PIC12F683-E/MD MICROCHIP [Microchip Technology], PIC12F683-E/MD Datasheet - Page 19

PIC12F683-E/MD

Manufacturer Part Number

PIC12F683-E/MD

Description

8-Pin Flash-Based, 8-Bit CMOS Microcontrollers with nanoWatt Technology

Manufacturer

MICROCHIP [Microchip Technology]

Datasheet

1.PIC12F683-EMD.pdf (176 pages)

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2.3

The Program Counter (PC) is 13 bits wide. The low byte

comes from the PCL register, which is a readable and

writable register. The high byte (PC<12:8>) is not

directly readable or writable and comes from PCLATH.

On any Reset, the PC is cleared. Figure 2-3 shows the

two situations for the loading of the PC. The upper

example in Figure 2-3 shows how the PC is loaded on a

write to PCL (PCLATH<4:0> → PCH). The lower exam-

ple in Figure 2-3 shows how the PC is loaded during a

CALL or GOTO instruction (PCLATH<4:3> → PCH).

FIGURE 2-3:

2.3.1

A computed GOTO is accomplished by adding an offset

to the program counter (ADDWF PCL). When perform-

ing a table read using a computed GOTO method, care

should be exercised if the table location crosses a PCL

memory boundary (each 256-byte block). Refer to the

Application Note AN556, “Implementing a Table Read”

(DS00556).

2.3.2

The PIC12F683 family has an 8-level x 13-bit wide

hardware stack (see Figure 2-1). The stack space is

not part of either program or data space and the Stack

Pointer is not readable or writable. The PC is PUSHed

onto the stack when a CALL instruction is executed or

an interrupt causes a branch. The stack is POPed in

the event of a RETURN, RETLW or a RETFIE instruction

execution. PCLATH is not affected by a PUSH or POP

operation.

12 11 10

PCL and PCLATH

PCH

PCLATH<4:3>

PCH

COMPUTED GOTO

STACK

PCLATH

PCLATH<4:0>

PCLATH

LOADING OF PC IN

DIFFERENT SITUATIONS

PCL

Instruction with

PCL as

Destination

ALU Result

GOTO, CALL

OPCODE<10:0>

The stack operates as a circular buffer. This means that

after the stack has been PUSHed eight times, the ninth

push overwrites the value that was stored from the first

push. The tenth push overwrites the second push (and

so on).

2.4

The INDF register is not a physical register. Addressing

the INDF register will cause indirect addressing.

Indirect addressing is possible by using the INDF

actually accesses data pointed to by the File Select

produce 00h. Writing to the INDF register indirectly

results in a no operation (although Status bits may be

affected). An effective 9-bit address is obtained by

concatenating the 8-bit FSR register and the IRP bit of

the STATUS register, as shown in Figure 2-4.

A simple program to clear RAM location 20h-2Fh using

indirect addressing is shown in Example 2-1.

EXAMPLE 2-1:

CONTINUE

Note 1: There are no Status bits to indicate stack

2: There are no instructions/mnemonics

Indirect Addressing, INDF and

FSR Registers

MOVLW

MOVWF

CLRF

INCF

BTFSS

GOTO

overflow or stack underflow conditions.

called PUSH or POP. These are actions

that occur from the execution of the

CALL, RETURN, RETLW and RETFIE

instructions or the vectoring to an

interrupt address.

0x20

FSR

INDF

FSR

FSR,4

INDIRECT ADDRESSING

PIC12F683

;initialize pointer

;to RAM

;clear INDF register

;inc pointer

;all done?

;no clear next

;yes continue

DS41211D-page 17

PIC12F683-E/MD MICROCHIP [Microchip Technology], PIC12F683-E/MD Datasheet - Page 19

PIC12F683-E/MD

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