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PIC18F2585_07 Datasheet, PDF (345/482 Pages) Microchip Technology – Enhanced Flash Microcontrollers with ECAN Technology, 10-Bit A/D and nanoWatt Technology
PIC18F2585/2680/4585/4680
24.0 SPECIAL FEATURES OF THE
CPU
PIC18F2585/2680/4585/4680 devices include several
features intended to maximize reliability and minimize
cost through elimination of external components.
These are:
• Oscillator Selection
• Resets:
- Power-on Reset (POR)
- Power-up Timer (PWRT)
- Oscillator Start-up Timer (OST)
- Brown-out Reset (BOR)
• Interrupts
• Watchdog Timer (WDT)
• Fail-Safe Clock Monitor
• Two-Speed Start-up
• Code Protection
• ID Locations
• In-Circuit Serial Programming
The oscillator can be configured for the application
depending on frequency, power, accuracy and cost. All
of the options are discussed in detail in Section 2.0
“Oscillator Configurations”.
A complete discussion of device Resets and interrupts
is available in previous sections of this data sheet.
In addition to their Power-up and Oscillator Start-up
Timers provided for Resets, PIC18F2585/2680/4585/
4680 devices have a Watchdog Timer, which is either
permanently enabled via the Configuration bits or
software controlled (if configured as disabled).
The inclusion of an internal RC oscillator also provides
the additional benefits of a Fail-Safe Clock Monitor
(FSCM) and Two-Speed Start-up. FSCM provides for
background monitoring of the peripheral clock and
automatic switchover in the event of its failure. Two-
Speed Start-up enables code to be executed almost
immediately on start-up, while the primary clock source
completes its start-up delays.
All of these features are enabled and configured by
setting the appropriate Configuration register bits.
24.1 Configuration Bits
The Configuration bits can be programmed (read as
‘0’) or left unprogrammed (read as ‘1’) 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-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
WR bit in the EECON1 register starts a self-timed write
to the Configuration register. In normal operation mode,
a TBLWT instruction with the TBLPTR pointing 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 ‘1’ or a ‘0’ into the cell. For additional details
on Flash programming, refer to Section 6.5 “Writing
to Flash Program Memory”.
TABLE 24-1: CONFIGURATION BITS AND DEVICE IDs
File Name
Bit 7 Bit 6 Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Default/
Unprogrammed
Value
300001h CONFIG1H IESO FCMEN —
—
FOSC3 FOSC2 FOSC1 FOSC0 00-- 0111
300002h CONFIG2L —
—
—
BORV1 BORV0 BOREN1 BOREN0 PWRTEN ---1 1111
300003h CONFIG2H —
—
— WDTPS3 WDTPS2 WDTPS1 WDTPS0 WDTEN ---1 1111
300005h CONFIG3H MCLRE —
—
—
— LPT1OSC PBADEN
—
1--- -01-
300006h CONFIG4L DEBUG XINST BBSIZ1 BBSIZ2
—
LVP
—
STVREN 1000 -1-1
300008h CONFIG5L —
—
—
—
CP3
CP2
CP1
CP0
---- 1111
300009h CONFIG5H CPD CPB
—
—
—
—
—
—
11-- ----
30000Ah CONFIG6L —
—
—
—
WRT3 WRT2 WRT1 WRT0 ---- 1111
30000Bh CONFIG6H WRTD WRTB WRTC
—
—
—
—
—
111- ----
30000Ch CONFIG7L —
—
—
—
EBTR3 EBTR2 EBTR1 EBTR0 ---- 1111
30000Dh CONFIG7H — EBTRB —
3FFFFEh DEVID1
DEV2 DEV1 DEV0
—
REV4
—
REV3
—
REV2
—
REV1
—
REV0
-1-- ----
xxxx xxxx(1)
3FFFFFh DEVID2
DEV10 DEV9 DEV8 DEV7 DEV6 DEV5 DEV4 DEV3 0000 1100
Legend:
Note 1:
x = unknown, u = unchanged, - = unimplemented, q = value depends on condition.
Shaded cells are unimplemented, read as ‘0’.
See Register 24-14 for DEVID1 values. DEVID registers are read-only and cannot be programmed by the user.
© 2007 Microchip Technology Inc.
Preliminary
DS39625C-page 343