670
APPENDIX
Table B.9-10 ea Instruction 5 (First Byte = 74
H
)
00
10
20
30
40
50
60
70
80
9
0
A
0
B0
C0
D0
E0
F0
+0
ADD
A,
R0
ADD
A,
@RW0+d8
SUB
A,
R
0
SUB
A
,
@RW0+d8
ADDC
A, R0
ADDC
A,
@R
W
0
+
d
8
CMP
A,
R0
CMP
A,
@RW0+d8
AND
A,
R0
A
ND
A
,
@RW0+d8
OR
A,
R
0
OR
A
,
@RW0+d
8
XO
R
A,
R0
XOR
A,
@R
W
0
+
d
8
DBNZ
R0
, r
DB
NZ
@
RW0
+
d8,
r
+1
ADD
A,
R1
ADD
A,
@RW1+d8
SUB
A,
R
1
SUB
A
,
@RW1+d8
ADDC
A, R1
ADDC
A,
@R
W
1
+
d
8
CMP
A,
R1
CMP
A,
@RW1+d8
AND
A,
R1
A
ND
A
,
@RW1+d8
OR
A,
R
1
OR
A
,
@RW1+d
8
XO
R
A,
R1
XOR
A,
@R
W
1
+
d
8
DBNZ
R1
, r
DB
NZ
@
RW1
+
d8,
r
+2
ADD
A,
R2
ADD
A,
@RW2+d8
SUB
A,
R
2
SUB
A
,
@RW2+d8
ADDC
A, R2
ADDC
A,
@R
W
2
+
d
8
CMP
A,
R2
CMP
A,
@RW2+d8
AND
A,
R2
A
ND
A
,
@RW2+d8
OR
A,
R
2
OR
A
,
@RW2+d
8
XO
R
A,
R2
XOR
A,
@R
W
2
+
d
8
DBNZ
R2
, r
DB
NZ
@
RW2
+
d8,
r
+3
ADD
A,
R3
ADD
A,
@RW3+d8
SUB
A,
R
3
SUB
A
,
@RW3+d8
ADDC
A, R3
ADDC
A,
@R
W
3
+
d
8
CMP
A,
R3
CMP
A,
@RW3+d8
AND
A,
R3
A
ND
A
,
@RW3+d8
OR
A,
R
3
OR
A
,
@RW3+d
8
XO
R
A,
R3
XOR
A,
@R
W
3
+
d
8
DBNZ
R3
, r
DB
NZ
@
RW3
+
d8,
r
+4
ADD
A,
R4
ADD
A,
@RW4+d8
SUB
A,
R
4
SUB
A
,
@RW4+d8
ADDC
A, R4
ADDC
A,
@R
W
4
+
d
8
CMP
A,
R4
CMP
A,
@RW4+d8
AND
A,
R4
A
ND
A
,
@RW4+d8
OR
A,
R
4
OR
A
,
@RW4+d
8
XO
R
A,
R4
XOR
A,
@R
W
4
+
d
8
DBNZ
R4
, r
DB
NZ
@
RW4
+
d8,
r
+5
ADD
A,
R5
ADD
A,
@RW5+d8
SUB
A,
R
5
SUB
A
,
@RW5+d8
ADDC
A, R5
ADDC
A,
@R
W
5
+
d
8
CMP
A,
R5
CMP
A,
@RW5+d8
AND
A,
R5
A
ND
A
,
@RW5+d8
OR
A,
R
5
OR
A
,
@RW5+d
8
XO
R
A,
R5
XOR
A,
@R
W
5
+
d
8
DBNZ
R5
, r
DB
NZ
@
RW5
+
d8,
r
+6
ADD
A,
R6
ADD
A,
@RW6+d8
SUB
A,
R
6
SUB
A
,
@RW6+d8
ADDC
A, R6
ADDC
A,
@R
W
6
+
d
8
CMP
A,
R6
CMP
A,
@RW6+d8
AND
A,
R6
A
ND
A
,
@RW6+d8
OR
A,
R
6
OR
A
,
@RW6+d
8
XO
R
A,
R6
XOR
A,
@R
W
6
+
d
8
DBNZ
R6
, r
DB
NZ
@
RW6
+
d8,
r
+7
ADD
A,
R7
ADD
A,
@RW7+d8
SUB
A,
R
7
SUB
A
,
@RW7+d8
ADDC
A, R7
ADDC
A,
@R
W
7
+
d
8
CMP
A,
R7
CMP
A,
@RW7+d8
AND
A,
R7
A
ND
A
,
@RW7+d8
OR
A,
R
7
OR
A
,
@RW7+d
8
XO
R
A,
R7
XOR
A,
@R
W
7
+
d
8
DBNZ
R7
, r
DB
NZ
@
RW7
+
d8,
r
+8
ADD
A,
@R
W
0
ADD
A,
@R
W0+d
16
SUB
A,
@RW0
SU
B
A,
@R
W0+d1
6
ADDC
A,
@
R
W
0
ADDC
A,
@
R
W
0
+d16
CMP
A,
@
R
W0
C
M
P
A,
@
R
W
0
+
d16
AND
A,
@RW0
AND
A,
@R
W0+d1
6
OR
A,
@
R
W
0
OR
A,
@R
W0
+d16
XO
R
A,
@
R
W
0
XO
R
A,
@
R
W
0
+d16
DBNZ
@R
W0
, r
DB
NZ
@
R
W
0
+d16,
r
+9
ADD
A,
@R
W
1
ADD
A,
@R
W1+d
16
SUB
A,
@RW1
SU
B
A,
@R
W1+d1
6
ADDC
A,
@
R
W
1
ADDC
A,
@
R
W
1
+d16
CMP
A,
@
R
W1
C
M
P
A,
@
R
W
1
+
d16
AND
A,
@RW1
AND
A,
@R
W1+d1
6
OR
A,
@
R
W
1
OR
A,
@R
W1
+d16
XO
R
A,
@
R
W
1
XO
R
A,
@
R
W
1
+d16
DBNZ
@R
W1
, r
DB
NZ
@
R
W
1
+d16,
r
+A
ADD
A,
@R
W
2
ADD
A,
@R
W2+d
16
SUB
A,
@RW2
SU
B
A,
@R
W2+d1
6
ADDC
A,
@
R
W
2
ADDC
A,
@
R
W
2
+d16
CMP
A,
@
R
W2
C
M
P
A,
@
R
W
2
+
d16
AND
A,
@RW2
AND
A,
@R
W2+d1
6
OR
A,
@
R
W
2
OR
A,
@R
W2
+d16
XO
R
A,
@
R
W
2
XO
R
A,
@
R
W
2
+d16
DBNZ
@R
W2
, r
DB
NZ
@
R
W
2
+d16,
r
+B
ADD
A,
@R
W
3
ADD
A,
@R
W3+d
16
SUB
A,
@RW3
SU
B
A,
@R
W3+d1
6
ADDC
A,
@
R
W
3
ADDC
A,
@
R
W
3
+d16
CMP
A,
@
R
W3
C
M
P
A,
@
R
W
3
+
d16
AND
A,
@RW3
AND
A,
@R
W3+d1
6
OR
A,
@
R
W
3
OR
A,
@R
W3
+d16
XO
R
A,
@
R
W
3
XO
R
A,
@
R
W
3
+d16
DBNZ
@R
W3
, r
DB
NZ
@
R
W
3
+d16,
r
+C
ADD
A,
@R
W
0
+
ADD A,
@R
W0
+
R
W
7
SUB
A,
@RW0+
SUB
A,
@RW
0+R
W7
ADDC
A
,@RW0+
A
DDC A,
@RW0+
R
W7
CMP
A,
@
R
W0
+
CMP
A,
@RW0
+
R
W7
AND
A,
@RW0+
AND
A
,
@R
W0
+R
W
7
OR
A,@
R
W
0
+
O
R
A,
@
R
W0+
R
W7
XO
R
A
,@RW0+
XO
R
A,
@RW0+
R
W7
DBNZ
@R
W0
+, r
DB
N
Z
@R
W0
+
R
W7
, r
+D
ADD
A,
@R
W
1
+
ADD A,
@R
W1
+
R
W
7
SUB
A,
@RW1+
SUB
A,
@RW
1+R
W7
ADDC
A
,@RW1+
A
DDC A,
@RW1+
R
W7
CMP
A,
@
R
W1
+
CMP
A,
@RW1
+
R
W7
AND
A,
@RW1+
AND
A
,
@R
W1
+R
W
7
OR
A,@
R
W
1
+
O
R
A,
@
R
W1+
R
W7
XO
R
A
,@RW1+
XO
R
A,
@RW1+
R
W7
DBNZ
@R
W1
+, r
DB
N
Z
@R
W1
+
R
W7
, r
+E
ADD
A,
@R
W
2
+
ADD
A,
@PC+d1
6
SUB
A,
@RW2+
SUB
A
,
@PC+d
1
6
ADDC
A
,@RW2+
ADDC
A,
@
P
C+d16
CMP
A,
@
R
W2
+
CMP
A,
@PC+d16
AND
A,
@RW2+
A
ND
A
,
@PC+d1
6
OR
A,@
R
W
2
+
OR
A
,
@P
C
+
d
16,
XO
R
A
,@RW2+
XOR
A,
@
P
C+d16
DBNZ
@R
W2
+, r
DB
NZ
@
P
C
+d16,
r
+F
ADD
A,
@R
W
3
+
ADD
A
, ad
dr16
SUB
A,
@RW3+
SU
B
A,
a
ddr16
ADDC
A
,@RW3+
ADDC
A,
addr1
6
CMP
A,
@
R
W3
+
CMP
A
, add
r16
AND
A,
@RW3+
AND
A,
ad
dr16
OR
A,@
R
W
3
+
OR
A,
a
ddr1
6
XO
R
A
,@RW3+
XOR
A,
ad
dr16
DBNZ
@R
W3
+, r
DB
NZ
addr1
6
, r
Summary of Contents for MB90390 Series
Page 2: ......
Page 4: ......
Page 17: ...xiii APPENDIX D List of Interrupt Vectors 690 INDEX 695 ...
Page 18: ...xiv ...
Page 132: ...104 CHAPTER 5 CLOCKS ...
Page 152: ...124 CHAPTER 6 CLOCK MODULATOR ...
Page 210: ...182 CHAPTER 11 TIME BASE TIMER ...
Page 218: ...190 CHAPTER 12 WATCHDOG TIMER ...
Page 264: ...236 CHAPTER 14 16 BIT RELOAD TIMER WITH EVENT COUNT FUNCTION ...
Page 274: ...246 CHAPTER 15 WATCH TIMER ...
Page 306: ...278 CHAPTER 17 DTP EXTERNAL INTERRUPTS ...
Page 338: ...310 CHAPTER 18 8 10 BIT A D CONVERTER ...
Page 364: ...336 CHAPTER 19 UART0 UART1 ...
Page 398: ...370 CHAPTER 20 UART2 UART3 Figure 20 5 2 ORE Set Timing Receive data RDRF ORE ...
Page 432: ...404 CHAPTER 20 UART2 UART3 ...
Page 482: ...454 CHAPTER 22 SERIAL I O ...
Page 560: ...532 CHAPTER 24 STEPPING MOTOR CONTROLLER ...
Page 582: ...554 CHAPTER 27 ROM MIRRORING MODULE ...
Page 632: ...604 CHAPTER 29 EXAMPLES OF SERIAL PROGRAMMING CONNECTION ...
Page 722: ...694 APPENDIX ...
Page 723: ...695 INDEX The index follows on the next page This is listed in alphabetic order ...
Page 740: ......
