PIC18F2525_08 Datasheet, PDF(304/412 Page) Microchip Technology – 28/40/44-Pin Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC18F2525_08 Datasheet, PDF (304/412 Pages) Microchip Technology – 28/40/44-Pin Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC18F2525/2620/4525/4620

SLEEP

Syntax:

Operands:

Operation:

Status Affected:

Encoding:

Description:

Words:

Cycles:

Q Cycle Activity:

Q1

Decode

Enter Sleep mode

SLEEP

None

00h â WDT,

0 â WDT postscaler,

1 â TO,

0 â PD

TO, PD

0000 0000 0000 0011

The Power-Down status bit (PD) is

cleared. The Time-out status bit (TO)

is set. Watchdog Timer and its

postscaler are cleared.

The processor is put into Sleep mode

with the oscillator stopped.

1

1

Q2

No

operation

Q3

Process

Data

Q4

Go to

Sleep

Example:

SLEEP

Before Instruction

TO = ?

PD = ?

After Instruction

TO = 1â

PD = 0

â If WDT causes wake-up, this bit is cleared.

SUBFWB

Subtract f from W with Borrow

Syntax:

Operands:

Operation:

Status Affected:

Encoding:

Description:

Words:

Cycles:

Q Cycle Activity:

Q1

Decode

SUBFWB f {,d {,a}}

0 â¤ f â¤ 255

d â [0,1]

a â [0,1]

(W) â (f) â (C) â dest

N, OV, C, DC, Z

0101 01da ffff ffff

Subtract register âfâ and Carry flag

(borrow) from W (2âs complement

method). If âdâ is â0â, the result is stored

in W. If âdâ is â1â, the result is stored in

register âfâ (default).

If âaâ is â0â, the Access Bank is

selected. If âaâ is â1â, the BSR is used

to select the GPR bank.

If âaâ is â0â and the extended instruction

set is enabled, this instruction

operates in Indexed Literal Offset

Addressing mode whenever

f â¤ 95 (5Fh). See Section 24.2.3

âByte-Oriented and Bit-Oriented

Instructions in Indexed Literal Offset

Modeâ for details.

1

1

Q2

Read

register âfâ

Q3

Process

Data

Q4

Write to

destination

Example 1:

SUBFWB REG, 1, 0

Before Instruction

REG = 3

W

=2

C

=1

After Instruction

REG =

W

=

C

=

Z

=

N

=

FF

2

0

0

1 ; result is negative

Example 2:

SUBFWB REG, 0, 0

Before Instruction

REG = 2

W

=5

C

=1

After Instruction

REG =

W

=

C

=

Z

=

N

=

2

3

1

0

0 ; result is positive

Example 3:

SUBFWB REG, 1, 0

Before Instruction

REG = 1

W

=2

C

=0

After Instruction

REG =

W

=

C

=

Z

=

N

=

0

2

1

1 ; result is zero

0

DS39626E-page 302

Â© 2008 Microchip Technology Inc.

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