PIC18F4580 Datasheet, PDF(79/484 Page) Microchip Technology – 28/40/44-Pin Enhanced Flash Microcontrollers with ECAN Technology, 10-Bit A/D and nanoWatt Technology

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PIC18F4580 Datasheet, PDF (79/484 Pages) Microchip Technology – 28/40/44-Pin Enhanced Flash Microcontrollers with ECAN Technology, 10-Bit A/D and nanoWatt Technology

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PIC18F2480/2580/4480/4580

TABLE 5-2: REGISTER FILE SUMMARY (PIC18F2480/2580/4480/4580)

File Name

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

Value on Details

POR, BOR on page:

TOSU

â

â

â

Top-of-Stack Upper Byte (TOS<20:16>)

---0 0000 49, 62

TOSH

Top-of-Stack High Byte (TOS<15:8>)

0000 0000 49, 62

TOSL

Top-of-Stack Low Byte (TOS<7:0>)

0000 0000 49, 62

STKPTR

PCLATU

STKFUL

â

STKUNF

â

â

Return Stack Pointer

bit 21(1) Holding Register for PC<20:16>

00-0 0000 49, 63

---0 0000 49, 62

PCLATH

Holding Register for PC<15:8>

0000 0000 49, 62

PCL

PC Low Byte (PC<7:0>)

0000 0000 49, 62

TBLPTRU

â

â

bit 21 Program Memory Table Pointer Upper Byte (TBLPTR<20:16>)

--00 0000 49, 103

TBLPTRH

Program Memory Table Pointer High Byte (TBLPTR<15:8>)

0000 0000 49, 103

TBLPTRL

Program Memory Table Pointer Low Byte (TBLPTR<7:0>)

0000 0000 49, 103

TABLAT

Program Memory Table Latch

0000 0000 49, 103

PRODH

Product Register High Byte

xxxx xxxx 49, 111

PRODL

Product Register Low Byte

xxxx xxxx 49, 111

INTCON

GIE/GIEH PEIE/GIEL TMR0IE INT0IE

RBIE

TMR0IF

INT0IF

RBIF 0000 000x 49, 115

INTCON2

RBPU

INTEDG0 INTEDG1 INTEDG2

â

TMR0IP

â

RBIP 1111 -1-1 49, 116

INTCON3

INT2IP

INT1IP

â

INT2IE

INT1IE

â

INT2IF

INT1IF 11-0 0-00 49, 117

INDF0

Uses contents of FSR0 to address data memory â value of FSR0 not changed (not a physical register)

N/A

49, 90

POSTINC0 Uses contents of FSR0 to address data memory â value of FSR0 post-incremented (not a physical register)

N/A

49, 91

POSTDEC0 Uses contents of FSR0 to address data memory â value of FSR0 post-decremented (not a physical register)

N/A

49, 91

PREINC0

Uses contents of FSR0 to address data memory â value of FSR0 pre-incremented (not a physical register)

N/A

49, 91

PLUSW0

Uses contents of FSR0 to address data memory â value of FSR0 pre-incremented (not a physical register), value

of FSR0 offset by W

N/A

49, 91

FSR0H

â

â

â

â

Indirect Data Memory Address Pointer 0 High

---- xxxx 49, 90

FSR0L

Indirect Data Memory Address Pointer 0 Low Byte

xxxx xxxx 49, 90

WREG

INDF1

POSTINC1

POSTDEC1

PREINC1

PLUSW1

Working Register

xxxx xxxx

Uses contents of FSR1 to address data memory â value of FSR1 not changed (not a physical register)

N/A

Uses contents of FSR1 to address data memory â value of FSR1 post-incremented (not a physical register)

N/A

Uses contents of FSR1 to address data memory â value of FSR1 post-decremented (not a physical register)

N/A

Uses contents of FSR1 to address data memory â value of FSR1 pre-incremented (not a physical register)

N/A

Uses contents of FSR1 to address data memory â value of FSR1 pre-incremented (not a physical register), value N/A

of FSR1 offset by W

49

49, 90

49, 91

49, 91

49, 91

49, 91

FSR1H

â

â

â

â

Indirect Data Memory Address Pointer 1 High

---- xxxx 49, 90

FSR1L

Indirect Data Memory Address Pointer 1 Low Byte

xxxx xxxx 49, 90

BSR

INDF2

POSTINC2

POSTDEC2

PREINC2

PLUSW2

â

â

â

â

Bank Select Register

---- 0000

Uses contents of FSR2 to address data memory â value of FSR2 not changed (not a physical register)

N/A

Uses contents of FSR2 to address data memory â value of FSR2 post-incremented (not a physical register)

N/A

Uses contents of FSR2 to address data memory â value of FSR2 post-decremented (not a physical register)

N/A

Uses contents of FSR2 to address data memory â value of FSR2 pre-incremented (not a physical register)

N/A

Uses contents of FSR2 to address data memory â value of FSR2 pre-incremented (not a physical register), value N/A

of FSR2 offset by W

50, 67

50, 90

50, 91

50, 91

50, 91

50, 91

Legend: x = unknown, u = unchanged, - = unimplemented, q = value depends on condition

Note 1: Bit 21 of the PC is only available in Test mode and Serial Programming modes.

2: The SBOREN bit is only available when CONFIG2L<1:0> = 01; otherwise it is disabled and reads as â0â. See Section 4.4 âBrown-out Reset

(BOR)â.

3: These registers and/or bits are not implemented on PIC18F2X80 devices and are read as â0â. Reset values are shown for PIC18F4X80 devices;

individual unimplemented bits should be interpreted as âââ.

4: The PLLEN bit is only available in specific oscillator configuration; otherwise, it is disabled and reads as â0â. See Section 2.6.4 âPLL in INTOSC

Modesâ.

5: The RE3 bit is only available when Master Clear Reset is disabled (CONFIG3H<7> = 0); otherwise, RE3 reads as â0â. This bit is read-only.

6: RA6/RA7 and their associated latch and direction bits are individually configured as port pins based on various primary oscillator modes. When

disabled, these bits read as â0â.

7: CAN bits have multiple functions depending on the selected mode of the CAN module.

8: This register reads all â0âs until the ECANâ¢ technology is set up in Mode 1 or Mode 2.

9: These registers are available on PIC18F4X80 devices only.

ï£© 2004 Microchip Technology Inc.

Preliminary

DS39637A-page 77

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