Microchip Technology IC PIC MCU PIC18F65J15-I/PT TQFP-64 MCP PIC18F65J15-I/PT Data Sheet
Product codes
PIC18F65J15-I/PT
© 2009 Microchip Technology Inc.
DS39663F-page 73
PIC18F87J10 FAMILY
TABLE 6-4:
REGISTER FILE SUMMARY (PIC18F87J10 FAMILY)
File Name
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Value on
POR, BOR
Details
on page:
TOSU
—
—
—
Top-of-Stack Upper Byte (TOS<20:16>)
---0 0000
TOSH
Top-of-Stack High Byte (TOS<15:8>)
0000 0000
TOSL
Top-of-Stack Low Byte (TOS<7:0>)
0000 0000
STKPTR
STKFUL
STKUNF
—
SP4
SP3
SP2
SP1
SP0
00-0 0000
PCLATU
—
—
bit 21
(1)
Holding Register for PC<20:16>
---0 0000
PCLATH
Holding Register for PC<15:8>
0000 0000
PCL
PC Low Byte (PC<7:0>)
0000 0000
TBLPTRU
—
—
bit 21
Program Memory Table Pointer Upper Byte (TBLPTR<20:16>)
--00 0000
TBLPTRH
Program Memory Table Pointer High Byte (TBLPTR<15:8>)
0000 0000
TBLPTRL
Program Memory Table Pointer Low Byte (TBLPTR<7:0>)
0000 0000
TABLAT
Program Memory Table Latch
0000 0000
PRODH
Product Register High Byte
xxxx xxxx
PRODL
Product Register Low Byte
xxxx xxxx
INTCON
GIE/GIEH
PEIE/GIEL
TMR0IE
INT0IE
RBIE
TMR0IF
INT0IF
RBIF
0000 000x
INTCON2
RBPU
INTEDG0
INTEDG1
INTEDG2
INTEDG3
TMR0IP
INT3IP
RBIP
1111 1111
INTCON3
INT2IP
INT1IP
INT3IE
INT2IE
INT1IE
INT3IF
INT2IF
INT1IF
1100 0000
INDF0
Uses contents of FSR0 to address data memory – value of FSR0 not changed (not a physical register)
N/A
POSTINC0
Uses contents of FSR0 to address data memory – value of FSR0 post-incremented (not a physical register)
N/A
POSTDEC0
Uses contents of FSR0 to address data memory – value of FSR0 post-decremented (not a physical register)
N/A
PREINC0
Uses contents of FSR0 to address data memory – value of FSR0 pre-incremented (not a physical register)
N/A
PLUSW0
Uses contents of FSR0 to address data memory – value of FSR0 pre-incremented (not a physical register) –
value of FSR0 offset by W
value of FSR0 offset by W
N/A
FSR0H
—
—
—
—
Indirect Data Memory Address Pointer 0 High Byte
---- xxxx
FSR0L
Indirect Data Memory Address Pointer 0 Low Byte
xxxx xxxx
WREG
Working Register
xxxx xxxx
INDF1
Uses contents of FSR1 to address data memory – value of FSR1 not changed (not a physical register)
N/A
POSTINC1
Uses contents of FSR1 to address data memory – value of FSR1 post-incremented (not a physical register)
N/A
POSTDEC1
Uses contents of FSR1 to address data memory – value of FSR1 post-decremented (not a physical register)
N/A
PREINC1
Uses contents of FSR1 to address data memory – value of FSR1 pre-incremented (not a physical register)
N/A
PLUSW1
Uses contents of FSR1 to address data memory – value of FSR1 pre-incremented (not a physical register) –
value of FSR1 offset by W
value of FSR1 offset by W
N/A
FSR1H
—
—
—
—
Indirect Data Memory Address Pointer 1 High Byte
---- xxxx
FSR1L
Indirect Data Memory Address Pointer 1 Low Byte
xxxx xxxx
BSR
—
—
—
—
Bank Select Register
---- 0000
INDF2
Uses contents of FSR2 to address data memory – value of FSR2 not changed (not a physical register)
N/A
POSTINC2
Uses contents of FSR2 to address data memory – value of FSR2 post-incremented (not a physical register)
N/A
POSTDEC2
Uses contents of FSR2 to address data memory – value of FSR2 post-decremented (not a physical register)
N/A
PREINC2
Uses contents of FSR2 to address data memory – value of FSR2 pre-incremented (not a physical register)
N/A
PLUSW2
Uses contents of FSR2 to address data memory – value of FSR2 pre-incremented (not a physical register) –
value of FSR2 offset by W
value of FSR2 offset by W
N/A
FSR2H
—
—
—
—
Indirect Data Memory Address Pointer 2 High Byte
---- xxxx
FSR2L
Indirect Data Memory Address Pointer 2 Low Byte
xxxx xxxx
STATUS
—
—
—
N
OV
Z
DC
C
---x xxxx
Legend:
x = unknown, u = unchanged, - = unimplemented, q = value depends on condition
Note
1:
Bit 21 of the PC is only available in Serial Programming modes.
2:
These bits and/or registers are only available in 80-pin devices; otherwise, they are unimplemented and read as ‘0’. Reset values are
shown for 80-pin devices.
3:
This register and its bits are not implemented in 64-pin devices. In 80-pin devices, the bits are unwritable and read as ‘0’ in Microcontroller
mode.
4:
The PLLEN bit is available only when either ECPLL or HSPLL Oscillator modes are selected; otherwise, the bit is read as ‘0’.
5:
Reset value is ‘0’ when Two-Speed Start-up is enabled and ‘1’ if disabled.