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Woodward EGCP-2 Manuals
Manuals and User Guides for Woodward EGCP-2. We have
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Woodward EGCP-2 manuals available for free PDF download: Installation And Operation Manual, Operation Manual, Installation Manual, Communications Manual
Woodward EGCP-2 Installation And Operation Manual (234 pages)
Engine Generator Control Package
Brand:
Woodward
| Category:
Control Unit
| Size: 3.24 MB
Table of Contents
Table of Contents
3
Warnings and Notices
9
Battery Charging
10
Electrostatic Discharge Awareness
10
Chapter 1. General Information
11
Introduction
11
Regulatory Compliance
11
Control Electrical Ratings
11
Technical Specifications
11
Chapter 2. Control Overview
12
Introduction
12
Hardware
14
Environmental Specification
14
Physical Specification
14
Accessories
14
Figure 2-1. Physical Outline with Dimensions of EGCP-2
15
Figure 2-2. EGCP-2 Interface Connections
16
Operator Interface
17
Figure 2-3. Operator Interface
17
Navigation Procedure
22
Figure 2-4A. EGCP-2 Navigation (1)
22
Figure 2-4B. EGCP-2 Navigation (2)
23
Figure 2-4C. EGCP-2 Navigation (3)
24
Figure 2-4D. EGCP-2 Navigation (4)
25
Figure 2-4E. EGCP-2 Navigation (5)
26
Chapter 3. Electrical Installation and Specifications
27
Electrical Connections
27
Figure 3-1. Cageclamp Termination Blocks (Example Photos)
27
Figure 3-2. Recommended Single Point Grounding Scheme
28
Figure 3-3. Wiring Diagram for EGCP-2
30
Input Power
31
Figure 3-4. Dip Switch Locations
31
Potential Transformer (PT) Inputs
32
Figure 3-5. Three Wire Delta PT Connections for EGCP-2
33
Figure 3-6. Four Wire Wye PT Connections
33
Figure 3-7. Utility/Local Bus Single PT Wiring for Delta and Wye Configuration for
34
Figure 3-8. Utility/Local Bus Single PT Wiring for Delta and Wye Configuration for Multiple or Single Engine Prime Power Applications
35
Figure 3-9A. PT Wiring Relationships for Generator, Bus, and Utility Inputs
36
Figure 3-10A. PT Wiring Relationships for Generator, Bus, and Utility Inputs
38
Figure 3-10B. PT Wiring Relationships for Generator, Bus, and Utility Inputs
39
Current Transformer (CT) Inputs
40
Figure 3-11. Current Transfer Wiring Diagram for EGCP-2
40
MPU (Speed) Input
41
Figure 3-12. Wiring Diagram for MPU Input
41
Process Import/Export Input
42
Figure 3-13A. Wiring Diagram for Process Import/Export Input
42
Figure 3-13B. Connecting a Kw Transducer Signal to Multiple EGCP-2S
42
Coolant Temperature and Oil Pressure Inputs
43
Figure 3-14. Wiring Diagram for Pressure Inputs
43
Figure 3-15. Wiring Diagram for Temperature Inputs
44
Speed Bias and Voltage Bias Outputs
46
Figure 3-16. Wiring Diagram for Speed Bias and Voltage Bias Outputs
47
Discrete Inputs
48
Relay Outputs
49
Figure 3-17. Wiring Diagram for Typical Discrete I/O Connections
49
Figure 3-18. Example of the Mains Breaker no Output Connected to Close the Mains (Utility) Breaker (ENERGIZE to CLOSE)
50
Figure 3-19. Example Using the NC Output to Control the Mains (Utility) Contactor (ENERGIZE to OPEN)
51
Figure 3-20. Example of the Generator Breaker Close no Output Connected to Close the Generator Breaker (ENERGIZE to CLOSE)
52
Figure 3-21. Example Using the no Contacts to Control the Generator's Contactor (ENERGIZE to CLOSE)
52
Figure 3-22. Example Using the no Contacts to Control the Mains Breaker Trip (Open) Coil (ENERGIZE to OPEN)
55
Figure 3-23. Example Using the NC Contacts to Control the Generator Breakers Open Coil (DE-ENERGIZE to OPEN)
56
Figure 3-24. Generator Breaker and Contactor Close and Open Logic
56
AC Inputs
58
DC Inputs and Outputs
58
Discrete Inputs
59
Discrete Outputs
59
Communication Ports: RS-485 & RS-422 (1 Each)
60
Hardware Connections
60
Figure 3-25. RS-422 Communications
61
Inter-Control Communications (RS-485 Network)
62
Figure 3-26. RS-485 and RS-422 Termination Diagrams
62
Alarms and Shutdowns
63
Figure 3-27. RS-485 Inter-Control Communications
63
Chapter 4. Software Overview
66
Introduction
66
Status Screens
66
Figure 4-1. System Overview Engine off Line
66
Figure 4-2. System Status Screen-Isochronous
68
Figure 4-3. System Status Screen-Baseload
68
Figure 4-4. Engine Status
69
Figure 4-5. Generator Status (Voltage Line to Neutral)
70
Figure 4-6. I/O Status
71
Figure 4-7. Synchronizer Status
72
Figure 4-8. Kw Load Status
73
Figure 4-9. PF /Kvar Status
74
Figure 4-10. Sequencing Menu
75
Figure 4-11. Sequencing Menu (Multi-Unit)
76
Figure 4-12. ATS (Automatic Transfer Switch) Status
77
Security Access
78
Figure 4-13. Security Code Display
78
Alarm / Event Log
79
Figure 4-14. Alarm / Event Screen
79
Figure 4-15. Empty Event Log
80
Configuration Menus
81
Figure 4-16A. Configuration Menu List (Screen 1)
81
Figure 4-16B. Configuration Menu List (Screen 2)
81
Figure 4-16C. Configuration Menu List (Screen 3)
82
Figure 4-17. Program Configuration Error
83
Figure 4-18. AC Power Triangle
86
Figure 4-19. Breaker Logic and Contactor Logic
89
Shutdowns and Alarms
90
Figure 4-20. Generator High/Low Voltage Alarms
90
Figure 4-21. Generator Over/Under Frequency
91
Figure 4-22. Delay Time Is 10 Seconds, Current Goes to 190 A, an Alarm or Shutdown will be Received in 30 Seconds
93
Figure 4-23. Delay Time Is 10 Seconds, Current Goes to 200 A, an Alarm or Shutdown will be Received in 15 Seconds
93
Figure 4-24. Delay Time Is 10 Seconds, Current Goes to 220 A, an Alarm or Shutdown will be Received in 7.5 Seconds
94
Figure 4-25. Reverse Power
95
Engine Control
96
Synchronizer
98
Figure 4-26. Typical Circuit Using Permissive Function and Run for Auto/Manual Synchronizing
98
Figure 4-27. Voltage Matching (1% Set Point)
99
Figure 4-28. Maximum Phase Window = 10 Degrees
100
Real Load Control
101
Reactive Load Control
104
Process Control
105
Figure 4-29. EGCP-2 Control Dip Switch
105
Figure 4-30. Direct (Export) Process Action
106
Figure 4-31. Indirect (Import Power) Process Action
106
Figure 4-32. Direct (Import/Export) Process Action
106
Transfer Switch
110
Sequencing and Comms (Communications)
112
Calibration Menu
114
Figure 4-33. Process in Scale
115
Figure 4-34. Measured Vs. Monitored
115
Figure 4-35. Typical AVR with Aux Input (Newage SX-440)
117
Figure 4-36. Typical AVR with External Voltage Adjust Potentiometer
117
Figure 4-37. AVR Droop
118
Figure 4-38. Oil Pressure Sensor Curve
122
Figure 4-39. Water Temperature Curves
125
Figure 4-40. EGCP-2 Water Temperature Characteristics
125
Chapter 5. Control Features and Functions
127
Engine Control
127
Engine Protection
127
Generator Voltage and Reactive Load Control
127
Generator Protection
127
Mains Sensing
128
Synchronizing
128
Load Control
128
Sequencing
128
Engine Cranking
129
Idle/Rated Relay Output
130
Generator Voltage Control
130
Generator Load Control
131
Figure 5-1. Droop Mode
132
Figure 5-2. Isochronous Mode
133
Figure 5-3. Droop/Isochronous Load Sharing
134
Automatic Generator Loading Functions
135
Synchronizer Description
138
Figure 5-4. Synchronizer Time Line-Standard Sequence
142
Figure 5-5. Loss of Mains Detection Active
143
Figure 5-6. Generator off Line
143
Figure 5-7. Mains Parallel Unit with Voltage/Frequency Detect
144
Figure 5-8. Mains Parallel Unit(S) with Load Surge Detect
144
Generator Sequencing
145
Figure 5-9. Typical Automatic Sequencing Scenario
146
Figure 5-10. Original System Configuration
149
Figure 5-11. after a Change of Priority-Units Not Operating
149
Figure 5-12. Original System Configuration
150
Figure 5-13. Master Transfers to Unit 2
150
Figure 5-14. Changing the Priority of a Slave Unit
152
Figure 5-15. Changing the Priority of a Slave Unit
152
Figure 5-16. Changing the Priority of a Slave Unit
153
Figure 5-17. Changing the Priority of a Slave Unit
153
Figure 5-18. Changing the Priority of a Slave Unit
154
Figure 5-19. Changing the Priority of a Slave Unit
154
Chapter 6. Calibration of Control Inputs and Outputs
156
Introduction
156
Calibration of Generator Pts and Cts
157
Calibration of the Bus PT
161
Speed Bias Output
162
Voltage Bias Output
162
Figure 6-1. Relationship between Voltage Bias and Generator Voltage
163
Chapter 7. General Start-Up Instructions
164
Before Starting the Generator Set
164
Sequence of Start-Up and Checking Parameters
165
Loading the Generator Set
165
Chapter 8. Troubleshooting
168
Control Hardware and I/O
168
Engine Control/Sensing Parameters
169
Synchronization
170
Breaker Close/Open Control
171
Real Load Control
172
Reactive Load Control
173
Sequencing
174
Mains/Bus Sensing
175
Communications
175
Chapter 9. Definition of Terms
176
Chapter 10. Service Options
182
Product Service Options
182
Woodward Factory Servicing Options
183
Returning Equipment for Repair
183
Replacement Parts
184
Engineering Services
184
How to Contact Woodward
185
Technical Assistance
185
Appendix A. Connector Information
186
Appendix B. Speed Bias Connections
188
Speed Control
188
Appendix C. Voltage Bias Connections
193
Basler AVC63-12
193
Basler AEC63-7
194
Basler APR63-5
195
Basler APR63-5 with AMP200
196
Basler KR2F, 4F, or 7F
197
Basler DECS 15
198
Basler DECS 100
199
Basler DECS 200
200
Basler SR4A or SR8A
201
Basler SSR
202
Caterpillar CDVR
203
Caterpillar Digital Voltage Regulator
204
Caterpillar VR3
205
Caterpillar VR6
206
KATO KCR360 or 760
207
KATO K65-12B or K125-10B
208
Leroy Somer R438, R448, or R449
209
Leroy Somer R600
210
Leroy Somer R610
211
Marathon PM 100/200
212
Marathon 2000E
213
Mecc Alte UVR
214
Newage MA325
215
Newage MA327
216
Newage MX321/341
217
Appendix D. EGCP-2 Set Point Worksheet
218
Configuration Menu
218
Shutdown and Alarms Menu
219
Engine Control Menu
222
Synchronizer Menu
224
Real Load Control Menu
225
Reactive Load Control Menu
226
Process Control Menu
227
Transfer Switch Menu
228
Sequencing and Comms Menu
229
Calibration Menu
230
Declarations
232
Egcp-2 Control Specifications
233
Advertisement
Woodward EGCP-2 Operation Manual (152 pages)
Engine Generator Control Package
Brand:
Woodward
| Category:
Controller
| Size: 2.06 MB
Table of Contents
Table of Contents
3
Regulatory Compliance
7
Electrostatic Discharge Awareness
8
Chapter 1. General Information
9
Introduction
9
Control Electrical Ratings
9
Figure 1-1. EGCP-2 Wiring Diagram
10
Chapter 2. Control Overview
11
Introduction
11
Operator Interface
13
Figure 2-1. Operator Interface
13
Figure 2-2. EGCP-2 Navigation
18
Chapter 3. Software Overview
23
Introduction
23
Status Screens
23
Figure 3-1. System Overview Engine off Line
23
Figure 3-2. System Status Screen-Isochronous
25
Figure 3-3. System Status Screen-Baseload
25
Figure 3-4. Engine Overview
26
Figure 3-5. Generator Status (Voltage Line to Line)
27
Figure 3-6. I/O Status
28
Figure 3-7. Synchronizer Status
29
Figure 3-8. KW Load Status
30
Figure 3-9. PF /KVAR Status
31
Figure 3-10. Sequencing Menu
32
Figure 3-11. Sequencing Menu (Multi-Unit)
33
Figure 3-12. ATS (Automatic Transfer Switch) Status
34
Alarm / Event Log
35
Figure 3-13. Alarm / Event Screen
35
Figure 3-14. Empty Event Log
36
Configuration Menus
37
Figure 3-15. Security Code Display
37
Figure 3-16A. Configuration Menu List (Screen 1)
38
Figure 3-16B. Configuration Menu List (Screen 2)
38
Figure 3-16C. Configuration Menu List (Screen 3)
39
Figure 3-17. AC Power Triangle
42
Figure 3-18. Breaker Logic and Contactor Logic
45
Shutdowns and Alarms
46
Figure 3-19. Generator High/Low Voltage Alarms
46
Figure 3-20. Generator Over/Under Frequency
47
Figure 3-21. Current Goes to 160 Amps, an Alarm or Shutdown will be Received
49
Figure 3-22. Current Goes to 176 Amps, an Alarm or Shutdown will be Received
49
Figure 3-23. Current Goes to 152 Amps, an Alarm or Shutdown will be Received
50
Figure 3-24. Reverse Power
50
Engine Control
51
Synchroscope
53
Figure 3-25. Typical Circuit Using Permissive Function and Run for Auto/Manual Synchronizing
53
Figure 3-26. Voltage Matching (1% Setpoint)
54
Figure 3-27. Maximum Phase Window = 10 Degrees
54
Real Load Control
56
Reactive Load Control
58
Process Control
59
Figure 3-28. Direct (Export) Process Action
59
Figure 3-29. Indirect (Import Power) Process Action
59
Figure 3-30. Direct (Import/Export) Process Action
60
Figure 3-31. EGCP-2 Control Dip Switch
60
Transfer Switch
62
Sequencing and Comms (Communications)
64
Calibration Menu
66
Figure 3-32. Measured Vs. Monitored
67
Figure 3-33. Typical AVR with Aux Input (Newage SX-440)
68
Figure 3-34. Typical AVR with External Voltage Adjust Potentiometer
68
Figure 3-35. AVR Droop
68
Figure 3-36. Direct Proportional Input to Water Temp or Oil Pressure Input
70
Figure 3-37. Voltage Controlled Oscillators-Effect of Offset
70
Figure 3-38. Voltage Controlled Oscillators-Effect of Gain
70
Figure 3-39. Battery VCO
71
Figure 3-40. Oil Pressure VCO
71
Figure 3-41. Water Temperature VCO
72
Chapter 4. Control Features and Functions
74
Engine Control
74
Engine Protection
74
Generator Voltage and Reactive Load Control
74
Generator Protection
74
Mains Sensing
75
Synchronizing
75
Load Control
75
Sequencing
75
Engine Cranking
76
IDLE/RATED Relay Output
77
Generator Voltage Control
77
Generator Load Control
78
Figure 4-1. Droop Mode
79
Figure 4-2. Isochronous Mode
80
Figure 4-3. Droop/Isochronous Load Sharing
81
Automatic Generator Loading Functions
82
Synchronizer Description
85
Figure 4-4. Synchronizer Time Line-Standard Sequence
89
Figure 4-5. Loss of Mains Detection Active
90
Figure 4-6. Generator off Line
90
Figure 4-7. Mains Parallel Unit with Voltage/Frequency Detect
91
Figure 4-8. Mains Parallel Unit(S) with Load Surge Detect
91
Generator Sequencing
92
Figure 4-9. Typical Automatic Sequencing Routine
93
Figure 4-10. Original System Configuration
95
Figure 4-11. after a Change of Priority-Units Not Operating
96
Figure 4-12. Original System Configuration
96
Figure 4-13. a New Master Takes Over-Single Unit Operating on the Isolated Bus
97
Figure 4-14. Changing the Priority of a Slave Unit
98
Figure 4-15. Changing the Priority of a Slave Unit
99
Figure 4-16. Changing the Priority of a Slave Unit
99
Figure 4-17. Changing the Priority of a Slave Unit
100
Figure 4-18. Changing the Priority of a Slave Unit
100
Inter-Control Communications (RS-485 Network)
101
Figure 4-19. Changing the Priority of a Slave Unit
101
Remote Control/Monitoring (RS-422)
102
Chapter 5. Calibration of Control Inputs and Outputs
103
Introduction
103
Calibration of Generator Pts and Cts
104
Calibration of the Bus PT
108
Speed Bias Output
109
Voltage Bias Output
110
Figure 5-1. Relationship between Voltage Bias and Generator Voltage
110
Chapter 6. General Startup Instructions
111
Before Starting the Generator Set
111
Sequence of Startup and Checking Parameters
112
Loading the Generator Set
112
Chapter 7. Troubleshooting
115
Control Hardware and I/O
115
Engine Control/Sensing Parameters
116
Synchronization
117
Breaker Close/Open Control
118
Real Load Control
119
Reactive Load Control
120
Sequencing
121
Mains/Bus Sensing
122
Communications
122
Chapter 8. Definition of Terms
123
Chapter 9. Service Options
130
Product Service Options
130
Returning Equipment for Repair
131
Replacement Parts
132
How to Contact Woodward
132
Engineering Services
133
Technical Assistance
134
Egcp-2 Setpoint Worksheet
135
Configuration Menu
135
Shutdown and Alarms Menu
136
Engine Control Menu
138
Synchronizer Menu
140
Real Load Control Menu
141
Reactive Load Control Menu
142
Process Control Menu
142
Transfer Switch Menu
143
Sequencing and Comms Menu
144
Calibration Menu
145
Appendix B. Download Instructions
146
Purpose
146
Requirements
146
Instructions
146
Egcp-2 Control Specifications
151
Woodward EGCP-2 Installation Manual (144 pages)
Engine Generator Control Package
Brand:
Woodward
| Category:
Controller
| Size: 1.17 MB
Table of Contents
Table of Contents
3
Regulatory Compliance
7
Electrostatic Discharge Awareness
8
Chapter 1. General Information
9
Introduction
9
Control Electrical Ratings
9
Chapter 2. Control Overview
10
Introduction
10
Figure 2-1. EGCP-2 Interface Connections
12
Operator Interface
13
Figure 2-2. Operator Interface
13
Hardware
17
Environmental Specification
18
Physical Specification
18
Accessories
18
Figure 2-3. Physical Outline with Dimensions of EGCP-2
19
Chapter 3. Electrical Installation and Specifications
20
Electrical Connections
20
Figure 3-1. Cageclamp Termination Blocks (Example Photos)
20
Figure 3-2. Recommended Single Point Grounding Scheme
21
Figure 3-3. Wiring Diagram for EGCP-2
23
Input Power
24
Figure 3-4. Dip Switch Location
24
Potential Transformer (PT) Inputs
25
Figure 3-5. Three Wire Delta PT Connection for EGCP-2
25
Figure 3-6. Four Wire WYE PT Connection
26
Figure 3-7. Utility / Local Bus PT Wiring for Delta and Wye Configuration
27
Figure 3-8A. Utility/Local Bus Single PT Wiring for Delta and WYE Configuration (Two Relay)
28
Figure 3-8B. Utility/Local Bus Single PT Wiring for Delta and WYE Configuration (Single Relay)
28
Figure 3-9A. PT Wiring Relationships for Generator, Bus, and Utility Inputs
29
Figure 3-9B. PT Wiring Relationships for Generator, Bus, and Utility Inputs
30
Figure 3-10A. PT Wiring Relationships for Generator, Bus, and Utility Inputs
31
Figure 3-10B. PT Wiring Relationships for Generator, Bus, and Utility Inputs
32
Current Transformer (CT) Inputs
33
Figure 3-11. Current Transfer Wiring Diagram for EGCP-2
33
MPU (Speed) Input
34
Figure 3-12. Wiring Diagram for MPU Input
34
Process Import/Export Input
35
Figure 3-13A. Wiring Diagram for Process Import/Export Input
35
Figure 3-13B. Connecting a KW Transducer Signal to Multiple EGCP-2S
35
Coolant Temperature and Oil Pressure Inputs
36
Figure 3-14A. Wiring Diagram for Pressure Inputs
36
Figure 3-14B. Wiring Diagram for Temperature Inputs
37
Speed Bias and Voltage Bias Outputs
38
Discrete Inputs
39
Figure 3-15. Wiring Diagram for Speed Bias and Voltage Bias Outputs
39
Relay Outputs
41
Figure 3-16. Wiring Diagram for Typical Discrete I/O Connections
41
Figure 3-17. Example of the Mains Breaker no Output Connected to Close the Mains (Utility) Breaker (ENERGIZE to CLOSE)
42
Figure 3-18. Example Using the NC Output to Control the Mains (Utility) Contactor (ENERGIZE to OPEN)
43
Figure 3-19. Example of the Generator Breaker Close no Output Connected to Close the Generator Breaker (ENERGIZE to CLOSE)
44
Figure 3-20. Example Using the no Contacts to Control the Generator's Contactor (ENERGIZE to CLOSE)
44
Figure 3-21. Example Using the no Contacts to Control the Mains Breaker Trip (Open) Coil (ENERGIZE to OPEN)
47
Figure 3-22. Example Using the NC Contacts to Control the Generator Breakers Open Coil (DE-ENERGIZE to OPEN)
48
Figure 3-23. Generator Breaker and Contactor Close and Open Logic
48
AC Inputs
50
DC Inputs and Outputs
50
Discrete Inputs
51
Discrete Outputs
51
Communication Ports: RS-485 & RS-422 (1 Each)
52
Hardware Connections
52
Figure 3-24. RS-422 Communications
53
Inter-Control Communications (RS-485 Network)
54
Figure 3-25. RS-485 and RS-422 Termination Diagrams
54
Alarms and Shutdowns
55
Figure 3-26. RS-485 Inter-Control Communications
55
Chapter 4. Operational Description : Single N O Parallel
58
Figure 4-1. Single no Parallel Application
60
Figure 4-2A. Single no Parallel Overview Flow Diagram
62
Figure 4-2B. Single no Parallel Overview Flow Diagram
63
Figure 4-3. Single no Parallel Prime Power
64
Chapter 5. Operational Description : Single Unit Parallel
65
Figure 5-1. Single Unit Parallel Application
67
Figure 5-2A. Single Unit Parallel Overview Flow Diagram
69
Figure 5-2B. Single Unit Parallel Overview Flow Diagram
70
Figure 5-2C. Single Unit Parallel Overview Flow Diagram
71
Chapter 6. Operating Mode: Multiple no Parallel
72
Figure 6-1. Multiple Unit no Parallel Application
74
Figure 6-2A. Master Multiple Unit no Parallel Overview Flow Diagram
76
Figure 6-2B. Master Multiple Unit no Parallel Overview Flow Diagram
77
Figure 6-3A. Slave Multiple Unit no Parallel Overview Flow Diagram
78
Figure 6-3B. Slave Multiple Unit no Parallel Overview Flow Diagram
79
Figure 6-3C. Slave Multiple Unit no Parallel Overview Flow Diagram
80
Chapter 7. Operating Mode: Multiple Parallel
81
Figure 7-1. Multiple Unit no Parallel Prime Power Application
83
Figure 7-2. Multiple Unit Parallel Standby Power Application
84
Figure 7-3. Multiple Unit Parallel Peak Shaving Application
85
Figure 7-4A. Master Multiple Parallel Process Control Flow Diagram
87
Figure 7-4B. Master Multiple Parallel Process Control Flow Diagram
88
Figure 7-4C. Master Multiple Parallel Process Control Flow Diagram
89
Figure 7-4D. Master Multiple Parallel Process Control Flow Diagram
90
Figure 7-4E. Master Multiple Parallel Process Control Flow Diagram
91
Figure 7-4F. Master Multiple Parallel Process Control Flow Diagram
92
Figure 7-4G. Master Multiple Parallel Process Control Flow Diagram
93
Figure 7-4H. Master Multiple Parallel Process Control Flow Diagram
94
Figure 7-5A. Slave Multiple Parallel Process Control Flow Diagram
95
Figure 7-5B. Slave Multiple Parallel Process Control Flow Diagram
96
Figure 7-5C. Slave Multiple Parallel Process Control Flow Diagram
97
Figure 7-5D. Slave Multiple Parallel Process Control Flow Diagram
98
Figure 7-5E. Slave Multiple Parallel Process Control Flow Diagram
99
Figure 7-5F. Slave Multiple Parallel Process Control Flow Diagram
100
Figure 7-5G. Slave Multiple Parallel Process Control Flow Diagram
101
Figure 7-5H. Slave Multiple Parallel Process Control Flow Diagram
102
Figure 7-5J. Slave Multiple Parallel Process Control Flow Diagram
103
Figure 7-5K. Slave Multiple Parallel Process Control Flow Diagram
104
Figure 7-5L. Slave Multiple Parallel Process Control Flow Diagram
105
Figure 7-5M. Slave Multiple Parallel Process Control Flow Diagram
106
Figure 7-6. Generator Start Sequence
107
Figure 7-7. Generator Stop Sequence
108
Figure 7-8. Generator Breaker Close Sequence
109
Figure 7-9. Generator Breaker Close Sequence
110
Figure 7-10. Generator Breaker Close Sequence
111
Figure 7-11. Main Breaker Open Sequence
112
Figure 7-12. Mains Breaker Close Sequence
113
Figure 7-13. Mains Breaker Reclose Sequence
114
Figure 7-14. Mains Breaker Reclose Sequence
115
Figure 7-15. Speed Raise/Lower Switch Based Logic
116
Figure 7-16. Voltage Raise/Lower Switch Based Logic
116
Chapter 8. Manual Operation
117
Egcp-2 Communications
120
Overview
120
Modbus RTU Communications for the EGCP-2 Panel
121
Chapter 10. Service Options
129
Product Service Options
129
Woodward Factory Servicing Options
130
Returning Equipment for Repair
131
Replacement Parts
131
Engineering Services
132
How to Contact Woodward
132
Technical Assistance
133
Appendix A. Connector Information
134
Appendix B. Speed Bias Connections
136
Egcp-2 Control Specifications
143
Advertisement
Woodward EGCP-2 Communications Manual (64 pages)
Engine Generator Control Package
Brand:
Woodward
| Category:
Portable Generator
| Size: 2.25 MB
Table of Contents
Table of Contents
3
Electrostatic Discharge Awareness
4
Chapter 1. General Information
5
Overview
5
Servlink Overview
6
Specifications
6
Egcp-2 Hmi Software Installation
7
Chapter 3. Hardware Connections
9
Chapter 4. Monitoring Servlink Software Operation
10
Operating EGCP-2 Monitoring Software
15
Chapter 5. Serv Link and Watch Window Configuration Software
22
Servlink Variable List
25
Chapter 6. Modbus Rtu Communications for the Egcp-2 Panel
39
Introduction
39
Modbus Configuration Items
39
Chapter 7. Download.exe Setpoint Utility
56
Introduction
56
Requirements
56
Instructions
56
Chapter 8. Service Options
59
Product Service Options
59
Woodward Factory Servicing Options
60
Returning Equipment for Repair
61
Replacement Parts
61
Engineering Services
62
How to Contact Woodward
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