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S10mini LQS070
Hitachi S10mini LQS070 Manuals
Manuals and User Guides for Hitachi S10mini LQS070. We have
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Hitachi S10mini LQS070 manuals available for free PDF download: User Manual, Hardware Manual, Manual
Hitachi S10mini LQS070 User Manual (307 pages)
Option
Brand:
Hitachi
| Category:
Industrial Electrical
| Size: 2.56 MB
Table of Contents
Table of Contents
18
1 Overview
29
What Is FL-Net
30
Figure 1-1 FA Control Network Configuration Example
30
FL-Net Features
31
Figure 1-2 FL-Net Protocol Basis Structure
31
2 Fl.net Module
33
System Configuration
34
Figure 2-1 FA Control Network Configuration Example
34
Table 2-1 General Specifications
34
Functionality and Performance Specifications
35
Support Tool Specification
35
Table 2-2 Functionality and Performance Specifications
35
Link Data Specifications
36
Table 2-3 Registers Available for Common Memory Area Allocation in
36
Table 2-4 Virtual Address Space and Physical Memory
36
Table 2-5 Virtual Address Spaces and Symbol Names
37
Link Parameter Setup Area
38
Table 2-6 Error Memory Area for Link Data
38
Profile System Parameter Setup Area
39
Table 2-7 Profile System Parameter Setup Area (Description Example of LQE500)
39
Table 2-8 Profile System Parameter Setup Area (Description Example of LQE502)
39
FL.NET Module Component Names and Functions
40
External Views
40
Figure 2-2 FL.NET Module External Views
40
Component Names and Functions
41
Figure 2-3 FL.NET Module Component Names
41
Table 2-9 FL.NET Module Component Names and Functions
41
3 Fl.net Module Installation
42
Mount Base
43
Mounting the Module
43
Figure 3-1 Mounting the Option Module
43
Table 3-1 Mount Bases Applicable to the FL.NET Module
43
Setting the Module Number Selector Switch
45
Figure 3-2 Setting the Module Number Selector Switch
45
Table 3-2 Details of Module Number Selector Switch
45
4 Fl.net Module Wiring Procedures
46
Connecting the Communication Cable
47
Figure 4-1 Connecting the 10BASE5 Transceiver Cable to the Module
47
Figure 4-2 Connecting the 10BASE-T Cable to the Module
48
Applicable Communication Cables
49
Power Supply Wiring
50
Figure 4-3 Module Power Supply Wiring
50
Ground Wiring
51
Figure 4-4 Unit Ground Wiring
51
5 User Guide
53
Ethernet
54
10BASE5 System
54
Figure 5-1 10BASE5 System Basic Connection Method
54
Figure 5-2 10BASE5 System Basic Connection Method
55
Figure 5-3 10BASE5 System Basic Connection Method
56
Table 5-1 General Specifications for Ethernet System Configuration
57
10BASE-T System
59
Figure 5-6 Ethernet IP Address Classification
61
Figure 5-7 Ethernet Class C IP Address Example
61
FL-Net
62
FL-Net Overview
62
Figure 5-8 FL-Net Concept
62
Figure 5-9 FA Link Protocol
63
Connection Capacity and Node Numbers
64
Figure 5-10 FL-Net IP Address
64
Figure 5-11 FL-Net Connection Capacity and Node Numbers
64
Supported Data Communications
65
Figure 5-12 Data Communication Types Supported by FL-Net
65
Figure 5-13 Typical Common Memory and Cyclic Transmission
65
Figure 5-14 Typical Message Transmission
66
Figure 5-15 Data Amount of Cyclic Transmission
66
Figure 5-16 Data Amount of Message Transmission
66
Figure 5-17 Typical Refresh Cycle Time Limit
67
Figure 5-18 Data Area and Memory
68
Table 5-2 Self-Node Management Table
69
Table 5-3 Participating Node Management Table
70
Table 5-4 Network Management Table
70
Figure 5-21 Cyclic Transmission Common Memory Area Example 1
73
Figure 5-22 Cyclic Transmission Common Memory Area Example 2
74
Figure 5-23 Common Memory Area 1 and 2
74
Figure 5-24 Data Synchronicity Assurance
75
Figure 5-25 Message Transmission Overview
76
Table 5-5 List of Supported Message Transmissions
77
Figure 5-26 Byte Block Read
78
Figure 5-27 Byte Block Write
79
Figure 5-28 Word Block Read
80
Figure 5-29 Word Block Write
81
Figure 5-30 Network Parameter Read
82
Table 5-6 Network Parameter Information
82
Figure 5-31 Network Parameter Write
83
Figure 5-32 Run/Stop Directive
84
Figure 5-33 Profile Read
85
Figure 5-34 Communication Log Data Read
86
Figure 5-35 Communication Log Data Clear
86
Figure 5-36 Message Return Function
87
Figure 5-37 Transparent Message Transmission
87
Figure 5-38 IP Address Setup Window
89
Figure 5-39 Link Parameter Setup Window
91
Figure 5-40 Common Memory Data Transfer Image of FL.NET Module
94
Figure 5-41 Self-Node CPU or LPU Memory Allocation Window
96
Figure 5-42 Common Memory Area Setup Window for Other Participating Nodes
98
Figure 5-43 Setup Window for Setting Various Status Flag Areas for the Self-Node
100
Figure 5-45 Bit Conversion of Area 1 Data
103
Table 5-8 C Mode Handler List
106
Table 5-9 Mathematical/Logical Function List
108
Table 5-10 Transparent Receiving Flag Allocation
112
Figure 5-47 Participating Node Number List Window 1
165
Figure 5-48 Self-Node Information (Self-Node Management Table) Window
166
Figure 5-49 Participating Node Number List Window 2
170
Figure 5-50 Participating Other Node Link Information Window
171
Figure 5-51 Network Status (Network Management Table) Window
171
Figure 5-52 [RAS Information] Dialog Box
178
Figure 5-53 [FL.NET] Window
182
Figure 5-54 [[S10V] FL.NET] Window
182
Figure 5-55 the [Communication Type] Window
183
Figure 5-56 File Selection Dialog Box
183
Figure 5-58 the [Create Confirmation] Dialog Box
186
Figure 5-59 the Error Message Dialog Box Displayed in the Event of a
186
Sending Setups
196
Setup IP Address
198
Entering Operation Function (S10Mini Only)
200
Printing
202
CSV Output
204
Maintenance
206
Maintenance and Inspection
207
Replacing or Adding on the Module
208
Troubleshooting
210
Trouble Detection and Solution
211
Network Problems and Repairing
212
Table 7-1 Network Problems and Repairing (Concerning Communication Failures)
212
Table 7-2 Network Problems and Repairing (Concerning Unstable Communications)
213
Precautions for FL-Net Use
215
Error Indications and Countermeasures
216
Table 7-3 CPU Module Indicator Readouts
216
Table 7-4 Details of CPU Unit Module Indications Given Upon FA Protocol
217
Table 7-6 Details of Error Freeze Information Table
219
Table 7-7 List of Detectable Codes
221
Figure 7-2 Module Error Lamp
224
Appendixes
225
System Configuration Guide
226
Ethernet Overview
226
10BASE5 Specifications
227
Figure 8-2 10BASE5 Ethernet Configuration Example
227
10BASE-T Specifications
228
Figure 8-3 10BASE-T Ethernet Configuration Example
228
Other Ethernet Specifications
229
Figure 8-4 10BASE2 Ethernet Configuration Example
229
Figure 8-5 Optical Ethernet Configuration Example
229
Figure 8-6 Wireless Ethernet Configuration Example
230
System Configuration Examples
231
Small-Scale Configuration
231
Figure 8-7 Small-Scale Configuration Example
231
Basic Configuration
232
Figure 8-8 Basic Configuration Example
232
Large-Scale Configuration
233
Figure 8-9 Large-Scale Configuration Example
233
Long-Distance Distributed Configuration
234
Figure 8-10 Long-Distance Distributed Configuration Example
234
Locally Concentrated Configuration
235
Figure 8-11 Locally Concentrated Configuration Example
235
Locally and Widely Distributed Configuration
236
Concept of FL-Net System
236
Figure 8-12 Locally and Widely Distributed Configuration Example
236
Differences between General-Purpose Ethernet and FL-Net
237
Network System Definitions
238
Standard Compliance of Communication Protocol
238
Communication Protocol Hierarchical Structure
238
Figure 8-13 FA Link Protocol Definition
238
Table 8-1 FL-Net Communication Protocols
238
FL-Net Physical Layer
239
IP Address
239
Figure 8-14 FL-Net IP Address
239
Table 8-2 IP Address Classification
239
Table 8-3 FL-Net Port Numbers
240
Figure 8-15 FL-Net Data Format Overview
241
Figure 8-16 FL-Net Data (One-Frame) Example
242
Figure 8-17 FL-Net Header
243
Table 8-4 List of Transaction Codes
244
Table 8-5 Transaction Code Receives Processing at the UDP Port (LQE502)
245
Figure 8-18 Token Flow
247
Table 8-6 Token and Data (LQE500)
248
Table 8-7 Token and Data (LQE502)
249
Table 8-8 Node Status Management Table Overview
253
Table 8-9 Self-Node Management Table
253
Table 8-10 Entering Node Management Table
254
Table 8-11 Network Management Table
255
Table 8-12 Transmission Management Data for Message Sequence
255
Table 8-13 Reception Management Data for Message Sequence Number Management
256
Figure 8-21 Ethernet Components
257
Table 8-14 Ethernet Component List
258
Figure 8-22 Transceiver Overview
259
Figure 8-23 Transceiver and Transceiver Cable (AUI)
259
Figure 8-24 Tap and Coaxial Cable Installation
260
Figure 8-25 Tap and Transceiver Body Installation
260
Figure 8-26 Ethernet Transceiver (Tap Type)
261
Figure 8-27 Ethernet Transceiver (Connector Type)
262
Figure 8-28 Ethernet Multiport Transceiver
263
Figure 8-29 Ethernet Repeater
264
Figure 8-30 Ethernet Coaxial Cable
265
Figure 8-31 Ethernet Coaxial Connector
265
Figure 8-32 Ethernet Junction Connector
266
Figure 8-33 Ethernet Terminator (Terminating Resistor)
266
Figure 8-34 Ethernet Coaxial Cable Ground Terminal
267
Figure 8-35 Ethernet Transceiver Cable
267
Figure 8-36 Ethernet 10BASE5/10BASE-T Converter
268
Figure 8-37 Ethernet 10BASE5/10BASE-T Converter Installation
268
Figure 8-38 Ethernet Coaxial/Optical Media Converter/Repeater
269
Figure 8-39 Ethernet Hub
270
Figure 8-40 Ethernet 10BASE-T Cable
271
Figure 8-41 Ethernet 10BASE-T/Optical Media Converter/Repeater
271
Figure 8-42 Peeling off the Coaxial Cable Covering (PVC Sheath)
273
Table 8-15 Coaxial Cable Specifications
273
Figure 8-43 Coaxial Cable Aluminum Tape Removal 1
274
Figure 8-44 Coaxial Cable Aluminum Tape Removal 2
274
Figure 8-45 Peeling the Coaxial Cable Insulation
274
Figure 8-46 Coaxial Cable Parts Incorporation and Shield Treatment
274
Figure 8-47 Coaxial Cable Shield Treatment and Pin Contact Soldering
275
Figure 8-48 Coaxial Cable Connector Assembly
275
Figure 8-49 Transceiver Component Names
276
Figure 8-50 Transceiver Shield Pressure-Connecting Pin into Tap Body
277
Figure 8-51 Loosing the Cap Screw of the Transceiver Tap Frame
277
Figure 8-52 Installing the Transceiver Tap Frame and Tap Body
277
Figure 8-53 Inserting the Transceiver Tap Frame and Coaxial Cable
278
Figure 8-54 Drilling a Conductor Probe Hole in a Coaxial Cable
278
Figure 8-55 Mounting the Conductor Probe on a Coaxial Cable
279
Figure 8-56 Inserting the Transceiver Body into the Tap Connector
279
Figure 8-57 Securing the Transceiver Body and Tap
280
Table 8-16 SQE Switch Settings
280
Figure 8-58 Installing the Connector-Type Transceiver
281
Figure 8-59 Connecting the Repeater
282
Figure 8-60 Repeater Installation Space Requirements
283
Figure 8-61 Junction Connector Insulation
284
Figure 8-62 L-Type Connector Insulation
284
Figure 8-65 Transceiver and Transceiver Cable Above-The-Ceiling Mounting and Under-The-Floor Mounting Example
287
Figure 8-66 Mounting the Insertion Claw in the Ground Terminal Body
288
Figure 8-67 Installing the Ground Terminal
288
Figure 8-68 Cutting the Insertion Claw
289
Figure 8-69 Mounting the Coaxial Cable Ground Terminal
289
Figure 8-70 Removing the UTP Cable Sheath
290
Figure 8-71 Cutting the UTP Cable Signal Wires
290
Figure 8-72 Inserting the UTP Cable into the Connector
291
Figure 8-73 Assembling the UTP Cable Connector
291
Figure 8-76 Typical FL-Net System Power Supply Wiring and Grounding
294
Figure 8-78 Typical Wiring with Wiring Duct
296
Figure 8-79 Typical Wiring with Conduit
296
Table 8-17 FL-Net Installation Work Check Sheet
297
Figure 8-80 Device Communication Information Classification
298
Table 8-18 Details of Common Parameters
299
Table 8-19 Details of Device-Specific Parameters
300
Table 8-20 System Parameter Tabular Document Notation (PLC Examples)
300
Table 8-21 System Parameter Tabular Document Notation (CNC Examples)
305
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Hitachi S10mini LQS070 Hardware Manual (197 pages)
Brand:
Hitachi
| Category:
I/O Systems
| Size: 1.5 MB
Table of Contents
Table of Contents
21
1 Before Use
30
2 Kinds and Specifications of I/O Modules
38
Kinds and Specifications of I/O Modules
39
Digital Input Module (Terminal Block-Type)
39
Digital Input Module (Connector-Type)
40
Digital Input Module with Built-In Signal Latches
41
Digital Output Module (Terminal Block-Type)
42
Digital Output Module (Connector-Type)
44
Digital Input Module
44
Pulse Counter Module
45
Analog Input Module
46
Analog Output Module
48
2.1.10 Scan-Type Separately Insulated Analog Input Module
49
2.1.11 Scan-Type Commonly Insulated Analog Input Module
49
2.2 Mounting Design
50
Table 2-1 Module Current Dissipation Values
50
Figure 2-1 Power Supply Module Maximum Output Current Ratings
52
Table 2-2 Maximum Number of Modules that Mountable in Mount Base
53
Mount Base
55
CPU Unit Mount Base
55
I/O Unit Mount Base
55
Scan-Type Analog Input Module Mount Base
55
2.4 Combining I/O Modules with a CPU or Station Module
56
Table 2-3 Supported Combinations of I/O Modules with CPU and Station Modules
56
3 Individual Specifications
58
LQX110 (Built-In Signal Latches, 100 VAC, 16 Points)
59
Figure 3-1 LQX110 Appearance
59
Figure 3-2 LQX110 Circuit
59
Table 3-1 LQX110 Specifications
59
LQX130 (100 VAC, 16 Points)
60
Figure 3-3 LQX130 Appearance
60
Figure 3-4 LQX130 Circuit
60
Table 3-2 LQX130 Specifications
60
LQX150 (200 to 240 VAC Inputs, 16 Points)
61
Figure 3-6 LQX150 Circuit
61
Table 3-3 LQX150 Specifications
61
LQX151 (Built-In Signal Latches, 200 to 240 VAC Inputs, 16 Points)
62
Figure 3-7 LQX151 Appearance
62
Figure 3-8 LQX151 Circuit
62
Table 3-4 LQX151 Specifications
62
LQX200, LQX201 (12 to 24 VDC, 16 Points)
63
Figure 3-9 LQX200 and LQX201 Appearance
63
Figure 3-10 LQX200 and LQX201 Circuit
63
Table 3-5 LQX200 and LQX201 Specifications
63
LQX210, LQX211 (Built-In Signal Latches, 24 VDC, 16 Points)
64
Figure 3-11 LQX210 and LQX211 Appearance
64
Figure 3-12 LQX210 and LQX211 Circuit
64
Table 3-6 LQX210 and LQX211 Specifications
64
LQX220 (48 VDC, 16 Points)
65
Figure 3-13 LQX220 Appearance
65
Figure 3-14 LQX220 Circuit
65
Table 3-7 LQX220 Specifications
65
LQX240 (100 VDC, 16 Points)
66
Figure 3-15 LQX240 Appearance
66
Figure 3-16 LQX240 Circuit
66
Table 3-8 LQX240 Specifications
66
LQX250 (Built-In Signal Latches, 100 VDC, 16 Points)
67
Figure 3-17 LQX250 Appearance
67
Figure 3-18 LQX250 Circuit
67
Table 3-9 LQX250 Specifications
67
LQX300 (12 to 24 VDC, 32 Points)
68
Figure 3-19 LQX300 Appearance
68
Figure 3-20 LQX300 Circuit
68
Table 3-10 LQX300 Specifications
68
Table 3-11 LQX300 Address Assignments
69
LQX310 (12 to 24 VDC, 32 Points)
70
Figure 3-21 LQX310 Appearance
70
Figure 3-22 LQX310 Circuit
70
Table 3-12 LQX310 Specifications
70
Table 3-13 LQX310 Address Assignments
71
LQX350 (12 to 24 VDC, 64 Points)
72
Figure 3-23 LQX350 Appearance
72
Figure 3-24 LQX350 Circuit
72
Table 3-14 LQX350 Specifications
72
Figure 3-25 Limitation on the Number of Simultaneous Ons for the LQX350
73
Table 3-15 LQX350 Address Assignments
73
LQX360 (12 to 24 VDC, 64 Points)
74
Figure 3-26 LQX360 Appearance
74
Figure 3-27 LQX360 Circuit
74
Table 3-16 LQX360 Specifications
74
Figure 3-28 Limitation on the Number of Simultaneous Ons for the LQX360
75
Table 3-17 LQX360 Address Assignments
75
LQY100 (Contact Outputs, A-Contacts × 16)
76
Figure 3-29 LQY100 Appearance
76
Figure 3-30 LQY100 Circuit
76
Table 3-18 LQY100 Specifications
76
LQY140 (Contact Outputs, A-Contacts × 8)
77
Figure 3-31 LQY140 Appearance
77
Figure 3-32 LQY140 Circuit
77
Table 3-19 LQY140 Specifications
77
LQY150 (Contact Outputs, B-Contacts × 8)
78
Figure 3-34 LQY150 Circuit
78
Table 3-20 LQY150 Specifications
78
LQY160 (Contact Outputs, A-Contacts × 2, C-Contacts × 4)
79
Figure 3-35 LQY160 Appearance
79
Figure 3-36 LQY160 Circuit
79
Table 3-21 LQY160 Specifications
79
LQY170 (Contact Outputs, A-Contacts × 2, C-Contacts × 4)
80
Figure 3-38 LQY170 Circuit
80
Table 3-22 LQY170 Specifications
80
LQY200 (Transistor Outputs, 16 Points)
81
Figure 3-39 LQY200 Appearance
81
Figure 3-40 LQY200 Circuit
81
Table 3-23 LQY200 Specifications
81
LQY300 (Transistor Outputs, 32 Points)
82
Figure 3-41 LQY300 Appearance
82
Figure 3-42 LQY300 Circuit
82
Table 3-24 LQY300 Specifications
82
Figure 3-43 Limitation on the Number of Simultaneous Ons for the LQY300
83
Table 3-25 LQY300 Address Assignments
83
LQY310 (Transistor Outputs, 32 Points)
84
Figure 3-44 LQY310 Appearance
84
Figure 3-45 LQY310 Circuit
84
Table 3-26 LQY310 Specifications
84
Figure 3-46 Limitation on the Number of Simultaneous Ons for the LQY310
85
Table 3-27 LQY310 Address Assignments
85
LQY350 (Transistor Outputs, 64 Points)
86
Figure 3-47 LQY350 Appearance
86
Figure 3-48 LQY350 Circuit
86
Table 3-28 LQY350 Specifications
86
Figure 3-49 Limitation on the Number of Simultaneous Ons for the LQY350
87
Table 3-29 LQY350 Address Assignments
87
LQY360 (Transistor Outputs, 64 Points)
88
Figure 3-50 LQY360 Appearance
88
Figure 3-51 LQY360 Circuit
88
Table 3-30 LQY360 Specifications
88
Figure 3-52 Limitation on the Number of Simultaneous Ons for the LQY360
89
Table 3-31 LQY360 Address Assignments
89
LQZ300 (Input-Output Integrated Module)
90
Table 3-32 Common Specifications
90
Table 3-33 Input Specifications
90
Figure 3-53 LQZ300 Appearance
91
Table 3-34 Output Specifications
91
Figure 3-54 LQZ300 Circuit
92
Table 3-35 LQZ300 Address Assignments
93
Figure 3-55 Limitation on the Number of Simultaneous Ons for the LQZ300
95
LQC000 (Pulse Counter)
96
Table 3-36 LQC000 Specifications
96
Figure 3-57 LQC000 Circuit
97
Figure 3-58 Pulse Waveform Specifications
98
LQA000 (Voltage Inputs, 4 Points)
99
Figure 3-59 LQA000 Appearance
99
Table 3-37 LQA000 Specifications
99
Figure 3-60 LQA000 Circuit
100
Figure 3-61 LQA000 A/D Conversion Characteristics
100
Figure 3-62 LQA000 Input Data Format
101
LQA050 (Voltage Inputs, 8 Points, Common Input for the SC* Side of each Channel)
102
Figure 3-63 LQA050 Appearance
102
Table 3-38 LQA050 Specifications
102
Figure 3-64 LQA050 Circuit
104
Figure 3-65 LQA050 A/D Conversion Characteristics
105
Figure 3-66 LQA050 Input Data Formats
106
LQA055 (Voltage Inputs, 8 Points, Different Input for the SC* Side of each Channel)
108
Figure 3-67 LQA055 Appearance
108
Table 3-39 LQA055 Specifications
108
Figure 3-68 LQA055 Circuit
110
Figure 3-69 LQA055 A/D Conversion Characteristics
110
Figure 3-70 LQA055 Input Data Formats
111
LQA100 (Current Inputs, 4 Points)
113
Figure 3-71 LQA100 Appearance
113
Table 3-40 LQA100 Specifications
113
Figure 3-72 LQA100 Circuit
114
Figure 3-73 LQA100 A/D Conversion Characteristics
114
Figure 3-74 LQA100 Input Data Format
115
LQA150 (Current Inputs, 8 Points, Common Input for the SC* Side of each Channel)
116
Figure 3-75 LQA150 Appearance
116
Table 3-41 LQA150 Specifications
116
Figure 3-76 LQA150 Circuit
118
Figure 3-77 LQA150 A/D Conversion Characteristics
118
Figure 3-78 LQA150 Input Data Formats
119
LQA155 (Current Inputs, 8 Points, Different Input for the SC* Side of each Channel)
121
Figure 3-79 LQA155 Appearance
121
Table 3-42 LQA155 Specifications
121
Figure 3-80 LQA155 Circuit
123
Figure 3-81 LQA155 A/D Conversion Characteristics
123
Figure 3-82 LQA155 Input Data Formats
124
LQA200 (Resistance Temperature Detector Inputs, 4 Points)
126
Figure 3-83 LQA200 Appearance
126
Table 3-43 LQA200 Specifications
126
Figure 3-84 LQA200 Circuit
127
Figure 3-85 LQA200 A/D Conversion Characteristics
127
Figure 3-86 LQA200 Input Data Format
128
LQA201 (Resistance Inputs, 4 Points)
129
Figure 3-87 LQA201 Appearance
129
Table 3-44 LQA201 Specifications
129
Figure 3-88 LQA201 Circuit
130
Figure 3-89 LQA201 A/D Conversion Characteristics
130
Figure 3-90 LQA201 Input Data Format
131
LQA500 (Voltage Outputs, 4 Points)
132
Figure 3-91 LQA500 Appearance
132
Table 3-45 LQA500 Specifications
132
Figure 3-92 LQA500 Circuit
133
Figure 3-93 LQA500 D/A Conversion Characteristics
133
Figure 3-94 LQA500 Output Data Format
134
LQA600 (Current Outputs, 4 Points)
135
Figure 3-95 LQA600 Appearance
135
Table 3-46 LQA600 Specifications
135
Figure 3-96 LQA600 Circuit
136
Figure 3-98 LQA600 Output Data Format
136
LQA610 (Current Outputs, 4 Points)
137
Figure 3-99 LQA610 Appearance
137
Table 3-47 LQA610 Specifications
137
Figure 3-100 LQA610 Circuit
138
Figure 3-101 LQA610 D/A Conversion Characteristics
138
Figure 3-102 LQA610 Output Data Format
138
LQA301, LQA310 (Scan-Type Separately Insulated Analog Inputs)
139
Figure 3-103 LQA301 and LQA310 Appearance
139
Table 3-48 LQA301 and LQA310 Specifications
139
Figure 3-104 LQA301 and LQA310 Circuit
140
Figure 3-105 LQA301 and LQA310 A/D Conversion Characteristics
140
Figure 3-106 Input Data Format (Data Area: EW Area)
140
LQA800, LQA810 (Scan-Type Commonly Insulated Analog Inputs)
141
Figure 3-107 LQA800 and LQA810 Appearance
141
Table 3-49 LQA800 and LQA810 Specifications
141
Figure 3-108 LQA800 and LQA810 Circuit
142
Figure 3-109 LQA800 and LQA810 A/D Conversion Characteristics
142
Figure 3-110 Input Data Format (for Remote I/O Communication)
142
4 Handling
144
4.1 Mounting I/O Modules
145
Figure 4-1 Mounting I/O Modules
145
4.2 Wiring I/O Modules
146
Digital Input/Output Modules
146
Analog Input/Output Modules
146
Figure 4-2 Wiring I/O Modules
147
Figure 4-3 Solderless Terminals
147
Pulse Counter Modules
148
4.3 Handling Digital Input and Output Modules
149
Digital Input Modules
149
Figure 4-4 Connecting a Resistance to an AC Input Module
149
Figure 4-5 Connecting a Resistance to a DC Input Module
149
Digital Input Modules with Built-In Signal Latches (LQX110, LQX151, LQX210, LQX211, LQX250)
150
(Lqx110, Lqx151, Lqx210, Lqx211, Lqx250)
150
Figure 4-6 Surge Absorbers Circuit
150
Contact Output Modules (LQY100, LQY140, LQY150, LQY160, LQY170)
152
A- and C-Contact Integrated Modules (LQY160, LQY170)
153
Figure 4-7 LQY160 and LQY170 Contact Output Actions
153
Figure 4-8 Example of a Prohibited Connection of the LQY160 and LQY170
153
Circuit Protection Fuses
154
Table 4-1 I/O Module Fuse Ratings
154
4.4 Handling Pulse Counter Modules
155
Functions
155
Usage
157
Figure 4-9 Operation Flowchart
161
Figure 4-10 Sample Program
162
Table 4-2 Status of the LQC000 Immediately after the I/O Unit Is Switched on
163
Table 4-3 Status of the LQC000 Following a Suspension of a Remote I/O Transfer
163
Table 4-4 Status of the LQC000 (Installed in the I/O Unit) Upon off to on
164
4.5 Handling 4-Channel Analog Input/Output Modules
165
If Mode 1 Is Set
165
If Mode 2 Is Set
166
Figure 4-11 Allocation Example
167
Table 4-5 Registration Numbers and Allocated Data Areas
167
4.6 Handling 8-Channel Analog Input Modules
168
MODE1 Setting
168
MODE2 Setting
169
MODE3 Setting
171
MODE4 Setting
172
4.7 Handling Scan-Type Analog Input Modules
174
Mounting Modules
174
Wiring Modules
174
Usage
174
4.8 External Dimensions
176
Table 4-6 External Dimensions
176
5 Handling I/Odata on J.net
180
5.1 J.NET Settings
181
Table 5-1 I/O Settings Required for Using J.NET
181
5.2 Data Formats
182
6 HANDLING I/ODATA on D.station
186
6.1 Digital Input/Digital Output/Digital I/O Modules
187
6.2 Pulse Counter Modules
187
Table 6-1 Pulse Counter Module Data Format
187
6.3 Analog Input Modules
188
Table 6-2 Analog Input Module Data Format
188
Analog Output Modules (LQA500, LQA600, LQA610)
189
Table 6-3 Analog Output Module Data Format
189
6.5 Scan-Type Analog Input Modules
190
7 Maintenance
192
7.1 Preventive Maintenance
193
Table 7-1 Inspection Items
193
Figure 7-1 LQV000 Appearance
194
7.2 Troubleshooting
195
Figure 7-2 Troubleshooting Failures in the CPU Unit
195
Figure 7-3 Troubleshooting Failures in I/O Units
195
Table 7-2 CPU Indicator Indications Showing Normal CPU Status
196
Table 7-3 CPU Indicator Indication Suggesting an Error
196
Table 7-4 Troubleshooting
197
Hitachi S10mini LQS070 User Manual (123 pages)
Option
Brand:
Hitachi
| Category:
Industrial Electrical
| Size: 4.38 MB
Table of Contents
Table of Contents
25
1 Specifications
30
Use
31
Specifications
31
System Software Specifications
33
System Overview
33
Required Hardware and Software
33
Table 1-1 Types of System Software Package (Tool)
33
2 Names and Functions of each Part
36
Table 2-1 Module Number Setting Switch
37
3 Mounting and Wiring
38
Mount Base
39
Mounting the Module
39
Table 3-1 Mount Bases Applicable to the SD.LINK Module
39
Figure 3-1 Mounting the Option Module
40
Ground Wiring
41
Figure 3-2 Grounding Wiring
41
Wiring
43
Figure 3-3 Optical Fiber Cable Wiring
43
Figure 3-4 Optical Fiber Cable Handling
44
Optical Fiber Cables
45
Types of Optical Fiber Cables
45
Table 3-2 Types of Optical Fiber Cable
45
Optical Fiber Cable Specifications
46
Table 3-3 Optical Fiber Cable Specifications
46
Recommended Cables
47
4 Operation
48
Startup Procedure
49
Figure 4-1 Startup Procedure
49
Setting Switches
50
Table 4-1 Module Number and CPL Number Setting Switch
50
Switching on
51
Data Transmission
52
Installing and Starting up the System
53
Installing
53
Uninstalling
55
Starting up the System
56
Figure 4-2 [OD.RING/SD.LINK SYSTEM] Window
56
Figure 4-3 [[S10V] OD.RING/SD.LINK SYSTEM] Window
57
Figure 4-4 [Communication Type] Window
57
Figure 4-5 [[S10V] OD.RING/SD.LINK SYSTEM] Window
57
Figure 4-6 Selecting the [Offline] Radio Button
58
Figure 4-7 Selecting the Edition File You Want to Edit
58
Changing Connections
59
Selecting an Edition File
60
Figure 4-9 [Creation Confirmation] Dialog Box
61
Closing the System
62
Figure 4-10 Error Message Dialog Box Reporting on an Invalid OD.RING/SD.LINK
62
Commands
63
OD.RING/SD.LINK System Function Architecture
63
Figure 4-11 OD.RING/SD.LINK System Function Architecture
63
Main Module (Submodule) Parameter Information
64
Main Module (Submodule) Error Information
67
Module Error
68
Status
69
RAS Table
70
Printing
71
Figure 4-13 [Print] Dialog Box
71
CSV Output
73
Figure 4-14 [Save As] Dialog Box
73
Figure 4-15 S10V (LPU1) Setting Example
76
Setting Transfer Areas Where an S10Mini and an S10V Are Intermixed
79
5 Programming
79
Operation
79
Figure 5-1 System Configuration Example
79
Figure 5-2 Memory Transfers
79
Transfer Cycle
80
Figure 5-3 Transfer Cycle
80
Table 5-1 Transfer Cycle Calculation Formulas
80
Synchronism of Transfer Data
81
Memory Transfer Area
82
Table 5-2 Memory Transfer Areas
82
Figure 5-4 Set Areas
83
Faults and Fault Avoidance Operation
84
Figure 5-5 Data Flow During Normal Operation
84
Figure 5-6 if Either Ring Is Broken at One Point
85
Figure 5-7 if Either Ring Is Broken at Multiple Points
86
Figure 5-8 if the Two Rings Are Broken at the same Point
87
Figure 5-9 if One Module Shuts down
87
Figure 5-10 if Multiple Adjoining Modules Shut down
88
Figure 5-11 if Multiple Non-Adjoining Modules Shut down
88
Figure 5-12 if the Primary Ring and the Secondary Ring Are Broken at Different Points
89
RAS Table
91
Figure 5-13 RAS Table Structure
91
Hold/Clear
92
Table 5-3 Faults and RAS Table
92
6 Maintenance
94
Maintenance and Inspection
95
Table 6-1 Maintenance and Inspection Items
95
Handling Optical Fiber Cable and Connector
96
Table 6-2 Precautions in Handling
96
Replacing Optical Fiber Cables
97
Replacing or Adding on the Module
98
Figure 6-1 a Sample System Configuration
98
Optical Level Measurement
102
Optical Receiving Level Measurement
102
Figure 6-2 Example of Measuring the Optical Receive Level
102
Locating Fault Portion
103
Figure 6-3 Locating Faults
103
Optical Transmitting Level Measurement
104
Figure 6-4 Example of Measuring the Optical Transmit Level
104
Troubleshooting
106
Trouble Detection and Solution
106
Error Display and Countermeasures
108
CPU Indicators Display Messages
109
Table 6-3 CPU Indicator Display Messages
109
Monitoring a Specific Module
110
Error Freeze Information
111
Figure 6-5 Error Freeze Information Format
111
Table 6-4 Error Codes
112
Figure 6-6 Stack Frame Format
113
Communication Trace Information
114
Figure 6-7 Trace Buffer
114
Figure 6-8 Trace Control Table
115
Figure 6-9 Use Example 1
116
Figure 6-10 Use Example 2
116
Figure 6-11 Trace Data
117
Figure 6-12 Frame Header
117
Table 6-5 Trace Events and Actions
118
Figure 6-13 Trace Cause
119
Figure 6-14 Transmitting Error Status
119
Figure 6-15 Receiving Error Status
120
Table 6-6 Error Status Details
121
Trouble Report
122
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Hitachi S10mini LQS070 Hardware Manual (105 pages)
Brand:
Hitachi
| Category:
Controller
| Size: 1.47 MB
Table of Contents
Table of Contents
8
1 Before Use
13
Figure 1-1 Installation Example
14
Figure 1-2 Output Module Specifications
15
Table 1-1 Operating Environment
15
Figure 1-3 Grounding Specifications
16
Figure 1-4 Power Supply Input Waveform
17
Figure 1-5 Grounding Examples
18
2 General Information
19
System Overview
20
Figure 2-1 System Configuration
20
I/O Unit Modules
21
Figure 2-2 Unit Configuration
21
3 Specifications
23
Specifications
24
D.station Module Specifications
24
Communication Specifications
24
Table 3-1 Module Specifications
24
Table 3-2 Communication Specifications
24
D.station Module Support Function
25
Table 3-3 List of Support Functions
25
4 Names and Functions of each Part
27
D.station Module
28
Figure 4-1 Module Front View
28
Figure 4-2 MNS LED Indicator Operating Sequence
29
Power Supply Module
32
Figure 4-3 Front View: Power Supply Module
32
Table 4-1 List of the Power Supply Module
32
Mount Base
34
Table 4-2 List of Mount Base
34
5 Installation
35
Mounting Clearances
36
Figure 5-1 Mounting the Units
36
Outside Dimensions
37
Figure 5-2 Unit Dimensions
37
Securing the Mount Base
38
Figure 5-3 Securing the Mount Base
38
Securing the Module
39
Figure 5-4 Mounting the Module
39
Figure 5-5 Securing the Module
39
Figure 5-6 Module Mounting Examples
40
6 Cabling
41
Cabling
42
Interface Signals and Cabling
42
Figure 6-1 Module Wiring
42
Hardware Configuration
43
Figure 6-2 Network Structure
43
Table 6-1 Components
45
Components
46
Figure 6-3 Sectional Drawing of the Cable
46
Figure 6-4 Bending Radius of the Cable
47
Figure 6-5 Connector Wiring
48
Figure 6-6 Branch with Branch Taps
49
Figure 6-7 Branch with TB
50
Figure 6-8 Screw Cramp of Solderless Terminal
50
Figure 6-9 Connection of Terminating Resistor
51
Figure 6-10 Connection by a Power Tap
52
Figure 6-11 Disconnecting a Power Line by a Power Tap
53
Figure 6-12 Connecting and Disconnecting Power Lines by a Terminal Block
53
Table 6-2 Specification of Communication Power Supply
54
Figure 6-13 Network Grounding
55
Figure 6-14 Uncovering of Braided Shield
56
Figure 6-15 Prohibited Uncovering Method of Braided Shield
56
Restriction of Cable Lengths
57
Figure 6-16 Maximum Network Length
57
Table 6-3 Cable Length and Line Type
57
Figure 6-17 Example of Branch Length
58
Figure 6-18 Example of Total Branch Length
59
Table 6-4 Communication Cable Specifications
60
Consideration on Disposition of a Communication Power Supply
61
Figure 6-19 Current Capacity by Main Line Thickness
61
Table 6-5 Maximum Length of Main Line (Thick) and Maximum Current
63
Figure 6-20 Example of Consumed Current Calculation
64
Table 6-6 Maximum Length of Main Line (Thin) and Maximum Current
64
Figure 6-21 Voltage Drop
65
Figure 6-22 Example of Voltage Drop Calculation
67
Grounding Specifications
69
Figure 6-23 Example of Grounding Specifications
69
7 Communication Function
71
Function Overview
72
Figure 7-1 Polling Operation Overview
72
Table 7-1 Polling Communication Specifications
72
Service Communication Function
73
Communication Specifications
73
List of Supported Services
73
Table 7-2 Service (Explicit) Communication Specifications
73
Table 7-3 List of Supported Services
73
System Management Function
74
List of Supported I/Os
75
Table 7-4 List of Supported I/Os
75
FREE/FIX Option
76
Table 7-5 FREE/FIX Option
76
Data Transfer Modes
77
Normal Transfer Mode
77
Figure 7-2 Transmission/Reception from D.station
78
Analog 4-Bit Shift Mode
79
Analog Data Formats
82
Analog Input (LQA000/100/200) and Output (LQA500/600/610)
82
Table 7-6 Analog Data Format 1
82
Scanning Analog Input (Individually Insulated ; LQA300/310)
83
Table 7-7 Analog Data Format
83
Pulse Counter Data Format
84
Table 7-8 Pulse Counter Data Format
84
Data Swap Mode
85
Bit Swap Mode
85
Figure 7-3 Bit Swap Mode
85
Byte Swap Mode
86
Figure 7-4 Byte Swap Mode
86
Recommended Bit/Byte Swap Settings
87
Table 7-9 Recommended Bit/Byte Swap Setting
87
I/O Error Information (Fuse Blowout)/Addition Function with
88
Implementation Information
88
Number of Input/Output Bytes
90
Factors Determining the Number of Input/Output Bytes
90
Table 7-10 Number of Input/Output Bytes
90
Calculating Number of Input/Output Bytes as Example
91
Digital Output (DO) HOLD/RESET Function
93
Table 7-11 HOLD/RESET Specifications
93
CAN Transmission Timeout Monitoring Time
94
Table 7-12 CAN Transmission Timeout Monitoring Time
94
8 Maintenance
95
Preventive Maintenance
96
Figure 8-1 Life Expectancy of Relay
97
T/M (Test/Maintenance Program)
98
Hardware Diagnostic T/M
98
Figure 8-2 Configuration for Hardware Diagnostic T/M Operation
99
Troubleshooting
100
Procedure
100
Preliminary Checks to be Completed before Troubleshooting
101
Hitachi S10mini LQS070 User Manual (115 pages)
Option
Brand:
Hitachi
| Category:
Industrial Electrical
| Size: 0.88 MB
Table of Contents
Table of Contents
29
1 Specifications
34
Usage
35
Specifications
36
System Specifications
36
Line Specifications
36
High-Speed I/O Communication Specifications
37
System Software Specifications
38
System Overview
38
Required Hardware and Software
38
Table 1-1 Types of System Software (Tool)
38
2 Names and Functions of each Part
40
3 Mounting and Wiring
42
Mount Base
43
Mounting the Module
43
Figure 3-1 Mounting the Optional Module
43
Ground Wiring
45
Wiring
46
4 Operation
50
Start-Up Procedure
51
Installing and Setting up the System
52
Installing
52
Uninstalling
54
Starting up the System
55
Figure 4-1 [Communication Type] Window (S10Mini ET.NET System)
55
Figure 4-2 [Communication Type] Window (S10V ET.NET System Ver. 01-01)
55
Shutting down the System
56
Figure 4-3 [[S10] ET.NET] Window (S10V ET.NET System Ver. 02-00 or Later)
56
IP Address and Subnet Mask Setting
58
Figure 4-4 [ET.NET SYSTEM] ([[S10V] ET.NET]) Window
58
Route Information Setting
59
Changing Connecting Pcs
60
Setup by Module
61
IP Address Setting
62
Routing Information
64
5 Programming
66
Software Configuration of SV.LINK
67
LINK System Programs
68
High-Speed I/O Communication Program
68
UDP Program
68
IP Program
68
Driver
68
User-Created Program
69
Ladder Program
69
Status and Communication Parameter Areas
70
Communication Start Procedure and Communication Delay Time Setup
77
Communication Start Procedure
77
Communication Delay Time Setup
78
Ladder Program Example
79
Program Example in a Combination with the S10Mini CPU
79
Program Example in a Combination with the S10V LPU
81
Relationship to S10Mini CPU and S10V LPU Module
83
6 User Guide
84
System Configuration of 10BASE-5
85
Figure 6-1 Minimum Configuration (no Repeater Used and Segment Length of up to 500 M)
86
Figure 6-2 Medium-Scale Configuration (Repeaters Used and Distance between Transceivers of up to 1,500 M)
86
Figure 6-3 Large-Scale Configuration (Repeaters and Link Segments Used and Distance between Transceivers of up to 2,500 M)
87
10BASE-T System Configuration
91
System Definition Information
93
Physical Address
93
IP Address
93
Subnet Mask
95
Route Information
95
Communication Cycle
96
Limitations
97
LINK State Transitions
99
Memory Map of SV.LINK Module
100
7 Maintenance
102
Maintenance Inspection
103
Replacing or Adding on the Module
104
Troubleshooting
106
Procedure
106
Trouble Detection and Solution
106
Errors and Actions to be Taken
109
Hitachi S10mini LQS070 Hardware Manual (108 pages)
OPTION J.NET
Brand:
Hitachi
| Category:
Controller
| Size: 0.76 MB
Table of Contents
Table of Contents
11
1 Before Use
14
CPU Mount Base
15
Mounting Optional Modules
15
Grounding
17
2 Specifications
18
Use
19
Specifications
19
System Specifications
19
Line Specifications
19
3 Names and Functions of each Part and Cabling
20
Names and Functions of each Part
21
Cabling
23
Interface Signals and Cabling Method
23
Cable Specifications
25
Examples of Cabling
26
4 User Guide
28
Software Configuration of J.NET System
29
User-Created Programs
32
User Program
32
User Program Reception Processing
32
JEMA Standard Services
34
NET Status
35
S-Register
36
S-Table
37
Handlers
38
Arithmetic Functions
38
Subroutines
48
Communication Time
57
5 Operation
59
About J.NET SUPPORT System
60
Hitachi S10mini LQS070 Manual (53 pages)
SIO Driver
Brand:
Hitachi
| Category:
Controller
| Size: 0.88 MB
Table of Contents
Table of Contents
1
System Configuration
3
Selection of External Device
7
Example of Communication Setting
8
Setup Items
18
Cable Diagram
23
Supported Device
35
Device Code and Address Code
44
Error Messages
53
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