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Mitsubishi Electric Q173DCPU Manuals
Manuals and User Guides for Mitsubishi Electric Q173DCPU. We have
8
Mitsubishi Electric Q173DCPU manuals available for free PDF download: Programming Manual, User Manual, Migration Manual
Mitsubishi Electric Q173DCPU Programming Manual (556 pages)
Motion Controller (SV13/SV22)
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 4.67 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
14
About Manuals
20
1 Overview
24
Features
26
Features of Motion SFC Programs
26
Performance Specifications
27
Operation Control/Transition Control Specifications
31
Positioning Dedicated Devices
36
Restrictions by the Software's Version
101
Programming Software Version
107
2 Structure of the Motion Cpu Program
108
Motion Control in SV13/SV22 Real Mode
109
Motion Control in SV22 Virtual Mode
110
Motion Control in SV22 Advanced Synchronous Control
111
3 Motion Dedicated Plc Instruction
112
Outline of Motion Dedicated PLC Instruction
112
Motion SFC Start Request from the PLC CPU to the Motion CPU: D(P).SFCS (PLC Instruction: D(P).SFCS )
114
Servo Program Start Request from the PLC CPU to the Motion CPU: D(P).SVST (PLC Instruction: D(P).SVST )
118
Current Value Change Instruction from the PLC CPU to the Motion CPU: D(P).CHGA (PLC Instruction: D(P).CHGA )
124
Current Value Change Instruction of Command Generation Axis from the PLC CPU to the Motion CPU: D(P).CHGAS (PLC Instruction: D(P).CHGAS )
138
(SV22 Advanced Synchronous Control Only)
138
Speed Change Instruction from the PLC CPU to the Motion CPU: D(P).CHGV (PLC Instruction: D(P).CHGV )
144
Speed Change Instruction of Command Generation Axis from the PLC CPU to the Motion CPU: D(P).CHGVS (PLC Instruction: D(P).CHGVS ) (SV22 Advanced Synchronous Control Only)
150
Torque Limit Value Change Request Instruction from the PLC CPU to the Motion CPU: D(P).CHGT (PLC Instruction: D(P).CHGT )
156
Torque Limit Value Individual Change Request Instruction from the PLC CPU to the Motion CPU: D(P).CHGT2 (PLC Instruction: D(P).CHGT2 )
161
Write Device Data of the Self CPU to the Device of Other CPU: D(P).DDWR (PLC Instruction: D(P).DDWR )
166
Read Device Data of Other CPU to the Device of Self CPU
171
Interrupt Instruction to the Other CPU: D(P).GINT (PLC Instruction: D(P).GINT )
176
Precautions
180
4 Motion Sfc Programs
194
Motion SFC Program Configuration
194
Motion SFC Chart Symbol List
195
Branch and Coupling Chart List
198
Motion SFC Program Name
202
Steps
203
Motion Control Step
203
Operation Control Step
204
Subroutine Call/Start Step
205
Clear Step
207
Transitions
209
Jump, Pointer
212
End
212
Branches, Couplings
213
Series Transition
213
Selective Branch, Selective Coupling
214
Parallel Branch, Parallel Coupling
215
Y/N Transitions
217
Motion SFC Comments
221
5 Operation Control Programs
224
Device Descriptions
232
Constant Descriptions
235
Binary Operations
236
Substitution
236
Addition
238
Subtraction
239
Multiplication
240
Division
241
Remainder
242
Bit Operations
243
Bit Inversion (Complement)
243
Bit Logical and
244
Bit Logical or
245
Bit Exclusive Logical or
246
Bit Right Shift
247
Bit Left Shift
248
Sign Inversion (Complement of 2)
249
Standard Functions
250
Sine : sin
250
Cosine : COS
251
Tangent : tan
252
Arcsine : ASIN
253
Arccosine : ACOS
254
Arctangent : ATAN
255
Square Root : SQRT
256
Natural Logarithm : LN
257
Exponential Operation : EXP
258
Absolute Value : ABS
259
Round-Off : RND
260
Round-Down : FIX
261
Round-Up : FUP
262
Bcd
263
Bin
264
Type Conversions
265
Signed 16-Bit Integer Value Conversion : SHORT
265
Unsigned 16-Bit Integer Value Conversion : USHORT
266
Signed 32-Bit Integer Value Conversion : LONG
268
Unsigned 32-Bit Integer Value Conversion : ULONG
269
Signed 64-Bit Floating-Point Value Conversion : FLOAT
271
Unsigned 64-Bit Floating-Point Value Conversion : UFLOAT
272
Floating-Point Value Conversion 32-Bit into 64-Bit : DFLT
273
Floating-Point Value Conversion 64-Bit into 32-Bit : SFLT
274
Bit Device Statuses
276
ON (Normally Open Contact) : (None)
276
OFF (Normally Closed Contact)
277
Bit Device Controls
278
Device Set : SET
278
Device Reset : RST
280
Device Output : DOUT
282
Device Input : DIN
283
Bit Device Output : out
284
Logical Operations
285
Logical Acknowledgement : (None)
285
Logical Negation
286
Logical and
287
Logical or
288
Comparison Operations
289
Equal to
289
Not Equal to
290
Less than
291
Less than or Equal to
292
More than
293
More than or Equal to
294
Motion-Dedicated Functions
295
Speed Change Request : CHGV
295
Command Generation Axis Speed Change Request : CHGVS (SV22 Advanced Synchronous Control Only)
301
Torque Limit Value Change Request : CHGT
307
Torque Limit Value Individual Change Request : CHGT2
309
Target Position Change Request : CHGP
312
Other Instructions
321
Event Task Enable : EI
321
Event Task Disable : DI
322
No Operation : NOP
323
Block Transfer : BMOV
324
Same Data Block Transfer : FMOV
327
Write Device Data to CPU Shared Memory of the Self CPU: MULTW
329
Read Device Data from CPU Shared Memory: MULTR
332
Write Device Data to Intelligent Function Module : to
335
Read Device Data from Intelligent Function Module : from
337
Write Buffer Memory Data to Head Module : RTO
339
Read Buffer Memory Data from Head Module: RFROM
343
Time to Wait : TIME
347
Comment Statement
349
Vision System Dedicated Function
350
Open Line : MVOPEN
350
Load a Program : MVLOAD
352
Send an Image Acquisition Trigger : MVTRG
354
Start a Program : MVPST
356
Input Data : MVIN
358
Output Data : MVOUT
360
Reset a Status Storage Device : MVFIN
363
Close Line : MVCLOSE
364
Send a Command for Native Mode : MVCOM
365
Data Control
368
16-Bit Integer Type Scaling: SCL
368
32-Bit Integer Type Scaling: DSCL
372
Program Control
375
Conditional Branch Control: if - else - IEND
375
Selective Branch Control: SELECT - CASE - SEND
377
Repeat Control with Specified Count: for - NEXT
379
Forced Termination of Repeat Control: BREAK
382
Synchronous Control Dedicated Function (SV22 Advanced Synchronous Control Only)
383
Cam Data Read: CAMRD
383
Cam Data Write: CAMWR
387
Cam Data Write (Cam Open Area): CAMWR2
391
Cam Auto-Generation: CAMMK
394
Cam Position Calculation: CAMPSCL
404
6 Transition Programs
408
7 Motion Control Programs
410
Servo Instruction List
411
Servo Motor/Virtual Servo Motor Shaft/Command Generation Axis Current Value Change
423
Synchronous Encoder Shaft Current Value Change Control (SV22 Virtual Mode Only)
426
Cam Shaft Within-One-Revolution Current Value Change Control (SV22 Virtual Mode Only)
429
Programming Instructions
431
Cancel • Start
431
Indirect Designation Using Motion Devices
431
8 Motion Devices
432
Motion Registers (#0 to #12287)
432
Coasting Timer (FT)
435
9 Operation for Motion Sfc and Parameter
436
Task Definitions
436
Number of Consecutive Transitions and Task Operation
436
Number of Consecutive Transitions
436
Task Operation
437
Execution Status of the Multiple Task
441
How to Start the Motion SFC Program
442
Automatic Start
442
Start from the Motion SFC Program
442
Start by Motion Dedicated PLC Instruction from PLC (PLC Instruction: D(P).SFCS)
442
How to End the Motion SFC Program
442
How to Change from One Motion SFC Program to Another
443
Operation Performed at Multiple CPU System Power-Off or Reset
443
Operation Performed When CPU Is Switched from RUN/STOP
443
Operation Performed When PLC Ready Flag (M2000) Turns OFF/ON
444
Operation at the Error Occurrence
444
Task Parameters
445
Program Parameters
447
Task and Interrupt Processing
452
10 ONLINE CHANGE in the MOTION SFC PROGRM 10- 1 to
456
Online Change in the Motion SFC Program
456
Operating Method for the Online Change
458
Writing of Program
461
11 User Files
464
Project
464
User File List
465
12 Error Code Lists
468
Confirming Error Code
468
Motion Error Related Devices
469
Motion SFC Error Code List
474
Motion SFC Parameter Errors
489
Vision System Errors
490
Appendices
492
APPENDIX 1 Processing Times
492
APPENDIX 1.1 Processing Time of Operation Control/Transition Instruction
492
APPENDIX 1.2 Processing Time of Motion Dedicated PLC Instruction
514
APPENDIX 2 Sample Program
515
APPENDIX 2.1 Motion Control Example by Motion SFC Program
515
APPENDIX 2.2 Continuation Execution Example at the Subroutine Re-Start by the Motion SFC Program
525
APPENDIX 2.3 Continuation Execution Example after the Stop by the Motion SFC Program
529
APPENDIX 3 Vision System Connection Function
533
APPENDIX 3.1 Overview
533
APPENDIX 3.2 Vision System Parameter Setting
538
APPENDIX 3.3 Flow of Vision System Control
548
APPENDIX 3.4 Sample Program
550
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Mitsubishi Electric Q173DCPU Programming Manual (624 pages)
Motion Controller, REAL MODE
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 5.52 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
14
About Manuals
18
1 Overview
22
Features
25
Performance Specifications
25
Restrictions by the Software's Version
29
Programming Software Version
35
2 Positioning Control by the Motion Cpu
36
3 Positioning Dedicated Signals
50
Internal Relays
52
Axis Statuses
60
Axis Command Signals
72
Common Devices
80
Data Registers
93
Axis Monitor Devices
98
Control Change Registers
104
Common Devices
105
Motion Registers(#)
108
Special Relays (SM)
114
Special Registers (SD)
117
4 Parameters for Positioning Control
118
System Settings
118
Fixed Parameters
123
Number of Pulses/Travel Value Per Rotation
124
Backlash Compensation Amount
127
Upper/Lower Stroke Limit Value
127
Command In-Position Range
131
Speed Control 10 Multiplier Setting for Degree Axis
132
Parameter Block
135
Relationships between the Speed Limit Value, Acceleration Time, Deceleration Time and Rapid Stop Deceleration Time
138
S-Curve Ratio
140
Advanced S-Curve Acceleration/Deceleration
142
Allowable Error Range for Circular Interpolation
156
Expansion Parameters
157
Positive Direction Torque Limit Value Monitor Device/Negative Direction Torque Limit Value Monitor Device
159
Acceleration/Deceleration Time Change Parameter
160
5 Servo Programs for Positioning Control
162
Servo Program Composition Area
162
Servo Program Composition
162
Servo Program Area
163
Servo Instructions
164
Positioning Data
177
Setting Method for Positioning Data
183
Setting Method by Specifying Numerical Values
183
Indirect Setting Method by Devices
184
6 Positioning Control
188
Basics of Positioning Control
188
Positioning Speed
188
Positioning Speed at the Interpolation Control
189
Control Units for 1 Axis Positioning Control
194
Control Units for Interpolation Control
194
Control in the Control Unit "Degree
196
Stop Processing and Restarting after Stop
199
Acceleration/Deceleration Processing
205
Axis Linear Positioning Control
209
Axes Linear Interpolation Control
212
Axes Linear Interpolation Control
217
Axes Linear Interpolation Control
223
Auxiliary Point-Specified Circular Interpolation Control
228
Radius-Specified Circular Interpolation Control
233
Central Point-Specified Circular Interpolation Control
239
Helical Interpolation Control
245
Circular Interpolation Specified Method by Helical Interpolation
246
Axis Fixed-Pitch Feed Control
266
Fixed-Pitch Feed Control Using 2 Axes Linear Interpolation
270
Fixed-Pitch Feed Control Using 3 Axes Linear Interpolation
274
Speed Control ( )
278
Speed Control ( )
283
Speed-Position Switching Control
287
Speed-Position Switching Control Start
287
Re-Starting after Stop During Control
295
Speed-Switching Control
300
Speed-Switching Control Start, Speed-Switching Points and End Specification
300
Specification of Speed-Switching Points Using Repetition Instructions
306
Constant-Speed Control
312
Specification of Pass Points by Repetition Instructions
316
Speed-Switching by Instruction Execution
321
Axis Constant-Speed Control
326
To 4 Axes Constant-Speed Control
330
Constant Speed Control for Helical Interpolation
337
Pass Point Skip Function
342
FIN Signal Wait Function
344
Position Follow-Up Control
354
Speed Control with Fixed Position Stop
361
Simultaneous Start
367
JOG Operation
370
JOG Operation Data
370
Individual Start
371
Simultaneous Start
376
Manual Pulse Generator Operation
379
Home Position Return
385
Home Position Return Data
387
Home Position Return by the Proximity Dog Method 1
396
Home Position Return by the Proximity Dog Method 2
396
Home Position Return by the Count Method 1
401
Home Position Return by the Count Method 2
401
Home Position Return by the Count Method 3
403
Home Position Return by the Data Set Method 1
407
Home Position Return by the Data Set Method 2
407
Home Position Return by the Dog Cradle Method
409
Home Position Return by the Stopper Method 1
414
Home Position Return by the Stopper Method 2
414
Home Position Return by the Limit Switch Combined Method
417
Home Position Return by the Scale Home Position Signal Detection Method
419
Home Position Return by the Dogless Home Position Signal Reference Method
422
Home Position Return by the Driver Home Position Return Method
429
Home Position Return Retry Function
430
Home Position Shift Function
434
Home Position Set Condition Selection
438
Servo Program for Home Position Return
440
High-Speed Oscillation
443
7 Auxiliary and Applied Functions
446
M-Code Output Function
446
Backlash Compensation Function
449
Torque Limit Function
451
Skip Function in Which Disregards Stop Command
454
Cancel of the Servo Program
456
Cancel/Start
457
Synchronous Encoder
458
Speed-Torque Control
459
Speed-Torque Control Data
461
Operation of Speed-Torque Control
469
Acceleration/Deceleration Time Change Function
486
Appendices
492
APPENDIX 1 Error Codes Stored Using the Motion CPU
492
APPENDIX 1.1 Servo Program Setting Errors (Stored in SD517)
494
APPENDIX 1.2 Minor Errors
499
APPENDIX 1.3 Major Errors
518
APPENDIX 1.4 Servo Errors
524
APPENDIX 2 Example Programs
559
APPENDIX 2.1 Reading M-Code
559
APPENDIX 2.2 Reading Error Code
560
APPENDIX 3 Setting Range for Indirect Setting Devices
561
APPENDIX 4 Processing Times of the Motion CPU
563
APPENDIX 5 Device List
566
APPENDIX 6 Compatible Devices with SSCNET (/H)
577
APPENDIX 6.1 Servo Driver VC Series/Vph Series Manufactured by CKD Nikki Denso Co., Ltd
577
APPENDIX 6.2 Inverter FR-A700 Series
587
APPENDIX 6.3 Inverter FR-A800 Series
596
APPENDIX 6.4 Optical Hub Unit
603
APPENDIX 6.5 Alphastep/5-Phase Stepping Motor Driver Manufactured by ORIENTAL MOTOR Co., Ltd
608
APPENDIX 6.6 IAI Electric Actuator Controller Manufactured by IAI Corporation
615
Mitsubishi Electric Q173DCPU Programming Manual (352 pages)
Motion Controller SV22 Virtual Mode
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 2.76 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
13
About Manuals
16
Manual Page Organization
18
1 Overview
20
Motion Control in SV13/SV22 Real Mode
23
Motion Control in SV22 Virtual Mode
24
Restrictions by the Software's Version
25
Programming Software Version
29
2 Starting up the System
30
Starting up the Virtual Mode System
30
Starting up the Incremental System and Absolute System
32
Operation for Incremental System
32
Operation for Absolute (Absolute Position) System
33
Differences between Real Mode and Virtual Mode
34
Positioning Data
34
Positioning Devices
34
Servo Programs
35
Control Change (Current Value Change/Speed Change/Target Position Change)
36
Switching of Control Mode (Speed-Torque Control)
37
3 Performance Specifications
38
4 Positioning Dedicated Signals
40
Internal Relays
42
Axis Statuses
53
Axis Command Signals
61
Virtual Servomotor Axis Statuses
66
Virtual Servomotor Axis Command Signals
70
Synchronous Encoder Axis Statuses
75
Synchronous Encoder Axis Command Signals
76
Common Devices
77
Data Registers
92
Axis Monitor Devices
100
Control Change Registers
102
Virtual Servomotor Axis Monitor Devices
103
Current Value after Virtual Servomotor Axis Main Shaft's Differential Gear
105
Synchronous Encoder Axis Monitor Devices
107
Current Value after Synchronous Encoder Axis Main Shaft's Differential Gear
108
Cam Axis Monitor Devices
110
Common Devices
111
Motion Registers(#)
114
Special Relays (SM)
119
Special Registers (SD)
122
5 Mechanical System Program
130
Mechanical Module Connection Diagram
131
Mechanical Module List
135
6 Drive Module
140
Virtual Servomotor
141
Operation Description
141
Parameter List
147
Virtual Servomotor Axis Devices (Internal Relays, Data Registers)
152
Synchronous Encoder
153
Operation Description
153
Parameter List
158
Synchronous Encoder Axis Devices (Internal Relays, Data Registers)
159
Virtual Servomotor/Synchronous Encoder Control Change
160
Virtual Servomotor Control Change
160
Synchronous Encoder Control Change
162
7 Transmission Module
164
Gear
166
Operation
166
Parameters
166
Clutch
168
Operation
174
Parameters
188
Speed Change Gear
197
Operation
197
Parameters
198
Differential Gear
200
Operation
200
Parameters
200
8 Output Module
202
Rollers
206
Operation
206
Parameter List
207
Ball Screw
210
Operation
210
Parameter List
211
Rotary Tables
214
Operation
214
Parameter List
215
Cam
222
Operation
223
Settings Items at Cam Data Creating
226
Parameter List
230
Cam Curve List
242
Phase Compensation Function
243
9 Real Mode/Virtual Mode Switching and Stop/Re-Start
246
Switching from the Real Mode to Virtual Mode
246
Switching from the Virtual Mode to Real Mode
250
Switching by User
250
Switching by the Operating System Software
250
Continuous Operation on Servo Error in Virtual Mode
251
Precautions at Real Mode/Virtual Mode Switching
252
Stop and Re-Start
254
Stop Operation/Stop Causes During Operation and Re-Starting Operation List
255
10 Auxiliary and Applied Functions
258
Mixed Function of Virtual Mode/Real Mode
258
Speed-Torque Control
264
Appendices
268
APPENDIX 1 Error Codes Stored Using the Motion CPU
268
APPENDIX 1.1 Expression Method for Word Data Axis no
271
APPENDIX 1.2 Related Systems and Error Processing
272
APPENDIX 1.3 Servo Program Setting Errors (Stored in SD517)
273
APPENDIX 1.4 Drive Module Errors
278
APPENDIX 1.5 Servo Errors
284
APPENDIX 1.6 Output Module Errors
318
APPENDIX 1.7 Errors at Real Mode/Virtual Mode Switching
327
APPENDIX 2 Setting Range for Indirect Setting Devices
329
APPENDIX 3 Processing Times of the Motion CPU
331
APPENDIX 4 Device List
333
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Mitsubishi Electric Q173DCPU Programming Manual (314 pages)
Motion Controller
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 2.26 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
13
About Manuals
16
1 Overview
18
Motion Control in SV13/SV22 Real Mode
20
Motion Control in SV22 Virtual Mode
21
2 Starting up the Multiple Cpu System
22
Starting up the System
22
Differences between Incremental System and Absolute System
24
Operation for Incremental System
24
Operation for Absolute (Absolute Position) System
25
Differences between Real Mode and Virtual Mode
26
Positioning Data
26
Positioning Devices
26
Servo Programs
27
Control Change (Current Value Change/Speed Change)
28
3 Performance Specifications
30
4 Positioning Dedicated Signals
32
Internal Relays
34
Axis Statuses
45
Axis Command Signals
52
Virtual Servomotor Axis Statuses
57
Virtual Servomotor Axis Command Signals
61
Synchronous Encoder Axis Statuses
66
Synchronous Encoder Axis Command Signals
67
Common Devices
68
Data Registers
82
Axis Monitor Devices
90
Control Change Registers
92
Virtual Servomotor Axis Monitor Devices
93
Current Value after Virtual Servomotor Axis Main Shaft's Differential Gear
95
Synchronous Encoder Axis Monitor Devices
97
Current Value after Synchronous Encoder Axis Main Shaft's Differential Gear
98
Cam Axis Monitor Devices
100
Common Devices
101
Motion Registers(#)
104
Special Relays (SM)
106
Special Registers (SD)
109
5 Mechanical System Program
116
Mechanical Module Connection Diagram
117
Mechanical Module List
120
6 Drive Module
122
Virtual Servomotor
122
Operation Description
122
Parameter List
132
Virtual Servomotor Axis Devices (Internal Relays, Data Registers)
137
Synchronous Encoder
138
Operation Description
138
Parameter List
142
Synchronous Encoder Axis Devices (Internal Relays, Data Registers)
143
Virtual Servomotor/Synchronous Encoder Control Change
144
Virtual Servomotor Control Change
144
Synchronous Encoder Control Change
146
7 Transmission Module
148
Gear
150
Operation
150
Parameters
150
Clutch
152
Operation
158
Parameters
172
Speed Change Gear
181
Operation
181
Parameters
182
Differential Gear
184
Operation
184
Parameters (Must be Not Set)
184
8 Output Module
186
Rollers
190
Operation
190
Parameter List
191
Ball Screw
194
Operation
194
Parameter List
195
Rotary Tables
198
Operation
198
Parameter List
199
Cam
206
Operation
207
Settings Items at Cam Data Creating
210
Parameter List
214
Cam Curve List
224
Phase Compensation Function
225
9 Real Mode/Virtual Mode Switching and Stop/Re-Start
228
Switching from the Real Mode to Virtual Mode
228
Switching from the Virtual Mode to Real Mode
232
Switching by User
232
Switching by the Operating System Software
232
Continuous Operation on Servo Error in Virtual Mode
233
Precautions at Real Mode/Virtual Mode Switching
234
Stop and Re-Start
236
Stop Operation/Stop Causes During Operation and Re-Starting Operation List
237
10 Auxiliary and Applied Functions
240
Mixed Function of Virtual Mode/Real Mode
240
Appendices
246
APPENDIX 1 Cam Curves
246
APPENDIX 2 Error Codes Stored Using the Motion CPU
250
APPENDIX 2.1 Expression Method for Word Data Axis no
253
APPENDIX 2.2 Related Systems and Error Processing
254
APPENDIX 2.3 Servo Program Setting Errors (Stored in SD517)
255
APPENDIX 2.4 Drive Module Errors
260
APPENDIX 2.5 Servo Errors
265
APPENDIX 2.6 Output Module Errors
284
APPENDIX 2.7 Errors at Real Mode/Virtual Mode Switching
291
APPENDIX 3 Setting Range for Indirect Setting Devices
293
APPENDIX 4 Processing Times of the Motion CPU
295
APPENDIX 5 Device List
296
Mitsubishi Electric Q173DCPU Programming Manual (282 pages)
COMMON. Motion controller
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 3.23 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
14
About Manuals
17
Manual Page Organization
19
1 Overview
20
Features
22
Features of Motion CPU
22
Basic Specifications of Q173D(S)CPU/Q172D(S)CPU
24
Hardware Configuration
30
Motion System Configuration
30
Q173DSCPU/Q172DSCPU System Overall Configuration
33
Q173DCPU(-S1)/Q172DCPU(-S1) System Overall Configuration
35
Software Packages
36
Restrictions on Motion Systems
38
Checking Serial Number and Operating System Software Version
42
Checking Serial Number
42
Checking Operating System Software Version
45
Restrictions by the Software's Version
47
Programming Software Version
51
2 Multiple Cpu System
52
Overview
52
Installation Position of CPU Module
53
Precautions for Using I/O Modules and Intelligent Function Modules
54
Modules Subject to Installation Restrictions
55
How to Reset the Multiple CPU System
57
Operation for CPU Module Stop Error
58
Starting up the Multiple CPU System
61
Startup Flow of the Multiple CPU System
61
Communication between the PLC CPU and the Motion CPU in the Multiple CPU System
63
CPU Shared Memory
63
Multiple CPU High Speed Transmission
66
Multiple CPU High Speed Refresh Function
81
Clock Synchronization between Multiple CPU
85
Multiple CPU Synchronous Startup
86
Control Instruction from PLC CPU to Motion CPU
87
3 Common Parameters
88
System Settings
88
System Data Settings
89
Common System Parameters
92
Individual Parameters
98
I/O Number Assignment
108
I/O Number Assignment of each Module
108
I/O Number of each CPU Modules
110
I/O Number Setting
111
Servo Parameters
112
Servo External Signal Parameters
113
4 Auxiliary and Applied Functions
116
Limit Switch Output Function
116
Operations
116
Limit Output Setting Data
119
Operations (SV22 Advanced Synchronous Control Only)
123
Limit Output Setting Data (SV22 Advanced Synchronous Control Only)
125
Absolute Position System
132
Current Value Control
134
High-Speed Reading of Specified Data
135
ROM Operation Function
137
Specifications of 7-Segment Led/Switches
137
Outline of ROM Operation
139
Operating Procedure of the ROM Operation Function
144
Security Function
146
Protection by Password
146
Protection by Software Security Key
153
All Clear Function
158
Communication Via Network
159
Specifications of the Communications Via Network
159
Monitor Function of the Main Cycle
160
Servo Parameter Read/Change Function
161
Optional Data Monitor Function
163
SSCNET Control Function
166
Connect/Disconnect Function of SSCNET Communication
167
Amplifier-Less Operation Function
171
Remote Operation
175
Remote RUN/STOP
175
Remote Latch Clear
177
Communication Function Via PERIPHERAL I/F
178
Direct Connection
178
Connection Via HUB
181
MC Protocol Communication
187
Mark Detection Function
194
High-Speed Input Request Signal Setting (SV22 Advanced Synchronous Control Only)
206
Driver Communication Function
209
Control Details
210
Precautions During Control
211
Servo Parameter
215
Intelligent Function Modules Controlled by Motion CPU
216
Connection of SSCNET /H Head Module
219
System Configuration
219
SSCNET /H Head Module Parameters
220
Data Operation of Intelligent Function Module by Motion SFC Program
228
Data of Refresh Device
228
Precautions When Using SSCNET /H Head Module
228
Appendices
230
APPENDIX 1 Special Relays/Special Registers
230
APPENDIX 1.1 Special Relays
230
APPENDIX 1.2 Special Registers
235
APPENDIX 1.3 Replacement of Special Relays/Special Registers
242
APPENDIX 2 System Setting Errors
245
APPENDIX 3 Self-Diagnosis Error
248
APPENDIX 4 Differences between Q173DSCPU/Q172DSCPU/Q173DCPU(-S1)/Q172DCPU(-S1)/ Q173HCPU/Q172HCPU
261
APPENDIX 4.1 Differences between Q173DSCPU/Q172DSCPU/Q173DCPU(-S1)/Q172DCPU(-S1)/ Q173HCPU/Q172HCPU
261
APPENDIX 4.2 Comparison of Devices
265
APPENDIX 4.3 Differences of the Operating System Software
274
Mitsubishi Electric Q173DCPU User Manual (190 pages)
Motion Controller Q series
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 2 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
13
About Manuals
16
1 Overview
18
Differences between Q173DCPU/Q172DCPU and Q173HCPU/Q172HCPU
20
2 System Configuration
22
Motion System Configuration
22
Q173DCPU System Overall Configuration
24
Q172DCPU System Overall Configuration
26
Function Explanation of the Q173DCPU/Q172DCPU Motion CPU Modules
28
Restrictions on Motion Systems
29
System Configuration Equipment
32
General Specifications
39
Specifications of Equipment and Settings
40
Name of Parts for CPU Module
40
Power Supply Module
48
Base Unit and Extension Cable
56
Q172DLX Servo External Signals Interface Module
59
Q172DEX Synchronous Encoder Interface Module
64
Q173DPX Manual Pulse Generator Interface Module
73
Manual Pulse Generator/Serial Absolute Synchronous Encoder
82
SSCNET Cables and Connection Method
84
External Battery
89
Forced Stop Input Terminal
92
3 Design
94
System Designing Procedure
94
External Circuit Design
97
Power Supply Circuit Design
101
Safety Circuit Design
102
Layout Design Within the Control Panel
104
Mounting Environment
104
Layout Design of the Base Units
105
Calculating Heat Generation by Motion Controller
106
Design Checklist
109
4 Installation and Wiring
110
Module Installation
110
Instructions for Handling
110
Instructions for Mounting the Base Unit
112
Installation and Removal of Module
115
Instructions for Mounting of the Battery Holder Unit
118
Connection and Disconnection of Cable
119
SSCNET Cable
119
Battery Cable
122
Forced Stop Input Cable
124
Mounting of Serial Absolute Synchronous Encoder
125
Wiring
127
Instructions for Wiring
127
Connecting to the Power Supply Module
130
Precautions of SSCNET Cable Wiring
132
5 Trial Operation and Adjustment
136
Checklist before Trial Operation
136
Trial Operation and Adjustment Procedure
138
Operating System Software Installation Procedure
142
Trial Operation and Adjustment Checklist
143
6 Inspection and Maintenance
144
Maintenance Works
145
Instruction of Inspection Works
145
Daily Inspection
147
Periodic Inspection
148
Life
149
External Battery
150
Battery Life
151
Battery Replacement Procedure
153
Resuming Operation after Storing the Motion Controller
155
Troubleshooting
156
Troubleshooting Basics
156
Troubleshooting of Motion CPU Module
157
Confirming Error Code
168
I/O Module Troubleshooting
169
APPENDIX 1 Cables
172
APPENDIX 2 Exterior Dimensions
173
APPENDIX 1.1 SSCNET Cables
175
APPENDIX 1.2 Serial Absolute Synchronous Encoder Cable
175
APPENDIX 1.3 Battery Cable
177
APPENDIX 1.4 Forced Stop Input Cable
178
APPENDIX 2.1 CPU Module
179
APPENDIX 2.2 Servo External Signals Interface Module (Q172DLX)
180
APPENDIX 2.3 Synchronous Encoder Interface Module (Q172DEX)
180
APPENDIX 2.4 Manual Pulse Generator Interface Module (Q173DPX)
181
APPENDIX 2.5 Power Supply Module (Q61P-A1, Q61P-A2, Q61P, Q62P, Q63P, Q64P)
182
APPENDIX 2.6 Battery Holder Unit (Q170DBATC)
183
APPENDIX 2.7 Connector
184
APPENDIX 2.8 Manual Pulse Generator (MR-HDP01)
187
APPENDIX 2.9 Serial Absolute Synchronous Encoder (Q170ENC)
187
Mitsubishi Electric Q173DCPU Programming Manual (174 pages)
MELSEC Q Series Motion Controller
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 1.74 MB
Table of Contents
Safety Precautions
2
Revisions
12
Table of Contents
13
About Manuals
15
1 Overview
18
Features
20
Features of Motion CPU
20
Basic Specifications of Q173DCPU/Q172DCPU
22
Hardware Configuration
25
Motion System Configuration
25
Q173DCPU System Overall Configuration
27
Q172DCPU System Overall Configuration
29
Software Packages
31
Restrictions on Motion Systems
34
2 Multiple Cpu System
38
Overview
38
Installation Position of CPU Module
39
Precautions for Using I/O Modules and Intelligent Function Modules
40
Modules Subject to Installation Restrictions
41
How to Reset the Multiple CPU System
42
Operation for CPU Module Stop Error
43
Starting up the Multiple CPU System
46
Startup Flow of the Multiple CPU System
46
Communication between the PLC CPU and the Motion CPU in the Multiple CPU System
48
CPU Shared Memory
48
Multiple CPU High Speed Transmission
51
Multiple CPU High Speed Refresh Function
62
Clock Synchronization between Multiple CPU
66
Multiple CPU Synchronous Startup
67
Control Instruction from PLC CPU to Motion CPU
68
3 Common Parameters
70
System Settings
70
System Data Settings
71
Common System Parameters
73
Individual Parameters
79
I/O Number Assignment
84
I/O Number Assignment of each Module
84
I/O Number of each CPU Modules
86
I/O Number Setting
87
Servo Parameters
88
4 Auxiliary and Applied Functions
92
Limit Switch Output Function
92
Operations
92
Limit Output Setting Data
95
Absolute Position System
99
Current Value Control
101
High-Speed Reading of Specified Data
102
ROM Operation Function
103
Specifications of 7-Segment Led/Switches
103
Outline of ROM Operation
105
Operating Procedure of the ROM Operation Function
110
Security Function
112
Password Registration/Change
112
Password Delete
114
Password Check
115
Password Save
116
All Clear Function
117
Communication Via Network
118
Specifications of the Communications Via Network
118
Access Range of the Communications Via Network
119
Monitor Function of the Main Cycle
124
Servo Parameter Reading Function
125
Optional Data Monitor Function
126
Connect/Disconnect Function
127
Remote Operation
132
Remote RUN/STOP
132
Remote Latch Clear
134
Appendices
136
APPENDIX 1 Special Relays/Special Registers
136
APPENDIX 1.1 Special Relays
136
APPENDIX 1.2 Special Registers
140
APPENDIX 1.3 Replacement of Special Relays/Special Registers
146
APPENDIX 2 System Setting Errors
148
APPENDIX 3 Self-Diagnosis Error Code
150
APPENDIX 4 Differences between Q173DCPU/Q172DCPU and Q173HCPU/Q172HCPU
161
APPENDIX 4.1 Differences between Q173DCPU/Q172DCPU and Q173HCPU/Q172HCPU
161
APPENDIX 4.2 Comparison of Devices
163
APPENDIX 4.3 Differences of each Mode
170
Mitsubishi Electric Q173DCPU Migration Manual (52 pages)
Motion Controller
Brand:
Mitsubishi Electric
| Category:
Controller
| Size: 4.55 MB
Table of Contents
Safety Precautions
3
Revisions
13
Table of Contents
14
1 OVERVIEW of MIGRATION from Q17Ndcpu(-S1) to Q17Ndscpu
15
Benefits of Migration
15
Main Target Models for Migration
16
System Configuration
19
System Configuration Using Q17Ndcpu(-S1) before Migration
19
System Configuration Using Q17Ndscpu after Migration
20
Case Study on Migration
21
Whole System Migration (Recommended)
21
Phased Migration
23
Separate Repair
24
Precautions for Powering off Only a Desired Servo Amplifier
26
Configuration When the MR-MV200 Optical Hub Unit Is Used
27
Project Diversion
28
Relevant Documents
29
Relevant Catalogs
29
Relevant Manuals
30
2 DETAILS of MIGRATION from Q17Ndcpu(-S1) to Q17Ndscpu
31
Table of Components and Software
31
Servo Amplifiers and Servo Motors
33
Operating System Software
34
Engineering Environment (Required)
34
Differences between Q17Ndcpu(-S1) and Q17Ndscpu
35
Project Diversion
40
List of Divertible/Not Divertible Data (SV13/SV22)
40
Project Diversion Procedures by Engineering Environment
41
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