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6.23.7 Home position return by the data set type 1. Mitsubishi MOTION CONTROLLERS Q172DCPU
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6 POSITIONING CONTROL
6.23.7 Home position return by the data set type 1
(1) Data set type 1
The proximity dog is not used in this method for the absolute position system.
(2) Home position return by the data set type 1
Home position is the command position at the home position return operation.
The address at the home position return operation is registered as the home position address.
t
Home position return by the servo program start instruction
Fig. 6.38 Home position return operation by the date set type 1
(3) Home position return execution
Home position return by the data set type 1 is executed using the servo program in Section 6.23.16.
(4) Cautions
(a) A zero point must be passed (zero pass signal: M2406+20n ON) between turning ON the power supply and executing home position return.
If home position return is executed without passing a zero point once, "no zero point passed error" occurs. If "no zero point passed error" occurred, perform the home position return again, after reset the error and turn the servomotor at least one revolution by the JOG operation.
The zero point passing can be confirmed with the zero pass signal
(M2406+20n). However, when "1 : Not need to pass motor Z phase after the power supply is switched on" is selected in the "function selection C-4" of servo parameter (expansion setting parameter), even if it does not pass zero point at the servo amplifier power ON, the home position return is possible because the zero pass signal (M2406+20n) turns ON.
(b) Home position return is started by the data set type 1 when the absolute position system does not support, it becomes same function as the current value change command.
(c) The home position return data required for the data set type 1 are the home position return direction and home position address.
(d) If in-position signal (M2402+20n) does not turn ON, home position return is not ended.
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Table of contents
- 2 SAFETY PRECAUTIONS
- 12 REVISIONS
- 13 CONTENTS
- 16 About Manuals
- 18 1. OVERVIEW
- 18 1.1 Overview
- 20 1.2 Features
- 20 1.2.1 Performance Specifications
- 22 2. POSITIONING CONTROL BY THE MOTION CPU
- 22 2.1 Positioning Control by the Motion CPU
- 36 3. POSITIONING DEDICATED SIGNALS
- 38 3.1 Internal Relays
- 45 3.1.1 Axis statuses
- 55 3.1.2 Axis command signals
- 62 3.1.3 Common devices
- 75 3.2 Data Registers
- 79 3.2.1 Axis monitor devices
- 85 3.2.2 Control change registers
- 86 3.2.3 Common devices
- 89 3.3 Motion Registers (#)
- 91 3.4 Special Relays (SM)
- 94 3.5 Special Registers (SD)
- 100 4. PARAMETERS FOR POSITIONING CONTROL
- 100 4.1 System Settings
- 101 4.2 Fixed Parameters
- 102 4.2.1 Number of pulses/travel value per rotation
- 104 4.2.2 Backlash compensation amount
- 104 4.2.3 Upper/lower stroke limit value
- 106 4.2.4 Command in-position range
- 107 4.2.5 Speed control 10 multiplier setting for degree axis
- 110 4.3 Parameter Block
- 112 4.3.1 Relationships between the speed limit value, acceleration time, deceleration time and rapid stop deceleration time
- 112 4.3.2 S-curve ratio
- 113 4.3.3 Allowable error range for circular interpolation
- 114 5. SERVO PROGRAMS FOR POSITIONING CONTROL
- 114 5.1 Servo Program Composition Area
- 114 5.1.1 Servo program composition
- 115 5.1.2 Servo program area
- 116 5.2 Servo Instructions
- 129 5.3 Positioning Data
- 135 5.4 Setting Method for Positioning Data
- 135 5.4.1 Setting method by specifying numerical values
- 136 5.4.2 Indirect setting method by devices
- 140 6. POSITIONING CONTROL
- 140 6.1 Basics of Positioning Control
- 140 6.1.1 Positioning speed
- 141 6.1.2 Positioning speed at the interpolation control
- 146 6.1.3 Control units for 1 axis positioning control
- 146 6.1.4 Control units for interpolation control
- 148 6.1.5 Control in the control unit "degree"
- 150 6.1.6 Stop processing and restarting after stop
- 156 6.1.7 Acceleration/deceleration processing
- 158 6.2 1 Axis Linear Positioning Control
- 161 6.3 2 Axes Linear Interpolation Control
- 166 6.4 3 Axes Linear Interpolation Control
- 172 6.5 4 Axes Linear Interpolation Control
- 177 6.6 Auxiliary Point-Specified Circular Interpolation Control
- 182 6.7 Radius-Specified Circular Interpolation Control
- 188 6.8 Central Point-Specified Circular Interpolation Control
- 194 6.9 Helical Interpolation Control
- 195 6.9.1 Circular interpolation specified method by helical interpolation
- 216 6.10 1 Axis Fixed-Pitch Feed Control
- 220 6.11 Fixed-Pitch Feed Control Using 2 Axes Linear Interpolation
- 224 6.12 Fixed-Pitch Feed Control Using 3 Axes Linear Interpolation
- 228 6.13 Speed Control ( I )
- 232 6.14 Speed Control ( II )
- 235 6.15 Speed/Position Switching Control
- 235 6.15.1 Speed/position switching control start
- 242 6.15.2 Re-starting after stop during control
- 247 6.16 Speed-Switching Control
- 247 6.16.1 Speed-switching control start, speed-switching points and end specification
- 253 6.16.2 Specification of speed-switching points using repetition instructions
- 259 6.17 Constant-Speed Control
- 263 6.17.1 Specification of pass points by repetition instructions
- 268 6.17.2 Speed-switching by instruction execution
- 273 6.17.3 1 axis constant-speed control
- 277 6.17.4 2 to 4 axes constant-speed control
- 284 6.17.5 Constant speed control for helical interpolation
- 287 6.17.6 Pass point skip function
- 289 6.17.7 FIN signal wait function
- 299 6.18 Position Follow-Up Control
- 306 6.19 Speed control with fixed position stop
- 311 6.20 Simultaneous Start
- 314 6.21 JOG Operation
- 314 6.21.1 JOG operation data
- 315 6.21.2 Individual start
- 320 6.21.3 Simultaneous start
- 323 6.22 Manual Pulse Generator Operation
- 330 6.23 Home Position Return
- 331 6.23.1 Home position return data
- 339 6.23.2 Home position return by the proximity dog type 1
- 342 6.23.3 Home position return by the proximity dog type 2
- 344 6.23.4 Home position return by the count type 1
- 346 6.23.5 Home position return by the count type 2
- 347 6.23.6 Home position return by the count type 3
- 349 6.23.7 Home position return by the data set type 1
- 350 6.23.8 Home position return by the data set type 2
- 351 6.23.9 Home position return by the dog cradle type
- 356 6.23.10 Home position return by the stopper type 1
- 358 6.23.11 Home position return by the stopper type 2
- 360 6.23.12 Home position return by the limit switch combined type
- 362 6.23.13 Home position return retry function
- 366 6.23.14 Home position shift function
- 370 6.23.15 Condition selection of home position set
- 371 6.23.16 Servo program for home position return
- 373 6.24 High-Speed Oscillation
- 376 7. AUXILIARY AND APPLIED FUNCTIONS
- 376 7.1 M-code Output Function
- 379 7.2 Backlash Compensation Function
- 381 7.3 Torque Limit Function
- 383 7.4 Skip Function in which Disregards Stop Command
- 385 7.5 Cancel of the Servo Program
- 386 7.5.1 Cancel/start
- 388 APPENDICES
- 388 APPENDIX 1 Error Codes Stored Using The Motion CPU
- 390 APPENDIX 1.1 Servo program setting errors (Stored in SD517)
- 395 APPENDIX 1.2 Minor errors
- 405 APPENDIX 1.3 Major errors
- 409 APPENDIX 1.4 Servo errors
- 428 APPENDIX 2 Example Programs
- 428 APPENDIX 2.1 Reading M-code
- 429 APPENDIX 2.2 Reading error code
- 431 APPENDIX 3 Setting Range for Indirect Setting Devices
- 433 APPENDIX 4 Processing Times of the Motion CPU
- 434 APPENDIX 5 Device List
- 445 WARRANTY