11 - 4
MELSEC-Q
11 MANUAL CONTROL
11.2 JOG operation
11.2.1 Outline of JOG operation
Important
Use the hardware stroke limit function when carrying out JOG operation near the
upper or lower limits. (Refer to Section 12.4.4).
* If the hardware stroke limit function is not used, the workpiece may exceed the
moving range, causing an accident.
JOG operation
In JOG operation, the FORWARD run JOG start signal (Y8, YA, YC, YE) or
REVERSE run JOG start signal (Y9, YB, YD, YF) turns ON, causing pulses to be
output to the drive unit from the QD75 while the signal is ON. The workpiece is
then moved in the designated direction.
The following shows examples of JOG operation.
1)
When the START signal turns ON, acceleration begins in the direction designated by the
START signal, and continues for the acceleration time designated in "
Pr.32
JOG
operation acceleration time selection". At this time, the BUSY signal changes from OFF to
ON.
2)
When the workpiece being accelerated reaches the speed set in "
Cd.17
JOG speed",
the movement continues at this speed.
The constant speed movement takes place at 2) and 3).
3)
When the START signal is turned OFF, deceleration begins from the speed set in
"
Cd.17
JOG speed", and continues for the deceleration time designated in "
Pr.33
JOG operation deceleration time selection".
4)
The operation stops when the speed becomes "0". At this time, the BUSY signal changes
from ON to OFF.
PLC READY signal [Y0]
OFF
ON
Reverse run JOG start signal
[Y9, YB, YD, YF]
OFF
ON
OFF
ON
BUSY signal[XC, XD, XE, XF]
OFF
ON
Forward JOG run
Reverse JOG run
QD75 READY signal [X0]
Forward run JOG start signal
[Y8, YA, YC, YE]
Cd. 17 JOG speed
Acceleration for the acceleration
time selected in Pr. 32
Deceleration for the deceleration
time selected in Pr. 33
1)
2)
3)
4)
OFF
ON
Fig. 11.4 JOG operation
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: ......