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Mitsubishi Q Series Manuals
Manuals and User Guides for Mitsubishi Q Series. We have
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Mitsubishi Q Series manuals available for free PDF download: User Manual, Programming Manual, Connectivity Manual
Mitsubishi Q Series User Manual (244 pages)
Loop Control Module
Brand:
Mitsubishi
| Category:
Control Unit
| Size: 4.39 MB
Table of Contents
Safety Precautions
3
Revisions
7
Table of Contents
8
Compliance with the EMC and Low Voltage Directives
13
About the Generic Terms and Abbreviations
14
Product Structure
14
1 General Description
15
Features
16
The PID Control System
19
About the PID Operation
20
Operation Method and Formula
20
The Q62HLC Actions
21
Proportional Action (P-Action)
22
Integral Action (I-Action)
23
Derivative Action (D-Action)
24
PID Action
25
2 System Configuration
26
Applicable Systems
26
About Use of the Q62HLC with the Q12PRH/Q25PRHCPU
29
How to Check the Function Version, Production Information, Product Information and Software Version
30
3 Specifications
32
Performance Specifications
32
Performance Specifications of the Q62HLC
32
Operation at Input Disconnection
36
Function Summary
37
Auto Tuning Function
38
Auto Tuning Setting Function
43
Reverse/Forward Action Select Function
44
RFB Limiter Function
44
Sensor Compensation Function
44
Unused Channel Setting Function
45
Forced PID Control Stop Function
45
Loop Disconnection Detection Function
46
Data Storage on Feram Function
47
Alert Function
49
Control Output Setting at CPU Stop Error Occurrence Function
54
Program Control Function
55
Cascade Control Function
63
Scaling Function
65
Simplified Analog I/O Function
66
Q62HLC Control Status Controlling Output Signal and Buffer Memory Settings and Control Status
67
Sampling Period and Control Output Period
71
I/O Signals Transferred To/From the Programmable Controller CPU
72
I/O Signal List
72
Input Signal Functions
73
Output Signal Functions
77
Buffer Memory
77
Buffer Memory List
80
Error Code (Buffer Memory Address 0: Un\G0)
91
Alert Definition (Buffer Memory Address 5,6: Un\G5, Un\G6)
92
Measured Value (PV Value) (Buffer Memory Address 9,10: Un\G9, Un\G10)
92
Manipulated Value (MV Value) (Buffer Memory Address 13, 14: Un\G13, Un\G14)
92
Approach Flag (Buffer Memory Address 17, 18: Un\G17, Un\G18)
93
Set Value Monitor (Buffer Memory Address 25, 26: Un\G25, Un\G26)
93
Cold Junction Temperature Measured Value (Buffer Memory Address 29: Un\G29)
93
Control Mode Monitor (Buffer Memory Address 30: Un\G30)
93
Input Range (Buffer Memory Address 32, 64: Un\G32, Un\G64)
96
Stop Mode Setting (Buffer Memory Address 33, 65: Un\G33, Un\G65)
98
Set Value (SV) Setting (Buffer Memory Address 34, 66: Un\G34, Un\G66)
98
PID Constant Setting
99
Alert Setting Value 1 to
99
Upper/Lower Output Limiter (Buffer Memory Address 42, 43, 74, 75: Un\G42, Un\G43, Un\G74, Un\G75)
100
Output Variation Limiter (Buffer Memory Address 44, 76: Un\G44, Un\G76)
100
Sensor Compensation Value Setting (Buffer Memory Address 45, 77: Un\G45, Un\G77)
100
AT Differential Gap (Buffer Memory Address 46, 78: Un\G46, Un\G78)
101
AT Additional Lag (Buffer Memory Address 47, 79: Un\G47, Un\G79)
101
Primary Delay Digital Filter Setting (Buffer Memory Address 48, 80: Un\G48, Un\G80)
102
Control Response Parameter (Buffer Memory Address 49, 81: Un\G49, Un\G81)
103
Control Mode (Buffer Memory Address 50, 82: Un\G50, Un\G82)
104
MAN Output Setting (Buffer Memory Address 51, 83: Un\G51, Un\G83)
105
Setting Change Rate Limiter (Buffer Memory Address 52, 84: Un\G52, Un\G84)
105
AT Bias (Buffer Memory Address 53, 85: Un\G53, Un\G85)
106
Forward/Reverse Action Setting (Buffer Memory Address 54, 86: Un\G54, Un\G86)
106
Upper/Lower Setting Limiter (Buffer Memory Address 55, 56, 87, 88: Un\G55, Un\G56, Un\G87, Un\G88)
107
Program Control RUN/RESET (Buffer Memory Address 57, 89: Un\G57, Un\G89)
107
Loop Disconnection Detection Judgment Time (Buffer Memory Address 59, 91: Un\G59, Un\G91)
108
Loop Disconnection Detection Dead Band (Buffer Memory Address 60, 92: Un\G60, Un\G92)
108
Unused Channel Setting (Buffer Memory Address 61, 93: Un\G61, Un\G93)
109
Ferams PID Constant Read Command (Buffer Memory Address 62, 94: Un\G62, Un\G94)
109
Automatic Backup Setting after Auto Tuning of PID Constants (Buffer Memory Address 63, 95: Un\G63, Un\G95)
110
Alert Dead Band Setting (Buffer Memory Address 164: Un\G164)
110
Alert Delay Count (Buffer Memory Address 165: Un\G165)
110
Approach Range Setting (Buffer Memory Address 167: Un\G167)
111
Approach Soak Time Setting (Buffer Memory Address 168: Un\G168)
111
PID Continuation Flag (Buffer Memory Address 169: Un\G169)
111
Cascade ON/OFF (Buffer Memory Address 176: Un\G176)
111
Cascade Gain (Buffer Memory Address 177: Un\G177)
112
Cascade Bias (Buffer Memory Address 178: Un\G178)
112
Cascade Monitor (Buffer Memory Address 179: Un\G179)
112
Mode Setting of Alert 1 to
113
Scaling Value (Buffer Memory Address 196, 212: Un\G196, Un\G212)
113
Scaling Range Upper Limit • Lower Limit (Buffer Memory Address 197, 198, 213, 214: Un\G197, Un\G198, Un\G213, Un\G214)
114
Scaling Width Upper Limit • Lower Limit
114
Hold Command (Buffer Memory Address 201, 217: Un\G201, Un\G217)
115
Command Advancing (Buffer Memory Address 202, 218: Un\G202, Un\G218)
116
Segment Monitor (Buffer Memory Address 256, 512: Un\G256, Un\G512)
116
Segment Remaining Time (Buffer Memory Address 257, 513: Un\G257, Un\G513)
116
Execution Times Monitor (Buffer Memory Address 258, 514: Un\G258, Un\G514)
117
Pattern End Output Flag (Buffer Memory Address 259, 515: Un\G259, Un\G515)
117
End Status Flag (Buffer Memory Address 260, 516: Un\G260, Un\G516)
117
Wait Status Flag (Buffer Memory Address 261, 517: Un\G261, Un\G517)
117
Hold Status Flag (Buffer Memory Address 262, 518: Un\G262, Un\G518)
117
Advancing Completion Flag (Buffer Memory Address 263, 519: Un\G263, Un\G519)
117
Execution Pattern Monitor (Buffer Memory Address 264, 520: Un\G264, Un\G520)
118
Zone PID Monitor (Buffer Memory Address 265, 521: Un\G265, Un\G521)
118
Execution Pattern (Buffer Memory Address 272, 528: Un\G272, Un\G528)
118
Start Mode (Buffer Memory Address 273, 529: Un\G273, Un\G529)
119
Time Scale (Buffer Memory Address 274, 530: Un\G274, Un\G530)
120
Zone Setting
120
Un\G275 to Un\G313, Un\G531 to Un\G569)
120
Program Pattern
120
Un\G320 to Un\G500, Un\G576 to Un\G756)
122
4 Setup and Procedure before Starting the Operation
126
Handling Precautions
126
Procedure before Starting the Operation
127
Parts Identification
128
Wiring
130
Wiring Precautions
130
External Wiring
131
Switch Settings for the Intelligent Function Module
133
5 UTILITY PACKAGE (GX Configurator-TC)
135
Utility Package Functions
135
Installing and Uninstalling the Utility Package
138
Handling Precautions
138
Operating Environment
140
Utility Package Operation
142
Common Utility Package Operations
142
Operation Overview
144
Starting the Intelligent Function Module Utility
146
Initial Settings
148
Auto Refresh
152
Monitoring/Test
154
6 Programming
158
Programming Procedure
158
For Use in Normal System Configuration
159
Program Example Using the Utility Package
162
Program Example Without Using the Utility Package
167
For Use on Remote I/O Network
177
Program Example Using the Utility Package
180
Program Example Without Using the Utility Package
191
7 Online Module Change
207
Online Module Change Conditions
208
Online Module Change Operations
209
Online Module Change Procedure
210
GX Configurator-TC was Used for Initial Setting
210
Sequence Program was Used for Initial Setting
215
Precautions for Online Module Change
220
Precautions before Module Change
220
Precautions after Module Change
222
List of Precautions Depending on Parameter Setting Method
223
8 Troubleshooting
224
Error Code List
224
Processing Performed by Q62HLC at Error Occurrence
227
If the RUN LED Has Flickered or Turned off
228
If the ERR. LED Has Turned on or Flickered
228
If the ALM LED Has Turned on or Flickered
229
If the Watchdog Timer Error (Xn0) Has Turned on
229
If the Error Flag (Xn2) Has Turned on
229
If the Module READY Flag (Xn3) Does Not Turn on
230
If the Feram Write Failure Flag (Xna) Has Turned on
230
If Auto Tuning Does Not Start (if the Auto Tuning Status Flag (Xn4, Xn5) Does Not Turn ON)
230
If Auto Tuning Does Not Complete (if the Auto Tuning Status Flag (Xn4, Xn5) Remains to be on and Does Not Turn OFF)
230
If the Alert Occurrence Flag (Xnc to Xnd) Has Turned on
231
Checking the Q62HLC Status by System Monitoring of GX Developer
232
Appendix
235
Appendix 1 External Dimension Diagram
235
Appendix 2 New Function of the Q62HLC
236
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Mitsubishi Q Series User Manual (224 pages)
Positioning Module, Programmable Logic Controller
Brand:
Mitsubishi
| Category:
Control Unit
| Size: 2.75 MB
Table of Contents
Safety Instructions
2
Revisions
5
Table of Contents
6
About Manuals
10
Using this Manual
10
Conformation to the EMC Directive and Low Voltage Instruction
10
Generic Terms and Abbreviations
11
Component List
11
Section 1 Product Specifications and Handling
12
1 Product Outline
14
Positioning Control
14
Features of QD70
14
Mechanism of Positioning Control
15
Outline Design of Positioning Control System
17
Communicating Signals between QD70 and each Module
20
Positioning Control
22
Outline of Starting
22
Outline of Stopping
23
2 System Configuration
24
General Image of System
24
Component List
25
Applicable System
26
How to Check the Function Version and the Software Version
27
3 Specifications and Functions
29
Performance Specifications
29
List of Functions
30
Specifications of Input/Output Signal with PLC CPU
32
List of Input/Output Signals with PLC CPU
32
Details of Input Signal
33
Plc Cpu)
33
Specifications of Input/Output Interfaces with External Device
35
Electrical Specifications of Input/Output Signals
35
Signal Layout for External Device Connection Connector
37
List of Input/Output Signal Details
38
Input/Output Interface Internal Circuit
39
4 Data Used for Positioning Control(List of Buffer Memory Addresses)
40
Type of Data
40
Parameters and Data Required for Control
40
Setting Items for Parameters
42
Setting Items for OPR Data
43
Setting Items for JOG Data
44
Setting Items for Positioning Data
45
Type and Roles of Monitor Data
46
Type and Roles of Control Data
47
List of Parameters
48
List of OPR Data
53
List of JOG Data
59
List of Positioning Data
60
List of Monitor Data
66
Axis Monitor Data
66
Module Information Monitor Data
68
List of Control Data
69
Axis Control Data
69
5 Setup and Procedures before Operation
71
Handling Precautions
71
Procedures before Operation
73
Part Identification Nomenclature
74
Wiring
77
Wiring Precautions
77
Confirming the Wiring
82
Confirmation Items at Completion of Wiring
82
Switch Setting for Intelligent Function Module
84
Simple Reciprocating Operation
88
6 UTILITY PACKAGE(GX Configurator-PT)
91
Utility Package Functions
91
Installing and Uninstalling the Utility Package
92
User Precautions
92
Operating Environment
94
Explanation of Utility Package Operations
95
How to Perform Common Utility Package Operations
95
Operation Overview
97
Starting the Intelligent Function Module Utility
99
Initial Setting
101
Auto Refresh Setting
103
Monitor/Test
105
Monitor/Test Screen
105
7 Sequence Program Used for Positioning Control
108
Precautions for Creating Program
108
List of Devices Used
110
Creating a Program
112
General Configuration of Program
112
Positioning Control Operation Program
113
Positioning Control Program Examples
115
Program Details
119
Initialization Program
119
Start Method Setting Program
120
Start Program
120
Sub Program
125
Section 2 Control Details and Setting
128
8 Opr Control
130
Outline of OPR Control
130
Two Types of OPR Control
130
Machine OPR Control
131
Outline of the Machine OPR Operation
131
Machine OPR Method
132
OPR Method (1): Near-Point Dog Method
133
OPR Method (2): Stopper 1
135
OPR Method (3): Stopper 2
137
OPR Method (4): Stopper 3
139
OPR Method (5): Count 1
141
OPR Method (6): Count 2
143
Fast OPR Control
145
Outline of the Fast OPR Control Operation
145
9 Positioning Control
146
Outline of Positioning Controls
146
Data Required for Positioning Control
146
Operation Patterns of Positioning Controls
147
Designating the Positioning Address
153
Confirming the Current Value
154
Setting the Positioning Data
155
Relation between each Control and Positioning Data
155
1-Axis Linear Control
156
Speed-Position Switching Control
158
Current Value Changing
161
Multiple Axes Simultaneous Start Control
162
10 Jog Operation
163
Outline of JOG Operation
163
JOG Operation Execution Procedure
165
JOG Operation Example
166
11 Sub Functions
169
Outline of Sub Functions
169
Speed Limit Function
169
Speed Change Function
170
Software Stroke Limit Function
173
Acceleration/Deceleration Processing Function
176
Restart Function
180
12 Common Functions
182
Outline of Common Functions
182
External I/O Signal Switching Function
182
External I/O Signal Monitor Function
183
13 Troubleshooting
185
Error and Warning Details
185
List of Errors
187
List of Warnings
195
LED Display Function
197
Confirming the Error Definition Using System Monitor of GX Developer
198
Appendix
199
Appendix 1 External Dimension Drawing
199
Appendix 2 Operation Timing and Processing Time in each Control
200
Appendix 3 Connection Examples with Servo Amplifiers Manufactured by MITSUBISHI Electric Corporation
204
Appendix 3.1 Connection Example of QD70P and MR-H a
204
Appendix 3.2 Connection Example of QD70P and MR-J2/J2S- a
205
Appendix 3.3 Connection Example of QD70P and MR-C a
206
App
206
Appendix 4.1 Connection Example of QD70P and VEXTA UPD
207
Appendix 5 Connection Examples with Servo Amplifiers Manufactured by Matsushita Electric Industrial Co., Ltd
208
Appendix 6 Connection Examples with Servo Amplifiers Manufactured by Yamayo Electric Co., Ltd
209
Appendix 6.1 Connection Example of QD70P and PZ Series
209
Appendix 7 Connection Examples with Servo Amplifiers Manufactured by Yasukawa Electric Co., Ltd
210
Appendix 7.1 Connection Example of QD70P and Σ- Series
210
Appendix 8 Comparisons with Type QD75 Positioning Module
211
Appendix 9 List of Buffer Memory Addresses
214
Mitsubishi Q Series Programming Manual (194 pages)
Brand:
Mitsubishi
| Category:
Controller
| Size: 1.85 MB
Table of Contents
Revisions
4
Table of Contents
6
About Manuals
9
SFC Program
12
SFC (MELSAP-L) Features
13
Performance Specifications Related to SFC Programs
22
Performance Specifications of High Performance Model QCPU, Process CPU Redundant CPU and Universal Model QCPU
24
Device List
28
Device List of High Performance Model QCPU, Process CPU, Redundant CPU and Universal Model QCPU
30
Processing Time
33
Processing Time for S(P).SFCSCOMR Instruction and S(P).SFCTCOMR Instruction
37
Calculating the SFC Program Capacity
38
List of SFC Diagram Symbols
41
Steps
43
Initial Step
46
Dummy Step
47
Operation HOLD Step (with Transition Check) ST
51
Block START Step (with END Check)
54
Block START Step (Without END Check)
56
End Step
58
Instructions that Cannot be Used with Operation Outputs
60
Transition
61
Serial Transition
62
Selection Transition
64
Parallel Transition
67
Jump Transition
71
Precautions for Creating Operation Output (Step)/Transition Condition Programs
72
Controlling SFC Programs by Instructions (SFC Control Instructions)
76
Step Operation Status Check Instructions (A, B, &A, &B, La, Lb)
80
Forced Transition Check Instruction (A, B, &A, &B, La, Lb)
83
Block Operation Status Check Instruction (A, B, &A, &B, La, Lb)
85
Active Step Batch Readout Instructions (MOV, DMOV)
87
Active Step Batch Readout (BMOV)
90
Block START & END Instructions (S, R)
93
Block STOP and RESTART Instructions (PAUSE, RSTART)
94
Step START and END Instructions (S, R)
97
Forced Transition EXECUTE & CANCEL Instructions (S, R)
101
Active Step Change Instruction (SCHG)
103
Block Switching Instruction (BRSET)
104
SFC Information Devices
106
Block START/END Bit
108
Step Transition Bit
110
Block STOP/RESTART Bit
112
Block STOP Mode Bit
115
Continuous Transition Bit
118
Number of Active Steps" Register
120
Step Transition Watchdog Timer
121
SFC Operation Mode Setting
123
SFC Program Start Mode
124
Block 0 START Condition
126
Output Mode at Block STOP
127
Periodic Execution Block Setting
129
Operation Mode at Double Block START
130
Operation Mode at Transition to Active Step (Double Step START)
131
SFC Comment Readout Instruction
134
SFC Comment Readout Instruction (S(P). SFCSCOMR)
135
SFC Transition Comment Readout Instruction (S(P). SFCTCOMR)
142
Whole Program Processing of Basic Model QCPU
149
Whole Program Processing of High Performance Model QCPU, Process CPU, Redundant CPU and Universal Model QCPU
150
Execution Type Designation by Instructions
152
SFC Program for Program Execution Management
154
SFC Program Processing Sequence
156
Block Execution Sequence
158
Step Execution Sequence
159
Continuous Transition ON/OFF Operation
160
SFC Program START and STOP
163
SFC Program Resumptive START Procedure
164
Block START and END
166
Block END Methods
167
Block Temporary Stop and Restart Methods
168
Restarting a Stopped Block
171
Step START (Activate) and END (Deactivate) Methods
173
Step END (Deactivate) Methods
174
Changing an Active Step Status (Cannot be Used for Basic Model QCPU and Universal Model QCPU)
175
Operation Methods for Continuous Transition
176
Operation at Program Change
177
APPENDIX 1 Special Relay and Special Register List
180
Special Relays (SM)
181
Special Registers (SD)
185
APPENDIX 2 Restrictions and Alternative Method of the Basic Model QCPU and
187
Step Transition Watchdog Timer Replacement Method
187
Periodic Execution Block Replacement Method
188
Forced Transition Bit (Trn) Replacement Method
189
Active Step Change Instruction (SCHG) Replacement Method
190
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Mitsubishi Q Series User Manual (158 pages)
I/O Module Type Building Block. Melsec Q series
Brand:
Mitsubishi
| Category:
Controller
| Size: 7.32 MB
Table of Contents
Safety Precautions
3
Conditions of Use for the Product
9
Revisions
10
Table of Contents
14
About Manuals
17
Compliance with Emc and Low Voltage Directives
17
1 General Specifications and Precautions for Use
19
General Specifications
19
Precautions for Use
19
Input Module
19
Output Module
21
I/O Combined Module
32
I/O Module with Protection Function
33
Interrupt Module
34
Installation and Wiring
34
Various Settings for I/O Module
35
Setting of I/O Response Time
35
Setting of Error-Time Output Mode
38
Switch Setting of Interrupt Module
39
2 Input Module Specifications
41
QX10 AC Input Module
41
QX10-TS AC Input Module
42
QX28 AC Input Module
43
QX40 DC Input Module (Positive Common Type)
44
QX40-S1 DC Input Module (Positive Common Type)
45
QX40-TS DC Input Module (Positive Common Type)
46
QX40H DC High-Speed Input Module (Positive Common Type)
47
QX41 DC Input Module (Positive Common Type)
49
QX41-S1 DC Input Module (Positive Common Type)
50
QX41-S2 DC Input Module (Positive Common Type)
52
QX42 DC Input Module (Positive Common Type)
53
QX42-S1 DC Input Module (Positive Common Type)
55
QX50 DC (Positive Common/Negative Common Shared Type)/ AC Input Module
57
QX70 DC Input Module (Positive Common/Negative Common Shared Type)
58
QX70H DC High-Speed Input Module (Positive Common Type)
59
QX71 DC Input Module (Positive/Negative Shared Common Type)
61
QX72 DC Input Module (Positive/Negative Shared Common Type)
62
QX80 DC Input Module (Negative Common Type)
64
QX80-TS DC Input Module (Negative Common Type)
65
QX80H DC High-Speed Input Module (Negative Common Type)
66
QX81 DC Input Module (Negative Common Type)
68
QX81-S2 DC Input Module (Negative Common Type)
69
QX82 DC Input Module (Negative Common Type)
70
QX82-S1 DC Input Module (Negative Common Type)
72
QX90H DC High-Speed Input Module (Negative Common Type)
74
3 Output Module Specifications
77
QY10 Contact Output Module
77
QY10-TS Contact Output Module
78
QY18A Contact Output Module (All Points Independent)
79
QY22 TRIAC Output Module
80
QY40P Transistor Output Module (Sink Type)
82
QY40P-TS Transistor Output Module (Sink Type)
83
QY41H Transistor High-Speed Output Module (Sink Type)
84
QY41P Transistor Output Module (Sink Type)
85
QY42P Transistor Output Module (Sink Type)
86
QY50 Transistor Output Module (Sink Type)
87
QY68A Transistor Output Module (All Points Independent, Sink/Source Type)
88
QY70 Transistor Output Module (Sink Type)
89
QY71 Transistor Output Module (Sink Type)
90
QY80 Transistor Output Module (Source Type)
91
QY80-TS Transistor Output Module (Source Type)
92
QY81P Transistor Output Module (Source Type)
94
QY82P Transistor Output Module (Source Type)
95
4 I/O Combined Module
97
QH42P I/O Combined Module
97
QX41Y41P I/O Combined Module
100
QX48Y57 I/O Combined Module
103
5 Interrupt Module
106
QI60 Interrupt Module
106
6 Blank Cover Module
108
7 Connectors
110
8 Specifications of Connector/Terminal Block Converter Modules
112
Connector/Terminal Block Converter Module Connection Diagrams
114
A6Tbxy36
114
A6Tbxy54
115
A6Tbx70
116
A6Tbx36-E
116
A6Tby36-E
117
A6Tbx54-E
117
A6Tby54-E
118
A6Tbx70-E
118
9 Spring Clamp Terminal Block
119
Spring Clamp Terminal Block I/O Module
119
Spring Clamp Terminal Block (Q6TE-18S, Q6TE-18SN)
119
10 Part Names
128
11 I/O Module Troubleshooting
134
Input Circuit Troubleshooting
134
Output Circuit Troubleshooting
137
Appendices
142
Appendix 1 External Dimensions
142
Appendix 1.1 I/O Modules and Blank Cover Module
142
Appendix 1.2 Connectors, Connector/Terminal Block Converter Modules
146
Appendix 1.3 Connector/Terminal Block Converter Module Cable
150
Appendix 1.4 Spring Clamp Terminal Block
151
Appendix 2 Compatibility with MELSEC-Ans Series I/O Modules
152
Mitsubishi Q Series User Manual (74 pages)
Programmable Logic Controller
Brand:
Mitsubishi
| Category:
Controller
| Size: 1.13 MB
Table of Contents
Program Storage
5
Convenient Programming Devices and Instructions
7
System Configuration
11
Equipment Configuration
13
Precaution on System Configuration
16
Software Package
16
Performance Specifications
18
Main Routine Program
23
Sub-Routine Programs
24
Interrupt Programs
25
Automatic Refresh of the Intelligent Function Module
31
END Processing
31
Operation Processing During Momentary Power Failure
33
Data Clear Processing
34
Refresh Mode
35
Direct Mode
38
Numeric Values Which Can be Used in Sequence Programs
40
Binary Code
42
Hexadecimal Notation
43
Character String Data
45
Assignment of I/O Numbers
46
Relationship between the Number of Stages and Slots of the Extension Base Unit
46
Self-Diagnosis Function
47
LED Display When Error Occurs
50
System Protect
52
Password Registration
52
LED Display
56
Accessible Devices
62
Communication with Intelligent Function Module
66
APPENDIX 1 Special Relay List
71
Mitsubishi Q Series Connectivity Manual (5 pages)
Supports QJ71E71 / QJ71E71-B2 / QJ71E71-B5 / QJ71E71-100 Series Module
Brand:
Mitsubishi
| Category:
I/O Systems
| Size: 0.16 MB
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