transmission in DAR Mode
        6. 25.4.1.6 Power Down (Sleep Mode)
          1. 25.4.1.6.1 DCAN clock stop and wake operations
          2. 25.4.1.6.2 DCAN debug suspend operation
        7. 25.4.1.7 Test Modes
          1. 25.4.1.7.1 External Loop Back Mode
          2. 25.4.1.7.2 Internal Loop Back Mode
      2. 25.4.2 Timestamp Generation
        1. 25.4.2.1 Block Diagram
      3. 25.4.3 Timeout Counter
      4. 25.4.4 Rx Handling
        1. 25.4.4.1 Acceptance Filtering
          1. 25.4.4.1.1 Range Filter
          2. 25.4.4.1.2 Filter for specific IDs
          3. 25.4.4.1.3 Classic Bit Mask Filter
          4. 25.4.4.1.4 Standard Message ID Filtering
          5. 25.4.4.1.5 Extended Message ID Filtering
        2. 25.4.4.2 Rx FIFOs
          1. 25.4.4.2.1 Rx FIFO Blocking Mode
          2. 25.4.4.2.2 Rx FIFO Overwrite Mode
        3. 25.4.4.3 Dedicated Rx Buffers
          1. 25.4.4.3.1 Rx Buffer Handling
        4. 25.4.4.4 Debug on CAN Support
          1. 25.4.4.4.1 Filtering for Debug Messages
          2. 25.4.4.4.2 Debug Message Handling
      5. 25.4.5 Tx Handling
        1. 25.4.5.1 Transmit Pause
        2. 25.4.5.2 Dedicated Tx Buffers
        3. 25.4.5.3 Tx FIFO
        4. 25.4.5.4 Tx Queue
        5. 25.4.5.5 Mixed Dedicated Tx Buffers / Tx FIFO
        6. 25.4.5.6 Mixed Dedicated Tx Buffers / Tx Queue
        7. 25.4.5.7 Transmit Cancellation
        8. 25.4.5.8 Tx Event Handling
      6. 25.4.6 FIFO Acknowledge Handling
      7. 25.4.7 DCAN Message RAM
        1. 25.4.7.1 Message RAM Configuration
        2. 25.4.7.2 Rx Buffer and FIFO Element
        3. 25.4.7.3 Tx Buffer Element
        4. 25.4.7.4 Tx Event FIFO Element
        5. 25.4.7.5 Standard Message ID Filter Element
        6. 25.4.7.6 Extended Message ID Filter Element
      8. 25.4.8 Interrupt Requests
    5. 25.5 DCAN Wrapper
    6. 25.6 DCAN Clock Enable
    7. 25.7 DCAN Registers
  27. 26Revision History

3.9.4 DIB Registers

Table 3-83 lists the memory-mapped registers for the DIB registers. All register offset addresses not listed in Table 3-83 should be considered as reserved locations and the register contents should not be modified.

Table 3-83 DIB Registers
OffsetAcronymRegister NameSection
0hDLARProvides CoreSight discovery information for the SCSSection 3.9.4.1
4hDLSRProvides CoreSight discovery information for the SCSSection 3.9.4.2
8hDAUTHSTATUSProvides CoreSight discovery information for the SCSSection 3.9.4.3
ChDDEVARCHProvides CoreSight discovery information for the SCSSection 3.9.4.4
1ChDDEVTYPEProvides CoreSight discovery information for the SCSSection 3.9.4.5
20hDPIDR4Provides CoreSight discovery information for the SCSSection 3.9.4.6
24hDPIDR5Provides CoreSight discovery information for the SCSSection 3.9.4.7
28hDPIDR6Provides CoreSight discovery information for the SCSSection 3.9.4.8
2ChDPIDR7Provides CoreSight discovery information for the SCSSection 3.9.4.9
30hDPIDR0Provides CoreSight discovery information for the SCSSection 3.9.4.10
34hDPIDR1Provides CoreSight discovery information for the SCSSection 3.9.4.11
38hDPIDR2Provides CoreSight discovery information for the SCSSection 3.9.4.12
3ChDPIDR3Provides CoreSight discovery information for the SCSSection 3.9.4.13
40hDCIDR0Provides CoreSight discovery information for the SCSSection 3.9.4.14
44hDCIDR1Provides CoreSight discovery information for the SCSSection 3.9.4.15
48hDCIDR2Provides CoreSight discovery information for the SCSSection 3.9.4.16
4ChDCIDR3Provides CoreSight discovery information for the SCSSection 3.9.4.17

Complex bit access types are encoded to fit into small table cells. Table 3-84 shows the codes that are used for access types in this section.

Table 3-84 DIB Access Type Codes
Access TypeCodeDescription
Read Type
RRRead
Reset or Default Value
-nValue after reset or the default value

3.9.4.1 DLAR Register (Offset = 0h) [Reset = 00000000h]

DLAR is shown in Table 3-85.

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Provides CoreSight discovery information for the SCS

Table 3-85 DLAR Register Field Descriptions
BitFieldTypeResetDescription
31-1RESERVEDR0hReserved
0KEYR0hIndicates whether Non-secure invasive debug is allowed

3.9.4.2 DLSR Register (Offset = 4h) [Reset = 00000000h]

DLSR is shown in Table 3-86.

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Provides CoreSight discovery information for the SCS

Table 3-86 DLSR Register Field Descriptions
BitFieldTypeResetDescription
31-3RESERVEDR08EE0540hDefines the architect of the component. Bits [31:28] are the JEP106 continuation code (JEP106 bank ID, minus 1) and bits [27:21] are the JEP106 ID code.
2nTTR1hIndicates whether Secure invasive debug is implemented and allowed
1SLKR0hIndicates whether Non-secure non-invasive debug is allowed
0SLIR0hIndicates whether Non-secure invasive debug is allowed

3.9.4.3 DAUTHSTATUS Register (Offset = 8h) [Reset = 00000000h]

DAUTHSTATUS is shown in Table 3-87.

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Provides CoreSight discovery information for the SCS

Table 3-87 DAUTHSTATUS Register Field Descriptions
BitFieldTypeResetDescription
31-4RESERVEDR047702A0hDefines the architect of the component. Bits [31:28] are the JEP106 continuation code (JEP106 bank ID, minus 1) and bits [27:21] are the JEP106 ID code.
3SNIDR0hIndicates whether Secure non-invasive debug is implemented and allowed
2SIDR1hIndicates whether Secure invasive debug is implemented and allowed
1NSNIDR0hIndicates whether Non-secure non-invasive debug is allowed
0NSIDR0hIndicates whether Non-secure invasive debug is allowed

3.9.4.4 DDEVARCH Register (Offset = Ch) [Reset = 00000000h]

DDEVARCH is shown in Table 3-88.

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Provides CoreSight discovery information for the SCS

Table 3-88 DDEVARCH Register Field Descriptions
BitFieldTypeResetDescription
31-21ARCHITECTR23BhDefines the architect of the component. Bits [31:28] are the JEP106 continuation code (JEP106 bank ID, minus 1) and bits [27:21] are the JEP106 ID code.
20PRESENTR1hDefines that the DEVARCH register is present
19-16REVISIONR0hDefines the architecture revision of the component
15-12ARCHVERR2hDefines the architecture version of the component
11-0ARCHPARTRA04hDefines the architecture of the component

3.9.4.5 DDEVTYPE Register (Offset = 1Ch) [Reset = 00000000h]

DDEVTYPE is shown in Table 3-89.

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Provides CoreSight discovery information for the SCS

Table 3-89 DDEVTYPE Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-4SUBR0hComponent sub-type
3-0MAJORR0hCoreSight major type

3.9.4.6 DPIDR4 Register (Offset = 20h) [Reset = 00000000h]

DPIDR4 is shown in Table 3-90.

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Provides CoreSight discovery information for the SCS

Table 3-90 DPIDR4 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-4SIZER0hSee CoreSight Architecture Specification
3-0DES_2R4hSee CoreSight Architecture Specification

3.9.4.7 DPIDR5 Register (Offset = 24h) [Reset = 00000000h]

DPIDR5 is shown in Table 3-91.

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Provides CoreSight discovery information for the SCS

Table 3-91 DPIDR5 Register Field Descriptions
BitFieldTypeResetDescription
31-0RES0R0hReserved, RES0

3.9.4.8 DPIDR6 Register (Offset = 28h) [Reset = 00000000h]

DPIDR6 is shown in Table 3-92.

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Provides CoreSight discovery information for the SCS

Table 3-92 DPIDR6 Register Field Descriptions
BitFieldTypeResetDescription
31-0RES0R0hReserved, RES0

3.9.4.9 DPIDR7 Register (Offset = 2Ch) [Reset = 00000000h]

DPIDR7 is shown in Table 3-93.

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Provides CoreSight discovery information for the SCS

Table 3-93 DPIDR7 Register Field Descriptions
BitFieldTypeResetDescription
31-0RES0R0hReserved, RES0

3.9.4.10 DPIDR0 Register (Offset = 30h) [Reset = 00000000h]

DPIDR0 is shown in Table 3-94.

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Provides CoreSight discovery information for the SCS

Table 3-94 DPIDR0 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-0PART_0R21hSee CoreSight Architecture Specification

3.9.4.11 DPIDR1 Register (Offset = 34h) [Reset = 00000000h]

DPIDR1 is shown in Table 3-95.

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Provides CoreSight discovery information for the SCS

Table 3-95 DPIDR1 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-4DES_0RBhSee CoreSight Architecture Specification
3-0PART_1RDhSee CoreSight Architecture Specification

3.9.4.12 DPIDR2 Register (Offset = 38h) [Reset = 00000000h]

DPIDR2 is shown in Table 3-96.

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Provides CoreSight discovery information for the SCS

Table 3-96 DPIDR2 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-4REVISIONR0hSee CoreSight Architecture Specification
3JEDECR1hSee CoreSight Architecture Specification
2-0DES_1R3hSee CoreSight Architecture Specification

3.9.4.13 DPIDR3 Register (Offset = 3Ch) [Reset = 00000000h]

DPIDR3 is shown in Table 3-97.

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Provides CoreSight discovery information for the SCS

Table 3-97 DPIDR3 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-4REVANDR0hSee CoreSight Architecture Specification
3-0CMODR0hSee CoreSight Architecture Specification

3.9.4.14 DCIDR0 Register (Offset = 40h) [Reset = 00000000h]

DCIDR0 is shown in Table 3-98.

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Provides CoreSight discovery information for the SCS

Table 3-98 DCIDR0 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-0PRMBL_0RDhSee CoreSight Architecture Specification

3.9.4.15 DCIDR1 Register (Offset = 44h) [Reset = 00000000h]

DCIDR1 is shown in Table 3-99.

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Provides CoreSight discovery information for the SCS

Table 3-99 DCIDR1 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-4CLASSR9hSee CoreSight Architecture Specification
3-0PRMBL_1R0hSee CoreSight Architecture Specification

3.9.4.16 DCIDR2 Register (Offset = 48h) [Reset = 00000000h]

DCIDR2 is shown in Table 3-100.

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Provides CoreSight discovery information for the SCS

Table 3-100 DCIDR2 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-0PRMBL_2R5hSee CoreSight Architecture Specification

3.9.4.17 DCIDR3 Register (Offset = 4Ch) [Reset = 00000000h]

DCIDR3 is shown in Table 3-101.

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Provides CoreSight discovery information for the SCS

Table 3-101 DCIDR3 Register Field Descriptions
BitFieldTypeResetDescription
31-8RES0RXhReserved, RES0
7-0PRMBL_3RB1hSee CoreSight Architecture Specification