SPRUJ79 User guide

SPRUJ79A November 2024 – December 2025 F29H850TU , F29H859TU-Q1

1
Read This First
1. About This Manual
2. Notational Conventions
3. Glossary
4. Related Documentation From Texas Instruments
5. Support Resources
6. Trademarks
► C29x SYSTEM RESOURCES
1. Technical Reference Manual Overview
1 C29x Processor
1. 1.1 CPU Architecture
  1. 1.1.1 C29x Related Collateral
2. 1.2 Lock and Commit Registers
3. 1.3 C29x CPU Registers
2 System Control and Interrupts
1. 2.1 C29x System Control Introduction
2. 2.2 System Control Functional Description
  1. 2.2.1 Device Identification
  2. 2.2.2 Device Configuration Registers
3. 2.3 Resets
4. 2.4 Interrupts
  1. 2.4.1 External Interrupts (XINT)
5. 2.5 Safety Features
6. 2.6 Clocking
7. 2.7 Bus Architecture
8. 2.8 32-Bit CPU Timers 0/1/2
9. 2.9 Watchdog Timers
10. 2.10 Low-Power Modes
  1. 2.10.1 IDLE
  2. 2.10.2 STANDBY
11. 2.11 Memory Subsystem (MEMSS)
12. 2.12 System Control Register Configuration Restrictions
13. 2.13 Software
14. 2.14 SYSCTRL Registers
3 ROM Code and Peripheral Booting
1. 3.1 Introduction
  1. 3.1.1 ROM Related Collateral
2. 3.2 Device Boot Sequence
3. 3.3 Device Boot Modes
  1. 3.3.1 Default Boot Modes
  2. 3.3.2 Custom Boot Modes
4. 3.4 Device Boot Configurations
5. 3.5 Device Boot Flow Diagrams
6. 3.6 Device Reset and Exception Handling
  1. 3.6.1 Reset Causes and Handling
  2. 3.6.2 Exceptions and Interrupts Handling
7. 3.7 Boot ROM Description
8. 3.8 Software
  1. 3.8.1 BOOT Examples
4 Lockstep Compare Module (LCM)
1. 4.1 Introduction
2. 4.2 Enabling LCM Comparators
3. 4.3 LCM Redundant Module Configuration
4. 4.4 LCM Error Handling
5. 4.5 Register Parity Error Protection
6. 4.6 Functional Logic
7. 4.7 Software
  1. 4.7.1 LCM Registers to Driverlib Functions
8. 4.8 LCM Registers
  1. 4.8.1 LCM Base Address Table
  2. 4.8.2 LCM_REGS Registers
5 Peripheral Interrupt Priority and Expansion (PIPE)
1. 5.1 Introduction
2. 5.2 Interrupt Controller Architecture
3. 5.3 Interrupt Propagation
4. 5.4 Configuring Interrupts
5. 5.5 Safety and Security
6. 5.6 Software
  1. 5.6.1 PIPE Registers to Driverlib Functions
  2. 5.6.2 INTERRUPT Examples
7. 5.7 PIPE Registers
  1. 5.7.1 PIPE Base Address Table
  2. 5.7.2 PIPE_REGS Registers
6 Error Aggregator
1. 6.1 Introduction
2. 6.2 Error Aggregator Modules
3. 6.3 Error Propagation Path from Source to CPU
4. 6.4 Error Aggregator Interface
  1. 6.4.1 Functional Description
5. 6.5 Error Condition Handling User Guide
6. 6.6 Error Type Information
7. 6.7 Error Sources Information
8. 6.8 Software
  1. 6.8.1 ERROR_AGGREGATOR Registers to Driverlib Functions
9. 6.9 ERRORAGGREGATOR Registers
7 Error Signaling Module (ESM_C29)
1. 7.1 Introduction
  1. 7.1.1 Features
  2. 7.1.2 ESM Related Collateral
2. 7.2 ESM Subsystem
3. 7.3 ESM Functional Description
4. 7.4 ESM Configuration Guide
5. 7.5 Interrupt Condition Control and Handling
6. 7.6 Software
7. 7.7 ESM Registers
8 Flash Module
1. 8.1 Introduction to Flash Memory
2. 8.2 Flash Subsystem Overview
3. 8.3 Flash Banks and Pumps
4. 8.4 Flash Read Interfaces
5. 8.5 Flash Erase and Program
6. 8.6 Read-While-Write Constraints
7. 8.7 Migrating an Application from RAM to Flash
8. 8.8 Flash Registers
9 Safety and Security Unit (SSU)
1. 9.1 Introduction
2. 9.2 Access Protection Ranges
  1. 9.2.1 Access Protection Inheritance
3. 9.3 LINKs
4. 9.4 STACKs
5. 9.5 ZONEs
6. 9.6 SSU-CPU Interface
  1. 9.6.1 SSU Operation in Lockstep Mode
7. 9.7 SSU Operation Modes
8. 9.8 Security Configuration and Flash Management
9. 9.9 Flash Write/Erase Access Control
10. 9.10 RAMOPEN Feature
11. 9.11 Booting of CPU2 and CPU3
12. 9.12 Debug Authorization
13. 9.13 Hardcoded Protections
14. 9.14 SSU Register Access Permissions
15. 9.15 SSU Fault Signals
16. 9.16 Software
  1. 9.16.1 SSU Registers to Driverlib Functions
17. 9.17 SSU Registers
18. 9.18 C29DEBUGSS Registers
  1. 9.18.1 C29DEBUGSS Base Address Table
  2. 9.18.2 SECAP_HANDLER_REGS Registers
10Configurable Logic Block (CLB)
1. 10.1 Introduction
  1. 10.1.1 CLB Related Collateral
2. 10.2 Description
  1. 10.2.1 CLB Clock
3. 10.3 CLB Input/Output Connection
4. 10.4 CLB Tile
5. 10.5 CPU Interface
  1. 10.5.1 Register Description
  2. 10.5.2 Non-Memory Mapped Registers
6. 10.6 RTDMA Access
7. 10.7 CLB Data Export Through SPI RX Buffer
8. 10.8 CLB Pipeline Mode
9. 10.9 Software
  1. 10.9.1 CLB Registers to Driverlib Functions
  2. 10.9.2 CLB Examples
10. 10.10 CLB Registers
11Dual-Clock Comparator (DCC)
1. 11.1 Introduction
  1. 11.1.1 Features
  2. 11.1.2 Block Diagram
2. 11.2 Module Operation
3. 11.3 Interrupts
4. 11.4 Software
  1. 11.4.1 DCC Registers to Driverlib Functions
  2. 11.4.2 DCC Examples
5. 11.5 DCC Registers
  1. 11.5.1 DCC Base Address Table
  2. 11.5.2 DCC_REGS Registers
12Real-Time Direct Memory Access (RTDMA)
1. 12.1 Introduction
2. 12.2 RTDMA Trigger Source Options
3. 12.3 RTDMA Bus
4. 12.4 Address Pointer and Transfer Control
5. 12.5 Pipeline Timing and Throughput
6. 12.6 Channel Priority
  1. 12.6.1 Round-Robin Mode
  2. 12.6.2 Software Configurable Priority of Channels
7. 12.7 Overrun Detection Feature
8. 12.8 Burst Mode
9. 12.9 Safety and Security
10. 12.10 Software
  1. 12.10.1 RTDMA Registers to Driverlib Functions
  2. 12.10.2 RTDMA Examples
11. 12.11 RTDMA Registers
13External Memory Interface (EMIF)
1. 13.1 Introduction
2. 13.2 EMIF Module Architecture
3. 13.3 EMIF Subsystem (EMIFSS)
4. 13.4 Example Configuration
  1. 13.4.1 Hardware Interface
  2. 13.4.2 Software Configuration
    1. 13.4.2.1 Configuring the SDRAM Interface
    2. 13.4.2.2 Configuring the Flash Interface
      1. 13.4.2.2.1 Asynchronous 1 Configuration Register (ASYNC_CS2_CFG) Settings for EMIF to LH28F800BJE-PTTL90 Interface
5. 13.5 Software
  1. 13.5.1 EMIF Registers to Driverlib Functions
  2. 13.5.2 EMIF Examples
6. 13.6 EMIF Registers
  1. 13.6.1 EMIF Base Address Table
  2. 13.6.2 EMIF_REGS Registers
14General-Purpose Input/Output (GPIO)
1. 14.1 Introduction
  1. 14.1.1 GPIO Related Collateral
2. 14.2 Configuration Overview
3. 14.3 Digital Inputs on ADC Pins (AIOs)
4. 14.4 Digital Inputs and Outputs on ADC Pins (AGPIOs)
5. 14.5 Digital General-Purpose I/O Control
6. 14.6 Input Qualification
7. 14.7 PMBUS and I2C Signals
8. 14.8 GPIO and Peripheral Muxing
  1. 14.8.1 GPIO Muxing
  2. 14.8.2 Peripheral Muxing
9. 14.9 Internal Pullup Configuration Requirements
10. 14.10 Open-Drain Configuration Requirements
11. 14.11 Software
12. 14.12 GPIO Registers
15Interprocessor Communication (IPC)
1. 15.1 Introduction
2. 15.2 IPC Flags and Interrupts
3. 15.3 IPC Command Registers
4. 15.4 Free-Running Counter
5. 15.5 IPC Communication Protocol
6. 15.6 Software
  1. 15.6.1 IPC Registers to Driverlib Functions
  2. 15.6.2 IPC Examples
7. 15.7 IPC Registers
16Embedded Real-time Analysis and Diagnostic (ERAD)
1. 16.1 Introduction
2. 16.2 Enhanced Bus Comparator Unit
3. 16.3 System Event Counter Unit
4. 16.4 Program Counter Trace
5. 16.5 ERAD Ownership, Initialization, and Reset
6. 16.6 ERAD Programming Sequence
  1. 16.6.1 Hardware Breakpoint and Hardware Watch Point Programming Sequence
  2. 16.6.2 Timer and Counter Programming Sequence
7. 16.7 Software
  1. 16.7.1 ERAD Registers to Driverlib Functions
17Data Logger and Trace (DLT)
1. 17.1 Introduction
2. 17.2 Functional Overview
3. 17.3 Software
  1. 17.3.1 DLT Registers to Driverlib Functions
  2. 17.3.2 DLT Examples
4. 17.4 DLT Registers
18Waveform Analyzer Diagnostic (WADI)
1. 18.1 WADI Overview
2. 18.2 Signal and Trigger Input Configuration
  1. 18.2.1 SIG1 and SIG2 Configuration
  2. 18.2.2 Trigger 1 and Trigger 2
3. 18.3 WADI Block
4. 18.4 Safe State Sequencer (SSS)
  1. 18.4.1 SSS Configuration
5. 18.5 Lock and Commit Registers
6. 18.6 Interrupt and Error Handling
7. 18.7 RTDMA Interfaces
  1. 18.7.1 RTDMA Trigger
8. 18.8 Software
  1. 18.8.1 WADI Registers to Driverlib Functions
  2. 18.8.2 WADI Examples
9. 18.9 WADI Registers
19Crossbar (X-BAR)
1. 19.1 X-BAR Related Collateral
2. 19.2 Input X-BAR, ICL XBAR, MINDB XBAR
  1. 19.2.1 ICL and MINDB X-BAR
3. 19.3 ePWM , CLB, and GPIO Output X-BAR
4. 19.4 Software
5. 19.5 XBAR Registers
20Embedded Pattern Generator (EPG)
1. 20.1 Introduction
2. 20.2 Clock Generator Modules
  1. 20.2.1 DCLK (50% duty cycle clock)
  2. 20.2.2 Clock Stop
3. 20.3 Signal Generator Module
4. 20.4 EPG Peripheral Signal Mux Selection
5. 20.5 Application Software Notes
6. 20.6 EPG Example Use Cases
7. 20.7 EPG Interrupt
8. 20.8 Software
  1. 20.8.1 EPG Registers to Driverlib Functions
  2. 20.8.2 EPG Examples
9. 20.9 EPG Registers
► ANALOG PERIPHERALS
1. Technical Reference Manual Overview
21Analog Subsystem
1. 21.1 Introduction
  1. 21.1.1 Features
  2. 21.1.2 Block Diagram
2. 21.2 Optimizing Power-Up Time
3. 21.3 Digital Inputs on ADC Pins (AIOs)
4. 21.4 Digital Inputs and Outputs on ADC Pins (AGPIOs)
5. 21.5 Analog Pins and Internal Connections
6. 21.6 Software
  1. 21.6.1 ASYSCTL Registers to Driverlib Functions
7. 21.7 Lock Registers
8. 21.8 ASBSYS Registers
  1. 21.8.1 ASBSYS Base Address Table
  2. 21.8.2 ANALOG_SUBSYS_REGS Registers
22Analog-to-Digital Converter (ADC)
1. 22.1 Introduction
2. 22.2 ADC Configurability
3. 22.3 SOC Principle of Operation
4. 22.4 SOC Configuration Examples
5. 22.5 ADC Conversion Priority
6. 22.6 Burst Mode
  1. 22.6.1 Burst Mode Example
  2. 22.6.2 Burst Mode Priority Example
7. 22.7 EOC and Interrupt Operation
8. 22.8 Post-Processing Blocks
9. 22.9 Result Safety Checker
  1. 22.9.1 Result Safety Checker Operation
  2. 22.9.2 Result Safety Checker Interrupts and Events
10. 22.10 Opens/Shorts Detection Circuit (OSDETECT)
11. 22.11 Power-Up Sequence
12. 22.12 ADC Calibration
  1. 22.12.1 ADC Zero Offset Calibration
13. 22.13 ADC Timings
  1. 22.13.1 ADC Timing Diagrams
  2. 22.13.2 Post-Processing Block Timings
14. 22.14 Additional Information
15. 22.15 Software
  1. 22.15.1 ADC Registers to Driverlib Functions
  2. 22.15.2 ADC Examples
16. 22.16 ADC Registers
23Buffered Digital-to-Analog Converter (DAC)
1. 23.1 Introduction
2. 23.2 Using the DAC
3. 23.3 Lock Registers
4. 23.4 Software
  1. 23.4.1 DAC Registers to Driverlib Functions
  2. 23.4.2 DAC Examples
    1. 23.4.2.1 Buffered DAC Enable - SINGLE_CORE
    2. 23.4.2.2 Buffered DAC Random - SINGLE_CORE
5. 23.5 DAC Registers
  1. 23.5.1 DAC Base Address Table
  2. 23.5.2 DAC_REGS Registers
24Comparator Subsystem (CMPSS)
1. 24.1 Introduction
2. 24.2 Comparator
3. 24.3 Reference DAC
4. 24.4 Ramp Generator
5. 24.5 Digital Filter
  1. 24.5.1 Filter Initialization Sequence
6. 24.6 Using the CMPSS
7. 24.7 Software
  1. 24.7.1 CMPSS Registers to Driverlib Functions
  2. 24.7.2 CMPSS Examples
    1. 24.7.2.1 CMPSS Asynchronous Trip - SINGLE_CORE
    2. 24.7.2.2 CMPSS Digital Filter Configuration - SINGLE_CORE
8. 24.8 CMPSS Registers
9. 24.9 CMPSS Registers
  1. 24.9.1 CMPSS Base Address Table
  2. 24.9.2 CMPSS_REGS Registers
► CONTROL PERIPHERALS
1. Technical Reference Manual Overview
25Enhanced Capture (eCAP)
1. 25.1 Introduction
  1. 25.1.1 Features
  2. 25.1.2 ECAP Related Collateral
2. 25.2 Description
3. 25.3 Configuring Device Pins for the eCAP
4. 25.4 Capture and APWM Operating Mode
5. 25.5 Capture Mode Description
6. 25.6 Application of the eCAP Module
7. 25.7 Application of the APWM Mode
  1. 25.7.1 Example 1 - Simple PWM Generation (Independent Channels)
8. 25.8 Software
  1. 25.8.1 ECAP Registers to Driverlib Functions
  2. 25.8.2 ECAP Examples
9. 25.9 ECAP Registers
26High Resolution Capture (HRCAP)
1. 26.1 Introduction
2. 26.2 Operational Details
3. 26.3 Known Exceptions
4. 26.4 Software
  1. 26.4.1 HRCAP Examples
    1. 26.4.1.1 HRCAP Capture and Calibration Example - SINGLE_CORE
5. 26.5 HRCAP Registers
  1. 26.5.1 HRCAP Base Address Table
  2. 26.5.2 HRCAP_REGS Registers
27Enhanced Pulse Width Modulator (ePWM)
1. 27.1 Introduction
  1. 27.1.1 EPWM Related Collateral
  2. 27.1.2 Submodule Overview
2. 27.2 Configuring Device Pins
3. 27.3 ePWM Modules Overview
4. 27.4 Time-Base (TB) Submodule
  1. 27.4.1 Purpose of the Time-Base Submodule
  2. 27.4.2 Controlling and Monitoring the Time-Base Submodule
  3. 27.4.3 Calculating PWM Period and Frequency
  4. 27.4.4 Phase Locking the Time-Base Clocks of Multiple ePWM Modules
  5. 27.4.5 Simultaneous Writes Between ePWM Register Instances
  6. 27.4.6 Time-Base Counter Modes and Timing Waveforms
  7. 27.4.7 Global Load
5. 27.5 Counter-Compare (CC) Submodule
  1. 27.5.1 Purpose of the Counter-Compare Submodule
  2. 27.5.2 Controlling and Monitoring the Counter-Compare Submodule
  3. 27.5.3 Operational Highlights for the Counter-Compare Submodule
  4. 27.5.4 Count Mode Timing Waveforms
6. 27.6 Action-Qualifier (AQ) Submodule
  1. 27.6.1 Purpose of the Action-Qualifier Submodule
  2. 27.6.2 Action-Qualifier Submodule Control and Status Register Definitions
  3. 27.6.3 Action-Qualifier Event Priority
  4. 27.6.4 AQCTLA and AQCTLB Shadow Mode Operations
  5. 27.6.5 Configuration Requirements for Common Waveforms
7. 27.7 XCMP Complex Waveform Generator Mode
  1. 27.7.1 XCMP Allocation to CMPA and CMPB
  2. 27.7.2 XCMP Shadow Buffers
  3. 27.7.3 XCMP Operation
8. 27.8 Dead-Band Generator (DB) Submodule
  1. 27.8.1 Purpose of the Dead-Band Submodule
  2. 27.8.2 Dead-band Submodule Additional Operating Modes
  3. 27.8.3 Operational Highlights for the Dead-Band Submodule
9. 27.9 PWM Chopper (PC) Submodule
  1. 27.9.1 Purpose of the PWM Chopper Submodule
  2. 27.9.2 Operational Highlights for the PWM Chopper Submodule
  3. 27.9.3 Waveforms
    1. 27.9.3.1 One-Shot Pulse
    2. 27.9.3.2 Duty Cycle Control
10. 27.10 Trip-Zone (TZ) Submodule
  1. 27.10.1 Purpose of the Trip-Zone Submodule
  2. 27.10.2 Operational Highlights for the Trip-Zone Submodule
    1. 27.10.2.1 Trip-Zone Configurations
  3. 27.10.3 Generating Trip Event Interrupts
11. 27.11 Diode Emulation (DE) Submodule
  1. 27.11.1 DEACTIVE Mode
  2. 27.11.2 Exiting DE Mode
  3. 27.11.3 Re-Entering DE Mode
  4. 27.11.4 DE Monitor
12. 27.12 Minimum Dead-Band (MINDB) + Illegal Combination Logic (ICL) Submodules
  1. 27.12.1 Minimum Dead-Band (MINDB)
  2. 27.12.2 Illegal Combo Logic (ICL)
13. 27.13 Event-Trigger (ET) Submodule
  1. 27.13.1 Operational Overview of the ePWM Event-Trigger Submodule
14. 27.14 Digital Compare (DC) Submodule
  1. 27.14.1 Purpose of the Digital Compare Submodule
  2. 27.14.2 Enhanced Trip Action Using CMPSS
  3. 27.14.3 Using CMPSS to Trip the ePWM on a Cycle-by-Cycle Basis
  4. 27.14.4 Operation Highlights of the Digital Compare Submodule
15. 27.15 ePWM Crossbar (X-BAR)
16. 27.16 Applications to Power Topologies
  1. 27.16.1 Overview of Multiple Modules
  2. 27.16.2 Key Configuration Capabilities
  3. 27.16.3 Controlling Multiple Buck Converters With Independent Frequencies
  4. 27.16.4 Controlling Multiple Buck Converters With Same Frequencies
  5. 27.16.5 Controlling Multiple Half H-Bridge (HHB) Converters
  6. 27.16.6 Controlling Dual 3-Phase Inverters for Motors (ACI and PMSM)
  7. 27.16.7 Practical Applications Using Phase Control Between PWM Modules
  8. 27.16.8 Controlling a 3-Phase Interleaved DC/DC Converter
  9. 27.16.9 Controlling Zero Voltage Switched Full Bridge (ZVSFB) Converter
  10. 27.16.10 Controlling a Peak Current Mode Controlled Buck Module
  11. 27.16.11 Controlling H-Bridge LLC Resonant Converter
17. 27.17 Register Lock Protection
18. 27.18 High-Resolution Pulse Width Modulator (HRPWM)
  1. 27.18.1 Operational Description of HRPWM
  2. 27.18.2 SFO Library Software - SFO_TI_Build_V8.lib
    1. 27.18.2.1 Scale Factor Optimizer Function - int SFO()
    2. 27.18.2.2 Software Usage
      1. 27.18.2.2.1 A Sample of How to Add "Include" Files
      2. 1169
      3. 27.18.2.2.2 Declaring an Element
      4. 1171
      5. 27.18.2.2.3 Initializing With a Scale Factor Value
      6. 1173
      7. 27.18.2.2.4 SFO Function Calls
19. 27.19 Software
  1. 27.19.1 EPWM Registers to Driverlib Functions
  2. 27.19.2 HRPWMCAL Registers to Driverlib Functions
  3. 27.19.3 EPWM Examples
  4. 27.19.4 HRPWM Examples
20. 27.20 EPWM Registers
  1. 27.20.1 EPWM Base Address Table
  2. 27.20.2 EPWM_REGS Registers
  3. 27.20.3 EPWM_XCMP_REGS Registers
  4. 27.20.4 DE_REGS Registers
  5. 27.20.5 MINDB_LUT_REGS Registers
  6. 27.20.6 HRPWMCAL_REGS Registers
28Enhanced Quadrature Encoder Pulse (eQEP)
1. 28.1 Introduction
  1. 28.1.1 EQEP Related Collateral
2. 28.2 Configuring Device Pins
3. 28.3 Description
4. 28.4 Quadrature Decoder Unit (QDU)
5. 28.5 Position Counter and Control Unit (PCCU)
6. 28.6 eQEP Edge Capture Unit
7. 28.7 eQEP Watchdog
8. 28.8 eQEP Unit Timer Base
9. 28.9 QMA Module
  1. 28.9.1 Modes of Operation
    1. 28.9.1.1 QMA Mode-1 (QMACTRL[MODE] = 1)
    2. 28.9.1.2 QMA Mode-2 (QMACTRL[MODE] = 2)
  2. 28.9.2 Interrupt and Error Generation
10. 28.10 eQEP Interrupt Structure
11. 28.11 Software
  1. 28.11.1 EQEP Registers to Driverlib Functions
  2. 28.11.2 EQEP Examples
12. 28.12 EQEP Registers
  1. 28.12.1 EQEP Base Address Table
  2. 28.12.2 EQEP_REGS Registers
29Sigma Delta Filter Module (SDFM)
1. 29.1 Introduction
2. 29.2 Configuring Device Pins
3. 29.3 Input Qualification
4. 29.4 Input Control Unit
5. 29.5 SDFM Clock Control
6. 29.6 Sinc Filter
  1. 29.6.1 Data Rate and Latency of the Sinc Filter
7. 29.7 Data (Primary) Filter Unit
8. 29.8 Comparator (Secondary) Filter Unit
9. 29.9 Theoretical SDFM Filter Output
10. 29.10 Interrupt Unit
  1. 29.10.1 SDFM (SDyERR) Interrupt Sources
  2. 29.10.2 Data Ready (DRINT) Interrupt Sources
11. 29.11 SDFM Registers
  1. 29.11.1 SDFM Base Address Table
  2. 29.11.2 SDFM_REGS Registers
► COMMUNICATION PERIPHERALS
1. Technical Reference Manual Overview
30Modular Controller Area Network (MCAN)
1. 30.1 MCAN Introduction
  1. 30.1.1 MCAN Related Collateral
  2. 30.1.2 MCAN Features
2. 30.2 MCAN Environment
3. 30.3 CAN Network Basics
4. 30.4 MCAN Integration
5. 30.5 MCAN Functional Description
6. 30.6 Software
  1. 30.6.1 MCAN Examples
7. 30.7 MCAN Registers
31EtherCAT® SubordinateDevice Controller (ESC)
1. 31.1 Introduction
2. 31.2 ESC and ESCSS Description
3. 31.3 Software Initialization Sequence and Allocating Ownership
4. 31.4 ESC Configuration Constants
5. 31.5 Software
  1. 31.5.1 ECAT_SS Registers to Driverlib Functions
  2. 31.5.2 ETHERNET Examples
6. 31.6 ETHERCAT Registers
32Fast Serial Interface (FSI)
1. 32.1 Introduction
  1. 32.1.1 FSI Related Collateral
  2. 32.1.2 FSI Features
2. 32.2 System-level Integration
3. 32.3 FSI Functional Description
4. 32.4 FSI Programing Guide
5. 32.5 Software
  1. 32.5.1 FSI Registers to Driverlib Functions
  2. 32.5.2 FSI Examples
6. 32.6 FSI Registers
33Inter-Integrated Circuit Module (I2C)
1. 33.1 Introduction
2. 33.2 Configuring Device Pins
3. 33.3 I2C Module Operational Details
4. 33.4 Interrupt Requests Generated by the I2C Module
  1. 33.4.1 Basic I2C Interrupt Requests
  2. 33.4.2 I2C FIFO Interrupts
5. 33.5 Resetting or Disabling the I2C Module
6. 33.6 Software
  1. 33.6.1 I2C Registers to Driverlib Functions
  2. 33.6.2 I2C Examples
7. 33.7 I2C Registers
  1. 33.7.1 I2C Base Address Table
  2. 33.7.2 I2C_REGS Registers
34Power Management Bus Module (PMBus)
1. 34.1 Introduction
2. 34.2 Configuring Device Pins
3. 34.3 Target Mode Operation
  1. 34.3.1 Configuration
  2. 34.3.2 Message Handling
4. 34.4 Controller Mode Operation
  1. 34.4.1 Configuration
  2. 34.4.2 Message Handling
5. 34.5 Software
  1. 34.5.1 PMBUS Registers to Driverlib Functions
  2. 34.5.2 PMBUS Examples
    1. 34.5.2.1 PMBus in I2C Mode Controller - SINGLE_CORE
    2. 34.5.2.2 PMBus in I2C Mode Target - SINGLE_CORE
6. 34.6 PMBUS Registers
  1. 34.6.1 PMBUS Base Address Table
  2. 34.6.2 PMBUS_REGS Registers
35Universal Asynchronous Receiver/Transmitter (UART)
1. 35.1 Introduction
2. 35.2 Functional Description
3. 35.3 Initialization and Configuration
4. 35.4 Software
  1. 35.4.1 UART Registers to Driverlib Functions
  2. 35.4.2 UART Examples
5. 35.5 UART Registers
36Local Interconnect Network (LIN)
1. 36.1 LIN Overview
2. 36.2 Serial Communications Interface Module
3. 36.3 Local Interconnect Network Module
4. 36.4 Low-Power Mode
5. 36.5 Emulation Mode
6. 36.6 Software
  1. 36.6.1 LIN Registers to Driverlib Functions
  2. 36.6.2 LIN Examples
7. 36.7 LIN Registers
  1. 36.7.1 LIN Base Address Table
  2. 36.7.2 LIN_REGS Registers
37Serial Peripheral Interface (SPI)
1. 37.1 Introduction
  1. 37.1.1 Features
  2. 37.1.2 Block Diagram
2. 37.2 System-Level Integration
3. 37.3 SPI Operation
4. 37.4 Programming Procedure
5. 37.5 Software
  1. 37.5.1 SPI Registers to Driverlib Functions
  2. 37.5.2 SPI Examples
6. 37.6 SPI Registers
  1. 37.6.1 SPI Base Address Table
  2. 37.6.2 SPI_REGS Registers
38Single Edge Nibble Transmission (SENT)
1. 38.1 Introduction
  1. 38.1.1 Features
  2. 38.1.2 SENT Related Collateral
2. 38.2 Advanced Topologies: MTPG
3. 38.3 Protocol Description
4. 38.4 RTDMA Trigger
5. 38.5 Interrupts Configuration
6. 38.6 Glitch Filter
7. 38.7 Software
  1. 38.7.1 SENT Registers to Driverlib Functions
  2. 38.7.2 SENT Examples
    1. 38.7.2.1 SENT Single Sensor - SINGLE_CORE
8. 38.8 SENT Registers
► SECURITY PERIPHERALS
1. Technical Reference Manual Overview
39Security Modules
1. 39.1 Hardware Security Module (HSM)
  1. 39.1.1 HSM Related Collateral
2. 39.2 Cryptographic Accelerators
40Revision History

10.3.4 CLB Output Signal Multiplexer

Each CLB output signal passes through an external multiplexer that intersects a specific peripheral signal, see Figure 10-10. The output of the multiplexer is connected to the destination of the original peripheral signal and the default multiplexer setting is that the peripheral signal is passed through. The multiplexer is controlled by bit[n] in the CLB output enable register CLB_OUT_EN.

F29H85x,F29P58x CLB Output Signal Multiplexer

Figure 10-10 CLB Output Signal Multiplexer

For example, if the CLB1 OUT0 must override the EPWM1A signal, the OUPTUT ENABLE bit for OUT0 must be set to 1.

Table 10-6 and Table 10-7 shows the allocation of peripheral signals and the CLB outputs.

Note: When not explicitly specified in the following table, refer to the corresponding IP chapters for exact CLB Output destinations (that is, FSI, ECAP, XBAR connections).

Table 10-6 CLB Output Signal Multiplexer Table

CLB Output	CLB1 Destination	CLB2 Destination	CLB3 Destination	CLB4 Destination
0	HRPWM1A	HRPWM2A	HRPWM3A	HRPWM4A
1	HRPWM1A_OE	HRPWM2A_OE	HRPWM3A_OE	HRPWM4A_OE
2	HRPWM1B	HRPWM2B	HRPWM3B	HRPWM4B
3	HRPWM1B_OE	HRPWM2B_OE	HRPWM3B_OE	HRPWM4B_OE
4	EPWM1A_AQ	EPWM2A_AQ	EPWM3A_AQ	EPWM4A_AQ
5	EPWM1B_AQ	EPWM2B_AQ	EPWM3B_AQ	EPWM4B_AQ
6	EPWM1A_DB	EPWM2A_DB	EPWM3A_DB	EPWM4A_DB
7	EPWM1B_DB	EPWM2B_DB	EPWM3B_DB	EPWM4B_DB
8	EQEP1_QCLK	EQEP2_QCLK	EQEP3_QA	EQEP4_QA
9	EQEP1_QDIR	EQEP2_QDIR	EQEP3_QB	EQEP4_QB
10	EQEP1_QB	EQEP2_QB	EQEP3_QDIR	EQEP4_QDIR
11	EQEP1_QA	EQEP2_QA	EQEP3_QCLK	EQEP4_QCLK
12	All XBARs	All XBARs	All XBARs	All XBARs
13	All XBARs	All XBARs	All XBARs	All XBARs
14	ECAP Mux	ECAP Mux	ECAP Mux	ECAP Mux
15	ECAP Mux	ECAP Mux	ECAP Mux	ECAP Mux
16	Global Mux	Global Mux	Global Mux	Global Mux
17	Global Mux	Global Mux	Global Mux	Global Mux
18	Global Mux	Global Mux	Global Mux	Global Mux
19	Global Mux	Global Mux	Global Mux	Global Mux
20	Global Mux	Global Mux	Global Mux	Global Mux
21	Global Mux, SPIA_PTE_OUT	Global Mux, SPIB_PTE_OUT	Global Mux, SPIC_PTE_OUT	Global Mux, SPIPTE_OUT
22	Global Mux, SPIA_PICO_OUT	Global Mux, SPIB_PICO_OUT	Global Mux, SPIC_PICO_OUT	Global Mux, SPID_PICO_OUT
23	Global Mux, SPIA_POCI_OUT	Global Mux, SPIB_POCI_OUT	Global Mux, SPIC_POCI_OUT	Global Mux, SPID_POCI_OUT
24	SPIA_CLK_IN	SPIB_CLK_IN	SPIC_CLK_IN	SPID_CLK_IN
25	SPIA_PICO_IN	SPIB_PICO_IN	SPIC_PICO_IN	SPID_PICO_IN
26	SPIA_PTE_IN	SPIB_PTE_IN	SPIC_PTE_IN	SPID_PTE_IN
27	ADC_SOC_TRIGGERS	ADC_SOC_TRIGGERS	ADC_SOC_TRIGGERS	ADC_SOC_TRIGGERS
28	ECAP1_OUT_EN	ECAP2_OUT_EN	ECAP3_OUT_EN	ECAP4_OUT_EN
29	ECAP1_OUT	ECAP2_OUT	ECAP3_OUT	ECAP4_OUT
30	FSITX Triggers	FSITX Triggers	FSITX Triggers	FSITX Triggers
31	FSITX Triggers	FSITX Triggers	FSITX Triggers	FSITX Triggers

Table 10-7 CLB Output Signal Multiplexer Table

CLB Output	CLB5 Destination	CLB6 Destination
0	HRPWM5A	HRPWM6A
1	HRPWM5A_OE	HRPWM6A_OE
2	HRPWM5B	HRPWM6B
3	HRPWM5B_OE	HRPWM6B_OE
4	EPWM5A_AQ	EPWM6A_AQ
5	EPWM5B_AQ	EPWM6B_AQ
6	EPWM5A_DB	EPWM6A_DB
7	EPWM5B_DB	EPWM6B_DB
8	EQEP5_QA	EQEP6_QA
9	EQEP5_QB	EQEP6_QB
10	EQEP5_QDIR	EQEP6_QDIR
11	EQEP5_QCLK	EQEP6_QCLK
12	All XBARs	All XBARs
13	All XBARs	All XBARs
14	ECAP Mux	ECAP Mux
15	ECAP Mux	ECAP Mux
16	Global Mux	Global Mux
17	Global Mux	Global Mux
18	Global Mux	Global Mux
19	Global Mux	Global Mux
20	Global Mux	Global Mux
21	Global Mux, SPIE_PTE_OUT	Global Mux
22	Global Mux, SPIE_PICO_OUT	Global Mux
23	Global Mux, SPIE_POCI_OUT	Global Mux
24	SPIE_CLK_IN	Reserved
25	SPIE_PICO_IN	Reserved
26	SPIE_PTE_IN	Reserved
27	ADC_SOC_TRIGGERS	ADC_SOC_TRIGGERS
28	ECAP5_OUT_EN	ECAP6_OUT_EN
29	ECAP5_OUT	ECAP6_OUT
30	FSITX Triggers	FSITX Triggers
31	FSITX Triggers	FSITX Triggers