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Woodward easYgen-3000XT Series Manual

Woodward easYgen-3000XT Series Manual

Genset control

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easYgen-3000XT Series

Manual

Genset Control

easYgen-3100XT-P1 / 3200XT-P1 / 3200XT-P1-LT

Release 2.12-1

Document ID: B37574, Revision N - Build 51585

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Page 1 Released easYgen-3000XT Series Manual Genset Control easYgen-3100XT-P1 / 3200XT-P1 / 3200XT-P1-LT Release 2.12-1 Document ID: B37574, Revision N - Build 51585...
Page 2 This is no translation but the original Technical Manual in English. Designed in Germany and Poland. Woodward GmbH Handwerkstr. 29 70565 Stuttgart Germany Telephone: +49 (0) 711 789 54‑510 Fax: +49 (0) 711 789 54‑101 E-mail: stgt-info@woodward.com Internet: https://www.woodward.com © 2021 Woodward GmbH. All rights reserved. easYgen-3000XT Series B37574...
Page 3 The control units can be used in applications such as: co-generation, stand-by, AMF, peak shaving, import/export or distributed generation. The easYgen-3000XT series is also applicable for islanded, island parallel, mains parallel and multiple unit mains parallel operations. Scope of delivery The following parts are included in the scope of delivery.
Page 4 • In this case, the easYgens-XT will function as an engine control with generator, • mains and engine protection. • The control unit can open and close the generator circuit breaker (GCB) and the • mains circuit breaker (MCB). easYgen-3000XT Series B37574...
Page 5 Released Brief Overview • The easYgens-XT are well prepared for system control and management, "talking" • with other easYgens-3100XT/3200XT and easYgens-3400XT/3500XT. For a listing of all available application modes please refer to ╚═▷ “6 Application Field”. B37574 easYgen-3000XT Series...
Page 6: Table Of Contents
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Page 25: General Information
◦ Code level of parameter "3203 Enabled" changed from 4 to 2. ◦ • J1939: PGN 57344 Cab Message 1 CM1 (with SPNs 3695, 3696) now with flexible • destination address. • The AnalogManager variable "05.88 Manual P setp. [kW]" is now presented in kW. • B37574 easYgen-3000XT Series...
Page 26 Fault of release 2.10, 2.10-1, 2.10-2. 2020-11 NEW Software Revision Release 2.10-2 or higher NEW features & functions None Corrections/Repairs • The Modbus Master function stops to read after 65000 times. This is fixed now. • easYgen-3000XT Series B37574...
Page 27 ToolKit Status "States easYgen / Sequencing" screen. • The easYgen provides a "Reboot" parameter in ToolKit and HMI. • ╚═▷ “4.3.5.1 Reboot Function” • Communication protocols 5014 and 5016 are updated with • B37574 easYgen-3000XT Series...
Page 28 • Providing of a configurable hysteresis for mains voltage and frequency monitoring • (VDE-AR-N 4110) in Rev. J changed again. • Introduction of a pole-slip monitoring function in parallel to mains operation. (VDE- • AR-N 4110)╚═▷ “4.5.1.6.3 Pole Slip Monitoring” easYgen-3000XT Series B37574...
Page 29 • Change in AnalogManager: The setpoints for W and var are reworked to kW and • kvar for better configuration handling. • Support of Diesel Particle Filter SPNs according to Deutz EMR4 ECU. Refer to • ╚═▷ “7.5.2 Supported J1939 ECUs & Remote Control Messages” for details. B37574 easYgen-3000XT Series...
Page 30 • If "Generator/Busbar" is configured for Homescreen, and measurement for 1 Phase • measurement is set to "Phase-neutral", then the Busbar voltage on Homescreen is always Zero (000 V), even when there is actually voltage measured. This is fixed now. easYgen-3000XT Series B37574...
Page 31 GCB no longer will be frequently closed and opened. • The active power setpoint can be changed now even in island mode and with load • control enabled. B37574 easYgen-3000XT Series...
Page 32 Data”). • Data Protocols updated: • ◦ 5003, start addr. 450066, ID 10149 ◦ ◦ 5003, start addr. 450120, ID 10298 ◦ ◦ 5010, start addr. 450111, ID8009 ◦ ◦ 5014, start addr. 450066, ID 4087 ◦ easYgen-3000XT Series B37574...
Page 33 »Align device no. with Node-ID« must be configured to "Yes". This will avoid same-number-mismatch. • Load sharing interface can be switched between CAN and Ethernet. Refer to • parameter »Load share interface« ╚═▷ 9924 for details. • Island mode: • B37574 easYgen-3000XT Series...
Page 34 • Issue #14 described in the ERRATA sheet is solved: • If ECU Device type (parameter 15102) is configured to "EGS Woodward", it can happen, that the easYgen is transmitting SPN 189 too slowly. This would cause an "Easygen 3000 communication timeout" in the E3 and twinkling of the SPN 189 indication at the E3.
Page 35 • ╚═▷ 15320 »Select external terminal«. Refer to ╚═▷ “4.7.4.2.1 Expansion Modules at CANopen Interface” configuration details and ╚═▷ “6.3.10 Setup Expansion Modules at CAN 2” application related special configuration details. • Password protection is enhanced: • B37574 easYgen-3000XT Series...
Page 36 • Description of Firing Speed and Speed detection and configuration enhanced for • better understanding. Refer to ╚═▷ “4.4.1.2 Engine Start/Stop”. • Data Telegram updated: • ◦ Protocol 3005 (Basic Visualization). ◦ • Layout optimizations and typo corrections. • 2016-02-01 NEW ToolKit Software Revision • Release 5.0 • easYgen-3000XT Series B37574...
Page 37 Excel files. Up to date documentation? Please check Woodward web site for latest revision of this Technical Manual (search for: “B37574”) and if there is an Errata Sheet with latest information (search for: “37619”). The Technical Manual saved inside the device WILL NOT be automatically updated with a device update but manual update can be done on customer’s side using the USB...
Page 38: Depiction Of Notes And Instructions
Marking Explanation ⚙ Start of a procedure list > Prerequisite for a procedure list ▷ Step-by-step instructions ▶ Results of action steps ╚═▷ References to sections of these instructions and to other relevant documents easYgen-3000XT Series B37574...
Page 39: Copyright And Disclaimer
All information and instructions in this manual have been provided under due consideration of applicable guidelines and regulations, the current and known state of the art, as well as our many years of in-house experience. Woodward assumes no liability for any damages due to: •...
Page 40: Service And Warranty
In addition, our employees are constantly interested in new information and experiences that arise from usage and could be valuable for the improvement of our products. Warranty terms Please enquire about the terms of warranty from your nearest Woodward representative. For our contact search webpage please go to: ══▷ http://www.woodward.com/ Directory.aspx...
Page 41: General Safety Notes
◦ cover or shield neighboring live parts. ◦ • Never bypass a fuse or render it inoperable. Always use the correct amperage when • changing a fuse. • Keep moisture away from live parts. Moisture can cause short circuits. • B37574 easYgen-3000XT Series...
Page 42 Device implemented self test this Woodward device has a self test check implemented. Permanently under control are: • processor function and • • supply voltage.
Page 43 • the system. Unit includes a lithium backup battery for Real Time Clock. Field replacement of the battery is not allowed. In case of battery replacement please contact your Woodward service partner. Electrostatic discharge ⚙ ᐳ • Protective equipment: ESD wrist band...
Page 44 For additional information on how to prevent damage to electronic components caused by improper handling, read and observe the precautions in: • "Woodward manual 82715, Guide for Handling and Protection of Electronic Controls, • Printed Circuit Boards, and Modules".
Page 45: Protective Equipment And Tools
(e.g. easYgen-x100.../...- x400...) or on the front plate of a switch gear panel (e.g. easYgen-x200.../...-x500...).The terminals are always located on the inner side of the housing. B37574 easYgen-3000XT Series...
Page 46 • • Any use which exceeds or differs from the intended use shall be considered improper use! • • No claims of any kind for damage will be entertained if such claims result from improper use. • easYgen-3000XT Series B37574...
Page 47: System Overview
During heating period the power consumption is increased by 7.5 W. WARNING! HMI buttons can be locked! HMI buttons can be locked/unlocked with the LogicsManager LM ╚═▷ 12978 »Lock keypad«. Check/use with Logical Command Variable 86.30 (11924). B37574 easYgen-3000XT Series...
Page 48: Hmi: Display And Buttons
Button Group "MODE" Softbutton Group "Operation" Softbutton Group "Navigation" "Home" (screen) button Group "ALARMS" (sign and button) LCD Display (Screen) A "Display" Change the method of voltage and power calculations displayed, select Custom Screen, navigate through menu screens. easYgen-3000XT Series B37574...
Page 49 Released 2 System Overview 2.1.1 HMI: Display and Buttons Perform manual operation of the genset and the breakers (Single Line "Operation" Diagram). Sometimes used for settings' input. Navigation between system and configuration screens, and alarm list. "Navigation" B37574 easYgen-3000XT Series...
Page 50 Warning sign (illuminated by warning) and alarm acknowledge button 14..19 Button Group "Modes" 14, 15, 18, MODE selectors, illuminated STOP MODE MANUAL MODE STOP prime mover in MANUAL MODE START prime mover in MANUAL MODE AUTO MODE TEST MODE Display easYgen-3000XT Series B37574...
Page 51 • ◦ The busbar is indicated with voltage, power, and frequency ◦ ◦ Additionally the generated active- and reactive power of all easYgens (in the ◦ same segment) are displayed • “Home Screen” Generator/Engine values are: • B37574 easYgen-3000XT Series...
Page 52 Permanently illuminated: Alarm message is acknowledged (horn reset) but still pending. The HOME Button NEW and updated features • The “Home Screen” button provides an one-click-jump back to the overview starting • point easYgen-3000XT Series B37574...
Page 53: Leds Indicate State Of Metal Housing Variant
• (full access via ToolKit only; name/description cannot be changed via HMI) • 2.1.2 LEDs Indicate State of Metal Housing Variant The metal housing variant is coming with two DUO LEDs red/green/orange (orange = red/ green simultaneously): Fig. 6: easYgen-3000XT-P1 with metal housing B37574 easYgen-3000XT Series...
Page 54: Application Modes Overview
• Measuring of engine/generator parameters (i.e. voltage, frequency, current, • power, coolant temperature, oil pressure, etc.) • Engine start/stop • • Engine/generator protection (relay output to open GCB) • • Mains failure detection with mains decoupling (GCB) • GCB control (open/close) easYgen-3000XT Series B37574...
Page 55: Operation Modes
The plastic housing (HMI) version of the easYgen-3000XT enables to select an operation mode by pressing the according button at the front panel - if current settings allow this function. For more information about the operation modes please see ╚═▷ “5.2 Change Operating Modes”. B37574 easYgen-3000XT Series...
Page 56: Installation
Mount Unit (Sheet Metal Housing) Dimensions Fig. 7: Sheet metal housing - dimensions Mounting into a cabinet ⚙ ᐳ • Special tool: Torque screwdriver Proceed as follows to install the unit using the screw kit: easYgen-3000XT Series B37574...
Page 57 Mount the unit to the back panel and insert the screws. 2. ▷ Tighten the screws to a torque according to the quality class of the used screws. 3. ▷ Tighten the screws with a crosswise pattern to ensure even pressure distribution. B37574 easYgen-3000XT Series...
Page 58: Mount Unit (Plastic Housing)
• In order to enhance the protection to IP 66, fasten the unit with the screw kit instead • of the clamp fastener hardware. Dimensions Fig. 9: Plastic housing - dimensions easYgen-3000XT Series B37574...
Page 59: Clamp Fastener Installation
Cut out the panel according to the dimensions in ╚═▷ Fig. Don't drill the holes if you want to use the clamp fasteners. If the holes are drilled into the panel, the clamp fasteners cannot be used anymore! B37574 easYgen-3000XT Series...
Page 60 Re-install the clamp inserts by tilting the insert to a 45° angle. (╚═▷ Fig. 13/1) Insert the nose of the insert into the slot on the side of the housing. (╚═▷ Fig. 13/2) Raise the clamp insert so that it is parallel to the control panel. easYgen-3000XT Series B37574...
Page 61: Screw Kit Installation
(╚═▷ Fig. 15) and secure them with the side screws. 3.2.2 Screw Kit Installation The housing is equipped with 12 nut inserts (╚═▷ Fig. 16), which must all be tightened properly to achieve the required degree of protection. B37574 easYgen-3000XT Series...
Page 62 Tighten the screws with a crosswise pattern to ensure even pressure distribution. If the thickness of the panel sheet exceeds 2.5 mm, be sure to use screws with a length exceeding the panel sheet thickness by 4 mm. easYgen-3000XT Series B37574...
Page 63: Setup Connections
Field wiring shall be made with use of cables which have temperature rating not less than 90 °C. mm² mm² mm² mm² mm² mm² 0.05 0.38 600MCM 0.08 750MCM 0.14 0.75 300MCM 1000MCM 0.25 350MCM 0.34 500MCM Table 1: Conversion chart - wire sizes B37574 easYgen-3000XT Series...
Page 64: Terminal Allocation
The temperature range is the only difference between standard plastic housing and LT variant. The manual is describing plastic housing and metal housing variant. Describing the plastic housing means both standard and LT variant - if not, it is mentioned! easYgen-3000XT Series B37574...
Page 65 Released 3 Installation 3.3.1 Terminal Allocation Fig. 17: Terminals easYgen-3000XT-P1(-LT) plastic housing B37574 easYgen-3000XT Series...
Page 66: Wiring Diagram
• Use the protective earth (PE) connector located at the bottom center of the sheet • metal housing instead. Common terminal for AC measurement voltages Mains, generator, and busbar voltage measuring terminals no longer differentiate with separate terminals for each voltage range. easYgen-3000XT Series B37574...
Page 67 ◦ In case of using single wires please do at least one twist per meter to keep ◦ wires together closely. Plastic housing variants: • Rout all cables connected to terminal blocks away from back cover. • B37574 easYgen-3000XT Series...
Page 68 CAN #2 CAN #1 4: CAN_H 4: CAN_H 5: RS485_Y 6: RS485_Z Subject to technical modifications configurable via Logics Manager easYgen-3000XT Series Wiring Diagram PCB 1 Fig. 19: Wiring diagram easYgen-3100XT-P1/3200XT-P1(-LT) Configurable by LogicsManager = 12/24 V SELV easYgen-3000XT Series B37574...
Page 69 Released 3 Installation 3.3.2 Wiring Diagram Fig. 20: Label/print easYgen-3100XT-P1/3200XT-P1(-LT) wiring B37574 easYgen-3000XT Series...
Page 70: Power Supply
PE exceeds 100 V Woodward strictly recommends to use a power supply that is fulfilling the SELV restrictions (SELV = separated or safety extra-low voltage, see IEC)
Page 71 Fig. 21: Power supply – wiring Terminal Description PE (protective earth) - plastic housing ONLY 12/24Vdc (8 to 40.0 Vdc) 0 Vdc Table 2: Power supply - terminal assignment Characteristics Fig. 22: Power supply – crank waveform B37574 easYgen-3000XT Series...
Page 72: Charging Alternator
3.3.5 Voltage Measuring General notes Woodward recommends protecting the voltage measuring inputs with slow-acting fuses rated for 2 to 6 A. The wide range terminals allow several voltages. The current voltage (range) of the application must be "told" to the genset controller device. Settings are described in chapter ╚═▷...
Page 73: Generator Voltage
3-phase, 3-wire installation may have the L2 phase grounded on the secondary side. In this application the device will be configured for 3- phase, 4-wire OD for correct power measurement. B37574 easYgen-3000XT Series...
Page 74 Measuring inputs - 3Ph 4W OD Terminal assignment Measuring input / Phase Terminal Generator voltage - L1 Generator voltage - L2 Generator voltage - L3 Generator voltage - N Table 5: Generator terminal assignment 3Ph 4W OD easYgen-3000XT Series B37574...
Page 75: Parameter Setting '3Ph 4W' (3-Phase, 4-Wire)
Fig. 28: Measuring inputs - 3Ph 4W Terminal assignment Measuring input / Phase Terminal Generator voltage - L1 Generator voltage - L2 Generator voltage - L3 Generator voltage - N Table 6: Generator terminal assignment 3Ph 4W B37574 easYgen-3000XT Series...
Page 76: Parameter Setting '3Ph 3W' (3-Phase, 3-Wire)
Generator windings - 3Ph 3W Measuring inputs Fig. 30: Measuring inputs - 3Ph 3W Terminal assignment Measuring input / Phase Terminal Generator voltage - L1 Generator voltage - L2 Generator voltage - L3 Table 7: Generator terminal assignment 3Ph 3W easYgen-3000XT Series B37574...
Page 77: Parameter Setting '1Ph 3W' (1-Phase, 3-Wire)
A5 A6 Fig. 31: Generator windings - 1Ph 3W Measuring inputs Fig. 32: Measuring inputs - 1Ph 3W Terminal assignment Measuring input / Phase Terminal Generator voltage - L1 Generator voltage - L3 Generator voltage - N B37574 easYgen-3000XT Series...
Page 78: Parameter Setting '1Ph 2W' (1-Phase, 2-Wire)
• Please note to configure and wire the easYgen consistently. • 3.3.5.1.5.1 '1Ph 2W' Phase-Neutral Measuring Generator windings A1 A2 A5 A6 Fig. 33: Generator windings - 1Ph 2W (phase-neutral) Measuring inputs Fig. 34: Measuring inputs - 1Ph 2W (phase-neutral) easYgen-3000XT Series B37574...
Page 79 3ph 3W or 4ph 4W without being the neutral in the middle of the triangle. The phase angle for synchronization would be incorrect. 3.3.5.1.5.2 '1Ph 2W' Phase-Phase Measuring Generator windings A1 A2 A5 A6 Fig. 35: Generator windings - 1Ph 2W (phase-phase) B37574 easYgen-3000XT Series...
Page 80: Mains Voltage
The voltage measuring inputs for 120 V and 480 V are using the same terminals 22 to 28. The current voltage range must be selected by the corresponding settings via HMI and/or ToolKit. Parameter ╚═▷ 1803 ("Mains PT secondary rated volt.") must be configured with the correct value to ensure proper measurement. easYgen-3000XT Series B37574...
Page 81 Fig. 37: Voltage measuring - mains - wiring Measuring input / Phase Terminal Mains voltage - L1 Mains voltage - L2 Mains voltage - L3 Mains voltage - N Table 11: Voltage measuring - mains - terminal assignment B37574 easYgen-3000XT Series...
Page 82: Parameter Setting '3Ph 4W' (3-Phase, 4-Wire)
Fig. 39: Measuring inputs - 3Ph 4W Terminal assignment Measuring input / Phase Terminal Mains voltage - L1 Mains voltage - L2 Mains voltage - L3 Mains voltage - N Table 12: Mains terminal assignment 3Ph 4W easYgen-3000XT Series B37574...
Page 83 Mains windings - 3Ph 3W Measuring inputs 3Ph3W Fig. 41: Measuring inputs - 3Ph 3W Terminal assignment Measuring input / Phase Terminal Mains voltage - L1 Mains voltage - L2 Mains voltage - L3 Table 13: Mains terminal assignment 3Ph 3W B37574 easYgen-3000XT Series...
Page 84: Parameter Setting '1Ph 3W' (1-Phase, 3-Wire)
A5 A6 Fig. 42: Mains windings - 1Ph 3W Measuring inputs 1Ph3W Fig. 43: Measuring inputs - 1Ph 3W Terminal assignment Measuring input / Phase Terminal Mains voltage - L1 Mains voltage - L3 Mains voltage - N easYgen-3000XT Series B37574...
Page 85 • Please note to configure and wire the easYgen consistently. • 3.3.5.2.4.1 '1Ph 2W' Phase-Neutral Measuring Mains windings A1 A2 A5 A6 Fig. 44: Mains windings - 1Ph 2W (phase neutral) Measuring inputs 1Ph2W (Ph-N) Fig. 45: Measuring inputs - 1Ph 2W (phase neutral) B37574 easYgen-3000XT Series...
Page 86 Table 15: Mains terminal assignment 1Ph 2W phase neutral 3.3.5.2.4.2 '1Ph 2W' Phase-Phase Measuring Mains windings A1 A2 A5 A6 Fig. 46: Mains windings - 1Ph 2W (phase-phase) Measuring inputs 1Ph2W (Ph-Ph) Fig. 47: Measuring inputs - 1Ph 2W (phase-phase) easYgen-3000XT Series B37574...
Page 87 ("Busb1 PT secondary rated volt.") must be configured to the correct value to ensure proper measurement. Schematic and terminals Fig. 48: Voltage measuring - busbar - wiring Measuring input / Phase Terminal Busbar voltage (system 1) - L1 2.5 mm² B37574 easYgen-3000XT Series...
Page 88: Parameter Setting '1Ph 2W' (1-Phase, 2-Wire)
• Please note to configure and wire the easYgen consistently. • 3.3.5.3.1.1 '1Ph 2W' Phase-Neutral Measuring Busbar windings A1 A2 A5 A6 Fig. 49: Busbar windings - 1Ph 2W (phase-neutral) Measuring inputs Fig. 50: Measuring inputs - 1Ph 2W (phase neutral) easYgen-3000XT Series B37574...
Page 89 3.3.5.3.1.2 '1Ph 2W' Phase-Phase Measuring Busbar windings A1 A2 A5 A6 Fig. 51: Busbar windings - 1Ph 2W (phase-phase) Measuring inputs Fig. 52: Measuring inputs - 1Ph 2W (phase-phase) Terminal assignment Measuring input / Phase Terminal Busbar voltage - phase L1 B37574 easYgen-3000XT Series...
Page 90: Current Measuring
HMI and/or ToolKit. Generally, one line of the current transformers secondary must be grounded close to the CAUTION! External current transformers shall provide insulation adequate to system voltage to which unit is connected. easYgen-3000XT Series B37574...
Page 91 Generator current - L2 - transformer terminal s1 (k) Generator current - L2 - transformer terminal s2 (l) Generator current - L1 - transformer terminal s1 (k) Generator current - L1 - transformer terminal s2 (l) Table 20: Current measuring - generator - terminal assignment B37574 easYgen-3000XT Series...
Page 92: Parameter Setting 'L1 L2 L3
Voltage”). 3.3.6.1.2 Parameter Setting 'Phase L1' 'Phase L2' 'Phase L3' Schematic and terminals Gen L1 Gen L2 Gen L3 Phase L1 Phase L2 Phase L3 Fig. 55: Current measuring - generator, 'Phase L1' 'Phase L2' 'Phase L3' easYgen-3000XT Series B37574...
Page 93: Mains Current
The current measuring inputs for 1 A and 5 A are using the same terminals 1 to 2. The current range must be selected by the corresponding settings via HMI and/or ToolKit. Generally, one line of the current transformers secondary must be grounded close to the B37574 easYgen-3000XT Series...
Page 94: Parameter Setting 'Phase L1' 'Phase L2' 'Phase L3
Current measuring - mains, 'Phase L1' 'Phase L2' 'Phase L3' Wiring terminals Phase L1 Terminal Phase s2 (l) - L1 s1 (k) - L1 Phase L2 Terminal Phase s2 (l) - L2 s1 (k) - L2 Phase L3 easYgen-3000XT Series B37574...
Page 95: Ground Current
(default) or the ground current. Generally, one line of the current transformers secondary must be grounded close to the Schematic and terminals Fig. 58: Current measuring - ground current - wiring Terminal Description Ground current - transformer terminal s1 (k) B37574 easYgen-3000XT Series...
Page 96: Power Measuring
Mains or ground current Generator current Parameter Description Sign displayed Generator real power Genset generating kW + Positive Generator real power Genset in reverse power - Negative Generator power factor Inductive / lagging + Positive (cos φ) easYgen-3000XT Series B37574...
Page 97: Power Factor Definition
(inductive) c0.93 (capacitive) display on the unit lg.91 (lagging) ld.93 (leading) Reactive power 70 kvar (positive) -60 kvar (negative) display on the unit Output of the + (positive) - (negative) interface Current relation to Lagging Leading voltage B37574 easYgen-3000XT Series...
Page 98: Magnetic Pickup Unit (Mpu)
The shield must not be connected at the MPU side of the cable. The number of teeth on the flywheel reference gear and the flywheel speed must be configured so that the magnetic pickup input frequency does not exceed 14 kHz. easYgen-3000XT Series B37574...
Page 99 Released 3 Installation 3.3.9 Magnetic Pickup Unit (MPU) Overview Fig. 61: MPU - overview Schematic and terminals Fig. 62: MPU - input Terminal Description MPU input - inductive/switching MPU input - GND B37574 easYgen-3000XT Series...
Page 100: Discrete Inputs
According to EN 60204, this input is not approved to be used as the emergency stop function. • The emergency stop function must be implemented external to the control and • cannot rely on the control to function properly. easYgen-3000XT Series B37574...
Page 101 Fixed to "Reply: GCB open" Discrete Input [DI 09] LogicsManager Discrete Input [DI 10] LogicsManager Discrete Input [DI 11] LogicsManager Discrete Input [DI 12] LogicsManager Preconfigured to "Alarm input or Neutral Contactor" Table 23: DI 01-12 configurable via LogicsManager B37574 easYgen-3000XT Series...
Page 102: Relay Outputs (Logicsmanager)
• We recommend to signal this fault independently from the unit if the availability of • the plant is important. For information on interference suppressing circuits when connecting 24 V relays, please refer to ╚═▷ “3.3.11.1 Connecting 24 V Relays”. easYgen-3000XT Series B37574...
Page 103 Preconfigured to "Command: open MCB" Relay output [R 10] Preconfigured to "Auxiliary services" Relay output [R 11] Preconfigured to "Alarm class A and B" Relay output [R 12] Preconfigured to "Alarm class C, D, E or F" B37574 easYgen-3000XT Series...
Page 104: 3.3.11.1 Connecting 24 V Relays
If 24 V (coupling) relays are used in an application, it is required to connect a protection circuit to avoid interferences. ╚═▷ Fig. 69 shows the exemplary connection of a diode as an interference suppressing circuit. easYgen-3000XT Series B37574...
Page 105: Analog Inputs (0 To 2000 Ohm | 0/4 To 20 Ma | 0 To 1 V)
The following curves may be used for the analog inputs: • Table A • • Table B • • Linear • • Pt100 • • Pt1000 • • AB 94099 • • VDO 120° C • • VDO 150° C • B37574 easYgen-3000XT Series...
Page 106 Analog input [AI 01 -] ground, connect with Engine ground terminal 15 AI02 Analog input [AI 02 +] Analog input [AI 02 -] AI03 Analog input [AI 03 +] Analog input [AI 03 -] ground, connect with Engine ground terminal 15 easYgen-3000XT Series B37574...
Page 107: 3.3.13 Analog Outputs
Connecting external power sources to the analog outputs may damage the device. In case that higher permanent insulation voltages are required than described in the technical data, please install isolation equipment (isolation amplifier) for proper and safe operation. Type Terminal Description Analog output [AO Current B37574 easYgen-3000XT Series...
Page 108: Setup Interfaces
3.4.1 Interfaces overview Unshielded cable length For CAN and RS-485: • Cabling without shield coverage should be less than 25 mm. • The following drawing shows all available interfaces of the device: easYgen-3000XT Series B37574...
Page 109 Released 3 Installation 3.4.1 Interfaces overview Fig. 72: easYgen-3100XT-P1 Series B37574 easYgen-3000XT Series...
Page 110: Interface
ETHERNET interface connector (RJ45) LAN #1 USB interface connector (2.0, slave) SERVICE port 3.4.2 RS-485 Interface General notes The easYgen must be configured for half- or full-duplex configuration. Pin assignment For location of interface 7 see ╚═▷ “3.4.1 Interfaces overview”. easYgen-3000XT Series B37574...
Page 111 Table 24: Pin assignment RS-485 half-duplex External (Master) (TxD-RxD-) 120 Ω 120 Ω (TxD+RxD+) Woodward Controller Woodward Controller (Slave 1) (Slave n) Fig. 75: RS-485 - connection for half-duplex operation (120 Ohms termination resistor at both ends) B37574 easYgen-3000XT Series...
Page 112: Usb (2.0 Slave) Interface - Service Port
Device 3.3 nF 30 MOhm 2000 V Fig. 77: Shielding preparation (internal RC element) 3.4.3 USB (2.0 slave) interface - Service Port General notes Avoid electrostatic discharge! Avoid electrostatic discharge during USB cable connection to the unit. easYgen-3000XT Series B37574...
Page 113: Can Bus Interfaces
It can be used for further service tasks from manufacturer's side. Connecting it to a PC/laptop will display the USB interface available and all files prepared from Woodward manufacturing side. Read/write attributes of this service port are restricted to read only.
Page 114 Maximum CAN bus length The maximum length of the communication bus wiring is dependent on the configured baud rate. Observe the maximum bus length. (Source: CANopen; Holger Zeltwanger (Hrsg.); 2001 VDE VERLAG GMBH, Berlin und Offenbach; ISBN 3-8007-2448-0). easYgen-3000XT Series B37574...
Page 115 • Not all devices on the bus are using identical baud rates • • Termination resistor(s) are missing • • The configured baud rate is too high for wiring length • • The CAN bus cable is routed in close proximity with power cables • B37574 easYgen-3000XT Series...
Page 116: Ethernet Interface (Incl. Remote Panel)
Released 3 Installation 3.4.5 Ethernet Interface (incl. Remote Panel) Woodward recommends the use of shielded, twisted-pair cables for the CAN bus (see examples). • Lappkabel Unitronic Bus CAN UL/CSA • • UNITRONIC-Bus LD 2×2×0.22 • 3.4.5 Ethernet Interface (incl. Remote Panel) This Ethernet interface 10/100Base-T/-XT complies with the IEEE 802.3 specifications.
Page 117 Application Example: Simple constellation with easYgen-3000XT and RP-3000XT Remote Control The Woodward Remote Control is able to visualize the display of the remotely controlled device and to make front button and soft key related functionality available. Access via Remote Panel PR-3000XT is described in chapter ╚═▷...
Page 118 Released 3 Installation 3.4.5 Ethernet Interface (incl. Remote Panel) Fig. 83: Application Example: Multiple Generator operation with a ToolKit access point easYgen-3000XT Series B37574...
Page 119 Fig. 84: Application Example: Multiple Generator operation with a ToolKit access point Troubleshooting Check first the power supply of the switches. Check the IP addressed of the single devices. See chapter ╚═▷ “4.7.5 Ethernet Interfaces” for details. B37574 easYgen-3000XT Series...
Page 120: Configuration
Handle value and unit separately Some parameters have a separate definition of value and unit. This flexibility comes with the need to take additional care for factorized units like "k..., M..., m..., µ..." multiplying or dividing the number of the value. easYgen-3000XT Series B37574...
Page 121 • »Sequencing« in HMI/display comes with a separate softbutton - ToolKit offers the • information together with others as part of the »States easYgen/ Sequencing« screen. The following drawing shows the first three (major) levels of the easYgen-3100XT- P1/3200XT-P1 menu structure: B37574 easYgen-3000XT Series...
Page 122 Released 4 Configuration Fig. 85: Menu structure (menu tree) easYgen-3100XT-P1/3200XT-P1 easYgen-3000XT Series B37574...
Page 123: Front Panel Access
After power-up the control unit displays the main screen / HOME screen (╚═▷ Fig. 86). The main screen can be divided into the following basic sections: Fig. 86: Main screen (shown with default settings for screen configuration) Values Status Messages Alarm Messages Single Line Diagram Current Softkey Functions B37574 easYgen-3000XT Series...
Page 124 Group Softkey Caption Description Display Display Mode Next step to display all measured (delta/wye) voltages one after the other. Customer configurable Change to "customer specific screen 1 (or 2)" screen 1 (and 2) Notes easYgen-3000XT Series B37574...
Page 125 Main Screen Voltage Display Mode The index of the symbol indicates whether delta or wye voltage is displayed and which phases are displayed. Single Line Rotating Field CW Generator, mains or busbar rotating field moves clockwise. Diagram B37574 easYgen-3000XT Series...
Page 126 Variable is FALSE (LogicsManager). The bit is disabled (CAN Interface). Relay deactivated (Discrete Outputs) The following chapters list notes related to the specific menu screens. For information on standard softkeys and status symbols refer to ╚═▷ “4.1.1 Basic Navigation”. easYgen-3000XT Series B37574...
Page 127: The Home Screen
◦ Brightness reduction on navigation bridge (vessels) ◦ ◦ Saving energy ◦ Find menu: [Parameter / Configure HMI / Configure display] • Lock keypad function is determined by LogicsManager • ╚═▷ 12978. Result is available as logical command variable 86.30. B37574 easYgen-3000XT Series...
Page 128 • Generator/Engines • ◦ Generator values as described above ◦ and additionally for Engine ◦ ◦ Engine speed (rpm) ◦ ◦ Oil pressure (bar or psi) ◦ ◦ Water temperature (°C or °F) ◦ ◦ Operating hours (h) easYgen-3000XT Series B37574...
Page 129 AnalogManagers for "Engine" values at Home Screen "Engines" parameter selection The values to be displayed at "Engines" can be selected via AnalogManager definition of the parameters at [Parameter / Configure HMI / Screen configuration]. Menu texts and symbols cannot be changed! B37574 easYgen-3000XT Series...
Page 130: Customer Screens
Find menu: [Parameter / Configure HMI / Configure customer screen 1 / AM Customer screen 1.1 - AM Customer screen 1.9], and [Parameter / Configure HMI / Configure customer screen 2 / AM Customer screen 2.1 - AM Customer screen 2.9], easYgen-3000XT Series B37574...
Page 131 If the text is too long it will not be visible and an "empty/clear button" will appear! We propose to check input immediately by refreshing home screen. Configure each row of the customer screens with: Description 7691, 7696, 7701, ..., 7776 Text displayed B37574 easYgen-3000XT Series...
Page 132 Navigation screen (example) Navigation screens offer access to sub-menu screens via the displayed softkey. Navigation screens samples: Parameter, Configuration, Measured values, Synchroscope, Engine (J1939), Diagnostic ... ⚙ Press the desired softkey to change to a sub-menu screen. 1. ▷ easYgen-3000XT Series B37574...
Page 133: Navigation Screens
⚙ Use the following softkeys in a value setting screen to select, change and confirm a 1. ▷ setting. Softkey Description Select previous value/entry. Select next value/entry. Increase selected value. Decrease selected value. Confirm and store changed value. B37574 easYgen-3000XT Series...
Page 134: Status/Monitoring Screens
For additional information on setting/resetting counters refer to ╚═▷ “4.10 Configure Counters”. Engine — Engine (J1939) — J1939 Analog values — J1939 Status — Actual date and time — Version — Load diagnostic — Table 27: Status/Monitoring screens samples easYgen-3000XT Series B37574...
Page 135: Specialized Menu Screens
Measure 3Ph4W 3Ph3W 1Ph2W 1Ph3W 0× (6×) Delta L1-L2 — 1× Delta L2-L3 — — 2× Delta L3-L1 — 3× L1-N — 4× L2-N — — — 5× L3-N — — Table 28: Measuring point - generator B37574 easYgen-3000XT Series...
Page 136: Alarm List
All alarm messages, which have not been acknowledged and cleared, are displayed. Each alarm is displayed with the alarm message and the date and time of the alarm occurred in the format yy-mon-dd hh:mm:ss.ss. Self-acknowledging alarm messages get a new timestamp when initializing the unit (switching on). easYgen-3000XT Series B37574...
Page 137: Event History
Event History Fig. 96: Event History screen This screen displays system events. A date/time stamp is added to each entry! Due to the time stamp, some long J1939 texts can only be displayed incompletely for space reasons. B37574 easYgen-3000XT Series...
Page 138: Sequencing
The remaining time is displayed on the upper right side on the grey bar "Sequencing ...", see table below: "..." text on the grey bar Description Parameter / ID Sequencing Add-on delay ... s Shows the remaining time until the own Add-on delay: generator is add-on easYgen-3000XT Series B37574...
Page 139: States Easygen
GCB is shown on this screen. Symbol/Softkey Description AUTOMATIC Mode is active MANUAL Mode is active STOP Mode is active TEST Mode is active GCB of respective genset in sequence is closed. GCB of respective genset in sequence is open. B37574 easYgen-3000XT Series...
Page 140: Genset Parameter Alignment
This screen displays easYgen devices configured differently than the LDSS setting of your current device. Symbol Description The easYgen uses the same configuration as your current device. The easYgen uses a different configuration than your current device. 4.1.5.7 Diagnostic devices Fig. 100: Diagnostic screen example (HMI) easYgen-3000XT Series B37574...
Page 141: Setpoints Generator
The source (e.g. “05.54 Internal P setp1 [kW]” like shown in the screenshots) can only be displayed if the corresponding AnalogManager (e.g. “AM ActPower SP1 [kW]”) is set to type “Pass through”. Otherweise the name of the selected AnalogManager e.g. “AM ActPower SP1 [kW]” will be displayed. B37574 easYgen-3000XT Series...
Page 142 “5025 Discr. ramp TEST voltage +/-” Operation Configurable rate Configurable rate Configurable rate Configurable rate mode ”MANUAL “ “5025 Discr. ramp “5025 Discr. ramp “5025 Discr. ramp “5025 Discr. ramp voltage +/-” voltage +/-” voltage +/-” voltage +/-” easYgen-3000XT Series B37574...
Page 143: Setpoints Pid1 - Pid3
Setpoints PID1 - PID3 Fig. 103: PID1(-3) screen 1 Menu path for configuration: [Parameter / Configuration / Configure application / Configure controller / Miscellaneous / PID1 control - PID3 control] The PID screens enable direct access to PID control settings. B37574 easYgen-3000XT Series...
Page 144 Released 4 Configuration 4.1.5.9 Setpoints PID1 - PID3 Fig. 104: PID1(-3) screen 2 Fig. 105: PID1(-3) visualization screen Menu path for visualization: [Next Page / Setpoints / Setpoints PID 1-3] easYgen-3000XT Series B37574...
Page 145: 4.1.5.10 Synchroscope Busbar/Mains
'green'. The length of the green part changes according to the parameters. The frequency and voltage differences are indicated on top of the bargraphs. Symbol/Softkey Description Operating mode MANUAL: Raise voltage/frequency. Operating mode MANUAL: Lower voltage/frequency. B37574 easYgen-3000XT Series...
Page 146: 4.1.5.11 Logicsmanager Conditions
This screen displays the conditions of all LogicsManager command variables, which are located in their respective groups. Fig. 108: Command variables screen (example) Symbol Description Select the highlighted command variable group and display the state of the command variables in this group. Variable is TRUE. Variable is FALSE. easYgen-3000XT Series B37574...
Page 147: 4.1.5.12 Logicsmanager
Time delay configuration field: Change the cursor position. Help screen Help screen (displays logical operators) can be found at [Parameter / Configuration / Configure L / A Manager / General settings LM and AM / Help for ASA/IEC symbols] B37574 easYgen-3000XT Series...
Page 148: 4.1.5.13 Mains Decoupling Threshold
Released 4 Configuration 4.1.5.13 Mains decoupling threshold 4.1.5.13 Mains decoupling threshold Fig. 110: Mains decoupling screen 1 Fig. 111: Mains decoupling screen 2 easYgen-3000XT Series B37574...
Page 149: Test Mains Decoupling (Vde Ar-N 4105)
Notes: TEST mode is deactivated not only by this button but too: • ... if firing speed is reached • • ... automatically after 60 minutes • Indicates parameters that are part of the mains decoupling configuration. B37574 easYgen-3000XT Series...
Page 150 The Mains decoupling test opens the selected breaker for mains decoupling (parameter ╚═▷ 3110). Fig. 115: Security query mains decoupling test CAUTION! This function is independent from the breaker status and is active for 1 sec. No thresholds are considered. easYgen-3000XT Series B37574...
Page 151: 4.1.5.15 Can 1 State
Current code level of CAN1 connection TPDO has incorrect mapping parameters State is TRUE/false RPDO has incorrect mapping parameters TPDO has more than 8 bytes RPDO has more than 8 bytes TIME source double Table 31: Bit assignments B37574 easYgen-3000XT Series...
Page 152: 4.1.5.16 Can Interface 2 State
RPDO {x} is not received at the moment Missing Receive-PDO number: latched RPDO {x} has not been received Notes CAN 1 monitoring 3150 must be enabled 4.1.5.16 CAN interface 2 state Fig. 118: CAN interface 2 statescreen (example) easYgen-3000XT Series B37574...
Page 153 Table 34: (Bit) assignments The next screen indicates missing Node-IDs of the external terminals. Fig. 119: CAN interface 2 state screen (example) Symbol State Description State is TRUE Node-ID is missing B37574 easYgen-3000XT Series...
Page 154 This example indicates the name of the current selected file for ECU inclusive version. If this line shows “---”, the file is missing. Notes For the different selections of "Device type" different files are stored in the device. Table 36: Assignments easYgen-3000XT Series B37574...
Page 155: 4.1.5.17 Ethernet Network
Current Ethernet state is displayed. Setting can be found under [Next Page / Diagnostic / Interfaces / Ethernet]. In this menu select: • »Ethernet A« • • »SNTP« • • »Servlink« • • »Modbus TCP/IP« • See chapter ╚═▷ “7.2 Ethernet Interfaces” for configuration. B37574 easYgen-3000XT Series...
Page 156 Released 4 Configuration 4.1.5.17 Ethernet Network Fig. 122: Ethernet SNTP (example) Fig. 123: Ethernet Servlink (example) easYgen-3000XT Series B37574...
Page 157: 4.1.5.18 Usb
Fig. 124: Modbus TCP/IP diagnostic screen 4.1.5.18 USB Fig. 125: USB interface Current USB state is displayed. Setting can be found under [Next Page / Diagnostic / Interfaces / USB]. See chapter ╚═▷ Chapter 4.7.1 for configuration. B37574 easYgen-3000XT Series...
Page 158: 4.1.5.20 J1939 Special
J1939 Special screen (example) The status of the configured J1939 ECU error messages is displayed here if the unit is configured accordingly. Some ECUs have a special screen(s) for proprietary features. The example shows the special screen for Scania S6. easYgen-3000XT Series B37574...
Page 159: 4.1.5.21 J1939 Status Miscellaneous
• Off • • On solid • • Fast blinking • • Missing • 3698: Exh. Gas Command to control the exhaust system high temperature lamp: This lamp temp.lamp indicates that the exhaust system temperature is high. B37574 easYgen-3000XT Series...
Page 160 • • Heat protect. • • Cold protect. • • Shutoff • • Diagnosis • • Dosing allowed • • Dosing n.allowed • • Missing • 5245: SCR Inducement Aftertreatment Selective Catalytic Reduction Operator Inducement Active (DEF) easYgen-3000XT Series B37574...
Page 161: 4.1.5.22 Time Indication According To Operating Condition
The counter starts with the setting value of the related event and counts down to zero. After that, the status change of another event is shown. The sequence of the events is related on the configuration of the device. B37574 easYgen-3000XT Series...
Page 162: Access Via Pc (Toolkit)
╚═▷ 3301 for details. postrun Access Via PC (ToolKit) Version Woodward’s ToolKit software is required to access the unit via PC • Required version: 6.3.1 or higher • • Please use the latest available version! • • To obtain the latest version scan this QR code or use the following link: ══▷ https:// •...
Page 163: Basic Setup
• easYgen-XT! • NEW ..wset files are NOT BACKWARD COMPATIBLE! • • Please ask your Woodward sales support contact for conversion/update instruction • to use files created with easYgen. Basic Setup The "Basic Setup" describes a collection of configuration sub-menus: •...
Page 164 [real-time clock] Example • 0 = 0th second of the minute • • 59 = 59th second of the • minute 1698 Transfer time to clock Yes transfers the time values to the clock. [No] Notes easYgen-3000XT Series B37574...
Page 165 DST end date and time is reached. If the unit is used in the southern hemisphere, the DST function will be inverted automatically, if the DST begin month is later in the year than the DST end month. B37574 easYgen-3000XT Series...
Page 166 DST starts on the 4th configured weekday of the DST begin month. Last DST starts on the last configured weekday of the DST begin month. LastButOne DST starts on the last but one configured weekday of the DST begin month. easYgen-3000XT Series B37574...
Page 167 4591) is set to Thursday "On". Friday Saturday 4595 DST end nth. The order number of the weekday weekday for the DST begin date is configured here. [1st] DST ends on the 1st configured weekday of the DST begin month. B37574 easYgen-3000XT Series...
Page 168 Parameter Setting 4591 Daylight saving time 4594 DST begin time 4598 DST begin weekday Sunday 4592 DST begin nth. weekday 4593 DST begin month easYgen-3000XT Series B37574...
Page 169: Configure Hmi
It also provides a way to re-use previously translated texts. The Localization tool software “LocalizationToolInstaller.msi” can be downloaded via the QR Code server or from the Woodward web site (══▷ https://www.woodward.com). It needs to be installed before use at your PC/laptop. After starting the program, the HELP file can guide through the required settings.
Page 170 1. Table 40: Parameters Customer Screen 1.1 Configuration (sample) AM Customer ID "Description" ID "Unit" ID "Decimal points" AnalogManager screen # 7691 7692 7932 7690 7696 7697 7933 7695 7701 7702 7934 7700 7706 7707 7935 7705 easYgen-3000XT Series B37574...
Page 171 7742 7942 7740 7746 7747 7943 7745 7751 7752 7944 7750 7756 7757 7945 7755 7761 7762 7946 7760 7766 7767 7947 7765 7771 7772 7948 7770 7776 7777 7949 7775 Table 41: Overview Customer Screens/Rows IDs B37574 easYgen-3000XT Series...
Page 172: Configure Display
Used if LM ╚═▷ 7794 is true. 4557 Key activation time 1 to 999 min If no soft key has been pressed for the time configured here, the 2nd [120 min] display brightness will be used. Notes easYgen-3000XT Series B37574...
Page 173 This parameter is intentionally not [(0 & 1) & 1] available via HMI/display. = 11924 For information on the LogicsManager and its default settings see ╚═▷ “4.8 Configure LogicsManager”╚═▷ “9.3.1 LogicsManager Overview”. Table 43: Parameters Display Configuration B37574 easYgen-3000XT Series...
Page 174: Screen Configuration
[A1 = 11.51 Engine speed sources. [rpm]] Even it is possible to select all data sources╚═▷ “9.4.2 Data Sources AM”), only the following data source may be used: 11.51 Engine speed [rpm] The indication is displayed in the format 0000 rpm. easYgen-3000XT Series B37574...
Page 175 Temp.] (This default value is a in the format 000°C (°F). J1939 value.) Notes If »°C« is assigned the unit will be converted into "°F" automatically if the corresponding parameter for conversion ╚═▷ 3631 is configured to YES. B37574 easYgen-3000XT Series...
Page 176: Lamp Test
Note your password on a secure location. The next higher password level (2 and 4) allows to reset the password of the level below (1 and 3). To restore the according User Name Account needs support from Woodward (authorized partner).
Page 177 # used in drawing ╚═▷ “Access via channel ...”below Remote Panel with the Woodward screen share concept connected over Ethernet (HMI ③ = ① simulation) 3rd party Remote Panel (i.e. Proface, Sütron, ...) running Modbus TCP ④ PLC running Modbus TCP ④...
Page 178 The currently selected entry number is visible only - all other numbers are hidden and a "*" asterisk is displayed instead. LOGIN procedure "Basic Code Entry" The Basic Code Entry is valid for access ①, ③, ⑥, and ⑦. easYgen-3000XT Series B37574...
Page 179: Random Number For Password
The already existing User names cannot be changed. They are fixed for the desired code level, which shall be entered. Check you Password entry View hidden password entry by pushing the symbol on the right side of the »Password:« box. B37574 easYgen-3000XT Series...
Page 180 Only the code levels below can be indicated and configured. CL01 CL0001 The Basic Level Access to a limited number of parameters and configurations. The own code level can be indicated and configured. No access rights to change, even viewed information is restricted. easYgen-3000XT Series B37574...
Page 181 HMI directly or by WW Remote Panel screen share concept ToolKit Servlink RS485 Modbus RTU Ethernet Modbus TCP ToolKit Servlink TCP, 8 sub channels are possible Note: Each of the 8 sub channels has its own independent password access level! CAN1 CANopen CAN2 B37574 easYgen-3000XT Series...
Page 182 Commissioning code level CL03. Being in code level AC02 or higher the password of the Basic Level CL01 can be reset to its default by the Yes/No parameter ╚═▷ 10434. easYgen-3000XT Series B37574...
Page 183 Being in code level AC04 or higher the password of the Commissioning Level CL03 can be reset to its default by the Yes/No parameter ID ╚═▷ 10435 Level User Account Entry Basic Code Entry User Name Password Password (fix) (default) (default) CL03 CL0003 0003 B37574 easYgen-3000XT Series...
Page 184 The higher instance tells the result to the operator, who enters the result as password into the control. Code Level 5 - The Super Commissioning Level CL05 • General: • easYgen-3000XT Series B37574...
Page 185 Being in a higher level as CL05 the password of the Super Commissioning Level CL05 can be reset to its default by the Yes/No parameter ID ╚═▷ 10436 If you have forgotten your password for the Super Commissioning Level, please contact Woodward or a representative for help. Level User Account Entry Basic Code Entry...
Page 186 Diagnostic / Interfaces / CAN / CAN 1 state - CAN 3 state]. Password handling via Modbus TCP using Ethernet connection The easYgen must be a member of an Ethernet network and both user name and password have to be transferred (from PLC) to the device. easYgen-3000XT Series B37574...
Page 187 The easYgen provides several CAN ports and therefore each port has his own password level. The password is written by a SDO Communication Channel. Set easYgen-XT to code level 5 via CANopen ☼ With factory settings the password is expected to be "500" for code level 5. B37574 easYgen-3000XT Series...
Page 188 The current code level is indicated by the lock symbol in the configuration menu screens. The lock symbol indicates the number of the code level and appears as "locked" (in code level CL00) or "unlocked" (in higher code levels). Symbol Status Locked Unlocked (Code Level 01) easYgen-3000XT Series B37574...
Page 189 This value displays the code level which is currently enabled for access via the front panel display or the Woodward Remote Panel with screen share mode. Code level interfaces The password and/or User name for access via interface cannot be entered via HMI.
Page 190 This is the IP address of the PC that is connected via ToolKit with the device as Servlink Master 6. 7829 Code level Servlink This value displays the code level, Master 6 which is currently enabled for access as Servlink Master 6. easYgen-3000XT Series B37574...
Page 191 "Temporary Super commissioning" is defined in this parameter. 10411 Password super 1 to 9999 The password for the code level commissioning "Super commissioning" is defined [500] in this parameter. Refer to ╚═▷ “4.3.4 Enter Password” for default values. B37574 easYgen-3000XT Series...
Page 192: Change/Reset Alphanumeric Password
The visualization 10443 indicates the successful execution. Notes If the parameters 10439, 10440, and 10441 are not correct, the password change is not executed. easYgen-3000XT Series B37574...
Page 193 New passw. super ((empty)) Enter here your new alphanumeric comm. level password string for the super comm. code level (CL05) 10451 Confirm passw.super ((empty)) Repeat here your new comm.level alphanumeric password string for the super comm. code level (CL05) B37574 easYgen-3000XT Series...
Page 194: System Management
"CL0005" e.g., if you forgot your password. Notes The code level to execute the password reset is provided by your Woodward sales support partner. [No] 4.3.5 System Management CAUTION! Don't initiate »Set factory default settings« during controlling a genset! This causes easYgen rebooting.
Page 195 Reboot is only possible in operation mode STOP! 10417 Factory default The following three parameters settings are visible and restoring the configured parameters to factory default values is enabled. [No] The following three parameters are invisible and restoring the B37574 easYgen-3000XT Series...
Page 196: Reboot Function
The reboot of the device can be initiated by operating a Yes/No switch in ToolKit. This is beneficial because some parameters, like • 1893 Set device name, • • 3184 Modbus protocol number, • • 15320 Select external terminals and • • 15102 Device type • easYgen-3000XT Series B37574...
Page 197: Configure Remote Panel Mode
But if the remote panel runs with an easYgen-3200XT or easYgen-3500XT, it is not always allowed that both HMI have full control access rights to the genset. Here it is desired to either restrict the control rights for the remote panel (Annunciator Mode) or for the local B37574 easYgen-3000XT Series...
Page 198: Rp-3000Xt In Full Mode With Password Suppression
RP-3000XT The password suppressed Full Mode becomes active, if there is no mode selected via LogicsManager. If "Password display" entry field is operated in the RP-3000XT: • "Password display" entry field in the easYgen is suppressed • easYgen-3000XT Series B37574...
Page 199: Rp-3000Xt In Full Mode
Fig. 137: Remote Panel with non-display (metal housing) variant of easYgen-XT The RP-3000XT represents full the easYgen-3000XT • All Operating Mode buttons are indicated and active • • The MAN Start Stop buttons are indicated and active • B37574 easYgen-3000XT Series...
Page 200: Rp-3000Xt In Annunciator Mode
• The “Home” button is indicated and active • • The Configuration capability is deactivated (according soft key buttons are not • indicated or not active) • All configuration screens of the easYgen are suppressed in the RP-3000XT (disabled • screen) easYgen-3000XT Series B37574...
Page 201 The Annunciator mode becomes active, if the easYgen-XT is configured as follows: • LM "RP-3000XT Annunciator mode" is TRUE • • LM "RP-3000XT Off mode" is FALSE • Fig. 139: RP in Annunciator mode - access to menu B37574 easYgen-3000XT Series...
Page 202: Rp-3000Xt In Off Mode
• LM "RP-3000XT Off mode" is TRUE • 4.3.6.7 Parameters of RP Modes Priority of RP Modes »RP Off mode« higher than »RP Annunciator« higher than »RP Full mode«. If no mode is selected via LogicsManager »Full mode with Password suppression« is active! easYgen-3000XT Series B37574...
Page 203: Configure Application
If the engine fails to start, a start pause is initiated ("Start - Pause" is displayed). If the number of unsuccessful start attempts B37574 easYgen-3000XT Series...
Page 204 ("Start" is displayed). If the configured firing speed is exceeded, the starter is disengaged. The gas valve and the ignition remain enabled via the firing speed. "Ramp to rated" is displayed until the engine monitoring delay timer expires easYgen-3000XT Series B37574...
Page 205 • tGS Generator stable time [s] • (parameter ╚═▷ 3415) Refer to ╚═▷ “Gas engine diagrams” ╚═▷ “Gas engine diagrams”. CAUTION It is imperative to connect an emergency stop circuit to discrete input DI 1 to be able to perform an B37574 easYgen-3000XT Series...
Page 206 12885 Bypass preglow time Determined by LogicsManager Once the conditions of the 86.50 LogicsManager have been fulfilled (Diesel engine only) the diesel engine starts without [(0 & 1) & 1] preglow. = 11558 Notes easYgen-3000XT Series B37574...
Page 207 Defines the active (waiting) time delay of the Analog Output »Pre- [0 s] excitation D+« after starter time has exceeded. Notes This fallback time of the pre- excitation enables to hold the pre- excitation longer than starter time. B37574 easYgen-3000XT Series...
Page 208 5 seconds later. 3312 Minimum speed for 10 to 1,800 rpm After expiration of the ignition ignition delay the number of revolutions [100 rpm] set here must be reached, so the (Gas Engine only) "Ignition" relay will be energized. easYgen-3000XT Series B37574...
Page 209 Released 4 Configuration 4.4.1.1 Configure Engine (general) Diesel engine diagrams Fig. 142: Start/Stop sequence - diesel engine B37574 easYgen-3000XT Series...
Page 210 Released 4 Configuration 4.4.1.1 Configure Engine (general) Gas engine diagrams Fig. 143: Start/Stop sequence - gas engine - failure easYgen-3000XT Series B37574...
Page 211: Engine Start/Stop
Start/Stop sequence - gas engine - success 4.4.1.2 Engine Start/Stop Speed States Firing speed and the speed detection is now managed by LogicsManager equations named “Firing speed detection” and “Speed detection”. The default setting of them is backward compatible! B37574 easYgen-3000XT Series...
Page 212 4.4.1.2 Engine Start/Stop The possibility to arrange different sources to determine speed and firing speed comes with more flexibility. Woodward recommends to spend some time to understand the parameters and dependencies listed below or on ToolKit page [Parameter / Configuration / Configure application / Configure engine / Configure start/stop].
Page 213 This corresponds for a 4-pole synchronous generator to 450 rpm at 50Hz. The rpm measurement allows lower firing speed limits. With a speed sensor the firing speed can be configured down to 5 Hz. B37574 easYgen-3000XT Series...
Page 214 LogigsManager Firing speed detection The result of the LM »Firing speed detection« goes directly into the start / stop logic and other functions of the easYgen. Through the LogicsManager approach other sources can be taken into account. easYgen-3000XT Series B37574...
Page 215 Fig. 148: LogicsManager for detecting speed The result of the LM »Speed detection« goes directly into the start / stop logic and other functions of the easYgen. Through the LogicsManager approach other sources can be taken into account. B37574 easYgen-3000XT Series...
Page 216 At the same time, the discrete output for the auxiliary services (LogicsManager 03.01) will be enabled. This discrete output remains enabled as long as speed is detected or if the controller is in the MANUAL mode. easYgen-3000XT Series B37574...
Page 217 Released 4 Configuration 4.4.1.2 Engine Start/Stop Fig. 150: : Engine - auxiliary services timing B37574 easYgen-3000XT Series...
Page 218 An engine has been successfully started if the ignition speed reaches the configured firing speed and the delayed engine monitoring (set by release engine monitoring) has expired. easYgen-3000XT Series B37574...
Page 219 The firing speed is to be configured low enough that it is always exceeded during regular generator operation. Notes The time counter for the engine delayed monitoring is no longer activated directly by firing speed but by release engine monitoring ╚═▷ 12999. B37574 easYgen-3000XT Series...
Page 220 04.10 becomes TRUE. Stop by a class 'C' or 'D' alarm If the engine is stopped by an alarm of this alarm class, a cool down is carried out with an opened GCB. This time is programmable. easYgen-3000XT Series B37574...
Page 221 The auxiliary services discrete output disables when the operation mode is changed from the MANUAL operation mode or, if engine speed is no longer detected, when the discrete output for the auxiliary services postrun (LogicsManager 03.31) is disabled. CAUTION B37574 easYgen-3000XT Series...
Page 222 This will be [(02.36 Speed electr. OR 02.37 taken into account for some Speed rpm) & 1] monitoring functions. = 11458 Notes The former easYgen was fixed to the electrical frequency always. The default setting here is backward compatible. easYgen-3000XT Series B37574...
Page 223 This LogicsManager equation (ID = 12999 with logical command variable 11459) enables or blocks all monitoring functions, which are speed related by enabled setting: “Delayed by engine speed”: • Under/Over frequency • • Under speed • • Under voltage • • ... • B37574 easYgen-3000XT Series...
Page 224: Magnetic Pickup Unit
1602) and rated speeds (parameter ╚═▷ 1601) for a minimum signal voltage of 2 V Fly wheel teeth Rated speed [rpm] Speed measuring range [rpm] 1500 1200 to 4500 1800 1200 to 5400 3000 1200 to 9000 3600 1200 to 10800 easYgen-3000XT Series B37574...
Page 225 45 to 2100 1500 45 to 2100 1800 45 to 2100 40 to 2000 1500 40 to 2000 1800 40 to 2000 30 to 1500 1500 30 to 1500 24 to 1200 20 to 1200 18 to 850 B37574 easYgen-3000XT Series...
Page 226: Idle Mode
04.15), e.g. as a signal for a speed controller. The display indicates "Idle run active" during idle mode. The idle mode can be only used if the function is supported by the ECU or the frequency controller. easYgen-3000XT Series B37574...
Page 227 (Idle mode possible completing the configured idle during emergency / mode. critical operation) [No] If an emergency or critical operation is enabled, no idle run B37574 easYgen-3000XT Series...
Page 228: Inputs And Outputs
This discrete input is configured as alarm class B and is delayed by the engine speed. Preconfigured to "Low oil pressure" Discrete input [DI Programmable This discrete input is configured as alarm class B and is not delayed by the engine speed. Preconfigured to "Coolant temperature" easYgen-3000XT Series B37574...
Page 229 (refer to note below). Discrete input [DI Programmable Can be set-up with description, delay, operation, alarm class, self acknowledgment, and enable. "Discrete Input 9 Discrete input [DI Programmable "Discrete Input 10 Discrete input [DI Programmable B37574 easYgen-3000XT Series...
Page 230 ◦ The discrete output has a specific function that cannot be changed depending ◦ upon the configured application mode. ◦ The discrete output cannot be viewed or changed in the LogicsManager. ◦ ◦ However, the discrete output may be programmable in some application ◦ modes. easYgen-3000XT Series B37574...
Page 231 Preconfigured to "Starter" This discrete output will enable depending on the start sequence (refer to the start sequence description in ╚═▷ “4.4.1.1 Configure Engine (general)”) to energize the starter for the configured starter time (parameter ╚═▷ 3306). B37574 easYgen-3000XT Series...
Page 232 GCB opening circuit de-energizing. If this output is configured as "Not used", this relay is freely configurable. Application mode The open GCB command remains enabled until the GCB is manually closed and the discrete input "Reply GCB" is easYgen-3000XT Series B37574...
Page 233: Discrete Inputs
LogicsManager All discrete outputs not assigned to a defined function, may Relay be freely configured via the LogicsManager. 4.4.2.2 Discrete Inputs General notes Discrete inputs may be configured to normally open (N.O.) or normally closed (N.C.) states. B37574 easYgen-3000XT Series...
Page 234 The discrete inputs 1 to 6 are pre-configured to various functions and differ in their default values. However, they may still be configured freely. The discrete inputs 7 & 8 are always used for the circuit breaker replies and cannot be configured. easYgen-3000XT Series B37574...
Page 235 DI 3 DI 4 DI 5 DI 6 DI 7 DI 8 DI 9 DI 10 DI 11 DI 12 open open only only Des‐ 1400 1410 1420 1430 1440 1450 1460 1480 1488 1496 1504 crip‐ tion B37574 easYgen-3000XT Series...
Page 236 Delay 0.08 to 650.00 s A delay time in seconds can be assigned to each alarm or control [0.20 s] input. The discrete input must be enabled without interruption for the delay time before the unit reacts. easYgen-3000XT Series B37574...
Page 237 LogicsManager output "External acknowledgment" (via a discrete input or via an interface). Notes If the DI is configured with the alarm class "Control", self acknowledgment is always active. B37574 easYgen-3000XT Series...
Page 238: Discrete Outputs
[R 07] 51/52 LogicsManager Command: open GCB [R 08] 53/54 LogicsManager Command: close [R 09] 55/56 LogicsManager Command: open [R 10] 57/60 LogicsManager; pre-assigned with 'Auxiliary services' [R 11] 58/60 LogicsManager; pre-assigned with 'Alarm class A, B active' easYgen-3000XT Series B37574...
Page 239 (See ID For (pre-defined) relay will be energized. table function see assignment [(03.05 Horn & 1) & 1] below) table above) Notes = 11871 For information on the Logics‐ Manager and its default settings ╚═▷ “9.3.1 LogicsManager Overview”. B37574 easYgen-3000XT Series...
Page 240: Analog Inputs
AI {x} 1034, 1084, ...; external AI{x} 16208, 16218, ...; PID {x} setpoint 7494, 7495, ...; customer screens {x.y} 7692, 7697, ... Parameter Setting range Description [Default] 3630 Convert bar to psi [No] The pressure value is displayed in Bar. The pressure value is converted and then displayed in psi. easYgen-3000XT Series B37574...
Page 241 When configuring the X coordinates, ensure the coordinates always increase in scale continuously. In the following example the first set of x/y coordinates is correct and the second set of x/y coordinates is wrong: (correct) X-coordinate 1000 1200 1500 1800 2000 Y-coordinate -100 +100 +2000 B37574 easYgen-3000XT Series...
Page 242 3561 3562 3563 3564 3565 3566 3567 3568 [2.5] [7.5] [10] [12.5] [15] [17.5] [20] Table A - Y value 3550 3551 3552 3553 3554 3555 3556 3557 3558 [10] [20] [30] [45] [60] [70] [85] [100] easYgen-3000XT Series B37574...
Page 243: Analog Inputs 1 To 3 (0 To 2000 Ω | 0/4 To 20 M A | 0 To 1 V)
Please verify the length on the display for best view. 1000 Type According to the following parameters different measuring 1050 ranges are possible at the analog inputs. 1100 [Off] The analog input is switched off. B37574 easYgen-3000XT Series...
Page 244 1051 [0.00] range must be entered here. (User defined minimum 1101 display value) Notes This parameter is only visible if the parameter "Type" (╚═▷ 1000/ ╚═▷ 1050/╚═▷ 1100) is configured to "Linear". easYgen-3000XT Series B37574...
Page 245 Notes This parameter is only visible if the parameter "Type" (╚═▷ 1000/ ╚═▷ 1050/╚═▷ 1100) is configured to "Linear". Table 48: Analog Inputs 1 to 3 settings B37574 easYgen-3000XT Series...
Page 246 "0 to 2000 Ohm"! 1046 Offset -20.0 to 20.0 Ohms The resistive input (the "0 to 2000 Ohms" analog input) may be 1096 [0.0 Ohm] calculated with a permanent offset to adjust for inaccuracies. easYgen-3000XT Series B37574...
Page 247 High/Low If the actual value rises over the maximum value (overshoot) or falls below the minimum value (undershoot), this is identified as a wire break. Notes Monitoring of the analog inputs (overrun/underrun) must be B37574 easYgen-3000XT Series...
Page 248 1104 Class A, [Class B] Warning alarm classes Class C, Class D, Class E, Class F Shutdown alarm classes Control Signal to issue a control command only Notes easYgen-3000XT Series B37574...
Page 249 0 to 2000 Ω The cut-off-frequency is defined as usual with 63% (e Cut-off-frequency = 0.64 Hz (filter time constant = 0.25 s) Cut-off-frequency = 0.32 Hz (filter time constant = 0.5 s) B37574 easYgen-3000XT Series...
Page 250: Analog Outputs
Analog Outputs 1 and 2 The analog outputs AO 1 and AO 2 may either be configured as analog or PWM outputs. The analog outputs are prepared for speed and voltage biasing signal for a speed controller and voltage regulator. easYgen-3000XT Series B37574...
Page 251 5217 AM Data source AO1 5200 Type: Pass through 5214 Type: Pass through A1 = 01.74 A1 = 11.03 Speed Gen.act.power [W] bias [%] Analog output 1 10310 Display of resulting 10311 Display of resulting value value B37574 easYgen-3000XT Series...
Page 252 5204 Source value at maximum level 5206 1000 Filter time constant 5203 AM Data source AO1 5200 Type: Pass through A1 = analog variable with range 0 to 1000 Analog output 1 10310 Display of resulting value easYgen-3000XT Series B37574...
Page 253 Example If the value configured here is 7.5, the maximum output range of “+/-20 mA” / “+/-10 V” has a upper limit of 7.5 mA / 7.5 V. Notes Value »100« is possible only for PWM. B37574 easYgen-3000XT Series...
Page 254 = 1.28 s) Cut-off-frequency = 0.06 Hz (filter time constant = 2.56 s) Notes The filter is not applied to the analog output display value, i.e. the end value of the analog output is displayed immediately. easYgen-3000XT Series B37574...
Page 255: External Analog Inputs
5929 5942 User 5852 5865 5878 5891 5904 5917 5930 5943 defined display value User 5853 5866 5879 5892 5905 5918 5931 5944 defined display value Sender 5857 5870 5883 5896 5909 5922 5935 5948 value at B37574 easYgen-3000XT Series...
Page 256 Sender 5961 5974 5987 6936 6949 6962 6975 6988 value at display min. Sender 5962 5975 5988 6937 6950 6963 6976 6989 value at display max. Sender 5960 5973 5986 6935 6948 6961 6974 6987 type easYgen-3000XT Series B37574...
Page 257 Cu50 TC Type S Cu53 TC Type T Ni 1000(Landis) TC Type B Ni 500(Viessm.) TC Type N KTY 81-110 TC Type U KTY 84 TC Type L TC Type C TC Type W TC Type HK B37574 easYgen-3000XT Series...
Page 258: 4.4.2.7 External Analog Outputs
Please note that the available options for the Selected hardware type are limited. Refer to the Parameter List for details. Parameter Ext. AO 1 Ext. AO 2 Ext. AO 3 Ext. AO 4 Data source ext. 10237 10247 10257 10267 AO {x} AnalogManager: [Pass Through of "11.03 Speed bias [%]"] easYgen-3000XT Series B37574...
Page 259 (User defined minimum minimum source value, must be 10262 output value) entered here (y-axis). This specifies the minimum limit of the 10272 hardware range. Example If the value configured here is 2.5, the maximum output range of B37574 easYgen-3000XT Series...
Page 260 Cut-off-frequency = 0.5 Hz (filter time constant = 0.32 s) Cut-off-frequency = 0.25 Hz (filter time constant = 0.64 s) Cut-off-frequency = 0.12 Hz (filter time constant = 1.28 s) Cut-off-frequency = 0.06 Hz (filter time constant = 2.56 s) easYgen-3000XT Series B37574...
Page 261: External Discrete Inputs
4.4.2.8 External Discrete Inputs If a Woodward IKD 1 or other external expansion board (e.g. Phoenix Contact or WAGO) is connected to the easYgen via the CAN bus, it is possible to use 32 additional discrete inputs.
Page 262 Table 54: External discrete inputs - parameter IDs 25..32 4.4.2.9 External Discrete Outputs If a Woodward IKD 1 or other external expansion board (e.g. Phoenix Contact or WAGO) is connected to the easYgen via the CAN bus, it is possible to use 32 additional discrete outputs.
Page 263: Configure Breakers
Actually the breaker transition mode “external” would only allow the breaker closure from external. On the other hand the easYgen allows in special cases the closure of breaker from external, when the following configurations and modes are fulfilled: B37574 easYgen-3000XT Series...
Page 264: Good To Know: Actions With Breakers
• There is no other GCB closed in the same segment • • There is no other device with a smaller device ID willing to close its GCB too (Dead • busbar closure negotiation) Manual operation • The operating mode MANUAL has been selected. • easYgen-3000XT Series B37574...
Page 265 ID 12210 is set to TRUE. The dead busbar negotiation is done over all segments by default (Parameter ╚═▷ 3472 set to On). If Parameter ╚═▷ 3472 is set to Off the dead busbar negotiation is done only for the own segment. B37574 easYgen-3000XT Series...
Page 266: Synchronization Gcb/Mcb
◦ The GCB is closed (or at least one GCB is closed in a multiple genset ◦ application) ◦ The busbar voltage is within the configured operating range ◦ ◦ The "Enable MCB" (parameter ◦ ╚═▷ 12923) signal is present, for example discrete input 6 is energized if configured as DI 6 easYgen-3000XT Series B37574...
Page 267: Dead Bus Closing Mcb
(parameter ╚═▷ 3400) (open transition mode only) • The "Enable MCB" (parameter • ╚═▷ 12923) signal is present, for example discrete input 6 is energized if configured so • The button "Close MCB" has been pressed • B37574 easYgen-3000XT Series...
Page 268: 4.4.3.1.4 Open Gcb
• Prior to the MCB closing onto the dead busbar (depending on the CB logic which has • been set) • In case of an alarm of class D or F • 4.4.3.1.5 Open MCB The following only applies to application mode easYgen-3000XT Series B37574...
Page 269: Transition Modes (Breaker Logic)
When a stop command is issued to the engine, soft loading (power reduction) is carried out before opening the GCB, except an alarm of class D or F is present. Breaker logic "INTERCHANGE" The following only applies to application mode B37574 easYgen-3000XT Series...
Page 270 Hint: The generator rated power is taken into account to find a good compromise between bumpless power transfer and being not too long mains parallel. Breaker logic "CLOSED TRANSIT." The following only applies to application mode Closed transition (make-before-break/overlap synchronization) is enabled by configuring parameter ╚═▷ 3411 to "CLOSED TRANSITION". easYgen-3000XT Series B37574...
Page 271 • The GCB is opened • • The MCB is closed after the time configured in "Transfer time GCB<->MCB" • (parameter ╚═▷ 3400) has expired Breaker logic "EXTERNAL" External breaker logic is enabled via configuration of parameter ╚═▷ 3411 to "EXTERNAL". B37574 easYgen-3000XT Series...
Page 272 After the GCB closes the MCB "Enable MCB" (parameter ╚═▷ 12923). initiated by pressing the "GCB On" or is opened. Following the shed-off "MCB On" push-button. request being issued, the MCB is easYgen-3000XT Series B37574...
Page 273: General Breaker Settings
4.4.3.2 General Breaker Settings Parameter Setting range Description [Default] 3444 Application mode The unit may be configured to different application modes. The discrete inputs and relay outputs are pre-defined dependent upon the selected application mode. B37574 easYgen-3000XT Series...
Page 274 All necessary inputs and outputs are assigned and pre-defined. 3411 Breaker transition The control unit automatically mode controls the two breakers (MCB and GCB). External Open Transition Closed Transit. Interchange [Parallel] Notes easYgen-3000XT Series B37574...
Page 275 (parameters ╚═▷ 12931 ╚═▷ 12932) are TRUE, breaker transition mode 1 (parameter ╚═▷ 3412) will be used. 3413 Breaker transition The control unit automatically mode 2 controls the two breakers (MCB and GCB). External Open Transition B37574 easYgen-3000XT Series...
Page 276 This time applies for both directions. During this time the consumers are de-energized. Notes This parameter only applies to application mode This is only valid, if parameter ╚═▷ 3411 is configured to OPEN TRANSITION easYgen-3000XT Series B37574...
Page 277: Configure Breakers: Gcb
The relay "command: GCB open" will be energized to open the GCB and will be de-energized again after the discrete input "Reply GCB" is energized to signal the control that the GCB is open. N.C. Normally closed: B37574 easYgen-3000XT Series...
Page 278 This parameter only applies to application mode 5729 Synchronization GCB [Slip frequency] The frequency controller adjusts the frequency in a way, that the frequency of the source (generator) is marginal greater than the target (busbar). When the synchronizing conditions are easYgen-3000XT Series B37574...
Page 279 This parameter only applies to application modes 5702 Neg. freq. differential -0.49 to 0.00 Hz The prerequisite for a close command being issued for the [-0.10 Hz] GCB is that the differential frequency is above the configured differential frequency. B37574 easYgen-3000XT Series...
Page 280 GCB generator voltage and generator busbar voltage can be compensated according to an installed power transformer between generator and busbar. The compensation is active. The phase will be compensated according the value configured in parameter ╚═▷ 8824. easYgen-3000XT Series B37574...
Page 281 Dead bus closure GCB [On] A dead busbar closure is allowed if the required conditions are met. A GCB close command to a dead busbar is prevented. Synchronization is still possible. Notes This parameter only applies to application modes B37574 easYgen-3000XT Series...
Page 282 GCB will be closed [(04.09 Emergency mode & 1) immediately (without waiting for & 1] engine speed delay and generator stable timer to expire). = 10711 When using the standard setting, the GCB will be closed without easYgen-3000XT Series B37574...
Page 283 40 to 300 ms The inherent closing time of the GCB corresponds to the lead-time [80 ms] of the close command. The close command will be issued independent of the differential frequency at the entered time before the synchronous point. B37574 easYgen-3000XT Series...
Page 284 LogicsManager have been fulfilled the GCB will be opened [(0 & 1) & 1] immediately. = 12052 Notes The "Open GCB immediately" has a higher priority than the Enable GCB function and is valid for all application and operating modes. easYgen-3000XT Series B37574...
Page 285: Configure Breakers: Mcb
This parameter is only displayed, if parameter ╚═▷ 5730 configured to "Phase matching". 5714 Max. negative phase -60.0 to 0.0° The prerequisite for a connect angle MCB command being issued for the MCB is that the lagging phase B37574 easYgen-3000XT Series...
Page 286 5709 MCB sync. with The MCB is synchronized with an separate slip individual slip frequency (also negative). Notes The setting for the slipping frequency (parameter ╚═▷ 5647) via display is located under 'configure frequency control'. easYgen-3000XT Series B37574...
Page 287 Recommendation: For safety reasons, please mark the easYgen with a label showing the configured phase angle compensation. Refer to ╚═▷ “6.3.11 Phase Angle Compensation” for details. This parameter only applies to application mode B37574 easYgen-3000XT Series...
Page 288 Determined by LogicsManager Once the conditions of the 86.85 LogicsManager have been fulfilled the closure of theMCB will be [(09.06 Discrete input 6 & ! enabled. 08.07 MCB fail to close) & ! 07.05 Mns.ph.rot. mismatch] Notes easYgen-3000XT Series B37574...
Page 289: Configure Breakers: Synchronization
╚═▷ “9.3.1 LogicsManager Overview”. 4.4.3.5 Configure Breakers: Synchronization General notes The following parameters are only applicable for application modes Parameter Setting range Description [Default] 5728 Synchronization The synchronization is disabled; mode the frequency and voltage B37574 easYgen-3000XT Series...
Page 290 The control actively synchronizes generator(s) by issuing speed and voltage bias commands, but does not issue a breaker closure command for synchronizing. [RUN] Normal operating mode. The control actively synchronizes and issues breaker closure commands. easYgen-3000XT Series B37574...
Page 291 For information on the LogicsManager and its default settings see ╚═▷ “9.3.1 LogicsManager Overview”. 15157 Synchroscope autom. The synchroscope screen to front automatically appears on the main screen, when the (Synchroscope synchronization becomes active. automatic to front) [Off] Functionality deactivated. B37574 easYgen-3000XT Series...
Page 292: Independent Sync. Check Function
The command variable »02.29 Sync.Check gen./busb« is true if the synchronization conditions are matched according to (GCB) parameters: • 5701: Pos. freq. differential • • 5702: Neg. freq. differential • • 5700: Voltage differential • • 8825, 8824: Phase angle compensation • easYgen-3000XT Series B37574...
Page 293: Configure Breakers: Neutral Interlocking
Neutral interlocking is disabled. The NC monitoring is disabled. 1841 Priority 1 ... 32 The priority determines which NC is closed, if multiple gens are running in the same segment. Notes The lower the configured number, the higher the priority B37574 easYgen-3000XT Series...
Page 294: Configure Controller
If the car goes up a hill it will slow down. Of course, going down a hill the car would gain speed. Integral control Integral compensates for process and setpoint load changes. • Analogy: Cruise control maintains constant speed regardless of hills. • easYgen-3000XT Series B37574...
Page 295 PIDs to assist in determining the gain terms that provide optimum control loop response times. ⚙ The following method can be used to achieve PID gain values that are close to optimum: ᐳ B37574 easYgen-3000XT Series...
Page 296: Voltage Control
• ◦ on the button "Trend chart" in the left sidebar (below permanent buttons) or ◦ ◦ on "next page", or ◦ • search for one of the voltage controlled value shown at the status screen • easYgen-3000XT Series B37574...
Page 297 The integral gain constant must be greater than the derivative time constant. If the integral gain constant is too large, the engine will continually oscillate. If the integral gain B37574 easYgen-3000XT Series...
Page 298 This prevents unneeded wear on the voltage bias output control or the raise/lower relay contacts. The easYgen-3000XT Series B37574...
Page 299 1.0 to 20.0 The cycle time factor adjusts the time between the pulses (pause [1.0] time). By increasing the cycle time factor, the time between the pulses increases. Notes This parameter is only visible if voltage control (parameter ╚═▷ B37574 easYgen-3000XT Series...
Page 300 [A1 = 05.58 Internal v setp2 [V]] The internal voltage setpoint 05.58 can be changed manually at the setpoint screen of the display. Notes The voltage setpoint may be adjusted within the configured operating limits (╚═▷ “4.5.1.1 easYgen-3000XT Series B37574...
Page 301 Each generator in the system will require the same value to be configured for the droop characteristic, so that when the system is stable the reactive B37574 easYgen-3000XT Series...
Page 302 100.0 to 150.0% This parameter defines the scaling between the result of "AM Volt. SP [105.0%] PID-source [%]" and the transmitted CAN voltage setpoint. It defines the maximum deviation of the setpoint from " 5602 Generator rated voltage". Where easYgen-3000XT Series B37574...
Page 303: Power Factor Control
The easYgen can work as reactive power control at the interchange point. In this mode the gensets are monitored and restricted in reactive power flow (outcome and income; respectively leading and lagging). B37574 easYgen-3000XT Series...
Page 304 An active Limitation is • indicated as 'Gen excitation lim.' on the display (HMI) • • driving the LogicsManager command variable 02.38 Gen excitation lim. from FALSE • to TRUE • driving an event logger entry • easYgen-3000XT Series B37574...
Page 305: Configure Power Factor / Kvar Control
The integral gain constant must be greater than the derivative time constant. If the integral gain constant is too large, the engine will continually oscillate. If the integral gain constant is too small, the engine B37574 easYgen-3000XT Series...
Page 306 Time pulse minimum 0.01 to 2.00 s A minimum pulse on time must be configured here. [0.05 s] The shortest possible pulse time should be configured to limit overshoot of the desired power factor reference point. Notes easYgen-3000XT Series B37574...
Page 307 This parameter is only visible if power factor control (parameter ╚═▷ 5625) is configured to "3pos controller". 5664 Delay expand 1.0 to 9.9 s The measured generator power deadband factor must be within the deadband range for the time B37574 easYgen-3000XT Series...
Page 308 Note: Even the value is also configurable as negative value do not enter a negative value in this mode. Mns.Import kvar: The value entered as PF/kvar setpoint is a mains import power setpoint in easYgen-3000XT Series B37574...
Page 309 Gen.kvar: The value entered as PF/kvar setpoint is a generator kvar power setpoint (-99999.9 to 99999.0 kvar). Note: A negative value is accepted as a capacitive kvar setpoint. A positive value is accepted as inductive setpoint in this mode. B37574 easYgen-3000XT Series...
Page 310 Gen kvar setpoint mode can be [0.0 s] configured here. The parameter stands for the 3 times tau value of a PT1 element. (see drawing). That means the configured time defines when 95% of the original setpoint jump is reached. Notes easYgen-3000XT Series B37574...
Page 311 A method to support the mains is to feed different reactive power values into the grid in relation to the own active power value. The reactive power is defined through a power factor setpoint for the generator. This can be defined in characteristic curve. B37574 easYgen-3000XT Series...
Page 312 5788 Point 1 cos phi -0.999 to 1.000 The desired "Point 1 cos phi" may be configured here which defines [-0.950] the cos phi (P) characteristic. The designations "+" and "-" stand for inductive/lagging (generator overexcited) and easYgen-3000XT Series B37574...
Page 313 ╚═▷ 5786 = Q(V)]. The reactive power is defined through the value Q/S rated over voltage. This can be defined in a characteristic curve. The resulting outcome for the reactive power control is then a power factor setpoint. B37574 easYgen-3000XT Series...
Page 314 The value entered into "Point 1 Reactive power" defines the y- [-0.31] coordinate of point 1 5797 Point 2 voltage 45.0 to 150.0% The value entered into "Point 2 Voltage" defines the x-coordinate [106.0%] of point 2 easYgen-3000XT Series B37574...
Page 315 PT1-element. The PT1-element shall be adjustable with a 3 tau setting. The 3 tau setting defines at what time shall be reached 95% of the original setpoint change. This 3 tau value is configurable. B37574 easYgen-3000XT Series...
Page 316 Four reactive power setpoint filters are placed in the easYgen in regards to: • Gen PF setpoint setting • • Reactive power characteristic Q(V) • • Reactive power characteristic Q(P) • • Reactive power characteristic Q(V) limit • easYgen-3000XT Series B37574...
Page 317 Q(P) can be [10.0 s] configured here. The parameter stands for the 3 times tau value of a PT1 element. (see drawing). That means the configured time defines when 95% of the original setpoint jump is reached. B37574 easYgen-3000XT Series...
Page 318: Power Factor Characteristic
It is valid for leading and lagging reactive power (Under-excitation/Over-excitation). So if mains voltage exceeds the Vmax/VC point inductive power is absorbed and with surpassed Vmax/VC inductive reactive power is delivered to mains. easYgen-3000XT Series B37574...
Page 319 And finally through a test function the function gives the operator the opportunity to simulate different mains voltages to observe whether the reactive power flow is maintained properly. Fig. 166: EGXT_Example_of_a_Q(V)_characteristic B37574 easYgen-3000XT Series...
Page 320 0.0 to 99.9 s The PT1-filter for the reactive power characteristic Q(V) can be [10.0 s] configured here. The parameter stands for the 3 times tau value of a PT1 element. (see drawing). That means the configured time easYgen-3000XT Series B37574...
Page 321 On: The mains test voltage is used for Q(V) reactive power characteristic. This function is reset after 1 hour automatically. Off: The test voltage is disabled and the measured mains voltage is used. Note: Only in toolkit! B37574 easYgen-3000XT Series...
Page 322 Maximal 10 reference points define the curve. The space between the points are linear interpolated. The tolerance band for the configured curve is +/- 2% Function Through the input of up to 10 points a reactive power characteristic can be formed. easYgen-3000XT Series B37574...
Page 323 Released 4 Configuration 4.4.4.2.5.2 Reactive Power Q(P) Fig. 167: Example of a Q(P) characteristic with 5 points B37574 easYgen-3000XT Series...
Page 324 That means the configured time defines when 95% of the original setpoint jump is reached. Note: Input 0.0s disables the filter influence. Visualization Q(P) reactive power characteristic Actual value P/Pinst ID10354 Q/Pinst reference ID10349 QP reference [kvar] ID10350 easYgen-3000XT Series B37574...
Page 325 This helps to compensate any local situations from remote. Finally, through a test function, the function gives the operator the chance to simulate different mains voltages to observe if the reactive power flow is being maintained properly. B37574 easYgen-3000XT Series...
Page 326 Released 4 Configuration 4.4.4.2.5.3 Reactive Power Q(V) limit Fig. 168: Example of a Q(V) limit characteristic easYgen-3000XT Series B37574...
Page 327 Interface reference setpoint Q/P limit offset AnalogManager variable "05.47 Interface QP offset" Description Value Meaning Control 10 INTEGER16 Interface reference value Q/P offset. Resolution (1/100) Q/P offset: The “starting” value is 0. The value is limited according to the configuration setting. B37574 easYgen-3000XT Series...
Page 328: Load Share Control
Proportional load/var sharing will not be performed when the easYgen has the GCB closed and is in the constant power/base load mode. A system can consist out of 32 gensets which are controlled by a single easYgen. easYgen-3000XT Series B37574...
Page 329: Mains Parallel Operation With Mains Interchange Real Power Control (Import/Export)
This makes it imperative that the voltage and frequency setpoints are configured identically for each easYgen. The easYgen controller communicates with other controls in the system via a CAN bus. This enables the controllers to adjust the real power generated by the generator while B37574 easYgen-3000XT Series...
Page 330: Re-Synchronization Of The Busbar To The Mains
This means that the voltage window dV [%] is in relation to the rated voltage configuration [%]. When the monitored bus frequency and voltage are within the configured differential limits, the "Command: close MCB" relay will enable, closing the MCB, and the system will be paralleled to the mains. easYgen-3000XT Series B37574...
Page 331: Prerequisites
(corresponding to the reference variable). Frequency control is carried out via the measured voltage/frequency of the voltage system. The MPU is used merely for monitoring functions, or is available as a control value to the secondary controller. B37574 easYgen-3000XT Series...
Page 332 Released 4 Configuration 4.4.4.3.6 Load Sharing Fig. 169: Load sharing diagram easYgen-3000XT Series B37574...
Page 333: Parameters
With a higher value the active load sharing has a higher correction factor in the regulation. Notes This parameter replaces the former existing weighting factor on non-XT easYgen (ID 5530). The default gain 1.25 relates to the 50% value. B37574 easYgen-3000XT Series...
Page 334 This ... gain parameter replaces the former existing (%) ... factor of non-XT easYgen. The table below shows the relation between the old and new values. The used defaults 1.25 / 50% ensure backward compatibility. Weighting % LS Gain 2.25 easYgen-3000XT Series B37574...
Page 335: Load Share Control Grouping
LogicsManager equations. These LogicsManager equations stand for the segment numbers 2, 3, or 4. They are usually controlled by circuit breaker reply auxiliary contacts. This is finally the segment number the easYgens interacts with. B37574 easYgen-3000XT Series...
Page 336 ╚═▷ 12929, ╚═▷ 12928, and ╚═▷ 12927. 12929 Segment no.2 act. Determined by LogicsManager Once the conditions of the 86.87 LogicsManager have been fulfilled, this genset is assigned load share segment number 2 (this easYgen-3000XT Series B37574...
Page 337 Overview”. 5568 Mode ext. load share The operation mode for the gateway external Woodward Load Share Gateway (LSG) is configured here. Woodward EGCP-2 RS-485 (P & Q) Woodward SPM-D R = 4.99k | P: 0 − 4 V (0 to 100%) | Q: 0 −...
Page 338: Droop
(ID╚═▷ 1752). In case of a full loaded engine the frequency setpoint will be reduced with the percentage value (ID╚═▷ 5504) related to rated frequency. easYgen-3000XT Series B37574...
Page 339 (ID╚═▷ 1758). In case of a full reactive loaded generator the voltage will be reduced with the percentage value (ID╚═▷ 5604) of the rated frequency. B37574 easYgen-3000XT Series...
Page 340 Multiple easYgens are load sharing under each other, if they run islanded from mains or they control export/import power at a common interchange point. For dynamic reasons it makes sense to disable the load sharing, when the easYgens running in droop or can fall into droop mode (Missing member case). easYgen-3000XT Series B37574...
Page 341: Frequency Control
◦ on the button "Analog manager" in the left sidebar (below permanent buttons) ◦ ◦ on two times "next page", or ◦ • search for one of the frequency controlled value shown at the status screen • B37574 easYgen-3000XT Series...
Page 342 MPU: The source for the speed control is the speed input. Usually the connected MPU or the J1939 speed. Refer to ID 15155 Engine speed source" for more information. The rpm value is internally calculated to an Hz value and easYgen-3000XT Series B37574...
Page 343 [1.00] The integral gain corrects for any offset (between setpoint and process variable) automatically over time by shifting the proportioning band. Reset automatically changes the output requirements until the process variable and the setpoint are the same. B37574 easYgen-3000XT Series...
Page 344 This prevents unneeded wear on the frequency bias output control or the raise/lower relay contacts. Example • If the frequency setpoint is • 50 Hz and a deadband of 0.5 Hz is configured, the easYgen-3000XT Series B37574...
Page 345 By increasing the gain, the response is increased to permit larger corrections to the variable to be controlled. The farther out of tolerance the process is the larger the response action is to return the process to the tolerance band. B37574 easYgen-3000XT Series...
Page 346 [A1 = 05.51 Internal f setp1 [Hz]] The internal frequency setpoint 05.51 can be changed manually at the setpoint screen of the display. Notes The frequency setpoint may be adjusted within the configured easYgen-3000XT Series B37574...
Page 347 [0.10 Hz] utility. With this offset, the unit synchronizes with a positive slip. Example If this parameter is configured to 0.10 Hz and the busbar/mains frequency is 50.00 Hz, the synchronization setpoint is 50.10 Hz. Notes B37574 easYgen-3000XT Series...
Page 348 The different setpoint values are ramp supplied to the controller via this [2.50 Hz/s] ramp. (Frequency control setpoint ramp) The slope of the ramp is used to alter the rate at which the controller modifies the setpoint value. easYgen-3000XT Series B37574...
Page 349 (50.0Hz – [5% * 0.50 * 50 Hz]) = 50.0 Hz – 1.25 Hz = 48.75 Hz. • Active power: +500 kW = • +100% of rated power Frequency is adjusted to: (50.0Hz – [5% * 1.00 * B37574 easYgen-3000XT Series...
Page 350: Load Control
• after mains decoupling • • after »Frequency depending derating of power« (see chapter • ╚═▷ “4.4.4.5.4 Derating And Uprating Of Power ”) becomes inactive. Default ramping is backward compatible because parameter ╚═▷ 5015 per default comes with zero. easYgen-3000XT Series B37574...
Page 351: Configure: Load Control (General)
The farther out of tolerance the process is the larger the response action is to return the process to the tolerance band. Notes If the gain is configured too high, the result is excessive overshoot/ undershoot of the desired value. B37574 easYgen-3000XT Series...
Page 352 D part setting for systems with secondary controllers. 5560 Deadband 0.10 to 9.99% The generator load is controlled in such a manner, when paralleled [1.00%] with the mains, so that the monitored load does not deviate easYgen-3000XT Series B37574...
Page 353 "3pos controller". 5637 Cycle time factor 1.0 to 20.0 The cycle time factor adjusts the time between the pulses (pause [1.0] time). By increasing the cycle time factor, the time between the pulses increases. B37574 easYgen-3000XT Series...
Page 354 The faster the change in the setpoint is to be carried out, the greater the value entered here must be. Notes This ramp is also used in islanded operation for loading or unloading an additional genset. An excessive easYgen-3000XT Series B37574...
Page 355 BDEW. 5569 Load control 0.10 to 100.00%/sec The ramp rate is used for the unloading ramp unloading in parallel operation or [3.00%/sec] islanded operation. B37574 easYgen-3000XT Series...
Page 356 Determined by LogicsManager The LogicsManager can be used to 86.98 control whether frequency control or active power control should be [(04.07& 04.06) & 1] performed. If this LogicsManager condition is TRUE, the active power control is performed. easYgen-3000XT Series B37574...
Page 357: Configure: Load Setpoints
[A1 = 05.54 Internal P setp1 [kW]] The internal load setpoint 05.54 can be changed manually at the setpoint screen of the display. Notes The load setpoint may be adjusted between 0 and the configured load control setpoint maximum (parameter ╚═▷ 5523). B37574 easYgen-3000XT Series...
Page 358 For information on the LogicsManager and its default settings see ╚═▷ “9.3.1 LogicsManager Overview”. Remotely switching the setpoint is possible: Use the LogicsManager command variable for input that is correlating with the dedicated bit of parameter ╚═▷ ⇱. easYgen-3000XT Series B37574...
Page 359 TRUE, the frequency setpoint 3 will be used instead of frequency setpoint 2. The ActPower SP3 (result of AM) ╚═▷ 5606 instead of ╚═▷ 5539 will be taken into account. Notes For information on the LogicsManager and its default B37574 easYgen-3000XT Series...
Page 360 »Setp. 3 load« is true, [(0 & 1) & 1] the frequency setpoint 4 will be enabled, i.e. the setting of parameter ╚═▷ 5609 overrides the setting of parameter ╚═▷ 5539. Notes For information on the LogicsManager and its default easYgen-3000XT Series B37574...
Page 361: Configure: Warm-Up
This parameter is only effective if "Warm-up mode" (parameter ╚═▷ 5533) is configured to "Analog val contr". 5538 AM Warm-up Determined by AnalogManager The engine warm-up criterion may criterion 81.02 be selected from the available data sources. B37574 easYgen-3000XT Series...
Page 362: Derating And Uprating Of Power
(e.g. if there is a new engine or after maintenance). Uprating example: • A single engine shall run with a higher load than the others e.g. for load test. • Block Diagram This diagram shows the different paths of the selected derating sources: easYgen-3000XT Series B37574...
Page 363 Released 4 Configuration 4.4.4.5.4 Derating And Uprating Of Power Fig. 173: Derating of Active Power Derating priority If more than one derating function is configured the one which calculates the lowest setpoint becomes effective. B37574 easYgen-3000XT Series...
Page 364 (in percentage too) of rated power). The easYgen is able to accept this message and to derate the power according to this message. If derating is active, the display shows the indication “Derating”. easYgen-3000XT Series B37574...
Page 365: Active Power - Frequency Function P(F)
• f depending uprating of power OR • • both. • The reference for the uprating or derating power can be calculated out of the actual power or the rated power. This is differently treated in grid codes 4105 and 4110. B37574 easYgen-3000XT Series...
Page 366 If the mains frequency exceeds the f stop value ID 5095 the calculation will be disabled and the active power controller regulates its original active power setpoint. Should the active power setpoint be changed meanwhile the mains failure power ramp will be activated. easYgen-3000XT Series B37574...
Page 367 5785 Hold max. derating It can be determined, whether the max. calculated reduction value shall be hold. [Off] In that case the last highest reduction rate is kept until the the f-stop value is underrun. B37574 easYgen-3000XT Series...
Page 368 On:The mains test frequency is used for f- dependent up-/derating instead of the measured mains frequency. Off: The test frequency is disabled and the measured mains frequency is used. Note:Enable mains test frequency" is reset to Off automatically after 1 hour. easYgen-3000XT Series B37574...
Page 369 • Values which indicate the derating respectively uprating percent value: • 10341 Freq.dep.derating of power [%] • • 10356 Freq.dep.uprating of power [%] • Values which indicate the resulting setpoint: • 10358 Freq.dep.uprating of power [kW] • B37574 easYgen-3000XT Series...
Page 370 ◦ “10358 Setpoint derating of power” indicates 104 kW (130 kW – 24 kW). ◦ • The power derating ΔP • is calculated as follows: ◦ ΔP ◦ = 100 % x 40 %/Hz x (50.50 Hz - 50.20 Hz] / 100 % = 12 % easYgen-3000XT Series B37574...
Page 371: Photovoltaic (Pv) Load Reduction Regulated Mode
With knowing the system load the easYgen3000XT regulates the PV power so that a given generator load level is kept. The PV regulation output is PID control loop based on: • The generator real load [%] • • The configurable generator minimal load • [%]╚═▷ 8914 B37574 easYgen-3000XT Series...
Page 372 TRUE, the output 10.39 PV load ref. [%] shows the current PID value and the corresponding LM "PV load ref." is TRUE. To provide a proper function the PV reduction must be tracked slowly. Reverse power of the generator must lead to an instant cut of the PV load. easYgen-3000XT Series B37574...
Page 373 The proportional coefficient specifies the gain. By increasing [5.00] the gain, the response is increased to permit larger corrections to the variable to be controlled. The farther out of tolerance the process is the larger the response B37574 easYgen-3000XT Series...
Page 374 [2.0%] between genset control and PV inverter when a tolerance window is matched. 8930 Setpoint ramp 0.1 to 10.0%/s This is the setpoint ramp for the actual generator minimal load if [1.0%/s] the regulation is enabled. easYgen-3000XT Series B37574...
Page 375: Pid {X} Control
No control is carried out. 5670 5580 PID1 ctrl.release If this LogicsManager condition is PID{x} Determined by TRUE, the PID {x} controller will LogicsManager 5593 be released. 87.17, 87.18, 87.19 5679 [(0 & 1) & 1] = 11406/11407/11408 Notes B37574 easYgen-3000XT Series...
Page 376 5576 Deadband 0 to 32000 Shows the adjust range around the setpoint value when no 5589 [10] displace impulse is issued. This avoids an unnecessary abrasion of 5675 relay contacts for higher/lower. (Only three-position controller) easYgen-3000XT Series B37574...
Page 377 (e.g. default value). 5737 PID1 control setpoint 1 to 32000 The different setpoint values are ramp supplied to the controller via this 5738 [10] ramp to prevent an overshoot of the process value when enabling 5739 the controller. B37574 easYgen-3000XT Series...
Page 378: Discrete Raise/Low Function
5523). The power factor may be adjusted between 0.71 leading and 0.71 lagging. Parameter Setting range Description [Default] 12900 Discrete f/P + Determined by LogicsManager Once the conditions of the 86.21 LogicsManager have been fulfilled, the frequency / load setpoint will [(0 & 1) & 1] be raised. easYgen-3000XT Series B37574...
Page 379 000.01 ... 100.00 %/s Configurable ramp rate for active power setpoint raise and lower [003.00 %/s] commands. 5027 Discr. ramp cos.phi 000.01 ... 100.00 %/s Configurable ramp rate for Power Factor (PF) setpoint raise and [007.50 %/s] lower commands. B37574 easYgen-3000XT Series...
Page 380: Configure Operation Modes
Operat. mode AUTO WARNING! In Operation mode AUTO (intentionally): (Activate operating mode AUTOMATIC ) • the STOP button on front • panel is without function and • the soft buttons for operation • mode selection are not displayed. Notes easYgen-3000XT Series B37574...
Page 381 [(0 & 1) & 1] mode TEST. = 12272 If TEST mode is selected via the LogicsManager it is not possible to change operating modes via the front panel. Notes For information on the LogicsManager and its default B37574 easYgen-3000XT Series...
Page 382: Operation Mode Auto - Automatic Run
The breaker handling depends on the configured application mode and breaker logic. Refer to ╚═▷ Fig. 176 ╚═▷ “9.3.4 Logical Outputs” for the priority of the logical outputs in case that more than one logical output is TRUE. easYgen-3000XT Series B37574...
Page 383 Once the conditions of the LogicsManager have been fulfilled, the control issues a stop request in AUTOMATIC mode. Notes It is possible to interrupt an already activated emergency run. B37574 easYgen-3000XT Series...
Page 384: Operation Mode Test
In TEST mode the breakers are operated like in the application mode configured. The handling in the setpoint screen is be the same like in the AUTOMATIC mode. Emergency run (AMF) and sprinkler run -- if configured -- both are fully supported. easYgen-3000XT Series B37574...
Page 385 [60 s] This is the time duration for the restriction time restricted TEST mode. 0..9999 s 4680 Operation mode after This is the operation mode, on TEST which the genset control changes after the time restricted TEST run. B37574 easYgen-3000XT Series...
Page 386: Critical Mode
• If the GCB trips the load test is interrupted • 4.4.5.4 Critical Mode The critical mode may be used to operate a fire engine pump or any other critical operation which does not allow a shutdown of the genset under any alarm conditions. easYgen-3000XT Series B37574...
Page 387: Critical Operation At Busbar
(Close GCB in critical mode) should be configured to "Yes" and an external provision for load reduction should be provided. This ensures the pump operation of a sprinkler system. Application and breaker transition mode remain as configured. A mains parallel operation is possible. B37574 easYgen-3000XT Series...
Page 388 ◦ If open transition mode is configured, the GCB will not be opened to prevent a ◦ dead busbar. ◦ The engine remains running until the conditions for the critical mode are no ◦ longer existent. easYgen-3000XT Series B37574...
Page 389 ◦ If the genset was not running before critical mode has been enabled, it will be ◦ stopped after cool down time (parameter ╚═▷ 3316) has expired. B37574 easYgen-3000XT Series...
Page 390: Critical Operation At The Generator
• Emergency power operation ends before the end of the critical mode: • ◦ The critical mode is maintained and the load is transferred from generator ◦ supply to mains supply after the mains settling delay expires. easYgen-3000XT Series B37574...
Page 391 ◦ If the genset was not running before critical mode has been enabled, it will be ◦ stopped after cool down time (parameter ╚═▷ 3316) has expired. B37574 easYgen-3000XT Series...
Page 392: Parameters
The message "Cool down" is displayed and the LogicsManager command variable 04.10 becomes TRUE. 4100 Close GCB in critical If a critical mode operation is mode detected the GCB will close. easYgen-3000XT Series B37574...
Page 393: Load Dependent Start/Stop (Ldss)
• With higher dynamic the efficiency can be increased, but the change of generators • becomes more frequent. • With lower dynamic the efficiency can be lower for the first couple of engines, but • overall the change of generators becomes less frequent. Three levels of Dynamic High: B37574 easYgen-3000XT Series...
Page 394 If the required generator load setpoint for the control at the mains interchange point exceeds the MOP minimum load threshold (parameter ╚═▷ 5767), the first genset will be added. • PMN • – PMN > PMOP setpoint real minimum easYgen-3000XT Series B37574...
Page 395: System Reserve Power
Table 62: Load-dependent start/stop - parameters for reserve power operation Note: It is also possible to change the effective reserve power via interface. Refer to: • • ╚═▷ “Remote LDSS IOP reserve power ” • • ╚═▷ “Remote LDSS MOP reserve power ” B37574 easYgen-3000XT Series...
Page 396 5769) plus the rated load of the genset, the genset will be stopped. The hysteresis is intended to prevent frequent starting and stopping of gensets in case of small load variations. • P • > P reserve reserve parallel hysteresis MOP RatedGen easYgen-3000XT Series B37574...
Page 397 Setting range Description [Default] 12930 LD start stop Determined by LogicsManager Once the conditions of the 86.86 LogicsManager have been fulfilled, (Load-dependent start the load-dependent start/stop stop) [(0 & 1) & 1] function is enabled. = 11915 Notes B37574 easYgen-3000XT Series...
Page 398 (parameter ╚═▷ 2802) must be enabled. 5751 Base priority 1 to 32 The priority of the genset in the load-dependent start/stop network is configured with this parameter (╚═▷ “4.4.5.5.3 Generator Selection”). The lower the number easYgen-3000XT Series B37574...
Page 399 The fuel efficiency may be optimized when this parameter is enabled. This parameter may be disabled if all generators have the same size. Notes The algorithm prefers one large engine instead of multiple small B37574 easYgen-3000XT Series...
Page 400 The genset with the highest hours until the next service will be started first. Notes To run this functionality properly the maintenance call must be acknowledged accordingly. easYgen-3000XT Series B37574...
Page 401 32/64/128 hour spacing. All 64h Example 1 All 128h • "Changes of engines" is • configured to "All 64h" • Generator 1 has 262 • maintenance hours remaining • Generator 2 has 298 • maintenance hours remaining B37574 easYgen-3000XT Series...
Page 402 5.00 through 5.99. In this instance the largest time group will determine which generator is brought online. Generator 2 will be started because it is in time group 5. easYgen-3000XT Series B37574...
Page 403 4.4.5.5.4 Islanded Parallel Operation (IOP) General notes In case of an islanded parallel operation (MCB open), the first genset will be connected to the de-energized busbar. At least one genset must be in operation in islanded operation. B37574 easYgen-3000XT Series...
Page 404 The available generator power is calculated by adding up the generator real power ratings of all generators with closed GCBs. The easYgen-3000XT Series B37574...
Page 405 [70%] load-dependent start/stop function will start another genset. Notes This parameter is only effective if start stop mode (parameter ╚═▷ 5752) is configured to "Generator load". The maximum generator load must be configured higher then B37574 easYgen-3000XT Series...
Page 406 A larger genset is requested and it will take longer until the next change is required. The engines are operated with more reserve power. The requested load is calculated so that the gensets will be loaded with 25 % of the range easYgen-3000XT Series B37574...
Page 407 75 % of the range between minimum and maximum generator load (parameters ╚═▷ 5762 & ╚═▷ 5763). Notes This parameter is only effective if start stop mode (parameter ╚═▷ B37574 easYgen-3000XT Series...
Page 408 • Low: • Load level before stopping: 23.75% Resulting load level for remaining engine: 47.5% (25% of the difference between 70 and 40%) • Moderate: • Load level before stopping: 27.5% Resulting load level for remaining engine: easYgen-3000XT Series B37574...
Page 409 If the load exceeds the hysteresis setpoint before the delay time expires, the delay time is reset and a stop command is not issued. B37574 easYgen-3000XT Series...
Page 410 (refer to ╚═▷ “Remote LDSS MOP reserve power ”). 5768 MOP Reserve power 0 to 999999 kW The minimum reserve power in mains parallel operation is [50 kW] configured here. This is the easYgen-3000XT Series B37574...
Page 411 5752) is configured to "Generator load". The maximum generator load must be configured higher then the minimum generator load for proper operation. 5771 MOP Min. generator 0 to 100% If the generator load falls below load the threshold configured here, the B37574 easYgen-3000XT Series...
Page 412 Also refer to the following example. [Low] Starting genset A larger genset is requested and it will take longer until the next change is required. The engines are operated with more reserve easYgen-3000XT Series B37574...
Page 413 This may lead to more frequent starts and stops. The load on the remaining gensets must not exceed 75 % of the range between minimum and maximum generator load (parameters ╚═▷ 5762 & ╚═▷ 5763). Notes B37574 easYgen-3000XT Series...
Page 414 If the load exceeds the hysteresis setpoint before the delay time expires, the delay time is reset and a stop command is not issued. easYgen-3000XT Series B37574...
Page 415 The external source mode is dedicated for external installed ATS controls which measure the mains power. The system allows up to 5 ATS controls at the Interchange point. In this mode, external ATS controls send information via CANopen RPDO messages. The easYgen provides information going to the ATS control. B37574 easYgen-3000XT Series...
Page 416 The internal source mode is dedicated to use the own mains power measurement assigned via Analogmanager . Fig. 181: Internal mode The external ATS control sends information in CANopen RPDO messages. The easYgen provides information going to the ATS control. easYgen-3000XT Series B37574...
Page 417 • The GCB can be closed regardless of the engine delay time if the generator • frequency and voltage are within the configured operating limits (╚═▷ “4.5.1.1 Generator Operating Ranges: Voltage / Frequency / Busbar”) if the parameter "Undelay close GCB" (parameter ╚═▷ 12210) has been set accordingly (default setting). B37574 easYgen-3000XT Series...
Page 418 [3.00 s] monitored mains must be failed delay) continuously for the minimum period of time set with this parameter. Notes This delay time starts only if the easYgen is in AUTOMATIC operating mode and emergency power is activated. easYgen-3000XT Series B37574...
Page 419 "87.70 LM: Release eng.mon.". With software revision 1.13 or higher each monitoring LogicsManager can be enabled alternatively by one of 32 Flags. Factory settings ensure same behavior of each affected monitoring function as of non-XT easYgen series before. B37574 easYgen-3000XT Series...
Page 420 (Hysteresis: 0.05%) limit) (parameter ╚═▷ 1750) is configured here. This value may be used as a frequency limit switch. The conditional state of this switch may be used as a command easYgen-3000XT Series B37574...
Page 421 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). Table 64: Parameter settings: Busbar B37574 easYgen-3000XT Series...
Page 422 The diagrams listed there show a frequency trend and the associated pickup times and length of the alarms. The parameter limits listed below have identical setting ranges. Each parameter may be configured with different settings to create unique trip characteristics for specific thresholds. easYgen-3000XT Series B37574...
Page 423 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). B37574 easYgen-3000XT Series...
Page 424 (╚═▷ “4.4.1.4 Idle Mode”) is active. Parameter Setting range Description [Default] 2050 Monitoring [On] Undervoltage monitoring is carried out according to the following 2056 parameters. Monitoring is performed at two levels. Both values may be configured independent from each easYgen-3000XT Series B37574...
Page 425 (via a discrete input or via an interface). 2053 Enabled Always Monitoring for this fault condition is continuously enabled. 2059 [87.70 LM:Eng.mon] Monitoring for fault conditions is not performed until engine monitoring is enabled. This is determined through the B37574 easYgen-3000XT Series...
Page 426 [10.0%] limit are defined here. (Hysteresis: 0.5%) If this value is reached or exceeded for at least the delay (Reset Delay: 80 ms) time without interruption, the action specified by the alarm class is initiated. Notes easYgen-3000XT Series B37574...
Page 427 LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 B37574 easYgen-3000XT Series...
Page 428 [Class B] taken when the limit is surpassed. 1967 Self acknowledge [Yes] The control unit automatically clears the alarm if the fault condition is no longer detected. The control unit does not automatically reset the alarm easYgen-3000XT Series B37574...
Page 429 [Default] 1900 Monitoring [On] Overfrequency monitoring is carried out according to the 1906 following parameters. Monitoring is performed at two levels. Both values may be configured independent from each other (prerequisite: Level 1 limit < limit 2). B37574 easYgen-3000XT Series...
Page 430 (via a discrete input or via an interface). 1903 Enabled [Always] Monitoring for this fault condition is continuously enabled. 1909 87.70 LM:Eng.mon Monitoring for fault conditions is not performed until engine monitoring is enabled. This is easYgen-3000XT Series B37574...
Page 431 The percentage values that are to be monitored for each threshold 1960 1954: [90.0%] limit are defined here. 1960: [84.0%] If this value is reached or lower for at least the delay time without (Hysteresis: 0.05 Hz) B37574 easYgen-3000XT Series...
Page 432 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: easYgen-3000XT Series B37574...
Page 433 (Hysteresis: 1%) is initiated. (Reset Delay: 1 s) Notes This value refers to the System rated frequency (parameter ╚═▷ 1754). 2205 Delay 0.02 to 99.99 s If the monitored generator current exceeds the threshold value for B37574 easYgen-3000XT Series...
Page 434 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: easYgen-3000XT Series B37574...
Page 435 I is, the steeper is the slope of the tripping curve The maximum tripping time is 327 s. If a tripping time greater than 327 s is configured, an overcurrent fault condition will not be recognized. B37574 easYgen-3000XT Series...
Page 436 Released 4 Configuration 4.5.1.4.2 Generator Inverse Time-Overcurrent ANSI# IEC 255 Characteristics Fig. 182: "Normal inverse" characteristic Fig. 183: "Highly inverse" characteristic easYgen-3000XT Series B37574...
Page 437 If the [115.0%] monitored current is less than , the inverse time-overcurrent start (Hysteresis: 1%) protection does not trip. If I start less than I is used as the lower (Reset Delay: 1 s) tripping value. B37574 easYgen-3000XT Series...
Page 438 Generator Voltage Restrained Overcurrent Monitoring - ANSI #51V General Notes This function is an add-on to the over current monitoring and decreases the activation limit dependent on the amount of voltage dip. Especially in near to generator located easYgen-3000XT Series B37574...
Page 439 Now the effective limit is calculated as: Effective limit [%] = Limit [%] * Modification Factor [%]/ 100[%] Supposed the configured limit of an over current monitor is 110% and the measured voltage is 25%: Effective limit [%] =110% * 25%/100% = 27.5% B37574 easYgen-3000XT Series...
Page 440 "Gen. Overload IOP 2" and the logical command variable "06.14" or "06.15" will be enabled. Refer to ╚═▷ “9.1.1 Triggering Characteristics” for the triggering characteristic of this monitoring function. Parameter Setting range Description [Default] 2300 Monitoring [On] Overload monitoring is carried out according to the following easYgen-3000XT Series B37574...
Page 441 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). 2303 Enabled [Always] Monitoring for this fault condition is continuously enabled. 2309 B37574 easYgen-3000XT Series...
Page 442 2350 Monitoring [On] Overload monitoring is carried out according to the following 2356 parameters. Monitoring is performed at two levels. Both values may be configured independent from each other (prerequisite: Level 1 limit < Level 2 limit). easYgen-3000XT Series B37574...
Page 443 2353 Enabled [Always] Monitoring for this fault condition is continuously enabled. 2359 87.70 LM:Eng.mon Monitoring for fault conditions is not performed until engine monitoring is enabled. This is determined through the LogicsManager equation "Release engine monitoring". B37574 easYgen-3000XT Series...
Page 444 The values for reverse /reduced power monitoring can be configured as follows: • Level 1 limit = Positive and Level 2 limit = Positive • (whereas Level 1 limit > Level 2 limit > 0 %) • Both limits are configured for reduced power monitoring. • easYgen-3000XT Series B37574...
Page 445 2260: [-5.0%] If this value is reached or fallen below for at least the delay time (Hysteresis: 1%) without interruption, the action specified by the alarm class is (Reset Delay: 80 ms) initiated. Notes B37574 easYgen-3000XT Series...
Page 446 LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 easYgen-3000XT Series B37574...
Page 447 ) / 2 = (3 * 300 A * 10% + 300 A + 300 A) / 2 = ((3 * 300 A * 10) / 100 + 300 A + 300 A) / 2 = 345 A B37574 easYgen-3000XT Series...
Page 448 Class A, Class B, Class C, Class D, Each limit may be assigned an Class E, Class F , Control independent alarm class that 2407 specifies what action should be 2401: [Class B] taken when the limit is surpassed. easYgen-3000XT Series B37574...
Page 449 The percentage value that is to be monitored for the threshold limit is [30.0%] defined here. If this value is reached or exceeded for at least the delay time without interruption, the action specified by the alarm class is initiated. B37574 easYgen-3000XT Series...
Page 450 LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 easYgen-3000XT Series B37574...
Page 451 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). B37574 easYgen-3000XT Series...
Page 452 This value refers to the generator rated active power (parameter ╚═▷ 1752). 2923 Delay 3 to 9999 s If the monitored active power mismatch exceeds the threshold [30 s] value configured in parameter ╚═▷ 2925 for the delay easYgen-3000XT Series B37574...
Page 453 (parameter ╚═▷ 3123) expires, a "GCB open" command will be issued together with an alarm. If this protective function is triggered, the display indicates "Gen. unloading fault" and the logical command variable "06.30" will be enabled. B37574 easYgen-3000XT Series...
Page 454 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). easYgen-3000XT Series B37574...
Page 455 Export Inductive Power Fig. 186: Generator lagging power factor Parameter Setting range Description [Default] 2325 Monitoring [On] Generator lagging power factor monitoring is carried out 2331 according to the following parameters. Monitoring is performed at two levels. Both B37574 easYgen-3000XT Series...
Page 456 (via a discrete input or via an interface). 2328 Enabled Always Monitoring for this fault condition is continuously enabled. 2334 [87.70 LM:Eng.mon] Monitoring for fault conditions is not performed until engine monitoring is enabled. This is determined through the easYgen-3000XT Series B37574...
Page 457 If this protective function is triggered, the display indicates "Gen. PF leading 1" or "Gen. PF leading 2" and the logical command variable "06.27" or "06.28" will be enabled. B37574 easYgen-3000XT Series...
Page 458 Class A, Class B, Class C, Class D, Each limit may be assigned an Class E, Class F , Control independent alarm class that 2382 specifies what action should be 2376: [Class B] taken when the limit is surpassed. 2382: [Class B] Notes easYgen-3000XT Series B37574...
Page 459 The generator ground fault is determined differently depending on the following configuration options: • Mains current input is configured for mains current • (calculated ground fault) • Mains current input is configured for ground current • (measured ground fault) Refer to parameter ╚═▷ 1854. B37574 easYgen-3000XT Series...
Page 460 The fault threshold value is configured as a percentage. This percentage threshold refers to the generator rated current (parameter ╚═▷ 1754). Due to unavoidable load asymmetries, the minimum value for this parameter should be 10% or greater. easYgen-3000XT Series B37574...
Page 461 The ground fault threshold is configured as a percentage of the value entered for parameter "Generator rated current" (parameter ╚═▷ 1754). The ground fault protection zone is determined by the physical installation location of the generator current transformer. B37574 easYgen-3000XT Series...
Page 462 3257: [Class F] Notes For additional information refer to ╚═▷ “9.5.4 Alarm Classes” 3252 Self acknowledge The control unit automatically clears the alarm if the fault 3258 condition is no longer detected. easYgen-3000XT Series B37574...
Page 463 LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 B37574 easYgen-3000XT Series...
Page 464 50 % of the rated voltage (parameter ╚═▷ 1766) or if Generator voltage measuring (parameter ╚═▷ 1851) is configured to "1Ph 2W" (in this case, the phase rotation is not evaluated, but defined by the 1Ph2W phase rotation (parameter ╚═▷ 1859)). easYgen-3000XT Series B37574...
Page 465 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: B37574 easYgen-3000XT Series...
Page 466 AND (If Pole slip with current limit is enabled) • The generator current has surpassed a configurable limit • AND (If Pole slip with pickup is enabled) • A configurable difference is detected between pickup speed and the measured • generator frequency. easYgen-3000XT Series B37574...
Page 467 AC measurement. 2419 Number of pole slip 1 to 10 This is the maximum allowed events number of pole slips to trigger the alarm. B37574 easYgen-3000XT Series...
Page 468 If this protective function is triggered, the display indicates "Overspeed 1" or "Overspeed 2" and the logical command variable "05.01" or "05.02" will be enabled. Refer to ╚═▷ “9.1.1 Triggering Characteristics” for the triggering characteristic of this monitoring function. easYgen-3000XT Series B37574...
Page 469 (via a discrete input or via an interface). 2103 Enabled [Always] Monitoring for this fault condition is continuously enabled. 2109 87.70 LM:Eng.mon Monitoring for fault conditions is not performed until engine monitoring is enabled. This is determined through the B37574 easYgen-3000XT Series...
Page 470 2155 Delay 0.02 to 99.99 s If the monitored engine speed falls below the threshold value for 2161 2155: [1.00 s] the delay time configured here, an alarm will be issued. 2161: [0.10 s] Notes easYgen-3000XT Series B37574...
Page 471 If the two frequencies are not identical (Δf-n ≠ 0) and the monitored frequency mismatch reaches or exceeds the threshold, an alarm is output. Additionally the LogicsManager output "Firing speed" is checked upon its logical status with respect to the measuring values "generator frequency" and "Pickup speed". B37574 easYgen-3000XT Series...
Page 472 1 to 99 s If the monitored frequency mismatch exceeds the threshold [1 s] value for the delay time configured here, an alarm will be issued. Notes If the monitored frequency mismatch falls below the threshold (minus the hysteresis) easYgen-3000XT Series B37574...
Page 473 2, ..., 96.32 LM: Flag 32 4.5.2.4 Engine Start Failure General notes If it is not possible to start the engine within a configured number of start attempts (refer ╚═▷ “4.4.1.2 Engine Start/Stop”), an alarm will be initiated. B37574 easYgen-3000XT Series...
Page 474 If this protective function is triggered, the display indicates "Eng. stop malfunct." and the logical command variable "05.06" will be enabled. We recommend to assign this monitoring function to a discrete output to be able to shutdown the engine with an external device to provide a shutdown redundancy. easYgen-3000XT Series B37574...
Page 475 If an engine stop has been detected without a stop command being issued, an alarm will be initiated. If this protective function is triggered, the display indicates "Unintended stop" and the logical command variable "05.05" will be enabled. B37574 easYgen-3000XT Series...
Page 476 [Default] 4050 Monitoring Monitoring of the charge alternator is carried out according to the following parameters. [Off] Monitoring is disabled. 4055 Delay 2 to 9999 s If the voltage measured at the auxiliary excitation input D+ falls easYgen-3000XT Series B37574...
Page 477 The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 4.5.2.8 Cylinder Temperature General Notes Up to 20 temperatures monitored! B37574 easYgen-3000XT Series...
Page 478 This could be for example a failed spark plug or a too hot combustion. The easYgen-3000XT series provides a monitor which supervises the deviation of a single temperature to the average temperature of a group. Whereby either one average temperature exists (inline engine) or two average temperatures are available (V-engine with two banks).
Page 479 A cylinder with sensor defect is removed from the average temperature calculation and trips an independent alarm! Alarm System / Eventlogger The alarm system provides three alarm messages: • Cylinder temperature level 1 • • Cylinder temperature level 2 • • Wire break • B37574 easYgen-3000XT Series...
Page 480 • • 11.57 Cyl.temp.bank 2 [°C] • • The hysteresis for the temperature limit is 2°C. • • The hysteresis for the power limit is 1% rated generator power. • Alarm Screen Fig. 192: Cylinder temperature screen easYgen-3000XT Series B37574...
Page 481 (Phoenix, AI1 - AI16, 16 ports). [J1939] The temperatures are taken from the J1939 protocol. (SPN 1137 - 1156, 20 ports). Notes Parameter available only if external sources for cylinder temperature are connected. B37574 easYgen-3000XT Series...
Page 482 Alarm class Class A, Class B, Class C, Class D, Each limit may be assigned to an Class E, Class F , Control independent alarm class that specifies what action should be taken when the limit is surpassed. easYgen-3000XT Series B37574...
Page 483 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). B37574 easYgen-3000XT Series...
Page 484 Bank Cylinder Bits 3352 0..1 3355 0..1 2..3 2..3 14..15 14..15 3353 0..1 3356 0..1 2..3 2..3 14..15 14..15 3354 0..1 3357 0..1 2..3 2..3 4..5 4..5 6..7 6..7 (not in 8..15 (not in 8..15 use) use) easYgen-3000XT Series B37574...
Page 485 [20 s] within the configured operating parameters without interruption for the minimum period of time set with this parameter without interruption. This parameter permits delaying the switching of the load from the generator to the mains. B37574 easYgen-3000XT Series...
Page 486 Description [Default] 15159 Disable mns.mon. Determined by LogicsManager Switch to disable 87.72 • all mains monitoring • [(0 & 1) & 1] functions and • the mains decoupling • = 0.00; t = 0.00] function. = 11461 easYgen-3000XT Series B37574...
Page 487 (parameter ╚═▷ 1768) is configured here. This value may be used as a voltage limit switch. The conditional state of this switch may be used as a command variable for the LogicsManager (02.09). B37574 easYgen-3000XT Series...
Page 488 If the mains frequency has frequency limit exceeded the limit configured in [0.5%] parameter ╚═▷ 5813, the frequency must raise above the limit and the value configured here, to be considered as being within the operating limits again. easYgen-3000XT Series B37574...
Page 489 (╚═▷ “4.5.1.2.1 Generator Overvoltage (Level 1 & 2) ANSI# 59”) • Undervoltage level 2 • (╚═▷ “4.5.1.2.2 Generator Undervoltage (Level 1 & 2) ANSI# 27”) • Mains phase shift / df/dt (ROCOF) • (╚═▷ “4.5.3.12 Change Of Frequency”) B37574 easYgen-3000XT Series...
Page 490 MCB opens, the GCB will be closed again. GCB->MCB Mains decoupling is carried out according to the following parameters. If one of the subordinate monitoring functions is triggered, the GCB will be opened. If the reply "GCB open" is easYgen-3000XT Series B37574...
Page 491 ╚═▷ “9.5.4 Alarm Classes”. 3112 Self acknowledge The control automatically clears the alarm if the fault condition is no longer detected. [No] The control does not automatically reset the alarm when the fault condition is no longer detected. B37574 easYgen-3000XT Series...
Page 492 "Delay step 1" (parameter ╚═▷ 3283). [Off] The QV monitoring function is ignored in the mains decoupling function. 4989 Mns.decoupl.by time- Time-dependent voltage dep.volt. monitoring does cause a decoupling. easYgen-3000XT Series B37574...
Page 493 A retriggering of the mains decoupling can be performed after 0.5 s + "Mns. decoupling feedback delay" (parameter ╚═▷ 3113) without leaving the test mode. As long as the codelevel is ≥ 2 it is B37574 easYgen-3000XT Series...
Page 494 Woodward solves this requirement with the use of a minimum of two units acting as a system (for example two easYgens or an easYgen and an LS-5 with 4105 functionality).
Page 495 Select mains decoupling 4105 Monitoring according AR-–4105 Parameter Setting range Description [Default] 3297 Monitoring [Off] The diagnostic function is disabled, no related monitoring is executed. CAN #1, Ethernet If the diagnostic function is enabled, the related messages B37574 easYgen-3000XT Series...
Page 496 [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by easYgen-3000XT Series B37574...
Page 497 Class A, Class B, Class C, Class D, The alarm class specifies what Class E, Class F , Control action should be taken if the parameter alignment between the [Class C] communication devices(s) of the AR-–4105 system is active. B37574 easYgen-3000XT Series...
Page 498 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). 4.5.3.4.2 Setup Grid Code BDEW (medium voltage guideline) easYgen-3000XT Series B37574...
Page 499 If this protective function is triggered, the display indicates "Mains overfreq. 1" or "Mains overfreq. 2" and the logical command variable "07.06" or "07.07" will be enabled. Refer to ╚═▷ “9.1.1 Triggering Characteristics” for the triggering characteristic of this monitoring function. B37574 easYgen-3000XT Series...
Page 500 For additional information refer to ╚═▷ “9.5.4 Alarm Classes” 2852 Self acknowledge [Yes] The control unit automatically clears the alarm if the fault 2858 condition is no longer detected. The control unit does not automatically reset the alarm easYgen-3000XT Series B37574...
Page 501 Description [Default] 2900 Monitoring [On] Underfrequency monitoring is carried out according to the 2906 following parameters. Monitoring is performed at two levels. Both values may be configured independent from each other (prerequisite: Level 1 > Level 2). B37574 easYgen-3000XT Series...
Page 502 The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager easYgen-3000XT Series B37574...
Page 503 < Level 2 limit). Monitoring is disabled for Level 1 limit and/or Level 2 limit. 2954 Limit 50.0 to 150.0% The percentage values that are to be monitored for each threshold 2960 2954: [108.0%] limit are defined here. 2960: [110.0%] B37574 easYgen-3000XT Series...
Page 504 (via a discrete input or via an interface). 2953 Enabled [Always] Monitoring for this fault condition is continuously enabled. 2959 87.70 LM:Eng.mon Monitoring for fault conditions is not performed until engine monitoring is enabled. This is easYgen-3000XT Series B37574...
Page 505 Parameter Setting range Description [Default] 3000 Monitoring [On] Undervoltage monitoring is carried out according to the following 3006 parameters. Monitoring is performed at two levels. Both values may be configured independent from each B37574 easYgen-3000XT Series...
Page 506 3008 condition is no longer detected. The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing easYgen-3000XT Series B37574...
Page 507 8849). The parameter "Mains decoupling volt. incr." (parameter ╚═▷ 8808) determines if a voltage increase shall trigger a mains decoupling or not. If this protective function is triggered, the display indicates "Mains volt. increase". The alarm can be incorporated into the mains decoupling function. B37574 easYgen-3000XT Series...
Page 508 ╚═▷ “9.5.4 Alarm Classes” 8832 Self acknowledge [Yes] The control unit automatically clears the alarm if the fault condition is no longer detected. The control unit does not automatically reset the alarm when the fault condition is no longer detected. easYgen-3000XT Series B37574...
Page 509 ALL, this value is derived from the ”Phase - Phase“ values. 4.5.3.10 Mains Time-Dependent Voltage General notes Two Time Dependent Mains Voltage Monitors Available Both monitors behave similar but each with a separate Fault-Ride-Through (FRT) curve. B37574 easYgen-3000XT Series...
Page 510 Find parameters ... Find parameters in two menus: • [Configuration / Configure monitoring / Mains decoupling / General mains • decoupling] • [Configuration / Configure monitoring / Mains / Frequency / Voltage / Mains time- • dependent voltage] easYgen-3000XT Series B37574...
Page 511 If the measured voltage falls below/exceeds the configured "Fallback threshold" (parameter ╚═▷ 4978) for at least the configured "Fallback time" (parameter ╚═▷ 4968), the time-dependent voltage monitoring sequence will be reset. B37574 easYgen-3000XT Series...
Page 512 The 3 flags are OR’ed and results in one “FRT initiated” flag. This flag will be kept TRUE for maximal 5 seconds. Finally this ROCOF blocking flag will be inverted and entered as LM Command Variable “07.34 FRT ROCOF enable”. easYgen-3000XT Series B37574...
Page 513 If the measured voltage falls below/exceeds this threshold, the monitoring sequence starts and the voltage threshold will change in time according to the configured threshold curve points. If the measured voltage falls below/exceeds this curve, the B37574 easYgen-3000XT Series...
Page 514 The time values of time- dependent voltage monitoring 4962 [x = 1 to 7] 4961: [0.00 s] time points are configured here. 4963 4962: [0.15 s] 4964 4963: [0.15 s] 4965 4964: [0.70 s] 4966 4965: [1.50 s] 4966: [3.00 s] easYgen-3000XT Series B37574...
Page 515 [1-phase] Uses the lowest/highest phase for triggering the alarm. If "1771 Mains voltage monitoring" is configured to “All”, the alarm will be triggered if at least one phase L-L or at least one phases L-N is B37574 easYgen-3000XT Series...
Page 516 ╚═▷ 4998). 4988 Fallback time 0.00 to 320.00 s The time-dependent voltage 2 monitoring fallback time is [1.00 s] configured here. If the measured voltage falls below/exceeds the configured "Fallback threshold" (parameter ╚═▷ 4998) for at least easYgen-3000XT Series B37574...
Page 517 ╚═▷ “General settings for Mains decoupling and Monitoring Voltage 1 - 3”. Time-dep. voltage 3 Parameter Setting range Description [Default] 9130 Monitoring Enabling the time-dependent voltage monitoring 3. It is an additional independent FRT monitoring. It serves a B37574 easYgen-3000XT Series...
Page 518 Selects whether the system shall do over- or undervoltage monitoring. Underrun The undervoltage monitoring is carried out (The monitoring function triggers if the measured voltage is below the curve). [Overrun] The overvoltage monitoring is carried out (The monitoring easYgen-3000XT Series B37574...
Page 519 The voltage values of time- dependent voltage monitoring 9150 [x = 1 to 7] 9149: [125.0%] voltage points are configured here. 9151 9150: [125.0%] 9152 9151: [120.0%] 9153 9152: [120.0%] 9154 9153: [115.0%] 9155 9154: [115.0%] 9155: [110.0%] Notes B37574 easYgen-3000XT Series...
Page 520 In case of mains undervoltage some grid codes require a special monitoring function to avoid the import of inductive reactive power at the mains interchange point. The monitoring function measures close to the generator. For this reason the QV monitoring is a function of generator voltage and generator reactive power. easYgen-3000XT Series B37574...
Page 521 "Open CBA" Delay step 1 07.29 (parameter 3283) V1 < V Limit & V2 < V Limit Timer 2 LogicsManager Delay step 2 07.30 (parameter 3284) V3 < V Limit System B Fig. 195: QV monitoring - schematic B37574 easYgen-3000XT Series...
Page 522 3280 Alarm class Class A, Class B, Class C, Class D, The alarm class specifies what Class E, Class F , Control action should be taken when at least one delay has been [Class B] exceeded. Notes easYgen-3000XT Series B37574...
Page 523 Please be aware that under special circumstances it may come to a phase shift trip, when switching elements are taken into the mains measurement lines because mains voltage sensing lines are switched nearby the genset control. B37574 easYgen-3000XT Series...
Page 524 100 ms (at 50 Hz). Parameter Setting range Description [Default] 3058 Change of frequency Monitoring is disabled. [Phase shift] Phase shift monitoring is carried out according to the parameters described in ╚═▷ “Phase shift”. easYgen-3000XT Series B37574...
Page 525 If the electrical angle of the mains voltage shifts more than this [8°] configured value in all three phases, an alarm with the class configured in parameter ╚═▷ 3051 is initiated. Depending on the configured mains decoupling procedure B37574 easYgen-3000XT Series...
Page 526 MCB, or an external CB will be opened. 3105 Delay 0.10 to 2.00 s If the monitored rate of df/dt exceeds the threshold value for [0.10 s] the delay time configured here, an alarm will be issued. easYgen-3000XT Series B37574...
Page 527 Defining of an own release flag through Logicsmanager equations. 96.{xx} LM: Flag{xx} FRT ROCOF enable The dynamic mains stabilization according to VDE-AR-N 4110/4105 requires a temporary blocking of the ROCOF monitor. Please refer to the according VDE-AR-N rule. B37574 easYgen-3000XT Series...
Page 528 (parameter ╚═▷ 1768) or if Mains voltage measuring (parameter ╚═▷ 1853) is configured to "1Ph 2W" (in this case, the phase rotation is not evaluated, but defined by the 1Ph2W phase rotation (parameter ╚═▷ 1859)). easYgen-3000XT Series B37574...
Page 529 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: B37574 easYgen-3000XT Series...
Page 530 3214 [0.01%] configured in parameter ╚═▷ 3204 ╚═▷ 3210 plus or minus (Reset Delay: 80 ms) (depending on the setting of parameter ╚═▷ 3215 ╚═▷ 3216) the value configured here, to reset the alarm. easYgen-3000XT Series B37574...
Page 531 LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 B37574 easYgen-3000XT Series...
Page 532 [1.00 s] (depending on the setting of ns export power falls below or exceeds (depending on the setting of parameter ╚═▷ 3232 ╚═▷ 3240) the threshold value for the delay time configured here, an alarm will be issued. easYgen-3000XT Series B37574...
Page 533 If enabled, this monitoring function becomes only active if generator power control is enabled and the active power setpoint is configured to "Import" or "Export" (refer to ╚═▷ “4.4.4.5 Load Control”). If the measured import or export power deviates from the power B37574 easYgen-3000XT Series...
Page 534 [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by easYgen-3000XT Series B37574...
Page 535 If this protective function is triggered, the display indicates "Mains PF lagging 1" or "Mains PF lagging 2" and the logical command variable "07.17" or "07.18" will be enabled. B37574 easYgen-3000XT Series...
Page 536 2976 Self acknowledge The control unit automatically clears the alarm if the fault 2981 condition is no longer detected. [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. easYgen-3000XT Series B37574...
Page 537 Fig. 198: Mains leading power factor ╚═▷ Fig. 198 shows an example of a leading and a lagging power factor limit and the power factor range, for which the leading power factor monitoring issues an alarm. B37574 easYgen-3000XT Series...
Page 538 Each limit may be assigned an Class E, Class F , Control independent alarm class that 3038 specifies what action should be [Class B] taken when the limit is surpassed. Notes For additional information refer to ╚═▷ “9.5.4 Alarm Classes” easYgen-3000XT Series B37574...
Page 539 CB alarm will be initiated (refer to parameter "GCB maximum closing attempts", parameter ╚═▷ 3418). If this protective function is triggered, the display indicates "GCB fail to close" and the logical command variable "08.05" will be enabled. "Breaker open alarm" B37574 easYgen-3000XT Series...
Page 540 If the "Reply GCB" is not detected as energized once this timer [2.00 s] expires, a "GCB fail to open" alarm is issued. This timer initiates as soon as the "open breaker" sequence begins. The alarm configured in parameter ╚═▷ 2601 is issued. easYgen-3000XT Series B37574...
Page 541 The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External acknowledgment" (via a discrete input or via an interface). 1939 Enabled [Always] Monitoring for this fault condition is continuously enabled. B37574 easYgen-3000XT Series...
Page 542 ╚═▷ “9.5.4 Alarm Classes” 3062 Self acknowledge The control unit automatically clears the alarm if the fault condition is no longer detected. [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. easYgen-3000XT Series B37574...
Page 543 CB alarm will be initiated. • Refer to parameter "MCB open monitoring", parameter • ╚═▷ 3421. If this protective function is triggered, the display indicates "MCB fail to open" and the logical command variable "08.08" will be enabled. B37574 easYgen-3000XT Series...
Page 544 1 to 10 The maximum number of breaker closing attempts closing attempts is configured in this parameter (relay output "Command: close MCB"). When the breaker reaches the configured number of attempts, an "MCB fail to close" alarm is issued. easYgen-3000XT Series B37574...
Page 545 The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External B37574 easYgen-3000XT Series...
Page 546 [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager easYgen-3000XT Series B37574...
Page 547 [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing B37574 easYgen-3000XT Series...
Page 548 This function may be assigned an Class E, Class F , Control independent alarm class that specifies what action should be [Class B] taken when this function triggers an alarm. Notes For additional information refer to ╚═▷ “9.5.4 Alarm Classes”. easYgen-3000XT Series B37574...
Page 549 "15.{x}" will be enabled. The flexible limits 25 through 32 are configurable additionally with a 'Fallback time' e.g., for load shedding. The flexible limits 33 through 40 are disabled during idle mode operation (refer to ╚═▷ “4.4.1.4 Idle Mode”). B37574 easYgen-3000XT Series...
Page 550 The entry format of the threshold depends on the respective analog value. If the monitored analog value has a reference value, the threshold is expressed as a percentage of this reference value. easYgen-3000XT Series B37574...
Page 551 [No] The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing B37574 easYgen-3000XT Series...
Page 552 6034 6035 6038 6037 6031 6032 6033 7164 6040 6046 6044 6045 6048 6047 6041 6042 6043 7172 6050 6056 6054 6055 6058 6057 6051 6052 6053 7180 6060 6066 6064 6065 6068 6067 6061 6062 6062 easYgen-3000XT Series B37574...
Page 553 7372 6300 6306 6304 6305 6308 6307 6301 6302 6303 7380 6310 6316 6314 6315 6318 6317 6311 6312 6313 7388 6320 6326 6324 6325 6328 6327 6321 6322 6323 Table 70: Flexible limits - parameter IDs B37574 easYgen-3000XT Series...
Page 554 Type = Pass through Monitoring at Underrun Overrun Limit 2.00 (2.00 bar) 80.00 (80 °C) Hysteresis 0.10 (0.10 bar) 2.00 (2 °C) Delay 0.50 s Alarm class Self acknowledge Enabled Table 72: Flexible limits - configuration examples easYgen-3000XT Series B37574...
Page 555 STOP mode when a shutdown alarm of class C, D, E, F occurs. A shut down alarm does not cause an operating mode change. B37574 easYgen-3000XT Series...
Page 556 Each alarm is configurable by: • A LogicsManager equation • • Alarm text/description (configurable with ToolKit only) • • Delay time • • Alarm class • • Self acknowledgment • • Being enabled depending on Engine Monitoring LM 87.70 (selectable) • easYgen-3000XT Series B37574...
Page 557 Period before alarm becomes TRUE. [1.00 s] 6680 Description [Free alarm 1] Text is configurable by ToolKit..((30 characters))* Notes *) The max. number of characters is 48 but 30 characters can be read on easYgen HMI without restrictions. B37574 easYgen-3000XT Series...
Page 558 If this protective function is triggered, the display indicates "CANopen interface 1" and the logical command variable "08.18" will be enabled. Parameter Setting range Description [Default] 3150 Monitoring CANopen interface 1 monitoring is carried out according to the following parameters. easYgen-3000XT Series B37574...
Page 559 LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: 96.01 LM: Flag 1, 96.02 LM: Flag 2, ..., 96.32 LM: Flag 32 B37574 easYgen-3000XT Series...
Page 560 Setting range Description [Default] 16187 Monitoring CANopen interface 2 monitoring is carried out according to the following parameters. [Off] Monitoring is disabled. 16186 Delay 0.01 to 650.00 s The maximum receiving break is configured with this parameter. easYgen-3000XT Series B37574...
Page 561 If the easYgen doesn’t receive any message from the corresponding device within the configured time the command variable “08.10 CAN fault J1939” becomes active. Additionally a specific alarm “08.37 J1939 ECU timeout”, “08.38 J1939 dev. 1 timeout”, B37574 easYgen-3000XT Series...
Page 562 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: easYgen-3000XT Series B37574...
Page 563 "External acknowledgment" (via a discrete input or via an interface). 15181 Enabled [Always] Monitoring for this fault condition is continuously enabled. 87.70 LM:Eng.mon Monitoring for fault conditions is not performed until engine monitoring is enabled. This is B37574 easYgen-3000XT Series...
Page 564 The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External easYgen-3000XT Series B37574...
Page 565 [Class B] taken when the limit is surpassed. Notes For additional information refer to ╚═▷ “9.5.4 Alarm Classes” 15192 Self acknowledge [Yes] The control unit automatically clears the alarm if the fault condition is no longer detected. B37574 easYgen-3000XT Series...
Page 566 Monitoring of the Red Stop Lamp message from the ECU is carried out according to the following parameters. [Off] Monitoring is disabled. 15119 Delay 0 to 999 s The red stop lamp delay is configured with this parameter. [2 s] easYgen-3000XT Series B37574...
Page 567 General notes This monitor monitors, whether a specific alarm bit is received from the CAN J1939 interface. This enables to configure the easYgen in a way that a reaction is caused by this bit (e.g. warning, shutdown). B37574 easYgen-3000XT Series...
Page 568 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: easYgen-3000XT Series B37574...
Page 569 The control unit does not automatically reset the alarm when the fault condition is no longer detected. The alarm must be acknowledged and reset by manually pressing the appropriate buttons or by activating the LogicsManager output "External B37574 easYgen-3000XT Series...
Page 570 1921 Alarm class Class A, Class B, Class C, Class D, An alarm can be assigned, that Class E, Class F , Control specifies what action should be taken when the conditions are [Class A] fulfilled. Notes easYgen-3000XT Series B37574...
Page 571 The alarm class is fixed to alarm class A. A J1939 device CAN monitor the states of his inputs. When a error occurs a DM1 message is released. [On] DM1 messages will be recorded in the alarm list. B37574 easYgen-3000XT Series...
Page 572 Class A, Class B, Class C, Class D, Each limit may be assigned an Class E, Class F , Control independent alarm class that specifies what action should be [Class B] taken when the limit is surpassed. Notes easYgen-3000XT Series B37574...
Page 573 Parameter Setting range Description [Default] 3450 Monitoring 3450: [On] Overvoltage monitoring of the battery voltage is carried out 3456 3456: [Off] according to the following parameters. Both values may be B37574 easYgen-3000XT Series...
Page 574 Monitoring for fault conditions is not performed until engine monitoring is enabled. This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is TRUE. easYgen-3000XT Series B37574...
Page 575 26 Vdc (alternator charged battery). 3505 Delay 0.02 to 99.99 s If the battery voltage falls below the threshold value for the delay 3511 3505: [60.00 s] time configured here, an alarm will be issued. 3511: [10.00 s] Notes B37574 easYgen-3000XT Series...
Page 576 ”08.71 PV disconnect“ if the real generator load underruns the configured disconnect level e.g. in case of reverse power. Then the PV power can be cut. This can be maintained if the LogicsManager "08.71 PV disconnect" is assigned to a relay output. easYgen-3000XT Series B37574...
Page 577 "Parameter alignment" on all units and the logical command variable "08.16" will be enabled. To identify different configured units, please use the diagnostic screen "Genset parameter alignment": HMI: [Next Page / Multi-unit / Genset parameter alignment] ToolKit: [STATUS MENU / Multi-unit / Genset parameter alignment] B37574 easYgen-3000XT Series...
Page 578 Alarm class Class A, Class B, Class This function may be assigned an C, Class D, Class E, Class F , independent alarm class that Control specifies what action should be taken when this function triggers [Class B] an alarm. Notes easYgen-3000XT Series B37574...
Page 579 If the number of available units is less than the number of displayed "Monitored easYgen" ╚═▷ 9925 (initiated by parameter ╚═▷ 13356 System update) for at least the delay time, the display indicates "Missing easYgen" and the logical command variables "08.17" and "08.27" will be enabled. B37574 easYgen-3000XT Series...
Page 580 (sending data on the load share line). If the number of available easYgen units is more than the number of displayed "Monitored easYgen" ╚═▷ 9925 (initiated by parameter ╚═▷ 13356 System update), the display easYgen-3000XT Series B37574...
Page 581 Only the first incoming operation range failure will tripp an alarm. Because in most cases this will be the root cause for eventually incoming further operating range alarms. Any other operating range alarm can only be tripped if there is no active or latched operating range alarm. B37574 easYgen-3000XT Series...
Page 582 If this protective function is triggered, the display indicates "Operat. range failed" / ("Operating Range failed") and the logical command variable "06.31" will be enabled. Parameter Setting range Description [Default] 2660 Monitoring [On] Monitoring of the operating range is carried out according to the following parameters. easYgen-3000XT Series B37574...
Page 583 If the parameter "9924 Load share interface" is configured to "CAN/Ethernet A" and the system update was executed, the monitoring becomes active. The devices observes if the both load share messages are correctly received. If a channel fails the alarm "LS interf. redundancy" is triggered. B37574 easYgen-3000XT Series...
Page 584 This is determined through the LogicsManager equation "Release engine monitoring". For xx = 1 to 32: The monitoring is executed, if the LogicsManager "Flag {xx}" is 96.{xx} TRUE. LM: Flag{xx} Example: easYgen-3000XT Series B37574...
Page 585 The AC power triangle illustrates the dependencies between active power, apparent power, reactive power and power factor. • PF = P/S = cos Φ • • Q = √(S • • S = √(P • • P = S * PF • B37574 easYgen-3000XT Series...
Page 586 This parameter configures whether ground or mains current Ground current is measured on terminals ½ or the input is disabled. 1835 Ground current range Application specific ground current range must be selected e.g. for [5A] rated values. easYgen-3000XT Series B37574...
Page 587 • After opening the GCB, • under/over frequency and under/overvoltage and asymmetry monitoring is switched on again. • The Frequency/MPU speed • plausibility monitoring is only active, if the GCB is closed. B37574 easYgen-3000XT Series...
Page 588 0.5 to 99999.9 kvar This value specifies the generator power [kvar] reactive power rating, which is [200.0 kvar] used as a reference figure for related functions. The generator rated reactive power also depends on the generator values (╚═▷ “Dependencies”). easYgen-3000XT Series B37574...
Page 589 Monitoring refers to the following voltages: • VL1N, VL12 • 3Ph 3W Measurement is performed Line- Line (Delta connected system). Phase voltages must be connected for proper calculation. Measurement, display and protection are adjusted according B37574 easYgen-3000XT Series...
Page 590 Only one phase is monitored. Measurement, display and Phase L2 protection are adjusted according to the rules for single-phase Phase L3 measurement. Monitoring refers to the selected phase. Notes This parameter is only effective if generator voltage measuring easYgen-3000XT Series B37574...
Page 591 [500 A/x] the indication and control of the (Generator current actual monitored value. transformer primary rating) Notes The current transformers ratio should be selected so that at least 60% of the secondary current B37574 easYgen-3000XT Series...
Page 592 0 to 30% If the busbar voltage falls below max. volt. this percentage of the busbar 1 [10%] rated voltage (parameter ╚═▷ 1781), a dead bus condition is detected and the logical command variable "02.21 Dead busbar1" becomes TRUE. easYgen-3000XT Series B37574...
Page 593 This value specifies the mains real power [kW] power rating, which is used as a [200.0 kW] reference figure for related functions. The mains rated active power is a reference value used by several monitoring and control functions (╚═▷ “Dependencies”). B37574 easYgen-3000XT Series...
Page 594 Measurement is performed Line- Neutral (WYE connected system) if parameter ╚═▷ 1858 is configured to "Phase - neutral" and Line-Line (Delta connected system) if parameter ╚═▷ 1858 is configured to "Phase - phase". Measurement, display and protection are adjusted according easYgen-3000XT Series B37574...
Page 595 Notes For information on measuring principles refer to ╚═▷ “3.3.6.2 Mains Current”. This parameter is only effective if mains voltage measuring (parameter ╚═▷ 1853) is configured to "3Ph 4W" or "3Ph 3W". B37574 easYgen-3000XT Series...
Page 596 3 A). If the current transformers are sized so that the percentage of the output is lower, the loss of resolution may cause inaccuracies in the monitoring and control functions and affect the functionality of the control. Notes easYgen-3000XT Series B37574...
Page 597 • The mains power factor • monitoring is switched off. • The mains power factor is not • displayed. • The mains total reactive • power is not displayed. • The mains total apparent • power is calculated and displayed. Notes B37574 easYgen-3000XT Series...
Page 598 • The mains power factor is • assumed as "1". • The mains active power • monitoring is switched off. • The mains power factor • monitoring is switched off. • The mains power factor is not • displayed. easYgen-3000XT Series B37574...
Page 599 100.0 kvar [1kvar] 1000 kvar 0.01Mvar 10.00 Mvar 0.1Mvar 100.0 Mvar 4.6.5 Engine Parameter Setting range Description [Default] 1601 Engine rated speed 100 to 4,000 rpm Number of revolutions per minute of the engine at rated engine B37574 easYgen-3000XT Series...
Page 600 COM port driver to connect to the easYgen using ToolKit. If the PC does not install the COM port automatically, then the installer in folder "Driver" must be executed before starting ToolKit There is no configuration to do for the USB Service Port. easYgen-3000XT Series B37574...
Page 601 4 Configuration 4.7.2 RS-485 Interface USB Service Port The USB service port is restricted for ToolKit communication, Woodward service communication, and - if provided by factory side - read only files. The »Automatic Reconnection« over USB is not possible. If connection over USB is lost, please reconnect manually: •...
Page 602 Possible data protocol IDs (existing protocols) are listed in this Technical Manual. Instead of a Woodward protocol, a customer specific data protocol can be selected. Such a protocol must have been uploaded onto the device and its file name must fit the reserved range from protocol number 65100 to 65199.
Page 603 The Modbus master function is requesting data according to the control file. Note Take care that a modbus master control file is already load into the device. For details refer to chapter╚═▷ “6.5.5 Modbus master”). B37574 easYgen-3000XT Series...
Page 604 Transfer value Setting Meaning Calculation display (16 Bit, max. 32767) format 4778 477.8 V 477.8 V / 10 477 V 477.8 V / 10 477.8 V / 10 477.8 V / 10 Table 83: Voltage measurement example easYgen-3000XT Series B37574...
Page 605 Unit does not generate SYNC/TIME message Unit generates SYNC/TIME message 28-11 Always 0 10-0 (LSB) Bits 10-0 of SYNC/TIME COB-ID TIME synchronization message CANopen master COB-ID TIME Time consumer Time transmitted Bit 31 = 0; Bit 30 = 0 B37574 easYgen-3000XT Series...
Page 606 CAN bus. This address number may only be used once on the CAN bus. All additional addresses are calculated based on this unique device number. easYgen-3000XT Series B37574...
Page 607 If the producer heartbeat time is equal 0, the heartbeat will only be sent as response to a remote frame request. The time configured here will be rounded up to the next 20 ms step. B37574 easYgen-3000XT Series...
Page 608 The structure of this object is shown in ╚═▷ “TIME synchronization message” 9126 Password protection Password protection for CAN 1 is not active. Notes Take care for a protected access! [On] Password protection for CAN 1 is active. easYgen-3000XT Series B37574...
Page 609 (Node-ID) from the unit. in order to send remote signals (i.e. remote start, stop, shutdown, or acknowledge) to the unit. The additional SDO channel will be made available by configuring this Node-ID to a value different than B37574 easYgen-3000XT Series...
Page 610 RPDO Objects can be remote signals (parameter 503; please refer to╚═▷ “Remote control word 1” for details), DI states and AI measured values. Bit number Value Meaning 31 (MSB) PDO exists / is valid PDO does not exist / is not valid easYgen-3000XT Series B37574...
Page 611 If 0 is configured here, the message assembled by the 8972 mapping parameters is used. If an unknown data protocol ID is 8973 configured here, a failure is indicated by the CAN status bits. 8974 Possible data protocol IDs are: B37574 easYgen-3000XT Series...
Page 612 3. Mapped Object 0 to 65535 This parameter contains the information about the mapped 9918 application variables. These entries describe the PDO contents 9908 by their index. The sub-index is always 1. The length is 12824 determined automatically. easYgen-3000XT Series B37574...
Page 613 1602 hex for RPDO 3, 1603 hex for RPDO 4, and 1604 hex for RPDO 5), subindex 4. 4.7.4.1.3 Transmit PDO {x} (Process Data Object) General notes TPDO mapping is carried out as shown in (╚═▷ Fig. 203). B37574 easYgen-3000XT Series...
Page 614 The object ID is identical with the parameter ID when configuring via front panel or ToolKit. Parameters ╚═▷ 9600/╚═▷ 9610/╚═▷ 9620/╚═▷ 9630/╚═▷ 12792 use communication parameters that adhere to the following structure. Bit number Value Meaning 31 (MSB) PDO exists / is valid easYgen-3000XT Series B37574...
Page 615 1 to FFFFFFFF hex This parameter contains the communication parameters for 9610 [80000000 hex] the PDOs the unit is able to transmit. The unit transmits data 9620 (i.e. visualization data) on the CAN ID configured here. 9630 B37574 easYgen-3000XT Series...
Page 616 TPDO 5), subindex 5 8962 Selected Data 0 to 65535 A data protocol may be selected Protocol by entering the data protocol ID 8963 8962: [5003] here. If 0 is configured here, the message assembled by the easYgen-3000XT Series B37574...
Page 617 2. Mapped Object 0 to 65535 This parameter contains the information about the mapped 9616 application variables. These entries describe the PDO contents 9626 by their index. The sub-index is always 1. The length is 9636 determined automatically. B37574 easYgen-3000XT Series...
Page 618 TPDO 4, and 1A04 hex for TPDO 5), subindex 4 4.7.4.2 CAN Interface 2 General notes This CAN Interface is dedicated to • J1939 devices and • • external CANopen devices with analog and/or digital terminals. • easYgen-3000XT Series B37574...
Page 619 • Six Node-IDs can be selected to be used with different combinations of external • terminals ("# Node-ID", parameters 9930-9935) • A number of well defined combinations is available for Woodward IKD and/or third • party expansion modules from Phoenix and WAGO: ("Select external terminals", parameter ╚═▷...
Page 620 Node- external terminals: terminals ID 9930 ID 9931 ID 9932 ID 9933 ID 9934 ID 9935 ID 15320 AI/AO: Analog Inputs and Analog Outputs, only P 16AI 4AO 1 Phoenix: P16AI4AO 16 x AI / 4 x AI 1-16 easYgen-3000XT Series B37574...
Page 621 P16AI4AO 16AI 4AO 32 x DI/DO DI/DO 1-8 DI/DO 9-16 DI/DO 17-24 DI/DO 25-32 AI 1-16 1 Phoenix: AO 1-4 16 x AI / 4 x P 16D_ 16AI 1 Phoenix:: P16DIDO P16AI4AO 16 x DI/DO DI/DO 1-16 AI 1-16 B37574 easYgen-3000XT Series...
Page 622 16 x AI / 4 x P32 D_ 16AI 1 Phoenix: P32DIDO P16AI4AO 32 x DI/DO DI/DO 1-32 AI 1-16 1 Phoenix: AO 1-4 16 x AI / 4 x DI/DO/AI/AO: Combinations of the expansion modules IKD and/or WAGO easYgen-3000XT Series B37574...
Page 623 • Connect external device(s) • • Check that WAGO devices are configured to default. • This is the case if the WAGO CAN-Coupler is new or if there was any change in number or kind of WAGO modules. B37574 easYgen-3000XT Series...
Page 624 9935 6th Node-ID Node-ID 1-126 [Node-ID 6] 15320 Select external Notes terminals A change of this parameter becomes only effective if the device is rebooted! and: the external devices itself must be configured with the correct node easYgen-3000XT Series B37574...
Page 625 Filename of a special additional file to define external devices (see NOTE ╚═▷ Chapter 4.7.4.2.1). Notes This parameter takes only effect if parameter ╚═▷ 15320 configured to “Ext.term.file”. Please ask your Woodward partner for support / an offer. B37574 easYgen-3000XT Series...
Page 626 Pt1000 (EN 60751 high resolution), and 1200 Ohm. Expected format Pt100 (EN 60751) default Ni100 (EN 60751) default Pt500 (EN 60751) default Pt200 (EN 60751) default Ni1000 (TK6180, DN 43760) default Ni120 (Minco) default 5000 Ohm S5-FB250 easYgen-3000XT Series B37574...
Page 627 Parameter 15102 »Device type « allows to select an ECU either by name or - for even more flexibility - via an ECU file; then the name of the preferred ECU file must be entered into parameter 15167 »ECU file name«. Please ask your local Woodward partner for further information.
Page 628 TSC1. Please refer to ╚═▷ “7.5 J1939 Protocol” for details and/or ask your local Woodward partner for an offer. S6 Scania The Scania EMS/S6 ECU is enabled: J1939 data according to the SAE J1939 standard and some S6- specific data are considered.
Page 629 SAM is enabled: J1939 data according to the SAE J1939 standard and some ADEC- specific data are considered. EGS Woodward The Woodward EGS, ECU, E3-series, E6-series or PG+ are enabled: J1939 data according to the SAE J1939 standard and some EGS/E3/E6-specific data are considered.
Page 630 ECUs. The correct file name with extension must be typed in and this xxx.ecu file must be available "inside" the easYgen (flashed). Notes Please contact your local Woodward partner to enable communication with easYgen-3000XT Series B37574...
Page 631 • S6/S8 Scania: 39 • • EMR2 Deutz: 3 • • EMS2 Volvo: 17 • • ADEC ECU7 MTU: 1 • • EGS Woodward: 234 • • MFR/EDC7 MAN: 253 • • EEM SISU: N/A • • Cummins: 220 •...
Page 632 [Version 1] method of the Suspect Parameter Number (SPN). This is important for a correct interpretation of the alarm messages (DM1 & DM2). This parameter defines the version of the conversion method: Version 1, easYgen-3000XT Series B37574...
Page 633 ECU. It relates to the engine rated speed (parameter ╚═▷ 1601). There are two methods of sending the speed setpoint to the ECU: With a speed offset and a speed setpoint. The frequency B37574 easYgen-3000XT Series...
Page 634 [Default] and power control must be configured to "PID". Speed offset (S6/S8 Scania, EMS2 Volvo, EGS Woodward, Cummins) The easYgen sends a speed offset with a range of 0 to 100% (every 20 ms). 50% = rated speed. There is also an internal...
Page 635 Speed setpoint (EMR2 Deutz, ADEC MTU, EGS Woodward, EEM SISU, Standard) The easYgen sends a speed setpoint in rpm (every 10 ms) that varies around the rated speed in the range of +/- the speed deviation.
Page 636 [Default] speed deviation of 500, if the engine varies only between 1,400 and 1,600 rpm. Notes The Woodward EGS ECU supports both types of speed deviation control and may be configured either to "Speed offset" or "Speed setpoint". In mains parallel operation,...
Page 637 ECU seq. B_IN_1" is: False: The Volvo override flag is only active if LM “04.27 Critical mode” True: The Volvo override flag is active independent of LM “04.27 Critical mode” S8 Scania “Desorption Granted Status” (of ADC Aftertreatment Desorption Control) B37574 easYgen-3000XT Series...
Page 638 Determined by If this LogicsManager is regeneration LogicsManager 86.48 TRUE, SPN 3695 "DPF Regeneration Inhibit [(0 & 1) & 1] Switch" is transmitted as active. = 11779 For information on the LogicsManager and its default settings see ╚═▷ easYgen-3000XT Series B37574...
Page 639 Operations” for explanation how to use the AnalogManager. Refer to ╚═▷ “9.4.2 Data Sources AM” for a list of all data sources. 15163 AM ECU Determined by This AnalogManager is seq.A_IN_2 AnalogManager 81.23 prepared to pass analog B37574 easYgen-3000XT Series...
Page 640 9920 Load share CAN-ID 2xx Hex / 3xx Hex / 4xx Hex / 5xx The first digit of the CAN ID or the range (i.e. 2xx Hex means 200 through 2FF hex) is configured [5xx Hex] here. easYgen-3000XT Series B37574...
Page 641 PLC or SCADA systems. The common protocol Modbus TCP is there for the preferred communication protocol. Additionally the Ethernet connection supports the Woodward protocol Servlink for ToolKit and other Woodward own monitoring tools (like remote panel and SCADA visualization tool). At least the easYgen provides a UDP protocol for system relevant and time discrete information exchange.
Page 642 00000000 00000000 00000000 00000001 inverted Note: IP address range 224.0.0.0 to 239.255.255.255 This address range is restricted for specific use (multicast class D addresses) and not usable for the Ethernet IP configuration from network A, B and C. easYgen-3000XT Series B37574...
Page 643 The "device part" is the logical result of »IP Address« AND NOT »Network Mask«. The bits (dual system 0 ) of the device part must be different from being all the same - neither all zero 0 nor all 1 (broadcast). Please select your IP address accordingly. B37574 easYgen-3000XT Series...
Page 644 Field 1,2,3,4 for gateway IP-Address for Ethernet port A. This setting will be not valid automatically. The »Set IP 5339 address« parameter must be set to »ON« for enabling. If 0.0.0.0 is set, the gateway's functionality is switched 5340 off. 5341 easYgen-3000XT Series B37574...
Page 645 [60 s] on the function. 7786 Mode [Internal clock] The device provides different SNTP modes. External SNTP Internal clock: The clock information comes from the internal clock. The SNTP function is disabled. B37574 easYgen-3000XT Series...
Page 646 10707 Table 86: Flag parameter IDs (1 to 8) Flag {x} Flag 9 Flag 10 Flag 11 Flag 12 Flag 13 Flag 14 Flag 15 Flag 16 Parameter 12910 12911 12912 12913 12914 12915 12916 12917 {yyyyy} easYgen-3000XT Series B37574...
Page 647 {XX.XX} is a placeholder for the LogicsManager number {nnnnn} is a placeholder for the parameter ID of the logical output of the LogicsManager equation For conditions and explanation of programming please refer to ╚═▷ “9.3.1 LogicsManager Overview”. B37574 easYgen-3000XT Series...
Page 648 Utilizing the LogicsManager it is possible to establish specific days of the week that functions (i.e. generator exerciser) can be enabled. The weekly time setpoint is enabled during the indicated day from 0:00:00 hours to 23:59:59 hours. For examples refer to ╚═▷ “6.3.17 Examples timer configuration” easYgen-3000XT Series B37574...
Page 649 59. Example • 0 = 0th hour of the day. • • 23 = 23rd hour of the day. • 1661 Active minute 0 to 59 min Enter the minute of the active switch point here. B37574 easYgen-3000XT Series...
Page 650 The switch point is enabled every Thursday. The switch point is disabled every Thursday. 1674 Friday active [Yes] The switch point is enabled every Friday. The switch point is disabled every Friday. 1675 Saturday active The switch point is enabled every Saturday. easYgen-3000XT Series B37574...
Page 651 • The resulting Boolean is accessible via the LogicsManager command variable pool. • Preferred AM Definition Procedure ⚙ Start with "Type" 1. ▷ Select AM type first to get the picture and the visual understanding of available inputs, ▶ outputs, function, and results. B37574 easYgen-3000XT Series...
Page 652 Prepare each digital input by selecting source (parameter) and logical function. 3. ▷ Enter with "Apply" 4. ▷ ▶ Press »Apply« button to send current settings to device. 5. ▷ Use analog and boolean result for intended (re)action. Fig. 206: Display (HMI) AM14 easYgen-3000XT Series B37574...
Page 653 HMI, ToolKit, or other (remote) interface Operator 2 (Operators-Unary 2) selected via HMI, ToolKit, or other (remote) interface Type AnalogManager type (operation) selected via HMI, ToolKit, or other (remote) interface Boolean result result/output of the boolean operation Notes B37574 easYgen-3000XT Series...
Page 654 Description Description {1 - 16} user-defined (up 22 to The text may have 0 through 22 characters) characters. [AM Internal value 1 {1 - Notes 16}] This parameter may only be configured using ToolKit. easYgen-3000XT Series B37574...
Page 655 Please verify the length on the display for best view. The analog and logic results can be used via command variables “91.01 AM Internal value 1” - “91.16 AM Internal value 16” and “91.01 AM Internal value 1” - “91.16 AM Internal value 16”. B37574 easYgen-3000XT Series...
Page 656 Operation type SUBTRACTION Boolean result (A1 - A2) x C1 > 0 (available as boolean result »91.01 AM Internal value 1«) Analog result (A1 - A2) x C1 (available as analog result »91.01 AM Internal value 1«) easYgen-3000XT Series B37574...
Page 657 *) Reset if L2 = TRUE (available as boolean result »91.02 AM Internal value 2«) Analog result A2 + (n[L1] x C1)* *) Reset if L2 = TRUE (available as analog result »91.02 AM Internal value 2«) B37574 easYgen-3000XT Series...
Page 658 Boolean Result = L1 Summation Analog Result = (A1 + A2) * C1 Boolean Result goes TRUE, if Analog Result > 0 Subtraction Analog Result = (A1 - A2) * C1 Boolean Result goes TRUE, if Analog Result > 0 easYgen-3000XT Series B37574...
Page 659 Analog Result = A1 + (A2 * C1) Boolean Result goes TRUE, if Analog Result > 0 Multiply type C Analog Result = A1 * A2 * C1 Boolean Result goes TRUE, if Analog Result > 0 B37574 easYgen-3000XT Series...
Page 660 Analog Result = MIN(A1, A2) Boolean Result goes TRUE, if A1 < A2 In Band Analog Result = ABS(A1 - A2) Boolean Result goes TRUE, if (ABS(A1 - A2) <= C1) C1 = maximum tolerance for being "in band" easYgen-3000XT Series B37574...
Page 661 Boolean Result goes TRUE, if Analog Result > = Value A1 (Limit) A1 = Limit A2 = Start Value after RESET C1 = Increment per Step L1 = Trigger for Increment L2 = Reset to Start Value B37574 easYgen-3000XT Series...
Page 662 Analog Result = Remaining time [s] for Boolean Result to go to FALSE Boolean Result goes FALSE, if L1 = FALSE for at least C1[ms] time C1 = Absolute value of C1 is taken as time in [s] (no negative time allowed) easYgen-3000XT Series B37574...
Page 663 L1 = Activates boolean result to TRUE with rising edge L2 = Resets remaining time for fall back with rising edge Notes Time is not latched, so C1 changes can be done during monoflop cycle. B37574 easYgen-3000XT Series...
Page 664 Please verify the length on the display for best view. 15551 - 13.yy Free constant -21000.00 e3 to 21000.00 e3 Preset value to be used as AM 15566 {1 - 16} 13.yy. easYgen-3000XT Series B37574...
Page 665 Mvarh of the [0 Mvarh] counter. The number entered here will overwrite the current displayed value after confirming with parameter ╚═▷ 2511. 2511 Gen.pos.react.energy The current value of this counter is overwritten with the value configured in "Gen.pos.react.energy preset" B37574 easYgen-3000XT Series...
Page 666 A maintenance call will be issued if the configured number of maintenance hours has expired or the configured number of days has expired since the last maintenance. In case of a maintenance call, the display indicates "Mainten. days exceeded" or "Mainten. hours exceeded". easYgen-3000XT Series B37574...
Page 667 [Next Page / Configure counters / (symbol: wrench)] 2551 Maintenance days 0 to 999 d This parameter defines the remaining days until the next [365 d] maintenance call occurs. Once the configured number of days has expired since the last B37574 easYgen-3000XT Series...
Page 668 User with a lower code level may not access this function. The following code levels exist: Operator Service level Temporary commissioner Commissioner Notes The code level defined here only affects the access via the front panel (HMI). easYgen-3000XT Series B37574...
Page 669 (parameter ╚═▷ 2581). If your current code level does not match, this parameter is not visible. 2581 Code level f.set 0 to 5 This parameter defines which period of use codelevel is necessary to set the B37574 easYgen-3000XT Series...
Page 670 Released 4 Configuration 4.10.2 Service Reset Values Parameter Setting range Description [Default] period of use hours (parameter ╚═▷ 2579). easYgen-3000XT Series B37574...
Page 671 Power ON from zero power • Buttons are illuminated • • Start-up screen appears • ◦ the red bar at the bottom monitors the degree of fulfillment ◦ • HOME screen appears with measured values and state information • B37574 easYgen-3000XT Series...
Page 672 • front panel buttons (plastic housing variant or Remote Panel RP-3000XT or VNC • client), • HMI configuration (plastic housing variant or Remote Panel RP-3000XT or VNC client), • • remote settings via interfaces, or • • ToolKit • The following chapters describe the manually front panel access. easYgen-3000XT Series B37574...
Page 673 • Dependent on the current application mode a soft shut down will be executed. • • Pressing the STOP button again opens the GCB. • • If the STOP button is pressed again, the cool down will be interrupted. • B37574 easYgen-3000XT Series...
Page 674 (softkeys). Additionally the Start(I)/Stop(O) buttons can be used to start or stop the engine. Fig. 210: XT_MAN-buttons Mode button: MAN START button: Engine STOP button: Engine 4, 6 Soft buttons: Breaker OPEN/CLOSE Soft button not used ⚙ easYgen-3000XT Series B37574...
Page 675 Available in application mode Start the engine ✔ ✔ ✔ ✔ Stop the engine ✔ ✔ ✔ ✔ Breaker open command ✔ is issued or a closure of the breaker is blocked No defined breaker ✔ state B37574 easYgen-3000XT Series...
Page 676 ▶ For a more detailed description of the start/stop sequence of the engine and the associated parameters refer to ╚═▷ “4.4.5.2 Operation Mode AUTO - Automatic Run”. The main functions are briefly described in the following sections. easYgen-3000XT Series B37574...
Page 677 (if a mains failure occurs during the test run). The operating mode TEST supports different sub modes so the operator can choose if the breakers shall be closed during test run or whether the operating mode is changed after the test run. B37574 easYgen-3000XT Series...
Page 678 The illumination of the button becomes twinkling a short time before TEST run is over. For a more detailed description of the start/stop sequence of the engine and the associated parameters refer to ╚═▷ “4.4.5.3 Operation Mode TEST”. The main functions are briefly described in the following sections. easYgen-3000XT Series B37574...
Page 679 Press softkey »7« once to edit the language setting 4. ▷ 5. ▷ Press softkeys »11« or »12« to select the desired language. 6. ▷ Press softkey »7« once to commit the language setting. ▶ The desired display language is restored. B37574 easYgen-3000XT Series...
Page 680 ) may be used, where the breaker control is done external. In this case, the easYgen will function as an engine control with generator and engine protection. The control does not operate any breaker. Emergency mode (AMF operation) is not supported in this application mode. easYgen-3000XT Series B37574...
Page 681 Engine operation in AUTOMATIC (basic function) Engine starts, if • The LogicsManager "86.09 LM: Start req.in AUTO" is fulfilled (TRUE) AND • • A shut down alarm is not present AND • B37574 easYgen-3000XT Series...
Page 682 ) may be used for islanded operation applications. In this case, the easYgen will function as an engine control with generator and engine protection. The control unit can only open the GCB. Emergency mode (AMF operation) is not supported in this application mode. easYgen-3000XT Series B37574...
Page 683 The following feedback signals and commands are used in this application mode and fixed to the respective discrete inputs and outputs: • DI 7 "Reply MCB" (mains parallel) • • DI 8 "Reply GCB" (normally closed (break) contact) • • DO 7 "Command: GCB open" • B37574 easYgen-3000XT Series...
Page 684 GCB or an external provision. The easYgen will function as an engine control with generator and engine protection. The control unit can open and close the GCB. Emergency mode (AMF operation) is not supported in this application mode. easYgen-3000XT Series B37574...
Page 685 The following feedback signals and commands are used in this application mode and fixed to the respective discrete inputs and outputs: • DI 7 "Reply MCB" (mains parallel) • • DI 8 "Reply GCB" (normally closed (break) contact) • • DO 6 "Command: GCB close" • B37574 easYgen-3000XT Series...
Page 686 The control unit can open and close the GCB and the MCB. The breaker transition modes “Open Transition”, “Closed Transit.”, “Interchange” and “Parallel” are possible. The Emergency mode (AMF operation) is supported in this application mode. easYgen-3000XT Series B37574...
Page 687 The following feedback signals and commands are used in this application mode and fixed to the respective discrete inputs and outputs: • DI 7 "Reply MCB" (mains parallel) • • DI 8 "Reply GCB" (normally closed (break) contact) • • DO 6 "Command: GCB close" • B37574 easYgen-3000XT Series...
Page 688 With successful start the MCB will be opened and the GCB will be closed. Engine stops, if • The mains values are back in range AND • • The mains settling time is expired • According to the current active breaker transition mode the GCB and MCB will be operated. easYgen-3000XT Series B37574...
Page 689 CAN bus / Modbus TCP Fig. 216: Multiple genset application (schematic) 6.2.1 Configuration Example: Multiple Genset Configuration example The following example describes the configuration of a typical mains parallel operation with import/export power control at the interchange point and load-dependent start/stop. B37574 easYgen-3000XT Series...
Page 690 LDSS sort LDSS priority follows settings without permanently priority always refreshing. 5759 Minimum 180 s The minimum running time is 180 seconds running time 12930 LD start stop Enables function LDSS 86.86: TRUE Table 95: General LDSS parameters easYgen-3000XT Series B37574...
Page 691 The add on delay in mains parallel operation is 20 seconds on delay 5773 MOP Add 10 s The add on delay at rated load in mains parallel operation on delay at is 10 seconds rated load B37574 easYgen-3000XT Series...
Page 692 The add on delay at rated load in islanded operation is 3 delay at seconds rated load 5766 IOP Add off 180 s The add off delay in islanded operation is 180 seconds delay Table 97: Parameter configuration for LDSS (IOP) easYgen-3000XT Series B37574...
Page 693 Emergency operation is initiated if the mains fail for a t delay time least 3 seconds 3408 Emerg. Emergency operation is initiated if the MCB fails to close start with MCB failure Table 98: Parameter configuration for emergency run ╚═▷ “4.4.6 Emergency Run” for further settings possibilities. B37574 easYgen-3000XT Series...
Page 694 • »System update« or »System update function«: • Is the overall procedure that, if triggered, saves after 30 seconds the actual constellation of members. • »System update order«: • Triggers the System Update function. ╚═▷ “How to initiate a system update” easYgen-3000XT Series B37574...
Page 695 Each Alarm is also available as flag for the LogicsManager system. To configure the »System update« Monitoring see ╚═▷ “4.5.6.18 Multi-Unit System Update”: By default the Missing Member alarm is incorporated into the frequency droop LogicsManager ╚═▷ 12904. B37574 easYgen-3000XT Series...
Page 696 In case of a missing member or system update alarm, these screens will also help the operator to detect the root cause and for general troubleshooting. The status of each device in the system will be indicated by a status ”LED“ in conjunction with a status text. easYgen-3000XT Series B37574...
Page 697 Actual count of valid devices Actual count of devices that has devices sent valid data. Table 100: Parameter: Diagnostic Screens All Diagnostic Screen Parameters are accessible via communication interfaces. The system update command can be initiated through a free control flag. B37574 easYgen-3000XT Series...
Page 698 ╚═▷ Table 100. While the System Update is active, the Event indication will show »System update«. Because of space restrictions on the display, the status text of each device is realized with symbols. Use ToolKit for text indications. easYgen-3000XT Series B37574...
Page 699 • • Not installed • It is possible, that several system status are causing different LED messages. So the indication is prioritized: • Red LED (highest priority) • • Yellow LED • • Black (off) LED • B37574 easYgen-3000XT Series...
Page 700 YELLOW System update is required! Only NW CAN This device is not recognized on the Ethernet A bus according to the latest system update. Therefore, a Redundancy Lost Alarm is triggered. YELLOW easYgen-3000XT Series B37574...
Page 701 If all these conditions are fulfilled the system update order can be executed. If any condition is not fulfilled do trouble shooting before you hit any system update order. NOTICE! It is highly recommended to verify the diagnostic screen of each device in the system. 2. ▷ Executing system update order B37574 easYgen-3000XT Series...
Page 702 When the plant is operated in an island mode or islanded parallel application, it is not possible to control the power factor. The load will dictate what the power factor is due to the reactive nature of the load. easYgen-3000XT Series B37574...
Page 703 Enabled 2334 Enabled Generator power factor leading level 1 Generator power factor leading level 2 Text Setting Text Setting 2375 Monitoring 2381 Monitoring 2379 Limit -0.800 2385 Limit -0.600 2380 Delay 30.00 s 2386 Delay 1.00 s B37574 easYgen-3000XT Series...
Page 704 +0.00e0 A value of 0.00 is displayed at the minimum of the input defined range min display value 1102 User +2000.00e3 A value of 2000.00e3 (= 2000000) is displayed at the defined maximum of the input range easYgen-3000XT Series B37574...
Page 705 Either on the front panel or using ToolKit navigate to menu [Configure load control]. Configure the parameters listed below. 2. ▷ Parameter Value Comment 5539 Determined The internal power setpoint 1 is used as load setpoint 1 ActPower SP1 [kW] B37574 easYgen-3000XT Series...
Page 706 Configure the LogicsManager function 12919 "Setp. 2 load" as shown in (╚═▷ Fig. 222) to enable load setpoint 2 if discrete input [DI 09] is energized. Continue similarly with setpoint 3 and setpoint 4 4. ▷ Viewing the load setpoint on the easYgen ⚙ easYgen-3000XT Series B37574...
Page 707 This function is set up with the LogicsManager. This is a simple example of a relay output that toggles from energized to de-energized with adjustable on and off time. In this example relay 2 is pulsing if B37574 easYgen-3000XT Series...
Page 708 Configure Relay 11 and Relay 12 as well as the Flags 2, 3, 4, and 5 as shown in the following example. You may also use the discrete input, which starts the engine by default [DI 02] or any other input command instead of discrete input 9; for example the command variable "03.06 Engine released". ⚙ easYgen-3000XT Series B37574...
Page 709 Fig. 228: LogicsManager function "Flag 2" Configure the LogicsManager function "Flag 2" as shown in (╚═▷ Fig. 228). 4. ▷ Fig. 229: LogicsManager function "Flag 3" Configure the LogicsManager function "Flag 3" as shown in (╚═▷ Fig. 229). B37574 easYgen-3000XT Series...
Page 710 ToolKit visualization and configuration application. Preliminary Conditions We recommend to reset the unit to factory settings before proceeding. Refer to ╚═▷ “4.3.5 System Management” for reference. The LogicsManager factory settings are shown in ╚═▷ “9.3.5 Factory Settings”. easYgen-3000XT Series B37574...
Page 711 LogicsManager function ""Operat. mode AUTO"" The LogicsManager function ""Operat. mode AUTO"" (parameter ╚═▷ 12510) can be configured as shown in (╚═▷ Fig. 233). AUTOMATIC operation mode is enabled as soon as discrete input 9 is energized. ▶ B37574 easYgen-3000XT Series...
Page 712 If the mains fail during start in auto, the unit keeps running until the mains return and the mains settling time is expired or the conditions for Start req. in AUTO are FALSE again. The result depends on which condition is active longer. easYgen-3000XT Series B37574...
Page 713 The unit will open the MCB and close the GCB. When the mains return, it will transfer the load back to the mains according to the configured breaker transition mode after the mains settling timer has expired. The engine will keep running until the conditions for "Start w/o load" are FALSE again. B37574 easYgen-3000XT Series...
Page 714 Remote Start/Stop, Shutdown, And Acknowledgment The easYgen may be start, stop, shut down, or acknowledged alarms with Modbus or CAN protocol via the interface. Therefore, two logical command variables (04.13, 04.14 and 03.40) have to be configured with the LogicsManager. easYgen-3000XT Series B37574...
Page 715 ▶ as the remote request signal is enabled. The LogicsManager commands 2 and 3 may be used to configure additional conditions like discrete inputs, which must be energized to be able to issue the remote start request. B37574 easYgen-3000XT Series...
Page 716 ◦ 1st change of the logical output "86.15 LM: Ext. acknowledge" from "0" to "1": ◦ Silence horn ◦ 2nd change of the logical output "86.15 LM: Ext. acknowledge" from "0" to "1": ◦ Acknowledges all inactive alarms easYgen-3000XT Series B37574...
Page 717 • Bits 2 and 3: must be "0" (for the watchdog). • • Bit 4: Acknowledgment • • Bit 9: Shutdown command • Please refer to ╚═▷ “6.5 Modbus Applications” for a description of how to enable control bits via Modbus. B37574 easYgen-3000XT Series...
Page 718 • 6.3.6 Connecting IKD 1 on CAN Bus We recommend to connect external expansion boards, like the Woodward IKD 1 to CAN bus 2. This CAN bus offers preconfigured settings for operating several expansion boards including the IKD 1. However, it is also possible to connect an IKD 1 to CAN bus 1.
Page 719 The event timer is configured to 20 ms 8962 Selected 65000 Data protocol 65000 is selected Data Protocol Table 103: TPDO1 configuration ▶ Fig. 240: TPDO configuration for IKD 1 (example HMI) Fig. 241: TPDO configuration for IKD 1 (example ToolKit) B37574 easYgen-3000XT Series...
Page 720 9121 Event timer 2000 ms The event timer is configured to 2000 ms 8970 Selected 65000 Data protocol 65000 is selected Data Protocol Table 104: RPDO1 configuration ▶ Fig. 242: RPDO configuration for IKD 1 (example HMI) easYgen-3000XT Series B37574...
Page 721 IKD Configuration Tool General notes The IKD 1 is a Woodward I/O expansion board. It can be connected via CAN bus to Woodward easYgen generator controllers or DTSC 200 Automatic Transfer Switch Controllers. The configuration of the IKD 1 can be done with the IKD Configuration Tool running on a PC/laptop, connected via serial interface to the IKD 1.
Page 722 Settings will be transferred to the IKD 1 ▶ The Program Dialog Box On start of the configuration software, you should get the following screen with fields, buttons and selectors available: Configuring an IKD ⚙ 1. ▷ Fig. 244: IKD Configuration Tool »COM port« easYgen-3000XT Series B37574...
Page 723 2) It can also be used to select the CAN baud rate. For the easYgen configuration only 125 kBaud, 250 kBaud and 500 kBaud is permissible. 6.3.6.2 Configuration for a second IKD 1 ⚙ To connect a second IKD 1 to the easYgen: ᐳ B37574 easYgen-3000XT Series...
Page 724 Set up TPDO2 for the easYgen on the front panel as shown in (╚═▷ “ Transmit PDO”). ▶ Fig. 246: TPDO configuration for 2nd IKD 1 (example ToolKit) Set up TPDO2 for the easYgen in ToolKit as shown in (╚═▷ “ Transmit PDO”). easYgen-3000XT Series B37574...
Page 725 10% and 85%. For this, the following settings must be made to the respective analog output The following parameter IDs and figures refer to analog output 1. Note, that another analog output may also be used. ⚙ B37574 easYgen-3000XT Series...
Page 726 The PWM output level is configured to 10 V output level Table 105: PWM duty cycle configuration The finished configuration in ToolKit is shown in (╚═▷ Fig. 249). ▶ Fig. 249: PWM duty cycle for a CAT ADEM controller (example ToolKit) easYgen-3000XT Series B37574...
Page 727 6.3.9 Connecting Analog Inputs In Series The analog inputs of the easYgen-3000XT series are galvanically isolated to the power supply. This allows for example to share a power setpoint 0/4 to 20 mA with three devices. Make sure that the source can drive the resulting burden. (Internal load: AI 1-AI 3 approx.
Page 728 Additionally the external device must be configured to the correct baud rate and Node ID. This could be done via DIP switches at Phoenix and WAGO, for the IKD with a Woodward IKD configuration tool. Supported external modules Phoenix ...
Page 729 0-20 mA 4-20 mA (Diff) 750-454 Underrun Linear or table Sender type: 4-20 mA +/-10 V (Diff) 750-456 Linear or table Sender type: +/-10 V 0-10 V (SE) 750-467 750-468 Linear or table Sender type: 0..10 V B37574 easYgen-3000XT Series...
Page 730 0-10 V 750-560, 750-559 Selected hardware type = "V" [10 bit (100 mW)] 750-550 WAGO Digital Inputs/Outputs (2 ... 16 x DI/DO) # of DIs 2 x DI 4 x DI 8 X DI 16 X DI easYgen-3000XT Series B37574...
Page 731 “Sender value at display min..” and “Sender value at display max.” like in the table below is required. WAGO device Configure the according easYgen parameter Voltage range “Sender value at display “Sender value at display min.” max.” +/- 30 mV -614.4 614.4 +/- 60 mV -307.2 307.2 B37574 easYgen-3000XT Series...
Page 732 So WAGO devices must use one and the same CAN address only. The following table shows the possible configuration combination of the "Type" settings (parameter ╚═▷ 5851) and the "Sender type" setting (parameter ╚═▷ 5856) for Phoenix devices. Fig. 252: Supported Phoenix sender types easYgen-3000XT Series B37574...
Page 733 The following flow charts step-by-step guide you through the configuration of external CANopen devices. Configuration is the same for Phoenix/WAGO The flow charts below use "P..." for Phoenix external interfaces but it works similar with "W..." for WAGO devices. Fig. 253: Configure expansion boards part 1 B37574 easYgen-3000XT Series...
Page 734 Released 6 Application Field 6.3.10 Setup Expansion Modules at CAN 2 Fig. 254: Configure expansion boards part 2 easYgen-3000XT Series B37574...
Page 735 Released 6 Application Field 6.3.10 Setup Expansion Modules at CAN 2 Fig. 255: Configure expansion boards part 3 B37574 easYgen-3000XT Series...
Page 736 Released 6 Application Field 6.3.10 Setup Expansion Modules at CAN 2 Fig. 256: Configure expansion boards part 4 easYgen-3000XT Series B37574...
Page 737 Configure expansion boards part 5 6.3.11 Phase Angle Compensation WARNING! Check parameters! Erroneous synchronization settings can destroy the generator with destructive power! Ensure the parameters are configured correctly! Incorrect wiring of the system cannot be compensated for with this parameter. B37574 easYgen-3000XT Series...
Page 738 Dyn5. The easYgen busbar voltage is connected to the high voltage side. Because of the transformer, the phase angles between generator and busbar differs due the closed GCB. The synchronization function of the easYgen can be compensated by a configurable phase angle deviation. easYgen-3000XT Series B37574...
Page 739 "-360° - α" to be used as phase difference. Configure parameter "Phase angle MCB" (parameter ╚═▷ 8842) to "-30°" to compensate the phase difference between mains/ busbar. B37574 easYgen-3000XT Series...
Page 740 • The easYgen must be directed to switch into the active operational mode or to exit • this operational mode. The operational mode proceeds with the actions according to the configured application and transition modes. Example Fig. 260: LogicsManager function "Firing speed detection" easYgen-3000XT Series B37574...
Page 741 [DI 02] ("09.02 Discrete input 2") that the drive system will be started or already is started. • Firing speed ("87.68 LM: Firing speed") must be reached. • • Additionally the reply GCB closed ("04.06 GCB closed") must be true to get the result • true. B37574 easYgen-3000XT Series...
Page 742 • The delayed monitoring function is triggered when LogicsManager "Release • eng.mon." (parameter ╚═▷ 12999) becomes TRUE and after the "Engine monitoring delay time" (parameter ╚═▷ 3315). The delayed monitoring function is switched off when LogicsManager "Release eng.mon." (parameter ╚═▷ 12999) becomes FALSE. easYgen-3000XT Series B37574...
Page 743 LogicsManager Start req. in AUTO (parameter ╚═▷ 12120) becomes FALSE. 6.3.13 Ripple Control Receiver General notes Decentralized energy producers can be obliged by power supply companies to equip plants with a technical and operational provision for remote-controlled reduction of the B37574 easYgen-3000XT Series...
Page 744 (0 to 500 Ohms). Fig. 265: Ripple control receiver wiring R1 = 500 Ohms (or 560 parallel 4.7 k) R2 = 300 Ohms (or 330 parallel 3.3 k) R3 = 150 Ohms easYgen-3000XT Series B37574...
Page 745 Configure the following parameters using ToolKit. They facilitate a more detailed display 3. ▷ of the analog value. Parameter Value Comment 1025 Description Derating Analog input [AI 01] is labeled with "Derating" on the display 1034 Unit Text "%" is displayed for the unit B37574 easYgen-3000XT Series...
Page 746 [DI 09] is energized. Please configure "Alarm class" (parameter ╚═▷ 1362) of discrete input [DI 09] to "Control". Maximal power setpoint After the unit is configured as described above, the maximal power setpoint looks like shown in ╚═▷ Fig. 267. easYgen-3000XT Series B37574...
Page 747 The Logic ensures that with changing of generators or a lacking neutral breaker the neutral link is passed over to another active running generator. This requires information exchange between the genset controls. The load share protocol in the easYgen provides the according information. B37574 easYgen-3000XT Series...
Page 748 NC. The genset control proceeds with closing the GCB, if the NC has been closed successfully. If the NC closure was not successful the easYgen issues an alarm. The NC and GCB closure procedure is blocked from now on, until the alarm is acknowledged. easYgen-3000XT Series B37574...
Page 749 • "Neutral cont. closed" (with +) • Priority for Closing NC The priority for closing GCB is configurable (parameter ╚═▷ 1841). This priority is independent from the LDSS priority. The customer can freely decide which generator shall get which priority. B37574 easYgen-3000XT Series...
Page 750 The advantage of this determination is that the application is not fixed with rated power settings. Maybe there are other circumstances which shall determine the neutral interlocking priority. Two LogicsManager variables give further information: • "03.39 Close neutral cont." • • 17.09 N-cont. reply mism. • easYgen-3000XT Series B37574...
Page 751 6.3.15 LDSS with predicted load Fig. 270: Flow Chart Neutral-Interlocking 6.3.15 LDSS with predicted load 6.3.15.1 Introduction Please read the ╚═▷ “4.4.5.5.6 LDSS with predicted load” first, before you continue. The chapter here shall give you additional information to dedicated application. B37574 easYgen-3000XT Series...
Page 752 The ATS control measures the mains power and serves the MCB and GGB. The ATS device communicates over CANopen with the easYgen. We recommend to ask Woodward for a dedicated application note with configuration examples, if you want go for the external mode.
Page 753 The parameter 9066 "Predicted load source" is configured as "Internal". The LM 15026 "LDSS with predicted load" is TRUE. The AnalogManager 9059 "AM Consumer load [kW]" passes the mains active power (02.74 Mains act.power [W] * -0.001) to the LDSS PL function. B37574 easYgen-3000XT Series...
Page 754 So following procedure is started: • The configuration 5752 "Start stop mode" is ignored and forced to “Reserve power”. • • The GGB close release will be internally blocked in the easYgen and the "04.69 • Inhibit ATS" becomes true. easYgen-3000XT Series B37574...
Page 755 “Open transition”. To incorporate the easYgen emergency mode into the procedure, the flag "04.09 Emergency mode" is to include in the LM 12120 "Start req. in AUTO" . Fig. 274: Including the emergency mode as starting argue. B37574 easYgen-3000XT Series...
Page 756 "04.69 Inhibit ATS". Parameter 3440 "Min.Generator power" is set to the maximum expected load. Fig. 276: LM 12936 "Bypass min. Pgen." becomes active if "04.69 Inhibit ATS" is false. That is the case if there is enough generator rated power on busbar. easYgen-3000XT Series B37574...
Page 757 RPDO in the easYgen the mains power and the condition flags are appearing automatically in the LDSS PL function. The system allows to connect up to 5 ATS controls. We recommend to ask Woodward for a dedicated application note with configuration examples, if you want go for the external mode.
Page 758 "04.69 Inhibit ATS". These signals must be hardwired as OR and connected to the ATS inhibit input. The procedure As long as LM 12120 "Start req. in AUTO" is FALSE and the MCB is closed, the RPDO1 Word2 (ID3372) load 1 [kW] goes into the individual 5-minute average power calculation. easYgen-3000XT Series B37574...
Page 759 Each ATS must send a transmit PDO with minimal two words (INT16): • “Word 1” with binary flags • ◦ a. Bit 1-12 empty (0) ◦ ◦ b. Bit 13 GGB closed ◦ ◦ c. Bit 14 MCB closed ◦ ◦ d. Bit 15 Mains okay flag ◦ B37574 easYgen-3000XT Series...
Page 760 RPDO 5 36.14 CAN1 RPDO5.1.14 11526 MCB closed 11590 “Word 1” 36.15 CAN1 RPDO5.1.15 11527 Mains OK 11591 mapped to ID 36.16 CAN1 RPDO5.1.16 11528 ATS Start signal 11592 3387 Table 106: If further ATS are in use: easYgen-3000XT Series B37574...
Page 761 LDSS. It is the sum of all averages (10.73 – 10.77) which have “Mains not okay” and “GGB not closed”. In internal mode it is the value of the 5 min. average of the AM “Consumer load”. B37574 easYgen-3000XT Series...
Page 762 Real power [0.1kW] RPDO Summary RPDO configuration to get data from ATS 5: Receive PDO Database Index AnalogManager variable Comment RPDO5 Word1 3387 21.17 CAN1 RPDO5.1 Binary information RPDO5 Word2 3388 21.18 CAN1 RPDO5.2 Real power [0.1kW] easYgen-3000XT Series B37574...
Page 763 If parameter 15149 "Direct Derating" (ID ╚═▷ 15149) is enabled, the output value of the AnalogManager 15147 "AM Derating source" determines the derating/uprating directly. This value is also provided as AnalogManager variable under "81.21 AM Derating source". B37574 easYgen-3000XT Series...
Page 764 If the LogicsManager "Power Reduction" becomes FALSE, the unit shall ramp back to its original setpoint. To become more familiar please look at the examples below: easYgen-3000XT Series B37574...
Page 765 40% in this example. So it is guaranteed that the engine is not running with too less load. A Setpoint below the Minimum (e.g. 55%) would not run into reduction. With a smaller Maximum deviation (e.g. 20%) Minimum would be higher than Setpoint and so not cause reduction. B37574 easYgen-3000XT Series...
Page 766 The power reduction would increase and so reduce power from 100% at 80 °C down to 60% = 120 kW at 90 °C. Temperature over 90 °C would cause the same reduction of 40% in this example. So it is guaranteed that the engine is not running with too less load. easYgen-3000XT Series B37574...
Page 767 The derating of power has an impact on the Load-Dependent Start/Stop functionality (refer to ╚═▷ “6.2.1.1 Configuring Load-Dependent Start/Stop”): The start of the next generator will be shifted. B37574 easYgen-3000XT Series...
Page 768 In some conditions -- for example when knocking of the engine is detected -- the ECU (Engine Control Unit) is requesting a load reduction via J1939 standard message SPN 3644. This message is only supported by some ECUs e.g. Woodward EGS/LECM. To allow J1939 ECU derating parameter 15142 "J1939 derating" must be configured to "On".
Page 769 12230 "Flag 1") combined with a free alarm LogicsManager (e.g. 8120 "Free alarm 1") configured with shutdown alarm class. Two different methods to perform a remote start/stop/Acknowledgment using "04.13 Remote request" and "04.14 Remote acknowledge" are detailed in the below. B37574 easYgen-3000XT Series...
Page 770 9911 1. Mapped 00503 The 1st mapped object is set to control parameter 503. Object ▶ Setting the COB-ID to 201 (hex) is exemplary; usually, the PDOs are in the range of 181 (hex) to 57F (hex). easYgen-3000XT Series B37574...
Page 771 Please note that high and low bytes are exchanged in the sent address. The data (hex) shows the state of parameter 503 to achieve the required control. Node-ID 1 (standard value) The following table shows exemplary request data for the device on the CANopen bus. B37574 easYgen-3000XT Series...
Page 772 Please note that high and low bytes are exchanged in the sent address. The data (hex) shows the state of parameter 503 to achieve the required control. The following table shows exemplary request data for the device on the CANopen bus. easYgen-3000XT Series B37574...
Page 773 The following table shows exemplary request data for the device on the CANopen bus. Identifier Description Data (hex) Remote Start 2B F7 21 01 01 00 00 00 Remote Stop 2B F7 21 01 02 00 00 00 B37574 easYgen-3000XT Series...
Page 774 8993) must be enabled, if there is no PLC taking over the master function. ⚙ 1. ▷ Either on the front panel or using ToolKit navigate to menu [Configure CAN interface / Configure CAN interface 1]. 2. ▷ Configure the parameter listed below. easYgen-3000XT Series B37574...
Page 775 The following table shows exemplary send data for the device on the CANopen bus. A frequency setpoint of 50.60 Hz is transmitted: • 5060 (dec) = 13C4 (hex) → C4 13 according to the CANopen protocol • ID (hex) Description Data (hex) Remote F setpoint C4 13 B37574 easYgen-3000XT Series...
Page 776 One message Two messages No validation of the received answer Validation answer, if message has been received by the unit Only working in operational mode May take longer in case of communication with two messages Table 109: Comparison easYgen-3000XT Series B37574...
Page 777 The "Number of Mapped Objects" is 1 since 1 mapped object is used. The request on the bus is sent with the control parameter 510 of the device as mapped object 1. Refer to ╚═▷ “9.2.9 Additional Data Identifier” for a list of additional parameter groups. B37574 easYgen-3000XT Series...
Page 778 ╚═▷ “4.4.4.2 Power Factor Control” for detailed information. The respective power factor setpoint source is to be configured to "05.12 Interface PF sp [%]". Two different methods to transmit a power factor setpoint via CANopen are detailed below. easYgen-3000XT Series B37574...
Page 779 9911 1. Mapped 00508 The 1st mapped object is set to control parameter 508. Object ▶ Setting the COB-ID to 321 (hex) is exemplary; usually, the PDOs are in the range of 181 (hex) to 57F (hex). B37574 easYgen-3000XT Series...
Page 780 Please note that high and low bytes are exchanged in the sent value. The data (hex) shows the state of parameter 508 to achieve the required control. The following table shows exemplary send data for the device on the CANopen bus. easYgen-3000XT Series B37574...
Page 781 8993) must be enabled, if there is no PLC taking over the master function. ⚙ 1. ▷ Either on the front panel or using ToolKit navigate to menu [Configure CAN interface / Configure CAN interface 1]. Configure the parameter listed below. 2. ▷ B37574 easYgen-3000XT Series...
Page 782 The following table shows exemplary send data for the device on the CANopen bus in line A power setpoint of 1000.0 kW is transmitted: • 10000 (dec) = 2710 (hex) → 10 27 according to the CANopen protocol • ID (hex) Description Data (hex) Remote P setpoint 10 27 00 00 easYgen-3000XT Series B37574...
Page 783 2. ▷ Parameter Value Comment 9300 COB-ID 00000321 "COB-ID" set to 00000321. (hex) 9910 Number of Three mapped objects are configured Mapped Objects 9911 1. Mapped 00509 The "1. Mapped Object" is set to control parameter 509. Object B37574 easYgen-3000XT Series...
Page 784 CAN bus and Modbus protocols. Each bit may be used as input of the according setpoint switching LogicsManager. Parameter Setting range Data type Remote control word 2 Yes / No UNSIGNED 16 Table 112: Remote Control word »504«: switching between setpoints easYgen-3000XT Series B37574...
Page 785 8993) must be enabled, if there is no PLC taking over the master function. Configure CAN interface 1 ⚙ 1. ▷ Either on the front panel or using ToolKit navigate to menu [Configure CAN interface / Configure CAN interface 1]. B37574 easYgen-3000XT Series...
Page 786 The device listens to the CAN ID 600 (hex) + Node-ID internally to perform the desired control, the reply is on CAN ID 580 (hex) + Node-ID. The following example shows the send format on CANopen with Node-ID 1. easYgen-3000XT Series B37574...
Page 787 9911 1. Mapped 00505 The "1. Mapped Object" is set to control parameter 505. Object ▶ Setting the COB-ID to 334 (hex) is exemplary; usually, the PDOs are in the range of 181 (hex) to 57F (hex). B37574 easYgen-3000XT Series...
Page 788 2B F9 21 01 01 00 00 00 The data (hex) shows the state of parameter 249 to achieve the required control. The table above shows exemplary sends data for the device on the CANopen bus in line easYgen-3000XT Series B37574...
Page 789 Either on the front panel or using ToolKit navigate to menu [Configure CAN interface 1 / Transmit PDO 1]. 2. ▷ Configure the parameters listed below. Parameter Value Comment 9600 COB-ID 000002AE COB-ID set to 000002AE. (hex) 9602 Transmission The number of required sync messages is set to 2. type B37574 easYgen-3000XT Series...
Page 790 Are all modules detected (i.e. no blinking expansion module)? CAN interface 1 (guidance level) diagnosis Error Possible diagnosis No data is sent by the Woodward Is the unit in operational mode (heartbeat - CAN ID 700 (hex) + Node-ID has the controller content 5 (hex)?
Page 791 Remote Control 6.5.1.1 Remote Start/Stop, Shutdown, And Acknowledgment The Woodward controller may be configured to perform start/stop/Acknowledgment functions remotely through the Modbus protocol. The required procedure is detailed in the following steps. Please find remote control parameter 505 described at: ╚═▷...
Page 792 Example 1: Start Request Fig. 283: Modbus - write register - start request By double-clicking the address, a Write Register command may be issued. ╚═▷ Fig. 283 shows how bit 0 is set using the ModScan32 Software. easYgen-3000XT Series B37574...
Page 793 Class F. Free alarm 1 configuration ╚═▷ Fig. 288 shows how the Monitoring source LM ╚═▷ 8120 »Free alarm 1« is set to Flag 1 and the Alarm class 8121 is set to Class F. B37574 easYgen-3000XT Series...
Page 794 For example, use data source "05.56 Interface P setp [kW]" in AnalogManager "AM ActPower SP1 [kW]" ╚═▷ 5539 to transmit a load setpoint via interface. No password is required to write this value. easYgen-3000XT Series B37574...
Page 795 • Modbus length = 2 (INTEGER 32) • The high word must be written to the lower address and the low word must be written to the higher address. ⚙ ᐳ To set the parameter address in ModScan32: B37574 easYgen-3000XT Series...
Page 796 Select »OK« and enter the desired values. 3. ▷ Fig. 293: "Preset Multiple Registers" dialog 2 Select »Update« to confirm the entered values. ▶ The dialog closes and the values are changed. Fig. 294: Modscan32 at address 40508 easYgen-3000XT Series B37574...
Page 797 • Modbus length = 1 (UNSIGNED 16) • ⚙ ᐳ To set the parameter address in ModScan32: 1. ▷ Fig. 296: Modscan32 at address 40510 Analogous to ╚═▷ Chapter 6.5.1.2 set the parameter address as shown in ╚═▷ Fig. 296. B37574 easYgen-3000XT Series...
Page 798 504 ... Bit 4 Spannungssollwert 2 "04.37 Remote volt. setp. 2" 12920; "86.83 LM: Setp. 2 voltage" Bit 5 Frequency setpoint 2 "04.38 Remote freq. setp. 2" 12918; "86.81 LM: Setpoint 2 freq." easYgen-3000XT Series B37574...
Page 799 To set the bits in ModScan32: ᐳ 1. ▷ Fig. 299: ModScan32 single bit view Using the "display options" set the format to binary to view single bits (╚═▷ Fig. 299). 2. ▷ Double-click the address to issue a Write Register command. B37574 easYgen-3000XT Series...
Page 800 "remote" setpoints (values) defined via interface instead of the internal setpoints as data source in the respective controller. For example, use data source "05.53 Interface f setp [Hz]" instead of "05.51 Internal f setp1 [Hz]" in AnalogManager "AM Frequency SP1[Hz]" ╚═▷ 5518 to transmit a frequency setpoint via interface. easYgen-3000XT Series B37574...
Page 801 • Modbus address = 40000 + (Par. ID + 1) = 41767 • • Modbus length = 2 (UNSIGNED 32) • ⚙ 1. ▷ Fig. 304: Modscan32 at address 41767 Set the configuration to address parameter 1766 as shown in ╚═▷ Fig. 304. B37574 easYgen-3000XT Series...
Page 802 • The complete LogicsManager instruction set is available for Modbus control. • • Hex code equivalents are defined for all LogicsManager settings. • • The Modbus definition for a LogicsManager equation consists of 7 data words • following a well defined sequence. easYgen-3000XT Series B37574...
Page 803 Modbus message. Fig. 306: LogicsManager command chain words 0 and 1 Word 0 and word 1 contain the hex code of the Delay times but in the reverse order of double-byte words, i.e. low byte before high byte. B37574 easYgen-3000XT Series...
Page 804 The command variable prefix e.g., "04.13" is the number of the command variable not it's ID. Refer to ╚═▷ “9.3.2 Logical Command Variables” for the command variable IDs. easYgen-3000XT Series B37574...
Page 805 "NAND" "TRUE" "OR" "FALSE" "NOR" "XOR" "NOT-XOR" Table 119: Hex code equivalents of the logic equations' nibbles The hex code of words 2 and 3 is taken "as is" ¾ don't swap high byte and low byte. B37574 easYgen-3000XT Series...
Page 806 Table 120: 7 words Modbus message in detail Example Fig. 309: LogicsManager command chain sample 12120 Word 0 Word 1 Word 2 Word 3 Word 4 Word 5 Word 6 Delay ON Delay OFF Logic equation 1 Logic equation 2 Command Command Command easYgen-3000XT Series B37574...
Page 807 • 1. Automatic operating mode is always enabled • • 2. Automatic operating mode is enabled via discrete input • Refer to ╚═▷ “6.3.5 Performing Remote Start/Stop And Acknowledgment” for a detailed configuration of the LogicsManager via HMI or ToolKit. B37574 easYgen-3000XT Series...
Page 808 ID = 527 dec 0 dec 0 dec 0000 (hex) 0000 (hex) 020F (hex) 0000 (hex) 0000 (hex) high high "as is" "as is" high high high byte byte byte byte byte byte byte byte byte byte easYgen-3000XT Series B37574...
Page 809 The remote request may be enabled by setting bit 0 (start) of the remote control word 503 to HIGH and may be disabled by setting bit 1 (stop) of the remote control word 503 to HIGH (refer to ╚═▷ “9.2.9 Additional Data Identifier”). Example ⚙ B37574 easYgen-3000XT Series...
Page 810 This is shown in (╚═▷ Fig. 313) using the ModScan32 software. Word Word 1 Word 2 Word 3 Word 4 Word 5 Word 6 Delay ON Delay OFF Logic equation 1* Logic equation 2* Command Command Command easYgen-3000XT Series B37574...
Page 811 Fig. 314: LogicsManager function sample 12490 To configure the LogicsManager function "Ext. acknowledge" (parameter ╚═▷ 12490) as indicated in (╚═▷ Fig. 314) the following Modbus message must be sent to the easYgen: See table ╚═▷ Table 124 below. B37574 easYgen-3000XT Series...
Page 812 The Start w/o load LogicsManager function (parameter ╚═▷ 12540) can be configured in a way that it is always enabled. Refer to ╚═▷ “6.3.5 Performing Remote Start/Stop And Acknowledgment” for a detailed configuration of the LogicsManager via HMI or ToolKit. Example ⚙ easYgen-3000XT Series B37574...
Page 813 Sign 0.00 sec 0.00 sec False And True True No. 00.01 No. 96.01 No. 96.01 ID = ID = ID = 0 dec 0 dec 0 dec 0000 (hex) 0000 (hex) 0000 (hex) 0000 (hex) 0000 (hex) B37574 easYgen-3000XT Series...
Page 814 Fig. 318: ModScan32 at address 40523 Use the "display options" to set the format to decimal view. 1. ▷ Double-click the address to issue a Write Register command. 2. ▷ ▶ Fig. 319: Write register - acknowledge alarm message easYgen-3000XT Series B37574...
Page 815 Use the "display options" to set the value format to binary. 1. ▷ Double-click the address to issue a Write Register command. 2. ▷ ▶ Fig. 321: Write register - clear event history ╚═▷ Fig. 321 shows how bit 0 is enabled using the ModScan32 Software. B37574 easYgen-3000XT Series...
Page 816 ModScan32 Software. The value must be set to "1" to enable the parameter. Example 2 (reset to default) In order to reset the default values, parameter ╚═▷ 1701 must be enabled. easYgen-3000XT Series B37574...
Page 817 The Modbus protocol has multiple exception responses to show that a request could not be executed. Exception responses can be recognized if the response telegram contains the request function code with an offset of 128 (0x80 hex). ╚═▷ Table 126 explains possible reasons for an exception response that occurred. B37574 easYgen-3000XT Series...
Page 818 LogicsManager Command Variables to a customer specific protocol. 6.5.4.2 Configuration Woodward offers the TelegramMapper PC software for free and enables easYgen-XT to import, make accessible, and proceed customer specific Modbus protocols. The TelegramMapper software can be installed separately from other Woodward software.
Page 819 • 200000: File not found -- when file corresponding to selected protocol does not exist • • 300000: Too complex command discovered • • 700000: Too many analog/logic manager indices (i.e. > 32) • • 800000: Memory for the table exhausted (file too big) • B37574 easYgen-3000XT Series...
Page 820 The ModbusMasterMapper software can be installed separately from other Woodward software. After starting the program the HELP file can guide through the required settings.
Page 821 Status Modbus File name (16613): This field shows the "Description" from the loaded Modbus Master config file. This will be read in at start-up. File parsing error code (16614): File parsing error code (16614) Code Meaning No error B37574 easYgen-3000XT Series...
Page 822 This output shows the read or wrote value for the selected Debug line command. Debug When multiple read or multiple write was selected, it shows the first value. It is 0, if value "Select debug line" set to 0. easYgen-3000XT Series B37574...
Page 823 The device will still read/write but it will not do it as quickly as required. This issue can be mitigated by defining slower rate groups or reducing the number of read/write commands. B37574 easYgen-3000XT Series...
Page 824 The CAN interface 2 supports the CANopen and J1939 protocol simultaneously. It supports the connection of a wide range of engine control units (ECUs) and J1939 analog input extension modules, which comply with the J1939 standard (e.g. Axiomatic). CANopen extension modules are also supported. easYgen-3000XT Series B37574...
Page 825 Woodward IKD 1, several combinations of the expansion boards of the Phoenix Inline Modular (IL) series, and the support of Wago terminals. It is possible to connect several combinations of up to four Woodward IKD 1s and/or Phoenix Inline Modular (IL) modules and/or WAGO modules with up to...
Page 826 USB interface (USB 2.0, slave) Service port The USB interface follows the USB 2.0 standard but is - as a service port - reserved for ToolKit and special Woodward usage. CANopen Protocol CANopen is a communication protocol and device profile specification for embedded systems used in automation.
Page 827 Octet Number UNSIGNED8 to b UNSIGNED16 to b to b UNSIGNED24 to b to b to b UNSIGNED32 to b to b to b to b UNSIGNED40 to b to b to b to b to b B37574 easYgen-3000XT Series...
Page 828 SIGNED64 to b to b to b to b to b to b to b to b Table 128: Transfer syntax for data type INTEGER easYgen-3000XT Series B37574...
Page 829 (e.g. SPN = 100 corresponds to oil pressure). • FMI (= Failure Mode Indicator) specifies the alarm more precisely (e.g. FMI = 3 • means: value is above predefined limits) • OC (Occurrence Count) indicates how often an alarm occurred. • B37574 easYgen-3000XT Series...
Page 830 15226 171:Ambient Air Temperature 65269 1 °C -40 to 210 °C 15213 172:Air Intake Temperature 65270 0.1 °C -273 to 1735 °C 15216 173:Exhaust Gas Temperature 65262 1 °C -40 to 210 °C 15203 174:Fuel Temperature 1 easYgen-3000XT Series B37574...
Page 831 0.1 °C -273 to 1735 °C 15252 1147:Exh.Gas Port 11 Temp 1148 65185 0.1 °C -273 to 1735 °C 15253 1148:Exh.Gas Port 12 Temp 1149 65184 0.1 °C -273 to 1735 °C 15254 1149:Exh.Gas Port 13 Temp B37574 easYgen-3000XT Series...
Page 832 1185:Turbo2 Outlet Temp 1186 65175 0.1 °C -273 to 1735 °C 15287 1186:Turbo3 Outlet Temp 1187 65175 0.1 °C -273 to 1735 °C 15288 1187:Turbo4 Outlet Temp 1203 65172 1 kPa 0 to 1000 kPa 15289 1203:Aux.Coolant Press easYgen-3000XT Series B37574...
Page 833 03.87 Inhibit Switch 3711 64892 enumeration (only 11031 03.88 Low exhaust temp. 3712 64892 enumeration (only 11032 03.89 System fault active 3713 64892 enumeration (only 11033 03.90 System timeout 3714 64892 enumeration (only 11034 03.91 Temporary lockout B37574 easYgen-3000XT Series...
Page 834 Command Variables".) • • Value only available as "Logical Command Variable" or "AnalogManager Variable" • • If the total engine hours sent by the ECU exceed 419,000 hrs, the display in the unit is not correct anymore. easYgen-3000XT Series B37574...
Page 835 ╚═▷ “9.3.2.3 Group 03: Engine Temp. control” Low Urea Level LM 03.18 ╚═▷ “9.3.2.3 Group 03: Engine control” DLN7 15313 1761:Aftertr.1 AM 09.08 ╚═▷ “9.4.2.8 Group 09: J1939 Exh.Tank1 Lev. (assigned to values 2” SPN 1761 indication) B37574 easYgen-3000XT Series...
Page 836 ╚═▷ “9.4.2.8 Group 09: J1939 (Emergency activation values 2” Inducement Override) 15853 Accumulated EIO AM 09.22 ╚═▷ “9.4.2.8 Group 09: J1939 time values 2” 15854 Time left EIO AM 09.23 ╚═▷ “9.4.2.8 Group 09: J1939 operation values 2” easYgen-3000XT Series B37574...
Page 837 The easYgen is connected with the ECU9 MTU system: ADEC ECU8 & SmartConnect or ADEC ECU9. Hatz EDC 17 Hatz EDC 17 ECU file ECU file This is to support ECUs which are not represented by the selection. Enter file B37574 easYgen-3000XT Series...
Page 838 Please note that some ECU manufacturers require that this functionality must be enabled first. In some cases, this is only possible by the manufacturer. Please consider this when ordering the ECU. Woodward EGS, E3, E6, PG+ series Scania S6/S8 Deutz EMR2/EMR3 / Volvo EDC4...
Page 839 Ignition" is TRUE). The bit will be reset, if the "Preglow" phase has been expired or aborted. Override This J1939 bit information is set, if the easYgen is in critical mode (LogicsManager command variable 04.27. "Critical mode" is TRUE). B37574 easYgen-3000XT Series...
Page 840 DM1 and DM2 failure codes via DM3 and DM11 messages. Remote control messages The following table shows the transmitted remote control messages. These messages are only transmitted if the parameter "ECU remote controlled" (parameter ╚═▷ 15127) is configured to "On". easYgen-3000XT Series B37574...
Page 841 Droop Setting 1". 65265 FEF1 CCVS Cruise Control/Vehicle 1237 Engine Shutdown Override Switch Speed 59904 EA00 — Request (specific) Engine Total Hours of Operation 10,000 (at PGN FEE5) — DM11 Diagnostic Data Clear/Reset For Active DTCs (at PGN FED3) B37574 easYgen-3000XT Series...
Page 842 (PLCs). It has become a de facto standard communications protocol in industry, and is now the most commonly available means of connecting industrial electronic devices. The Woodward controller supports • a Modbus RTU Slave module for RS-485 connections •...
Page 843 332) Modbus Modbus function codes addresses 465536 Read holding Visualization Data register (0x03) 450001 450000 Read holding register (0x03) Remote Control & Present multiple Configuration Data registers (0x10) Present single 40001 register (0x06) Fig. 332: Address range B37574 easYgen-3000XT Series...
Page 844 The easYgen has an additional combined CANopen/Modbus protocol 5003. Please refer to the Data Protocols chapter, ╚═▷ “9.2 Data Protocols” The following ModScan32 screenshot shows the configurations made to read the visualization protocol with a block read of 128 registers. easYgen-3000XT Series B37574...
Page 845 (UNSIGNED 8, INTEGER 16, etc.). Refer to ╚═▷ Table 131 for more information. Types Modbus Remarks registers UNSIGNED 8 UNSIGNED 16 INTEGER 16 UNSIGNED 32 INTEGER 32 LOGMAN Little-endian is used for LogicsManager to be compatible with (non-XT) easYgen series B37574 easYgen-3000XT Series...
Page 846 • without CAN (J1939 protocol) connected -> max. 2 seconds • • with CAN (J1939 protocol) connected -> max. 3 seconds • Woodward recommends to make a break time of 10 ms after receiving the data of the last Modbus request. Load Sharing General information The maximum number of participating easYgen-3000XT Series devices for load sharing is 32.
Page 847 The following parameters allows to select the interface for load share communication. Refer to ╚═▷ “4.4.4.3.5 Load-Share Interface” for detailed information. Text Setting range Default value 9924 Load share Interface Ethernet A CAN/EthA by LM* CAN/Ethernet A Notes B37574 easYgen-3000XT Series...
Page 848 Switches the load share interface between • FALSE: CAN • • TRUE: Ethernet A • Woodward recommends to configure the Node-IDs (parameter ╚═▷ 8950) for units, which participate in load sharing, as low as possible to facilitate a fast establishing of communication. 7.7.1...
Page 849 Load share and other system relevant messages are handled with UDP messages. The construction of the UDP messages allows (load share) communication with other Woodward devices. For configuration of the Ethernet interface see chapters ╚═▷ “4.7.5 Ethernet Interfaces” ╚═▷ “7.2 Ethernet Interfaces”. B37574 easYgen-3000XT Series...
Page 850 Date of production (year-month) Item revision number Approval Approvals Environment Separate collection symbol Battery inside Fig. 335: Waste Disposal This device contains a battery, and therefore it is labeled with the symbol shown beside according to the EU Directive 2006/66/EC. easYgen-3000XT Series B37574...
Page 851 Mains/ground current approx. 1.5 × I rated Maximum power consumption per < 0.10 VA path Rated short-time current (1 s) 50.0 A Battery Voltage Measuring values, battery voltage Galvanically isolated Input voltage range 8 to 40 V B37574 easYgen-3000XT Series...
Page 852 LogicsManager Contact material AgNi General purpose (GP) (V 2.00 A @250 V cont, relays 2.00 A @24 V 0.36 A @125 V Not suitable for USA and Canada applications. Not evaluated by UL. 0.18 A @250 V easYgen-3000XT Series B37574...
Page 853 , 500 Hz duty cycle Shunt resistor max. 500 Ω Basic isolation to PE 500 V Reinforced isolation to PE 300 V Auxiliary excitation (D+) input/output Auxiliary excitation (D+) input/output Galvanically isolated Output current approx. 100 mA@12/24 V B37574 easYgen-3000XT Series...
Page 854 ≤1000 rpm per second (max. unloaded engine acceleration) Minimum rated rpm 100 (rpm) Fig. 336: MPU - characteristic 8.1.4 Interfaces USB (slave) USB 2.0 interface Galvanically isolated Type USB 2.0 standard; slave (Type B) Data rate max. 12 Mbit/s easYgen-3000XT Series B37574...
Page 855 Shielding: F/UTP according to ISO/IEC 11801 (foil overall shielding, pairs unshielded) Green LED Indicates link activity (blinking during data transmission) Yellow LED Indicates link status (regarding speed): 10 Mb/s: LED switched-off 100 Mb/s: LED switched-on Internal shield termination Available B37574 easYgen-3000XT Series...
Page 856 Real Time Clock Battery Type Lithium Life span (operation without power supply) approx. 5 years Battery field replacement Not allowed. Please contact your Woodward service partner. 8.1.6 Display (plastic housing variant, only) Type LCD display Size Diagonal: 5,7’’ (144.8 mm)
Page 857 40 G, Saw tooth pulse, 11 ms Standards MIL-STD 810F, M516.5, Procedure 1 Temperature Housing »...-LT« version, only type Plastic Cold, Dry Heat (storage) -30 °C (-22 °F) / 80 °C (176 -30 °C (-22 °F) / 80 °C (176 °F) °F) B37574 easYgen-3000XT Series...
Page 858 • Range 2: 277/480 V rated = 100% • • Measuring value Display Accuracy Measuring start Notes Frequency Generator 15.0 to 85.0 Hz 0.1% (of 85 Hz) 5% (of PT secondary voltage setting) Mains 30.0 to 85.0 Hz easYgen-3000XT Series B37574...
Page 859 0 to 40 V Pickup speed +/- 40% 0,1% of f +/- 1 rated rated Phase angle -180 to 180° ± 1 degree 1.25% (of PT 180° is displayed for secondary volt. measuring values setting) below measuring start B37574 easYgen-3000XT Series...
Page 860 The reference conditions for measuring the accuracy are listed below. Input voltage Sinusoidal rated voltage Input current Sinusoidal rated current Frequency Rated frequency Power supply Rated voltage ± 2% Power factor (cos φ) 1.000 Ambient temperature 23 °C ± 2 K Warm-up period 20 minutes easYgen-3000XT Series B37574...
Page 861 Engine: Overspeed / underspeed 12 / 14 Speed / frequency mismatch D+ auxiliary excitation failure Cylinder temperature Mains: Voltage / frequency 59 / 27 / 81O / 81U /25 Phase shift / rotation field / ROCOF (df/dt) B37574 easYgen-3000XT Series...
Page 862 Released 9 Appendix 9.1 Characteristics Appendix Characteristics 9.1.1 Triggering Characteristics Time-dependent overshoot monitoring This triggering characteristic is used for time-dependent overcurrent monitoring. Fig. 337: Three-level time-dependent overshoot monitoring easYgen-3000XT Series B37574...
Page 863 Released 9 Appendix 9.1.1 Triggering Characteristics Two-level overshoot monitoring This triggering characteristic is used for generator, mains and battery overvoltage, generator and mains overfrequency, overload IOP and MOP and engine overspeed monitoring. Fig. 338: Two-level overshoot monitoring B37574 easYgen-3000XT Series...
Page 864 Released 9 Appendix 9.1.1 Triggering Characteristics Two-level undershoot monitoring This triggering characteristic is used for generator, mains and battery undervoltage, generator and mains underfrequency, and engine underspeed monitoring. Fig. 339: Two-level undershoot monitoring easYgen-3000XT Series B37574...
Page 865 Released 9 Appendix 9.1.1 Triggering Characteristics Two-level reversed/reduced load monitoring This triggering characteristic is used for generator reversed/reduced load monitoring. Fig. 340: Two-level reversed/reduced load monitoring B37574 easYgen-3000XT Series...
Page 866 Released 9 Appendix 9.1.1 Triggering Characteristics Two-level unbalanced load monitoring This triggering characteristic is used for generator unbalanced load monitoring. Fig. 341: Two-level unbalanced load monitoring easYgen-3000XT Series B37574...
Page 867 Since VDO sensors are available in different types, the index numbers of the characteristic curve tables are listed. ⚙ Always order VDO sensors with the correct characteristic curve. Manufacturers of VDO 1. ▷ sensors usually list these tables in their catalogs. B37574 easYgen-3000XT Series...
Page 868 VDO Input "Pressure" 0 to 5 bar/0 to 72 psi - Index "III" Fig. 343: Characteristics diagram VDO 0 to 5 bar, Index "III" P [bar] P [psi] 7.25 14.50 21.76 29.00 36.26 43.51 50.76 58.02 65.27 72.52 [Ohm] easYgen-3000XT Series B37574...
Page 869 0 to 10 bar/0 to 145 psi - Index "IV" Fig. 344: Characteristics diagram VDO 0 to 10 bar, Index "IV" [bar] 7.25 14.50 21.76 29.00 43.51 58.02 72.52 87.02 101.53 116.03 123.28 130.53 145.04 [psi] [Ohm] B37574 easYgen-3000XT Series...
Page 870 Released 9 Appendix 9.1.2.2 VDO Input "Temperature" 9.1.2.2 VDO Input "Temperature" 40 to 120 °C/104 to 248 °F - Index "92-027-004" Fig. 345: Characteristics diagram VDO 40 to 120 °C - detail, Index "92-027-004" easYgen-3000XT Series B37574...
Page 871 197.3 161.5 134.0 114.0 [Ohm] ... continued with further points: Temp. [°C] Temp. [°F] 97.1 82.4 70.1 59.7 51.2 44.3 38.5 33.4 29.1 25.5 22.4 [Ohm] ... and finally continued with further points: Temp. [°C] Temp. [°F] B37574 easYgen-3000XT Series...
Page 872 50 to 150 °C/122 to 302 °F - Index "92-027-006" Fig. 347: Characteristics diagram VDO 50 to 150 °C - detail, Index "92-027-006" Fig. 348: Characteristics diagram VDO 0 to 120 °C - full range, Index "92-027-006" easYgen-3000XT Series B37574...
Page 873 [°C] Temp. [°F] 266.19 221.17 184.72 155.29 131.38 112.08 96.40 82.96 71.44 61.92 54.01 [Ohm] Temp. [°C] Temp. [°F] 47.24 41.42 36.51 32.38 28.81 25.70 23.00 20.66 18.59 [Ohm] 9.1.2.3 Pt100 RTD Fig. 349: Characteristics diagram Pt100 B37574 easYgen-3000XT Series...
Page 874 345.1 360.5 375.5 390.25 [Ohm] 9.1.2.4 Pt1000 RTD The characteristic of the Pt1000 temperature sender accords the characteristic diagram Pt100 at which the R value is to multiply with 10. Refer to ╚═▷ “9.1.2.3 Pt100 RTD” details. easYgen-3000XT Series B37574...
Page 875 Please ignore data your device does not support. The following data protocols are implemented to be used CANopen/Modbus • 5003: Basic Visualization • supported for easYgen-3000 series compatibility • 5014: Basic Visualization (based on 5003) • B37574 easYgen-3000XT Series...
Page 876 (for url see ╚═▷ “QR Code” 9.2.1 Protocol 5003 (Basic Visualization) Modbus- Size Index Description Unit Scale Model Address Byte 50000 int16 Protocol-ID, always 5003 50001 int16 10100 Pickup speed 50002 BITLIST Control mode (STOP/AUTO/MANUAL/ Mask:000Fh TEST) easYgen-3000XT Series B37574...
Page 877 10152 Analog input 6 configurable EG3500XT- 50040 int32 Gen. current 3 *1000 50042 int16 10153 Analog input 7 configurable EG3500XT- 50043 int32 Mains current L1 *1000 50045 int16 10154 Analog input 8 configurable EG3500XT- 50046 int16 Internal B37574 easYgen-3000XT Series...
Page 878 05.02 LM Engine Over speed 2 latched Mask: 4000h 05.01 LM Engine Over speed 1 latched Mask: 8000h 50064 Busbar 1: voltage L1-L2 50066 10149 BITLIST 08.30 GCB syn. timeout latched Mask: 8000h 08.31 MCB syn. timeout latched Mask: 4000h easYgen-3000XT Series B37574...
Page 879 17.08 Decoupling GCB<->MCB latched Mask: 0080h 17.07 Meas.difference 4105 VDE-AR-N Mask: 0040h 4105 latched 17.06 Parameter alignment VDE-AR-N Mask: 0020h 4105 latched 17.05 Missing member VDE-AR-N 4105 Mask: 0010h latched 08.22 Busbar monitoring latched Mask: 0008h B37574 easYgen-3000XT Series...
Page 880 06.16 Generator unbalanced load 1 Mask: 8000h latched 06.17 Generator unbalanced load 2 Mask: 4000h latched 06.18 Generator voltage asymmetry Mask: 2000h latched 06.19 Ground fault 1 latched Mask: 1000h 06.20 Ground fault 2 latched Mask: 0800h easYgen-3000XT Series B37574...
Page 881 Internal Mask: 0010h Internal Mask: 0008h 07.05 Mains Phase rotation mismatch Mask: 0004h latched Internal Mask: 0002h Internal Mask: 0001h 50079 int32 Gen. voltage L2-L3 50081 uint32 10278 BITLIST 07.21 Mains import power 1 latched Mask: 8000h B37574 easYgen-3000XT Series...
Page 882 Mask: 0040h 09.11 Discrete input 11 latched Mask: 0020h 09.12 Discrete input 12 latched Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h 50085 int32 Gen. voltage L3-L1 50087 uint32 10283 BITLIST easYgen-3000XT Series B37574...
Page 883 12.07 External discrete input 7 latched Mask: 0040h 12.06 External discrete input 6 latched Mask: 0020h 12.05 External discrete input 5 latched Mask: 0010h 12.04 External discrete input 4 latched Mask: 0008h 12.03 External discrete input 3 latched Mask: 0004h B37574 easYgen-3000XT Series...
Page 884 Mask: 0040h 15.22 Flexible limit 22 latched Mask: 0020h 15.21 Flexible limit 21 latched Mask: 0010h 15.20 Flexible limit 20 latched Mask: 0008h 15.19 Flexible limit 19 latched Mask: 0004h 15.18 Flexible limit 18 latched Mask: 0002h easYgen-3000XT Series B37574...
Page 885 Mask: 0020h Internal Mask: 0010h 08.02 Battery over voltage 2 latched Mask: 0008h 08.04 Battery under voltage 2 latched Mask: 0004h 08.01 Battery over voltage 1 latched Mask: 0002h 08.03 Battery under voltage 1 latched Mask: 0001h B37574 easYgen-3000XT Series...
Page 886 EG3500XT- 10.08 Analog input 8 wire break Mask: 0100h EG3500XT- 10.09 Analog input 9 wire break Mask: 0200h EG3500XT- 10.10 Analog input 10 wire break Mask: 0400h EG3500XT- Internal Mask: 0800h Internal Mask: 1000h Internal Mask: 2000h easYgen-3000XT Series B37574...
Page 887 13.08 Relay-Output 8 Mask: 0100h 13.09 Relay-Output 9 Mask: 0080h 13.10 Relay-Output 10 Mask: 0040h 13.11 Relay-Output 11 Mask: 0020h 13.12 Relay-Output 12 Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h B37574 easYgen-3000XT Series...
Page 888 Mask: 0100h 98.08 LM External DO 8 Mask: 0080h 98.07 LM External DO 7 Mask: 0040h 98.06 LM External DO 6 Mask: 0020h 98.05 LM External DO 5 Mask: 0010h 98.04 LM External DO 4 Mask: 0008h easYgen-3000XT Series B37574...
Page 889 Mask: 0080h 03.08 Breaker delay timer has expired Mask: 0040h 03.25 Engine shall run Mask: 0020h 04.27 Critical mode is active Mask: 0010h 03.06 Engine release is active Mask: 0008h 03.30 Auxiliary services prerun is active Mask: 0004h B37574 easYgen-3000XT Series...
Page 890 04.06 GCB is closed Mask: 0800h 04.07 MCB is closed Mask: 0400h 05.16 Derating active (J1939 or freely) Mask: 0200h 04.18 Synchronisation GCB procedure is Mask: 0100h active 04.19 Opening GCB relay is active Mask: 0080h easYgen-3000XT Series B37574...
Page 891 LDSS: The Engine shall stop, if possible Mask: 0010h LDSS: Minimum Running Time is active Mask: 0008h 04.43 The LDSS function is active Mask: 0004h 04.60 Critical mode postrun Mask: 0002h AUTOMATIC Run: Switch to Operating Mask: 0001h Mode STOP B37574 easYgen-3000XT Series...
Page 892 12.18 External discrete input 18 latched Mask: 0002h 12.17 External discrete input 17 latched Mask: 0001h 50141 uint16 8009 BITLIST Relay Outputs 4 98.32 LM External DO 32 Mask: 8000h 98.31 LM External DO 31 Mask: 4000h easYgen-3000XT Series B37574...
Page 893 External Analog Output 2 *100 50160 int16 10265 External Analog Output 3 *100 50161 int16 10275 External Analog Output 4 *100 50162 int16 Internal 50163 int32 2580 Period of use counter *100 50165 uint16 10190 BITLIST Alarms 3 latched (unacknowledged) B37574 easYgen-3000XT Series...
Page 894 Nominal active power in system (in own segment) 50168 uint16 4157 BITLIST ControlBits6 28.01 Command 1 to LSx (OR) Mask: 8000h EG3500XT- EG3500XT- 28.02 Command 2 to LSx (OR) Mask: 4000h EG3500XT- EG3500XT- 28.03 Command 3 to LSx (OR) Mask: 2000h EG3500XT- easYgen-3000XT Series B37574...
Page 895 System act.nom.pwr. *100 50176 int16 Syst.total real pwr. *100 50177 uint16 15304 J1939 EMR Engine Stop Information (refer to DEUTZ-specific J1939-Message) "Missing" Value="65535" "Error" Value="65279" "Type 9" Value="9" "Type 8" Value="8" "Type 7" Value="7" "Type 6" Value="6" B37574 easYgen-3000XT Series...
Page 896 Aftertreatment 1 Diesel Exhaust Fluid Tank Level 50182 int16 15312 Battery Potential, Switched 1. Active Diagnostic Trouble Code (DM1) 50183 uint32 15400 50185 uint16 BITLIST 15401 Mask FF00h 15402 Mask 00FFh 2. Active Diagnostic Trouble Code (DM1) easYgen-3000XT Series B37574...
Page 897 15420 BITLIST Mask FF00h 15421 Mask 00FFh 8. Active Diagnostic Trouble Code (DM1) 50204 uint32 15422 50206 uint16 15423 BITLIST Mask FF00h 15424 Mask 00FFh 9. Active Diagnostic Trouble Code (DM1) 50207 uint32 15425 50209 uint16 BITLIST B37574 easYgen-3000XT Series...
Page 898 BITLIST 15460 Mask FF00h 15461 Mask 00FFh 5. Previously Active Diagnostic Trouble Code (DM2) 50225 uint32 15462 50227 uint16 BITLIST 15463 Mask FF00h 15464 Mask 00FFh 6. Previously Active Diagnostic Trouble Code (DM2) 50228 uint32 15465 easYgen-3000XT Series B37574...
Page 899 BITLIST J1939 Lamp Status DM1 Malfunction Lamp Internal Mask 8000h Internal Mask 4000h Mask 2000h Mask 1000h Red Stop Lamp Internal Mask 0800h Internal Mask 0400h Mask 0200h Mask 0100h Amber Warning Lamp Internal Mask 0080h Internal Mask 0040h B37574 easYgen-3000XT Series...
Page 900 Engine Speed (j1939-EEC1) Value for Error indicator: FFFFFFFEh Value for Not available: FFFFFFFFh 50248 int16 15202 Engine Coolant Temperature (J1939-ET1) °C Value for Error indicator: FFFEh Value for Not available: FFFFh 50249 int32 15201 Total engine hours (j1939-HOURS) easYgen-3000XT Series B37574...
Page 901 Value for Error indicator: FFFEh Value for Not available: FFFFh 50262 int16 15215 Intake Manifold Temp (j1939-IC1) °C Value for Error indicator: FFFEh Value for Not available: FFFFh 50263 int16 15212 Barometric Pressure (j1939-AMB) Value for Error indicator: FFFEh B37574 easYgen-3000XT Series...
Page 902 05.02 Engine Over speed 2 latched Mask: 4000h 05.03 Engine under speed 1 latched Mask: 2000h 05.04 Engine under speed 2 latched Mask: 1000h 05.05 Unintended stop detected latched Mask: 0800h 05.07 Speed detection alarm latched Mask: 0400h easYgen-3000XT Series B37574...
Page 903 05.14 ECU yellow (amber) lamp alarm latched Mask: 0001h int32 Gen. current 1 *1000 int32 Gen. current 2 *1000 int16 Internal int32 Gen. current 3 *1000 int16 Internal int32 Total gen. power uint16 10134 BITLIST Alarms Gen latched (unacknowledged) B37574 easYgen-3000XT Series...
Page 904 06.25 Gen.Power Factor lagging 1 latched Mask: 0008h 06.26 Gen.Power Factor lagging 2 latched Mask: 0004h 06.27 Gen.Power Factor leading 1 latched Mask: 0002h 06.28 Gen.Power Factor leading 2 latched Mask: 0001h int32 Gen. voltage L1-L2 uint16 10131 BITLIST Alarm General easYgen-3000XT Series B37574...
Page 905 Mask: 0008h 03.30 Auxiliary services prerun is active Mask: 0004h 03.31 Auxiliary services postrun is active Mask: 0002h 04.61 Lamp test request Mask: 0001h int32 Gen. voltage L1-N int32 Gen. voltage L2-L3 int16 Internal int32 Gen. voltage L2-N B37574 easYgen-3000XT Series...
Page 906 03.21 3-Pos. Controller Freq./Power lower Mask: 4000h 03.22 3-Pos. Controller Volt./ReactPow raise Mask: 2000h 03.23 3-Pos. Controller Volt./ReactPow lower Mask: 1000h 04.06 GCB is closed Mask: 0800h 04.07 MCB is closed Mask: 0400h 05.16 Derating active (J1939 or freely) Mask: 0200h easYgen-3000XT Series B37574...
Page 907 LDSS: The Engine shall stop, if possible Mask: 0010h LDSS: Minimum Running Time is active Mask: 0008h 04.43 The LDSS function is active Mask: 0004h 04.60 Critical mode postrun Mask: 0002h AUTOMATIC Run: Switch to Operating Mode Mask: 0001h STOP B37574 easYgen-3000XT Series...
Page 908 Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h 07.05 Mains Phase rotation mismatch latched Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h uint16 10278 BITLIST Alarms Mains 1 latched (unacknowledged) 07.21 Mains import power 1 latched Mask: 8000h easYgen-3000XT Series B37574...
Page 909 Internal int32 Mains voltage L3-N int16 Internal 9.2.4 Protocol 5010 (Basic Visualization) Modbus- Size Index Description Unit Scale Model Address 50000 int16 Protocoll-ID, always 5010 50001 int16 3181 Skaling Power (16 bits) Exponent 10* W (5;4;3;2) B37574 easYgen-3000XT Series...
Page 910 50002) 50016 int16 Generator voltage L1-N format defined by index 3182 (Modbus- Address 50002) 50017 int16 Generator voltage L2-N format defined by index 3182 (Modbus- Address 50002) 50018 int16 Generator voltage L3-N format defined by index 3182 easYgen-3000XT Series B37574...
Page 911 Setpoint power factor (cosphi) Topic AC Mains values 50030 int16 Mains frequency *100 50031 int16 Total mains power format defined by index 3181 (Modbus- Address 50001) 50032 int16 Total mains reactive power format defined by index 3181 (Modbus- Address 50001) B37574 easYgen-3000XT Series...
Page 912 EG3500XT-P1 index 3182 (Modbus- Address 50002) 50044 int16 Average LSx Wye Mains voltage L-N format EG3500XT-P1 defined by EG3500XT-P1 index 3182 (Modbus- Address 50002) Topic AC System values 50045 int16 Nominal real power in system *100 easYgen-3000XT Series B37574...
Page 913 Analog output 4 configurable EG3500XT-P2 50072 int16 10319 Analog output 5 configurable EG3500XT-P2 50073 int16 10320 Analog output 6 configurable EG3500XT-P2 50074 int16 10170 External Analog input 1 configurable 50075 int16 10171 External Analog input 2 configurable B37574 easYgen-3000XT Series...
Page 914 Refer to manual chapter Status messages for more information. 50101 int16 Internal 50102 int16 4153 BITLIST ControlBits1 Idle mode OR Ramp to rated active Mask: 8000h 04.15 Idle run is active Mask: 4000h 04.12 Start without closing GCB Mask: 2000h easYgen-3000XT Series B37574...
Page 915 4155 BITLIST ControlBits3 03.20 3-Pos. Controller Freq./Power raise Mask: 8000h 03.21 3-Pos. Controller Freq./Power lower Mask: 4000h 03.22 3-Pos. Controller Volt./ReactPow raise Mask: 2000h 03.23 3-Pos. Controller Volt./ReactPow lower Mask: 1000h 04.06 GCB is closed Mask: 0800h B37574 easYgen-3000XT Series...
Page 916 LDSS: Minimum Running Time is active Mask: 0008h 04.43 The LDSS function is active Mask: 0004h 04.60 Critical mode postrun Mask: 0002h AUTOMATIC Run: Switch to Operating Mode Mask: 0001h STOP 50106 int16 4150 BITLIST ControlBits5 04.13 Remote Start request Mask: 8000h easYgen-3000XT Series B37574...
Page 917 Mask: 0020h 13.12 Relay-Output 12 Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h 50109 int16 10109 BITLIST Relay Outputs 2 13.13 Relay-Output 13 Mask: 8000h EG3500XT-P2 13.14 Relay-Output 14 Mask: 4000h EG3500XT-P2 B37574 easYgen-3000XT Series...
Page 918 BITLIST Relay Outputs 4 98.32 LM External DO 32 Mask: 8000h 98.31 LM External DO 31 Mask: 4000h 98.30 LM External DO 30 Mask: 2000h 98.29 LM External DO 29 Mask: 1000h 98.28 LM External DO 28 Mask: 0800h easYgen-3000XT Series B37574...
Page 919 Extended Busbar F/V okay Mask: 0010h Marine Extended Busbar is dead Mask: 0008h Marine Phaseangle MNS/BUS okay Mask: 0004h Marine Phaseangle GEN/BUS okay Mask: 0002h Marine 03.38 Inhibit cranking Mask: 0001h 50113 int16 Internal Topic Alarm Management B37574 easYgen-3000XT Series...
Page 920 08.16 Parameter Alignment LDSS Mask: 0010h 08.17 Missing members Mask: 0008h 08.48 MCB plausibility Mask: 0004h 05.13 ECU red lamp alarm latched Mask: 0002h 05.14 ECU yellow (amber) lamp alarm latched Mask: 0001h 50116 int16 4169 Alarms 2 active (reserved) easYgen-3000XT Series B37574...
Page 921 6.35 Pole slip Mask: 0100h 08.44 Syst.update LS5 Mask: 0080h EG3500XT-P1 EG3500XT-P2 08.43 Syst.update easYgen Mask: 0040h 06.32 Gen.AC Wiring Mask: 0020h 06.33 Busbar1 AC Wiring Mask: 0010h EG3500XT-P2 Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h B37574 easYgen-3000XT Series...
Page 922 08.10 General CAN-J1939 fault latched Mask: 0010h 05.08 Start fail detected latched Mask: 0008h 05.09 Maintenance days exceeded latched Mask: 0004h 05.10 Maintenance hours exceeded latched Mask: 0002h 08.18 CANopen error at CAN Interface 1 Mask: 0001h easYgen-3000XT Series B37574...
Page 923 08.04 Battery under voltage 2 latched Mask: 0004h 08.01 Battery over voltage 1 latched Mask: 0002h 08.03 Battery under voltage 1 latched Mask: 0001h 50123 int16 4171 Alarms Analog Inputs 1 active (reserved) Internal Mask: 8000h Internal Mask: 4000h B37574 easYgen-3000XT Series...
Page 924 06.14 Generator overload IOP 1 latched Mask: 0004h 06.15 Generator overload IOP 2 latched Mask: 0002h 06.34 Busbar phase rotation mismatch latched Mask: 0001h EG3500XT-P2 50127 int16 4161 Alarms Generator active (reserved) Internal Mask: 8000h Internal Mask: 4000h easYgen-3000XT Series B37574...
Page 925 06.27 Gen.Power Factor leading 1 latched Mask: 0002h 06.28 Gen.Power Factor leading 2 latched Mask: 0001h 50129 int16 4163 Alarms Generator 1 active (reserved) Internal Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h B37574 easYgen-3000XT Series...
Page 926 50133 int16 4188 BITLIST Alarms Mains active Mains over frequency 1 Mask: 8000h Mains over frequency 2 Mask: 4000h Mains under frequency 1 Mask: 2000h Mains under frequency 2 Mask: 1000h Mains over voltage 1 Mask: 0800h easYgen-3000XT Series B37574...
Page 927 07.30 Mains QV Monitoring step 2 latched Mask: 0001h 50135 int16 4187 Alarms Mains 1 active (reserved) Internal Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h B37574 easYgen-3000XT Series...
Page 928 Mask: 0002h Internal Mask: 0001h 50139 int16 4181 Alarms Digital Inputs 1 active (reserved) Internal Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h easYgen-3000XT Series B37574...
Page 929 4185 Alarms External Digital Inputs active (reserved) Internal Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h B37574 easYgen-3000XT Series...
Page 930 (reserved) Internal Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h Internal Mask: 0020h Internal Mask: 0010h easYgen-3000XT Series B37574...
Page 931 Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h Internal Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h B37574 easYgen-3000XT Series...
Page 932 Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h Internal Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h easYgen-3000XT Series B37574...
Page 933 Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h Internal Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h B37574 easYgen-3000XT Series...
Page 934 Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h Internal Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h 50156 int16 Internal 50157 int16 Internal 50158 int16 Internal easYgen-3000XT Series B37574...
Page 935 Mask: 0200h Internal Mask: 0400h Internal Mask: 0800h Internal Mask: 1000h Internal Mask: 2000h Internal Mask: 4000h Internal Mask: 8000h 50161 int16 10285 BITLIST Alarms Ext.AI Wire Break latched 25.01 Ext. analog input 1 wire break Mask: 0001h B37574 easYgen-3000XT Series...
Page 936 Mask: 0200h Internal Mask: 0400h Internal Mask: 0800h Internal Mask: 1000h Internal Mask: 2000h Internal Mask: 4000h Internal Mask: 8000h 50163 int16 Internal 50164 int16 Internal Subtopic GAP Alarms 50165 int16 10286 BITLIST Other Alarms 1 latched (unacknowledged) easYgen-3000XT Series B37574...
Page 937 Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h Internal Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h 50167 int16 Internal 50168 int16 Internal 50169 int16 Internal B37574 easYgen-3000XT Series...
Page 938 Mask 00FFh 6. Active Diagnostic Trouble Code (DM1) 50181 int16 15415 SPN of 6. entry low 16 bits of 19 bits of SPN 50182 uint16 BITLIST 15416 Mask FF00h 15418 Mask 00FFh 7. Active Diagnostic Trouble Code (DM1) easYgen-3000XT Series B37574...
Page 939 Mask 0400h On Red Stop Lamp Mask 0200h Off Red Stop Lamp Mask 0100h Internal Mask 0080h Internal Mask 0040h On Amber Warning Lamp Mask 0020h Off Amber Warning Lamp Mask 0010h Internal Mask 0008h Internal Mask 0004h B37574 easYgen-3000XT Series...
Page 940 (refer to DEUTZ-specific J1939-Message) "Missing" Value="65535" "Error" Value="65279" "Type 9" Value="9" "Type 8" Value="8" "Type 7" Value="7" "Type 6" Value="6" "Type 5" Value="5" "Type 4" Value="4" "Type 3" Value="3" "Type 2" Value="2" "Type 1" Value="1" "Type 0" Value="0" easYgen-3000XT Series B37574...
Page 941 15206 Coolant Level (SPN 111) 50208 int16 15207 Throttle position (SPN 91) 50209 int16 15208 Load at current Speed (SPN 92) 50210 int16 15210 Engine oil level (SPN 98) 50211 int16 15214 Boost pressure (SPN 102) B37574 easYgen-3000XT Series...
Page 942 Exhaust Gas Port 3 Temperatures (SPN1139) °C 50246 int16 15245 Exhaust Gas Port 4 Temperatures (SPN1140) °C 50247 int16 15246 Exhaust Gas Port 5 Temperatures (SPN1141) °C 50248 int16 15247 Exhaust Gas Port 6 Temperatures (SPN1142) °C easYgen-3000XT Series B37574...
Page 943 15279 Turbo 3 Compressor Inlet Pressure (SPN1178) 50281 int16 15280 Turbo 4 Compressor Inlet Pressure (SPN1179) 50282 int16 15281 Turbo 1 Turbine Inlet Temperature (SPN1180) °C 50283 int16 15282 Turbo 2 Turbine Inlet Temperature (SPN 1181) °C B37574 easYgen-3000XT Series...
Page 944 (SPN 4153) 50309 int16 12812 Exhaust Gas Temperature Average Bank 2 °C (SPN 4152) 50310 int16 Internal 50311 int16 Internal 50312 int16 Internal 50313 int16 Internal 50314 int16 Internal 50315 int16 Internal 50316 int16 Internal 50317 int16 Internal easYgen-3000XT Series B37574...
Page 945 2568 Gen. hours of operation *100 50372 int32 5542 Setpoint active power 50374 int32 5640 Setpoint voltage 50376 int32 Average Busbar Wye-Voltage 50378 int32 Busbar 1: voltage L2-L3 EG3500XT-P1 EG3500XT-P2 50380 int32 Busbar 1: voltage L3-L1 EG3500XT-P1 B37574 easYgen-3000XT Series...
Page 946 19 bits of 50432 int32 15412 SPN of 5. entry full 19 bits of 50434 int32 15415 SPN of 6. entry full 19 bits of 50436 int32 15419 SPN of 7. entry full 19 bits of easYgen-3000XT Series B37574...
Page 947 4161 BITLIST Alarms Generator active Gen.overfreq. 1 Mask: 8000h Gen.overfreq. 2 Mask: 4000h Gen.underfreq. 1 Mask: 2000h Gen.underfreq. 2 Mask: 1000h Gen.overvolt. 1 Mask: 0800h Gen.overvolt. 2 Mask: 0400h Gen.undervolt. 1 Mask: 0200h Gen.undervolt. 2 Mask: 0100h B37574 easYgen-3000XT Series...
Page 948 Mask: 1000h Ground fault 2 Mask: 0800h Gen. phase rot. misw. Mask: 0400h Gen act.pwr mismatch Mask: 0200h Gen. unloading fault Mask: 0100h Inv.time ov.curr. Mask: 0080h Operating range failed, Mask: 0040h Gen. Overload MOP 1 Mask: 0020h easYgen-3000XT Series B37574...
Page 949 Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h 01.06 Alarm class F latched Mask: 0020h 01.05 Alarm class E latched Mask: 0010h 01.04 Alarm class D latched Mask: 0008h B37574 easYgen-3000XT Series...
Page 950 Mask: 0100h 07.14 Mains Phase shift latched Mask: 0080h 07.25 Mains decoupling latched Mask: 0040h 07.32 Mains AC Wiring Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h 07.05 Mains Phase rotation mismatch latched Mask: 0004h Internal Mask: 0002h easYgen-3000XT Series B37574...
Page 951 07.28 Mains Time-dep. Voltage (FRT) latched Mask: 0020h Internal Mask: 0010h 07.27 Mains slow voltage increase (10 min) Mask: 0008h Internal Mask: 0004h 07.29 QU Monitoring step 1 tripped Mask: 0002h 07.30 QU Monitoring step 2 tripped Mask: 0001h uint16 Internal B37574 easYgen-3000XT Series...
Page 952 Mask: 0008h 05.09 Maintenance days exceeded latched Mask: 0004h 05.10 Maintenance hours exceeded latched Mask: 0002h 08.18 CANopen error at CAN Interface 1 Mask: 0001h uint16 4193 BITLIST Alarms 3 active GGB fail to close Mask: 8000h EG3500XT-P1 easYgen-3000XT Series B37574...
Page 953 Mask: 0100h ECU Protect alarm Mask: 0080h ECU Emission alarm Mask: 0040h CANopen error at CAN Interface 2 Mask: 0020h Parameter Alignment Mask: 0010h Missing easYgen Mask: 0008h MCB plausibility Mask: 0004h Red stop lamp DM1 Mask: 0002h B37574 easYgen-3000XT Series...
Page 954 Mask: 0400h 05.20 Cylinder temperature wire break Mask: 0200h 06.35 Pole slip Mask: 0100h 08.44 Syst.update LSx Mask: 0080h EG3500XT-P1 EG3500XT-P2 08.43 Syst.update easYgen Mask: 0040h 06.32 Gen.AC Wiring Mask: 0020h 06.33 Busbar1 AC Wiring Mask: 0010h EG3500XT-P2 easYgen-3000XT Series B37574...
Page 955 Mask: 0800h 16.01 Free alarm 1 latched Mask: 0400h 05.21 Max. starts per time Mask: 0200h 17.09 Neutral contactor reply mismatch Mask: 0100h latched 17.08 Decoupling GCB<->MCB latched Mask: 0080h 17.07 Meas.difference 4105 VDE-AR-N 4105 Mask: 0040h latched B37574 easYgen-3000XT Series...
Page 956 Mask: 0800h 15.11 Flexible limit 11 latched Mask: 0400h 15.10 Flexible limit 10 latched Mask: 0200h 15.09 Flexible limit 9 latched Mask: 0100h 15.08 Flexible limit 8 latched Mask: 0080h 15.07 Flexible limit 7 latched Mask: 0040h easYgen-3000XT Series B37574...
Page 957 Mask: 0400h 15.26 Flexible limit 26 latched Mask: 0200h 15.25 Flexible limit 25 latched Mask: 0100h 15.24 Flexible limit 24 latched Mask: 0080h 15.23 Flexible limit 23 latched Mask: 0040h 15.22 Flexible limit 22 latched Mask: 0020h B37574 easYgen-3000XT Series...
Page 958 Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h 15.40 Flexible limit 40 latched Mask: 0080h 15.39 Flexible limit 39 latched Mask: 0040h 15.38 Flexible limit 38 latched Mask: 0020h 15.37 Flexible limit 37 latched Mask: 0010h easYgen-3000XT Series B37574...
Page 959 Mask: 0040h 16.06 Free alarm 6 latched Mask: 0020h 16.05 Free alarm 5 latched Mask: 0010h 16.04 Free alarm 4 latched (same as Mux 6) Mask: 0008h 16.03 Free alarm 3 latched (same as Mux 6) Mask: 0004h B37574 easYgen-3000XT Series...
Page 960 Internal Mask: 0040h Internal Mask: 0020h 05.11 Failure Charging Alternator (D+) Mask: 0010h 08.02 Battery over voltage 2 latched Mask: 0008h 08.04 Battery under voltage 2 latched Mask: 0004h 08.01 Battery over voltage 1 latched Mask: 0002h easYgen-3000XT Series B37574...
Page 961 Mask: 0100h EG3500XT-P2 10.09 Analog input 9 wire break Mask: 0200h EG3500XT-P2 10.10 Analog input 10 wire break Mask: 0400h EG3500XT-P2 Internal Mask: 0800h Internal Mask: 1000h Internal Mask: 2000h Internal Mask: 4000h Internal Mask: 8000h uint16 Internal B37574 easYgen-3000XT Series...
Page 962 09.10 Discrete input 10 latched Mask: 0040h 09.11 Discrete input 11 latched Mask: 0020h 09.12 Discrete input 12 latched Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h uint16 Internal uint16 4183 AlarmsDigital Inputs 2 active easYgen-3000XT Series B37574...
Page 963 Mask: 0020h EG3500XT-P2 Internal Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h uint16 Internal Subtopic External Digital Inputs uint16 4185 Alarms External Digital Inputs active external Digital Input 16 Mask: 8000h B37574 easYgen-3000XT Series...
Page 964 Mask: 0002h 12.01 External discrete input 1 latched Mask: 0001h uint16 Internal uint16 4195 Alarm External Digital Inputs 1 active external Digital Input 32 Mask: 8000h external Digital Input 31 Mask: 4000h external Digital Input 30 Mask: 2000h easYgen-3000XT Series B37574...
Page 965 Subtopic External DC Analogue Values Wirebreak uint16 4196 Alarms External Analog Inputs Wire Break active Ext. analog inp. 1, wire break Mask: 0001h Ext. analog inp. 2, wire break Mask: 0002h Ext. analog inp. 3, wire break Mask: 0004h B37574 easYgen-3000XT Series...
Page 966 Mask: 4000h 25.16 Ext. analog input 16 wire break Mask: 8000h uint16 Internal 9.2.6 Protocol 5014 (Based on Protocol 5003 but with enhancements) Modbus- Size Index Description Unit Scale Model Address Byte 50000 int16 Protocoll-ID, always 5014 easYgen-3000XT Series B37574...
Page 967 Mask: 0800h 96.13 Internal Flag 13 Mask: 1000h 96.14 Internal Flag 14 Mask: 2000h 96.15 Internal Flag 15 Mask: 4000h 96.16 Internal Flag 16 Mask: 8000h 50019 int32 Average Busbar Wye-Voltage EG3500XT- 50021 int16 10110 Battery voltage B37574 easYgen-3000XT Series...
Page 968 Operating range Error-Code ("0" means no failure) The current segment number Mask 00FFh (One of 64 Segments possible) 50058 int32 Total Generator reactive power 50060 int16 10159 AI Auxiliary excitation D+ 50061 int32 External total mains reactive power easYgen-3000XT Series B37574...
Page 969 Mask: 0800h 05.22 ECU Protect alarm latched Mask: 0400h 05.23 ECU Emission alarm latched Mask: 0200h 08.47 MCB failure 50BF Mask: 0100h 08.46 GCB failure 50BF Mask: 0080h 08.29 CANopen error at CAN Interface 3 Mask: 0040h EG3500XT- B37574 easYgen-3000XT Series...
Page 970 Mask: 0002h latched 17.01 Active load share mismatch Mask: 0001h latched 50070 int32 Busbar: Voltage L3-L1 EG3500XT- 50072 int16 10134 BITLIST 06.01 Generator over frequency 1 Mask: 8000h latched 06.02 Generator over frequency 2 Mask: 4000h latched easYgen-3000XT Series B37574...
Page 971 06.22 Inverse time over current Latched Mask: 0080h 06.31 Operating Range failed latched Mask: 0040h 06.23 Generator overload MOP 1 Mask: 0020h latched 06.24 Generator overload MOP 2 Mask: 0010h latched 06.25 Gen.Power Factor lagging 1 Mask: 0008h latched B37574 easYgen-3000XT Series...
Page 972 07.19 Mains PF leading 1 latched Mask: 0200h 07.20 Mains PF leading 2 latched Mask: 0100h 07.15 Mains df/dt latched Mask: 0080h 07.16 Mains active power mismatch Mask: 0040h latched 07.28 Mains Time-dep. Voltage (FRT) Mask: 0020h latched easYgen-3000XT Series B37574...
Page 973 09.16 Discrete input 16 latched Mask: 1000h EG3500XT- 09.17 Discrete input 17 latched Mask: 0800h EG3500XT- 09.18 Discrete input 18 latched Mask: 0400h EG3500XT- 09.19 Discrete input 19 latched Mask: 0200h EG3500XT- 09.20 Discrete input 20 latched Mask: 0100h EG3500XT- B37574 easYgen-3000XT Series...
Page 974 Mask: 2000h 15.13 Flexible limit 13 latched Mask: 1000h 15.12 Flexible limit 12 latched Mask: 0800h 15.11 Flexible limit 11 latched Mask: 0400h 15.10 Flexible limit 10 latched Mask: 0200h 15.09 Flexible limit 9 latched Mask: 0100h easYgen-3000XT Series B37574...
Page 975 Mains voltage L2-L3 50099 int16 10281 BITLIST Internal Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h 15.40 Flexible limit 40 latched Mask: 0080h B37574 easYgen-3000XT Series...
Page 976 50105 int16 4089 BITLIST 01.11 New Alarm triggered Mask: 8000h Internal Mask: 4000h Internal Mask: 2000h Internal Mask: 1000h Internal Mask: 0800h Internal Mask: 0400h Internal Mask: 0200h Internal Mask: 0100h Internal Mask: 0080h Internal Mask: 0040h easYgen-3000XT Series B37574...
Page 977 Mask: 0008h 25.05 Ext. analog input 5 wire break Mask: 0010h 25.06 Ext. analog input 6 wire break Mask: 0020h 25.07 Ext. analog input 7 wire break Mask: 0040h 25.08 Ext. analog input 8 wire break Mask: 0080h B37574 easYgen-3000XT Series...
Page 978 EG3500XT- 13.14 Relay-Output 14 Mask: 4000h EG3500XT- 13.15 Relay-Output 15 Mask: 2000h EG3500XT- 13.16 Relay-Output 16 Mask: 1000h EG3500XT- 13.17 Relay-Output 17 Mask: 0800h EG3500XT- 13.18 Relay-Output 18 Mask: 0400h EG3500XT- 13.19 Relay-Output 19 Mask: 0200h EG3500XT- easYgen-3000XT Series B37574...
Page 979 10311 Analog output 2 configurable 50116 int16 10317 Analog output 3 configurable EG3500XT- 50117 int16 10318 Analog output 4 configurable EG3500XT- 50118 int16 10319 Analog output 5 configurable EG3500XT- 50119 int16 10320 Analog output 6 configurable EG3500XT- B37574 easYgen-3000XT Series...
Page 980 03.28 Operating Magnet / Gasrelay is Mask: 4000h active 03.04 Preglow or Ignition is active Mask: 2000h 04.11 Mains settling Mask: 1000h 04.09 Emergency mode is currently Mask: 0800h active 03.40 Remote Shutdown (ID503, Bit9) Mask: 0400h easYgen-3000XT Series B37574...
Page 981 04.23 Close command MCB is active Mask: 0008h 04.28 Unloading generator is active Mask: 0004h 04.29 Unloading mains is active Mask: 0002h 04.30 Power limited prerun Mask: 0001h 50138 int16 4156 BITLIST 04.16 GGB is closed Mask: 8000h EG3500XT- EG3500XT- B37574 easYgen-3000XT Series...
Page 982 86.25 LM Frequency Droop active Mask: 1000h 86.26 LM Voltage Droop active Mask: 0800h Synchronization mode Check active Mask: 0400h Synchronization mode Permissive active Mask: 0200h Synchronization mode Run active Mask: 0100h 86.85 LM Enable MCB Mask: 0080h Internal Mask: 0040h easYgen-3000XT Series B37574...
Page 983 Mask: 0100h 98.24 LM External DO 24 Mask: 0080h 98.23 LM External DO 23 Mask: 0040h 98.22 LM External DO 22 Mask: 0020h 98.21 LM External DO 21 Mask: 0010h 98.20 LM External DO 20 Mask: 0008h B37574 easYgen-3000XT Series...
Page 984 *100 50165 int16 4093 BITLIST 08.34 GGB fail to close latched Mask: 8000h EG3500XT- EG3500XT- 08.35 GGB fail to open latched Mask: 4000h EG3500XT- EG3500XT- 08.27 Missing EG3000 Mask: 2000h 08.28 Missing LS5 Mask: 1000h EG3500XT- EG3500XT- easYgen-3000XT Series B37574...
Page 985 28.03 Command 3 to LS5 (OR) Mask: 2000h EG3500XT- EG3500XT- 28.04 Command 4 to LS5 (OR) Mask: 1000h EG3500XT- EG3500XT- 28.05 Command 5 to LS5 (OR) Mask: 0800h EG3500XT- EG3500XT- 28.06 Command 6 to LS5 (OR) Mask: 0400h EG3500XT- EG3500XT- B37574 easYgen-3000XT Series...
Page 986 Mask: 8000h 02.06 Busbar voltage in range Mask: 4000h 02.11 Mains voltage and frequency in Mask: 2000h range 02.21 Busbar is dead Mask: 1000h 86.27 LM External mains decoupling Mask: 0800h 87.70 LM Release engine monitoring Mask: 0400h easYgen-3000XT Series B37574...
Page 987 96.18 LM Internal Flag 18 Mask: 0002h 96.17 LM Internal Flag 17 Mask: 0001h 50190 uint16 BITLIST Internal Mask: F000h Engine state number: Mask: 0F00h 0,1 : internal 2: Off 3: Preglow 4: Crank 5: Run 6: Cool down B37574 easYgen-3000XT Series...
Page 988 9694 Free AnalogManager Value 14 50205 int32 9698 Free AnalogManager Value 15 (long) 50207 Internal 50208 int32 9702 Free AnalogManager Value 16 (long) 50210 int16 8908 81.29 Engine Coolant Temperature °C [°C] (HMI) °F 8910 [°F] easYgen-3000XT Series B37574...
Page 989 LSx Device Nr. 36 Mask 0008h LSx Device Nr. 35 Mask 0004h LSx Device Nr. 34 Mask 0002h LSx Device Nr. 33 Mask 0001h 50215 int16 4099 BITLIST Device number of missing LSx (49-64) Mask FFFFh EG3500XT- B37574 easYgen-3000XT Series...
Page 990 16.04 Free alarm 4 latched Mask: 0008h 16.03 Free alarm 3 latched Mask: 0004h 16.02 Free alarm 2 latched Mask: 0002h 16.01 Free alarm 1 latched Mask: 0001h 50217 int16 10313 BITLIST Internal Mask: 8000h Internal Mask: 4000h easYgen-3000XT Series B37574...
Page 991 (5;4;3;2) 50002 int16 3182 Skaling Volts (16 bits) Exponent 10x V (2;1;0;-1) 50003 int16 3183 Skaling Amps (16 bits) Exponent 10x A (0;-1) 50004 Internal 50005 Internal 50006 Internal 50007 Internal Topic AC Generator and Busbar values B37574 easYgen-3000XT Series...
Page 992 50017 int16 Generator voltage L2-N format defined by index 3182 (Modbus- Address 50002) 50018 int16 Generator voltage L3-N format defined by index 3182 (Modbus- Address 50002) 50019 int16 Generator current L1 format defined by index 3183 (Modbus- easYgen-3000XT Series B37574...
Page 993 Setpoint power factor (cosphi) *1000 Topic AC Mains values 50030 int16 Mains frequency *100 50031 int16 Total mains active power format defined by index 3181 (Modbus- Address 50001) 50032 int16 Total mains reactive power format defined by index 3181 (Modbus- B37574 easYgen-3000XT Series...
Page 994 Average LSx Delta Mains voltage L-L format EG3500XT-P1 defined by EG3500XT-P1 index 3182 (Modbus- Address 50002) 50044 int16 Average LSx Wye Mains voltage L-N format EG3500XT-P1 defined by EG3500XT-P2 index 3182 (Modbus- Address 50002) Topic AC System values easYgen-3000XT Series B37574...
Page 995 Analog output 3 configurable EG3500XT-P2 50071 int16 10318 Analog output 4 configurable EG3500XT-P2 50072 int16 10319 Analog output 5 configurable EG3500XT-P2 50073 int16 10320 Analog output 6 configurable EG3500XT-P2 50074 int16 10170 External Analog input 1 configurable B37574 easYgen-3000XT Series...
Page 996 2=STOP - 04.02 Operation Mode Stop 4=MANUAL - 04.03 Operation Mode Man 8=TEST - 04.03 Operation Mode Test 50100 int16 10202 Status message. This is an index number. Refer to manual chapter Status messages for more information. 50101 Internal easYgen-3000XT Series B37574...
Page 997 Mask: 0008h 03.37 Free PID Controller 1: Lower Command Mask: 0004h 03.36 Free PID Controller 1: Raise Command Mask: 0002h Increment Engine Start Counter Mask: 0001h 50104 uint16 4155 BITLIST ControlBits3 03.20 3-Pos. Controller Freq./Power raise Mask: 8000h B37574 easYgen-3000XT Series...
Page 998 LDSS: The Engine shall start Mask: 0040h LDSS: The Engine shall stop Mask: 0020h LDSS: The Engine shall stop, if possible Mask: 0010h LDSS: Minimum Running Time is active Mask: 0008h 04.43 The LDSS function is active Mask: 0004h easYgen-3000XT Series B37574...
Page 999 87.74 LM Inhibit dead bus GCB Mask: 0080h Load share diagnostic: Own Unit is suspected Mask: 0040h 02.45 Mains release breaker Mask: 0020h Internal Mask: 0010h Internal Mask: 0008h Internal Mask: 0004h Internal Mask: 0002h Internal Mask: 0001h Topic Discrete Outputs B37574 easYgen-3000XT Series...
Page 1000 Mask: 0004h 13.34 Transistor output 2 Mask: 0002h EG3500XT-P2 13.33 Transistor output 1 Mask: 0001h EG3500XT-P2 50110 uint16 8005 BITLIST Relay Outputs 3 98.16 LM External DO 16 Mask: 8000h 98.15 LM External DO 15 Mask: 4000h 1000 easYgen-3000XT Series B37574...

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