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NXP Semiconductors UM11227
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NXP Semiconductors
UM11227
NTM88 family of tire pressure monitor sensors
UM11227 All information provided in this document is subject to legal disclaimers. © NXP B.V. 2020. All rights reserved.
User manual Rev. 6 — 24 April 2020
29 / 205
Effect
on CCR
Source Form Operation Description
V H I N Z C
Address
Mode
Opcode Operand
Bus
Cycles
[1]
TPA
Transfer CCR to
Accumulator
A ← (CCR) INH
85 1
TST opr8a
TSTA
TSTX
TST oprx8,X
TST ,X
TST oprx8,SP
Test for Negative or
Zero
(M) – 0x00
(A) – 0x00
(X) – 0x00
(M) – 0x00
(M) – 0x00
(M) – 0x00
0 Þ Þ
DIR
INH
INH
IX1
IX
SP1
3D
4D
5D
6D
7D
9E6D
dd
ff
ff
4
1
1
4
3
5
TSX
Transfer SP to
Index Reg.
H:X ← (SP) + 0x0001 INH
95 2
TXA
Transfer X (Index
Reg. Low) to
Accumulator
A ← (X) INH
9F 1
TXS
Transfer Index Reg.
to SP
SP ← (H:X) – 0x0001 INH
94 2
WAIT
Enable Interrupts;
Wait for Interrupt
I bit ← 0; Halt CPU 0 INH
8F 2+
[1] Bus clock frequency is one-half of the CPU clock frequency.
Table 8. Opcode map (Sheet 1 of 2)
Bit-Manipulation Branch Read-Modify-Write Control Register/Memory
00  5
BRSET0
3  DIR
10  5
BSET0
2  DIR
20  3
BRA
2  rel
30  5
NEG
2  DIR
40  1
NEGA
1  INH
50  1
NEGX
1  INH
60  5
NEG
2  IX1
70  4
NEG
1  IX
80  9
RTI
1  INH
90  3
BGE
2  rel
A0  2
SUB
2  IMM
B0  3
SUB
2  DIR
C0  4
SUB
3  EXT
D0  4
SUB
3  IX2
E0  3
SUB
2  IX1
F0  3
SUB
1  IX
01  5
BRCLR0
3  DIR
11  5
BCLR0
2  DIR
21  3
BRN
2  rel
31  5
CBEQ
3  DIR
41  4
CBEQA
3  IMM
51  4
CBEQX
3  IMM
61  5
CBEQ
3  IX1+
71  5
CBEQ
2  IX+
81  6
RTS
1  INH
91  3
BLT
2  rel
A1  2
CMP
2  IMM
B1  3
CMP
2  DIR
C1  4
CMP
3  EXT
D1  4
CMP
3  IX2
E1  3
CMP
2  IX1
F1  3
CMP
1  IX
02  5
BRSET1
3  DIR
12  5
BSET1
2  DIR
22  3
BHI
2  rel
32  5
LDHX
3  EXT
42  5
MUL
1  INH
52  6
DIV
1  INH
62  1
NSA
1  INH
72  1
DAA
1  INH
82  5+
BGND
1  INH
92  3
BGT
2  rel
A2  2
SBC
2  IMM
B2  3
SBC
2  DIR
C2  4
SBC
3  EXT
D2  4
SBC
3  IX2
E2  3
SBC
2  IX1
F2  3
SBC
1  IX
03  5
BRCLR1
3  DIR
13  5
BCLR1
2  DIR
23  3
BLS
2  rel
33  5
COM
2  DIR
43  1
COMA
1  INH
53  1
COMX
1  INH
63  5
COM
2  IX1
73  4
COM
1  IX
83  11
SWI
1  INH
93  3
BLE
2  rel
A3  2
CPX
2  IMM
B3  3
CPX
2  DIR
C3  4
CPX
3  EXT
D3  4
CPX
3  IX2
E3  3
CPX
2  IX1
F3  3
CPX
1  IX
04  5
BRSET2
3  DIR
14  5
BSET2
2  DIR
24  3
BCC
2  rel
34  5
LSR
2  DIR
44  1
LSRA
1  INH
54  1
LSRX
1  INH
64  5
LSR
2  IX1
74  4
LSR
1  IX
84  1
TAP
1  INH
94  2
TXS
1  INH
A4  2
AND
2  IMM
B4  3
AND
2  DIR
C4  4
AND
3  EXT
D4  4
AND
3  IX2
E4  3
AND
2  IX1
F4  3
AND
1  IX
05  5
BRCLR2
3  DIR
15  5
BCLR2
2  DIR
25  3
BCS
2  rel
35  4
STHX
2  DIR
45  3
LDHX
3  IMM
55  4
LDHX
2  DIR
65  3
CPHX
3  IMM
75  5
CPHX
2  DIR
85  1
TPA
1  INH
95  2
TSX
1  INH
A5  2
BIT
2  IMM
B5  3
BIT
2  DIR
C5  4
BIT
3  EXT
D5  4
BIT
3  IX2
E5  3
BIT
2  IX1
F5  3
BIT
1  IX
06  5
BRSET3
3  DIR
16  5
BSET3
2  DIR
26  3
BNE
2  rel
36  5
ROR
2  DIR
46  1
RORA
1  INH
56  1
RORX
1  INH
66  5
ROR
2  IX1
76  4
ROR
1  IX
86  3
PULA
1  INH
96  5
STHX
3 EXT
A6  2
LDA
2  IMM
B6  3
LDA
2  DIR
C6  4
LDA
3  EXT
D6  4
LDA
3  IX2
E6  3
LDA
2  IX1
F6  3
LDA
1  IX
07  5
BRCLR3
3  DIR
17  5
BCLR3
2  DIR
27  3
BEQ
2  rel
37  5
ASR
2  DIR
47  1
ASRA
1  INH
57  1
ASRX
1  INH
67  5
ASR
2  IX1
77  4
ASR
1  IX
87  2
PSHA
1  INH
97  1
TAX
1  INH
A7  2
AIS
2  IMM
B7  3
STA
2  DIR
C7  4
STA
3  EXT
D7  4
STA
3  IX2
E7  3
STA
2  IX1
F7  2
STA
1  IX

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