PIC18F6X2X Datasheet, PDF(261/386 Page) Microchip Technology – 64/80-Pin High Performance, 64-Kbyte Enhanced FLASH Microcontrollers with A/D

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PIC18F6X2X Datasheet, PDF (261/386 Pages) Microchip Technology – 64/80-Pin High Performance, 64-Kbyte Enhanced FLASH Microcontrollers with A/D

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24.0 SPECIAL FEATURES OF THE

CPU

There are several features intended to maximize sys-

tem reliability, minimize cost through elimination of

external components, provide power saving operating

modes and offer code protection. These are:

â¢ OSC Selection

â¢ RESET

- Power-on Reset (POR)

- Power-up Timer (PWRT)

- Oscillator Start-up Timer (OST)

- Brown-out Reset (BOR)

â¢ Interrupts

â¢ Watchdog Timer (WDT)

â¢ SLEEP

â¢ Code Protection

â¢ ID Locations

â¢ In-Circuit Serial Programming

All PIC18F6X2X/8X2X devices have a Watchdog Timer

which is permanently enabled via the configuration bits,

or software controlled. It runs off its own RC oscillator

for added reliability. There are two timers that offer nec-

essary delays on power-up. One is the Oscillator Start-

up Timer (OST), intended to keep the chip in RESET

until the crystal oscillator is stable. The other is the

Power-up Timer (PWRT) which provides a fixed delay

on power-up only, designed to keep the part in RESET

while the power supply stabilizes. With these two tim-

ers on-chip, most applications need no external

RESET circuitry.

SLEEP mode is designed to offer a very low current

power-down mode. The user can wake-up from SLEEP

through external RESET, Watchdog Timer wake-up, or

through an interrupt. Several oscillator options are also

made available to allow the part to fit the application.

The RC oscillator option saves system cost, while the

LP crystal option saves power. A set of configuration

bits are used to select various options.

PIC18F6X2X/8X2X

24.1 Configuration Bits

The configuration bits can be programmed (read as â0â)

or left unprogrammed (read as â1â), to select various

device configurations. These bits are mapped, starting

at program memory location 300000h.

The user will note that address 300000h is beyond the

user program memory space. In fact, it belongs to the

configuration memory space (300000h through

3FFFFFh) which can only be accessed using table

reads and table writes.

Programming the Configuration registers is done in a

manner similar to programming the FLASH memory.

The EECON1 register WR bit starts a self-timed write

to the Configuration register. In normal operation mode,

a TBLWT instruction, with the TBLPTR pointed to the

Configuration register, sets up the address and the

data for the Configuration register write. Setting the WR

bit starts a long write to the Configuration register. The

Configuration registers are written a byte at a time. To

write or erase a configuration cell, a TBLWT instruction

can write a â1â or a â0â into the cell.

ï£© 2003 Microchip Technology Inc.

Advance Information

DS39612A-page 259

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