PIC18FXX39 Datasheet, PDF(64/322 Page) Microchip Technology – Enhanced FLASH Microcontrollers with Single Phase Induction Motor Control Kernel

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PIC18FXX39 Datasheet, PDF (64/322 Pages) Microchip Technology – Enhanced FLASH Microcontrollers with Single Phase Induction Motor Control Kernel

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PIC18FXX39

6.5 Write Verify

Depending on the application, good programming

practice may dictate that the value written to the mem-

ory should be verified against the original value. This

should be used in applications where excessive writes

can stress bits near the specification limit.

6.6 Protection Against Spurious Write

There are conditions when the device may not want to

write to the data EEPROM memory. To protect against

spurious EEPROM writes, various mechanisms have

been built-in. On power-up, the WREN bit is cleared.

Also, the Power-up Timer (72 ms duration) prevents

EEPROM write.

The write initiate sequence and the WREN bit together

help prevent an accidental write during brown-out,

power glitch, or software malfunction.

6.7 Operation During Code Protect

Data EEPROM memory has its own code protect

mechanism. External read and write operations are

disabled if either of these mechanisms are enabled.

The microcontroller itself can both read and write to the

internal Data EEPROM, regardless of the state of the

code protect configuration bit. Refer to âSpecial Features

of the CPUâ (Section 20.0) for additional information.

6.8 Using the Data EEPROM

The data EEPROM is a high endurance, byte address-

able array that has been optimized for the storage of

frequently changing information (e.g., program vari-

ables or other data that are updated often). Frequently

changing values will typically be updated more often

than specification D124. If this is not the case, an array

refresh must be performed. For this reason, variables

that change infrequently (such as constants, IDs, cali-

bration, etc.) should be stored in FLASH program

memory.

A simple data EEPROM refresh routine is shown in

Example 6-3.

Note:

If data EEPROM is only used to store con-

stants and/or data that changes rarely, an

array refresh is likely not required. See

specification D124.

EXAMPLE 6-3: DATA EEPROM REFRESH ROUTINE

Loop

clrf

bcf

bcf

bcf

bsf

EEADR

EECON1,CFGS

EECON1,EEPGD

INTCON,GIE

EECON1,WREN

bsf

movlw

movwf

movlw

movwf

bsf

btfsc

bra

incfsz

bra

EECON1,RD

55h

EECON2

AAh

EECON2

EECON1,WR

EECON1,WR

$-2

EEADR,F

Loop

; Start at address 0

; Set for memory

; Set for Data EEPROM

; Disable interrupts

; Enable writes

; Loop to refresh array

; Read current address

;

; Write 55h

;

; Write AAh

; Set WR bit to begin write

; Wait for write to complete

; Increment address

; Not zero, do it again

bcf

EECON1,WREN

bsf

INTCON,GIE

; Disable writes

; Enable interrupts

DS30485B-page 64

Preliminary

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