FP
Σ
Specifications
13 - 54
No.
Name
Boolean Operand Description
Steps
F63
32-bit data
band
comparison
DWIN
S1, S2, S3 (S1+1, S1) > (S3+1, S3)
→
R900A: on
(S2+1, S2) (S1+1, S1) (S3+1, S3)
→
R900B: on
(S1+1, S1) < (S2+1, S2)
→
R900C: on
13
F64
Block data
comparison
BCMP
S1, S2, S3 Compares the two blocks beginning with “S2” and “S3”
to see if they are equal.
7
Logic operation instructions
F65
16-bit data AND WAN
S1, S2, D
(S1) (S2)
→
(D)
7
F66
16-bit data OR
WOR
S1, S2, D
(S1) (S2)
→
(D)
7
F67
16-bit data
exclusive OR
XOR
S1, S2, D
{(S1) (S2)} {(S1) (S2)}
→
(D)
7
F68
16-bit data
exclusive NOR
XNR
S1, S2, D
{(S1) (S2)} {(S1) (S2)}
→
(D)
7
F69
Word (16-bit)
data unite
WUNI
S1, S2,
S3, D
([S1] [S3]) ([S2] [S3])
→
(D)
When (S3) is H0, (S2)
→
(D)
When (S3) is HFFFF, (S1)
→
(D)
9
Data conversion instructions
F70
Block
check code
calculation
BCC
S1, S2,
S3, D
Creates the code for checking the data specified by
“S2” and “S3” and stores it in “D”.
The calculation method is specified by “S1”.
9
F71
Hexadecimal
data
→
ASCII
code
HEXA
S1, S2, D
Converts the hexadecimal data specified by “S1” and
“S2” to ASCII code and stores it in “D”.
Example: HABCD
→
H 42 41 44 43
B A D C
7
F72
ASCII code
→
Hexadecimal
data
AHEX
S1, S2, D
Converts the ASCII code specified by “S1” and “S2” to
hexadecimal data and stores it in “D”.
Example: H 44 43 42 41
→
HCDAB
D C B A
7
F73
4-digit BCD
data
→
ASCII
code
BCDA
S1, S2, D
Converts the four digits of BCD data specified by “S1”
and “S2” to ASCII code and stores it in “D”.
Example: H1234
→
H 32 31 34 33
2 1 4 3
7
F74
ASCII code
→
4-digit BCD
data
ABCD
S1, S2, D
Converts the ASCII code specified by “S1” and “S2” to
four digits of BCD data and stores it in “D”.
Example: H 34 33 32 31
→
H3412
4 3 2 1
9
F75
16-bit binary
data
→
ASCII
code
BINA
S1, S2, D
Converts the 16 bits of binary data specified by “S1” to
ASCII code and stores it in “D” (area of “S2” bytes).
Example: K-100
→
H 30 30 31 2D 20 20
0 0 1 -
7
F76
ASCII code
→
16-bit binary
data
ABIN
S1, S2, D
Converts the ASCII code specified by “S1” and “S2” to
16 bits of binary data and stores it in “D”.
Example: H 30 30 31 2D 20 20
→
K-100
0 0 1 -
7
F77
32-bit binary
data
→
ASCII
code
DBIA
S1, S2, D
Converts the 32 bits of binary data (S1+1, S1) to ASCII
code and stores it in (D+1, D).
11
F78
ASCII code
→
32-bit binary
data
DABI
S1, S2, D
Converts the ASCII code specified by “S1” and “S2” to
32 bits of binary data and stores it in (D+1, D).
11
Содержание FP Series
Страница 15: ...FP Functions and Restrictions of the Unit 1 2...
Страница 25: ...FP Specifications and Functions of Control Unit 2 2...
Страница 37: ...FP Expansion 3 2...
Страница 44: ...Chapter 4 I O Allocation 4 1 I O Allocation 4 3...
Страница 45: ...FP I O Allocation 4 2...
Страница 51: ...FP Installation and Wiring 5 2...
Страница 77: ...FP High speed Counter and Pulse Output Functions 6 2...
Страница 133: ...FP High speed Counter and Pulse Output Functions 6 58...
Страница 135: ...FP Communication Cassette 7 2...
Страница 147: ...FP Communication Function 1 Computer Link 8 2...
Страница 169: ...FP Communication Function 2 General purpose Serial Communication 9 2...
Страница 205: ...FP Communication Function 2 General purpose Serial Communication 9 38...
Страница 207: ...FP Communication Function 3 PLC Link Function 10 2...
Страница 232: ...Chapter 11 Other Functions 11 1 Analog Potentiometer 11 3 11 2 Clock Calendar Function 11 4...
Страница 233: ...FP Other Functions 11 2...
Страница 238: ...Chapter 12 Self Diagnostic and Troubleshooting 12 1 Self Diagnostic Function 12 3 12 2 Troubleshooting 12 5...
Страница 239: ...FP Self Diagnostic and Troubleshooting 12 2...
Страница 249: ...FP Self Diagnostic and Troubleshooting 12 12...
Страница 251: ...FP Specifications 13 2...
Страница 323: ...Index FP I 4...
Страница 325: ...FP Record of changes R 2...
