PIC18F25K20T-ISO Datasheet, PDF(99/456 Page) Microchip Technology – 28/40/44-Pin Flash Microcontrollers with nanoWatt XLP Technology

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PIC18F25K20T-ISO Datasheet, PDF (99/456 Pages) Microchip Technology – 28/40/44-Pin Flash Microcontrollers with nanoWatt XLP Technology

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7.0 DATA EEPROM MEMORY

The data EEPROM is a nonvolatile memory array, sep-

arate from the data RAM and program memory, which

is used for long-term storage of program data. It is not

directly mapped in either the register file or program

memory space but is indirectly addressed through the

Special Function Registers (SFRs). The EEPROM is

readable and writable during normal operation over the

entire VDD range.

Four SFRs are used to read and write to the data

EEPROM as well as the program memory. They are:

â¢ EECON1

â¢ EECON2

â¢ EEDATA

â¢ EEADR

â¢ EEADRH

The data EEPROM allows byte read and write. When

interfacing to the data memory block, EEDATA holds

the 8-bit data for read/write and the EEADR:EEADRH

register pair hold the address of the EEPROM location

being accessed.

The EEPROM data memory is rated for high erase/write

cycle endurance. 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; it will

vary with voltage and temperature as well as from chip-

to-chip. Please refer to parameter D122 (Table 26.10 in

Section 26.0 âElectrical Characteristicsâ) for exact

limits.

7.1 EEADR and EEADRH Registers

The EEADR register is used to address the data

EEPROM for read and write operations. The 8-bit

range of the register can address a memory range of

256 bytes (00h to FFh). The EEADRH register expands

the range to 1024 bytes by adding an additional two

address bits.

7.2 EECON1 and EECON2 Registers

Access to the data EEPROM is controlled by two

registers: EECON1 and EECON2. These are the same

registers which control access to the program memory

and are used in a similar manner for the data

EEPROM.

PIC18F2XK20/4XK20

The EECON1 register (Register 7-1) is the control reg-

ister for data and program memory access. Control bit

EEPGD determines if the access will be to program or

data EEPROM memory. When the EEPGD bit is clear,

operations will access the data EEPROM memory.

When the EEPGD bit is set, program memory is

accessed.

Control bit, CFGS, determines if the access will be to

the Configuration registers or to program memory/data

EEPROM memory. When the CFGS bit is set,

subsequent operations access Configuration registers.

When the CFGS bit is clear, the EEPGD bit selects

either program Flash or data EEPROM memory.

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

On power-up, the WREN bit is clear.

The WRERR bit is set by hardware when the WR bit is

set and cleared when the internal programming timer

expires and the write operation is complete.

Note:

During normal operation, the WRERR

may read as â1â. This can indicate that a

write operation was prematurely termi-

nated by a Reset, or a write operation was

attempted improperly.

The WR control bit initiates write operations. The bit

can be set but not cleared by software. It is cleared only

by hardware at the completion of the write operation.

Note:

The EEIF interrupt flag bit of the PIR2

register is set when the write is complete.

It must be cleared by software.

Control bits, RD and WR, start read and erase/write

operations, respectively. These bits are set by firmware

and cleared by hardware at the completion of the

operation.

The RD bit cannot be set when accessing program

memory (EEPGD = 1). Program memory is read using

table read instructions. See Section 6.1 âTable Reads

and Table Writesâ regarding table reads.

The EECON2 register is not a physical register. It is

used exclusively in the memory write and erase

sequences. Reading EECON2 will read all â0âs.

ï£ 2010 Microchip Technology Inc.

DS41303G-page 99

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