5 - 59
MELSEC-Q
5 DATA USED FOR POSITIONING CONTROL
(2) Incremental (INC) system, fixed-feed 1, fixed-feed 2, fixed-feed 3,
fixed-feed 4
•
The setting value (movement amount) for the INC system is set as a
movement amount with sign.
When movement amount is positive: Moves in the positive direction (address
increment direction)
When movement amount is negative: Moves in the negative direction (address
decrement direction)
Stop position
(positioning start position)
(Movement amount)
-30000
(Movement amount)
30000
Moves in
negative direction
Moves in
positive direction
[Table 1]
When "
Pr.1
Unit Setting" is "mm"
The table below lists the control systems that require the setting of the positioning
address or movement amount and the associated setting ranges.
(With any control system excluded from the table below, neither the positioning
address nor the movement amount needs to be set.)
Da.2
setting value
Value set with peripheral device
(
μ
m)
Value set with sequence program 1
(
×
10
-1
μ
m)
ABS Linear 1
: 01
H
ABS Linear 2
: 0A
H
ABS Linear 3
: 15
H
ABS Linear 4
: 1A
H
Current value changing
: 81
H
◊
Set the address
-214748364.8 to 214748364.7
◊
Set the address
-2147483648 to 2147483647
INC Linear 1
: 02
H
INC Linear 2
: 0B
H
INC Linear 3
: 16
H
INC Linear 4
: 1B
H
Fixed-feed 1
: 03
H
Fixed-feed 2
: 0C
H
Fixed-feed 3
: 17
H
Fixed-feed 4
: 1C
H
◊
Set the movement amount
-214748364.8 to 214748364.7
◊
Set the movement amount
-2147483648 to 2147483647
Forward run speed/position : 06
H
Reverse run speed/position : 07
H
Forward run position/speed : 08
H
Reverse run position/speed : 09
H
◊
Set the movement amount
0 to 214748364.7
◊
Set the movement amount
0 to 2147483647
ABS circular sub
: 0D
H
ABS circular right
: 0F
H
ABS circular left
: 10
H
◊
Set the address
-214748364.8 to 214748364.7
◊
Set the address
-2147483648 to 2147483647
INC circular sub
: 0E
H
INC circular right
: 11
H
INC circular left
: 12
H
◊
Set the movement amount
-214748364.8 to 214748364.7
◊
Set the movement amount
-2147483648 to 2147483647
1: Set an integer because the sequence program cannot handle fractions.
(The value will be converted properly within the system.)
Summary of Contents for Melsec-Q QD75D1
Page 1: ......
Page 2: ......
Page 22: ...A 20 MEMO ...
Page 24: ...MEMO ...
Page 41: ...1 17 MELSEC Q 1 PRODUCT OUTLINE MEMO ...
Page 48: ...1 24 MELSEC Q 1 PRODUCT OUTLINE MEMO ...
Page 60: ...2 12 MELSEC Q 2 SYSTEM CONFIGURATION MEMO ...
Page 137: ...5 33 MELSEC Q 5 DATA USED FOR POSITIONING CONTROL MEMO ...
Page 232: ...5 128 MELSEC Q 5 DATA USED FOR POSITIONING CONTROL MEMO ...
Page 252: ...6 20 MELSEC Q 6 SEQUENCE PROGRAM USED FOR POSITIONING CONTROL ...
Page 253: ...6 21 MELSEC Q 6 SEQUENCE PROGRAM USED FOR POSITIONING CONTROL ...
Page 278: ...6 46 MELSEC Q 6 SEQUENCE PROGRAM USED FOR POSITIONING CONTROL MEMO ...
Page 292: ...MEMO ...
Page 436: ...9 120 MELSEC Q 9 MAJOR POSITIONING CONTROL MEMO ...
Page 464: ...10 28 MELSEC Q 10 HIGH LEVEL POSITIONING CONTROL MEMO ...
Page 638: ...14 24 MELSEC Q 14 DEDICATED INSTRUCTIONS MEMO ...
Page 647: ...15 9 MELSEC Q 15 TROUBLESHOOTING MEMO ...
Page 686: ...15 48 MELSEC Q 15 TROUBLESHOOTING MEMO ...
Page 839: ...Appendix 153 MELSEC Q APPENDICES 6 QD75D4N 90 23 27 4 12 98 4 46 Unit mm ...
Page 840: ...Appendix 154 MELSEC Q APPENDICES 7 QD75P1 QD75P2 QD75P4 27 4 23 98 90 4 46 unit mm ...
Page 841: ...Appendix 155 MELSEC Q APPENDICES 8 QD75D1 QD75D2 QD75D4 27 4 23 90 12 98 4 46 unit mm ...
Page 842: ...Appendix 156 MELSEC Q APPENDICES MEMO ...
Page 857: ......
Page 858: ......