SWRU626
December
2025
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1
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1 Read This First
- 1.1
About This Manual
- 1.2
Register, Field, and Bit Calls
-
Trademarks
-
2 Architecture Overview
- 2.1
Target Applications
- 2.2
Introduction
- 2.3
Internal System Diagram
- 2.4
Arm Cortex M33
- 2.4.1
Processor Core
- 2.4.2
SysTick Timer
- 2.4.3
Nested Vectored Interrupt Controller
- 2.4.4
System Control Block (SCB)
- 2.4.5
TI AI instruction extensions
- 2.5
Power Management
- 2.5.1
VDD_MAIN
- 2.5.2
VDD_IO
- 2.5.3
VDDSF
- 2.5.4
VDD_PA
- 2.6
Debug Subsystem (DEBUGSS)
- 2.7
Memory Subsystem (MEMSS)
- 2.7.1
External Memory Interface
- 2.8
Hardware Security Module
- 2.9
General Purpose Timers (GPT)
- 2.10
Real Time Clock (RTC)
- 2.11
Direct Memory Access
- 2.12
GPIOs
- 2.13
Communication Peripherals
- 2.13.1
UART
- 2.13.2
I2C
- 2.13.3
SPI
- 2.13.4
I2S
- 2.13.5
SDMMC
- 2.13.6
SDIO
- 2.13.7
CAN
- 2.13.8
ADC
-
3
Arm
Cortex-M33 Processor
- 3.1
Arm Cortex-M33 Processor Introduction
- 3.2
Block Diagram
- 3.3
M33 instantiation parameters
- 3.4
Arm Cortex-M33 System Peripheral Details
- 3.4.1
Floating Point Unit (FPU)
- 3.4.2
Memory Protection Unit (MPU)
- 3.4.3
Digital Signal Processing (DSP)
- 3.4.4
Security Attribution Unit (SAU)
- 3.4.5
System Timer
- 3.4.6
Nested Vectored Interrupt Controller
- 3.4.7
System Control Block
- 3.4.8
System Control Space
- 3.5
CPU Sub-System Peripheral Details
- 3.5.1
Trace Port Interface Unit (TPIU)
- 3.5.2
DAP Bridge and Debug Authentication
- 3.5.3
Implementation Defined Attribution Unit (IDAU)
- 3.6
Programming Model
- 3.6.1
Modes of operation and execution
- 3.6.1.1
Security states
- 3.6.1.2
Operating modes
- 3.6.1.3
Operating states
- 3.6.1.4
Privileged access and unprivileged user access
- 3.6.2
Instruction set summary
- 3.6.3
Memory model
- 3.6.3.1
Private Peripheral Bus
- 3.6.3.2
Unaligned accesses
- 3.6.4
Processor core registers summary
- 3.6.5
Exceptions
- 3.6.5.1
Exception handling and prioritization
- 3.7
TrustZone-M
- 3.7.1
Overview
- 3.7.2
M33 Configuration
- 3.7.3
Description of elements
- 3.7.3.1
IDAU (Implementation Defined Attribution
Unit)
- 3.7.3.1.1
Expected use
- 3.8
CC35xx Host MCU Registers
- 3.8.1
HOSTMCU_AON Registers
- 3.8.2
HOST_MCU Registers
- 3.8.3
HOST_MCU_SEC Registers
- 3.9
Arm® Cortex®-M33
Registers
- 3.9.1
CPU_ROM_TABLE Registers
- 3.9.2
TPIU Registers
- 3.9.3
DCB Registers
- 3.9.4
DIB Registers
- 3.9.5
DWT Registers
- 3.9.6
FPB Registers
- 3.9.7
FPE Registers
- 3.9.8
ICB Registers
- 3.9.9
ITM Registers
- 3.9.10
MPU Registers
- 3.9.11
NVIC Registers
- 3.9.12
SAU Registers
- 3.9.13
SCB Registers
- 3.9.14
SYSTIMER Registers
- 3.9.15
SYSTICK Registers
-
4 Memory Map
- 4.1
Memory Map
-
5 Interrupts and Events
- 5.1
Exception Model
- 5.1.1
Exception States
- 5.1.2
Exception Types
- 5.1.3
Exception Handlers
- 5.1.4
Vector Table
- 5.1.5
Exception Priorities
- 5.1.6
Interrupt Priority Grouping
- 5.1.7
Exception Entry and Return
- 5.1.7.1
Exception Entry
- 5.1.7.2
Exception Return
- 5.2
Fault Handling
- 5.2.1
Fault Types
- 5.2.2
Fault Escalation to HardFault
- 5.2.3
Fault Status Registers and Fault Address
Registers
- 5.2.4
Lockup
- 5.3
Security State Switches
- 5.4
Event Manager
- 5.4.1
Introduction
- 5.4.2
Interrupts List
- 5.4.3
Wakeup Sources
- 5.4.4
Shared Peripherals MUX Selector
- 5.4.4.1
ADC HW Event Selector Mux
- 5.4.4.2
I2S HW Event Selector Mux
- 5.4.4.3
PDM HW Event Selector Mux
- 5.4.5
Timers MUX Selector Mux
- 5.4.5.1
SysTimer0 HW Event Selector Mux
- 5.4.5.2
SysTimer1 HW Event Selector Mux
- 5.4.5.3
RTC HW Event Selector Mux
- 5.4.6
GPTIMERs MUX Selector Mux
- 5.4.6.1
GPTIMER0 HW Event Selector Mux
- 5.4.6.2
GPTIMER1 HW Event Selector Mux
- 5.5
SOC_IC Registers
- 5.6
SOC_AON Registers
- 5.7
SOC_AAON Registers
-
6 Debug Subsystem (DEBUGSS)
- 6.1
Introduction
- 6.2
Block Diagram
- 6.3
Overview
- 6.4
Physical Interface
- 6.5
Debug Access Ports
- 6.6
Debug Features
- 6.6.1
Processor Debug
- 6.6.2
Breakpoint Unit (BPU)
- 6.6.3
Peripheral Debug
- 6.7
Behavior in Low Power Modes
- 6.8
Debug Access Control
- 6.9
SOC_DEBUGSS Registers
-
7 Power, Reset, Clock Management
- 7.1
Power Management
- 7.1.1
Power Supply System
- 7.1.1.1
VDD_MAIN
- 7.1.1.2
VIO
- 7.1.1.3
VDDSF
- 7.1.1.4
VPA
- 7.1.2
Power States
- 7.1.3
Power Domains
- 7.1.4
Brownout (BOR)
- 7.1.5
Boot Sequence
- 7.2
Reset
- 7.2.1
Reset Cause
- 7.2.2
Watchdog Timer (WDT)
- 7.3
Clocks
- 7.3.1
Fast Clock
- 7.3.2
Slow Clock
- 7.3.2.1
Slow Clock Overview
- 7.3.2.2
Slow Clock Tree
- 7.3.2.3
Slow Clock Boot Process
- 7.4
PRCM_AON Registers
- 7.5
PRCM_SCRATCHPAD Registers
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8 Memory Subsystem (MEMSS)
- 8.1
Introduction
- 8.2
SRAM
- 8.3
D-Cache
- 8.4
Flash
- 8.5
PSRAM
- 8.6
XiP Memory Access
- 8.6.1
OTFDE
- 8.6.2
xSPI
- 8.6.3
Topology
- 8.6.4
µDMA
- 8.6.5
Arbiter
- 8.7
ICACHE Registers
- 8.8
DCACHE Registers
- 8.9
OSPI Registers
- 8.10
HOST_XIP Registers
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9 Hardware Security Module (HSM)
- 9.1
Introduction
- 9.2
Overview
- 9.3
Mailbox and Register Access Firewall
- 9.4
DMA Firewall
- 9.5
HSM Key Storage
- 9.6
HSM Registers
- 9.7
HSM_NON_SEC Registers
- 9.8
HSM_SEC Registers
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10Device Boot and Bootloader
- 10.1
CC35xx Boot Concept
- 10.2
Features
- 10.3
Vendor Images Format and Processing
- 10.3.1
External Flash Arrangement
- 10.3.2
Vendor Images Format
- 10.4
Boot Flows
- 10.4.1
Application Execution Boot Flow
- 10.4.2
Activation Flow
- 10.4.3
Initial Programming Flow
- 10.4.4
Reprogramming Flow
- 10.4.5
Wireless Connectivity Testing Tool
Flow
- 10.5
Chain of Trust
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11Direct Memory Access (DMA)
- 11.1
Overview
- 11.2
Block Diagram
- 11.3
Functional Description
- 11.3.1
Channels Assignment
- 11.3.2
Transfer Types
- 11.3.3
Addressing Modes
- 11.3.4
Transfer Modes
- 11.3.5
DMA Aligner Support
- 11.3.6
Initiating DMA Transfers
- 11.3.7
Stopping DMA Transfers
- 11.3.8
Channel Priorities
- 11.3.9
DMA Interrupts
- 11.4
HOST_DMA Registers
-
12One Time Programming (OTP)
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13General Purpose Timers (GPT)
- 13.1
Overview
- 13.2
Block Diagram
- 13.3
Functional Description
- 13.3.1
Prescaler
- 13.3.2
Counter
- 13.3.3
Target
- 13.3.4
Channel Input Logic
- 13.3.5
Channel Output Logic
- 13.3.6
Channel Actions
- 13.3.6.1
Period and Pulse Width Measurement
- 13.3.6.2
Clear on Zero, Toggle on Compare
Repeatedly
- 13.3.6.3
Set on Zero, Toggle on Compare
Repeatedly
- 13.3.7
Channel Capture Configuration
- 13.3.8
Channel Filters
- 13.3.8.1
Setting up the Channel Filters
- 13.3.9
Synchronize Multiple GPTimers
- 13.3.10
Interrupts, ADC Trigger, and DMA
Request
- 13.4
Timer Modes
- 13.4.1
Quadrature Decoder
- 13.4.2
DMA
- 13.4.3
IR Generation
- 13.4.4
Fault and Park
- 13.4.5
Dead-Band
- 13.4.6
Dead-Band, Fault and Park
- 13.4.7
Example Application: Brushless DC (BLDC)
Motor
- 13.5
GPTIMER Registers
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14System Timer (SysTimer)
- 14.1
Overview
- 14.2
Block Diagram
- 14.3
Functional Description
- 14.3.1
Common Channel Features
- 14.3.1.1
Compare Mode
- 14.3.1.2
Capture Mode
- 14.3.1.3
Additional Channel Arming Methods
- 14.3.2
Interrupts and Events
- 14.4
SYSRESOURCES Registers
- 14.5
SYSTIM Registers
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15Real-Time Clock (RTC)
- 15.1
Introduction
- 15.2
Block Diagram
- 15.3
Interrupts and Events
- 15.3.1
Input Event
- 15.3.2
Output Event
- 15.3.3
Arming and Disarming Channels
- 15.4
CAPTURE and COMPARE Configurations
- 15.4.1
CHANNEL 0 - COMPARE CHANNEL
- 15.4.2
CHANNEL 1 - CAPTURE CHANNEL
- 15.5
RTC Registers
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16General Purpose Input/Output
(GPIOs)
- 16.1
Introduction
- 16.2
Block Diagram
- 16.3
I/O Mapping and Configuration
- 16.3.1
Basic I/O Mapping
- 16.3.2
Pin Mapping
- 16.4
Edge Detection
- 16.5
GPIO
- 16.6
I/O Pins
- 16.7
Unused Pins
- 16.8
IOMUX Registers
-
17Universal Asynchronous
Receivers/Transmitters (UART)
- 17.1
Introduction
- 17.2
Block Diagram
- 17.3
UART Functional Description
- 17.3.1
Transmit and Receive Logic
- 17.3.2
Baud Rate Generation
- 17.3.3
FIFO Operation
- 17.3.3.1
FIFO Remapping
- 17.3.4
Data Transmission
- 17.3.5
Flow Control
- 17.3.6
IrDA Encoding and Decoding
- 17.3.7
Interrupts
- 17.3.8
Loopback Operation
- 17.4
UART-LIN Specification
- 17.4.1
Break transmission in UART mode
- 17.4.2
Break reception in UART mode
- 17.4.3
Break/Synch transmission in LIN mode
- 17.4.4
Break/Synch reception in LIN mode
- 17.4.5
Dormant mode operation
- 17.4.6
Event signal generation
- 17.4.7
Event signal detection when device is in
active/idle modes
- 17.4.8
Event signal detection when device is in sleep
mode
- 17.5
Interface to Host DMA
- 17.6
Initialization and Configuration
- 17.7
UART Registers
-
18Serial Peripheral Interface
(SPI)
- 18.1
Overview
- 18.1.1
Features
- 18.1.2
Block Diagram
- 18.2
Signal Description
- 18.3
Functional Description
- 18.3.1
Clock Control
- 18.3.2
FIFO Operation
- 18.3.2.1
Transmit FIFO
- 18.3.2.2
Repeated Transmit Operation
- 18.3.2.3
Receive FIFO
- 18.3.2.4
FIFO Flush
- 18.3.3
Interrupts
- 18.3.4
Data Format
- 18.3.5
Delayed Data Sampling
- 18.3.6
Chip Select Control
- 18.3.7
Command Data Control
- 18.3.8
Protocol Descriptions
- 18.3.8.1
Motorola SPI Frame Format
- 18.3.8.2
Texas Instruments Synchronous Serial Frame
Format
- 18.3.8.3
MICROWIRE Frame Format
- 18.3.9
CRC Configuration
- 18.3.10
Auto CRC Functionality
- 18.3.11
SPI Status
- 18.3.12
Debug Halt
- 18.4
Host DMA Operation
- 18.5
Initialization and Configuration
- 18.6
SPI Registers
-
19Inter-Integrated Circuit (I2C)
Interface
- 19.1
Introduction
- 19.2
Block Diagram
- 19.3
Functional Description
- 19.3.1
Clock Control
- 19.3.1.1
Internal Clock
- 19.3.1.2
External Clock
- 19.3.2
General Architecture
- 19.3.2.1
Start and Stop Conditions
- 19.3.2.2
Data Format with 7-Bit Address
- 19.3.2.3
Data Format with 10-Bit Addressing
- 19.3.2.3.1
Additional 10-Bit Scenarios
- 19.3.2.4
Acknowledge
- 19.3.2.5
Repeated Start
- 19.3.2.6
Clock Stretching
- 19.3.2.7
Arbitration
- 19.3.2.8
Multi-Controller mode
- 19.3.2.9
Glitch Suppression
- 19.3.2.10
FIFO Operation
- 19.3.2.11
Burst Mode Operation
- 19.3.2.12
DMA Operation
- 19.3.2.13
Flush Stale Tx Data in Target Mode
- 19.3.2.13.1
Recommended Sequence
- 19.3.2.14
SMBUS 3.0 Support
- 19.3.2.14.1
Quick Command
- 19.3.2.14.2
Acknowledge Control
- 19.3.2.14.3
Alert Response protocol
- 19.3.2.14.4
Address Resolution Protocol
- 19.3.2.14.5
Enhanced Acknowledge Control
- 19.4
Initialization and Configuration
- 19.5
Interrupts
- 19.6
I2C Registers
-
20Secure Digital Multimedia Card
(SDMMC)
- 20.1
Introduction
- 20.1.1
SDMMC Features
- 20.1.2
Integration
- 20.2
Functional Description
- 20.2.1
SDMMC Functional Modes
- 20.2.1.1
SDMMC Connected to an SD Card
- 20.2.1.2
Protocol and Data Format
- 20.2.1.2.1
Protocol
- 20.2.1.2.2
Data Format
- 20.2.2
SD Card Feedback
- 20.2.3
Resets
- 20.2.3.1
Hardware Reset
- 20.2.3.2
Software Reset
- 20.2.4
Interrupt Requests
- 20.2.4.1
Interrupt-Driven Operation
- 20.2.4.2
Polling
- 20.2.5
DMA Modes
- 20.2.5.1
DMA Peripheral Mode Operations
- 20.2.5.1.1
DMA Receive Mode
- 20.2.5.1.2
DMA Transmit Mode
- 20.2.6
Buffer Management
- 20.2.6.1
Data Buffer
- 20.2.6.1.1
Memory Size and Block Length
- 20.2.6.1.2
Data Buffer Status
- 20.2.7
Transfer Process
- 20.2.7.1
Different Types of Commands
- 20.2.7.2
Different Types of Responses
- 20.2.8
Transfer or Command Status and Error
Reporting
- 20.2.8.1
Busy Timeout for R1b, R5b Response
Type
- 20.2.8.2
Busy Timeout After Write CRC Status
- 20.2.8.3
Write CRC Status Timeout
- 20.2.8.4
Read Data Timeout
- 20.2.9
Auto Command 12 Timings
- 20.2.9.1
Auto Command 12 Timings During Write
Transfer
- 20.2.9.2
Auto Command 12 Timings During Read
Transfer
- 20.2.10
Transfer Stop
- 20.2.11
Output Signals Generation
- 20.2.11.1
Generation on Falling Edge of SDMMC
Clock
- 20.2.11.2
Generation on Rising Edge of SDMMC
Clock
- 20.2.12
Test Registers
- 20.2.13
SDMMC Hardware Status Features
- 20.3
Low-Level Programming Models
- 20.3.1
SDMMC Initialization Flow
- 20.3.1.1
Enable OCP and CLKADPI Clocks
- 20.3.1.2
SD Soft Reset Flow
- 20.3.1.3
Set SD Default Capabilities
- 20.3.1.4
SDMMC Host and Bus Configuration
- 20.3.2
Operational Modes Configuration
- 20.3.2.1
Basic Operations for SDMMC
- 20.3.2.2
Card Detection, Identification, and
Selection
- 20.4
SDMMC Registers
-
21Secure Digital Input/Output
(SDIO)
- 21.1
Introduction
- 21.2
Block Diagram
- 21.3
Functional Description
- 21.3.1
SDIO Interface Description
- 21.3.2
Protocol and Data Format
- 21.3.3
I/O Read/Write Command
- 21.3.3.1
IO_WR_DIRECT Command (CMD52)
- 21.3.3.2
IO_WR_EXTENDED Command (CMD53)
- 21.3.4
Reset
- 21.3.5
FIFO Operation
- 21.3.5.1
Rx FIFO (For Host Write)
- 21.3.5.2
Tx FIFO (For Host Read)
- 21.3.6
Interrupt Request
- 21.3.6.1
External Host IRQ
- 21.3.6.2
M33 IRQ
- 21.3.7
Transaction Details
- 21.3.7.1
Host write to SDIO IP (Rx FIFO)
- 21.3.7.1.1
Host write to SDIO IP (Rx FIFO) – Long SW
latency case
- 21.3.7.1.2
Host write to SDIO IP (Rx FIFO) – CRC Error
Case
- 21.3.7.2
Host reads from SDIO (TX buffer)
- 21.4
SDIO_CORE Registers
- 21.5
SDIO_CARD_FN1 Registers
-
22Inter-Integrated Circuit Sound
(I2S)
- 22.1
Introduction
- 22.2
Block Diagram
- 22.3
Signal Descriptions
- 22.4
Functional Description
- 22.4.1
Pin Configuration
- 22.4.2
Serial Format Configuration
- 22.4.2.1
Register Configuration
- 22.4.3
Left-Justified (LJF)
- 22.4.3.1
Register Configuration
- 22.4.4
Right-Justified (RJF)
- 22.4.4.1
Register Configuration
- 22.4.5
DSP
- 22.4.5.1
Register Configuration
- 22.4.6
Clock Configuration
- 22.5
Memory Interface
- 22.5.1
Sample Word Length
- 22.5.2
Padding Mechanism
- 22.5.3
Channel Mapping
- 22.5.4
Sample Storage in Memory
- 22.5.5
DMA Operation
- 22.5.5.1
Start-Up
- 22.5.5.2
Operation
- 22.5.5.3
Shutdown
- 22.6
Samplestamp Generator
- 22.6.1
Samplestamp Counters
- 22.6.2
Start-Up Triggers
- 22.6.3
Samplestamp Capture
- 22.6.4
Achieving constant audio latency
- 22.7
Error Detection
- 22.8
Usage
- 22.8.1
Start-Up Sequence
- 22.8.2
Shutdown Sequence
- 22.9
I2S Configuration Guideline
- 22.10
I2S Registers
-
23Pulse Density Modulation (PDM)
- 23.1
Introduction
- 23.2
Block Diagram
- 23.3
Input Selection
- 23.3.1
PDM Data Mode
- 23.3.2
Manchester Input Mode
- 23.4
CIC Filter
- 23.4.1
Filter Design
- 23.4.2
Digital Filter Output
- 23.4.3
Offset Binary Mode
- 23.4.4
Twos-Complement Mode
- 23.5
FIFO Organization in Different Modes
- 23.5.1
Single Mono Microphone Configuration
- 23.5.1.1
24-bit Sample Size
- 23.5.1.1.1
32-bit Data Read
- 23.5.1.2
16-bit Sample Size
- 23.5.1.2.1
32-bit Data Read
- 23.5.1.2.2
16-bit Data Read
- 23.5.1.3
8-bit Sample Size
- 23.5.1.3.1
32-bit Data Read
- 23.5.1.3.2
16-bit Data Read
- 23.5.1.3.3
8-bit Data Read
- 23.5.2
Stereo or Dual Mono Microphone
Configuration
- 23.5.2.1
24-bit Sample Size
- 23.5.2.1.1
32-bit Data Read
- 23.5.2.2
16-bit Sample Size
- 23.5.2.2.1
32-bit Data Read
- 23.5.2.2.2
16-bit Data Read
- 23.5.2.3
8-bit Sample Size
- 23.5.2.3.1
32-bit Data Read
- 23.5.2.3.2
16-bit Data Read
- 23.5.2.3.3
8-bit Data Read
- 23.5.3
FIFO Threshold Setting
- 23.5.4
Reset FIFO
- 23.6
Automatic Gain Control (AGC)
- 23.6.1
Operation in 2's Complement Format
- 23.6.2
Operation in Offset Binary Format
- 23.7
Interrupts
- 23.8
Clock Select and Control
- 23.9
DMA Operation
- 23.10
Samplestamp Generator
- 23.10.1
Samplestamp Counters
- 23.10.2
Start-Up Triggers
- 23.10.3
Samplestamp Capture
- 23.10.4
Achieving Constant Audio Latency
- 23.11
Debug‑Mode Flag Behavior
- 23.12
Software Guidelines
- 23.13
PDM Registers
-
24Analog to Digital Converter (ADC)
- 24.1
Overview
- 24.2
Block Diagram
- 24.3
Functional Description
- 24.3.1
ADC Core
- 24.3.2
Voltage Reference Options
- 24.3.3
Internal Channels
- 24.3.4
Resolution Modes
- 24.3.5
ADC Clocking
- 24.3.6
Power Down Behavior
- 24.3.7
Sampling Trigger Sources and Sampling
Modes
- 24.3.7.1
AUTO Sampling Mode
- 24.3.7.2
MANUAL Sampling Mode
- 24.3.8
Sampling Period
- 24.3.9
Conversion Modes
- 24.3.10
ADC Data Format
- 24.3.11
Status Register
- 24.3.12
ADC Events
- 24.3.12.1
Generic Event Publishers (INT_EVENT0 &
INT_EVENT1)
- 24.3.12.2
DMA Trigger Event Publisher
(INT_EVENT2)
- 24.3.12.3
Generic Event Subscriber
- 24.3.13
Advanced Features
- 24.3.13.1
Window Comparator
- 24.3.13.2
DMA & FIFO Operation
- 24.3.13.2.1
DMA/CPU Operation in Non-FIFO Mode
(FIFOEN=0)
- 24.3.13.2.2
DMA/CPU Operation in FIFO Mode
(FIFOEN=1)
- 24.3.13.2.3
DMA/CPU Operation Summary Matrix
- 24.3.13.3
Ad-hoc Single Conversion
- 24.4
ADC Registers
-
25Controller Area Network (CAN)
- 25.1
Introduction
- 25.2
Functions
- 25.3
DCAN Subsystem
- 25.4
DCAN Functional Description
- 25.4.1
Operating Modes
- 25.4.1.1
Software Initialization
- 25.4.1.2
Normal Operation
- 25.4.1.3
Restricted Operation Mode
- 25.4.1.4
Bus Monitoring Mode
- 25.4.1.5
Disabled Automatic Retransmission
- 25.4.1.5.1
Frame Transmission in DAR Mode
- 25.4.1.6
Power Down (Sleep Mode)
- 25.4.1.6.1
DCAN clock stop and wake operations
- 25.4.1.6.2
DCAN debug suspend operation
- 25.4.1.7
Test Modes
- 25.4.1.7.1
External Loop Back Mode
- 25.4.1.7.2
Internal Loop Back Mode
- 25.4.2
Timestamp Generation
- 25.4.2.1
Block Diagram
- 25.4.3
Timeout Counter
- 25.4.4
Rx Handling
- 25.4.4.1
Acceptance Filtering
- 25.4.4.1.1
Range Filter
- 25.4.4.1.2
Filter for specific IDs
- 25.4.4.1.3
Classic Bit Mask Filter
- 25.4.4.1.4
Standard Message ID Filtering
- 25.4.4.1.5
Extended Message ID Filtering
- 25.4.4.2
Rx FIFOs
- 25.4.4.2.1
Rx FIFO Blocking Mode
- 25.4.4.2.2
Rx FIFO Overwrite Mode
- 25.4.4.3
Dedicated Rx Buffers
- 25.4.4.3.1
Rx Buffer Handling
- 25.4.4.4
Debug on CAN Support
- 25.4.4.4.1
Filtering for Debug Messages
- 25.4.4.4.2
Debug Message Handling
- 25.4.5
Tx Handling
- 25.4.5.1
Transmit Pause
- 25.4.5.2
Dedicated Tx Buffers
- 25.4.5.3
Tx FIFO
- 25.4.5.4
Tx Queue
- 25.4.5.5
Mixed Dedicated Tx Buffers / Tx FIFO
- 25.4.5.6
Mixed Dedicated Tx Buffers / Tx Queue
- 25.4.5.7
Transmit Cancellation
- 25.4.5.8
Tx Event Handling
- 25.4.6
FIFO Acknowledge Handling
- 25.4.7
DCAN Message RAM
- 25.4.7.1
Message RAM Configuration
- 25.4.7.2
Rx Buffer and FIFO Element
- 25.4.7.3
Tx Buffer Element
- 25.4.7.4
Tx Event FIFO Element
- 25.4.7.5
Standard Message ID Filter Element
- 25.4.7.6
Extended Message ID Filter Element
- 25.4.8
Interrupt Requests
- 25.5
DCAN Wrapper
- 25.6
DCAN Clock Enable
- 25.7
DCAN Registers
-
26Revision History