PIC18FXX20 Datasheet, PDF(81/366 Page) Microchip Technology – 64/80-Pin High Performance 1 Mbit Enhanced FLASH Microcontrollers with A/D

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PIC18FXX20 Datasheet, PDF (81/366 Pages) Microchip Technology – 64/80-Pin High Performance 1 Mbit Enhanced FLASH Microcontrollers with A/D

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7.0 DATA EEPROM MEMORY

The Data EEPROM is readable and writable during

normal operation over the entire VDD range. The data

memory is not directly mapped in the register file

space. Instead, it is indirectly addressed through the

Special Function Registers (SFR).

There are five SFRs used to read and write the

program and data EEPROM memory. These registers

are:

â¢ EECON1

â¢ EECON2

â¢ EEDATA

â¢ EEADRH

â¢ EEADR

The EEPROM data memory allows byte read and write.

When interfacing to the data memory block, EEDATA

holds the 8-bit data for read/write. EEADR and

EEADRH hold the address of the EEPROM location

being accessed. These devices have 1024 bytes of

data EEPROM with an address range from 00h to

3FFh.

The EEPROM data memory is rated for high

erase/write cycles. A byte write automatically erases

the location and writes the new data

(erase-before-write). The write time is controlled by an

on-chip timer. The write time will vary with voltage and

temperature, as well as from chip to chip. Please refer

to parameter D122 (Electrical Characteristics,

Section 26.0) for exact limits.

PIC18FXX20

7.1 EEADR and EEADRH

The address register pair can address up to a maxi-

mum of 1024 bytes of data EEPROM. The two MSbits

of the address are stored in EEADRH, while the

remaining eight LSbits are stored in EEADR. The six

Most Significant bits of EEADRH are unused, and are

read as â0â.

7.2 EECON1 and EECON2 Registers

EECON1 is the control register for EEPROM memory

accesses.

EECON2 is not a physical register. Reading EECON2

will read all â0âs. The EECON2 register is used

exclusively in the EEPROM write sequence.

Control bits RD and WR initiate read and write opera-

tions, respectively. These bits cannot be cleared, only

set, in software. They are cleared in hardware at the

completion of the read or write operation. The inability

to clear the WR bit in software prevents the accidental

or premature termination of a write operation.

The WREN bit, when set, will allow a write operation.

On power-up, the WREN bit is clear. The WRERR bit is

set when a write operation is interrupted by a MCLR

Reset, or a WDT Time-out Reset during normal opera-

tion. In these situations, the user can check the

WRERR bit and rewrite the location. It is necessary to

reload the data and address registers (EEDATA and

EEADR), due to the RESET condition forcing the

contents of the registers to zero.

Note:

Interrupt flag bit, EEIF in the PIR2 register,

is set when write is complete. It must be

cleared in software.

ï£© 2003 Microchip Technology Inc.

Advance Information

DS39609A-page 79

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