Texas Instruments TMS320F20x/F24x DSP manual ±2. Memory Maps in Register and Array Access Modes

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Accessing the Flash Module

PRELIMINARY

Figure 2±2. Memory Maps in Register and Array Access Modes

Flash access control register

(single bit)

MODE = 1: Array-access mode

MODE = 0: Register access mode

0100 ... 010

0100 ... 011

Flash memory

array

SEG_CTR register

TST register

WADRS register

WDATA register

4 registers duplicated

4 registers duplicated

1110 ...110

0110 ...111

4 registers duplicated

2.2.1TMS320F206 Flash Access-Control Register

Because each flash module has an access-control register associated with it, the 'F206 has two access-control registers. These registers are standard I/O- mapped registers that can be read with an IN instruction and must be modified with an OUT instruction.

-F_ACCESS0 is mapped in I/O space at 0FFE0h.

-F_ACCESS1 is mapped in I/O space at 0FFE1h.

The MODE bit (bit 0) of the access-control register selects the access mode:

MODE = 0 Register-access mode

MODE = 1 Array-access mode

Bits 15±1 of each access-control register are always read as 0 and are unaf- fected by writes.

2-6	PRELIMINARY

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Contents Literature Number SPRU282 September Important Notice Read This First Preliminary Related Documentation From Texas Instruments Preliminary If You Need Assistance Viii Contents Contents Figures Tables Introduction Basic Concepts of Flash Memory Technology TMS320F20x/F24x Flash Module ±1. TMS320 Devices With On-Chip Flash Eeprom±1. TMS320F20x/F24x Program Space Memory Maps Benefits of Embedded Flash Memory in a DSP System Preliminary Flash Operations and Control Registers TopicPreliminary Flash Operations and Control Registers ±1. Flash Memory Logic Levels During Programming and Erasing Accessing the Flash Module ±2. Memory Maps in Register and Array Access Modes 1 TMS320F206 Flash Access-Control Register2 TMS320F24x Flash Access-Control Register OUTFlash Module Control Registers Segment Control Register Segctr±3. Segment Control Register Field Descriptions Flash Test Register TST Write Address Register WadrsWrite Data Register Wdata Read Modes Program Operation Erase Operation Recovering From Over-Erasure Flash-Write Operation Reading From the Flash Array Protecting the ArrayAlgorithm Implementations Software Considerations How the Algorithms Fit Into the Program-Erase-Reprogram Flow ±1. Algorithms in the Overall Flow Programming or Clear Algorithm ±2. The Programming Algorithm in the Overall FlowPreliminary ±3. Programming or Clear Algorithm Flow Step Action Description Mask the data to program Preliminary Erase Algorithm ±4. Erase Algorithm in the Overall Flow±2. Steps for Applying One Erase Pulse Preliminary ±5. Erase Algorithm Flow Flash-Write Algorithm ±6. Flash-Write Algorithm in the Overall Flow±3. Steps for Applying One Flash-Write Pulse ±7. Flash-Write Algorithm Flow Preliminary Preliminary Assembly Source Listings Program Examples Assembly Source for Algorithms Header File for Constants and Variables, SVAR20.HError BASE0BASE+0 BASE1Constants D5KD7K DloopClear Algorithm, SCLR20.ASM SegstSegend ProtectGclr PROTECT,SEGST,SEGEND DELAY,REGS,ARRAY Splk #0,ERRORAR0 AR1Exit Splk #1,ERROR Sacl FlstLacl Fladrs NewrowActivate Write BIT Tblw SPAD1 Execute Command LAR SET Delay Call DELAY,*,AR6 Wait Stop Write Operation SplkShutdown Write Operation Tblw SPAD1 Execute Command LAR Tblr FldataTblw SPAD1 Execute Command LAR Prgbyte Call SETRDVER0Lacl BASE2 Bcnd PBDONE,EQErase Algorithm, SERA20.ASM Erase Command Word Erase Exebin Command WordInverse Erase Command Word Flash Write Command WordClrc OVM Sacl FlendCall Setmode XoreraseSplk #STOP,BASE0 Inverase Splk #INVER,BASE0 Call SetmodeBldd Nextivers Lacl BASE1Flash Stop command, and Ffff for Wdata Flash-Write Algorithm, SFLW20.ASM Maxflw FlwsBldd #FLST,BASE1 Call Array Access Flash Array Done Call DELAY,*,AR6Bcnd Flwrite SplkLAR AR0,#MAXFLW Cmpr Setmode Call Lacl Tblw LAR Call Call RETProgramming Algorithm, SPGM20.ASM PROTECT,DELAY,REGS,ARRAY AR3AR4 GpgmjSetc Intm Globally Mask ALL Interrupts Splk #0,ERROR Gpgmj SplkMask ALL Interrupts SUB Sacl BASE4Rowdone Lacl Fladrs Bcnd DONE, GTLacl Fladrs Newrow Adjrow NEGShut Down Write Operation Tblw SPAD1 Execute Command LAR SETRDVER0 Call Regs Access Flash RegistersXOR Fldata Bcnd PBEND,EQPbend RET Subroutines Used By All Four Algorithms, SUTILS20.ASM OUT SPAD2,FACCESS0 SPAD2,FACCESS1OUT SPAD2,F24XACCS Lacc Flst SUBCallable Interface to Flash Algorithms Gclr SEGST,SEGEND,PROTECTPARMS+1 PARMS+2Lacl Error ErsparamsArstack ArprotectSacl Erscount Call FlwsLAR AR1,SVAR1 1PROTECTPopd *+ Call GpgmjSample Assembly Code to Erase and Reprogram the TMS320F206 Assembly Code for TMS320F206PARMS+1 SUB Memory Block B2 SectionsPsaram DLY PsaramSample C Code to Erase and Reprogram the TMS320F206 Linker Command File for TMS320F206 Sample C Code FLASH0 FLASH1BLKB2 Block B2 DsaramSample Assembly Code to Erase and Reprogram the TMS320F240 Assembly Code for TMS320F240Rticr WdcrCKCR0 CKCR1LDP #DPPF1 PORRST, PLLRST, Illrst SWRST, Wdrst Lacl Syssr Accl = SyssrSacl Syssr LDP #PARMS SplkDaram LDP #PARMS Linker Command File for TMS320F240 Sample Assembly Code ExtramB0PGM Extram 0 /******Delay Subroutine Rev1.003/98 JGC Linker Command File for TMS320F240 Sample C Code Block B2 Dsram B0DATFunction for Disabling TMS320F240 Watchdog Timer Compute LengthLacl Wdcr Functions for Initializing the TMS320F240 Sacl WdcrPshd SyscrSacl Wdtcr Index Assembly code SERA2x.ASM Described 10 to Margin Role in single program pulse WRITE/ERASE field Described