Capacitor Bank Controller - GE Digital Energy
Transcript of Capacitor Bank Controller - GE Digital Energy
Multilin DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUALGE Multilin's Quality
Management System is registered to ISO9001:2000
QMI # 005094
GE Digital Energy
GE Digital Energy
215 Anderson Avenue, Markham, Ontario
Canada L6E 1B3
Tel: (905) 294-6222 Fax: (905) 201-2098
Internet: http://www.gedigitalenergy.com
Instruction ManualMultilin DGCC Controller Revision: 1.10
Manual P/N: 1601-0258-A1
GE publication code: GEK-113576
Copyright © 2011 GE Digital Energy
*1601-0258-A1*
The Multilin DGCCCapacitor Bank Controller
© 2011 GE Digital Energy Incorporated. All rights reserved.
The Multilin Multilin DGCC Capacitor Bank Controller Instruction Manual for revision 1.10.
Multilin DGCC Capacitor Bank Controller, EnerVista, EnerVista Launchpad, and EnerVista DGCC Setup are registered trademarks of GE Digital Energy Inc.
The contents of this manual are the property of GE Digital Energy Inc. This documentation is furnished on license and may not be reproduced in whole or in part without the permission of GE Digital Energy. The content of this manual is for informational use only and is subject to change without notice.
Part number: 1601-0258-A1 (August 2011)
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL TOC–I
Table of Contents
1.INTRODUCTION Overview ................................................................................................................................1 - 1Cautions and warnings ...................................................................................................1 - 2Description of the The Multilin DGCC controller ..................................................1 - 3The Multilin DGCC order codes ....................................................................................1 - 7Specifications.......................................................................................................................1 - 8
Inputs .............................................................................................................................................1 - 8Outputs..........................................................................................................................................1 - 8Power supply ..............................................................................................................................1 - 9Communications ......................................................................................................................1 - 9Testing and Certification.......................................................................................................1 - 9Environmental............................................................................................................................1 - 11Accuracy.......................................................................................................................................1 - 11Control ...........................................................................................................................................1 - 12
2.INSTALLATION Mechanical installation ...................................................................................................2 - 1Electrical installation ........................................................................................................2 - 2
3.INTERFACES Front control panel interface........................................................................................3 - 2Working with the Keypad .....................................................................................................3 - 6LED status indicators..............................................................................................................3 - 7
Software setup ....................................................................................................................3 - 9EnerVista The Multilin DGCC Setup Software ..............................................................3 - 9Connecting EnerVista The Multilin DGCC Setup to the relay ..............................3 - 12Working with setpoints and setpoint files ....................................................................3 - 15Upgrading The Multilin DGCC firmware.........................................................................3 - 22Advanced EnerVista The Multilin DGCC Setup features .........................................3 - 23
4.ACTUAL VALUES A1 Status ................................................................................................................................4 - 2A2 Metering...........................................................................................................................4 - 3
Current...........................................................................................................................................4 - 5Voltage ..........................................................................................................................................4 - 5Power .............................................................................................................................................4 - 6Frequency ....................................................................................................................................4 - 6Total Harmonic Distortion (THD)........................................................................................4 - 7Harmonics ...................................................................................................................................4 - 8Default screens .........................................................................................................................4 - 10Power calculation.....................................................................................................................4 - 10
A3 Records ............................................................................................................................4 - 13A4 Messages ........................................................................................................................4 - 14
Configuration errors................................................................................................................4 - 14
5.SETPOINTS S1 Product setup ................................................................................................................5 - 2Clock ...............................................................................................................................................5 - 3Password security....................................................................................................................5 - 4Communications ......................................................................................................................5 - 5Event recorder ...........................................................................................................................5 - 14Datalogger...................................................................................................................................5 - 15Front panel ..................................................................................................................................5 - 16
TOC–II MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
Installation...................................................................................................................................5 - 17S2 System setup.................................................................................................................5 - 18
Current sensing.........................................................................................................................5 - 18Voltage sensing ........................................................................................................................5 - 19Power system ............................................................................................................................5 - 19Capacitor Bank switch...........................................................................................................5 - 20
S3 Capacitor Bank control.............................................................................................5 - 24General control .........................................................................................................................5 - 25Season control ..........................................................................................................................5 - 34Time control schedule ...........................................................................................................5 - 35VAR control .................................................................................................................................5 - 37Voltage control..........................................................................................................................5 - 38Temperature control ..............................................................................................................5 - 39Override control........................................................................................................................5 - 40Neutral overcurrent protection .........................................................................................5 - 43
S4 Controls............................................................................................................................5 - 46Remote control .........................................................................................................................5 - 46Virtual inputs ..............................................................................................................................5 - 47FlexLogic™ ..................................................................................................................................5 - 48
S5 Inputs/Outputs .............................................................................................................5 - 53Contact inputs ...........................................................................................................................5 - 53Output relays .............................................................................................................................5 - 54Virtual inputs ..............................................................................................................................5 - 55
6.COMMANDS
7.MAINTENANCE M1 Product information..................................................................................................7 - 2M2 Product maintenance ..............................................................................................7 - 3M3 Statistics .........................................................................................................................7 - 4M4 Factory service............................................................................................................7 - 5
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 1–1
Multilin DGCC Capacitor Bank Controller
Chapter 1: Introduction
Digital Energy
Introduction
Overview
The Multilin DGCC Capacitor Bank Controller is a microprocessor-based unit that belongs to the Distribution Grid Controller family, and is designed as a Capacitor Bank switch controller. This device is used for the control of pole-mounted and pad-mounted switched Capacitor Banks in electrical distribution networks. A Capacitor Bank is composed of three capacitors, used one per phase. The Bank can be connected to the line in wye or delta configuration. The Multilin DGCC Capacitor Bank Controller controls only one-stage Capacitor Banks. This means that a CLOSE command will switch the whole Capacitor Bank into the line.
1–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
CAUTIONS AND WARNINGS CHAPTER 1: INTRODUCTION
Cautions and warnings
Before attempting to install or use this device, it is imperative that all caution and danger indicators in this manual are reviewed to help prevent personal injury, equipment damage, or downtime. The following icons are used to indicate notes, cautions, and dangers.
Figure 1: Note icons used in the documentation
The standard note icon emphasizes a specific point or indicates minor problems that may occur if instructions are not properly followed.The caution icon indicates that possible damage to equipment or data may occur if instructions are not properly followed.The danger icon provides users with a warning about the possibility of serious or fatal injury to themselves or others.
NOTE CAUTION DANGER
CHAPTER 1: INTRODUCTION DESCRIPTION OF THE MULTILIN DGCC CAPACITOR BANK CONTROLLER
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 1–3
Description of the Multilin DGCC Capacitor Bank Controller
The Multilin DGCC is designed as a Capacitor Bank switch controller. This device is used for the control of pole-mounted and pad-mounted switched capacitor banks in electrical distribution networks. A Capacitor Bank is composed of three capacitors - one per phase. The Bank can be connected to the line in wye or delta configuration. The Multilin DGCC controls only single-stage Capacitor Banks. This means that a CLOSE command will switch the whole Capacitor Bank into the line.MAIN FUNCTIONSThe Multilin DGCC provides two modes of operation:
• Manual Mode
• Automatic mode
In Manual mode, the Capacitor Bank is controlled by the user by means of OPEN and CLOSE menu commands. In Automatic mode, the Multilin DGCC manages the Capacitor Bank according to the parameters set up in the Season configuration.Up to four Season configurations are available in the Multilin DGCC . Each Season is programmed by indicating its start and end date using its own independent control parameters. Thus, different controls are programmed for certain time periods. For instance, in a certain season it may be better to control the Bank by KVar control while in another season - for instance in summer - it may be better to manage the Bank by Voltage control.In each season, one of the four main control methods can be selected. These are:
• Time schedule
• KVar
• Voltage
• Temperature
The main control is supervised by another override control if it is configured in Settings. The Override controls are:
• Voltage Override Ctrl
• Temperature Override Ctrl.
Time schedule ControlThe DGC controller switches the Bank according to a calendar/timetable schedule programmed by user. The time-of-day is indicated in the format HH:MM. Each day of the week can be independently programmed with one CLOSE time (when the Capacitor Bank is switched ON) and one OPEN time (when the Capacitor Bank is switched OFF).
KVar ControlIn this case, the DGC controls the Bank taking into account the Capacitor Bank size. The customer can adjust the opening and closing limits for reactive power. The Multilin DGCC controls reactive power by connecting and disconnecting the Capacitor Bank accordingly.Some operating situations are taken into account before and after closing the Bank, in order to ensure acceptable and safe performance. For example:
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DESCRIPTION OF THE MULTILIN DGCC CAPACITOR BANK CONTROLLER CHAPTER 1: INTRODUCTION
1. If the change of voltage expected when the Capacitor Bank is closed, is higher than the voltage limits, the Multilin DGCC does not allow the insertion of the Capacitor Bank into the system.
2. If the Capacitor Bank is switched into the system and after a programmed period of time, there is no significant change in VARs, or there is a negative impact on KVAr level, the Multilin DGCC warns of these issues by generating an ALARM, and in some cases tripping the Capacitor Bank.
Voltage ControlWith this selection, Multilin DGCC controls the Capacitor Bank based on the measurement of the line voltage DFT of the power system. The Capacitor Bank is closed to the power system when the voltage is lower than the minimum threshold voltage programmed, while it is tripped from the system when the line voltage reaches the high voltage threshold.
Temperature ControlWhen temperature control is programmed during the actual season, the DGC controls the Capacitor Bank based on measurement of the ambient temperature by an external temperature sensor. Two different settings are provided: HI temperature and LO temperature. When the ambient temperature reaches the programmed HI Temperature Close, the Capacitor Bank is switched ON. It is released when the temperature falls below the HI Temperature Open setting. When the ambient temperature is lower than the programmed LO Temperature Close, the Capacitor Bank is switched ON and is released when the temperature is higher than the LO Temperature Open setting.
Override ControlThe Main Control set up in the specific season can be bypassed or otherwise supervised by override controls. In this way, better control of the Capacitor Bank is obtained.Override controls are:
• Temperature override
• Voltage Override
When the programmed Override limits are reached, the Override function takes control of the Bank, inhibiting the action of the Main control. When the Override measurement falls below the release limits, control again returns to Main control.
Protective Functions
• Reverse Power Detection
• Undervoltage Detection
• Daily max count limit
• Neutral Overcurrent
MeasurementsMeasurements provided by the Multilin DGCC are:
• 3Ph Active Power [KW]
• 3Ph Reactive Power [KVar]
• 3Ph Apparent Power [KVA]
• Line Voltage [V or KV] (Secondary or Primary)
• Current [A]
CHAPTER 1: INTRODUCTION DESCRIPTION OF THE MULTILIN DGCC CAPACITOR BANK CONTROLLER
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 1–5
• Neutral Current [A]
• Temperature [ºC]
• Power Factor
• Total Harmonic Distortion - THD of voltage and current up to the 8th harmonic.
MONITORINGAlarmsSome of the alarms included in the Multilin DGCC are:
• Minimum voltage limit
• Bank switch failed
• Max Daily operation counter reached
• Bank switch alarm by Delta KVar.
• Bank switch tripped by Delta KVar.
• Neutral overcurrent
• Bank switch by reverse power.
Events
• Automatic mode
• Manual mode
• Local mode
• Remote mode
• Manual Close command
• Manual Open Command
• Minimum voltage limit
• Bank switch failed
• Max Daily operation counter reached
• Bank switch not allowed by Delta Voltage
• Bank switch alarm by Delta KVar
• Bank switch tripped by Delta KVar
• Bank switch on/off by voltage ctrl
• Bank switch on/off by temperature ctrl
• Bank switch on/off by time schedule
• Bank switch on/off by override ctrl
• Neutral overcurrent
Statistics and Counters
• Max / Min Values of voltage per day (in the season)
• Max / Min Values of current per day (in the season)
• Max / Min Values of Temperature per day (in the season)
• Max / Min Values of KVar per day (in the season)
• Daily Close operation
• Total Close operation.
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DESCRIPTION OF THE MULTILIN DGCC CAPACITOR BANK CONTROLLER CHAPTER 1: INTRODUCTION
Figure 2: Multilin DGCC main menu
ACTUAL VALUES
SETPOINTS
COMMANDS
MAINTENANCE
ACTUAL VALUES
A1 STATUS
A2 METERING
A3 RECORDS
A4 TARGET MESSAGES
SETPOINTS
S1 PRODUCT SETUP
S2 SYSTEM SETUP
S3 CAP BANK CONTROL
S4 CONTROLS
S5 INPUTS/OUTPUTS
▼
MAINTENANCE
M1 PRODUCT INFO
M2 PRODUCT MAINT
M4 FACTORY SERVICE
M3 STATISTICS
▼891756A1.cdr
COMMANDS
OPEN BANK
CLOSE BANK
RESET
CHAPTER 1: INTRODUCTION MULTILIN DGCC ORDER CODES
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 1–7
Multilin DGCC order codes
Figure 3: Order Codes
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SPECIFICATIONS CHAPTER 1: INTRODUCTION
Specifications
InputsVOLTAGE INPUTVoltage Level: .......................................................60 to 300 VNominal Frequency: ..........................................50 to 60 HzAccuracy:................................................................±0.5% of reading
CURRENT INPUTSNominal Current:.................................................1 A, 5 ARange: ......................................................................0.2 to 2.5 x CTFrequency: .............................................................50 or 60 HzCurrent Withstand: ............................................Continuous: 3 x CT rated
DIGITAL INPUTS (IO_C MODULE)Fixed Pickup: .........................................................65 V ACRecognition Time:...............................................2 cyclesCurrent Draw @ Rated Voltage:...................75 mA @ 120 V AC for 200 μs every cycle
60 mA @ 240 V AC for 800 μs every cycleInput Impedance: ...............................................1.7 KOhmsType: .........................................................................opto-isolated inputsExternal Switch:...................................................wet contactMaximum Input Voltage:.................................300 V AC
DIGITAL INPUTS (IO_E MODULE)Fixed Pickup: .........................................................20 V DCRecognition Time:...............................................2 cyclesCurrent Draw @ Rated Voltage:...................7 mA @ 24 V DC
14 mA @ 48 V DCInput Impedance: ...............................................1.23 kOhmsType: .........................................................................opto-isolated inputsExternal Switch:...................................................wet contact
OutputsOUTPUT RELAYSConfiguration: ...................................................... electromechanical form A (IO_C) and form C (IO_D)Contact Material: ................................................ silver alloyOperate Time: ......................................................10 msMinimum Contact Load:..................................10 mA @ 5 V DCContinuous Current: ..........................................10 AMake and Carry for 0.2 s: ................................30 A per ANSI C37.90Mechanical Life: ..................................................10 000 000 operations
OPEN/CLOSE FORM A OUTPUT RELAYSAC Resistive, 120 V AC: .....................................10 AAC Resistive, 240 V AC: .....................................10 AAC Inductive, PF = 0.4 pilot duty: .................2 ADC Resistive, 30 V DC: .......................................10 A
FORM C OUTPUT CONTACTSAC Resistive, 120 V AC: .....................................10 A normally open, 5 A normally closedAC Resistive, 240 V AC: .....................................10 A normally open, 8 A normally closedAC Inductive, PF = 0.4 pilot duty: .................2.5 ADC Resistive, 30 V DC: .......................................10 A
CHAPTER 1: INTRODUCTION SPECIFICATIONS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 1–9
Power supplyPOWER SUPPLYNominal: ..................................................................120 to 240 V AC
125 to 250 V DCRange: ......................................................................60 to 300 V AC (50 and 60 Hz)
84 to 250 V DCRide Through:........................................................35 msVoltage Withstand: ............................................2 x highest nominal voltage for 10 msPower Consumption:.........................................16 W typical, 25 W maximum
CommunicationsCOMMUNICATIONSTransmission Mode:...........................................radio (optional)Communication Protocols: .............................DNP 3, Modbus
Testing and Certification
APPROVALS
Applicable Council Directive According to
CE compliance Low voltage directive EN60255-5 / EN60255-27
EMC Directive EN61000-6-2 / 6-4
ISO Manufactured under a registered quality program
ISO9001
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SPECIFICATIONS CHAPTER 1: INTRODUCTION
Environmental
TYPE TESTS
Test Reference Standard Test Level
Dielectric Voltage Withstand EN60255-5 2.3KV
Impulse Voltage Withstand EN60255-5 5KV
Insulation Resistance Test EN60255-5 500 VDC
Damped Oscillatory IEC61000-4-18IEC60255-22-1 2.5KV CM, 1KV DM
Electrostatic Discharge EN61000-4-2/IEC60255-22-2 Level 4
RF Immunity EN61000-4-3/IEC60255-22-3 Level 3
Fast Transient Disturbance EN61000-4-4/IEC60255-22-4 Class A and B
Surge Immunity EN61000-4-5/IEC60255-22-5 Level 3 & 4
Conducted RF Immunity EN61000-4-6/IEC60255-22-6 Level 3
Radiated & Conducted Emissions CISPR11 /CISPR22/ IEC60255-25 Class A
Sinusoidal Vibration IEC60255-21-1 Class 1
Shock & Bump IEC60255-21-2 Class 1
Siesmic IEC60255-21-3 Class 2
Power Magnetic Immunity IEC61000-4-8 Level 5
Voltage Dip & interruption IEC61000-4-11 0, 40, 70, 80% dips, 250/300 cycle interrupts
Environmental (Cold) IEC60068-2-1 -20°C 16 hrs
Environmental (Cold Storage) IEC60068-2-1 -40°C 16 hrs
Environmental (Dry heat) IEC60068-2-2 85°C 16hrs
Relative Humidity Cyclic IEC60068-2-30 6day variant 2
RF Immunity IEEE/ANSIC37.90.2 20V/m 80-1Ghz
ENVIRONMENTAL SPECIFICATIONS
Ambient temperatures:
Storage/shipping: - 40oC to 90oC *
Operating: -40oC to 60oC *
* 1" around Base Unit
Humidity: Operating up to 95% (non condensing) @ 55oC (As per IEC60068-2-30 Variant 2, 6days)
Altitude: 2000m (max)
Overvoltage Category: II
Ingress Protection: IP20 (Base Unit) IP54 (Control Panel)
Environmental rating: 60oC surrounding air
Pollution Degree: II
Type 1 (panel mount versions only)
CHAPTER 1: INTRODUCTION SPECIFICATIONS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 1–11
AccuracyMETERING ACCURACYVoltages: .................................................................0.5% (60 to 300 V)Load Current: ........................................................0.5% (0.2 to 1.5 x CT)Harmonics:.............................................................up to 8th
CONTROL ACCURACIES
CAP BANK CONTROLAlarm Pickup Delay:...........................................0.00 to 120.00 s in steps of 0.05 sTiming Accuracy: ................................................±3% or ±40 ms, whichever is greater
TEMPERATURE CONTROLTemperature Resolution: .................................1°CTemperature Accuracy: ...................................±1°CTemperature Range:..........................................-20°C to +60°CTime Delay: ............................................................0 to 3600 sTime Resolution:..................................................1 sOperate Time:.......................................................Time Delay ±500 msTiming Accuracy: ................................................±500 ms
ControlSTAR NEUTRAL INSTANTANEOUS OVERCURRENTNeutral Current: ...................................................fundamentalPickup Level:..........................................................0.05 to 2.50 x CTg in steps of 0.01xCTg (Ground CT)Level Accuracy: ....................................................±1% at rated current
±3% in the complete range or ±10 mA whichever is greaterDropout Level: ......................................................97 % to 99% of pickup level @ I > 1 x CTg
pickup - 0.02 x CTg @ I ≤ 1 x CTgOperate Time:.......................................................<50 ms @ I > 1.5 x Pickup level (no time delay)Timing Accuracy: ................................................±3% of trip time or 1.5 cycles, whichever is greater Reclose Timing Accuracy:...............................5 to 6000 min ±3% of time programmed
TEMPERATURE CONTROLTemperature Resolution: .................................1°CTemperature Accuracy: ...................................±1°CTemperature Range:..........................................-20° to +60°CTime Delay: ............................................................0 to 3600 secondsTime Resolution:..................................................1 sOperate Time:.......................................................Time Delay ±500 msTiming Accuracy: ................................................±500 ms
1–12 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
SPECIFICATIONS CHAPTER 1: INTRODUCTION
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 2–1
Multilin DGCC Capacitor Bank Controller
Chapter 2: Installation
Digital Energy
Installation
Mechanical installation
Figure 1: Multilin DGCC dimensions
2–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
ELECTRICAL INSTALLATION CHAPTER 2: INSTALLATION
Electrical installation
Figure 2: Multilin DGCC Capacitor Bank Controller wiring diagram - 3 CT Wye/ 2 PTs OpDelta
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CHAPTER 2: INSTALLATION ELECTRICAL INSTALLATION
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 2–3
Figure 3: Multilin DGCC Capacitor Bank Controller wiring diagram - 3 CT Wye/ 3 PTs Wye
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2–4 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
ELECTRICAL INSTALLATION CHAPTER 2: INSTALLATION
Figure 4: Multilin DGCC Capacitor Bank Controller wiring diagram - 1 CT ph-g / 1 PT ph-ph
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CHAPTER 2: INSTALLATION ELECTRICAL INSTALLATION
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 2–5
Figure 5: Multilin DGCC Capacitor Bank Controller wiring diagram - 1 CT ph-g / 1 PT ph-g
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2–6 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
ELECTRICAL INSTALLATION CHAPTER 2: INSTALLATION
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–1
Multilin DGCC Capacitor Bank Controller
Chapter 3: Interfaces
Digital Energy
Interfaces
3–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
FRONT CONTROL PANEL INTERFACE CHAPTER 3: INTERFACES
Front control panel interface
Figure 1: Multilin DGCC Front Panel
CHAPTER 3: INTERFACES FRONT CONTROL PANEL INTERFACE
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–3
4 X 20 CHARACTER LCDThe Multilin DGCC has an LCD with 4 lines of 20 characters, that allows visibility under varied lighting conditions. When the keypad and the display are not being used, system information is displayed after a user-defined period of inactivity. Pressing the keypad when the screen shows the default display, returns the display to the last available message before the default screen activated. Any CB control actions, as well as element operations, are displayed automatically, overriding any target message displayed at that time. The display and the navigation keypad are conveniently located to provide the user easy access to any settings, actual values, status, monitoring tools, or statistics. QUICK SETPOINTS PUSHBUTTONSThe Multilin DGCC is equipped with 4 pushbuttons for quick access to variety of settings. Pressing any of these pushbuttons invokes the settings menu on the display that corresponds to the feature specified on the pressed pushbutton. For the user’s convenience, each pushbutton is equipped with an LED, to show whether or not the feature specified on the pushbutton is currently active.
MAINTENANCE PUSHBUTTONS
CAPACITOR BANK CONTROL PANEL:The Capacitor Bank control panel includes the following pushbuttons:
VOLTAGE CNTRL: Pressing this pushbutton invokes the S3 CAP BANK CONTRL menu displaying the Voltage Control setting. Navigating through the settings from the menu is performed by pressing the “DOWN” & “UP” keys on the navigation keypad.
VARs CNTRL: Pressing this pushbutton invokes the S3 CAP BANK CONTRL menu displaying the VARs Control setting. Navigating through the settings from the menu is performed by pressing the “DOWN” & “UP” keys on the navigation keypad.
TEMPERATURE CNTRL:
Pressing this pushbutton invokes the S3 CAP BANK CONTRL menu displaying the Temperature Control setting. Navigating through the settings from the menu is performed by pressing the “DOWN” & “UP” keys on the navigation keypad.
OVERRIDE CNTRL: Pressing this pushbutton invokes the S3 CAP BANK CONTRL menu displaying the Override Control setting. Navigating through the settings from the menu is performed by pressing the “DOWN” & “UP” keys on the navigation keypad.
LED TEST: Pressing this pushbutton turns all the LEDs “ON” at the same time. Using this feature, the user can test if the LEDs are working properly..
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FRONT CONTROL PANEL INTERFACE CHAPTER 3: INTERFACES
Figure 2: Capacitor Bank Control Panel
The table below depicts the mode scenario based on the faceplate pushbuttons selection. When In “Remote” mode, the AUTO, OFF, and MANUAL modes can be selected remotely via SCADA or another remote command.
REMOTE/LOCAL: The REMOTE/LOCAL pushbutton toggles between REMOTE and LOCAL modes of operation. Each of these two modes is associated with an LED that shows the selection. The REMOTE/LOCAL selection is available only from the Multilin DGCC faceplate.
AUTO-OFF - MANUAL: This pushbutton is used to alternate between the AUTO, OFF, and MANUAL modes. When set to AUTO mode, the “AUTO” LED turns on (orange). Similarly, if the mode is set to MANUAL, the “MANUAL” LED turns on (orange) and the “AUTO” LED turns off. In AUTO mode, the output relays are controlled by the auto functions set from the controller. In MANUAL mode, automatic operation and remote control are inhibited, and the output relays can be controlled locally by pressing the faceplate OPEN or CLOSE pushbutton. When “OFF” mode is selected, voltage to the output relays is disconnected and both “AUTO,” and “MANUAL” LEDs turn off. The output relays cannot then be controlled automatically, remotely, or manually.
Pushbutton Auto Manual
Remote Control Enabled
• Automatic Operation Enabled
• SCADA read enabled
• SCADA Remote Open/Close control override
• Remote Inputs Open/Close control override
• Manual Open/Close control disabled
• Automatic Operation disabled
• SCADA read only enabled
• SCADA Remote Open/Close control disabled
• Remote Inputs Open/Close control disabled
• Manual Open/Close control enabled
Local Control Enabled
• Automatic Operation Enabled
• SCADA read only enabled
• SCADA Remote Open/Close control disabled
• Remote Inputs Open/Close control disabled
• Manual Open/Close control disabled
• Automatic Operation disabled
• SCADA read only enabled
• SCADA Remote Open/Close control disabled
• Remote Inputs Open/Close control disabled
• Manual Open/Close control enabled
CHAPTER 3: INTERFACES FRONT CONTROL PANEL INTERFACE
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–5
EXTERNAL POWER
The Multilin DGCC faceplate is equipped with a three-state switch for selection of Internal or External voltage. With the switch in External position, the sensing and power circuits are connected to external power binding post on the front panel. The unit can be tested using a 120 V RMS source with correct polarity applied to these terminals. Testing of the regulator can be accomplished by adjusting the amplitude of the external source. The switch disconnects all power from the unit if switched to External power with no power source applied to the front panel voltage terminals. The External Control Power binding posts allow application of a 120 V RMS nominal voltage to the unit for test purposes.The binding posts designated as VOLTAGE METER allow reading of the input voltage, for calibration purposes
Working with the KeypadThe display messages are organized into a Main Menu, pages, and sub-pages. There are four main menus labeled Actual Values, Quick Setup, Setpoints, and Maintenance. Pressing the MENU key followed by the MESSAGE key scrolls through the four Main Menu headers, which appear in sequence as follows:
Figure 3: The four Main Menu headers
OPEN, CLOSE The OPEN and CLOSE pushbuttons are used to control the output relays manually. Pressing the OPEN pushbutton will energize the open output relay. Similarly, the output relay labeled “close” will energize if the CLOSE pushbutton is pressed. The Multilin DGCC provides Remote control DNP3 protocol over TCP/IP.
█ ACTUAL VALUES
QUICK SETUP
SETPOINTS
MAINTENANCE
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FRONT CONTROL PANEL INTERFACE CHAPTER 3: INTERFACES
Pressing the MESSAGE ► key or the ENTER key from these Main Menu pages will display the corresponding menu Page. Use the MESSAGE ▲ and MESSAGE ▼ keys to scroll through the Page headers.
Figure 4: Typical paging operation from Main Menu selection
When the display shows SETPOINTS, pressing the MESSAGE ► key or the ENTER key will display the page headers of programmable parameters (referred to as setpoints in the manual). When the display shows ACTUAL VALUES, pressing the MESSAGE ► key or the ENTER key displays the page headers of measured parameters (referred to as actual values in the manual). Each page is broken down further into logical sub-pages of messages. The MESSAGE ▲ and MESSAGE ▼ keys are used to navigate through the sub-pages. A summary of the setpoints and actual values pages can be found in the Chapters : Setpoints and Actual Values, respectively.The ENTER key is dual purpose. It is used to enter the sub-pages and to store altered setpoint values into memory to complete the change. The MESSAGE ► key can also be used to enter sub-pages but not to store altered setpoints.The ESCAPE key is also dual purpose. It is used to exit the sub-pages and to cancel a setpoint change. The MESSAGE ◄ key can also be used to exit sub-pages and to cancel setpoint changes.The VALUE keys are used to scroll through the possible choices of an enumerated setpoint. They also decrement and increment numerical setpoints.
█ CLOCK
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CONTACT INPUTS
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CHAPTER 3: INTERFACES FRONT CONTROL PANEL INTERFACE
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–7
The RESET key resets any latched conditions that are not currently active. This includes resetting latched output relays, latched Trip LEDs, breaker operation failure, and trip / close coil failures. The Autoreclose Scheme is also reset with the shot counter being returned to zero and the lockout condition being cleared.The MESSAGE ▲ and MESSAGE ▼ keys scroll through any active conditions in the relay. Diagnostic messages are displayed indicating the state of protection and monitoring elements that are picked up, operating, or latched.
LED status indicatorsThe Multilin DGCC Capacitor Bank Controller faceplate provides easy navigation through full keypad pushbuttons, conveniently located tap changer control pushbuttons, quick access to setpoints, regulation transparency through LED indicators, and a 4 by 20 character Liquid Crystal Display. The faceplate includes the following components:
• IN SERVICE: Green
The Multilin DGCC is operational and functions properly, when the “In-Service” LED is lit green. The LED turns off upon detection of an internal firmware or hardware error. The product is not programmed when shipped, and the “In-Service” LED will not light upon power-up. The LED will turn green upon selecting the setting “Ready” under the SETPOINTS > S1 PRODUCT SETUP > INSTALLATION > PRODUCT STATUS menu.
• ALARM: Orange
The “Alarm” LED turns orange upon detection of an internal firmware or hardware error, or upon alarm conditions driven by control elements such as “Switching Trouble”.
• COMMS OK: Green/Red
The communications LED is a bi-colour LED; it will light green when the transmit/receive channels are set and the Multilin DGCC is communicating with another device or SCADA. The LED will turn red if there is a communication card failure, or communication channels are not working, or no longer functioning properly.
• OPEN IN PROGRESS: Orange
The “Open in progress” LED turns orange when the OPEN command has been issued but the switch has not yet opened. A timer is associated with this function and the user can monitor the time remaining before the switch is scheduled to open.
• CLOSE IN PROGRESS: Orange
The “Close in progress” LED turns orange when the CLOSE command has been issued but the switch is not yet closed. A timer is associated with this function and the user can monitor the remaining time before the switch is scheduled to close.
• IN BAND: Green
The Multilin DGCC can control the capacitor bank switch by monitoring four different quantities: voltage, reactive power, temperature and time. Only one of the listed quantities can be monitored at one time. When the monitored quantity is within the limits that require no control action, the “IN BAND” LED will turn green.
• BLOCKED: Orange
Under certain conditions, the switch OPEN and CLOSE commands can be blocked. In such a case, the “BLOCKED” LED will turn orange.
• TRIPPED: Red
This LED lights up red when any of the TRIP commands has been issued.
• OPEN: [Selectable] Green (default) or Red
This LED lights up when the Capacitor Bank switch is opened. The user can select the color of the LED to be green (default) or red. The selection is available in: SETPOINTS > S1 PRODUCT SETUP > FRONT PANEL > LED CB OPEN COLOR.
3–8 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
FRONT CONTROL PANEL INTERFACE CHAPTER 3: INTERFACES
• CLOSED: [Selectable] Red (default) or Green
This LED lights up when the Capacitor Bank switch is closed. The user can select the color of the LED to be red (default) or green. The selection is available in: SETPOINTS > S1 PRODUCT SETUP > FRONT PANEL >LED CB CLSD COLOR.
• REVERSE POWER: Orange
The “REVERSE POWER” LED turns orange, when the Multilin DGCC detects reverse power in excess of the programmed reverse power setting for the specified time delay.
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–9
Software setup
EnerVista Multilin DGCC Setup SoftwareAlthough settings can be entered manually using the control panel keys, a PC can be used to download setpoints through the communications port. The software is available from GE Multilin to make this as convenient as possible. With running, it is possible to:
• Program and modify settings
• Load and save setting files to and from a disk
• Read actual values
• Monitor status
• Read pre-trip data and event records
• Get help on any topic
• Upgrade the firmware
The software allows immediate access to all features with easy to use pull down menus in the familiar Windows environment. This section provides the necessary information to install , upgrade the relay firmware, and write and edit setting files.The software can run without a connected to the computer. In this case, settings may be saved to a file for future use. If a is connected to a PC and communications are enabled, the can be programmed from the setting screens. In addition, measured values, status and trip messages can be displayed with the actual value screens.
Hardware andsoftware
requirements
The following requirements must be met for the software.
• Microsoft Windows™ 7 / XP is installed and running properly.
• At least 100 MB of hard disk space is available.
• At least 256 MB of RAM is installed.
The software can be installed from either the GE EnerVista CD or the GE Multilin website at http://www.GEmultilin.com.
Installing theEnerVista DGCCSetup software
After ensuring the minimum requirements indicated earlier, use the following procedure to install the EnerVista DGCC Setup software from the enclosed GE EnerVista CD.
1. Insert the GE EnerVista CD into your CD-ROM drive.
2. Click the Install Now button and follow the installation instructions to install the no-charge EnerVista software on the local PC.
3. When installation is complete, start the EnerVista Launchpad application.
4. Click the IED Setup section of the LaunchPad toolbar.
5. In the EnerVista Launchpad window, click the Add Product button and select the Multilin DGCC Capacitor Bank Controller as shown below. Select the Web option to ensure the most recent software release, or select CD if you do not have a web connection, then click the Add Now button to list software items for the Multilin DGCC .
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SOFTWARE SETUP CHAPTER 3: INTERFACES
6. EnerVista Launchpad will obtain the latest installation software from the Web or CD and automatically start the installation process. A status window with a progress bar will be shown during the downloading process.
7. Select the complete path, including the new directory name, where the EnerVista DGCC Setup software will be installed.
8. Click on Next to begin the installation. The files will be installed in the directory indicated, the USB driver will be loaded into the computer, and the installation program will automatically create icons and add EnerVista DGCC Setup software to the Windows start menu.
9. The Multilin DGCC device will be added to the list of installed IEDs in the EnerVista Launchpad window, as shown below.
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–11
If you are going to communicate from your computer to the Relay using the USB port:
10. Plug the USB cable into the USB port on the Relay then into the USB port on your computer.
11. Launch EnerVista SR3 Setup from LaunchPad.
12. In EnerVista > Device Setup:
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SOFTWARE SETUP CHAPTER 3: INTERFACES
13. Select USB as the Interface type.
14. Select Relay as the USB device.
Connecting EnerVista DGCC Setup to the device
Configuring serialcommunications
Before starting, verify that the cable is properly connected to either the USB port on the front panel of the device (for USB communications) or to the RS485 terminals on the back of the device (for RS485 communications). This example demonstrates an USB connection. For RS485 communications, the GE Multilin F485 converter will be required. Refer to the F485 manual for additional details.
1. Install and start the latest version of the software (available from the GE Multilin web site). See the previous section for the installation procedure.
2. Click on the Device Setup button to open the Device Setup window and click the Add Site button to define a new site.
3. Enter the desired site name in the "Site Name" field. If desired, a short description of the site can also be entered. In this example, we will use “Substation 1” as the site name.
4. The new site will appear in the upper-left list in the window.
5. Click the Add Device button to define the new device.
6. Enter the desired name in the "Device Name" field and a description (optional) of the device.
7. Select “Serial” from the Interface drop-down list.
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–13
8. Click the Read Order Code button to connect to the device and upload the order code.
9. Click OK when the relay order code has been received. The new device will be added to the Site List window (or Online window) located in the top left corner of the main window.
The Site Device has now been configured for USB communications. Proceed to Connecting to the Multilin DGCC below, to begin communications.
Using the QuickConnect feature
The Quick Connect button can be used to establish a fast connection through the front panel USB port of a relay, or through the Ethernet port. The following window will appear when the QuickConnect button is pressed:
As indicated by the window, the "Quick Connect" feature can quickly connect the software to a front port if the USB is selected in the interface drop-down list. Select “Relay" and press the Connect button.
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SOFTWARE SETUP CHAPTER 3: INTERFACES
When connected, a new Site called “Quick Connect” will appear in the Site List window.
The Site Device has now been configured via the Quick Connect feature for USB communications. Proceed to Connecting to the Relay below, to begin communications.
Connecting to theMultilin DGCC
Now that the communications parameters have been properly configured, the user can easily communicate with the relay.
1. Expand the Site list by double clicking on the site name or clicking on the «+» box to list the available devices for the given site.
2. Desired device trees can be expanded by clicking the «+» box. The following list of headers is shown for each device:Device DefinitionActual ValuesQuick SetupSetpointsMaintenance.
3. Expand the SETTINGS > RELAY SETUP list item and double click on Front Panel to open the "Front Panel" settings window as shown below:
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–15
4. The "Front Panel" settings window will open with a corresponding status indicator on the lower left of the EnerVista DGCC Setup window.
5. If the status indicator is red, verify that the serial or USB cable is properly connected to the relay, and that the relay has been properly configured for communications (steps described earlier).
The "Front Panel" settings can now be edited, printed, or changed. Other setpoint and command windows can be displayed and edited in a similar manner. "Actual Values" windows are also available for display. These windows can be arranged, and resized at will.
Working with setpoints and setpoint files
Engaging a device The software may be used in on-line mode (relay connected) to directly communicate with a DGC device. Communicating devices are organized and grouped by communication interfaces and into sites. Sites may contain any number of devices selected from the product series.
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SOFTWARE SETUP CHAPTER 3: INTERFACES
Entering setpoints The System Setup page will be used as an example to illustrate the entering of setpoints. In this example, we will be changing the voltage sensing setpoints.
1. Establish communications with the DGC device.
2. Select the Setpoint > System Setup > Voltage Sensing menu item.
3. Select the Bus VT Secondary setpoint by clicking anywhere in the parameter box. This will display three arrows: two to increment/decrement the value and another to launch the numerical keypad.
4. Clicking the arrow at the end of the box displays a numerical keypad interface that allows the user to enter a value within the setpoint range displayed near the top of the keypad: Click = to exit from the keypad and keep the new value. Click on X to exit from the keypad and retain the old value.
5. For setpoints requiring non-numerical pre-set values (e.g. 3-Phase voltage connection below), clicking anywhere within the setpoint value box displays a drop-down selection menu arrow. Select the desired value from this list.
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–17
6. For setpoints requiring an alphanumeric text string (e.g. "relay name"), the value may be entered directly within the setpoint value box.
7. In the Setpoint > System Setup > Voltage Sensing dialog box, click on Save to save the values into the . Click YES to accept any changes and exit the window. Click Restore to retain previous values. Click Default to restore Default values.
File support Opening any file will automatically launch the application or provide focus to the already opened application. If the file is a settings file (has a ‘DGC’ extension) which had been removed from the Settings List tree menu, it will be added back to the Settings List tree.New files will be automatically added to the tree.
Using settings files The software interface supports three ways of handling changes to Multilin DGCC settings:
• In off-line mode (DGC disconnected) to create or edit DGC settings files for later download to communicating DGC devices.
• Directly modifying DGC settings while connected to a communicating DGC device, then saving the settings when complete.
• Creating/editing settings files while connected to a communicating DGC device, then saving them to the device when complete.
Settings files are organized on the basis of file names assigned by the user. A settings file contains data pertaining to the following types of DGC settings:
• Device Definition
• DGC Setup
• System Setup
• Protection
• Control
• Inputs/Outputs
Factory default values are supplied and can be restored after any changes.The displays DGC setpoints with the same hierarchy as the front panel display.
Downloading andsaving settings files
Settings must be saved to a file on the local PC before performing any firmware upgrades. Saving settings is also highly recommended before making any settings changes or creating new settings files.The settings files in the window are accessed in the Files Window. Use the following procedure to download and save settings files to a local PC.
1. Ensure that the site and corresponding device(s) have been properly defined and configured as shown in Connecting to the Multilin DGCC , above.
2. Select the desired device from the site list.
3. Select the Online > Read Device Settings from Device menu item, or right-click on the device and select Read Device Settings to obtain settings information from the device.
4. After a few seconds of data retrieval, the software will request the name and destination path of the settings file. The corresponding file extension will be automatically assigned. Press Receive to complete the process. A new entry will be added to the tree, in the File pane, showing path and file name for the setting file.
Adding settings filesto the environment
The software provides the capability to review and manage a large group of settings files. Use the following procedure to add an existing file to the list.
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SOFTWARE SETUP CHAPTER 3: INTERFACES
1. In the files pane, right-click on Files and select the Add Existing Setting File item as shown:
2. The Open dialog box will appear, prompting the user to select a previously saved settings file. As for any other MS Windows® application, browse for the file to be added then click Open. The new file and complete path will be added to the file list.
Creating a newsettings file
The software allows the user to create new settings files independent of a connected device. These can be uploaded to a device at a later date. The following procedure illustrates how to create new settings files.
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–19
1. In the File pane, right click on File and select the New Settings File item. The following box will appear, allowing for the configuration of the settings file for the correct firmware version. It is important to define the correct firmware version to ensure that settings not available in a particular version are not downloaded into the device.
2. Select the Firmware Version, and Order Code options for the new settings file.
3. For future reference, enter some useful information in the Description box to facilitate the identification of the device and the purpose of the file.
4. To select a file name and path for the new file, click the button beside the File Name box.
5. Select the file name and path to store the file, or select any displayed file name to replace an existing file. All setpoint files should have the extension ‘DGC’ (for example, ‘feeder1.DGC’).
6. Click OK to complete the process. Once this step is completed, the new file, with a complete path, will be added to the EnerVista DGCC Setup software environment.
Upgrading settingsfiles to a new revision
It is often necessary to upgrade the revision for a previously saved settings file after the firmware has been upgraded. This is illustrated in the following procedure:
1. Establish communications with the relay.
2. Select the Maintenance > M1 Relay Info menu item and record the Firmware Revision.
3. Load the settings file to be upgraded into the EnerVista DGCC Setup environment as described in the section, Adding Settings Files to the Environment.
4. In the File pane, select the saved settings file.
5. From the main window menu bar, select the Offline > Edit Settings File Properties menu item and note the File Version of the settings file. If this version is different from the Firmware Revision noted in step 2, select a New File Version that matches the Firmware Revision from the pull-down menu.
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6. For example, if the firmware revision is 1.20) and the current settings file revision is 1.10, change the settings file revision to “1.2x”.
7. Enter any special comments about the settings file in the "Description" field.
8. Select the desired firmware version from the "New File Version" field.
9. When complete, click OK to convert the settings file to the desired revision. See Loading Settings from a File below, for instructions on loading this settings file into the Multilin DGCC device.
Printing settings andactual values
The EnerVista DGCC Setup software allows the user to print partial or complete lists of settings and Actual Values. Use the following procedure to print a list of settings:
1. Select a previously saved settings file in the File pane or establish communications with a device.
2. From the main window, select the Offline > Export Settings File menu item.
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–21
3. The Print/Export Options dialog box will appear. Select Settings in the upper section and select either Include All Features (for a complete list) or Include Only Enabled Features (for a list of only those features which are currently used) in the filtering section and click OK.
4. The process for Offline > Print Preview Settings File is identical to the steps above.
5. Settings lists can be printed in the same manner by right clicking on the desired file (in the file list) or device (in the device list) and selecting the Print Device Information or Print Settings File options.
Printing actual valuesfrom a connected
device
A complete list of actual values can also be printed from a connected device with the following procedure:
1. Establish communications with the desired device.
2. From the main window, select the Online > Print Device Information menu item
3. The Print/Export Options dialog box will appear. Select Actual Values in the upper section and select either Include All Features (for a complete list) or Include Only Enabled Features (for a list of only those features which are currently used) in the filtering section and click OK.
Actual Values lists can be printed in the same manner by right clicking on the desired device (in the device list) and selecting the Print Device Information option
3–22 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
SOFTWARE SETUP CHAPTER 3: INTERFACES
Loading settings froma file
CAUTION
CAUTION: An error message will occur when attempting to download a settings file with a revision number that does not match the relay firmware. If the firmware has been upgraded since saving the settings file, see for instructions on changing the revision number of a settings file.
The following procedure illustrates how to load settings from a file. Before loading a settings file, it must first be added to the environment as described in the section, Adding Settings Files to the Environment.
1. Select the previously saved settings file from the File pane of the EnerVista DGCC Setup software main window.
2. Select the Offline > Edit Settings File Properties menu item and verify that the corresponding file is fully compatible with the hardware and firmware version of the target device. If the versions are not identical, see Upgrading Settings Files to a New Revision for details on changing the settings file version.
3. Right-click on the selected file and select the Write Settings File to Device item.
4. Select the target device from the list of devices shown and click Send. If there is an incompatibility, an "Incompatible device..." error message will be shown.
If there are no incompatibilities between the target device and the settings file, the data will be transferred to the device. An indication of the percentage completed will be shown in the bottom of the main window.
Upgrading Multilin DGCC firmwareTo upgrade the Multilin DGCC firmware, follow the procedures listed in this section. Upon successful completion of this procedure, the device will have new firmware installed with the factory default setpoints.The latest firmware files are available from the GE Multilin website at http:// www.GEmultilin.com.
NOTE
NOTE: EnerVista DGCC Setup software prevents incompatible firmware from being loaded into a DGC device.
NOTE
NOTE: Before upgrading firmware, it is very important to save the current Multilin DGCC settings to a file on your PC. After the firmware has been upgraded, it will be necessary to load this file back into the device. Refer to Downloading and Saving Settings Files for details on saving settings to a file.
Loading new DGCfirmware
Loading new firmware into the flash memory is accomplished as follows:
1. Connect the device to the local PC and save the settings to a file as shown in Downloading and Saving Settings Files.
2. Select the Maintenance > Update Firmware menu item.
3. The software will request the new firmware file. Locate the folder that contains the firmware files to load into the . The firmware filename has the following format:
MJ M03 M A 100 . 000
Modification Number (000 = none)
Board Assembly Rev #
Code Type in Memory Device
PCB Code Number
Product Reference Code (MJ = DGC)
Firmware Rev #
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–23
4. EnerVista DGCC Setup software now prepares the to receive the new firmware file. The front panel will momentarily display "DGC BOOT PROGRAM Waiting for Message,” indicating that it is in upload mode.
5. While the file is being loaded into the device, a status box appears showing how much of the new firmware file has been transferred, and the upgrade status. The entire transfer process takes approximately 10 minutes.
6. The software will notify the user when the EnerVista DGCC Setup program has finished loading the file. Carefully read any displayed messages and click OK to return the main screen. Cycling power to the relay is recommended after a firmware upgrade.
After successfully updating the firmware, the device will not be in service and will require settings programming. To communicate with the relay, the communication settings may have to be manually reprogrammed.When communications are established, the saved setpoints must be reloaded back into the device. See Loading Settings from a File for details.Modbus addresses assigned to firmware modules, features, settings, and corresponding data items (i.e. default values, min/max values, data type, and item size) may change slightly from version to version of the firmware.Addresses are rearranged when new features are added or existing features are enhanced or modified.
Advanced EnerVista DGCC Setup features
Event records The EnerVista DGCC Setup software can be used to capture events from the device at the instance of a pickup, trip, alarm, or other condition.
• With EnerVista DGCC Setup software running and communications established, select the Actual Values > A3 Records > Event Records menu item to open the Event Records Viewer window.
3–24 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
SOFTWARE SETUP CHAPTER 3: INTERFACES
• Click on the Save Events button to save the selected events to the local PC.
Data logger The data logger feature is used to sample and record up to ten actual values at a selectable interval. The datalogger can be run with Continuous mode Enabled, which will continuously record samples until stopped by the user; or with Continuous mode Disabled, which will trigger the datalog once without overwriting previous data.Viewing and saving of the Datalogger is performed as follows:
1. With running and communications established, select the A3 Records > Data Logger menu item to open the datalog setup window:
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–25
2. If Continuous mode is enabled, click on Stop to stop the Datalog
3. Click on the Save to File button to save the Datalog to the local PC. A new window will appear requesting for file name and path.
4. One file is saved as a COMTRADE file, with the extension ‘CFG’. The other file is a DAT file, required by the COMTRADE file for proper display of data.
5. To view a previously saved COMTRADE file, click the Open button and select the corresponding COMTRADE file.
6. To view the Datalog, click the Launch Viewer button. A detailed Datalog window will appear as shown below.
3–26 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
SOFTWARE SETUP CHAPTER 3: INTERFACES
7. The Datalog can be set to capture another buffer by clicking on Run (when Continuous mode is enabled), or by clicking on Release (when Continuous mode is disabled).
Password security Password security is an optional feature of the Multilin DGCC which can be setup using the EnerVista DGCC Setup software. The password system has been designed to facilitate a hierarchy for centralized management. This is accomplished through a Master level access password which can be used for resetting lower level access passwords and higher level privileged operations. In cases where operational security is required as well as a central administrative authority then the use of the password system is highly encouraged. The feature robustness of this system requires it to be managed exclusively through the EnerVista setup software. This section describes how to perform the initial setup. For more details on the password security feature, refer to Chapter 6 - Password Security.
1. Multilin DGCC devices shipped from the factory are initially set with security disabled. If the password security feature is to be used, the user must first change the Master Reset Password from the initial Null setting. This can be done only over communications, not from the front panel keypad. The new Master Reset Password must be 8 to 10 characters in length, and must have minimum 2 letters and 2
Display graph values
at the corresponding
cursor line. Cursor
lines are identified by
their colors.
CURSOR
LINES
To move lines locate the mouse pointer
over the cursor line then click and drag
the cursor to the new location.
DELTA
Indicates time difference
between the two cursor lines
TRIGGER LINE
Indicates the
point in time for
the trigger
FILE NAME
Indicates the
file name and
complete path
(if saved)
TRIGGER TIME & DATE
Display the time & date of the
Trigger
VECTOR DISPLAY SELECT
Click here to open a new graph
to display vectors
CURSOR LINE POSITION
Indicate the cursor line position
in time with respect to the
trigger time
CHAPTER 3: INTERFACES SOFTWARE SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 3–27
numbers. The letters are case sensitive. After entering a valid Master Reset Password, enter the new Master Reset Password again to confirm, then select Change Password.
2. Now that the Master Reset Password has been programmed, enter it again to log in to the Master Access level. The Master Level permits setup of the Remote and Local Passwords. If the Master Reset Password has been lost, record the Encrypted Key and contact the factory to have it decrypted.
3. With Master Level access, the user may disable password security altogether, or change the Master Reset Password.
4. The Master Access level allows programming of the Remote Setpoint and Remote Control passwords. These passwords are initially set to a Null value, and can only be set or changed from a remote user over RS485 communications. Remote Passwords must be 3 to 10 characters in length.
3–28 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
SOFTWARE SETUP CHAPTER 3: INTERFACES
5. Initial setup of the Local Setpoint and Local Control passwords requires the Master Access level. If Overwrite Local Passwords is set to YES, Local passwords can be changed remotely only (over RS485). If Overwrite Local Passwords is set to NO, Local Passwords can be changed locally only (over USB or keypad). If changing Local Passwords is permitted locally, the keypad user can only change the Local Passwords if they have been changed from the initial NULL value to a valid one. Local Passwords must be 3 to 10 characters in length.
6. If any Remote Password has never been set, that level will not be attainable except when logged in as the Master Level. The same logic applies to the Local Passwords.
7. When passwords have been set, the user will be prompted to enter the appropriate password depending on the interface being used (remote or local), and the nature of the change being made (setpoint or control). If the correct password is entered, the user is now logged into that access level over that interface only. The access level turns off after a period of 5 minutes of inactivity, if control power is cycled, or if the user enters an incorrect password.
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–1
Multilin DGCC Capacitor Bank Controller
Chapter 4: Actual values
Digital Energy
Actual values
Figure 1: Actual Values main menu
A2 METERING
CURRENT
VOLTAGE
POWER
FREQUENCY
THD
HARMONICS
▼
A1 STATUS
CLOCK
CONTACT INPUTS
OUTPUT RELAYS
VIRTUAL INPUTS
VIRTUAL OUTPUTS
C. INPUTS SUMMARY
OUT RELAYS SUMMARY
FLEXLOGIC SUMMARY
▼
ACTUAL VALUES
A1 STATUS
A2 METERING
A3 RECORDS
A4 TARGET MESSAGES
891760.cdr
A3 RECORDS
EVENT RECORDS
DATA LOGGER
CLEAR EVENT REC
CLEAR DATA LOGGER
▼
A4 TARGET MESSAGES
Target Message 1
State:
Target Message 2
State:
...
▼
▼
4–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A1 STATUS CHAPTER 4: ACTUAL VALUES
A1 Status
Figure 2: Status Menu
A1 CONTACT INPUTS
CONTACT INPUT 1
CONTACT INPUT 2
...
CONTACT INPUT n
▼
A1 CLOCK
CURRENT DATE
CURRENT TIME
▼
A1 STATUS
CLOCK
CONTACT INPUTS
OUTPUT RELAYS
VIRTUAL INPUTS
VIRTUAL OUTPUTS
C. INPUTS SUMMARY
OUT RELAYS SUMMARY
FLEXLOGIC SUMMARY
▼
891763.cdr
A1 OUTPUT RELAYS
OUTPUT RELAY 1
...
OUTPUT RELAY 2
OUTPUT RELAY 3
OUTPUT RELAY N
▼
A1 FLEXLOGIC SUMMARY
FLEXLOGIC STATUS
FLEX LINES USED
▼
A1 VIRTUAL INPUTS
1
2
...
32
VIRTUAL INPUT
VIRTUAL INPUT
VIRTUAL INPUT
▼
A1 VIRTUAL OUTPUTS
1
2
...
32
VIRTUAL OUTPUT
VIRTUAL OUTPUT
VIRTUAL OUTPUT
▼
RLY 1 OFF RLY 5 OFF
RLY 2 OFF RLY 6 OFF
RLY 3 OFF RLY 7 OFF
RLY 4 OFF
RLY 1 OFF RLY 5 OFF
RLY 2 OFF RLY 6 OFF
RLY 3 OFF RLY 7 OFF
RLY 4 OFF
CI #1 OFF CI #5 OFF
CI #2 OFF CI #6 OFF
CI #3 OFF CI #7 OFF
CI #4 OFF CI #8 OFF
Contact Inputs Summary
Output Relays Summary
NOTE: # of outputs depends
on ordercode
NOTE: # of inputs depends
on ordercode
CHAPTER 4: ACTUAL VALUES A2 METERING
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–3
A2 Metering
Figure 3: Metering Menu
A2 METERING
CURRENT
VOLTAGE
POWER
FREQUENCY
THD
HARMONICS
▼
891766.cdr
A2 CURRENT
PH A CURRENT
PH B CURRENT
PH C CURRENT
LINE CURRENT
GND CURRENT
▼
A2 VOLTAGE
AN VOLTAGE/AB VOLTAGE
BN VOLTAGE/BC VOLTAGE
CN VOLTAGE/CA VOLTAGE
LINE VOLTAGE
DELTA VOLTAGE
▼
A2 POWER
3 ph ACTIVE POWER
POWER FACTOR
3 ph REACTIVE POWER
3 ph APPARENT POWER
DELTA REACTIVE POWER
▼
A2 FREQUENCY
FREQUENCY
A2 THD
THD PH A CURRENT
THD PH B CURRENT
THD PH C CURRENT
THD PH A VOLTAGE
THD PH B VOLTAGE
THD PH C VOLTAGE
▼
A2 HARMONICS
2ND HARM PH A CRNT
2ND HARM PH B CRNT
2ND HARM PH C CRNT
2ND HARM PH A VOLT
2ND HARM PH B VOLT
2ND HARM PH C VOLT
...
xxx HARM PH A CRNT
xxx HARM PH B CRNT
xxx HARM PH C CRNT
xxx HARM PH A VOLT
xxx HARM PH B VOLT
xxx HARM PH C VOLT
▼
4–4 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A2 METERING CHAPTER 4: ACTUAL VALUES
The Multilin DGCC unit measures the RMS of the fundamental frequency component of the voltage and current inputs, and detects the system frequency using the connected voltage input. Based on the measured AC inputs, the unit calculates line current and line voltages, power and power factor, Total Harmonic Distortion (THD) and 2nd to 8th harmonics per input. All currents and voltages are recalculated four times per power system cycle at fundamental frequency. Harmonic measurements are fully calculated every 3.5 power system cycles. Line Current, Line Voltage and Line Compensated Voltage are filtered values used for the control algorithm. Integration is based on an IIR filter over the last 10 measurements. For abrupt changes in metering, higher than 2 X PKP, a quick update over these registers is made. Displayed metered quantities are updated approximately three (3) times per second for readability. The Multilin DGCC provides the following measurements and metered values:
• Phase-to-Ground Voltages (V)
• Phase-to-Phase Voltages (V)
• Line Voltage (V)
• Phase Currents (A)
• Line Current (A)
• Ground Current (A)
• 3-Phase Active power (kW)
• 3-Phase Reactive power (kvar)
• 3-Phase Apparent Power (kVA)
• Power Factor (Lag or Lead)
• 2nd to 8th harmonic in % – for the CB phase current
• 2nd to 8th harmonic in % – for the CB voltage
• THD in % – for the CB phase current
• THD in % – for the CB voltage.
The Single Phase/3 Phase DGC connection is chosen based on Order Code and VT Input:Single Phase connection applies to the Multilin DGCC with one of the following configurations:
• IO_H card installed
• IO_A card installed and the VT Input programmed to Line-To-Line or Line-To-Ground.
Three Phase connection applies only to Multilin DGCC with the configuration:
• IO_A card installed and the VT Input programmed to Wye or Delta.
When a single phase connection is chosen, Voltage and Current inputs correspond to the Phase A inputs.By scrolling the Up/Down keys the unit shows, one-by-one, all metered values as follows:
CHAPTER 4: ACTUAL VALUES A2 METERING
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–5
Current3-PHASE DGC
PH A CURRENT0.0 A 0° lag
Range: 0.0 to 20000.0 A, 0 to 359° lag
PH B CURRENT0.0 A 0° lag
Range: 0.0 to 20000.0 A, 0 to 359° lag
PH C CURRENT0.0 A 0° lag
Range: 0.0 to 20000.0 A, 0 to 359° lag
LINE CURRENT0.0 A 0° lag
Range: 0.0 to 20000.0 A, 0 to 359° lag
GND CURRENT0.0 A 0° lag
Range: 0.0 to 20000.0 A, 0 to 359° lag
SINGLE-PHASE DGC
LINE CURRENT0.0 A 0° lag
Range: 0.0 to 20000.0 A, 0 to 359° lag
Voltage3-PHASE DGC
PH B VOLTAGE0 V 0° lag
Range: 0 to 130000 V
PH A VOLTAGE0 V 0° lag
Range: 0 to 130000 V
PH C VOLTAGE0 V 0° lag
Range: 0 to 130000 V
LINE VOLTAGE0 V 0° lag
Range: 0 to 130000 V
SINGLE-PHASE DGC
LINE VOLTAGE0 V 0° lag
Range: 0 to 130000 V
4–6 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A2 METERING CHAPTER 4: ACTUAL VALUES
Power3-PHASE DGC
3-PH ACTIVE POWER0.0 kW
Range: -50000.0 to 50000.0 kW
3-PH REACTIVE POWER0.0 kVAR
Range: -50000.0 to 50000.0 kVAR
3-PH APPARENT POWER0.0 kVA
Range: 0 to 50000 kVA
POWER FACTOR0.00
Range: -0.99 to 1.00
SINGLE-PHASE DGC
1-PH ACTIVE POWER0.0 kW
Range: -50000.0 to 50000.0 kW
1-PH REACTIVE POWER0.0 kVAR
Range: -50000.0 to 50000.0 kVAR
1-PH APPARENT POWER0.0 kVA
Range: 0 to 50000 kVA
3-PH ACTIVE POWER0.0 kW
Range: -50000.0 to 50000.0 kW
3-PH REACTIVE POWER0.0 kVAR
Range: -50000.0 to 50000.0 kVAR
3-PH APPARENT POWER0.0 kVA
Range: 0 to 50000 kVA
POWER FACTOR0.00
Range: -0.99 to 1.00
FrequencyFREQUENCY0.00 Hz
Range: 40.00 to 70.00 Hz
CHAPTER 4: ACTUAL VALUES A2 METERING
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–7
Total Harmonic Distortion (THD)THD CURRENTS - 3-PHASE DGC
THD PH A CURRENT0.00%
Range: 0.20% to 100%
THD PH B CURRENT0.00%
Range: 0.20% to 100%
THD PH C CURRENT0.00%
Range: 0.20% to 100%
THD CURRENTS - SINGLE-PHASE DGC
THD LINE CURRENT0.00%
Range: 0.20% to 100%
THD VOLTAGES - 3-PHASE DGC
THD PH A VOLTAGE0.00%
Range: 0.20% to 100%
THD PH B VOLTAGE0.00%
Range: 0.20% to 100%
THD PH C VOLTAGE0.00%
Range: 0.20% to 100%
THD VOLTAGES - SINGLE-PHASE DGC
THD LINE VOLTAGE0.00%
Range: 0.20% to 100%
HarmonicsCURRENTS - 3-PHASE DGC
2nd HARM PH A CRNT0.00%
Range: 0.20 to 1000%
2nd HARM PH B CRNT0.00%
Range: 0.20 to 100%
2nd HARM PH C CRNT0.00%
Range: 0.20 to 100%..
4–8 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A2 METERING CHAPTER 4: ACTUAL VALUES
8th HARM PH A CRNT0.00%
Range: 0.20 to 100%
8th HARM PH B CRNT0.00%
Range: 0.20 to 100%
8th HARM PH C CRNT0.00%
Range: 0.20 to 100%
CURRENTS - SINGLE-PHASE DGC
2nd HARM LINE CRNT0.00%
Range: 0.20 to 1000%..
8th HARM LINE CRNT0.00%
Range: 0.20 to 100%
VOLTAGES - 3-PHASE DGC
2nd HARM PH A VOLT0.00%
Range: 0.20 to 100%
2nd HARM PH B VOLT0.00%
Range: 0.20 to 100%
2nd HARM PH C VOLT0.00%
Range: 0.20 to 100%..
8th HARM PH A VOLT0.00%
Range: 0.20 to 100%
8th HARM PH B VOLT0.00%
Range: 0.20 to 100%
8th HARM PH C VOLT0.00%
Range: 0.20 to 100%
CHAPTER 4: ACTUAL VALUES A2 METERING
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–9
VOLTAGES - SINGLE-PHASE DGC
2nd HARM VOLTAGE0.00% fo
Range: 0.20 to 100%..
8th HARM VOLTAGE0.00% fo
Range: 0.20 to 100%
Default screensThe measurements and metered values can also be viewed by scrolling Up or Down through the default screens as shown below:
4–10 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A2 METERING CHAPTER 4: ACTUAL VALUES
Power calculationWhen Multilin DGCC is connected to all three-phase currents and voltages, the three-phase power is calculated as a sum of the three individual phase power quantities.When the Multilin DGCC is connected to only one current and one voltage input, the three-phase power is calculated assuming balanced system, i.e. the computed single-phase power is multiplied by 3. The following table shows the three-phase power computation for each combination of voltage and current input, programmable under the Voltage and Current Sensing setup menus:
CHAPTER 4: ACTUAL VALUES A2 METERING
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–11
Please note that for all equations below, the rotated phasor is the current with respect to the voltage phasor. The asterisk identifies conjugate value.Negative angle values represent lagging angle values.0°) Three phase based on one phase calculation
-120°) Three phase based on one phase calculation
-240°) Three phase based on one phase calculation
-30°) Three phase based on one phase calculation
-90°) Three phase based on one phase calculation
-210°) Three phase based on one phase calculation
-150°) Three phase based on one phase calculation
-270°) Three phase based on one phase calculation
-330°) Three phase based on one phase calculation
Table 1: Power Computation for 3-phase DGC-C
* Three phase direct calculation
** Aron method
ABC ACB
Current Transformer Connection
Current Transformer Connection
PhA PhB PhC PhA PhB PhC
Line-to-Ground Voltage
Va 0 -120 -240 0 -240 -120
Vb -240 0 -120 -120 0 -240
Vc -120 -240 0 -240 -120 0
Line-to-Line Voltage
Vab -30 -150 -270 -330 -210 -90
Vbc -270 -30 -150 -90 -330 -210
Vca -150 -270 -30 -210 -90 -330
ABC/ACB
CT Connection:
WYE
VT Connection
WYE *
DELTA **
4–12 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A3 RECORDS CHAPTER 4: ACTUAL VALUES
A3 Records
Figure 4: Records Menu
891761.cdr
A3 RECORDS
EVENT RECORDS
DATA LOGGER
CLEAR EVENT REC
CLEAR DATA LOGGER
▼
A3 EVENT REC T39
E39, Date
Event Record
Time
A3 CLEAR DATA LOGGER
CLEAR
A3 CLEAR EVENT REC
CLEAR
A3 DATA LOGGER
TOTAL TRIGGERS
TRIGGER CAUSE
DATA LOG STATUS
▼
CHAPTER 4: ACTUAL VALUES A4 MESSAGES
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–13
A4 Messages
Configuration errorsCorrect Multilin DGCC operation depends on properly selected setpoints. The Multilin DGCC controller checks the following setpoints for mismatch and incompatibility.
TEMPERATURE CONTROL:The “HI Temp Bank Close,” “HI Temp Bank Open,” “LO Temp Bank Open,” and “LO Temp Bank Close” settings are checked in order to avoid an overlap between HI Temp dropout level and LO Temp dropout level.Correct selection of temperature control settings are as shown belowThe “HI Temp Bank Close,” “HI Temp Bank Open,” “LO Temp Bank Open,” and “LO Temp Bank Close” settings are checked in order to avoid an overlap between HI Temp dropout level and LO Temp dropout level.
HI TEMP BANK CLOSE
Range: Off, 5° to 200°C in steps of 1°CDefault: 24°C
HI TEMP BANK OPEN
Range: 5 to 50% in steps of 1%Default: 10%
LO TEMP BANK CLOSE
Range: Off, 5° to 200°C in steps of 1°CDefault: 15°C
LO TEMP BANK OPEN
Range: 5 to 50% in steps of 1%Default: 10%
Correct selection of temperature control settings are as shown below
VOLTAGE CONTROL:If the voltage setting of the “HI VOLTAGE TRIP”setpoint is equal to, or less than, the voltage setting of the “LO VOLTAGE CLOSE” plus “DELTA V AVERAGE,” an error flag will be set.
DELTA V AVERAGE
Range: Off, 0.1 to 20.0 V in steps of 0.1 VDefault: 3.0 V
4–14 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A4 MESSAGES CHAPTER 4: ACTUAL VALUES
HI VOLTAGE TRIP
Range: 60 to 250 V in steps of 1 VDefault: 120 V
LO VOLTAGE CLOSE
Range: 60 to 250 V in steps of 1 VDefault: 80 V
VAR CONTROL:If the kVar setting of the “3PH KVAR SWITCH-IN” is equal to, or less than, “3PH KVAR SWITCH-OUT” kVars setting plus 10 Kvar, an error flag will be set.
3PH KVAR SWITCH-IN
Range: -10000 to 10000 Kvar in steps of 0.1 KvarDefault: 500 Kvar
3PH KVAR SWITCH-OUT
Range: -10000 to 10000 Kvar in steps of 0.1 KvarDefault: -500 Kvar
OVERRIDE VOLTAGE CONTROL:The “HI OVERVOLT PKP,” “HI OVERVOLT DPO,” “LO OVERVOLT PKP,” and “LO OVERVOLT DPO” settings are checked in order to avoid an overlap between HI Voltage Dropout level and LO Voltage Dropout level.
HI VOLT OVERRIDE PKP
Range: Off, 60 to 250 V in steps of 1 VDefault: 120 V
HI VOLT OVERRIDE DPO
Range: 5 to 50% in steps of 1%Default: 10%
LO VOLT OVERRIDE PKP
Range: Off, 60 to 250 V in steps of 1 VDefault: 105 V
LO VOLT OVERRIDE DPO
Range: 5 to 50% in steps of 1%Default: 10%
Correct selection of voltage override control settings are as shown below:
OVERRIDE TEMPERATURE CONTROL:The “CLOSE TEMP OVERIDE PKP,” “HI TEMP OVERIDE DPO,” “TRIP TEMP OVERIDE PKP,” and “LO TEMP OVERIDE DPO” settings are checked in order to avoid an overlap between HI Temp Override DPO level and LO Temp Override DPO level.
CHAPTER 4: ACTUAL VALUES A4 MESSAGES
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 4–15
HI TEMP OVERRIDE PKP
Range: Off, 5° to 200°C in steps of 1°CDefault: 24°C
HI TEMP OVERRIDE DPO
Range: 5 to 50% in steps of 1%Default: 10%
LO TEMP OVERRIDE PKP
Range: Off, 5° to 200°C in steps of 1°CDefault: 15°C
LO TEMP OVERRIDE DPO
Range: 5 to 50% in steps of 1%Default: 10%
TIME CONTROL SCHEDULE CONTROL:This function will set an error when the difference between commands in the weekly calendar schedule is less than 5 minutes or when the open and close time match during one day.
SEASON CONTROL:This function will set an error when there is an overlap between seasons, seasons without start or end dates, different seasons with the same start or end date, or seasons with start dates older than end dates.The Control function that generates the error is blocked and does not operate until the configuration error is fixed.
4–16 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
A4 MESSAGES CHAPTER 4: ACTUAL VALUES
ERROR FLAGS:
NOTE
NOTE: Please keep in mind, that the Multilin DGCC will allow a selected incorrect setting to be saved as a new value. In such cases, the controller will produce a Unit Configuration Error, and will inhibit the CB auto operations.
Error Message Example:The CB controller displays an Error Message in the following format until the error is corrected:
Displayed Error Message Value Error Description Triggered Upon Saving an Incorrect Setting
No Error 0x0000 N/A
Temp Ctrl 0x0001 Hi Temp Bank DPO Level less than Lo Temp Bank DPO Level
Hi Temp Bank Close Hi Temp Bank Open Lo Temp Bank Close LO Temp Bank Open
Voltage Ctrl 0x0002 Hi Voltage Trip equal or less than Lo Voltage Close plus Delta V Average
Hi Voltage Trip Lo Voltage Close Delta V Average
Var Ctrl 0x0004 3ph KVar switch-in equal or less than 3ph KVar switch-out
3ph KVar switch-in 3ph KVar switch-out
Override V Ctrl 0x0008 Hi Voltage DPO Level less than Lo Voltage DPO Level
Hi Volt Override PKP Hi Volt Override DPO Lo Volt Override PKP Lo Volt Override DPO
Override T Ctrl 0x0010 Hi Temp Override DPO Level less than Lo Temp Override DPO Level
Hi Temp Override PKP Hi Temp Override DPO Lo Temp Override PKP Lo Temp Override DPO
Time Sched Ctrl 0x0020 - Any two consecutive settings set to switch the CB state within time of less than 5 minutes - Day with Open time equal to Close time
WeeklyCalendar Open and Close Times
Season Ctrl 0x0040 - Overlapping between seasons - Seasons without start or end date - Seasons with the same start or end date
Season Start and End Date
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–1
Multilin DGCC Capacitor Bank Controller
Chapter 5: Setpoints
Digital Energy
Setpoints
5–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
S1 Product setup
Figure 1: Product Setup menu
S1 PASSWORD SECURITY
LOC SETPOINTS PSWD
LOC CONTROLS PSWD
S1 CLOCK SETUP
DATE (MM/DD/YYYY)
TIME (HH:MM:SS)
DLS ENABLE
DLS START MONTH
DLS START WEEK
DLS END MONTH
DLS END WEEK
DLS START WEEKDAY
DLS END WEEKDAY
▼
S1 PRODUCT SETUP
CLOCK SETUP
PASSWORD SECURITY
COMMUNICATIONS
EVENT RECORDER
DATA LOGGER
FRONT PANEL
INSTALLATION
▼
891764.cdr
S1 COMMUNICATIONS
RS485
MODBUS
DNP
S1 EVENT RECORDER
PICKUP EVENTS
TRIP EVENTS
ALARM EVENTS
CONTROL EVENTS
DROPOUT EVENTS
CONTACT INPUTS
VIRTUAL INPUTS
VIRTUAL OUTPUTS
SETTING DATE/TIME
▼
S1 FRONT PANEL
MESSAGE TIMEOUT
SCREEN SAVER
FLASH MESSAGE TIME
▼
S1 INSTALLATION
PRODUCT NAME
PRODUCT STATUS
▼
S1 DATA LOGGER
CONTINUOUS MODE
TRIGGER POSITION
SAMPLE RATE
DATA LOG TRGR SRC
CHANNEL 1
...
CHANNEL 10
▼
S1 RS485
RS485 BAUD RATE
PARITY
REAR RS485 PORT
COMM FAIL ALARM
▼
S1 MODBUS
MODBUS SLAVE ADR
S1 DNP
DNP GENERAL
DEFAULT VARIATION
DNP POINTS LIST
S1 DNP GENERAL
DNP ADDRESS
TME SYNC IIN PER
DNP MSG FRAG SIZE
▼
S1 DNP POINTS LIST
BINARY INPUTS
BINARY OUTPUTS
ANALOG INPUTS
S1 DEFAULT VARIATION
DNP OBJECT 1
DNP OBJECT 2
DNP OBJECT 20
DNP OBJECT 21
DNP OBJECT 22
DNP OBJECT 23
DNP OBJECT 30
DNP OBJECT 32
▼
S1 BINARY INPUTS
POINT 0
...
POINT 63
▼
S1 BINARY OUTPUTS
POINT 0 ON
POINT 0 OFF
...
POINT 15 ON
POINT 15 OFF
▼
S1 ANALOG INPUTS
POINT 0 ENTRY
POINT 0 SCALE FCTR
POINT 0 DEADBAND
...
POINT 31 ENTRY
POINT 31 SCALE FCTR
POINT 31 DEADBAND
▼
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–3
ClockThe Multilin DGCC has an internal real time clock that performs time stamping for various features such as the event and transient recorders. Time synchronization priority uses Modbus or DNP commands as follows:Synchronization commands are all eventually translated into a MODBUS function, and as such are blocked from the MODBUS layer as required.There is no prioritization amongst synchronization commands. A synchronization command issued from DNP for example, can be directly followed by another from MODBUS, for example.PATH: SETPOINTS > S1 PRODUCT SETUP > CLOCK
DATE: (MM/DD/YYYY)
Range: Month: Jan, Feb, Mar, Apr, May, Jun, Jul, Aug, Sep, Oct, Nov, Dec Day: 1 to 31 Year: 2009 to 2099Default: Jan 15 2009
This setting sets the date in the specified format.
TIME: (HH:MM:SS)
Range: 0 to 23: 0 to 59: 0 to59Default: 03:15:50
This setting sets the time in the specified format.
DLS ENABLE
Range: Disabled, EnabledDefault: Disabled
With DLS Enabled, the main CPU has to maintain the information regarding AV.m_DaylightSavingsActive, because it is necessary in the comms CPU to translate from localtime to UTC in 61850 protocol. In addition, if SNTP is enabled, the main CPU will receive UTC time from comms CPU and it needs to apply this in order to pass it to localtime.
Without any other synchronization, DLS correction is applied only at 0200 hours on daylight saving months.
PATH: SETPOINTS > S1 PRODUCT SETUP > CLOCK > DLS ENABLE [ENABLED]
DLS START MONTH:
Range: Not Set, January, February, March, April, May, June, July, August, September, October, November, DecemberDefault: Not Set
This setting sets the month for the DLS start time.
DLS START WEEK:
Range: Not Set, 1st, 2nd, 3rd, 4th, LastDefault: Not Set
This setting sets the week of the month for the DLS start time.
DLS START WEEKDAY:
Range: Not Set, Mon, Tue, Wed, Thu, Fri, Sat, SunDefault: Not Set
This setting sets the weekday for the DLS start time.
DLS END MONTH:
Range: Not Set, January, February, March, April, May, June, July, August, September, October, November, DecemberDefault: Not Set
This setting sets the month for the end of the DLS time.
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S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
DLS END WEEK:
Range: Not Set, 1st, 2nd, 3rd, 4th, LastDefault: Not Set
This setting sets the week of the month for the end of the DLS time.
DLS END WEEKDAY:
Range: Not Set, Mon, Tue, Wed, Thu, Fri, Sat, SunDefault: Not Set
This setting sets the weekday for the end of the DLS time.
Password securityPassword security features are designed into the relay to provide protection against unauthorized setpoint changes and control. The relay has programmable passwords for both Local and Remote access, which can be used to allow setpoint changes and command execution from both the front panel and the communications ports. These passwords consist of 3 to 10 alphanumeric characters. The Local and the Remote passwords are initially set after entering in a Master Reset Password (MRP). The Master Reset Password (MRP) is set to “NULL” when the relay is shipped from the factory. When the MRP is programmed to “NULL” all password security is disabled.. The remote user may choose to allow the local user to change the local passwords.Each interface (RS485, USB, and front panel keypad) is independent of one another, meaning that enabling setpoint access on one interface does not enable access for any of the other interfaces (i.e., the password must be explicitly entered via the interface from which access is desired).The EnerVista DGCC Setup software incorporates a facility for programming the relay’s passwords as well as enabling/disabling setpoint access. For example, when an attempt is made to modify a setpoint but access is restricted, the program will prompt the user to enter the password and send it to the relay before the setpoint can actually be written to the relay. If a SCADA system is used for relay programming, it is up to the programmer to incorporate appropriate security for the application.Aside from being logged out of security, which allows the user to read setpoints and actual values only, three levels of security access are provided: Setpoint Level, Control Level, and Master Level. The Setpoint and Control Levels can be attained either locally using the Local passwords (USB port and keypad), or remotely using the Remote passwords (RS485 port). The user can have either Setpoint or Control Level active, but not both simultaneously from the same interface. The Master Level is used for setting and resetting of passwords, and includes all Setpoint and Control Level access rights. The Master Level cannot be attained from the keypad. The Master Reset Password must be 8 to 10 characters in length, and must contain at least 2 letters and 2 numbers. The Master Level can define whether the local user is permitted to change Local Passwords without having to enter the Master Level. The Master Reset Password is encrypted, and is not viewable from the keypad. If the Master Reset Password is lost, the user should contact the factory to decrypt the Master Reset Password.After password entry, the access level is maintained until a period of 5 minutes of inactivity has elapsed, after which the password must be re-entered. A power-loss or entering in the wrong password will log the user out of security.Further definition of the access levels is described as follows:SETPOINT LEVEL
• Changing settings under QUICK SETUP menu
• Changing settings under the SETPOINTS menu except the features requiring control access listed below
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–5
• Changing any setting under MAINTENANCE such as trip and close coil monitoring and breaker maintenance settings, except the features requiring control access listed below
• Changing the Local or Remote Setpoint Password, depending on the interface being accessed
CONTROL LEVEL
• Reset command
• Open and Close Breaker commands
• Virtual Input commands
• Clearing of event records, transient records, and other data
• Uploading new firmware
• Changing the Local or Remote Control Password, depending on the interface being accessed
MASTER LEVEL
• Setting and changing of all passwords including the Master Reset Password
• Disabling password security
• All Setpoint and Control Level access rights
For details on Password Security setup and handling using the EnerVista Setup software, refer to Chapter 3.
CommunicationsFigure 2: Main Communications menu
RS485 interface The Multilin DGCC is equipped with one serial RS485 communication port. The RS485 port has settings for baud rate and parity. It is important that these parameters agree with the settings used on the computer or other equipment that is connected to these ports. This port may be connected to a computer running the EnerVista DGCC Setup software. This software can download and upload setting files, view measured parameters, and upgrade the device firmware. A maximum of 32 -series devices can be daisy-chained and connected to a DCS, PLC, or PC using the RS485 port.Select the Settings > Communications > Serial Ports menu item in the program, or the SETPOINTS > S1 PRODUCT SETUP > COMMUNICATIONS > RS485 path on the display, to configure the serial port.
S1 RS485
RS485 BAUD RATE
PARITY
REAR 485 PORT
COMM FAIL ALARM
▼
S1 COMMUNICATIONS
RS485
MODBUS
DNP
891746.cdr
S1 MODBUS PROTOCOL
MODBUS SLAVE ADR
S1 DNP
DNP GENERAL
DEFAULT VARIATION
DNP POINTS LIST
▼
5–6 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
Figure 3: Serial port configuration settings
The following settings are available to configure the RS485 port.
BAUD RATE
Range: 9600, 19200, 38400, 57600, 115200Default: 115200
This setting specifies the baud rate (bits per second) for the RS485 port.
PARITY
Range: None, Odd, EvenDefault: None
This setting specifies the parity for the RS485 port.
Modbus The Modicon Modbus protocol is supported by the Multilin DGCC Capacitor Bank Controller . Modbus is available via the RS485 serial link (Modbus RTU). The always acts as a slave device, meaning that it never initiates communications; it only listens and responds to requests issued by a master device. A subset of the Modbus protocol format is supported that allows extensive monitoring, programming, and control functions using read and write register commands. Refer to the Multilin DGCC Communications Guide for additional details on the Modbus protocol and the Modbus memory map.The Modbus server can simultaneously support two clients over serial RS485. The server is capable of reporting any indication or measurement and operating any output present in the device. A user-configurable input and output map is also implemented.The operates as a Modbus slave device onlySelect the Settings > Communications > Modbus > Protocol menu item in software, or the SETPOINTS > S1 PRODUCT SETUP > COMMUNICATIONS > MODBUS PROTOCOL path to set up the modbus protocol as shown below.
Figure 4: Modbus protocol configuration settings
The following Modbus settings are available:
MODBUS SLAVE ADDRESS
Range: 1 to 254 in steps of 1Default: 254
This setting specifies the Modbus slave address . Each device must have a unique address from 1 to 254. Address 0 is the broadcast address to which all Modbus slave devices listen. Addresses do not have to be sequential, but no two devices can have the same address or conflicts resulting in errors will occur. Generally, each device added to the link should use the next higher address starting at 1.
Please refer to the Multilin DGCC Communications Guide for details on how to set up the Modbus communications protocol.
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–7
DNP communication The menu structure for the DNP protocol is shown below.PATH: SETPOINTS > PRODUCT SETUP > COMMUNICATIONS > DNP
Figure 5: DNP communication settings menu
The following table, from the Multilin DGCC Communications Guide, shows the list of DNP Binary Inputs.
S1 DNP GENERAL
DNP ADDRESS
DNP TCP/UDP PORT
TME SYNC IIN PER.
DNP MSG FRAG SIZE
▼
S1 DNP
DNP GENERAL
DEFAULT VARIATION
DNP POINTS LIST
891743.cdr
POINT 0
...
POINT 1
POINT 2
POINT 63
▼
S1 DNP POINTS LIST
BINARY INPUTS
BINARY OUTPUT
ANALOG INPUTS
POINT 0 ENTRY
...
POINT 0 SCALE FCTR
POINT 0 DEADBAND
POINT 31 ENTRY
POINT 31 SCALE FCTR
POINT 31 DEADBAND
▼
POINT 0 ON
...
POINT 0 OFF
POINT 1 ON
POINT 1 OFF
POINT 15 ON
POINT 15 OFF
▼
DEFAULT VARIATION
DNP OBJECT 1
DNP OBJECT 2
DNP OBJECT 20
DNP OBJECT 21
DNP OBJECT 22
DNP OBJECT 23
DNP OBJECT 30
DNP OBJECT 32
Code Type Definition
FC134B unsigned 16 bits DNP Binary Inputs
0 Off
0x0040 Contact IN 1 On
0x0041 Contact IN 2 On
0x0042 Contact IN 3 On
0x0043 Contact IN 4 On
0x0044 Contact IN 5 On
0x0045 Contact IN 6 On
0x0046 Contact IN 7 On
0x0047 Contact IN 8 On
0x0048 Contact IN 9 On
0x0049 Contact IN 10 On
0x004A Contact IN 11 On
0x004B Contact IN 12 On
0x004C Contact IN 13 On
0x004D Contact IN 14 On
0x004E Contact IN 15 On
5–8 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
0x004F Contact IN 16 On
0x0050 Contact IN 17 On
0x0051 Contact IN 18 On
0x0060 Contact IN 1 Off
0x0061 Contact IN 2 Off
0x0062 Contact IN 3 Off
0x0063 Contact IN 4 Off
0x0064 Contact IN 5 Off
0x0065 Contact IN 6 Off
0x0066 Contact IN 7 Off
0x0067 Contact IN 8 Off
0x0068 Contact IN 9 Off
0x0069 Contact IN 10 Off
0x006A Contact IN 11 Off
0x006B Contact IN 12 Off
0x006C Contact IN 13 Off
0x006D Contact IN 14 Off
0x006E Contact IN 15 Off
0x006F Contact IN 16 Off
0x0070 Contact IN 17 Off
0x0071 Contact IN 18 Off
0x0080 Virtual IN 1 On
0x0081 Virtual IN 2 On
0x0082 Virtual IN 3 On
0x0083 Virtual IN 4 On
0x0084 Virtual IN 5 On
0x0085 Virtual IN 6 On
0x0086 Virtual IN 7 On
0x0087 Virtual IN 8 On
0x0088 Virtual IN 9 On
0x0089 Virtual IN 10 On
0x008A Virtual IN 11 On
0x008B Virtual IN 12 On
0x008C Virtual IN 13 On
0x008D Virtual IN 14 On
0x008E Virtual IN 15 On
0x008F Virtual IN 16 On
0x0090 Virtual IN 17 On
0x0091 Virtual IN 18 On
0x0092 Virtual IN 19 On
0x0093 Virtual IN 20 On
0x0094 Virtual IN 21 On
0x0095 Virtual IN 22 On
0x0096 Virtual IN 23 On
0x0097 Virtual IN 24 On
0x0098 Virtual IN 25 On
0x0099 Virtual IN 26 On
Code Type Definition
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–9
0x009A Virtual IN 27 On
0x009B Virtual IN 28 On
0x009C Virtual IN 29 On
0x009D Virtual IN 30 On
0x009E Virtual IN 31 On
0x009F Virtual IN 32 On
0x00A0 Virtual IN 1 Off
0x00A1 Virtual IN 2 Off
0x00A2 Virtual IN 3 Off
0x00A3 Virtual IN 4 Off
0x00A4 Virtual IN 5 Off
0x00A5 Virtual IN 6 Off
0x00A6 Virtual IN 7 Off
0x00A7 Virtual IN 8 Off
0x00A8 Virtual IN 9 Off
0x00A9 Virtual IN 10 Off
0x00AA Virtual IN 11 Off
0x00AB Virtual IN 12 Off
0x00AC Virtual IN 13 Off
0x00AD Virtual IN 14 Off
0x00AE Virtual IN 15 Off
0x00AF Virtual IN 16 Off
0x00B0 Virtual IN 17 Off
0x00B1 Virtual IN 18 Off
0x00B2 Virtual IN 19 Off
0x00B3 Virtual IN 20 Off
0x00B4 Virtual IN 21 Off
0x00B5 Virtual IN 22 Off
0x00B6 Virtual IN 23 Off
0x00B7 Virtual IN 24 Off
0x00B8 Virtual IN 25 Off
0x00B9 Virtual IN 26 Off
0x00BA Virtual IN 27 Off
0x00BB Virtual IN 28 Off
0x00BC Virtual IN 29 Off
0x00BD Virtual IN 30 Off
0x00BE Virtual IN 31 Off
0x00BF Virtual IN 32 Off
0x00C0 Virtual OUT 1 On
0x00C1 Virtual OUT 2 On
0x00C2 Virtual OUT 3 On
0x00C3 Virtual OUT 4 On
0x00C4 Virtual OUT 5 On
0x00C5 Virtual OUT 6 On
0x00C6 Virtual OUT 7 On
0x00C7 Virtual OUT 8 On
0x00C8 Virtual OUT 9 On
Code Type Definition
5–10 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
0x00C9 Virtual OUT 10 On
0x00CA Virtual OUT 11 On
0x00CB Virtual OUT 12 On
0x00CC Virtual OUT 13 On
0x00CD Virtual OUT 14 On
0x00CE Virtual OUT 15 On
0x00CF Virtual OUT 16 On
0x00D0 Virtual OUT 17 On
0x00D1 Virtual OUT 18 On
0x00D2 Virtual OUT 19 On
0x00D3 Virtual OUT 20 On
0x00D4 Virtual OUT 21 On
0x00D5 Virtual OUT 22 On
0x00D6 Virtual OUT 23 On
0x00D7 Virtual OUT 24 On
0x00D8 Virtual OUT 25 On
0x00D9 Virtual OUT 26 On
0x00DA Virtual OUT 27 On
0x00DB Virtual OUT 28 On
0x00DC Virtual OUT 29 On
0x00DD Virtual OUT 30 On
0x00DE Virtual OUT 31 On
0x00DF Virtual OUT 32 On
0x00E0 Virtual OUT 1 Off
0x00E1 Virtual OUT 2 Off
0x00E2 Virtual OUT 3 Off
0x00E3 Virtual OUT 4 Off
0x00E4 Virtual OUT 5 Off
0x00E5 Virtual OUT 6 Off
0x00E6 Virtual OUT 7 Off
0x00E7 Virtual OUT 8 Off
0x00E8 Virtual OUT 9 Off
0x00E9 Virtual OUT 10 Off
0x00EA Virtual OUT 11 Off
0x00EB Virtual OUT 12 Off
0x00EC Virtual OUT 13 Off
0x00ED Virtual OUT 14 Off
0x00EE Virtual OUT 15 Off
0x00EF Virtual OUT 16 Off
0x00F0 Virtual OUT 17 Off
0x00F1 Virtual OUT 18 Off
0x00F2 Virtual OUT 19 Off
0x00F3 Virtual OUT 20 Off
0x00F4 Virtual OUT 21 Off
0x00F5 Virtual OUT 22 Off
0x00F6 Virtual OUT 23 Off
0x00F7 Virtual OUT 24 Off
Code Type Definition
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–11
0x00F8 Virtual OUT 25 Off
0x00F9 Virtual OUT 26 Off
0x00FA Virtual OUT 27 Off
0x00FB Virtual OUT 28 Off
0x00FC Virtual OUT 29 Off
0x00FD Virtual OUT 30 Off
0x00FE Virtual OUT 31 Off
0x00FF Virtual OUT 32 Off
0x0100 Contact OUT 1 On
0x0101 Contact OUT 2 On
0x0102 Contact OUT 3 On
0x0103 Contact OUT 4 On
0x0104 Contact OUT 5 On
0x0105 Contact OUT 6 On
0x0106 Contact OUT 7 On
0x0107 Contact OUT 8 On
0x0108 Contact OUT 9 On
0x0109 Contact OUT 10 On
0x010A Contact OUT 11 On
0x010B Contact OUT 12 On
0x010C Contact OUT 13 On
0x010D Contact OUT 14 On
0x0120 Contact OUT 1 Off
0x0121 Contact OUT 2 Off
0x0122 Contact OUT 3 Off
0x0123 Contact OUT 4 Off
0x0124 Contact OUT 5 Off
0x0125 Contact OUT 6 Off
0x0126 Contact OUT 7 Off
0x0127 Contact OUT 8 Off
0x0128 Contact OUT 9 Off
0x0129 Contact OUT 10 Off
0x012A Contact OUT 11 Off
0x012B Contact OUT 12 Off
0x012C Contact OUT 13 Off
0x012D Contact OUT 14 Off
0x8002 Any Trip OP
0x9DC1 Ntrl IOC PKP
0x9DC2 Ntrl IOC OP
0x9DC4 Ntrl IOC DPO
0x9E01 CB.Recls In-Progrs
0x9E02 Ntrl Lckt Trip
0xA002 Any Alarm OP
0xA482 Not Configured
0xA742 C. Bnk SW Alarm
0xA782 C. Bnk SW Alm Rst
0xAA82 Max Cls Total OP
Code Type Definition
5–12 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
0xAA84 Max Cls Total DPO
0xAAC2 Max Close/Day OP
0xAAC4 Max Close/Day DPO
0xAC42 Self Test Alrm OP
0xAC82 Comm Fail Alrm OP
0xB882 CB Switchng Alm OP
0xB884 CB Switchng Alm DPO
0xC702 Auto/Rem Close
0xC742 Manual Close
0xC782 Auto/Rem Open
0xC7C2 Manual Open
0xCCC2 Cap Bank Open
0xCD02 Cap Bank Closed
0xCF02 Auto/Remote
0xCF42 Manual
0xD201 Reverse Power PKP
0xD202 Reverse Power OP
0xD204 Reverse Power DPO
0xD481 Phase UV PKP
0xD482 Phase UV OP
0xD484 Phase UV DPO
0xD542 CB Cls-LoTemp Ctr
0xD544 CB Open-LoTemp Ctr
0xD582 CB Cls-HiTemp Ctr
0xD584 CB Open-HiTemp Ctr
0xD842 CB Open-Time Ctrl
0xD882 CB Close-Time Ctrl
0xD8C2 CB Open-Volt Ctrl
0xD902 CB Close-Volt Ctrl
0xDE02 CB Close-var Ctrl
0xDE42 CB Open-var Ctrl
0xDE81 Cls Temp Overd PKP
0xDE82 Cls Temp Overd OP
0xDE84 Cls Temp Overd DPO
0xDEC1 Opn Temp Overd PKP
0xDEC2 Opn Temp Overd OP
0xDEC4 Opn Temp Overd DPO
0xDF01 HI Volt Overd PKP
0xDF02 HI Volt Overd OP
0xDF04 HI Volt Overd DPO
0xDF41 LO Volt Overd PKP
0xDF42 LO Volt Overd OP
0xDF44 LO Volt Overd DPO
0xFDC2 Ntrl Block
Code Type Definition
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–13
Event recorderThe Event Recorder runs continuously, capturing and storing the last 256 events. All events are stored in a non-volatile memory where the information is maintained for up to 3 days in case of lost Multilin DGCC control power. PATH: SETPOINTS > S1 PRODUCT SETUP > EVENT RECORDER
PICKUP EVENTS
Range: Disabled, EnabledDefault: Disabled
When set to “Enabled”, the event recorder records the events that occur when a protection element picks up.
DROPOUT EVENTS
Range: Disabled, EnabledDefault: Disabled
When set to “Enabled” the event recorder records the dropout state of a protection element.
TRIP EVENTS
Range: Disabled, EnabledDefault: Enabled
The trip events include all programmed Multilin DGCC elements set to trip the breaker. The text “TRIP” followed by the name of the operated element is recorded.
ALARM EVENTS
Range: Disabled, EnabledDefault: Enabled
These events include the elements programmed as an “ALARM” or “LATCHED ALARM” function, which detect power system conditions considered as an alarm.
CONTROL EVENTS
Range: Disabled, EnabledDefault: Enabled
If set to “Enabled”, the event recorder records events caused by the performance of the programmed control elements.
CONTACT INPUTS
Range: Disabled, EnabledDefault: Enabled
When set to “Enabled”, the event recorder will record the event when a contact input changes its state.
VIRTUAL INPUTS
Range: Disabled, EnabledDefault: Enabled
When set to “Enabled”, the event recorder records the events which occur upon state changes of any virtual input.
VIRTUAL OUTPUTS
Range: Disabled, EnabledDefault: Enabled
When set to “Enabled”, the event recorder records the events which occur upon state changes of any virtual output.
5–14 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S1 PRODUCT SETUP CHAPTER 5: SETPOINTS
SETTING DATE/TIME
Range: Disabled, EnabledDefault: Disabled
When set to “Enabled” the Event Recorder records the events which occur upon Date and/or Time settings made by the user.
DataloggerThe following setpoints are available:
SAMPLE RATE
Range: 1 min, 5 min, 10 min, 15 min, 30 min, 60 min, DisableDefault: 1 min
Determines how often data is stored in the data log.
CONTINUOUS MODE
Range: Disabled, EnabledDefault: Disabled
Determines whether or not the trigger data is overwritten with new data. Enabled will overwrite the previous trigger data with new trigger data. When Disabled, the data log will run until filled with 256 samples. Continuous Mode should be used when the data is stored externally by a polling system. The sample rate should be chosen to match the poll rate of the external program.
TRIGGER POSITION
Range: 0 to 100% steps of 1%Default: 25%
Percentage of the sample buffer used for pretrigger samples.
DATA LOG TRIG SRC
Range: Command, VO1 to VO32, Any Trip Pickup, Any Trip, Any Trip Dropout, Any Alarm Pickup, Any Alarm, Any Alarm DropoutDefault: Command
Selects a trigger source. Command is always active. Logic Elements can be used to create combinations of trigger sources.
CHANNEL 1 SOURCE
Range: Disabled, Phase A Current, Phase B Current, Phase C Current, Average Phase Current, Motor Load, Current Unbalance, Ground Current, System Frequency, Vab, Vbc, Vca, Van, Vbn, Vcn, Power Factor, Real Power (kW), Reactive Power (kvar), Apparent Power (kVA), Positive Watthours, Positive Varhours, Hottest Stator RTD, Thermal Capacity Used, RTD #1, RTD #2, RTD #3, RTD #4, RTD #5, RTD #6, RTD #7, RTD #8, RTD #9, RTD #10, RTD #11, RTD #12Default: Disabled
Selects the data to be stored for each sample of the data log channel.
NOTE
NOTE: Sources and Defaults for Channels 2 to 10 are the same as those for Channel 1.
Front panelThe user can send a message to the display, that will override any normal message by sending text through Modbus.PATH: SETPOINTS > S1 PRODUCT SETUP > FRONT PANEL
CHAPTER 5: SETPOINTS S1 PRODUCT SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–15
FLASH MESSAGE TIME
Range: 1 s to 65535 sDefault: 5 s
Flash messages are status, warning, error, or information messages displayed for several seconds in response to certain key presses during setting programming. These messages override any normal messages. The duration of a flash message on the display can be changed to accommodate different reading rates.
MESSAGE TIMEOUT
Range: 1 s to 65535 sDefault: 30 s
If the keypad is inactive for a period of time, the relay automatically reverts to a default message. The inactivity time is modified via this setting to ensure messages remain on the screen long enough during programming or reading of actual values.
SCREEN SAVER
Range: Off, 1 min to 10000 minDefault: Off
The life of the LCD backlight can be prolonged by enabling the Screen Saver mode.
If the keypad is inactive for the selected period of time, the Multilin DGCC automatically shuts off the LCD screen. Any activity (keypress, alarm, trip, or target message) will restore screen messages.
LED CB OPEN COLOR
Range: Red, Green, Orange, OffDefault: Red
LED CB CLOSE COLOR
Range: Red, Green, Orange, OffDefault: Green
InstallationPATH: SETPOINTS > S1 PRODUCT SETUP > INSTALLATION
PRODUCT NAME
Range: Product Name, Alpha-numeric (18 characters)Default: DGC Name
The PRODUCT NAME setting allows the user to uniquely identify a Multilin DGCC unit. This name will appear on generated reports. This name is also used to identify specific devices which are engaged in automatically sending/receiving data over the communications channel.
PRODUCT STATUS
Range: Not Ready, ReadyDefault: Not Ready
Allows the user to activate/deactivate the Multilin DGCC . The Multilin DGCC is not operational when set to "Not Ready."
5–16 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S2 SYSTEM SETUP CHAPTER 5: SETPOINTS
S2 System setup
Figure 6: System setup menu
The Multilin DGCC can be connected to any available pair of voltage and current inputs, or to three-phase currents and voltage inputs, all programmable through the current and voltage sensing menus. During normal loading conditions the three phase currents and voltages are well balanced. The power computation from the Multilin DGCC connected to a single-phase current and single-phase voltage is calculated by extrapolating the single-phase power to a three-phase power measurement. The following AC inputs need be configured:
Current sensingPATH: SETPOINTS > S2 SYSTEM SETUP > S2 CURRENT SENSING
CT PRIMARY
Range: 1 to 6000 A in steps of 1 ADefault: 1 A
This setting defines the rated primary current of the connected current transformer.
CT SECONDARY
Range: 1 A, 5 A in steps of 1 ADefault: 5 A
This setting selects the secondary current of the connected current transformer.
S2 SYSTEM SETUP
CURRENT SENSING
VOLTAGE SENSING
POWER SYSTEM
▼
CAP BANK SWITCH
891665.cdr
S2 CURRENT SENSING
CT SECONDARY
GND CT PRIMARY
GND CT SECONDARY
CT PRIMARY
▼
S2 VOLTAGE SENSING
VOLTAGE INPUT
VT RATIO
VT SECONDARY
▼
S2 POWER SYSTEM
SYSTEM ROTATION
VT/CT PHASING
NOMINAL FREQUENCY
▼
S2 CAP BANK SWITCH
CB SW 52a CONTACT
▼
CB SW 52b CONTACT
CB SW ALARM DELAY
CB SW ALARM RESET
CHAPTER 5: SETPOINTS S2 SYSTEM SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–17
GROUND CT PRIMARY
Range: 1 to 6000 A in steps of 1 ADefault: 1 A
This setpoint defines the rated primary current of the connected ground current transformer. The value entered must be the same as the value in CT PRIMARY.
GND CT SECONDARY
Range: 1 A, 5 A in steps of 1 ADefault: 5 A
This setpoint defines the secondary current of the connected ground current transformer. The value entered must be the same as the value in CT SECONDARY.
Voltage sensingPATH: SETPOINTS > S2 SYSTEM SETUP > S2 VOLTAGE SENSING
VT INPUT
Range: Line-to-Line, Line-to-Ground, Wye, DeltaDefault: Wye
This setting defines the type of connection of the voltage transformer.
VT RATIO
Range: 1 to 600 in steps of 1Default: 1
This setpoint defines the ratio between the rated primary and secondary voltages of the connected voltage transformer.
VT SECONDARY
Range: 60 to 250 V in steps of 1 VDefault: 120 V
This setpoint specifies the secondary voltage of the voltage transformer connected to the controller.
Power systemPATH: SETPOINTS > S2 SYSTEM SETUP > POWER SYSTEM
SYSTEM ROTATION
Range: ABC, ACBDefault: ABC
This setting defines the phase rotation of the power system.
NOTE
NOTE: As this setting only applies to the three phase connection system it is hidden when Line-To-Ground or Line-To-Line connection is selected in the VT INPUT setting.
VT/CT PHASING
Range: 0° to -330° in steps of -30°Default: 0°
This setting specifies the angle by which the current is lagging the voltage.
Refer to the chapter entitled Metering / Power Calculation for power calculation based on VT/CT phasing.
NOTE
NOTE: As this setting only applies to the three phase connection system it is hidden when Line-To-Ground or Line-To-Line connection is selected in the VT INPUT setting.
5–18 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S2 SYSTEM SETUP CHAPTER 5: SETPOINTS
NOMINAL FREQUENCY
Range: 50 Hz, 60 HzDefault: 60 Hz
This setting defines the frequency of the power system.
Capacitor Bank switchSwitch State DetectionBoth the normally open and the normally closed auxiliary contacts of the Capacitor Bank switch or breaker are used in order to assert the actual position. The Capacitor Bank CLOSED/OPEN state can be also detected by using one auxiliary contact, either 52a or 52b.The diagram below shows how Capacitor Bank status is detected using either the two auxiliary contacts (preferred), or one auxiliary contact. However the Capacitor Bank switch discrepancy alarm is produced only when both auxiliary contacts, 52a, and 52b, are used for status detection. Capacitor Bank switch detection is designed to assert two extra output operands: Switch Alarm (auxiliary contact discrepancy), and Block Switching Operation. Operation of Capacitor Bank switch detection is summarized in the following tables: Table 1: Switch Auxiliary Contacts and Switch Operation, and TABLE 2: Switch monitoring logic with both 52a and 52b contacts configured. There are also two diagrams depicting this element: FIGURE 8: Timing Diagram of the Cap Bank Switch Monitoring Logic, and FIGURE 9: Cap Bank Switch Monitoring Logic.The Capacitor Bank switch alarm flag “CB SW ALARM”, is asserted after a settable time delay if the auxiliary contacts of the switch do not match (open-open, closed-closed instead of open-closed or closed-open) yielding an undefined Capacitor Bank switch position. The operand may be used to block selected functions per the user’s choice. The operand may be reset manually or remotely via the Resetting Input operand.
Table 1: Switch Auxiliary Contacts and Switch Operation
Table 2: Switch Monitoring Logic with both 52a and 52b Contacts Configured
52a Contact Configured
52b Contact Configured
Switch Operation
Yes Yes The Open output relay operates until both the 52a and the 52b switch contacts read OPEN and CLOSE respectively. These auxiliary contacts states define an opened switch. The Close output relay operates until both the 52a, and the 52b contacts read CLOSE and OPEN respectively. These auxiliary contacts states define a closed switch.
Yes No The Open output relay operates until the 52a contact changes its state from CLOSED to OPEN. This indicates an open switch. The Close output relay operates until the 52a contact changes its state from OPEN to CLOSE. This indicates a closed switch.
No Yes The Open output relay operates until the 52b contact changes its state from OPEN to CLOSED. This indicates an open switch. The Close output relay operates until the 52b contact changes its state from CLOSED to OPEN. This indicates a closed switch.
No No The switch state is not monitored
Auxiliary Contact (52a) Auxiliary Contact (52a) Switch Position Alarm
On Off CLOSED No
Off On OPEN No
Off Off Switch state Failed After time delay until acknowledged
On On
CHAPTER 5: SETPOINTS S2 SYSTEM SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–19
Figure 7: Example of CAP BANK OPEN State
SETTINGSPATH: SETPOINTS > S2 SYSTEM SETUP > S2 CAP BANK SWITCH
CB SW 52a CONTACT
Range: Off, Contact Input 1Default: Off
Select a Contact Input representing the Capacitor Bank switch state (Aux. Contact 52a). The contact is ON (energized) when the switch is closed, and OFF (de-energized), when the switch is open.
CB SW 52b CONTACT
Range: Off, Contact Input 2Default: Off
Select a Contact Input representing the Capacitor Bank state opposite to the state of the Capacitor Bank switch (aux. contact 52b). The contact is ON (energized) when the switch is open, and OFF (de-energized), when the switch is closed.
CB SW ALARM DELAY
Range: 0.00 to 120.00 s in steps of 0.05 sDefault: 0.05 s
This setting specifies a time delay after which a switch Alarm is issued by asserting the SWITCH ALARM operand. The delay is longer than the slowest operating time of the switch or breaker.
CB SW ALARM RESET
Range: Off, Contact, Virtual Input, Virtual OutputDefault: Off
This setting indicates an operand that acknowledges the switch Alarm. Once the Alarm is acknowledged, the SWITCH ALARM is reset. The acknowledge pulse must have a duration of at least 50 msec to take effect.
DGC- CB CONTROLLER
-
+
CI1
CI2
Contact Input 1 Off
C.BANK SWITCH SETUP
Contact Input 2 On
N
CB SW 52a CONTACT :
Contact Input 1 Off
CAP BANK
SWITCH
(BREAKER)
CB SW 52b CONTACT :
Contact Input 2 On
CAP BANK OPEN
5–20 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S2 SYSTEM SETUP CHAPTER 5: SETPOINTS
Figure 8: Timing Diagram - Capacitor Bank Switch Monitoring Logic
(52a = Off, 52b = On)
C.BANK SW ALARM
CB SW ALARM RESET
C. BANK SWITCH FAIL
Cap bank switch position valid
(cap bank opened)
Cap bank switch position valid
(cap bank opened)
Cap bank switch position invalid
alarm
acknowledged
alarm acknowledging
signal
(52a = Off, 52b = Off) or
(52a = On, 52b = On)
(52a = Off, 52b = On)
CAP BANK OPEN CAP BANK OPEN
alarm time delay
CHAPTER 5: SETPOINTS S2 SYSTEM SETUP
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–21
Figure 9: Capacitor Bank Switch monitoring - Logic diagram
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5–22 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
S3 Capacitor Bank control
Figure 10: Capacitor Bank control menu
S3 CAP BANK CONTRL
GENERAL CTRL SETUP
SEASON FUNCTION
TIME CTRL SCHEDLE
VAR CONTROL
VOLTAGE CONTROL
TEMPERATURE CNTRL
OVERRIDE CONTROL
NTRL OVERCURRENT
▼
SETPOINTS
S1 PRODUCT SETUP
S2 SYSTEM SETUP
S3 CAP BANK CONTRL
S4 CONTROLS
S5 INPUTS/OUTPUTS
▼
S3 GENERAL CTRL SETUP
3PH BANK SIZE
DELTA V AVERAGE
MIN DELTA VOLTS
MIN DELTA kVars
MINIMUM VOLTAGE
REVERSE POWER PKP
MAX CLOSE / DAY
MAX CLOSE TOTAL
MANUAL OP DELAY
BLOCK CLOSE BANK
REVERSE POWER DLY
CB SW FAIL BLOCK
▼
S3 SEASON FUNCTION
START DATE 1
END DATE 1
MAIN 1 CONTROL
REVERSE 1 POWER
START DATE 2
END DATE 2
MAIN 2 CONTROL
REVERSE 2 POWER
START DATE 3
END DATE 3
MAIN 3 CONTROL
REVERSE 3 POWER
START DATE 4
END DATE 4
MAIN 4 CONTROL
REVERSE 4 POWER
▼
891757.cdr
S3 TIME CTRL SCHEDLE
WEEK TIME CTRL
PERPETUAL CTRL
VACATION CTRL
TIME CTRL OVERRIDE
▼
S3 VAR CONTROL
3PH SWITCH IN
3PH SWITCH OUT
VAR TIME DELAY
OVERRIDE CONTROL
▼
S3 VOLTAGE CONTROL
HI VOLTAGE TRIP
LO VOLTAGE CLOSE
VOLTAGE TIME DLY
OVERRIDE CONTROL
▼
S3 TEMPERATURE CNTRL
HI TEMP BANK CLOSE
HI
TEMP TIME DLY
OVERRIDE CONTROL
TEMP BANK OPEN
LO TEMP BANK CLOSE
LO TEMP BANK OPEN
▼
S3 OVERRIDE CONTROL
LO OVERVOLT PKP
TEMP TIME DLY
HI OVERVOLT PKP
HI OVERVOLT DPO
LO OVERVOLT DPO
VOLT OVERTIME DLY
CLS OVERTEMP PKP
CLS OVERTEMP DPO
OPEN OVERTEMP PKP
OPEN OVERTEMP DPO
▼
S3 NTRL OVERCURRENT
NTRL IOC FUNCTION
NTRL IOC PKP
NTRL IOC DELAY
RECLOSE ACTION
NTRL IOC BLOCK
▼
A
B
C
A
B
C
S3 WEEK TIME CTRL
SUNDAY CLOSE
SUNDAY OPEN
...
SAT CLOSE
SAT OPEN
▼
S3 PERPETUAL CTRL
HOLIDAY 1 NAME
HOLIDAY 1 CTRL
...
HOLIDAY 20 NAME
HOLIDAY 1 DATE
HOLIDAY 20 CTRL
HOLIDAY 20 DATE
▼
S3 VACATION CTRL
VACATN DAY 1 NAME
1 CTRL
...
20 NAME
VACATN DAY
VACATN DAY 1 DATE
VACATN DAY
VACATN DAY 20 CTRL
VACATN DAY 20 DATE
▼
D S3 TIME CTRL
OVERRIDE CONTROL
CBANK DELAY
▼
D
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–23
General controlThe Switch Control feature has a programmable menu where the user can set the criteria for OPEN and CLOSE commands to the installed Capacitor Bank switch. The Multilin DGCC has one dedicated output relay for the OPEN command and another for the CLOSE command. Depending on ordered controller, the Multilin DGCC may have a number of other auxiliary output relays that can be programmed for close/open logic as well. The logic diagrams below show how the OPEN and CLOSE commands are individually generated.
MODES OF OPERATIONRemote/Local ModeThe REMOTE/LOCAL pushbutton toggles between REMOTE and LOCAL mode of operation. Each of the two modes is associated with a LED to show the selection. This selection has absolute priority and it can be made only by operating the REMOTE/LOCAL pushbutton.
Automatic, Manual, or OFF ModeThe AUTO/OFF/MANUAL pushbutton toggles between AUTO, OFF, or MANUAL modes of operation. The AUTO and MANUAL modes are associated with a corresponding LED, which turns on upon mode selection. When the OFF position is selected, both of these LEDs are off.The controller mode can be selected from the faceplate pushbuttons or from a remote location. The SCADA user has read-only access at all times, regardless of the mode selected. However, issuing commands and selecting AUTO/OFF/MANUAL modes via SCADA is restricted, depending on the selection as shown in the Controller Modes table below.
Table 3: Controller Modes
In Manual mode, the Multilin DGCC controls the switch by responding to manually performed commands from the faceplate OPEN and CLOSE pushbuttons. In Automatic mode, the decision to send a Switch Open or Close command will be made by the currently active control element.In both modes the Multilin DGCC controller sends either an Open or a Close command to the switch using two digital outputs: RLY 1 and RLY 2.In Remote mode, selected when in AUTO mode, the switch can be controlled by either the Open/ Close commands sent via communications, or by asserting inputs configured in the settings > S4 Controls > Remote Control menu: REMOTE OPEN and REMOTE CLOSE. Remote control overrides automatic control. After the remote operation is performed, the controller reverts back to automatic mode.
Pushbutton Auto Manual
Remote Control Enabled - Automatic Operation enabled- SCADA read only enabled- SCADA Remote Open/ Close control override enabled- Remote Inputs Open/Close switch control override enabled- Manual Open/Close switch control disabled
- Automatic Operation disabled - SCADA read only enabled- SCADA Remote Open/Close switch control disabled - Remote Inputs Open/Close switch control disabled- Manual Open/Close switch control enabled
Local Control Enabled - Automatic Operation enabled- SCADA read only enabled- SCADA Remote Open/ Close switch control disabled- Remote Inputs Open/Close switch control disabled- Manual Open/Close switch control disabled
- Automatic Operation disabled- SCADA read only enabled- SCADA Remote Open/Close switch control disabled- Remote Inputs Open/Close switch control disabled- Manual Open/Close switch control enabled
5–24 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
Block Auto mode from Communications (COMM BLOCK AUTO)Auto mode can be blocked remotely by asserting the command COMM BLOCK AUTO via communications. This can only be done using the EnerVista DGCC Setup program while in Remote control. In this case the switch can be controlled only remotely. This command is not visible on the HMI.
Save Block Auto from Communications (SAVE COMM BLK AUTO)While in Remote mode, the user can decide to keep the Auto mode blocked during a loss of communication or loss of power to the Multilin DGCC , by setting the command SAVE COMM BLK AUTO to “Enabled”. This will keep the Auto mode blocked after communication or power to the Multilin DGCC has been restored.
Unblock Auto mode from Communications (COMM UNBLOCK AUTO)Both the COMM BLOCK AUTO and the SAVE COMM BLK AUTO selections will reset upon issuing a COMM UNBLOCK AUTO command. This command is not visible on the HMI.
NOTE
NOTE: The DGC controller applies a 5-minute reclose blocking time after the Capacitor Bank is detected open. Closing of the Capacitor Bank is blocked during that time.
NOTE
NOTE: The DGC controller applies a 60-second time delay when switching from MANUAL to AUTO/REMOTE mode, to allow the operator to step away from the Capacitor Bank.
PATH: SETTINGS > CAP BANK CONTROL > GENERAL CTRL SETUP
3PH BANK SIZE
Range: 1 to 5000 Kvar in steps of 1 KvarDefault: 500 Kvar
This setting specifies the Capacitor Bank size in Kvars. This parameter has to match the information shown on the Capacitor Bank nameplate. All the other reactive power variables are calculated as a percentage of this value.
DELTA V AVERAGE
Range: 0.1 to 20.0 V in steps of 0.1 VDefault: 3.0 V
The Delta Voltage Average is set to the change in voltage expected after the insertion of the Capacitor Bank into the system. The controller multiplies this value with the value of the MIN DELTA VOLTS (see below).
MIN DELTA VOLTS
Range: 20 to 80% in steps of 1%Default: 20%
This setting specifies the minimum variation of voltage expected after the Capacitor Bank is switched into the system. The minimum voltage is entered as a percentage of the DELTA V AVERAGE setting.
If, after the insertion of the Capacitor Bank, the measured Delta Voltage is below the percentage of the delta average level setting, a bank switch trouble alarm may be triggered.
MIN DELTA KVARs
Range: 20 to 80% in steps of 1%Default: 60%
This setting specifies the minimum variation of Kvar expected when the Capacitor Bank is switched into the system. The Minimum Delta Kvars should be entered as a percentage of the 3PH BANK SIZE setting.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–25
When the Capacitor Bank is inserted into the system, a decrement of reactive power is expected. If after the insertion of the Capacitor Bank, the measured Delta Kvars is below the selected percentage of the 3PH BANK SIZE setting, or on the other hand, an increment is produced, the SWITCHING TROUBLE alarm will be triggered. However, if a negative power flow condition has been detected, the setting of this alarm will be blocked.
MINIMUM VOLTAGE
Range: 30 to 200 V in steps of 1 VDefault: 100 V
This is the voltage below which automatic control will not operate the Capacitor Bank switch. This function is used to prevent damage to the switch during brownout conditions.
REVERSE POWER PKP
Range: 1 to 1000 KW in steps of 1 KWDefault: 20 KW
If the Multilin DGCC is properly connected, the current transformer is located on the source side. Since the energy is flowing from the source side to the load side, the measured active power is positive.
If there is an alternative power source connected to the grid on the load side, the overall energy flow may reverse its direction. The Multilin DGCC will then measure negative active power. Under this condition, the Kvar measurement is not reliable.
This setting defines the pickup level for detecting a reverse power condition. If the absolute value of the negative active power measured by the Multilin DGCC is maintained higher than this value for a period of time programmed in the ‘Reverse Power Delay’ setting, a “Reverse Power Flow” flag will be set.
The operator can decide to block the operations of the Capacitor Bank switch if reverse power has been detected. (See Season Control setup.)
REVERSE POWER DLY
Range: 0 to 3600 s in steps of 1 sDefault: 10 s
This setting specifies the time during which the absolute value of the reverse power must be higher than the REVERSE POWER PKP level, in order to generate a reverse power condition.
MAX CLOSE/DAY
Range: 1 to 20 in steps of 1Default: 5
This setting is programmed with the maximum number of closing operations allowed during 1 day. If this number is reached, the automatic close commands are inhibited until the next calendar day, and an alarm is generated. The manual close operation is not blocked.
Although the alarm has been active, the automatic controls will continue to work and generate their own events.
MAX TOTAL
Range: Off, 1 to 10000 in steps of 1Default: 10000
This setting is programmed with the total of the maximum number of closing operations. If this number is reached, the automatic close commands are inhibited until the counters are cleared, and an alarm is generated. The manual close operation is not blocked.
5–26 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
Although the alarm has been active, the automatic controls will continue to work and generate their own events.
MANUAL OP DELAY
Range: 0 to 3600 s in steps of 1 sDefault: 30 s
This is the amount of time that has to expire before executing a CLOSE command in manual mode. This setting prevents the operator from closing the Capacitor Bank instantly, and allows him to move away from the Capacitor Bank before the command is executed.
The internal variable TimeToOperate contains the time remaining before the Capacitor Bank is switched on to, or off from, the power system. This time is visible to the operator on the front face display.
When the operation is finished, a self-reset target message and event is displayed, along with the new CB state (OPEN or CLOSED).
BLOCK CLOSE C.BANK
Range: Disabled, Contact, Virtual input, Virtual OutputDefault: Disabled
This setting can be used for blocking the Capacitor Bank CLOSE command, when the selected input is activated.
CB SW FAIL BLOCK
Range: Disabled, EnabledDefault: Disabled
When this variable is set to “Disabled,” OPEN and CLOSE Capacitor Bank commands will not be affected by the status of the Capacitor Bank switch FAIL flag. When this variable is set to “Enabled,” and the Capacitor Bank switch FAIL flag is asserted, both OPEN and CLOSE Capacitor Bank commands will be blocked. The Capacitor Bank switch FAIL flag turns ON when the status of the Capacitor Bank switch is neither OPEN nor CLOSED.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–27
Figure 11: Open/Close Capacitor Bank control logic (Sheet 1 of 3)
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5–28 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
Figure 12: Open/Close Capacitor Bank control logic (Sheet 2 of 3)
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CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–29
Figure 13: Open/Close Capacitor Bank control logic (Sheet 3 of 3)
Switching trouble As the connection of the DGC should be made according to the source side rule, when the Capacitor Bank is inserted into the line, changes in the line voltage and reactive power are expected.
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5–30 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
This assumption is true when the current is flowing for the main source side of the system to the load side. On the other hand, if the power is flowing in the reverse direction, the change in the reactive power after the Capacitor Bank is inserted into the system, cannot be measured directly by the DGC relay. So in this situation the expected change in reactive power cannot be used to detect a CB switching problem.
Delta voltage & Delta reactive power calculation:The Delta voltage and Delta reactive power are calculated when there is a difference in voltage and/or reactive power, when the Capacitor Bank is passed from the OPEN to the CLOSE state. When the Capacitor Bank is opened, the DGC relay takes a line voltage and reactive power measurement during each power system cycle. The last 10 measurements are stored in an internal buffer.Once a Capacitor Bank CLOSE condition is detected, the DGC waits 1 second to leave time for the measurement to be stabilised, after which 10 new voltage and reactive power measurements are taken. Then the delta voltage and reactive power are calculated based on the difference between the two integrated values. As Delta voltage is based on the secondary line voltage measurement, the Delta Voltage average setpoint has to be programmed using the Delta Voltage average expected at the insertion of the Capacitor Bank, as measured at the VT secondary port.On the other hand, because the size of the Capacitor Bank has to be set in KVArs, the Delta reactive power is calculated using primary values.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–31
Figure 14: Capacitor Bank switching trouble logic diagram
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5–32 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
Season controlThe DGC can be programmed to operate in up to four different season, with each season having its own control mode. A season is defined as a block of time with a start date and an end date specified by month and day. This capability provides to the user to select different control modes depending on time of year. This is useful when there are different changes in feeder conditions throughout the year.When an override control operation is selected, the main control mode is supervised by the second control selected.The override control can be:
• Voltage Override
• Temperature Override.
Thus, the DGC will operate the cap Bank based on the override control parameter whenever the pickup overrides limits have been exceeded. When the override measurement value drops lower than the dropout overrides limits, the main control takes the control of the bank switch it on or off based on the main control parameters.PATH: S4 CONTROLS > SEASON
START DATE #END DATE #
Range: Off, Jan 01 to Dec 31 in steps of 1dayDefault: Off
The Start and End dates of the season are programmed in these registers. The season must be programmed in chronological order and there are not allowed overlaps segments.
The DGC does not prevent poor parameter configuration. If a discrepancy is present in a setting, the DGC will avoid using such a setting.
The end of the previous season programmed always has to be higher than the start of the predecessor season.
In case of configuration error, an alarm will be provided.
MAIN # CONTROL
Range: Voltage Ctrl, KVAr Ctrl, Temp Ctrl, Time Ctrl, No-OPDefault: No-OP
The main automatic mode control is programmed in this register. There is up to five control modes:
Voltage Ctrl – The main control of the capacitor bank is made by the voltage measured at the line. The main voltage ctrl could be override by the temperature control as is explained in the Voltage control Mode specification.
KVAr Ctrl – The main control of the capacitor bank is made by the Reactive power measured at the line. This control could be override by the temperature and the voltage control as is explained in the KVAr control Mode specification.
Temp Ctrl – The main control of the capacitor bank is based on the ambient temperature measured by a temp sensor. This control could be override by the Voltage control as is explained in the Temperature control Mode specification.
Time Ctrl - The capacitor bank is automatically controlled by a timetable based on the day of the week. The cap bank is switched on and off based on a time schedule programmed by customer. This control can be supervised by voltage and temperature override control.
No-OP - The capacitor bank is always switched off when the control is in automatic mode.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–33
REVERSE # POWER
Range: Ignore, Inhibit, TripDefault: Ignore
Sometimes when a reverse condition is detected, the capacitor bank should be switched off from the system because the conditions have been changed.
This setpoint warns of this issue and generates a sudden trip of the cap bank, in such a situation, if ‘Trip’ is programmed.
When the Inhibit option is selected, the automatic control is blocked during the time during which the reverse power condition is maintained.
Time control scheduleThe DGC controller switches the Capacitor Bank according to a calendar/timetable schedule programmed by the user. Each day of the week can be programmed with one closing time (when the Capacitor Bank is switched on) and one opening time. It is not possible to select a different timetable for each week. WEEKLY CALENDARWeek Calendar Schedule:
PATH: SETPOINTS > S3 TIME CTRL SCHEDLE > WEEK TIME CTRL
DAY CLOSE
Range: 00:00 to 23:59 Default: Off
This setting defines at what time the Capacitor Bank will be switched on (connected to the power distribution system). The Capacitor Bank will stay connected to the power system until the Bank open time is reached.
DAY OPEN
Range: 00:00 to 23:59Default: Off
This setting defines at what time the Capacitor Bank will be switched off (disconnected from the distribution power system).
NOTE
NOTE: If the Open Time is set to an earlier setpoint than the Close Time, the Bank will close at the Bank close time programmed, and stay closed until the next Open Time - programmed for the next day.
In addition to the above, the DGC stores a full-year calendar with holidays or special days when the Capacitor Bank has to be switch off. The holidays can be split in two groups:
• Perpetual Calendar
• Vacation Calendar
These are as follows:
Day Bank Closing Time Bank Opening Time
Sunday 10:00 17:00
Monday 08:00 18:00
Tuesday 08:00 18:00
Wednesday 08:00 18:00
Thursday 08:00 18:00
Friday 08:00 18:00
Saturday 08:00 14:00
5–34 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
PERPETUAL CALENDARThe cap bank will be switched off on the days specified here. Up to 20 holidays can be programmed. These are holidays maintained on the same date every year. For instance: Presidents’ Day, Memorial day, Thanksgiving Day, etc.The Date is inserted by (Month Day). Reference to the year is not required.Perpetual Calendar Schedule:PATH: SETPOINTS > S3 TIME CTRL SCHEDLE > PERPETUAL CTRL
HOLIDAY # NAME
Range: Maximum 18 charactersDefault: Holiday # Name
The reference to the holiday name can be stored in this register with a maximum of 18 characters.
HOLIDAY # DAY
Range: Yes, NoDefault: No
If “No” is selected, this holiday will not be taken into account, and the relay controls will operate as on any usual day.
HOLIDAY # DATE
Range - Month: Jan, Feb, Mar, Apr, May, Jun, Jul, Aug, Sep, Oct, Nov, DecRange - Day: 1 to 31Default: Off
Example holiday list:
VACATION CALENDARThe Capacitor Bank will be switched off on the days specified here. Up to 20 vacation days can be programmed. These days are not the same every year. The format is: month, day and year.PATH: SETPOINTS > S3 TIME CTRL SCHEDULE > VACATION CTRL
VACATN DAY # NAME
Range: Maximum 18 charactersDefault: Vacation #
The name of the vacation day can be stored in this register with a maximum of 18 characters.
Day Name Holiday Date1
New Year’s Day Yes 01/01/2010
M.L. King Day Yes 01/19/2010
President’s Day Yes 02/16/2010
Memorial Day Yes 05/25/2010
Independence Day No 07/03/2010
Labor Day Yes 09/07/2010
Columbus Day Yes 10/12/2010
Veterans’ Day Yes 11/11/2010
Thanksgiving Day Yes 11/26/2010
Christmas Day No 12/25/2010
Default Day 11
Default Day 12
...........................
Default Day 20
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–35
VACATN DAY # CTRL
Range: Yes, NoDefault: Yes
If “No” is selected the relay controls will operate as for a usual day.
VACATN DAY # DATE
Range - Month: Jan, Feb, Mar, Apr, May, Jun, Jul, Aug, Sep, Oct, Nov, DecRange - Day: 1 to 31 [Year: 2008 to 2099]Default: Jan 1 2008
VAR controlThe DGC controls the Capacitor Bank based on the measurement of the reactive power of the power system. This function uses the reactive power calculated over the three phases. The General Settings documentation offers the ways to calculate the reactive power based on different types of connection.As the reactive power characteristic of the Capacitor Banks are given relative to the fundamental frequency of the system, the reactive power of the system should be calculated at the fundamental frequency. To select the Capacitor Bank switch in and switch out parameters, a rule-of-thumb that can be applied in most situations is to use a bank size that is two-thirds of the value needed to reduce the peak load VAr’s to zero.The setpoints associated with this characteristic are:PATH: SETPOINTS > S3 CAPACITOR BANK CONTROL > VAR CONTROL
3PH SWITCH-IN
Range: -10000 to +10000 KVAr in steps of 1 KVArDefault: 500 KVAr
This setting specifies the VAR level at which the Capacitor Bank switches in. The reactive power has to be above this value for the period of time programmed in the ‘VAR Time Delay’ setpoint before the bank will switch in.
3PH SWITCH-OUT
Range: -10000 to +10000 KVAr in steps of 1 KVArDefault: -500 KVAr
This setting specifies the VAR level at which the Capacitor Bank switches out. The reactive power of the line has to be below this value for the period of time programmed in the ‘VAR Time Delay’ setpoint before the bank will switch out.
VAR TIME DELAY
Range: 0 to 3600 s in steps of 1 sDefault: 30 s
This setting specifies the time the VAR measurement has to be maintained above/below the Phase KVAR Switch In/Switch Out level before switching the Capacitor Bank.
OVERRIDE CONTROL
Range: Disabled, Voltage, TemperatureDefault: Disabled
If Override Control is selected, the KVAr control (main control) will be supervised by this element.
When voltage override is programmed, the activation or deactivation of the Capacitor Bank is controlled by voltage measurement. If the voltage is higher/lower than the pickup override limits, the Capacitor Bank is automatically switched out of the power distribution network.
5–36 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
With the temperature override programmed, the activation or deactivation of the Capacitor Bank is controlled by the ambient temperature measurement. If the ambient temperature is higher/lower than the pickup override limits the Capacitor Bank is automatically switched into the power distribution network.
Once the dropout limits are reached, the override control releases control to the main mode control.
See Override function for more details.
Voltage controlIf, in automatic mode, the voltage control mode is programmed in the actual season, the DGC will control the Capacitor Bank based on measurement of the DFT line voltage of the power system. If several line voltages are available, the line voltage reference will be programmed in the General settings.The setpoints associated with this characteristic are:PATH: SETPOINTS > S3 CAPACITOR BANK CONTROL > VOLTAGE CONTROL
HI VOLTAGE TRIP
Range: 60 to 250 V in steps of 1 VDefault: 120 V
This setting specifies the voltage high limit at which the Capacitor Bank will be switched out. The voltage level must be maintained higher than than this setpoint for a period of time - “Voltage Time Delay” - before the Bank will switch out.
LO VOLTAGE CLOSE
Range: 60 to 250 V in steps of 1 VDefault: 80 V
This setting specifies the voltage low limit at which the Capacitor Bank will be switched in. The voltage level must be maintained lower than this setpoint for a period of time - “Voltage Time Delay” - before the bank will switch into the power system.
VOLTAGE TIME DLY
Range: 0 to 3600 s in steps of 1 sDefault: 30 s
This setting specifies the time the VAR measurement has to be maintained above/below the high/low voltage level before switching the Capacitor Bank.
OVERRIDE CONTROL
Range: Disabled, TemperatureDefault: Disabled
If Override Control is selected, the main control (voltage control) will be supervised by this element.
With the Temperature Override programmed, the activation or deactivation of the Capacitor Bank is controlled by the Ambient Temperature measurement. If the ambient temperature is higher or lower than the pickup override limits, the Capacitor Bank will automatically switch into the power distribution system.
Once the temperature dropout limits are reached, the voltage control will take over again.
See Override function for more details about this functionality.
NOTE
NOTE: The VOLTAGE TIME DLY will not work properly if set to a time shorter than 10 seconds.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–37
NOTE
NOTE: If the difference between HI and LO voltage programmed is less than the DELTA V AVERAGE from the General settings, the ALARM “Wrong voltage levels programmed” will be generated.
Temperature controlIf in Automatic mode the Temperature Control mode is programmed in the actual season, the DGC will control the Capacitor Bank based on the ambient temperature as measured by a temperature sensor. Control can be programmed to operate the Capacitor Bank in both directions.The settings associated with this are as follows:PATH: SETPOINTS > S3 CAPACITOR BANK CONTROL > TEMPERATURE CONTROL
HI TEMP BANK CLOSE
Range: -20° to 60°C in steps of 1°CDefault: 30°C
This setting specifies the temperature level in degrees Celsius, at which the capacitor bank will be closed. The actual temperature must be maintained higher than this value for a period of time longer than the “Temperature Time Delay” before the bank will be closed.
HI TEMP BANK OPEN
Range: -20° to 60°C in steps of 1°CDefault: 20°C
This setting specifies the temperature level in degrees Celsius, at which the Capacitor Bank will be opened. The actual temperature must be maintained lower than this value for a period of time longer than the “Temperature Time Delay” before the bank will be opened.
LO TEMP BANK CLOSE
Range: -20° to 60°C in steps of 1°CDefault: -1°C
This setting specifies the temperature level in degrees Celsius, at which the Capacitor Bank will be closed. The actual temperature must be maintained lower than this value for a period of time longer than the “Temperature Time Delay” before the bank will be closed.
LO TEMP BANK OPEN
Range: -20° to 60°C in steps of 1°CDefault: 5°C
This setting specifies the temperature level in degrees Celsius, at which the Capacitor Bank will be opened. The actual temperature must be maintained higher than this value for a period of time longer than the “Temperature Time Delay” before the bank will be opened.
TEMP TIME DLY
Range: 0 to 3600 s in steps of 1 sDefault: 30 s
This setting specifies the time for which the Temperature measurement has to be maintained above/below the HI/LO Temp level before the Capacitor Bank switch will operate.
5–38 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
OVERRIDE CONTROL
Range: Disabled, VoltageDefault: Disabled
If Override Control is selected, the main control (Temperature control) will be supervised by this element.
NOTE
NOTE: If HI TEMP BANK OPEN is set lower than LO TEMP BANK OPEN the "Unit Config Error" Temp Ctrl Alarm will be generated.
With the Voltage Override programmed, the activation or deactivation of the Capacitor Bank is controlled by voltage measurement. If the voltage is lower than the pickup override limit the Capacitor Bank is automatically switched OFF from the power distribution network.Once the voltage dropout limit is reached, the temperature control will take over again.See Override function for more details about this functionality.
Override controlThe Override control mode provides a way to supervise the automatic main control mode programmed in the actual season. The season setting determines which is the main control mode governing the Capacitor Bank. When an Override control is allowed , the DGC operates the Capacitor Bank based on the Override control parameter whenever the pickup override limits have been exceeded. When the Override measurement value falls below the dropout override limits, the Override control releases control to the main control mode. The Override control can be:
• Voltage Override
• Temperature Override
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–39
Figure 15: Voltage Override control
PATH: SETPOINTS > S3 CAPACITOR BANK CONTROL > OVERRIDE CONTROL
HI OVERVOLT PKP
Range: Off, 60 to 250 V in steps of 1 VDefault: 120 V
This setting specifies the HI Voltage override level at which the Capacitor Bank will be disconnected from the system. The HI Voltage magnitude must be maintained for a period of time higher than the “Volt Overtime Dly” before the Bank is opened.
If OFF has been programmed, the HI voltage override control is disabled. Once the Override Voltage takes the control of the Bank it doesn’t release it until the voltage falls below the dropout value.
HI OVERVOLT DROPOUT
Range: 60 to 250 V in steps of 1 VDefault: 115 V
This setting specifies the release level of the HI voltage Override control. Once the magnitude of the voltage falls below this level during the “Volt Overtime Dly”, the Override element releases control of the bank and control is passed to the main control programmed in the actual season.
For example, supposing:
HI OVERVOLT PKP = 125 V; HI OVERVOLT DPO = 120 V
The Capacitor Bank will be tripped when the line voltage magnitude reaches 125 V. Thus, the Override control doesn’t release the Bank to the main control until the voltage falls below 120 V.
5–40 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
LO OVERVOLT PKP
Range: Off, 60 to 250 V in steps of 1 VDefault: 105 V
This setting specifies the LO Voltage override level at which the Capacitor Bank will be connected to the system. The LO Voltage magnitude must be maintained for a period of time higher than the “Volt OV Time Delay” before the Bank is closed.
If OFF has been programmed, the LO voltage override control is disabled. Once the Override Voltage takes the control of the Bank it doesn’t release it until the voltage rises above the dropout value.
LO OVERVOLT DPO
Range: 60 to 250 V in steps of 1 VDefault: 110 V
This setting specifies the release level of the LO voltage Override control. Once the magnitude of the voltage rises above this level during the “Volt Overtime Dly”, the Override element releases control of the bank and control is passed to the main control programmed in the actual season.
The setting specifies the LO OV Volt Dropout Level as a percentage of the previous setting programmed.
For example, supposing:
LO OVERVOLT PKP = 105 V; LO OV VOLT DPO = 110 V
The Capacitor Bank will be closed when the line voltage magnitude falls below 105 V. Thus, the Override control doesn’t release the Bank to the main control until the voltage increases to above 110 V.
VOLT OVERTIME DLY
Range: 0 to 3600 s in steps of 1 sDefault: 30 s
Temperature Override ControlTemperature override control can be based on two different criteria.
1. Hi temperature override control
2. Lo temperature override controlThe DGC–CB controller checks that "close temp override" is always higher than "Trip temp override". See the document Capacitor Bank Configuration Errors for more information. Hi Temperature Override ControlIf the ambient temperature is higher than the "Cls Overtemp Pkp" setting during the elapsed time programmed in the "Temp Time Dly," the main control is blocked and a Capacitor Bank CLOSE command is issued to switch the Capacitor Bank into the system. The main control will be blocked until the ambient temperature again goes below the HI temperature dropout.Moreover, If the ambient temperature decreases and is lower than the "Open Overtemp Pkp" setting by the elapsed time programmed in the "Temp Time Dly," the main control is blocked and a Capacitor Bank TRIP command is issued by the override control to switch the Capacitor Bank OFF. The main control will be blocked until the increased ambient temperature reaches the LO temperature dropout level.
NOTE
NOTE: The ambient temperature is measured by a PT100 sensor located outside the cabinet and connected to the first RTD input in card IO_G.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–41
Figure 16: Hi Temperature Override control
CLS OVERTEMP PKP
Range: Off, -20° to 60°C in steps of 1°CDefault: 30°C
This setting specifies the Close Temperature Override level in degrees Celsius, at which the Capacitor Bank will be connected to the system. The Close Temperature magnitude must be maintained for a period of time higher than the “Temp Time Dly” before the Bank is closed.
Once the Override temperature takes control of the Bank it does not release it until the ambient temperature falls below the dropout value.
If OFF has been programmed, the Close Temperature Override Control is disabled.
CLS OVERTEMP DPO
Range: -20° to 60°C in steps of 1°CDefault: 20°C
This setting specifies the release level of the HI temperature control. Once the ambient temperature falls below this level during the “Temp Time Dly”, the Override element releases control of the bank and control is passed to the main control programmed in the actual season.
OPEN OVERTEMP PKP
Range: Off, -20° to 60°C in steps of 1°CDefault: -1°C
This setting specifies the Tripping Temperature Override level in degrees Celsius, at which the Capacitor Bank will be disconnected from the system. The Trip Temperature magnitude must be maintained for a period of time higher than the “Volt Overtime Dly” before the Bank is opened.
Once the Override temperature takes control of the Bank it doesn’t release it until the ambient temperature falls below the dropout value.
5–42 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
If OFF has been programmed, the Open Temperature Override Control is disabled.
OPEN OVERTEMP DPO
Range: -20° to 60°C in steps of 1°CDefault: 5°C
This setting specifies the release level of the LO temperature control. Once the ambient temperature rises above this level during the “Volt Overtime Dly”, the Override element releases control of the bank and control is passed to the main control programmed in the actual season.
TEMP TIME DLY
Range: 0 to 3600 s in steps of 1 sDefault: 30 s
Neutral overcurrent protectionThis function is applied to protect the capacitor bank from the phase current unbalance situations. If a capacitor bank blown fuse or a defective circuitbreaker contact disconnects one or two phases, a neutral current will flow through the wye neutral connection of the capacitor bank. In case of grounded wye connected banks, this neutral current can be sensed by a dedicated CT connected between the neutral point and ground. The Multilin DGCC uses the ground CT input to sense this current. The settings associated with Star Neutral IOC element are: PATH: SETPOINTS > S3 CAPACITOR BANK CONTROL > NTRL OVERCURRENT
NTRL IOC FUNCTION
Range: Enabled, DisabledDefault: Disabled
This setpoint enables the Neutral IOC function.
NTRL IOC PKP
Range: 0.05 to 2.50 x CTg in steps of 0.01 x CTgDefault: 1.00 x CTg
This setting sets the neutral instantaneous overcurrent pickup level specified per times CT.
NTRL IOC DELAY
Range: 0.00 to 600.00 s in steps of 0.01 sDefault: 10.00 s
This setting provides selection of the pickup time delay used to delay the operation of the protection.
RECLOSE ACTION
Range: Off, 5 to 6000 min in steps of 1 minDefault: Off
When this setpoint is enabled, a reclosing timer is activated if the Capacitor Bank has been tripped by means of the Neutral Current Unbalance element. When the reclosing time is up, a RECLOSE command is issued.
If the neutral fault persists, a neutral lockout trip is activated. The Neutral Lockout Trip signal can only be removed by a RESET command.
CHAPTER 5: SETPOINTS S3 CAPACITOR BANK CONTROL
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–43
NTRL IOC BLOCK
Range: Off, Contact Input 1 to 8, Virtual Input 1 to 32, Virtual Output 1 to 32Default: Off
The input selected here is assigned to control the block function. The selection for the block could be a Contact input, Virtual Input or any of the virtual outputs assigned by flexelements.
5–44 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S3 CAPACITOR BANK CONTROL CHAPTER 5: SETPOINTS
Figure 17: Star Neutral Overcurrent Protection - logic diagram
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CHAPTER 5: SETPOINTS S4 CONTROLS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–45
S4 Controls
Figure 18: Controls menu
Remote controlOPEN and CLOSE commands from the DGC faceplate pushbuttons or the DGC-C menu.PATH: MAIN MENU > COMMANDS
OPEN
Range: No, YesDefault: No
This setting is used to open the switch from the DGC menu. Selecting “Yes” and pressing the ENTER pushbutton on the keypad, will initiate an OPEN pulse command. The “Yes” command pulse is set to 50ms.
CLOSE
Range: No, YesDefault: No
This setting is used to close the switch from the DGC menu. Selecting “Yes” and pressing the ENTER pushbutton on the keypad, will initiate a CLOSE pulse command. The “Yes” command pulse is set to 50ms.
RESET
Range: No, YesDefault: Disabled
This setting is used to reset activated LEDs, and any alarms or target messages. Selecting “Yes” and pressing the ENTER pushbutton on the keypad, will initiate a RESET command. The “Yes” command pulse is set to 50ms.
SETPOINTS
S1 PRODUCT SETUP
S2 SYSTEM SETUP
S3 CAP BANK CONTRL
S4 CONTROLS
S5 INPUTS/OUTPUTS
▼
891758.cdr
S4 CONTROLS
REMOTE CONTROL
VIRTUAL INPUTS
REMOTE RESET
▼
S4 REMOTE CONTROL
REMOTE OPEN
REMOTE CLOSE
▼
S4 VIRTUAL INPUTS
VIRTUAL INPUT 1
VIRTUAL INPUT 2
...
VIRTUAL INPUT 32
▼
S4 REMOTE RESET
RESET
5–46 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S4 CONTROLS CHAPTER 5: SETPOINTS
Remote OPEN and CLOSE control upon energization of assigned inputs under SETPOINTS > CONTROLS > REMOTE CONTROLThe switch OPEN and CLOSE commands received via the selected inputs, will be executed if the Multilin DGCC control is enabled and the selected control mode is Remote (the “Remote” LED is lit). The remote OPEN and CLOSE commands are blocked if “Manual” control mode is selected (the “Manual” LED is lit) or the corresponding block command is active.Remote Reset command can be executed by asserting the selected input when the controller is in Remote mode.PATH: S4 SETPOINTS > CONTROLS > REMOTE CONTROL
REMOTE OPEN
Range: Off, Contact Input, Virtual Input, Virtual OutputDefault: Off
This setting defines the input to trigger the OPEN command to the switch. This input can be selected from a list of inputs including contact inputs, virtual inputs, protection or control operands, as well as input flags received from SCADA, or IEDs.
REMOTE CLOSE
Range: Off, Contact Input, Virtual Input, Virtual OutputDefault: Disabled
This setting defines the input to trigger the CLOSE command to the switch. This input can be selected from a list of inputs including contact inputs, virtual inputs, protection or control operands, as well as input flags received from SCADA, or IEDs.
REMOTE RESET
Range: Off, Contact Input, Virtual Input, Virtual OutputDefault: Off
This setting is used to reset the LEDs, alarms and target messages generated during some abnormal condition of the switch. The setting provides for the selection of an input from a list of inputs. This input performs a reset action upon activation.
OPEN and CLOSE commands over serial DNPThe OPEN or CLOSE command can be initiated from a SCADA or IED using radio communication. The controlling device maps an OPEN or a CLOSE command to its binary outputs and transmits them via radio communication to the controller. Upon reception, the Multilin DGCC controller executes the appropriate action. The Multilin DGCC controller executes the received commands if the controller is not in OFF mode and the selected control mode is set to Auto/Remote (the “Auto” and “Remote” LEDs are lit). The remote OPEN and CLOSE commands over radio are blocked if “Manual” control mode is selected (the “Manual” LED is lit).
Virtual inputsThere are 32 Virtual Inputs that can be individually programmed to respond to Input commands entered via the relay keypad, or by using communication protocols. PATH: SETPOINTS > S4 CONTROLS > VIRTUAL INPUTS
VIRTUAL INPUT 1
Range: Off, OnDefault: Off
The state of each virtual input can be controlled under SETPOINTS > S4 CONTROL > VIRTUAL INPUTS menu. For this purpose, each of the virtual inputs selected for control need be “Enabled” under SETPOINTS > S5 INPUTS/OUTPUTS > VIRTUAL INPUTS, and its type “Self-Reset” or “Latched” specified.
CHAPTER 5: SETPOINTS S4 CONTROLS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–47
If Self-Reset type was selected, entering “On” command will lead to a pulse of one protection pass. To prolong the time of the virtual input pulse, one can assign it as a trigger source to an element with a dropout timer set to the desired pulse time. If “Latched” type is selected, the state of the virtual input will be latched, upon entering “On” command.Refer to the logic diagram below for more details.
Figure 19: Virtual Inputs Scheme - logic diagram
FlexLogic™The Multilin DGCC FlexLogic™ system, defines operators, and lists of operands. In essence, all the necessary information for custom built logic. The FlexLogic tool is accessible from Multilin DGCC EnerVista program under SETPOINTS/ FLEXLOGIC menuAll Multilin DGCC digital signal states are represented by FlexLogic™ operands. Each operand is in one of two states: on (asserted, logic 1, or set), or off (de-asserted, logic 0, or reset). There is a FlexLogic™ operand for each contact input, contact output, communications command, control panel command, element trip, and element alarm, as well as many others.A list of FlexLogic™ operands and operators are sequentially processed once every 4.17 ms or 5 ms, depending on the power system frequency (60 Hz or 50 Hz) (TBC). When list processing encounters an operand, the value of that operand is placed in a first in - first out stack. When list processing encounters a calculation operator, the number of values required for the calculation are removed from the stack, and the result of the operation is placed back on the stack. The operators are logic gates (for example, AND, OR, NOT), timers, latches, one-shots, and assignments. Assignment operators assign the value calculated by the preceding operators to a special class of operands called virtual outputs. Like any other operand, a virtual output can be used as an input to any operator –feedback to achieve seal-in is allowed. When list processing encounters an end operator, processing is stopped until the next processing cycle, at which time it restarts at the top of the list.Each contact output has a setpoint to specify the operand that drives the output. Any operand may be selected – selection of a virtual output is the means by which FlexLogic™ directly controls external equipment such as the motor contactors.The operators used in FlexLogic™ conform to the following rules:
• 512 lines for bulding logic are available in the FlexLogic tool. All lines are executed every 1 / 4 power system cycle (4.17 ms. or 5 ms) (TBC).
• A virtual output may only be assigned once within the FlexLogic environment. An unassigned virtual output will have a value of off.
• A maximum of thirty (32) general purpose timers (timers 1 through 32) are available for configuration. Each timer may only be used once within the FlexLogic environment.
• A maximum of thirty (30) one-shots are allowed.
SETTING
V INPUT FUNCTION
Enabled = 1
Disabled = 0
AND
“Virtual Input 1 to ON = 1”
“Virtual Input 1 to OFF = 1” AND
SETTING
V INPUT1 TYPE
Self-Reset
LatchedAND
LATCH
S
R
>
OR
SETTING
V INPUT1 NAME:
(Operand)
V Input1 Status
891924.cdr
5–48 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S4 CONTROLS CHAPTER 5: SETPOINTS
• A maximum of 16 latches are supported.
• The operators available in FlexLogic™ are shown below:
FlexLogic™ operands The FlexLogic™ operands available in the Multilin DGCC are listed below.
Control operands: Any Inhibit OP ..............................................Activates when any of the blocks (inhibits) operates.Auto/Remote Close...................................Activates when an Auto Close command is sent.Manual Close ...............................................Activates when a Manual Close command is sent.Auto/Remote Open...................................Activates when an Auto Open command is sent.Manual Open ...............................................Activates when a Manual Open command is sent.Trip Reset OK OP ........................................Activates when a Trip Reset command is executed.Cap Bank Open...........................................Activates when the Cap Bank is in Open state.Cap Bank Close...........................................Activates when the Cap Bank is in Close state.Auto/Remote ...............................................Activates when the DGC-CB is switched to Auto/Remote mode.Manual............................................................Activates when the DGC-CB is switched to Manual mode.Phase UV PKP ..............................................Activates when Phase Undervoltage picks up.Phase UV OP ................................................Activates when Phase Undervoltage operates.Phase UV DPO.............................................Activates when Phase Undervoltage drops out.Reverse Power PKP...................................Activates when the DGC-CB detects reverse power above the
reverse power thresholdReverse Power OP .....................................Activates when the Reverse Power element operates.Reverse Power DPO..................................Activates when the Reverse Power level drops below the pickup
level.CB. Cls-HiTemp Ctr ....................................Activates when the main control is ’Temp Cntrl’ and the
ambient temperature is higher than the Hi temp bank close programmed.
Operator Inputs Description
<operand> none The output value is the value of the named <operand>.
NOT 1 The output value is “on” if and only if any of the input values are “off”.
OR 2 to 16 The output value is “on” if and only if any of the input values are “on”.
AND 2 to 16 The output value is “on” if and only if all of the input values are “on”.
NOR 2 to 16 The output value is “on” if and only if all of the input values are “off”.
NAND 2 to 16 The output value is “on” if and only if any of the input values are “off”.
XOR 2 The output value is “on” if and only if one input value is “on” and the other input value is “off”.
TIMER 1 The output value is “on” if the input value has been “on” for the set pickup time. Once the output value is “on”, it remains “on” until the input value has been “off” for the set dropout time.
LATCH 2 The output value is the state of a reset-dominant volatile bi-stable latch, where the first input value is the set input , and the second input value is the reset input.
Positive-one-shot 1 The output value is “on” for one processing cycle following an off-to-on transition of the input value.
Negative-one-shot 1 The output value is “on” for one processing cycle following an on-to-off transition of the input value.
Dual-one-shot 1 The output value is “on” for one processing cycle following either an on-to-off or off-to-on transition of the input value.
ASSIGN <operand> 1 The input value is assigned to the named operand. There is otherwise no output value.
END none The first END encountered terminates the current processing cycle.
CHAPTER 5: SETPOINTS S4 CONTROLS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–49
CB. Open-HiTemp Ctr ...............................Activates when the main control is ’Temp Cntrl’ and the ambient temperature is lower than the Hi temp bank open programmed.
CB. Cls-LoTemp Ctr....................................Activates when the main control is ’Temp Ctrl’ and the ambient temperature is lower than the Lo temp bank close programmed.
CB. Open-LoTemp Ctr ..............................Activates when the main control is ’Temp Ctrl’ and the ambient temperature is higher than the Hi temp bank close programmed.
CB. Open-Time Ctr.....................................Activates when the main control is ’Time Ctrl’ and the actual date and time are out of the closing date and time intervals.
CB. Close-Time Ctr.....................................Activates when the main control is ’Time Ctrl’ and the actual date and time fall in on the closing date and time intervals.
CB. Open-Volt Ctr .......................................Activates when the main control is ’Voltage Ctrl’ and the line voltage is kept higher than the Hi voltage trip programmed.
CB. Close-Volt Ctr .......................................Activates when the main control is ’Voltage Ctrl’ and the line voltage is kept lower than the Hi voltage close programmed.
CB. Close-Var Ctr........................................Activates when the main control is ’KVar Ctrl’ and the reactive power is inductive (+) and higher than the 3PH Switch-in set-point.
CB. Open-Var Ctr ........................................Activates when the main control is ’KVar Ctrl’ and the reactive power is capacitive (-) and lower than the 3PH Switch-out set-point.
Cls Temp Overd PKP .................................Activates when the main control is overridden by the ‘temperature override control’ and the override function is counting to close the switch, or once it has taken control of the switch the function is counting to release it to the main control.
Cls Temp Overd OP....................................Activates when the main control is overridden by the ‘temperature override control’ and the override function takes control of the switch closing the Capacitor Bank.
Cls Temp Overd DPO ................................Activates when the main control is overridden by the ‘temperature override control’ and the override function has released control of the switch to the main control.
Open Temp Overd PKP ............................Activates when the main control is overridden by the ‘temperature override control’ and the override function is counting to open the switch, or once it has taken control and opened the switch the function is counting to release it to the main control.
Open Temp Overd OP ..............................Activates when the main control is overridden by the ‘temperature override control’ and the override function takes control of the switch opening the Capacitor Bank.
Open Temp Overd DPO...........................Activates when the main control is overridden by the ‘temperature override control’ and the override function has released control of the switch to the main control.
Hi Volt Overd PKP.......................................Activates when the main control is overridden by the ‘voltage override control’ and the override function is counting to open the switch by a voltage higher than the Hi Overvolt pickup.
Hi Volt Overd OP .........................................Activates when the main control is overridden by the ‘voltage override control’ and the override function takes control of the switch opening the Capacitor Bank.
Hi Volt Overd DPO......................................Activates when the main control is overridden by the ‘voltage override control’ and the override function has released control of the switch to the main control.
5–50 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S4 CONTROLS CHAPTER 5: SETPOINTS
Lo Volt Overd PKP......................................Activates when the main control is overridden by the ‘voltage override control’ and the override function is counting to close the switch by a voltage lower than the Lo Overvolt pickup.
Lo Volt Overd OP ........................................Activates when the main control is overridden by the ‘voltage override control’ and the override function takes control of the switch closing the Capacitor Bank.
Lo Volt Overd DPO.....................................Activates when the main control is overridden by the ‘voltage override control’ and the override function has released control of the switch to the main control.
Input/Output Operands:Contact Input 1 (2 to X) On ....................Asserted when the respective Contact Input is activated.Contact Input 1 (2 to X) Off....................Asserted when the respective Contact Input is deactivated.Contact Output 1 (2 to X) On ................Asserted when the respective Contact Output is activated.Contact Output 1 (2 to X) Off ................Asserted when the respective Contact Output is deactivated.VI1 (VI1 to VI32) On....................................Asserted when the respective Virtual Input is activated.VI1 (VI2 to VI32) Off ...................................Asserted when the respective Virtual Input is deactivated.VO1 (VO2 to VO32) On .............................Asserted when the respective Virtual Output is activated.VO1Off to VO32 Off...................................Asserted when the respective Virtual Output is deactivated.
Trip Operands:Any Trip OP ...................................................Activates when any Trip Operand is asserted (logic 1).Star Ntrl IOC OP ..........................................Activates when Star Neutral overcurrent trips.Star Ntrl IOC DPO.......................................Activates when Star Neutral overcurrent condition is removed.Star Ntrl Reclose in Progress ................Activates when the DGC-CB has been tripped by the neutral
overcurrent function and stays waiting to reclose.Star Ntrl Reclose Lockout Trip .............Activates when a definitive Ntrl trip has been produced after a
unique CB reclosing operation.
Alarm Operands:Any Alarm OP...............................................Activates when any Alarm Operand is asserted (logic 1).Not Configured ...........................................Activates when the DGC status is “Not Configured” under
INSTALLATION/PRODUCT STATUS.Self-test Alarm OP .....................................Activates when the CB detects a Self-test error.Self-test Alarm DPO..................................Activates when the Self-test error is resolved. Comm Fail Alarm OP ................................Activates when the communication channel fails.Comm Fail Alarm DPO.............................Activates when the communication channel starts to operate
properly. C. Bank SW Alarm......................................Activates when the CB Switch stays in an unknown state for a
time higher than the change state programmed. C. Bank SW Alrm Reset............................Activates when a CB Sw Alarm reset is sent. Max Close Total OP ...................................Activates when the maximum total close operations have been
reached. Max Close Total DPO................................Activates when the counter is cleared using the counter clear
command. Max Close/Day OP.....................................Activates when the maximum close operations per day have
been reached. Max Close/Day DPO .................................Activates when the counter is cleared using the counter clear
command, or is cleared automatically at 12:00 midnight. Phase UV Alarm OP ..................................Activates when the min voltage is below the minimum voltage
level set under General Ctrl Setup. Phase UV Alarm DPO...............................Activates when the voltage is higher than the minimum voltage
level programmed under General Ctrl Setup.
CHAPTER 5: SETPOINTS S4 CONTROLS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–51
CB Switching Alarm OP ...........................Activates when a CB switching problem has been produced. CB Switching Alarm DPO........................Activates when a CB switching problem is reset, or the CB
switch changes its state from Close to Open.
Block and Inhibit Operands:Star Ntrl Block..............................................Activates when the Star Neutral Block is being activated.
5–52 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S5 INPUTS/OUTPUTS CHAPTER 5: SETPOINTS
S5 Inputs/Outputs
Figure 20: Inputs/Outputs menu
Contact inputsThe relay is equipped with a number of contact inputs, all of which can be used to provide a variety of functions such as for circuit breaker control, external trips, blocking of protection elements, etc. All contact inputs are wet type contacts (refer to the typical wiring diagram) that require an external DC voltage source. The voltage threshold (17V, 33V, 84V, 166V) is selectable, and it applies for all ten contact inputs. The contact inputs are either open or closed with a programmable debounce time to prevent false operation from induced voltage. Because of de-bouncing, momentary contacts must have a minimum dwell time greater than half power frequency cycle. The debounce time is adjustable by the user.
SETPOINTS
S1 PRODUCT SETUP
S2 SYSTEM SETUP
S3 CAP BANK CONTRL
S4 CONTROLS
S5 INPUTS/OUTPUTS
▼
891759.cdr
S5 INPUTS/OUTPUTS
OUTPUT RELAYS
CONTACT INPUTS
VIRTUAL INPUTS
S5 CONTACT INPUTS
CONTACT INPUT 1
CONTACT INPUT 2
...
CONTACT INPUT x
▼
S4 VIRTUAL INPUTS
VIRTUAL INPUT 1
VIRTUAL INPUT4
...
VIRTUAL INPUT 32
VIRTUAL INPUT 2
VIRTUAL INPUT3
▼
S5 OUTPUT RELAYS
RLY 1 CONTROL
...
RLY 2 CONTROL
RLY 3 AUXILIARY
RLY 4 AUXILIARY
RLY 5 AUXILIARY
RLY x AUXILIARY
▼
S5 RLY 1 CONTROL
NAME
SEAL-IN TIME
▼
S5 RLY 2 CONTROL
NAME
SEAL-IN TIME
▼
S5 RLY 3 AUXILIARY
NAME
FUNCTION
OUTPUT TYPE
OPERATION
▼
S5 VIRTUAL INPUT 1
VI 1
VI 1
NAME
FUNCTION
VI 1 TYPE
▼
S5 VIRTUAL INPUT 32
VI 32
VI 32
NAME
FUNCTION
VI 32 TYPE
▼
CHAPTER 5: SETPOINTS S5 INPUTS/OUTPUTS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–53
PATH: SETPOINTS > S5 INPUTS/OUTPUTS > CONTACT INPUTS
SELECT DC VOLTAGE
Range: 17 V, 33 V, 84 V, 166 VDefault: 84 V
CONTACT INPUT X [1 to X]
Range: Eighteen CharactersDefault: Input X
DEBOUNCE TIME
↘CONTACT INPUT X [1 TO X]
Range: 1 to 64 ms in steps of 1 msDefault: 2 ms
Each of the contact inputs can be named to reflect the function it represents within the application. Up to 18 alpha-numeric characters are available for names. The debounce time is used to discriminate between oscillating inputs. The state will be recognized if the input is maintained for a period consisting of the protection pass plus the debounce setting.
Output relays
Output Relays 1(Open) & 2 (Close)
PATH: SETPOINTS > S5 INPUTS/OUTPUTS > OUTPUT RELAYS > RLY 1[2] OPEN[CLOSE]
SEAL IN TIME
Range: 0.00 to 9.99 s in steps of 0.01Default: 0.04 s
This setting defines the time to be added to the reset time of the Relay 1 Open[Close] output, thus extending its pulse width. This is useful for those applications where the 52 contacts reporting the breaker state are faster than the 52 contacts that are responsible for interrupting the coil current.
BLOCK RLY 1[2] OPEN[CLOSE]
Range: Off, Contact Input 1 to 10, Virtual Input 1 to 32, Remote Input 1 to 32, Logic Elements 1 to 16Default: Off
This setting defines a block to the Open[Close] Output relay. When the selected input is asserted, the Open[Close] Output relay will be blocked.
Auxiliary OutputRelays 3 to X (Order
Code dependent)
Each auxiliary relay can be selected as either Self-reset, or Latched. If the Self-Reset type is selected, the output relay will be energized as long as the element is in operating mode and will reset when the element drops out. If the Latched type is selected, the output relay will stay energized, after the element dropout, and will be de-energized upon the reset command. If an auxiliary output is only required while the activating condition is present, select Self-Reset. Once an activating condition disappears, the auxiliary relay returns to the non-active state and the associated message automatically clears. To ensure all auxiliary function conditions are acknowledged, select Latched.
5–54 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S5 INPUTS/OUTPUTS CHAPTER 5: SETPOINTS
PATH: SETPOINTS > S5 INPUTS/OUTPUTS > OUTPUT RELAYS > RLY 3[X] AUXILIARY
OUTPUT TYPE
Range: Self Reset, LatchedDefault: Self Reset
Virtual inputsThere are 32 virtual inputs that can be individually programmed to respond to input commands entered via the relay keypad, or by using communication protocols.Virtual input programming begins with enabling the Virtual Input Function, and selecting the Virtual Input Type Self-Reset or Latched under SETPOINTS > S5 INPUTS/OUTPUTS > VIRTUAL INPUTS. Next, the user can assign a command On/Off to the enabled Virtual Input under SETPOINTS > S4 CONTROLS > VIRTUAL INPUTS. Referring to the Virtual Inputs logic diagram below, a Virtual Input type can be selected to be either Self-Reset, or Latched. When Self-Reset is selected and the “On” command is executed, the virtual input is evaluated as a pulse at a rate of one protection pass. To prolong the time of the virtual input pulse, one can assign it as a trigger source to a logic element with a dropout timer set to the desired pulse time. Selecting the Latched type, will latch the virtual input state, when the “On” command is executed. PATH: SETPOINTS > S5 INPUTS/OUTPUTS > VIRTUAL INPUTS
VI x NAME
Range: 18 CharactersDefault: Virtual IN x
This setting defines a programmable name for the Virtual Input.
VI x FUNCTION
Range: Disabled/EnabledDefault: Disabled
The Virtual Input is enabled and ready to be triggered when set to Enabled.
VI x TYPE
Range: Self-Reset, LatchedDefault: Self-reset
When the Self-Reset type is selected, the Virtual Input will be evaluated for one protection pass only, upon “On” initiation and it will reset. When the Latched type is selected, the virtual input will keep the state “On” until reset command “Off” is initiated.
NOTE
NOTE: See also the Virtual Inputs section under S4 CONTROLS, on how to trigger a virtual input signal state.
NOTE
NOTE: The "On" state of the Virtual Input will not be retained in the case of cycling of the relay control power supply.
CHAPTER 5: SETPOINTS S5 INPUTS/OUTPUTS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 5–55
Figure 21: Virtual Inputs Scheme logic
SETPOINT
V INPUT FUNCTION
Disabled = 0
Enabled = 1
AN
D
SETPOINT
V INPUT 1 TYPE
Latched
Self-Reset
AN
DA
ND
“Virtual Input 1 to ON = 1"
“Virtual Input 1 to OFF = 0"
S
R
LATCH
OR
ACTUAL VALUES
V INPUT 1 NAME:
(Operand)
V Input 1 Status
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5–56 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
S5 INPUTS/OUTPUTS CHAPTER 5: SETPOINTS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 6–1
Multilin DGCC Capacitor Bank Controller
Chapter 6: Commands
Digital Energy
Commands
The Capacitor Bank CLOSE/OPEN control can be performed in three different ways:
• OPEN and CLOSE commands from the Multilin DGCC faceplate pushbuttons or the Multilin DGCC menu
This controlling method is active, in either Local / Manual or Remote / Manual mode, providing that the Multilin DGCC Capacitor Bank Controller control is not set to OFF and no other blocks or switching inhibits are applied.
• Remote OPEN and CLOSE control upon energizing of assigned inputs under CONTROLS/REMOTE CONTROL
This controlling method will be active in Remote/Auto mode, providing the Multilin DGCC control is not set to OFF and no other blocks or switching inhibits are applied.
• OPEN and CLOSE commands over serial DNP
This controlling method will be active in Remote / Auto mode, providing the Multilin DGCC control is not set to OFF and no other blocks or switching inhibits are applied.
The Multilin DGCC reset command is available on the faceplate keypad button interfaces and in the commands menu.
Figure 1: Multilin DGCC faceplate OPEN / CLOSE commands
6–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
CHAPTER 6: COMMANDS
PATH: MAIN MENU > COMMANDS
OPEN
Range: No, YesDefault: No
This setting is used to open the Capacitor Bank from the DGC menu. Selecting “Yes” and pressing the ENTER pushbutton from the keypad initiates an OPEN pulse command. The “Yes” command pulse is set to 50ms.
CLOSE
Range: No, YesDefault: No
This setting is used to close the Capacitor Bank from the DGC menu. Selecting “Yes” and pressing the ENTER pushbutton from the keypad initiates a CLOSE pulse command. The “Yes” command pulse is set to 50ms.
RESET
Range: No, YesDefault: Disabled
This setting is used to reset activated LEDs and any alarms or target messages. Selecting “Yes” and pressing the ENTER pushbutton from the keypad initiates a RESET command. The “Yes” command pulse is set to 50ms.
Remote OPEN and CLOSE upon energization of inputs selected under CONTROLS/REMOTE CONTROLThe switch OPEN and CLOSE commands received via the selected inputs will be executed, if the Multilin DGCC control is enabled and the selected control mode is Remote (the LED Remote is lit). The remote OPEN and CLOSE commands are blocked if “Manual” control mode is selected (the “Manual” LED is lit) or the corresponding BLOCK command is active.The REMOTE RESET command can be executed by asserting the selected input when the controller is in Remote mode.PATH: CONTROLS > REMOTE CONTROL
REMOTE OPEN
Range: Off, Contact Input, Virtual Input, Virtual OutputDefault: Off
This setting defines the input to trigger the OPEN command to the switch. This input can be selected from the list of inputs including contact inputs, virtual inputs, protection or control operands, as well as input flags received from SCADA, or IEDs.
REMOTE CLOSE
Range: Off, Contact Input, Virtual Input, Virtual OutputsDefault: Disabled
This setting defines the input to trigger the CLOSE command to the switch. This input can be selected from the list of inputs including contact inputs, virtual inputs, protection or control operands, as well as input flags received from SCADA, or IEDs.
REMOTE RESET
Range: No, Off, Contact Input, Virtual Input, Virtual OutputDefault: Off
This setting is used to reset the LEDs, alarms and target messages generated during some abnormal condition of the switch. The setting provides the selection of an input, from a list of inputs, that performs the Reset action upon activation
For COMM BLOCK AUTO, COMM UNBLOCK AUTO, and SAVE COMM BLK AUTO descriptions please refer to “S3 CAPACITOR BANK CONTROL > GENERAL CONTROL” chapter.
CHAPTER 6: COMMANDS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 6–3
OPEN and CLOSE commands over DNP addressing, using radioThe OPEN or CLOSE command can be initiated from a SCADA or an IED via radio communication. The controlling device maps an OPEN or a CLOSE command to its binary outputs, and transmits them via radio communication to the Multilin DGCC Capacitor Bank Controller controller. Upon reception, the Multilin DGCC Capacitor Bank Controller controller executes the appropriate action. The controller executes the received commands if the Multilin DGCC control is enabled (the “In Service" LED is lit), and the selected control mode is set to Auto and Remote (the "Auto and Remote" LEDs are lit). The remote OPEN and CLOSE commands via radio are blocked if “Manual” control mode is selected (the “Manual” LED is lit).
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CHAPTER 6: COMMANDS
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 7–1
Multilin DGCC Capacitor Bank Controller
Chapter 7: Maintenance
Digital Energy
Maintenance
Figure 1: Maintenance menu
M4 FACTORY SERVICE
ENTER FACT: PSWD
M1 PRODUCT INFO
PRODUCT NAME
ORDER CODE
MAIN FIRMWARE REV
MAIN BUILD DATE
MAIN BUILD TIME
MAIN BOOT REVISION
MAIN BOOT DATE
MAIN BOOT TIME
SERIAL NUMBER
▼
MAINTENANCE
M1 PRODUCT INFO
M4 FACTORY SERVICE
M2 PRODUCT MAINT
M3 STATISTICS
▼
891762.cdr
M2 PRODUCT MAINT
EXTERNAL TEMP
M3 MIN/MAX PER DAY
MAX VOLTAGE LEVEL
MIN VOLTAGE LEVEL
MAX CURRENT LEVEL
MIN CURRENT LEVEL
MAX TEMP LEVEL
MIN TEMP LEVEL
MAX KVArs LEVEL
MIN KVArs LEVEL
▼
M3 COUNTERS
DAILY CLOSE OPER
TOTAL CLOSE OPER
▼
M3 STATISTICS
COUNTERS
MIN/MAX PER DAY
CLEAR COUNTERS
7–2 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
M1 PRODUCT INFORMATION CHAPTER 7: MAINTENANCE
M1 Product information
The Product Information table provides information such as CB name, order code, firmware revision, boot code, serial number, etc. This is where the user can verify whether updates have been implemented correctly on the device.PATH: MAINTENANCE > M1 PRODUCT INFO
PRODUCT NAME
Range: alpha-numeric name of up to 18 characters Default: Product Name
ORDER CODEDGC-C-EP5G5HESNP2EDN
This screen shows the product Order Code.
MAIN FIRMWARE REVISION1.41
This screen shows the Multilin DGCC Main Firmware Revision.
MAIN BUILD DATEAug 16 2010
This screen shows the Multilin DGCC Main Firmware Build Date.
MAIN BUILD TIME16:32:38
This screen shows the Multilin DGCC Main Firmware Build Time.
MAIN BOOT REVISION1.20
This screen shows the Multilin DGCC Main Boot Code Revision.
MAIN BOOT DATEDec 11 2009
This screen shows the Multilin DGCC Main Boot Code Build Date.
MAIN BOOT TIME10:44:54
This screen shows the Multilin DGCC Main Boot Code Build Time.
SERIAL NUMBERML0A08M00133
Each Multilin DGCC unit has a unique serial number.
CHAPTER 7: MAINTENANCE M2 PRODUCT MAINTENANCE
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 7–3
M2 Product maintenance
EXTERNAL TEMPERATUREThis menu item shows the ambient temperature in degrees Celsius. It is available only if the Multilin DGCC is ordered with a ‘IO_G’ option card to which an RTD sensor is connected. More details in the ‘Multilin DGCC Order Codes’ section.
7–4 MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL
M3 STATISTICS CHAPTER 7: MAINTENANCE
M3 Statistics
CountersThere are two counters: DAILY CLOSE OPER, and TOTAL CLOSE OPER. The DAILY CLOSE OPER counter provides information on how many CLOSE operations were made during a day period of 24 hours starting from 12:00 am, the beginning of the current day, until 12:00 am, the beginning of the next day. The counter clears to 0 at 12:00 midnight for each following day. Otherwise this counter can be cleared at any time by issuing a CLEAR COUNTER command.The counter TOTAL CLOSE OPER accumulates the CLOSE operations each time the switch CLOSE command is issued. This counter is not cleared on a daily basis. The counter will stop increasing the number of total CLOSE operations beyond the value 65535. This counter can be cleared at any time by issuing a CLEAR COUNTER command. MIN/MAX per DayThe MIN/MAX PER DAY monitors the minimum and maximum line voltage, as well as the minimum and maximum current, temperature, and reactive power, per day, and records these values for the user’s information. These values can be also monitored through the CB Data Logger over a period of time greater than one day. The MIN and MAX information is recorded during a day period of 24 hours starting from 12:00 am, the beginning of the current day, until 12:00 am, the beginning of the next day. These minimum and maximum values are reset at 12:00 midnight for the following day period. At that time, they are reset to the current line voltage and load current.
CHAPTER 7: MAINTENANCE M4 FACTORY SERVICE
MULTILIN DGCC CAPACITOR BANK CONTROLLER – INSTRUCTION MANUAL 7–5
M4 Factory service
This feature is reserved for use by GE Multilin personnel for testing and calibration purposes.
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M4 FACTORY SERVICE CHAPTER 7: MAINTENANCE