Mitsubishi Electronics FX3U Garage Door Opener User Manual


 
508
FX3S/FX3G/FX3GC/FX3U/FX3UC Series
Programming Manual - Basic & Applied Instruction Edition
18 Floating Point – FNC110 to FNC139
18.11 FNC123 – EDIV / Floating Point Division
18.11 FNC123 – EDIV / Floating Point Division
Outline
This instruction executes division of two binary floating point.
For program examples of floating point operations, refer to Section 12.10.
For handling of floating point, refer to Subsection 5.1.3.
For flag operations, refer to Subsection 6.5.2.
1. Instruction format
2. Set data
*1. When a constant (K or H) is specified, it is automatically converted into binary floating point (real number)
when the instruction is executed.
3. Applicable devices
S1: This function is supported only in FX3G/FX3GC/FX3U/FX3UC PLCs.
S2: This function is supported only in FX
3U/FX3UC PLCs.
Explanation of function and operation
1. 32-bit operation (DEDIV and DESDIVP)
Binary floating point data [ +1, ] is divided by binary floating point data [ +1, ], and the division
result in the binary floating point format is transferred to [ +1, ].
When a constant (K or H) is specified as [ +1, ] or [ +1, ], it is automatically converted into
binary floating point.
Operand Type Description Data Type
Word device number storing binary floating point data used in division
Real number (binary)
*1
Word device number storing binary floating point data used in division
Data register number storing binary floating point data obtained by division
Oper-
and
Type
Bit Devices Word Devices Others
System User Digit Specification System User
Special
Unit
Index
Con-
stant
Real
Number
Charac-
ter String
Pointer
XYMTCSD.b KnX KnY KnM KnS T C D R U\G V Z Modify K H E ""P
S1 S2  
S1 S2  
S1 S2
P
FNC 123
EDIV
D
Mnemonic Operation Condition
16-bit Instruction
DEDIV
DEDIVP
Mnemonic Operation Condition
32-bit Instruction
13 steps
Continuous
Operation
Pulse (Single)
Operation
S
1
S
2
D
S
1
S
2
D
S
1
S
1
S
2
S
2
D
D
Command
input
FNC123
DEDIV
S
1
S
2
D
[ +1, ]
÷
[ +1, ]
[ +1, ]
Binary floating point Binary floating point Binary floating point
S
1
S
1
S
2
S
2
D
D
Dividend Divisor
S
1
S
1
S
2
S
2
Command
input
FNC123
DEDIV
K100
S
1
D
[ +1, ]
÷
[ K100 ]
[ +1, ]
Binary floating point Automatically
converted into binary
floating point
Binary floating point
S
1
S
1
D
D
Dividend Divisor