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easYgen-2000 Series
Woodward easYgen-2000 Series Manuals
Manuals and User Guides for Woodward easYgen-2000 Series. We have
5
Woodward easYgen-2000 Series manuals available for free PDF download: User Manual, Configuration Manual, Installation Manual, Manual, Application Manual
Woodward easYgen-2000 Series User Manual (610 pages)
Genset Control
Brand:
Woodward
| Category:
Control Panel
| Size: 8.32 MB
Table of Contents
Table of Contents
7
1 General Information
17
About this Manual
17
Revision History
17
Depiction of Notes and Instructions
19
Copyright and Disclaimer
20
Service and Warranty
21
Safety
21
Intended Use
21
Personnel
22
General Safety Notes
22
Protective Equipment and Tools
25
2 System Overview
27
Display and Status Indicators
27
Hardware Interfaces (Terminals)
27
Application Modes Overview
28
3 Installation
31
Mount Unit (Plastic Housing)
31
Clamp Fastener Installation
33
Screw Kit Installation
34
Setup Connections
36
Terminal Allocation
36
Wiring Diagrams
38
Power Supply
41
Charging Alternator
42
Voltage Measuring
43
Generator Voltage
43
Mains Voltage
50
Busbar Voltage
56
Current Measuring
62
Generator Current
62
Mains Current
64
Ground Current
65
Power Measuring
66
Power Factor Definition
67
Magnetic Pickup Unit (MPU)
68
Discrete Inputs
69
Relay Outputs (Logicsmanager)
71
Analog Inputs
72
Analog Outputs
76
Serial Interfaces
78
RS-485 Interface
78
Service Port
79
CAN Bus Interfaces
80
Connecting 24 V Relays
83
4 Configuration
85
Basic Setup
85
Configure Language/Clock
85
Configure Display
89
Lamp Test
89
Enter Password
89
System Management
92
Password System
93
Configure Measurement
93
Configure Transformer
98
Function of Inputs and Outputs
101
Discrete Inputs
101
Discrete Outputs
104
Configure Monitoring
107
Generator
107
Generator Operating Voltage / Frequency
107
Generator Overfrequency (Level 1 & 2) ANSI# 81O
108
Generator Underfrequency (Level 1 & 2) ANSI# 81U
109
Generator Overvoltage (Level 1 & 2) ANSI# 59
111
Generator Undervoltage (Level 1 & 2) ANSI# 27
112
Generator Time-Overcurrent (Level 1, 2 & 3) ANSI# 50/51
114
Generator Reverse/Reduced Power (Level 1 & 2) ANSI# 32R/F
115
Generator Overload IOP (Level 1 & 2) ANSI# 32
117
Generator Overload MOP (Level 1 & 2) ANSI# 32
118
Generator Unbalanced Load (Level 1 & 2) ANSI# 46
120
Generator Voltage Asymmetry
122
Generator Ground Fault (Level 1 & 2)
123
Generator Phase Rotation
127
Generator Inverse Time-Overcurrent ANSI# IEC 255
129
Generator Lagging Power Factor (Level 1 & 2)
132
Generator Leading Power Factor (Level 1 & 2)
133
Mains
135
Mains Operating Voltage / Frequency
136
Mains Decoupling
137
Mains Overfrequency (Level 1 & 2) ANSI# 81O
138
Mains Underfrequency (Level 1 & 2) ANSI# 81U
140
Mains Overvoltage (Level 1 & 2) ANSI# 59
141
Mains Undervoltage (Level 1 & 2) ANSI# 27
142
Mains Voltage Increase
144
Mains Time-Dependent Voltage
146
QV Monitoring
149
Change of Frequency
151
Mains Voltage Phase Rotation
155
Engine
157
Engine Overspeed (Level 1 & 2) ANSI# 12
157
Engine Underspeed (Level 1 & 2)
158
Engine/Generator Speed Detection
159
Engine/Generator Active Power Mismatch
161
Engine/Mains Active Power Mismatch
162
Engine/Generator Unloading Mismatch
163
Engine Start Failure
164
Engine Shutdown Malfunction
164
Engine Unintended Stop
165
Engine Operating Range Failure
166
Engine Charge Alternator (D+)
167
Breaker
168
Configure GCB
168
Synchronization GCB
170
Configure MCB
171
Synchronization MCB
173
Generator/Busbar/Mains Phase Rotation
174
Flexible Limits
175
Miscellaneous
179
Alarm Acknowledgement
179
CAN Bus Overload
180
CAN Interface 1
181
CAN Interface 2
181
CAN Interface 2 - J1939 Interface
182
J1939 Interface - Red Stop Alarm
183
J1939 Interface - Amber Warning Alarm
184
Battery Overvoltage (Level 1 & 2)
185
Battery Undervoltage (Level 1 & 2)
186
Multi-Unit Parameter Alignment
187
Multi-Unit Missing Members
189
Configure Application
190
Configure Breakers
190
Dead Bus Closing GCB
191
Synchronization GCB/MCB
192
Dead Bus Closing MCB
193
Open GCB
194
Open MCB
195
Transition Modes (Breaker Logic)
195
Parameters
200
Breakers GCB
201
Breakers MCB
205
Synchronization
207
Inputs and Outputs
208
Analog Inputs
208
Discrete Inputs
215
External Discrete Inputs
219
Discrete Outputs (Logicsmanager)
220
External Discrete Outputs
221
Analog Outputs 1/2
222
Analog Outputs 3/4
226
Engine
229
Engine Type
229
Engine Start/Stop
236
Magnetic Pickup Unit
241
Idle Mode
242
Emergency Run
244
Automatic Run
246
Load Dependent Start Stop (LDSS)
248
Critical Mode
262
Configure Controller
269
Frequency Control
271
Load Control
276
Derating of Power
282
Frequency Depending Derating of Power
284
Voltage Control
286
Power Factor Control
290
Load Share Control
296
Discrete Raise/Low/Function
306
Configure Interfaces
308
CAN Interface 1
308
Additional Server Sdos (Service Data Objects)
310
Receive PDO {X} (Process Data Object)
311
Transmit PDO {X} (Process Data Object)
313
CAN Interface 2
317
Canopen Interface
317
J1939 Interface
318
Load Share Parameters
322
Interface
323
Configure Logicsmanager
323
Configure Counters
327
5 Operation
331
Access Via PC (Toolkit)
331
Install Toolkit
331
Install Toolkit Configuration Files
333
Configure Toolkit
335
Connect Toolkit
335
View and Set Values in Toolkit
338
Front Panel Access
340
Front Panel
340
Basic Navigation
341
Standard Menu Screens
346
Navigation Screens
346
Status/Monitoring Screens
346
Value Setting Screens
347
Specialised Menu Screens
347
Main Screen Voltage Display
347
Alarm List
348
Sequencing
349
Setpoints
350
Synchroscope (Generator/Busbar or Generator/Mains)
350
Logicsmanager Conditions
351
Logicsmanager
351
Event History
352
CAN Interface 1/2 State
352
Change Operating Modes
353
Operating Mode STOP
353
Operating Mode MANUAL
354
Operating Mode AUTOMATIC
355
Restore Language Setting
357
6 Application
359
Basic Applications
360
Application Mode A01 (None)
360
Application Mode A02 (Gcbopen)
361
Application Mode A03 (GCB)
363
Application Mode A04 (GCB/MCB)
365
Multiple Genset Applications
367
Configuring Load-Dependent Start/Stop
369
Configuring Automatic Operation
371
Configuring Emergency Operation
371
Configuring Power Control
372
Special Applications
372
Generator Excitation Protection
372
Configuring a Setpoint Control Via Analog Input
373
Creating Self-Toggling (Pulsing) Relays
376
Performing Remote Start/Stop and Acknowledgement
376
Operating Modes
377
Setting up a Test with or Without Load
378
Remote Start/Stop and Acknowledgement
379
Connecting an IKD 1 on CAN Bus 1
382
Configuring a PWM Duty Cycle for a CAT ADEM Controller
387
Connecting a GSM Modem
388
Connecting a Landline Modem
393
Wiring Self Powered Discrete Inputs
397
Setup Phoenix Expansion Modules
397
Configure External Inputs/Outputs (Phoenix)
400
Start/Stop Logic Mode "Off
400
Ripple Control Receiver
403
Canopen Applications
406
Remote Control
406
Remote Start/Stop and Acknowledgement
406
Transmitting a Frequency Setpoint
411
Transmitting a Voltage Setpoint
413
Transmitting a Power Factor Setpoint
415
Transmitting a Power Setpoint
417
Transmitting Multiple Setpoints
420
Remotely Changing the Setpoint
421
Transmitting a Remote Control Bit
423
Sending a Data Protocol Via TPDO
424
Troubleshooting
426
Modbus Applications
427
Remote Control
427
Remote Start/Stop and Acknowledgement
427
Setpoint Setting
428
Remotely Changing the Setpoint
431
Changing Parameter Settings
433
Parameter Setting
433
Configuration of Logicsmanager Functions
435
Configuration of Logicsmanager Functions for Remote Access
438
Configuration of Logicsmanager Functions for Remote Access
440
Remotely Acknowledge Single Alarm Messages
447
Remotely Clearing the Event History
447
Remotely Resetting the Default Values
448
Exception Responses
450
7 Interfaces and Protocols
451
Interfaces Overview
451
CAN Interfaces
452
CAN Interface 1 (Guidance Level)
452
CAN Interface 2 (Engine Level)
453
Serial Interfaces
453
Service Port (RS-232/USB)
453
RS-485 Interface
454
Canopen Protocol
454
J1939 Protocol
456
Displayed Messages (Visualization)
457
Supported J1939 Ecus & Remote Control Messages
462
Device Type Standard
465
Modbus Protocol
467
Load Sharing
470
8 Technical Specifications
473
Technical Data
473
Measuring Values
473
Ambient Variables
474
Inputs/Outputs
474
Interface
476
Battery
477
Housing
477
Approvals
477
Generic Note
478
Environmental Data
478
Accuracy
479
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Woodward easYgen-2000 Series Configuration Manual (339 pages)
Genset Control
Brand:
Woodward
| Category:
Control Panel
| Size: 8.92 MB
Table of Contents
Table of Contents
3
Chapter 1. General Information
11
Document Overview
11
Table 1-1: Manual - Overview
11
Abbreviations
12
Chapter 2. Configuration
13
Configuration Via the Front Panel
13
Configuration Using the PC
14
Install Toolkit Configuration and Visualization Software
14
Configure Toolkit
15
Figure 2-1: Toolkit - Options Window
15
Toolkit Files
16
Language-Dependent SID Files
17
SID Files for Using Toolkit on the CAN Bus with Other Canopen Devices
17
Loading WSET Files of Previous Revisions
17
Connect Toolkit and the Easygen Unit
18
View Easygen Data with Toolkit
19
Figure 2-2: Toolkit - Visualization Screen
19
Figure 2-3: Toolkit - Analog Value Trending Screen
19
Configure the Easygen with Toolkit
20
The Settings File Function of Toolkit
20
Figure 2-4: Toolkit - Configuration Screen
20
Function of the Inputs and Outputs
21
Chapter 3. Parameters
25
Configure Language / Clock
26
Table 3-1: Configuration - Standard Values - Configure Language/Clock
26
Configure Display
29
Lamp Test
29
Table 3-2: Daylight Saving Time - Configuration Example
29
Table 3-3: Daylight Saving Time - Examplary Dates
29
Enter Password
30
Table 3-4: Configuration - Standard Values - Enter Password
30
Figure 3-1: Code Level Display
31
System Management
32
Table 3-5: Configuration - Standard Values - System Management
32
System Management: Password System
34
Table 3-6: Configuration - Standard Values - System Management: Password System
34
Configuration
35
Configure Measurement
36
Table 3-7: Measurement - Standard Values - Configure Measurement
36
Figure 3-2: Configure Measurement - Generator Type Selection
37
Figure 3-3: AC Power Triangle
39
Configure Measurement: Configure Transformer
42
Generator
42
Table 3-8: Measurement - Standard Values - Configure Transformer
42
Busbar
44
Mains PT
45
Mains Current Transformer
45
Ground Current Transformer
46
Configure Monitoring
47
Configure Monitoring: Generator
47
Table 3-9: Monitoring - Standard Values - Configure Generator Monitoring
47
Configure Monitoring: Generator, Operating Voltage / Frequency
48
Table 3-10: Monitoring - Standard Values - Configure Generator Operating Voltage / Frequency
48
Configure Monitoring: Generator, Overfrequency (Levels 1 & 2) ANSI# 81O
49
Table 3-11: Monitoring - Standard Values - Generator Overfrequency
49
Configure Monitoring: Generator, Underfrequency (Levels 1 & 2) ANSI# 81U
51
Table 3-12: Monitoring - Standard Values - Generator Underfrequency
51
Configure Monitoring: Generator, Overvoltage (Levels 1 & 2) ANSI# 59
53
Table 3-13: Monitoring - Standard Values - Generator Overvoltage
53
Configure Monitoring: Generator, Undervoltage (Levels 1 & 2) ANSI# 27
55
Table 3-14: Monitoring - Standard Values - Generator Undervoltage
55
Configure Monitoring: Generator, Time-Overcurrent Monit. (Levels 1, 2 & 3) ANSI# 50/51
57
Table 3-15: Monitoring - Standard Values - Generator Time-Overcurrent
57
Configure Monitoring: Generator, Reverse/Reduced Power (Levels 1 & 2) ANSI# 32R/F
59
Table 3-16: Monitoring - Standard Values - Generator Reverse / Reduced Power
59
Configure Monitoring: Generator, Overload IOP (Levels 1 & 2) ANSI# 32
61
Table 3-17: Monitoring - Standard Values - Generator Overload IOP
61
Configure Monitoring: Generator, Overload MOP (Levels 1 & 2) ANSI# 32
63
Table 3-18: Monitoring - Standard Values - Generator Overload MOP
63
Configure Monitoring: Generator, Unbalanced Load (Levels 1 & 2) ANSI# 46
65
Table 3-19: Monitoring - Standard Values - Generator Unbalanced Load
65
Configure Monitoring: Generator, Voltage Asymmetry
68
Table 3-20: Monitoring - Standard Values - Generator Voltage Asymmetry
68
Configure Monitoring: Generator, Ground Fault (Levels 1 & 2)
70
Figure 3-4: Monitoring - Calculated Generator Ground Fault
70
Figure 3-5: Monitoring - Calculated Generator Ground Current - Vector Diagram
71
Table 3-21: Monitoring - Standard Values - Generator Ground Fault
71
Configure Monitoring: Generator, Phase Rotation
73
Table 3-22: Monitoring - Standard Values - Generator Voltage Phase Rotation
73
Configure Monitoring: Generator, Inverse Time-Overcurrent Monitoring ANSI# IEC 255
75
Figure 3-6: Monitoring - Generator Inverse Time-Overcurrent - "Normal Inverse" Characteristic
75
Figure 3-7: Monitoring - Generator Inverse Time-Overcurrent - "Highly Inverse" Characteristic
76
Figure 3-8: Monitoring - Generator Inverse Time-Overcurrent - "Extremely Inverse" Characteristic
76
Table 3-23: Monitoring - Standard Values - Generator Inverse Time-Overcurrent
77
Configure Monitoring: Generator, Lagging Power Factor Monitoring (Levels 1 & 2)
79
Figure 3-9: Monitoring - Generator Lagging Power Factor
79
Table 3-24: Monitoring - Standard Values - Generator Lagging Power Factor
79
Configure Monitoring: Generator, Leading Power Factor Monitoring (Levels 1 & 2)
81
Figure 3-10: Monitoring - Generator Leading Power Factor
81
Table 3-25: Monitoring - Standard Values - Generator Leading Power Factor
81
Configure Monitoring: Mains
83
Configure Monitoring: Mains, Operating Voltage / Frequency
83
Table 3-26: Monitoring - Standard Values - Configure Mains Monitoring
83
Table 3-27: Monitoring - Standard Values - Configure Mains Operating Voltage / Frequency
83
Configure Monitoring: Mains, Decoupling
85
Table 3-28: Monitoring - Standard Values - Mains Decoupling
85
Configure Monitoring: Mains, Overfrequency (Levels 1 & 2) ANSI# 81O
87
Table 3-29: Monitoring - Standard Values - Mains Overfrequency
87
Configure Monitoring: Mains, Underfrequency (Levels 1 & 2) ANSI# 81U
89
Table 3-30: Monitoring - Standard Values - Mains Underfrequency
89
Configure Monitoring: Mains, Overvoltage (Levels 1 & 2) ANSI# 59
91
Table 3-31: Monitoring - Standard Values - Mains Overvoltage
91
Configure Monitoring: Mains, Undervoltage (Levels 1 & 2) ANSI# 27
93
Table 3-32: Monitoring - Standard Values - Mains Undervoltage
93
Configure Monitoring: Mains, Phase Shift
95
Figure 3-11: Monitoring - Phase Shift
95
Table 3-33: Monitoring - Standard Values - Mains Phase Shift
95
Configure Monitoring: Mains, Voltage Phase Rotation - {2Oc
98
Table 3-34: Monitoring - Standard Values - Mains Voltage Phase Rotation
98
Configure Monitoring: Engine
100
Configure Monitoring: Engine, Overspeed (Levels 1 & 2) ANSI# 12
100
Table 3-35: Monitoring - Standard Values - Engine Overspeed
100
Configure Monitoring: Engine, Underspeed (Levels 1 & 2)
102
Table 3-36: Monitoring - Standard Values - Engine Underspeed
102
Configure Monitoring: Engine/Generator, Speed Detection (Speed/Frequency Mismatch)
104
Figure 3-12: Monitoring - Plausibility Check N/F
104
Table 3-37: Monitoring - Standard Values - Plausibility Control N/F
105
Configure Monitoring: Engine, Generator Active Power Mismatch
106
Table 3-38: Monitoring - Standard Values - Generator Active Power Mismatch
106
Configure Monitoring: Engine, Mains Active Power Mismatch
107
Table 3-39: Monitoring - Standard Values - Mains Active Power Mismatch
107
Configure Monitoring: Engine, Generator Unloading Mismatch
108
Table 3-40: Monitoring - Standard Values - Generator Unloading Mismatch
108
Configure Monitoring: Engine, Start Failure
109
Table 3-41: Monitoring - Standard Values - Engine Start Failure
109
Configure Monitoring: Engine, Shutdown Malfunction
110
Table 3-42: Monitoring - Standard Values - Engine Shutdown Malfunction
110
Configure Monitoring: Engine, Unintended Stop
111
Table 3-43: Monitoring - Standard Values - Engine Unintended Stop
111
Configure Monitoring: Engine, Operating Range Failure
112
Table 3-44: Monitoring - Standard Values - Engine Dead Bus Operation
112
Configure Monitoring: Engine, Charge Alternator (D+)
113
Table 3-45: Monitoring - Standard Values - Engine Charge Alternator Failure
113
Configure Monitoring: Breaker Monitoring
114
Configure GCB
114
Table 3-46: Monitoring - Standard Values - Breaker Monitoring - GCB
114
Configure Synchronization GCB
115
Table 3-47: Monitoring - Standard Values - Breaker Monitoring - GCB Synchronization
115
Configure MCB {2Oc
116
Table 3-48: Monitoring - Standard Values - Breaker Monitoring - MCB
116
Configure Synchronization MCB
118
Table 3-49: Monitoring - Standard Values - Breaker Monitoring - MCB Synchronization
118
Configure Monitoring: Breakers, Generator / Busbar / Mains Phase Rotation - {2Oc
119
Table 3-50: Monitoring - Standard Values - Mains Voltage Phase Rotation
119
Configure Monitoring: Flexible Limits
120
Table 3-51: Monitoring - Standard Values - Flexible Limits
120
Table 3-52: Monitoring - Flexible Limit Examples
120
Figure 3-13: Monitoring - Flexible Limits - Data Source Selection
121
Table 3-53: Monitoring - Flexible Limits - Analog Value Examples
122
Table 3-54: Monitoring - Flexible Limits - Parameter Ids
123
Configure Monitoring: Miscellaneous
124
Configure Monitoring: Miscellaneous, Alarm Acknowledgement
124
Configure Monitoring: Miscellaneous, Configure CAN Bus Overload
125
Table 3-55: Monitoring - Standard Values - CAN Bus Overload
125
Configure Monitoring: Miscellaneous, Configure CAN Interface 1
126
Table 3-56: Monitoring - Standard Values - Canopen Interface 1
126
Configure Monitoring: Miscellaneous, Configure CAN Interface 2
127
Table 3-57: Monitoring - Standard Values - Canopen Interface 2
127
Configure Monitoring: Miscellaneous, Configure CAN Interface 2, J1939 Interface
128
Table 3-58: Monitoring - Standard Values - J1939 Interface
128
Table 3-59: Monitoring - Standard Values - J1939 Interface Red Stop Lamp
129
Table 3-60: Monitoring - Standard Values - J1939 Interface Amber Warning Lamp
130
Configure Monitoring: Miscellaneous, Battery, Overvoltage (Levels 1 & 2)
131
Table 3-61: Monitoring - Standard Values - Battery Overvoltage
131
Configure Monitoring: Miscellaneous, Battery, Undervoltage (Levels 1 & 2)
133
Table 3-62: Monitoring - Standard Values - Battery Undervoltage
133
Configure Monitoring: Miscellaneous, Multi-Unit Parameter Alignment
135
Figure 3-14: Monitoring - Miscellaneous - Parameter Alignment
135
Table 3-63: Monitoring - Standard Values - Multi-Unit Parameter Alignment Monitoring
135
Configure Monitoring: Miscellaneous, Multi-Unit Missing Members
137
Table 3-64: Monitoring - Standard Values - Multi-Unit Missing Members Monitoring
137
Configure Application
138
Configure Application: Configure Breakers
138
Table 3-65: Application - Standard Values - Configure Breakers
138
Operation of the Circuit Breakers
140
Configure Application: Configure Breakers, Dead Bus Detection Limit
148
Configure Application: Configure Breakers, GCB
149
Figure 3-15: Normally Open / Normally Closed Contacts
149
Table 3-66: Application - Standard Values - Configure GCB
149
Configure Application: Configure Breakers, MCB
153
Table 3-67: Application - Standard Values - Configure MCB
153
Configure Application: Configure Breakers, Synchronization
155
Table 3-68: Application - Standard Values - Configure Synchronization
155
Configure Application: Configure Inputs and Outputs
156
Configure Analog Inputs (Flexin)
156
Figure 3-16: Analog Input Scaling - Table (Example)
156
Table 3-69: Application - Standard Values - Configure Analog Inputs
156
Table 3-70: Application - Standard Values - Configure Analog Input Table a / B
157
Table 3-71: Analog Inputs - Table Characteristics - Parameter Ids
158
Table 3-72: Application - Standard Values - Configure Analog Inputs 1 to 3
159
Configure Discrete Inputs
166
Figure 3-17: Discrete Inputs - Alarm/Control Inputs - Operation Logic
166
Table 3-73: Discrete Inputs - Terminal Assignment
166
Table 3-74: Application - Standard Values - Configure Discrete Inputs
166
Table 3-75: Discrete Inputs - Parameter Ids
168
Configure External Discrete Inputs
169
Table 3-76: Application - Standard Values - Configure Discrete Inputs
169
Table 3-77: External Discrete Inputs - Parameter Ids
169
Discrete Outputs (Logicsmanager)
170
Table 3-78: Relay Outputs - Assignment
170
Table 3-79: Discrete Outputs - Parameter Ids
170
External Discrete Outputs (Logicsmanager)
171
Configure Analog Outputs
171
Table 3-80: External Discrete Outputs - Parameter Ids
171
Table 3-81: Analog Outputs 1/2 - Parameter Table
171
Table 3-82: Application - Standard Values - Configure Analog Outputs 1/2
171
Table 3-83: Analog Outputs 3/4 - Parameter Table
172
Table 3-84: Application - Standard Values - Configure Analog Outputs 3/4
172
Figure 3-18: Monitoring - Analog Outputs - Data Source Selection
173
Table 3-85: Analog Outputs - Signal Type Selection
174
Configure Application: Configure Engine
176
Configure Application: Configure Engine, Engine Type
176
Table 3-86: Application - Standard Values - Configure Engine Type
176
Figure 3-19: Configure Application - Engine - Preglow Criterion Selection
177
Figure 3-20: Start /Stop Sequence - Diesel Engine
178
Figure 3-21: Start /Stop Sequence - Gas Engine - Successful
180
Figure 3-22: Start /Stop Sequence - Gas Engine - Unsuccessful
181
Configure Application: Configure Engine, Start/Stop
182
Table 3-87: Application - Standard Values - Configure Start/Stop
182
Figure 3-23: Engine - Firing Speed and Engine Delayed Monitoring
183
Figure 3-24: Engine - Auxiliary Services Timing
186
Configure Application: Configure Engine, MPU
187
Table 3-88: Application - Standard Values - Configure MPU
187
Table 3-89: MPU Input - Typical Configurations
187
Configure Application: Configure Engine, Idle Mode
188
Table 3-90: Application - Standard Values - Configure Idle Mode
188
Configure Application: Configure Emergency Run
189
Table 3-91: Application - Standard Values - Configure Emergency Run
190
Configure Application: Configure Automatic Run
191
Configure Application: Automatic, Start in AUTOMATIC Operating Mode (Logicsmanager)
191
Table 3-92: Application - Standard Values - Configure Automatic Run
191
Configure Application: Automatic, Stop in AUTOMATIC Operating Mode (Logicsmanager)
192
Figure 3-25: Automatic Run - Engine Start Conditions
192
Configure Application: Automatic, Load-Dependent Start/Stop (LDSS)
193
Table 3-93: Load-Dependent Start/Stop - Parameters for Reserve Power Operation
193
Table 3-94: Load-Dependent Start/Stop - Parameters for Generator Load Operation
194
Table 3-95: Application - Standard Values - Configure Load Dependent Start/Stop
196
Table 3-96: Application - Standard Values - Configure Load Dependent Start/Stop IOP
201
Table 3-97: Load-Dependent Start/Stop - Dynamic Influence on Stopping a Genset
204
Table 3-98: Application - Standard Values - Configure Load Dependent Start/Stop MOP
205
Configure Application: Automatic, Start W/O Load (Logicsmanager)
209
Configure Application: Automatic, Operation Modes
209
Configure Application: Automatic, Critical Mode (Sprinkler Operation, Logicsmanager)
210
Figure 3-26: Automatic - Critical Operation at Busbar
210
Figure 3-27: Automatic - Critical Operation at Generator
212
Table 3-99: Application - Standard Values - Configure Critical Mode
214
Configure Application: Configure Controller
215
Overview
215
PID Tuning Example
216
Figure 3-28: Controllers - Behavior of the Derivative Parameter
216
Configure Application: Controller, Frequency Control
217
Table 3-100: Application - Standard Values - Configure Frequency Control
217
Configure Application: Controller, Load Control
223
Table 3-101: Application - Standard Values - Configure Load Control
223
Configure Application: Controller, Voltage Control
229
Table 3-102: Application - Standard Values - Configure Voltage Control
229
Configure Application: Controller, Power Factor Control
234
Table 3-103: Application - Standard Values - Configure Power Factor Control
234
Configure Application: Controller, Load Share Control
238
Figure 3-29: CAN Bus Load/Var Sharing, Diagram
240
Table 3-104: Application - Standard Values - Configure Load Share
241
Figure 3-30: Load Sharing - Grouping
243
Configure Application: Controller, Discrete Raise/Low/Function
245
Table 3-105: Application - Standard Values - Configure Discrete Raise/Lower Function
245
Configure Interfaces
246
Configure Interfaces: Configure CAN Interfaces (Flexcan)
246
Configure CAN Interface 1
246
Table 3-106: Application - Standard Values - Configure CAN Interface 1
246
Table 3-107: Application - Standard Values - Configure CAN Interface 1: Additional Server Sdos
249
Figure 3-31: Interfaces - Principle of PDO Mapping
250
Table 3-108: Application - Standard Values - Configure CAN Interface 1: Receive Pdos
250
Table 3-109: Application - Standard Values - Configure CAN Interface 1: Transmit Pdos
252
Configure CAN Interface 2
255
Table 3-110: Application - Standard Values - Configure CAN Interface 2
255
Table 3-111: Application - Standard Values - Configure CAN Interface 2: Canopen
255
Table 3-112: Application - Standard Values - Configure CAN Interface 2: J1939
257
Load Share Parameters
260
Table 3-113: Application - Standard Values - Configure CAN Interface: Load Share
260
Configure Interfaces: Configure RS-232 Interfaces
261
Configure Serial Interface 1
261
Table 3-114: Application - Standard Values - Configure RS-232 Interface: Serial Interface 1
261
Configure Interfaces: Configure RS-485 Interfaces
262
Configure Serial Interface 2
262
Table 3-115: Application - Standard Values - Configure RS-485 Interface: Serial Interface 2
262
Configure Logicsmanager
263
Configure Logicsmanager: Configure Internal Flags
263
Table 3-116: Application - Standard Values - Configure Logicsmanager
263
Table 3-117: Internal Flags - Parameter Ids
263
Configure Logicsmanager: Set Timer
264
Logicsmanager: Daily Time Set Point
264
Logicsmanager: Active Time Set Point
264
Logicsmanager: Weekly Time Set Point
265
Configure Counters
266
Configure Counters: Maintenance Call
266
Table 3-118: Application - Standard Values - Configure Counters
266
Configure Counters: Operation Hours, Kwh, and Kvarh
267
Configure Counters: Start Counter
268
Appendix A. Miscellaneous
269
Alarm Classes
269
Conversion Factors
270
Temperature
270
Pressure
270
Logicsmanager
271
Structure and Description of the Logicsmanager
271
Figure 3-32: Logicsmanager - Function Overview
271
Table 3-119: Logicsmanager - Command Overview
271
A Ppendix B. L Ogics M Anager
271
Configuration of the Command Chain
272
Logical Symbols
272
Figure 3-33: Logicsmanager - Display in Toolkit
272
Figure 3-34: Logicsmanager - Display on LCD Screen
272
Table 3-120: Logicsmanager - Logical Symbols
272
Logical Outputs
273
Logical Outputs: Internal Flags
273
Logical Outputs: Internal Functions
274
Priority Hierarchy of the Logical Outputs
275
Logical Outputs: Relay Outputs
276
Table 3-121: Relay Outputs - Terminal Assignment
276
Logical Command Variables
277
Logical Command Variables: Group 00: Flags Condition 1
278
Logical Command Variables: Group 01: Alarm System
280
Logical Command Variables: Group 02: Systems Condition
281
Logical Command Variables: Group 03: Engine Control
282
Logical Command Variables: Group 04: Applications Condition
283
Logical Command Variables: Group 05: Engine Related Alarms
284
Logical Command Variables: Group 06: Generator Related Alarms
285
Logical Command Variables: Group 07: Mains Related Alarms
286
Logical Command Variables: Group 08: System Related Alarms
286
Logical Command Variables: Group 09: Discrete Inputs
287
Logical Command Variables: Group 10: Analog Inputs
287
Logical Command Variables: Group 11: Clock and Timer
287
Logical Command Variables: Group 12: External Discrete Inputs 1
288
Logical Command Variables: Group 13: Discrete Outputs
288
Logical Command Variables: Group 14: External Discrete Outputs 1
289
Logical Command Variables: Group 15: Flexible Limits
289
Logical Command Variables: Group 18: Transistor Outputs
289
Factory Setting
290
Factory Setting: Functions
290
Factory Setting: Relay Outputs
300
Discrete Inputs
304
Woodward easYgen-2000 Series Installation Manual (72 pages)
Genset Control
Brand:
Woodward
| Category:
Control Unit
| Size: 2.72 MB
Table of Contents
Table of Contents
3
Chapter 1. General Information
8
Document Overview
8
Table 1-1: Manual - Overview
8
Chapter 2. Electrostatic Discharge Awareness
9
Chapter 3. Marine Usage (Pending)
10
Application
10
Chapter 4. Housing
11
Panel Cutout
11
Figure 4-1: Housing - Panel-Board Cutout
11
Table 4-1: Plastic Housing - Panel Cutout
11
Dimensions
12
Figure 4-2: Plastic Housing Easygen-2200 - Dimensions
12
Figure 4-3: Plastic Housing Easygen-2500 - Dimensions
12
Clamp Fastener Installation
13
Screw Kit Installation
14
Figure 4-4: Housing - Drill Plan
14
Terminal Arrangement
15
Figure 4-5: Easygen-2000 Series - Terminal Arrangement - Rear View
15
Service Port (RS-232)
16
Figure 5-2: Easygen-2200 P2 - Wiring Diagram
17
Figure 5-3: Easygen-2500 P1 - Wiring Diagram 1/2
18
Figure 5-4: Easygen-2500 P1 - Wiring Diagram 2/2
19
Chapter 5. Wiring Diagrams
16
Figure 5-1: Easygen-2200 P1 - Wiring Diagram
16
Interface
19
Chapter 6. Connections
20
Table 6-1: Conversion Chart - Wire Size
20
Power Supply
21
Figure 6-1: Power Supply
21
Figure 6-2: Power Supply - Crank Waveform at Maximum Load
21
Table 6-2: Power Supply - Terminal Assignment
21
Charging Alternator
22
Figure 6-3: Charging Alternator Input/Output
22
Table 6-3: Charging Alternator Input/Output - Terminal Assignment
22
Voltage Measuring (Flexrange)
23
Voltage Measuring: Generator
23
Figure 6-4: Voltage Measuring - Generator
23
Table 6-4: Voltage Measuring - Terminal Assignment - Generator Voltage
23
Figure 6-5: Voltage Measuring - Generator Windings, 3Ph 4W
24
Figure 6-6: Voltage Measuring - Generator Measuring Inputs, 3Ph 4W
24
Table 6-5: Voltage Measuring - Terminal Assignment - Generator, 3Ph 4W
24
Figure 6-7: Voltage Measuring - Generator Windings, 3Ph 3W
25
Figure 6-8: Voltage Measuring - Generator Measuring Inputs, 3Ph 3W
25
Table 6-6: Voltage Measuring - Terminal Assignment - Generator, 3Ph 3W
25
Figure 6-9: Voltage Measuring - Generator Windings, 1Ph 3W
26
Figure 6-10: Voltage Measuring - Generator Measuring Inputs, 1Ph 3W
26
Table 6-7: Voltage Measuring - Terminal Assignment - Generator, 1Ph 3W
26
Figure 6-11: Voltage Measuring - Generator Windings, 1Ph 2W (Phase-Neutral)
27
Figure 6-12: Voltage Measuring - Generator Measuring Inputs, 1Ph 2W (Phase-Neutral)
27
Table 6-8: Voltage Measuring - Terminal Assignment - Generator, 1Ph 2W (Phase-Neutral)
27
Figure 6-13: Voltage Measuring - Generator Windings, 1Ph 2W (Phase-Phase)
28
Figure 6-14: Voltage Measuring - Generator Measuring Inputs, 1Ph 2W (Phase-Phase)
28
Table 6-9: Voltage Measuring - Terminal Assignment - Generator, 1Ph 2W (Phase-Phase)
28
Voltage Measuring: Mains (Busbar)
29
Figure 6-15: Voltage Measuring - Mains (Busbar)
29
Table 6-10: Voltage Measuring - Terminal Assignment - Mains (Busbar) Voltage
29
Figure 6-16: Voltage Measuring - Mains (Busbar) PT Windings, 3Ph 4W
30
Figure 6-17: Voltage Measuring - Mains (Busbar) Measuring Inputs, 3Ph 4W
30
Table 6-11: Voltage Measuring - Terminal Assignment - Mains (Busbar), 3Ph 4W
30
Figure 6-18: Voltage Measuring - Mains (Busbar) PT Windings, 3Ph 3W
31
Figure 6-19: Voltage Measuring - Mains (Busbar) Measuring Inputs, 3Ph 3W
31
Table 6-12: Voltage Measuring - Terminal Assignment - Mains (Busbar), 3Ph 3W
31
Figure 6-20: Voltage Measuring - Mains (Busbar) PT Windings, 1Ph 3W
32
Figure 6-21: Voltage Measuring - Mains (Busbar) Measuring Inputs, 1Ph 3W
32
Table 6-13: Voltage Measuring - Terminal Assignment - Mains (Busbar), 1Ph 3W
32
Figure 6-22: Voltage Measuring - Mains (Busbar) PT Windings, 1Ph 2W (Phase-Neutral)
33
Figure 6-23: Voltage Measuring - Mains (Busbar) Measuring Inputs, 1Ph 2W (Phase-Neutral)
33
Table 6-14: Voltage Measuring - Terminal Assignment - Mains (Busbar), 1Ph 2W (Phase-Neutral)
33
Figure 6-24: Voltage Measuring - Mains (Busbar) PT Windings, 1Ph 2W (Phase-Phase)
34
Figure 6-25: Voltage Measuring - Mains (Busbar) Measuring Inputs, 1Ph 2W (Phase-Phase)
34
Table 6-15: Voltage Measuring - Terminal Assignment - Mains (Busbar), 1Ph 2W (Phase-Phase)
34
Voltage Measuring: Busbar (Mains)
35
Figure 6-26: Voltage Measuring - Busbar (Mains)
35
Table 6-16: Voltage Measuring - Terminal Assignment - Busbar (Mains) Voltage
35
Figure 6-27: Voltage Measuring - Busbar (Mains) PT Windings, 3Ph 4W
36
Figure 6-28: Voltage Measuring - Busbar (Mains) Measuring Inputs, 3Ph 4W
36
Table 6-17: Voltage Measuring - Terminal Assignment - Busbar (Mains), 3Ph 4W
36
Figure 6-29: Voltage Measuring - Busbar (Mains) PT Windings, 3Ph 3W
37
Figure 6-30: Voltage Measuring - Busbar (Mains) Measuring Inputs, 3Ph 3W
37
Table 6-18: Voltage Measuring - Terminal Assignment - Busbar (Mains), 3Ph 3W
37
Figure 6-31: Voltage Measuring - Busbar (Mains) PT Windings, 1Ph 3W
38
Figure 6-32: Voltage Measuring - Busbar (Mains) Measuring Inputs, 1Ph 3W
38
Table 6-19: Voltage Measuring - Terminal Assignment - Busbar (Mains), 1Ph 3W
38
Figure 6-33: Voltage Measuring - Busbar (Mains) PT Windings, 1Ph 2W (Phase-Neutral)
39
Figure 6-34: Voltage Measuring - Busbar (Mains) Measuring Inputs, 1Ph 2W (Phase-Neutral)
39
Table 6-20: Voltage Measuring - Terminal Assignment - Busbar (Mains), 1Ph 2W (Phase-Neutral)
39
Figure 6-35: Voltage Measuring - Busbar (Mains) PT Windings, 1Ph 2W (Phase-Phase)
40
Figure 6-36: Voltage Measuring - Busbar (Mains) Measuring Inputs, 1Ph 2W (Phase-Phase)
40
Table 6-21: Voltage Measuring - Terminal Assignment - Busbar (Mains), 1Ph 2W (Phase-Phase)
40
Current Measuring
41
Generator Current
41
Figure 6-37: Current Measuring - Generator
41
Table 6-22: Current Measuring - Terminal Assignment - Generator Current
41
Figure 6-38: Current Measuring - Generator, L1 L2 L3
42
Figure 6-39: Current Measuring - Generator, Phase Lx
42
Table 6-23: Current Measuring - Terminal Assignment - Generator, L1 L2 L3
42
Table 6-24: Current Measuring - Terminal Assignment - Generator, Phase Lx
42
Mains Current 1-Phase
43
Figure 6-40: Current Measuring - Mains Current
43
Figure 6-41: Current Measuring - Mains, Phase Lx
43
Table 6-25: Current Measuring - Terminal Assignment - Mains Current
43
Table 6-26: Current Measuring - Terminal Assignment - Mains, Phase Lx
43
Ground Current
44
Figure 6-42: Current Measuring - Ground Current
44
Table 6-27: Current Measuring - Terminal Assignment - Ground Current
44
Power Measuring
45
Power Factor Definition
45
Figure 6-43: Power Measuring - Direction of Power
45
MPU (Pickup)
47
Figure 6-44: MPU - Principle Overview
47
Figure 6-45: MPU Input
47
Figure 6-46: Minimal Necessary Input Voltage Depending on Frequency
47
Table 6-28: MPU - Terminal Assignment (Easygen-2200 P1 & Easygen-2500 P1 Only)
47
Discrete Inputs
48
Discrete Inputs: Signal Polarity
48
Figure 6-47: Discrete Inputs - Alarm/Control Input - Positive Signal (Easygen-2000 Series)
48
Figure 6-48: Discrete Inputs - Alarm/Control Input - Positive Signal (Easygen-2500 P1 Only)
48
Figure 6-49: Discrete Inputs - Alarm/Control Input - Negative Signal (Easygen-2000 Series)
49
Figure 6-50: Discrete Inputs - Alarm/Control Input - Negative Signal (Easygen-2500 P1 Only)
49
Table 6-29: Discrete Input - Terminal Assignment (Easygen-2000 Series)
49
Table 6-30: Discrete Input - Terminal Assignment (Easygen-2500 P1 Only)
49
Discrete Inputs: Operation Logic
50
Figure 6-51: Discrete Inputs - Alarm/Control Inputs - Operation Logic
50
Relay Outputs (Logicsmanager)
51
Figure 6-52: Relay Outputs
51
Table 6-31: Relay Outputs - Terminal Assignment
51
Analog Inputs (Flexin)
53
Wiring Resistor Senders
53
Figure 6-53: Analog Inputs (Resistors) - Wiring Two-Pole Senders
53
Table 6-32: Analog Inputs - Terminal Assignment - Wiring Single- and Two-Pole Senders
53
Table 6-33: Analog Inputs - Terminal Assignment - Wiring Two-Pole Senders (Easygen-2500 P1 Only)
53
Figure 6-54: Analog Inputs (Resistors) - Wiring Single-Pole Senders
54
Table 6-34: Analog Inputs - Terminal Assignment - Wiring Single- and Two-Pole Senders
54
Table 6-35: Analog Inputs - Terminal Assignment - Wiring Single-Pole Senders (Easygen-2500 P1 Only)
54
Figure 6-55: Analog Inputs (Resistors) - Wiring Single- and Two-Pole Senders
55
Table 6-36: Analog Inputs - Terminal Assignment - Wiring Single- and Two-Pole Senders
55
Table 6-37: Analog Inputs - Terminal Assignment - Wiring Single- and Two-Pole Senders (Easygen-2500 P1 Only)
55
Wiring 0/4 to 20 Ma Senders
56
Figure 6-56: Analog Inputs (0/4 to 20 Ma) - Wiring Single- and Two-Pole Senders
56
Table 6-38: Analog Inputs - Terminal Assignment - Wiring Single- and Two-Pole Senders
56
Table 6-39: Analog Inputs - Terminal Assignment - Wiring Single- and Two-Pole Senders (Easygen-2500 P1 Only)
56
Analog Outputs
57
Controller Wiring
57
Figure 6-57: Analog Controller Output 1/2 - Wiring and External Jumper Setting
57
Table 6-40: Bias Signal Outputs 1/2 - Analog or PWM
57
Figure 6-58: Analog Controller Output 3/4 - Wiring and External Jumper Setting
58
Table 6-41: Bias Signal Outputs 3/4 - Analog
58
Interfaces
59
RS-485 Serial Interfaces
59
Service Port (RS-232)
59
Figure 6-59: RS-485 Modbus - Connection for Half-Duplex Operation
59
Figure 6-60: RS-232 Interface - Overview
59
Table 6-42: RS-485 Interface - Pin Assignment (Easygen-2500 P1 Only)
59
Table 6-43: RS-232 Interface (DPC) - Pin Assignment
59
CAN Bus Interfaces (Flexcan)
60
Table 6-44: CAN Bus 1 - Pin Assignment (Easygen-2000 Series)
60
Table 6-45: CAN Bus 2 - Pin Assignment (Easygen-2200 P2 Only)
60
Table 6-46: CAN Bus 2 - Pin Assignment (Easygen-2500 P1 Only)
60
Figure 6-61: Interfaces - CAN Bus - Termination
61
Table 6-47: Maximum CAN Bus Length
61
Bus Shielding
62
DPC - Direct Configuration Cable
62
Figure 6-62: Interfaces - Shielding (External RC Element)
62
Figure 6-63: Interface - Shielding (Internal RC Element)
62
Table 6-48: Bus Shielding
62
C Hapter 7. T Echnical D Ata
64
Insulation Voltage (Continuously)
65
Insulation Test Voltage ( ≤ 5S)
65
Insulation Test Voltage ( 5S)
66
Version
66
Type
66
Plastic
66
C Hapter 8. E Nvironmental D Ata
67
C Hapter 9. a Ccuracy
68
Figure 9-1: Interference Suppressing Circuit - Connection
70
A Ppendix A. U Seful I Nformation
70
Table 9-1: Interference Suppressing Circuit for Relays
71
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Woodward easYgen-2000 Series Application Manual (41 pages)
Genset Control
Brand:
Woodward
| Category:
Control Unit
| Size: 4.23 MB
Table of Contents
Table of Contents
3
Chapter 1. General Information
7
Table 1-1: Manual - Overview
7
Chapter 2. Basic Applications
8
Overview
8
Application Mode {0
9
Figure 2-1: Application Mode {0
9
Application Mode {1O
10
Figure 2-2: Application Mode {1O
10
Application Mode {1Oc
11
Figure 2-3: Application Mode {1Oc
11
Application Mode {2Oc
12
Figure 2-4: Application Mode {2Oc
12
Chapter 3. Multiple Genset Applications
13
Overview
13
Figure 3-1: Multiple Genset Application Mode
13
Configuration Example
14
Mains Parallel Operation (Mains Interchange (Import/Export) Power Control)
14
Figure 3-2: Example - Configuring Load-Dependent Start Stop (LM)
14
Table 3-1: Configuration of Load-Dependent Start/Stop
14
Table 3-2: Configuration of Load-Dependent Start/Stop IOP
15
Table 3-3: Configuration of Load-Dependent Start/Stop MOP
15
Figure 3-3: Example - Configuring Start in Auto (LM)
16
Table 3-4: Configuration of Emergency Operation
16
Table 3-5: Configuration of Import/Export Power Control
16
Chapter 4. Special Application Examples
17
Generator Excitation Protection
17
Figure 4-1: Example - Generator Excitation Protection
17
Table 4-1: Example - Generator Excitation Protection
17
Configuring a Set Point Control Via Analog Input
18
Configuring the Rated Generator Power
18
Configuring the Analog Input for Real Power Set Point
18
Configuring the Load Controller
18
Table 4-2: Configuration of the Rated Generator Power
18
Table 4-3: Configuration of the Analog Input for Real Power Set Point
18
Table 4-4: Configuration of the Analog Input for Real Power Set Point - Toolkit Only Parameters
18
Table 4-5: Configuration of the Load Controller
18
Viewing the Load Set Point on the Easygen
19
Figure 4-2: Example - Configuring Load Setpoint 2 for [DI 04]
19
Figure 4-3: Example - Setpoints Screen
19
Figure 4-4: Example - Analog Inputs Screen
19
Creating Self-Toggling (Pulsing) Relays Using Logicsmanager
20
Figure 4-5: Example - Configuring Flag 5 for a Pulsing Relay
20
Figure 4-6: Example - Configuring Relay 2 for a Pulsing Relay
20
Performing Remote Start/Stop and Acknowledgement
21
Preliminary Conditions
21
Operating Modes
21
Figure 4-7: Configuration - Operat. Mode AUTO
21
Setting up a Test with or Without Load
22
Figure 4-8: Configuration - Operat. Mode AUTO
22
Figure 4-9: Configuration - Operat. Mode STOP
22
Figure 4-10: Configuration - Flag 2 (Timer)
23
Figure 4-11: Configuration - Start W/O Load
23
Table 4-6: Timer Configuration
23
Remote Start/Stop and Acknowledgement
24
Figure 4-12: Example - Remote Start Request
24
Figure 4-13: Example - Remote Acknowledgement
25
Bit Enabling Via Modbus Protocol and RS-485 Interface
26
Bit Enabling Via Canopen Protocol and CAN Interface 1
26
Figure 4-14: Example - Command Variable
26
Connecting an IKD 1 on CAN Bus 1
27
Easygen Configuration
27
Figure 4-15: Configuration of TPDO1 for an IKD 1
27
Table 4-7: Configuration of TPDO1 for an IKD 1
27
IKD 1 Configuration
28
Figure 4-16: Configuration of RPDO1 for an IKD 1
28
Figure 4-17: Configuration of the IKD 1
28
Table 4-8: Configuration of RPDO1 for an IKD 1
28
Table 4-9: Configuration of the IKD 1
28
Baudrate Configuration
29
Figure 4-18: Configuration of the Baud Rate
29
Configuration for a Second IKD 1
30
Figure 4-19: Configuration of the Easygen for a Second IKD 1
30
Figure 4-20: Configuration of the Second IKD 1
30
Configuring a PWM Duty Cycle for a CAT ADEM Controller
31
Figure 4-21: Configuring a PWM Duty Cycle for a CAT ADEM Controller
31
Table 4-10: Configuring a PWM Duty Cycle for a CAT ADEM Controller
31
Connecting a GSM Modem
32
Function
32
Preconditions for this Example
32
Figure 4-22: Connecting a GSM Modem
32
Connection
33
Easygen Settings
33
Figure 4-23: GSM Modem Connection
33
Table 4-11: Configuring the Easygen for GSM Modem Connection
33
Toolkit Settings
34
GSM Modem Settings
34
Figure 4-24: Connecting Toolkit with a GSM Modem
34
Figure 4-25: Configuring the GSM Modem Software
34
Figure 4-26: Configuring Alarm Input 1 in the GSM Modem Software
35
Figure 4-27: Configuring Alarm Input 2 in the GSM Modem Software
35
Connecting a Landline Modem
36
Function
36
Preconditions for this Example
36
Figure 4-28: Connecting a Landline Modem
36
Connection
37
Easygen Settings
37
Figure 4-29: Landline Modem Connection
37
Table 4-12: Configuring the Easygen for Landline Modem Connection
37
Toolkit Settings
38
Phoenix Modem Settings
38
Figure 4-30: Connecting Toolkit with a Landline Modem
38
Wiring Self-Powered Dis
40
Figure 4-31: Wiring Self-Powered Dis
40
Woodward easYgen-2000 Series Manual (52 pages)
Genset Control for engine-generator
Brand:
Woodward
| Category:
Control Unit
| Size: 4.62 MB
Table of Contents
Table of Contents
3
Chapter 1. General Information
5
Document Overview
5
Table 1-1: Manual - Overview
5
Short Description
6
Chapter 2. Navigation / Operation
7
Figure 2-1: Front Panel and Display
7
Navigation
8
Operation
25
Figure 2-2: Screen - Level Overview
25
Display
27
Table 2-1: Display - Measuring Values
27
Mode
28
Operation
29
Logicsmanager
30
Chapter 3. Functional Description
32
Overview
32
Table 3-1: Functional Description - Overview
32
Application Modes
33
Application Mode {0} - Start/Stop
33
Application Mode {1O} - Open GCB
33
Application Mode {1Oc} - Open/Close GCB
33
Application Mode {2Oc} - Open/Close GCB/MCB
33
Operating Modes
34
Operating Mode STOP
34
Operating Mode MANUAL
35
Operating Mode AUTOMATIC
36
Table 3-2: Functional Description - AMF Conditions
36
Chapter 4. Configuration
38
Parameters
40
Language
40
Real-Time Clock - Time
40
Real-Time Clock - Date
41
Display Contrast
41
Password
42
Deactivate Horn
42
Factory (Default) Values
42
Appendix A. Display Messages
43
Status Messages
43
Alarm Messages
45
Table 4-1: Message Ids for Analog Inputs
50
Table 4-2: Message Ids for Discrete Inputs
50
Table 4-3: Message Ids for External Discrete Inputs
50
Table 4-4: Message Ids for Flexible Limits
50
Appendix B. Restoring a Language Setting
51
Figure 4-1: Front Panel and Display
51
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