PIC16F819T-E Datasheet, PDF(27/176 Page) Microchip Technology – 18/20-Pin Enhanced Flash Microcontrollers with nanoWatt Technology

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PIC16F819T-E Datasheet, PDF (27/176 Pages) Microchip Technology – 18/20-Pin Enhanced Flash Microcontrollers with nanoWatt Technology

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3.0 DATA EEPROM AND FLASH

PROGRAM MEMORY

The data EEPROM and Flash program memory are

readable and writable during normal operation (over

the full VDD range). This memory is not directly mapped

in the register file space. Instead, it is indirectly

addressed through the Special Function Registers.

There are six SFRs used to read and write this

memory:

â¢ EECON1

â¢ EECON2

â¢ EEDATA

â¢ EEDATH

â¢ EEADR

â¢ EEADRH

This section focuses on reading and writing data

EEPROM and Flash program memory during normal

operation. Refer to the appropriate device program-

ming specification document for serial programming

information.

When interfacing the data memory block, EEDATA

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

address of the EEPROM location being accessed.

These devices have 128 or 256 bytes of data

EEPROM, with an address range from 00h to 0FFh.

Addresses from 80h to FFh are unimplemented on the

PIC16F818 device and will read 00h. When writing to

unimplemented locations, the charge pump will be

turned off.

When interfacing the program memory block, the

EEDATA and EEDATH registers form a two-byte word

that holds the 14-bit data for read/write and the EEADR

and EEADRH registers form a two-byte word that holds

the 13-bit address of the EEPROM location being

accessed. These devices have 1K or 2K words of

program Flash, with an address range from 0000h to

03FFh for the PIC16F818 and 0000h to 07FFh for the

PIC16F819. Addresses above the range of the respec-

tive device will wraparound to the beginning of program

memory.

The EEPROM data memory allows single byte read

and write. The Flash program memory allows single-

word reads and four-word block writes. Program

memory writes must first start with a 32-word block

erase, then write in 4-word blocks. A byte write in data

EEPROM memory automatically erases the location

and writes the new data (erase before write).

The write time is controlled by an on-chip timer. The

write/erase voltages are generated by an on-chip

charge pump, rated to operate over the voltage range

of the device for byte or word operations.

PIC16F818/819

When the device is code-protected, the CPU may

continue to read and write the data EEPROM memory.

Depending on the settings of the write-protect bits, the

device may or may not be able to write certain blocks

of the program memory; however, reads of the program

memory are allowed. When code-protected, the device

programmer can no longer access data or program

memory; this does NOT inhibit internal reads or writes.

3.1 EEADR and EEADRH

The EEADRH:EEADR register pair can address up to

a maximum of 256 bytes of data EEPROM or up to a

maximum of 8K words of program EEPROM. When

selecting a data address value, only the LSB of the

address is written to the EEADR register. When select-

ing a program address value, the MSB of the address

is written to the EEADRH register and the LSB is

written to the EEADR register.

If the device contains less memory than the full address

reach of the address register pair, the Most Significant

bits of the registers are not implemented. For example,

if the device has 128 bytes of data EEPROM, the Most

Significant bit of EEADR is not implemented on access

to data EEPROM.

3.2 EECON1 and EECON2 Registers

EECON1 is the control register for memory accesses.

Control bit, EEPGD, determines if the access will be a

program or data memory access. When clear, as it is

when Reset, any subsequent operations will operate

on the data memory. When set, any subsequent

operations will operate on the program memory.

Control bits, RD and WR, initiate read and write,

respectively. These bits cannot be cleared, only set in

software. They are cleared in hardware at completion

of the read or write operation. The inability to clear the

WR bit in software prevents the accidental, premature

termination of a write operation.

The WREN bit, when set, will allow a write or erase

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

WRERR bit is set when a write (or erase) operation is

interrupted by a MCLR or a WDT Time-out Reset

during normal operation. In these situations, following

Reset, the user can check the WRERR bit and rewrite

the location. The data and address will be unchanged

in the EEDATA and EEADR registers.

Interrupt flag bit, EEIF in the PIR2 register, is set when

the write is complete. It must be cleared in software.

EECON2 is not a physical register. Reading EECON2

will read all â0âs. The EECON2 register is used

exclusively in the EEPROM write sequence.

DS39598E-page 25

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