272
Table A-1. Instruction Set
MOV.B #xx:8,Rd
B
#xx:8
→
Rd8
2
–
–
◊ ◊
0
–
2
MOV.B Rs,Rd
B
Rs8
→
Rd8
2
–
–
◊ ◊
0
–
2
MOV.B @Rs,Rd
B
@Rs16
→
Rd8
2
–
–
◊ ◊
0
–
4
MOV.B @(d:16,Rs),Rd
B
@(d:16,Rs16)
→
Rd8
4
–
–
◊ ◊
0
–
6
MOV.B @Rs+,Rd
B
@Rs16
→
Rd8
2
–
–
◊ ◊
0
–
6
Rs16+1
→
Rs16
MOV.B @aa:8,Rd
B
@aa:8
→
Rd8
2
–
–
◊ ◊
0
–
4
MOV.B @aa:16,Rd
B
@aa:16
→
Rd8
4
–
–
◊ ◊
0
–
6
MOV.B Rs,@Rd
B
Rs8
→
@Rd16
2
–
–
◊ ◊
0
–
4
MOV.B Rs,@(d:16,Rd)
B
Rs8
→
@(d:16,Rd16)
4
–
–
◊ ◊
0
–
6
MOV.B Rs,@–Rd
B
Rd16–1
→
Rd16
2
–
–
◊ ◊
0
–
6
Rs8
→
@Rd16
MOV.B Rs,@aa:8
B
Rs8
→
@aa:8
2
–
–
◊ ◊
0
–
4
MOV.B Rs,@aa:16
B
Rs8
→
@aa:16
4
–
–
◊ ◊
0
–
6
MOV.W #xx:16,Rd
W
#xx:16
→
Rd
4
–
–
◊ ◊
0
–
4
MOV.W Rs,Rd
W
Rs16
→
Rd16
2
–
–
◊ ◊
0
–
2
MOV.W @Rs,Rd
W
@Rs16
→
Rd16
2
–
–
◊ ◊
0
–
4
MOV.W @(d:16,Rs),Rd W
@(d:16,Rs16)
→
Rd16
4
–
–
◊ ◊
0
–
6
MOV.W @Rs+,Rd
W
@Rs16
→
Rd16
2
–
–
◊ ◊
0
–
6
Rs16+2
→
Rs16
MOV.W @aa:16,Rd
W
@aa:16
→
Rd16
4
–
–
◊ ◊
0
–
6
MOV.W Rs,@Rd
W
Rs16
→
@Rd16
2
–
–
◊ ◊
0
–
4
MOV.W Rs,@(d:16,Rd) W
Rs16
→
@(d:16,Rd16)
4
–
–
◊ ◊
0
–
6
MOV.W Rs,@–Rd
W
Rd16–2
→
Rd16
2
–
–
◊ ◊
0
–
6
Rs16
→
@Rd16
MOV.W Rs, @aa:16
W
Rs16
→
@aa:16
4
–
–
◊ ◊
0
–
6
POP Rd
W
@SP
→
Rd16
2
–
–
◊ ◊
0
–
6
SP+2
→
SP
PUSH Rs
W
SP–2
→
SP
2
–
–
◊ ◊
0
–
6
Rs16
→
@SP
MOVFPE @aa:16,Rd
B
Not supported by the
➄
H8/329 Series.
MOVTPE Rs,@aa:16
B
Not supported by the
➄
H8/329 Series.
EEPMOV
–
if R4L
≠
0 then
4
–
–
–
–
–
–
√
Repeat @R5
→
@R6
R5+1
→
R5
R6+1
→
R6
R4L–1
→
R4L
Until R4L=0
else next;
No. of states
Addressing mode/
instruction length
I H N Z
V C
Operand size
Mnemonic
Operation
Condition code
#xx:8/16
Rn
@Rn
@(d:16,Rn)
@–Rn/@Rn+
@aa:8/16
@(d:8,PC)
@@aa
Implied
Summary of Contents for H8/326 Series
Page 67: ...58 ...
Page 121: ...112 ...
Page 274: ... 3 Clock Settling Timing Ø VCC RES STBY tOSC1 tOSC1 Figure 14 8 Clock Setting Timing 265 ...
Page 279: ...270 ...
