410
7679H–CAN–08/08
AT90CAN32/64/128
BRIE
k
Branch if Interrupt Enabled
if ( I = 1) then PC
←
PC + k + 1
None
1/2
BRID
k
Branch if Interrupt Disabled
if ( I = 0) then PC
←
PC + k + 1
None
1/2
BIT AND BIT-TEST INSTRUCTIONS
SBI
P,b
Set Bit in I/O Register
I/O(P,b)
←
1
None
2
CBI
P,b
Clear Bit in I/O Register
I/O(P,b)
←
0
None
2
LSL
Rd
Logical Shift Left
Rd(n+1)
←
Rd(n), Rd(0)
←
0
Z,C,N,V
1
LSR
Rd
Logical Shift Right
Rd(n)
←
Rd(n+1), Rd(7)
←
0
Z,C,N,V
1
ROL
Rd
Rotate Left Through Carry
Rd(0)
←
C,Rd(n+1)
←
Rd(n),C
←
Rd(7)
Z,C,N,V
1
ROR
Rd
Rotate Right Through Carry
Rd(7)
←
C,Rd(n)
←
Rd(n+1),C
←
Rd(0)
Z,C,N,V
1
ASR
Rd
Arithmetic Shift Right
Rd(n)
←
Rd(n+1), n=0..6
Z,C,N,V
1
SWAP
Rd
Swap Nibbles
Rd(3..0)
←
Rd(7..4),Rd(7..4)
←
Rd(3..0)
None
1
BSET
s
Flag Set
SREG(s)
←
1
SREG(s)
1
BCLR
s
Flag Clear
SREG(s)
←
0
SREG(s)
1
BST
Rr, b
Bit Store from Register to T
T
←
Rr(b)
T
1
BLD
Rd, b
Bit load from T to Register
Rd(b)
←
T
None
1
SEC
Set Carry
C
←
1
C
1
CLC
Clear Carry
C
←
0
C
1
SEN
Set Negative Flag
N
←
1
N
1
CLN
Clear Negative Flag
N
←
0
N
1
SEZ
Set Zero Flag
Z
←
1
Z
1
CLZ
Clear Zero Flag
Z
←
0
Z
1
SEI
Global Interrupt Enable
I
←
1
I
1
CLI
Global Interrupt Disable
I
←
0
I
1
SES
Set Signed Test Flag
S
←
1
S
1
CLS
Clear Signed Test Flag
S
←
0
S
1
SEV
Set Twos Complement Overflow.
V
←
1
V
1
CLV
Clear Twos Complement Overflow
V
←
0
V
1
SET
Set T in SREG
T
←
1
T
1
CLT
Clear T in SREG
T
←
0
T
1
SEH
Set Half Carry Flag in SREG
H
←
1
H
1
CLH
Clear Half Carry Flag in SREG
H
←
0
H
1
DATA TRANSFER INSTRUCTIONS
MOV
Rd, Rr
Move Between Registers
Rd
←
Rr
None
1
MOVW
Rd, Rr
Copy Register Word
Rd+1:Rd
←
Rr+1:Rr
None
1
LDI
Rd, K
Load Immediate
Rd
←
K
None
1
LD
Rd, X
Load Indirect
Rd
←
(X)
None
2
LD
Rd, X+
Load Indirect and Post-Inc.
Rd
←
(X), X
←
X + 1
None
2
LD
Rd, - X
Load Indirect and Pre-Dec.
X
←
X - 1, Rd
←
(X)
None
2
LD
Rd, Y
Load Indirect
Rd
←
(Y)
None
2
LD
Rd, Y+
Load Indirect and Post-Inc.
Rd
←
(Y), Y
←
Y + 1
None
2
LD
Rd, - Y
Load Indirect and Pre-Dec.
Y
←
Y - 1, Rd
←
(Y)
None
2
LDD
Rd,Y+q
Load Indirect with Displacement
Rd
←
(Y + q)
None
2
LD
Rd, Z
Load Indirect
Rd
←
(Z)
None
2
LD
Rd, Z+
Load Indirect and Post-Inc.
Rd
←
(Z), Z
←
Z+1
None
2
LD
Rd, -Z
Load Indirect and Pre-Dec.
Z
←
Z - 1, Rd
←
(Z)
None
2
LDD
Rd, Z+q
Load Indirect with Displacement
Rd
←
(Z + q)
None
2
LDS
Rd, k
Load Direct from SRAM
Rd
←
(k)
None
2
ST
X, Rr
Store Indirect
(X)
←
Rr
None
2
ST
X+, Rr
Store Indirect and Post-Inc.
(X)
←
Rr, X
←
X + 1
None
2
ST
- X, Rr
Store Indirect and Pre-Dec.
X
←
X - 1, (X)
←
Rr
None
2
ST
Y, Rr
Store Indirect
(Y)
←
Rr
None
2
ST
Y+, Rr
Store Indirect and Post-Inc.
(Y)
←
Rr, Y
←
Y + 1
None
2
ST
- Y, Rr
Store Indirect and Pre-Dec.
Y
←
Y - 1, (Y)
←
Rr
None
2
STD
Y+q,Rr
Store Indirect with Displacement
(Y + q)
←
Rr
None
2
ST
Z, Rr
Store Indirect
(Z)
←
Rr
None
2
ST
Z+, Rr
Store Indirect and Post-Inc.
(Z)
←
Rr, Z
←
Z + 1
None
2
ST
-Z, Rr
Store Indirect and Pre-Dec.
Z
←
Z - 1, (Z)
←
Rr
None
2
STD
Z+q,Rr
Store Indirect with Displacement
(Z + q)
←
Rr
None
2
STS
k, Rr
Store Direct to SRAM
(k)
←
Rr
None
2
LPM
Load Program Memory
R0
←
(Z)
None
3
LPM
Rd, Z
Load Program Memory
Rd
←
(Z)
None
3
LPM
Rd, Z+
Load Program Memory and Post-Inc
Rd
←
(Z), Z
←
Z+1
None
3
ELPM
Extended Load Program Memory
R0
←
(RAMPZ:Z)
None
3
ELPM
Rd, Z
Extended Load Program Memory
Rd
←
(RAMPZ:Z)
None
3
ELPM
Rd, Z+
Extended Load Program Memory and Post-Inc
Rd
←
(RAMPZ:Z), RAMPZ:Z
←
RAMPZ:Z+1
None
3
SPM
Store Program Memory
(Z)
←
R1:R0
None
-
Mnemonics
Operands
Description
Operation
Flags
#Clocks