Microchip Technology MA160014 Hoja De Datos
2010-2012 Microchip Technology Inc.
DS41412F-page 381
PIC18(L)F2X/4XK22
ANDWF
AND W with f
Syntax:
ANDWF f {,d {,a}}
Operands:
0
f 255
d
[0,1]
a
[0,1]
Operation:
(W) .AND. (f)
dest
Status Affected:
N, Z
Encoding:
0001
01da
ffff
ffff
Description:
The contents of W are AND’ed with
register ‘f’. If ‘d’ is ‘0’, the result is stored
in W. If ‘d’ is ‘1’, the result is stored back
in register ‘f’ (default).
If ‘a’ is ‘0’, the Access Bank is selected.
If ‘a’ is ‘1’, the BSR is used to select the
GPR bank.
If ‘a’ is ‘0’ and the extended instruction
set is enabled, this instruction operates
in Indexed Literal Offset Addressing
mode whenever f
register ‘f’. If ‘d’ is ‘0’, the result is stored
in W. If ‘d’ is ‘1’, the result is stored back
in register ‘f’ (default).
If ‘a’ is ‘0’, the Access Bank is selected.
If ‘a’ is ‘1’, the BSR is used to select the
GPR bank.
If ‘a’ is ‘0’ and the extended instruction
set is enabled, this instruction operates
in Indexed Literal Offset Addressing
mode whenever f
95 (5Fh). See
for details.
Words:
1
Cycles:
1
Q Cycle Activity:
Q1
Q2
Q3
Q4
Decode
Read
register ‘f’
Process
Data
Write to
destination
Example:
ANDWF
REG,
0, 0
Before Instruction
W
=
17h
REG
=
C2h
After Instruction
W
=
02h
REG
=
C2h
BC
Branch if Carry
Syntax:
BC n
Operands:
-128
n 127
Operation:
if CARRY bit is ‘1’
(PC) + 2 + 2n
(PC) + 2 + 2n
PC
Status Affected:
None
Encoding:
1110
0010
nnnn
nnnn
Description:
If the CARRY bit is ‘1’, then the program
will branch.
The 2’s complement number ‘2n’ is
added to the PC. Since the PC will have
incremented to fetch the next
instruction, the new address will be
PC + 2 + 2n. This instruction is then a
two-cycle instruction.
will branch.
The 2’s complement number ‘2n’ is
added to the PC. Since the PC will have
incremented to fetch the next
instruction, the new address will be
PC + 2 + 2n. This instruction is then a
two-cycle instruction.
Words:
1
Cycles:
1(2)
Q Cycle Activity:
If Jump:
If Jump:
Q1
Q2
Q3
Q4
Decode
Read literal
‘n’
Process
Data
Write to PC
No
operation
No
operation
No
operation
No
operation
If No Jump:
Q1
Q2
Q3
Q4
Decode
Read literal
‘n’
Process
Data
No
operation
Example:
HERE
BC
5
Before Instruction
PC
=
address (HERE)
After Instruction
If CARRY
=
1;
PC
= address (HERE + 12)
If CARRY
=
0;
PC
= address
(HERE + 2)