June 2010 Copyright © 2010 ComAp s.r.o. Written by Vlastimil Vostřák Prague, Czech Republic
ComAp, spol. s r.o. Kundratka 2359/17, 180 00 Praha 8, Czech Republic Tel: +420 246 012 111, Fax: +420 246 316 647 E-mail: [email protected], www.comap.cz
Reference Guide
® Automatic Transfer Switch Controller
SW version 2.0, June 2010
InteliATSNT
IA-NT PWR unit
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 2 IA-NT- PWR-2.0-Reference Guide.pdf
ts ..................... 2 ..................... 4 ..................... 4
4 ..................... 4 ..................... 5 ..................... 5 ..................... 7 ..................... 7 ..................... 9 ..................... 9 ................... 10 ................... 13 ................... 13 ................... 14 ................... 14 ................... 17 ................... 17 ................... 18 ................... 19 ................... 19 ................... 20 ................... 20 ................... 21 ................... 21 ................... 22 ................... 23 ................... 24 ................... 25 ................... 26 ................... 27 ................... 30 ................... 30 ................... 32 ................... 32 ................... 33 ................... 33 ................... 37 ................... 39 ................... 40 ................... 40 ................... 42 ................... 42 ................... 48 ................... 48 ................... 48
Engine Params.................................................................................................................................. 56 Gener Protect .................................................................................................................................... 59 AMF Settings..................................................................................................................................... 61 Sync Ctrl............................................................................................................................................ 65 Date/Time.......................................................................................................................................... 66 SMS/E-Mail ....................................................................................................................................... 67
Function Description.............................................................................................................................. 69 Operating modes............................................................................................................................... 69 Circuit breakers timing ...................................................................................................................... 72
Table of ContenTable of Contents ...............................................................................................................Document information ........................................................................................................
Clarification of notation...................................................................................................Text .....................................................................................................................................................Conformity Declaration...................................................................................................
General Guidelines.............................................................................................................What is in this manual? ..................................................................................................
Description..........................................................................................................................Description of the controller system...............................................................................Configurability.................................................................................................................
.What is in the package?..... ...........................................................................................IL-NT RS232 Communication module ...........................................................................IL-NT RS232-485 Communication module ....................................................................IL-NT S-USB Service USB communication module.......................................................IL-NT RD Remote display software ...............................................................................IB-Lite Communication module......................................................................................IL-NT BIO8 Hybrid binary input/output module ..............................................................Programming of IA-NT controller ...................................................................................
User Interface .....................................................................................................................Terminals............................................................................................................................
IA-NT PWR terminals and face......................................................................................Recommended Wiring ........................................................................................................
IA-NT PWR – Wiring Diagram......................................................................................... .Applications .................. .............................................................................................. ......
AMF using two separate breakers with feedbacks (MCB and GCB) .............................AMF using two separate breakers with feedbacks (MCB and GCB) + Test on Load....AMF using two-position ATS with feedback...................................................................AMF using three-position ATS with feedbacks ..............................................................AMF + manual transfer & neutral control using three-position ATS ..............................
.AMF + no battery operation .......................... ................................................................Controllers in cascade....................................................................................................
Getting Started ...................................................................................................................How to install ..................................................................................................................IL-NT BIO8 extension module connection .....................................................................Current measurement ....................................................................................................CT location .....................................................................................................................Voltage measurement and generator connection types ................................................RS485 connection..........................................................................................................
Inputs and Outputs .............................................................................................................Binary inputs IA-NT - default ..........................................................................................Binary inputs – list ..........................................................................................................Binary outputs IA-NT - default........................................................................................Binary outputs - list.........................................................................................................
Setpoints.............................................................................................................................Password........................................................................................................................Basic Settings.................................................................................................................
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................... 74
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................... 77
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................... 78
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................... 87
................... 87
................... 88
................... 88
................... 89
................... 89
................... 89
................... 89
................... 89
................... 90 Binary inputs and outputs.................................................................................................................. 90 IL-NT RS232 interface (optional card) .............................................................................................. 90 IL-NT RS232-485 interface (optional card) ....................................................................................... 91 IL-NT S-USB interface (optional card) .............................................................................................. 91 IB-Lite interface (optional card) ......................................................................................................... 91 IL-NT BIO8 extension module (optional card)................................................................................... 91
Alarm Management ............................................................................................................Warning (WRN)..............................................................................................................
.Trip (TRP)................................................................................................................ ......Mains failure (MF) ..........................................................................................................AMF time chart – genset OK..........................................................................................AMF time chart – genset not started properly................................................................Voltage phase sequence detection................................................................................
Gen-set Operation States...................................................................................................List of possible events....................................................................................................History file.......................................................................................................................
Remote Control and Data Logging.....................................................................................Direct connection to the PC ...........................................................................................PC software – LiteEdit....................................................................................................Modbus protocol.............................................................................................................
Remote Communication.....................................................................................................Internet connection.........................................................................................................Recommended ISDN modem ........................................................................................Recommended GSM modem.........................................................................................Mobile SIM card setting..................................................................................................
IL-NT-RD Remote display software....................................................................................General description ........................................................................................................Warning! .........................................................................................................................
.IL-NT-RD Software installation................................................................................ ......IL-NT-RD Wiring.............................................................................................................Function description .......................................................................................................SW compatibility.............................................................................................................
Maintenance .......................................................................................................................Backup battery replacement ..........................................................................................
Technical Data....................................................................................................................Inputs/Outputs overview.................................................................................................Power supply..................................................................................................................Operating conditions ......................................................................................................Dimensions and weight ..................................................................................................Mains and generator ......................................................................................................
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 4 IA-NT- PWR-2.0-Reference Guide.pdf
ion EFERENCE GUIDE
12111, FAX: +420266316647 .COMAP.CZ
Document informatINTELIATSNT PWR® - RWRITTEN BY: VLASTIMIL VOSTŘÁK ©2009-2010 COMAP LTD. KUNDRATKA 17, PRAHA 8, CZECH REPUBLIC PHONE: +4202460WEB: HTTP://WWW , -MAIL: IN [email protected]
DOCUMENT HISTORY
E F
REVISION NUMBER RELATED SW. VERSION DATE
1 1.0 22.02.2009
2 1.0.1 24.03.2009
3 1.2 09.01.2010
4 2.0 09.06.2010
Clarification of notation NOTE: This type of paragraph calls readers attention to a notice or related theme. CAUTION! This type of paragraph highlights a procedure, adjustment etc., which can cause a damage or unproper function of the equipment if not performed correctly and may not be clear at first sight. WARNING! This type of paragraph indicates things, procedures, adjustments etc. which need high level of attent th ause personal injury or death. ion, o erwise can c
Text
PAGE (Capital letters in the frame) buttons on the front panel Break Return (Italic) set points GeneraREMO
Conformity Declaration
tor protections (Bold) Set point group TE START/STOP (Capital letters) binary inputs and outputs
The following escribed m plies with the appropriate basic safety and health requirement of the EC Low Voltage Directive No: 73/23 / EEC and EC Electromagnetic Compatibility Directive 89/336 / EEC based on its design and type, as brought into circulation by us.
d achine com
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 5 IA-NT- PWR-2.0-Reference Guide.pdf
es General Guidelin
What is in this manual? This manual describes the InteliATSNT PWR (IA-NT-PWR) software, which is designed for automatic
s and provides general information on how to install and operate the
• Automatic transfer switch panel builders otely from InteliATSNT)
d maintenance of the gen-set
NT ns of the T-STD-HW_1.3-.AIL) form the
higher too, which is ATSNT SW must be
rature ATS controller.
transfer switch applicationIn li NTte ATS controller. This manual is dedicated for
• Operators of remote gen-sets (started rem• For everybody who is concerned with installation, operation an
InteliATS controller SW and HW versions compatibility Software InteliATSNT is compatible with the InteliATSNT hardware v. 1.3 and higher. There are two modifications of the InteliATS HW - STD and PWR and two modificatioInteliATSNT SW – STD and HW which together with the appropriate archive file (IA-NX.X.AIL for STD HW 1.3, IA-NT-STD-X.X.AIL for STD HW > 1.3 and IA-NT-PWR-X.XInteliATSNT PWR or STD controller. Beside that the InteliATSNT software is compatible with IL-NT AMF HW 1.3 andused when a low temperature ATS application is needed. In this case the Intelicombined (purchased) with the IL-NT AMF 25 LT HW to obtain the low tempe NOTE: Because of large variety of InteliATSNT parameters settings, it is not possible to describe any combination. Some of InteliATSNT functions are subject of changes depend on SW version. The data in this manual only describes the product and are not warranty of performance or characteristic. CAUTION! SW and HW must be compatible (e.g. IA-NT firmware and IA-NT HW) otherwise the function will be disabled. If wrong software is downloaded, message HARDWARE INCOMPATIBLE appears on controller screen. In this case use Boot load (jumper) programming – close Boot jumper and follow instructions in LiteEdit, download correct software. NOTE: C rmation provided herein is correct and reliable and reserves the right to omAp believes that all infou omAp does not assume any responsibility for its use unless otherwise expressly pdate at any time. Cundertaken. WARNING! Remote control - InteliATSNT controller can be remotely controlled. In case of the work on the controlled devices check, that nobody can perform remote operation.To be sure disconnect - remote control via RS232 line - input REM TRANSFER - input REMOTE AUT - input REMOTE TEST or disconnect output Rem START/ST tputs GCB CLOSE/OPEN and MCB CLOSE/OPEN
OP and ou
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 6 IA-NT- PWR-2.0-Reference Guide.pdf
WARNING! E wing InteliATSNT controller terminals: very time you want to disconnect follo d / or - Mains voltage measuring an - Binary output for MCB control and / or - MCB Feedback Switch InteliATS to MAN or OFF Mode or disconnect the Binary outputs Rem Start/Stop and GCB NT
Close/Open to avoid unexpected automatic start of gen-set and GCB closing. WARNING!
Dangerous voltage In no case touch the terminals for voltage and current measurement!
Always connect grounding terminals!
In any case do not disconnect InteliATS current transformer terminals! NT
The following instructions are for qualified personnel only. To avoid personal injury do not perform any action not specified in this Reference guide!!!
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 7 IA-NT- PWR-2.0-Reference Guide.pdf
n Descriptio
Description of the controller system InteliATSNT is a comprehensive Automatic Transfer Switch controller designed to monAC mains supply (1 or 3 phases) for under & over voltage, under & over frequency anunbalance. In the case of any mains supply disproportion it will send a remote start cogen-set and make changeover for both
itor the incoming d voltage mmand to the
generator and mains contactors. The gen-set requires a st a key-start box
al.
ferent types of changeover (transition)
ssive ze” mains and gen-set
it for the both
oltage and frequency expires.
utes/predicts
the MAINS-MAINS applications and not only for the en Start/Stop onfigured/used
tells the controller that the MAINS-GEN application type is to be used. If not top-fail protection and
ay showing icons, symbols and bar-ether with high functionality, new standards in Gen-set
The key features are: • Easy-to-use operation and installation. Factory default configuration covers most of
applications • Different customer changes are possible thanks to the configurability • Excellent remote communication capabilities • High reliability
remote start type control unit (e.g. the ComAp InteliLiteNT MRS 10 controller), at leawith an external input for the start/stop sign
The controller is capable of providing the following three dif• open delayed transition • open in-pase transition with synch check • closed short-time (100ms) parallel transition with synch check
In order to provide “synch check” the controller has been enhanced by the feature called pasynchronization. The passive sync (sync check) offers possibility to “synchroniwithout the need to use speed regulation or - better to say - it offers possibility to wasources to get in phase. System is evaluated as to be in sync according to the predefined parameters – vdifference – if the both sources will get in-phase before the synchronization timeout Parameters defining breaker delay are taken into the account when the system compexact moment when the both sources are “in phase”. InteliATSNT controller can be used also for MAINS-GEN applications. The system recognizes application type according to the Gand Gen ReadyToLoad logical binary output and input configuration. If the both are c(default setting) itc fion gured, the MAINS-MAINS application type takes place. In this case the sthe generator current protection are not evaluated.
InteliATSNT controllers are equipped with a powerful graphic displgraphs for intuitive ocontrols.
peration, which sets, tog
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 8 IA-NT- PWR-2.0-Reference Guide.pdf
Example application
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 9 IA-NT- PWR-2.0-Reference Guide.pdf
Configurability One of the key features of the controller is high level of adaptability of the system to the needs of
y particular application. The way, how to achieve this, is the configuration. ever
NOTE: Use LiteEdit PC software to read configuration from the controller or disk, view it, modify it and write the configuration to controller or disk. The firmware contains a number of binary inputs and outputs needed for all necessaryavailable in the
functions firmware. But not all functions are required at the same time on different gen-sets and
also the controller hardware does not have so many input and output terminals. One of the main tasks ion is mapping of "logical" firmware inputs and outputs to the "physical" hardware
i
C
1. Mapping of logical binary inputs (functions)
of the configuratnputs and outputs.
onfiguration parts:
or assigning alarms to physical binary input terminals
2. Mapping of logical binary outputs (functions) to physical binary output termin3. Changing language
als of the controller texts
tandart eEdit software. See
tion for details.
The controller is delivered with a default configuration, which should fit to most sapplications. This default configuration can be changed only using PC and LitLiteEdit documenta
NOTE: You need one of communication modules to connect the controller to a PC with LiteEdit. There is a special easy removable service module for cases, where there is no communication module permanently attached.
ther controller or is called archive and has file extension ".ail". An archive contains full
image of the controller at the moment of saving (if the controller is online to the PC) except firmware, are also current adjustment of all setpoints, all measured values, a
ist.
ers aring controllers with onfigu
in
Once the configuration is modified, it can be stored in a file for later usage with anofor backup purposes. The file
i.e. besides configuration therecopy of history log and a copy of alarm l
Tidentical c
he archive can be simply use cloning of controllration and settings.
d for , which means prep
What is the package?
Accessories Description Optional / Obligatory IA-NT PWR InteliATSNT central unit, PWR version Obligatory IL-NT-RS232 RS232 communication card Optional IL-NT-RS232-485 RS232 and RS485 communication card Optional IL-NT-S-USB Service USB communication card Optional *IL-NT RD Remote display software Optional IB-Lite Internet commun n idge Optional icatio br
*Remote display for IA-NT controllers uses standard IL-NT controller with Remote display software
NOTE: For detailed information about extension modules used with IA-NT controllers, please see the IL-NT, IC-NT, IA-NT, ID-Lite-Accessory Modules manual.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 10 IA-NT- PWR-2.0-Reference Guide.pdf
IL-NT RS232 Communication module
NTIL-NT RS232 is optional plug-in card to enable InteliATS for RS232 communication. This is required for computer or Modbus connecting. Card inserts into expansion slot back on the contrTo insert the module, you must open the cover first (use screwdriver to open) and thenmodule into slot. Once you ha
oller. insert the
ve inserted it, the module will snap under plastic teeth. It is supposed to be installed permanently. Should you need to remove it, the safest way is to remove whole back cover
and than remove module manually. How to install RS 232 communication module:
NOTE: The following procedure is analogic also for other communication modules.
1. Insert a screwdriver into the slot of the cover.
2. Move the screwdriver to set apart the small cover. Be careful!
3. Remove the small cover.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 11 IA-NT- PWR-2.0-Reference Guide.pdf
4. Break apart the small cover into two pieces. Do not throw away the smaller part!
5. Take RS 232 communication module.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 12 IA-NT- PWR-2.0-Reference Guide.pdf
unication module into the slot of the controller. 7. Put back the small cover.
6. Plug RS 232 comm
NOTE: When you insert RS 232 communication module, the boot jumper is hidden. For that reason we recommend to use RS 232 communication module with the boot jumper placed on it. See pictures below:
RS 232 communication module with the boot jumper.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 13 IA-NT- PWR-2.0-Reference Guide.pdf
IL-NT RS232-485 Communication module IL-NT RS232-485 is optional plug-in card to enable InteliATSNT the RS232 and RSThis is required for computer or Modbus connection. Card inserts into expansiocontroller. The IL-NT RS232-485 is a dual port module with RS232 and RS48
485 communication. n slot back on the
5 interfaces at
s analogous. slot. Once you
will snap under plastic teeth. It is supposed to be installed permanently. Should you need to remove it, the safest way is to remove whole back cover and than remove module manually.
independent COM channels. The RS232 is connected to COM1 and RS485 to COM2. To insert the module, please follow the instructions for IL-NT RS232 module, procedure iYou must open the cover first (use screwdriver to open) and then insert the module intohave insert it, the module
RS485
RS232 Boot jumper RS485 Terminator jumper
IL-NT S-USB Service USB communication module
NTIL-NT S-USB is optional plug-in card to enable InteliATS communication via USB port. This is required for computer or Modbus connecting. Card inserts into expansion slot back on the controller. To insert the module, please follow the instructions for IL-NT RS232 module, procedure is analogous. You must open the cover first (use screwdriver to open) and then insert the module into slot. Once you have inserted it, part of the module will remain over plastic box. It is supposed to be used as a service tool. When you need to remove it, grab module in cutouts and pull it up manually.
NOTE: Use the shielded USB A-B cable with this module! Recommended is ComAp cable – Order code: “USB-LINK CABLE 1.8M”.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 14 IA-NT- PWR-2.0-Reference Guide.pdf
IL-NT RD Remote display software IL-NT RD is remote display software for a controller. Remote display provides the sammonitoring functions as controller itself. Remote display for IA-NT controllers uses stacontroller with IL-NT Remote display software. No further programing of the display is is self configurable from the main controller. It is connected with the c
e control and ndard IA-NT required – unit
ontroller via IL-NT-RS232 communication modules using RS232 line. Longer distances (up to 1200m) are possible using IL-NT-
2/RS485 converters are used. RS232-485 communication module or when RS23 The IL-NT RD hardware type should fit to the master IA-NT. NOTE: Please see the “IL-NT-RD Remote display software” chapter for more details.
module IB-Lite Communication IB-Lite is optional plug-in card to enable InteliATSNT communication via Ethernet/Interninto expansion slot back on the controller.
et. Card inserts
ctions for IL-NT RS232 module, procedure is analogous. river to open) and then insert the module into slot. Once you
have inserted it, part of the module will remain over plastic box. It is supposed to be used as a service tool. When you need to remove it, grab module in cutouts and pull it up manually. See IB-Lite-Reference Guide for further details.
To insert the module, please follow the instruYou must open the cover first (use screwd
Web server for IB-Lite Is an ew secured way of monitoring and controlling the gen-set from any point in world using your web browser. It ofers clear overview and control of the state of engine, its settings and history. User friendly.
See IB-Lite-Reference Guide and pictures below for further details.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 15 IA-NT- PWR-2.0-Reference Guide.pdf
Scada window:
Measurement window:
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Setpoints window:
History window:
HINT: This feature requires IB-Lite optional plug-in module and visible connection of controller to Ethernet.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 17 IA-NT- PWR-2.0-Reference Guide.pdf
IL-NT BIO8 Hybrid binary input/output module
ry (version 4.4 and higher) it is possible to easily
Installing IL-NT BIO8 module is similar to installing RS 232 module. The difference is that module fits to “Extension module” slot and after installing IL-NT BIO8 you do not put back the small cover.
IL-NT BIO8 is optional plug-in card. Through this card controller can accommodate up to 8 binainputs or outputs. In LiteEdit PC configuration toolchoose if particular I/O will be binary input or output.
Programming of IA-NT controller
ming is possible only in OFF mode when the engine is not running. Program NOTE: For more information on programing, see LiteEdit Reference Guide. CAUTION! Check the statistic values after firmware upgrade. Readjust the values if necessary.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 18 IA-NT- PWR-2.0-Reference Guide.pdf
e s of displaying
only monitor
sire to change the
Changing the mode of User Interface is possible from default measuring screen of controller by than press again PAGE. On screen will be
displeyed the choice of two different User Interfaces. Please see latest IA-NT Operator Guide for detailed description.
User InterfacThere is an interchangable User Interface on controller. It allows two different modecontroller menu. The first mode called USER is dedicated for users who prefer easy function and needactual values, see alarms or change language settings. Second mode is called ENGINEER and it is dedicated for advaced users, who desettings of controller, monitor all values and check the history of events.
simultaneous pressing the ENTER and PAGE button and
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 19 IA-NT- PWR-2.0-Reference Guide.pdf
s
IA-NT PWR terminals and face
Terminal
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 20 IA-NT- PWR-2.0-Reference Guide.pdf
ing
IA-NT PWR – Wiring Diagram
Recommended WirL1 L2 L3 N
DIES
EL/G
AS
RS-
232C
Inte
rfac
e
Mode
mor
PC
ENGI
NEGE
NERA
TOR
G
LOA
D
B.G
ener
ator
C..
Mai
nsC.
B
GEN READY TO LOADMAINS FAIL BLOCK
REMOTE AUT
GCB FEEDBACKMCB FEEDBACK
REMOTE TESTREMOTE TEST ONLD
AL START FAIL
GCB CLOSE/OPEN
GEN START/STOP
AL MAINS FAIL
ALARM
READY TO AMF
MCB CLOSE/OPEN
CONTROLSIGNALS
+24V
0V
BINARYOUTPUTS
BATTERY
-+
GEN-SET CONTROLLER
NOTE: MCB and GCB is recommended to be mechanically interlocked.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 21 IA-NT- PWR-2.0-Reference Guide.pdf
s plication, where the
s for the mains power supply fault and then starts a load transfer process. Next possible application is manually controlled load transfer between two power supply sources
AMF using two separate breakers with feedbacks (MCB and GCB)
ApplicationThe most typical application for the ATS controllers is Auto Mains Failure (AMF) apcontroller watche
(mains x generator).
G
IA-NT
GCB3x
LOAD
3xU
M
3xU
G
3xI G
MCB3x
T 3x
MCBMCB FEEDBACK
K4
MCB GCB
3x
MCB
K3
GCB
MCB CLOSE/OPEN
GCB CLOSE/OPEN BO
BI
GCB FEEDBACKGCB
en-set start when the mains fails (AUT mode) full control with feedbacks
ak transfer on mains failure s return (Load reclosing)
running and waiting for mains failure)
Hardware requirements 1x IA-NT PWR
Setpoints MCB Logic = “CLOSE-OFF”
Specification • Automatic remote g• GCB & MCB• Bre• Break return on main• Test mode (set
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 22 IA-NT- PWR-2.0-Reference Guide.pdf
two separate breakers with feedbacks (MCB and GCB) + Test on Load AMF using
GGCB
3x
LOAD
3xU
M
3xU
G
3xI G
MCB3x
T 3x
K4
MCB GCB
K3
3x
BO
BI
IA-NT
MCB
MCB FEEDBACK
GCB
GCB FEEDBACK
TEST ON LOADON LOAD TESTREQUIRED
REMOTE TEST
/CLOSE OPENGCB
MCB CLOSE / OPEN
s s failure
ins return (Load reclosing) set running and waiting for mains failure)
Load Test - load transfer to gen-set (Island operation) and back to mains in TEST mode on Test on load activation/deactivation. There are 2 breaks in this operation. Controller may
1x IA-NT PWR
Setpoints MCB Logic = “CLOSE-OFF” RetFromIsland = “AUTO” – automatic return (MCB Close) to mains after TEST RetFromIsland = “MANUAL” – mual return to mains (MCB Close) after TEST – IA-NT goes to MAN
mode.
Specification • Automatic remote gen-set start when the mains fails (AUT mode) • GCB & MCB full kontrol with feedback• Break transfer on main• Break return on ma• Test mode (• On
BI be forced to TEST mode by BI Remote TEST
Hardware requirements
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 23 IA-NT- PWR-2.0-Reference Guide.pdf
AMF using two-position ATS with feedback
LOAD
G
IA-NT
3x
3xU
M
3xU
G3x
I G
3x
T
MCB FEEDBACK
GCB FEEDBACK
3x
MCB CLOSE/OPEN
GCB CLOSE/OPEN
BOBI
K3
3x
ATS
ATS
ATS on "II" position
I II
• -set start when the mains fails (AUT mode) feedback
er on mains failure ak return on mains return (Load reclosing)
st mode (set running and waiting for mains failure)
Hardware requirements 1x IA-NT PWR
Setpoints MCB Logic = “CLOSE-ON”
Specification Automatic remote gen• Two-position ATS control with • Break transf• Bre• Te
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 24 IA-NT- PWR-2.0-Reference Guide.pdf
AMF using three-position ATS with feedbacks
G
IA-NT
3x
3xU
M
3xU
G
3xI G
3x
T
MCB FEEDBACK
GCB FEEDBACK
3x
MCB CLOSE/OPEN
GCB CLOSE/OPEN
BO
BI
LOAD
3x
ATSI II0
ATS
K4K3
ATS on "II" position
ATS on "I" position
• Automatic remote gen-set start when the mains fails (AUT mode) control with feedbacks, pass through neutral position
er on mains failure k return on mains return (Load reclosing)
st mode (set running and waiting for mains failure)
Hardware requirements 1x IA-NT PWR
Setpoints MCB Logic = “CLOSE-ON”
Specification
• Three-position ATS• Break transf• Brea• Te
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 25 IA-NT- PWR-2.0-Reference Guide.pdf
AMF + manual transfer & neutral control using three-position ATS
G
IA-NT
3x
3xU
M
3xU
G
3xI G
3x
T
REM TRANSFER
NEUTRAL POS
3x
MCB CLOSE/OPEN
GCB CLOSE/OPEN
BO
BI
LOAD
3x
ATS
ATS
I II0
Force Neutral Position
Manual Load Transfer
K3
K4
K5
NEUTRAL POS
• -set start when the mains fails (AUT mode) control without feedback, pass through neutral position
est for load transfer (AUT mode) quest for switching to neutral position – the highest priority, overrides MCB & GCB state, ces switch to neutral position. After deactivating return to previous state (MCB or GCB)
Hardware requirements 1x IA-NT PWR
Setpoints MCB Logic = “CLOSE-ON”
Specification Automatic remote gen• Three-position ATS• Manual requ• Re
for
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 26 IA-NT- PWR-2.0-Reference Guide.pdf
AMF + no battery operation
3xU
M
3xU
G
Specification It is possible to operate controller without a battery supplying the controller. Fofollowing conditions have to be fulfilled:
r such operation the
switched between ing) according to
m for more details ontacts have to be used for the gen-set start command. Setpoint
locked when GCB is closed, so the power e on the mains bus appears – protection against voltage changes arise on Mains.
to Mains when GCB is opened.
/DC power supply source is switched to gen-set supplying controller disappears
upplied from running gen-set • d, waits for Gen OK conditions
B closed and the 24V AC/DC power supply source is locked in gen-set
If Mains
• GCB is opened, 24V AC/DC power supply source is unlocked and switched to Mains • MCB is closed • Gen-set is stopped
Hardware requirements 1x IA-NT PWR 1x 24V/2.5A AC/DC power supply
• Controller is supplied from 24V/2.5A AC/DC power supply whose source is Mains and Gen-set via relay (another contacts of the relay for GCB switchthe Mains state (OK/Fault). See the schematic diagra
• Normally closed relay c“GenStart Logic” has to be set to CLOSE-OFF
• Switching of the 24V AC/DC power supply is bsupply is not switched to Mains if voltag
ng” of the power supply when“Flip-floppiIt (power supply) will be switched
Then in the case of Mains failure:
• 24V AC• Voltage • Gen Start relay is deenergized and contacts closed
started • Gen-set is• Controller is s Controller is initialize• MCB is opened, GC
position.
returns:
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 27 IA-NT- PWR-2.0-Reference Guide.pdf
Controllers in cascade
Gen
Sta
rt/S
top
Gen
Sta
rt/St
op
Load
Gen
read
yToL
oad
GTo
enre
ady
3xU
M
3xU
G3x
I GG
en S
tart/
Stop
Gen
read
yToL
oad
Specification Controllers are suitable for “Cascading” applications allowing load to be split intoThe followi ave to be fulfilled:
more sections.
• Automatic remote gen-set start when the mains fails (AUT mode) • Cascade controlled by Master • Consequent changeover on slave controllers • Simple wiring
Hardw re requirements 1 x IA-NT PWR (1 to n) x IA-NT PWR or STD
ng conditions h
a
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 28 IA-NT- PWR-2.0-Reference Guide.pdf
Cascade, wiring A, Mains Fail timing diagram with configuration description
Cascade, wiring A, Mains Return timing diagram with configuration description
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 29 IA-NT- PWR-2.0-Reference Guide.pdf
Cascade, wiring B, Mains Fail timing diagram with configuration description
Cascade, wiring B, Mains Return timing diagram with configuration description
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 30 IA-NT- PWR-2.0-Reference Guide.pdf
d
o install
Getting Starte
How t
General To ensure proper function: Wiring for binary inputs and analog inputs must not be run with power cables.
en length >3m.
s 36VDC. Maximum allowable power supply voltage NT’s power supply terminals are protected against large pulse power
itions outside its
Binary inputs should use shielded cables, especially wh
Power supply To ensure proper function use min. power supply cable of 1.5mm2 Maximum continuous DC power supply voltage iis 39VDC. The InteliATSdisturbances. When there is a potential risk of the controller being subjected to condcapabilities, an outside protection devise should be used.
NOTE: The InteliATSNT controller should be grounded properly in order to protect against lighting strikes!! The maximum allowable current through the controller’s negative terminal is 4A (this is dependent on binary output load).
For the connection NTs with 12VDC power supply, the InteliATS includes internal capacitors that allow the controller to continue operation if the battery voltage dip occurs. If the voltage before dip is 10V, after 100ms the voltage recovers to 7 V, the controller continues operating. During this voltage dip the controller screen backlight can turn off and on but the controller keeps operating. It is possible to further support the controller by connecting the external capacitor and separating diode or I-LBA module:
The capacitor size depends on required time. It shall be approximately thousands of microFarads. The capacitor size should be 5 000 microFarad to withstand 150ms voltage dip under following conditions: Voltage before dip is 12V, after 150ms the voltage recovers to min. allowed voltage, i.e. 8V
NOTE: Before the battery is discharged the message "Low BackupBatt" appears.
Or by connecting special I-LBA Low Battery Adaptor module:
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 31 IA-NT- PWR-2.0-Reference Guide.pdf
voltage dip under following conditions:
llowed voltage 5V.
wiring resistance from battery should be up to 0.1 Ohm for I-LBA proper function.
The I-LBA module ensures min. 350ms RS232 and other plug-in module is connected. Voltage before dip is 12V and after 350ms the voltage recovers to min. aThe I-LBA enables controller operation from 5VDC (for 10 to 30 sec). The NOTE: I-LBA may not eliminate voltage drop when used with low temperature (-40°C) version of controller and display heating element is on (below 5°C). Current drain of heating element exhausts LBA capacitors very fast
Power supply fusing A one-amp fuse should be connected in-line with the battery positive terminal tmodule
o the controller and s.
Fuse value and type depends on number of connected devices and wire length. type - T1A. Not fast due to internal capacitors charging during Recommended fuse (not fast)
power up.
Binary output protections NOTE: Do not connect binary outputs directly to DC relays without protection diodes, even if they are not connected directly to controller outputs.
Grounding To ensure proper function: Use as short as possible cable to the grounding point on the switchboard Use cable min. 2,5mm2 The “-“ terminal of the battery has to be properly grounded
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 32 IA-NT- PWR-2.0-Reference Guide.pdf
IL-NT BIO8 extension module connection
Current measurement The number of CT’s is automaticaly selected based on selected value of setpoint ConnectionType [3Ph4Wire / 3Ph3Wire / Split Ph / Mono Ph].
To ensure proper function: Use cables of 2,5mm2
Use transformers to 5A Connect CT according to following drawings:
Three phase application:
It is necessary to ensure that potencial difference between generator current COM terminal and battery “-” terminal is maximally ± 2V. Therefore is strongly recommended to interconnect these two terminals together.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 33 IA-NT- PWR-2.0-Reference Guide.pdf
Connect CT according to following drawings. Terminals L2l and L3l are opened.
Single phase application:
CT location It is possible to set the location of CT s.
There are two options of CT location.
• Load • Gen-Set
According to the connection you have to set the setpoint CT location value to Load or Gen-Set
Voltage measurement and generator connection types There are 4 voltage measurement ConnectionTypes (setpoint ConnectionType [3Ph4Wire / 3Ph3Wire / Split Ph / Mono Ph]) options. Every type matches to corresponding generator connection type:
1. ConnectionType: 3 Phase 4 Wires
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Three phase “wye” measurement – 3PY
3 Phase 4 Wires - STAR Connection
2. ConnectionType: 3 Phase 3 Wires
Three phase “delta” measurement – 3PD
3 Phase 3 Wires
– DELTA Connection – HI-LEG (wild-leg, red-leg) DELTA Connection
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 35 IA-NT- PWR-2.0-Reference Guide.pdf
NOTE: Only L1, L2 and L3 wires should be connected. In case of HI-LEG DELTA connection the N (neutral) wire (in the diagram connected between T6 and T9) has to be disconnected. No separation transformers for three wires voltage connection (without N) are needed.
3. ConnectionType: Split Phase
Single-phase measurement – 1PH
Split Phase
– DOUBLE DELTA Connection – ZIG ZAG (DOG LEG) Connection
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 36 IA-NT- PWR-2.0-Reference Guide.pdf
4. ConnectionType: Mono Phase
Single-phase measurement – 1PH
Mono Phase – MONOPHASE Connection
NOTE: Switchboard lighting strike protection according standard regulation is expected for all 4 connection types!!! NOTE: Phase sequence check is not possible to evaluate under voltage 50V what causes that if measured voltage 50V is within the allowed range, controller will not allow to close the GCB, even if relevant LED diod on front panel of IL-NT lits.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 37 IA-NT- PWR-2.0-Reference Guide.pdf
Binary inputs
Binary outputs
+
Battery
-
iL4k7 Ω
+ -PowerSupply
iLLOAD
+ -PowerSupply
+ -
Battery
RS485 connection The line has to be terminated by 120 Ohm resistors at both ends.
in any order, but keepiExternal units can be connected on the RS485 line ng line arrangement (no
star) is necessary. m.
Shielded cable has to be used, shielding has to be connected to PE on one side (controller side). A) For s ces (all network components within one room) – picture 1 interconnect A and B; shielding connect to PE on controller side B) For longer distances (connection between rooms within one building) – picture 2 interconnect A, B, COM; shielding connect to PE in one point C) In case of surge hazard (connection out of building in case of storm etc.) – picture 3 We recommend to use following protections:
tails, no
Standard maximum link length is 1000
horter distan
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 38 IA-NT- PWR-2.0-Reference Guide.pdf
ntact.com): 2x2-BE (base element)
://www.saltek.cz):
nductors) /CM (1x2+1 conductors) TC/CM (1x2+1 conductors)
Picture 1 - shorter distances (all network components within one room)
Picture 2 - longer distances (connection between rooms within one building)
- Phoenix Contact (http://www.phoenixcoPT 5-HF-5DC-ST with PT
85-TTL) (or MT-RS4- Saltek (httpDM-006/2 R DJ Recommended data cables: BELDEN (http://www.belden.com) A) For shorter distances: 3105A Paired - EIA Industrial RS-485 PLTC/CM (1x2 coB) For longer distances: 3106A Paired - EIA Industrial RS-485 PLTCC) In case of surge hazard: 3106A Paired - EIA Industrial RS-485 PL
Picture 3 - surge hazard (connection out of building in case of storm etc.)
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 39 IA-NT- PWR-2.0-Reference Guide.pdf
ts nputs/Outputs overview table see chapter Technical Data.
Inputs and OutpuFor I NOTE: Any Binary input or output can be configured to any IA-NT controller terminal or changed to different function by LiteEdit software. There is fix 1 sec delay when any binary input is configured as protection.
Not Used Binary input has no function. Use this configuration when Binary input is not connected.
Alarm If the input is closed (or opened) sel d alarm is activated. ecte
Bina nfigu ms
string
ry Alarm co ration ite
Name 14 characters ASCIINC Normally closed Contact typeNO Normally opened
Warning Alarm type Trip All the time Valid if checkbox “Engin
one running
ly” is not checked Alarm active
Engine running only Valid if checkbox “Engine running only” is checked
Control Use this setting to configure the desired function from the list below.
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Binary inputs IA-NT - default
BI1 GCB Feedback
Load
k
ansfer
BI6 Remote TEST
BI7 Remote TEST OnLd
BI2 MCB Feedback
BI3 GenReadyTo
BI4 MainsFailBloc
BI5 Remote Tr
Binary inputs – list
Rem Start/Stop External request for engine run. AUT mode only.
NOTE: If the binary input Rem Start/Stop is active and mains failure occures, the MCB breaker opens and after the Trans Del delay the GCB breaker is closed. Once the mains is OK, the MainsReturnDel delay elaspes and the GCB breaker is opened. Then after the Trans Del delay is MCB breaker closed. Gen-set remains running as long as Rem Start/Stop is active. See AMF time chart for more details.
without waiting for the AMF tart Del has elapsed. In the case the transfer not succeeded the system will stay in
rms its work normally.
k
t to the output GCB CLOSE/OPEN
back
ergency Stop opened. Input
Access Lock If the input is closed, no setpoints can be adjusted from controller front panel and gen-set mode (OFF-MAN-AUT-TEST) cannot be changed.
Rem Transfer External request for an immediate transfer from mains to generator Settings: EmergSneutral position. The MainsFailBlock input perfo
GCB FeedbacUse this input for indication, whether the generator circuit breaker is open or closed. If the feedback is not used, connect this inpu
MCB FeedThis input indicates whether MCB is closed or opened.
EmIf the input is opened, the stop signal for the gen-set is sent and the MCB and GCB areis inverted (normally closed) in default configuration.
NOTE: Access Lock does not protect setpoints and mode changing from LiteEdit. To avoid unqualified changes the selected setpoints can be password protected. Also the button Fault reset, is not blocked at all and buttons Start and Stop in MAN mode are not blocked.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 41 IA-NT- PWR-2.0-Reference Guide.pdf
ode (there are four modes OFF-MAN-AUT-TEST). When opens r is switched back to previous mode.
Remote OFF If closed, IA-NT is switched to OFF mcontrolle NOTE: This binary input should be connected to schedule timer switch, to avoid start of engine.
te MAN d to the controller independently on the position of the MODE
tive, AUTO mode is forced to the controller independently on the position of the MODE st priority.
ST). When opens
Ld rs load
et to MANUAL. ally transferred back to the mains when any gen-set shut down protection activates.
active, setpoints writing or command sending from the external terminal is disabled.
esButton as the same function as Fault Reset button on the InteliATSNT front panel.
RemoIf the input is active, MAN mode is forceselector.
Remote AUT If the input is acselector. If another of remote inputs is active, then the REMOTE AUT input has the lowe
Remote TESTIf closed, IA-NT is switched to TEST mode (there are four modes OFF-MAN-AUT-TEcontroller is switched back to previous mode.
Rem TEST OnAffects the behavior in TEST mode. When input is closed, the controller automatically transfefrom the mains to the gen-set. Setpoint AMF Settings: ReturnFromTEST must be sLoad is automatic
RemControlLock If the input is
FaultRBinary input h
GCB Button Binary input has the same function as GCB button on the InteliATSNT front panel. It is active in MAN mode only.
MCB Button Binary input has the same function as MCB button on the InteliATSNT front panel. It is active in MAN mode only.
MainsFailBlock If the input is closed, the automatic start of the gen-set at Mains failure is blocked. In case of runningen-set the GCB is opened, gen-set goes to Cooling p
g rocedure and stops.
ns for successful gen-set start and readiness to undertake load can be – depending on the GenerProtect setpoint – evaluated from the voltage and the frequency of the generator or from the state of GenReadyToLoad input. The conditions have to be fulfilled during time defined by the MaxGenStartDel setpoint (which can be even unlimited). More info can be found in tp t description.
Neutral Pos In MAN mode this input switches a three position ATS switch to its neutral position – it activates the binary output NeutralPosition and switches the MCB and GCB off.
GenReadyToLoad Indicates wether the gen-set is ready to undertake load. Conditio
the se oin
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 42 IA-NT- PWR-2.0-Reference Guide.pdf
ot have usually power sources.Then this
s is healthy to be able to respond to Mains failure.
has been added. tive. If the reason
ed, the alarm is activated. If not, the alarm does not perform “filtering” of alarms within a specified period of time.
llowing setpoints:
MainsHealthy This iinput was creted mainly for cascading applications, where slave controllers do nMains and Gen-set voltage measuring inputs connected to the repspectivebinary input tells the controller if Main
Programmable delay on alarms Possibility to set programmable delay on alarms configured for binary intput 6 and 7If set, it blocks alarms of the respective binary input for the whole time the delay is acfor the alarm persists after the delay time expirappear. This feature allows the user toThe delay length can be set via the fo
Binary outputs IA-NT - default
BO1 GenStart/Stop
pen
e/Open
AMF
ail
rt Fail
uts - list
BO2 Alarm
BO3 GCB Close/O
BO4 MCB Clos
BO5 Ready To
BO6 AL Mains F
BO7 AL Sta
Binary outp
Not Used Output has no function.
cked when the output is inactive and the GCB is blocked too. Output can be inverted (CLOSE-OFF) using Basic
nStart Logic setpoint.
tput closes when the gen-set start is requested and opens after the AMF Settings: Prestart d. Afterwards the GenStart/Stop output is activated as a start signal for the remote
I the Mains Fail had occurred and the gen-set start is the result of this event. See the AMF Settings: Prestart Time setpoint for more info.
Alarm The output closes if :
• any alarm comes up or The output opens if
• FAULT RESET is pressed
GenStart/Stop The closed relay sends remote start signal to the gen-set. Generator protections are blo
Settings: Ge
Prestart The ouTime has elapsegen- t.se
Pre atr nsfer s activated during the Prestart phase when
The output closes again if a new fault comes up.
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The output controls the generator circuit breaker. GCB Close/Open
NOTE: Supposed time to close (reaction time) of GCB is 0.1 sec.
ates Generator Circuit Breaker coil.
oil
Breaker coil after voltage drop-out.
/Open aker.
tivates Mains Circuit Breaker coil.
eactivates Mains Circuit Breaker coil.
ntrols Mains Circuit Breaker coil after voltage drop-out.
copy of Fault Reset button on controller and binary input FaultResButton.
opy of generator status LED on IA-NT front panel. The output is closed if gen-set is
On Load ms OK and (LBI) GCB Feedback OK
R ave, if the controller is able to start the engine and simultaneously the controller is in
sed if following conditions are fulfilled:
OFF Mode
Ready To Load The output is closed if gen-set is running and all electric values are in limits and no alarm is active - it is possible to close GCB or it is already closed. The output opens during cooling state.
Mains Healthy The output is copy of mains status LED on IA-NT front panel. The output is closed if mains voltage and frequency are within limits.
GCB ON Coil The output activ
GCB OFF CThe output deactivates Generator Circuit Breaker coil.
GCB UV Coil The output controls Generator Circuit
MCB CloseThe output controls the mains circuit bre
MCB ON Coil The output ac
MCB OFF Coil The output d
MCB UV Coil The output co
Fault Reset The output is a
Gen Healthy The output is a crunning and all gen-set electric values are in limits.
Gen (LBO) Gener On Load <= (LBO) Gen Para
e dy To AMF The output is actiAUT Mode.
Ready The output is clo
• Gen-set is not running and • Controller is not in
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 44 IA-NT- PWR-2.0-Reference Guide.pdf
On Load <= (LBO) Mains Healthy and (LBI) MCB Feedback OK
r overvoltage shutdown alarm activates. The out
• alarm is not active and • FAULT RESET is pressed
Mains On Load (LBO) Mains
AL Gen >V The out t pu closes if the generato
put opens, if
AL Gen <V The out ervoltage shutdown alarm activates. The output opens, if
alarm is not active and
put closes if the generator und
• • FAULT RESET is pressed
AL Gen Volts The output closes if the generator over/under voltage alarm or voltage asymmetry alarm activates.
ns, if
FAULT RESET is pressed
The output ope• alarm is not active and •
AL Ge the generator over/under frequency alarm activates.
alarm is not active and pressed
n Freq Output closes ifThe output opens, if
• • FAULT RESET is
AL Gen >Freq tivates.
e and ssed
Output closes if the generator over frequency alarm acs, if The output open
• alarm is not activ• FAULT RESET is pre
AL Gen <Freq
• alarm is not active and RESET is pressed
Output closes ifThe out t
the generator under frequency alarm activates. pu opens, if
• FAULT
AL Mains Volts The output r/under voltage alarm or voltage asymmetry alarm activates.
if
Output clos ncy alarm activates. The output opens, if
• alarm is ot active
AL Overload Sd Output closes if the generator overload alarm activates. The output opens, if
• alarm is not active and • FAULT RESET is pressed
closes if the mains oveThe output opens,
• alarm is not active
AL Mains Freq es if the mains over/under freque
n
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 45 IA-NT- PWR-2.0-Reference Guide.pdf
ltage or oil pressure protection goes active 60s after stop command. With start goes this protection
The out alarm is not active and
FAULT RESET is pressed
AL Stop Fail Output closes when the engine have to be stopped, but speed or frequency or vois detected. Thisinactive.
put opens, if ••
AL Mains Fail Output c slo es if the mains ov
rm activates. er/under voltage alarm, voltage asymmetry alarm or mains over/under
frequency alaens, if
AL St tOutput close
, if ctive and
is pressed
The output op• alarm is not active
ar Fail s after the gen-set start-up fails.
The output opens• alarm is not a
AULT RESET• F
AL Overcurrent Output closes if the generator
current unbalance or rm activates.
IDMT over current or
short current alaThe output opens, if Alarm is not active and FAULT RESET is pressed
AL Ba IA-NT performs reset during start procedure (probably due to weak battery) or
rs. s, if
essed
tteryFail Output closes whenwhen battery under/over voltage warning appeaThe output open
• alarm is not active and • FAULT RESET is pr
AL Common Wrn Output closes when any warning alarm appears. The out t
active and • FAULT RESET is pressed
pu opens, if • No warning alarm is
AL Common Trip Output closes when any trip alarm appears.
• No trip alarm is active and • FAULT RESET is pressed
The output opens, if
Mode OFF The output is closed, if OFF Mode is selected.
Mode MAN The output is closed, if MAN Mode is selected.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 46 IA-NT- PWR-2.0-Reference Guide.pdf
closed, if AUT Mode is selected.
selected.
tive and is pressed
Mode AUT The output is
Mode TEST The output is closed, if TEST mode is The output opens, if Alarm is not acFAULT RESET
Exerc Timer 1 in AUT mode.
neously, gen-set is started when it is in AUT mode.
T
MCB and GCB Close/Open level change
TS three way switch to the position II. l Pos output switches the ATS three way switch to the position 0 (middle). behavior of the ATS output differs depending on the priority of the inputs of the particular
overrides the current position of the witc
Neutral Coil B ON
Neutral Coil output switches the ATS three way switch to the position 0 (middle).
Power Switch This switch is assigned to the gen-set active power. The setpoints PowerSwitch ON [kW]
Output activates when Timer 1 is active. Simultaneously, gen-set is started when it is
Exerc Timer 2 Output activates when Timer 2 is active. Simulta
Not In AUOutput activates when the controller is not in AUT mode.
Neutral Pos Switches ATS switch to its neutral position. It is a complement to thebinary outputs and it switches the ATS switch to its neutral position by applying voltage(log. 0/ log. 1).
MCB Close/Open output switches the ATS three way switch to the position I. GCB Close/Open output switches the A Neutra
The resulting type of the ATS switch. If the neutral position input of the switch has the highest priority its h and forces the switch to the neutral position.
Activates the neutral position coil of the ATS switch. It is a complement to the MCB and GCCoil and it switches the ATS switch to its neutral position by applying a voltage pulse.
MCB ON Coil output switches the ATS three way switch to the position I. GCB ON Coil output switches the ATS three way switch to the position II.
and PowerSwitch OFF [kW] for on and off level adjustment are located in the setpoint group Engine Params. Typical usage for this binary output can be switching of dummy load. The output behaves
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 47 IA-NT- PWR-2.0-Reference Guide.pdf
based on the setpoint adjustment as described on picture lower:
Shunt Trip Activates when the system is running in short time parallel with mains (closed transition) and the time of the parallel run is longer than 300ms. It is a kind of protection against long time parallel run with mains when closed transition takes place.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 48 IA-NT- PWR-2.0-Reference Guide.pdf
s Setpoint
Password
EnterPassword Password is a four-digit number. Password enables change of relevant protected setpoints.
key to enter the password. Use ↑ or ↓ keys to set and ENTER NOTE: There is only 1 level of a password.
ChangePassword Use ↑ or ↓ keys to set and ENTER key to change the password. NOTE: At first the password has to be entered before the new password can be changed.
Basic Settings
ControllerName efine e, used User d d nam for InteliNT identification at remote phone or mobile connection. llerN 14 characters long and have to be entered using LiteEdit software.
[kW]
rrent [ A ] rrent and short current protection and means maximal
er Protect: Amps IDMT Del, Short Crct Sd setpoints. fferent from generator rated current value.
Step: 1 A nge: 1 - 10000 A
Contro ame is max
Nominal PowerNominal power of the generator Step: 1kW
– 5000 kW Range: 1
Nomin Cu It is current limit for generator IDMT over cucon n genti uous erator current. See GenNominal Current can be di
Ra
CT Ratio [/5A] Gen-set phases current transformers ratio. Step: 1 A Range: 1 – 5000 A / 5A Hint: For firmware versions < 2.0: For CT Ratio <= 250 the values of power and current are displayed in a controller with one decimal. For CT Ratio > 250 the values of power and current are displayed in a controller with integral numbers. If you change CT Ratio in LiteEdit or directly in the controller, decimal numbers will not be changed immediately. The change w e uted only by reconfiguring in LiteEdit. The statistics of ill be xecpower will be recounted at this time wi cimal numbers of power. th regards to deWARNIN When you change the firmware, statistics can be invalid! G!WARNING! Change of CT ratio over value 250 without reconfiguring in LiteEdit can cause overflow of current measurement and improper function of controller!
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 49 IA-NT- PWR-2.0-Reference Guide.pdf
For firmware version >= 2.0: Decimal switching is not done via value of “CT ratio” setpoint, but in configuration window of LiteEdit software via icon „Units/Formats“:
PT Ratio [/1] rmers ratio.
V / V
[/1] Mains potential transformers ratio. Step: 0,1 V / V Range: 0,1 – 500,0 V / V
NomVolts Ph-N [V] Nominal generator voltage (phase to neutral) Step: 1V Range: 80 – 20000 V
Gen-set potential transfoStep: 0,1 Range: 0,1 – 500,0 V / V
Vm PT Ratio
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NOTE: Phase sequence check is not possible to evaluate under voltage 50V what causes that if measured voltage 50V is within the allowed range, controller will not allow to close the GCB, even if relevant LED diod on front panel o NT f IA- lits.
al ge e (phase to phase) 1V
[Hz] e sually 5
ActivityAtOFF [ENABLE/DISABLE] trolle avior of OFF mode.
ts and there is Fault reset active all the time.
, AUT,TEST] de c es by MODE→ or ←MODE buttons.
NomV ts Phol -Ph [V] Nomin nerator voltagStep: Range: 000 138 – 35 V
Nominal Freq Nominal generator frequ ncy (u 0 or 60 Hz ) Step: 1Hz Range: 45 – 65 Hz
ENABLE: Con r at OFF mode stays at standard behDISABLE: Controller at OFF mode opens all binary outpu
ControllerMode [OFF, MANEquivalent to Controller mo hang NOTE: Controller Mode change can be separately password protected.
dress different from the default value re controllers can be intercon ssed e.g. from Modbus
ControllerAddr (1 .. 32) [-] Controller identification number. It is possible to set controller ad(1) so that mo nected (via RS485) and acceterminal. NOTE: When ope ing connection to the controller it's addrn e setting in PC tool. ess has to correspond with thFrom LiteEdit it is only possible to connect to controllers with address 1.
COM1 Mode [DIRECT/MODEM/MODBUS] Communication protocol switch for the COM1 channel. DIRECT: nication protocol via direcMODEM: nication protocol via mod
LiteEdit commu t cable.
uide. LiteEdit commu em.
US: tion in InteliCommunication gMODB Modbus protocol. See detailed descrip NOTE: For details on communic. speed and other technical parameters please see chapter Technical Data. For detail description see chapter Modbus protocol. Register oriented modbus is supported.
COM2 Mode [DIRECT/MODBUS] Communication protocol switch for the COM2 channel, if dual communication module is pluged in. DIRECT: LiteEdit communication protocol via direct cable. MODBUS: Modbus protocol. See detailed description in InteliCommunication guide. NOTE: For details on communic. speed and other technical parameters please see chapter Technical Data. For detail description see chapter Modbus protocol. Register oriented modbus is supported.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 51 IA-NT- PWR-2.0-Reference Guide.pdf
s selected on COM1 or COM2 channels, the Modbus communication speed in here
-OFF] i
ld start when the output Gen Start/Stop is closed. ld start when the output Gen Start/Stop is opened.
ndWarning threshold for low battery voltage.
0,1 V Volts)
Ove [V] hold or hi b ttery voltage.
Connection h3Wire / Split Ph / Mono Ph] w
l - 4 wires, t – 3PY, 3x CT
3Ph3Wire: DELTA Connection, 3 Phase without neutral - 3 Wires, Thr ent – 3PD, 3x CT
MONOPHAS
rrent measurement) is located next to the load. t: rement) is located next to the gen-set.
/INPH-OPEN/CLOS-OPEN] lly enhances controller function and brings
p hase Transition and Closed Transition (short time parallel). Controller provide urces depending oOICLOSED Closed Transition INPH-OPEN Open In-phase Transition or Open Delayed Transition CLOS-OPEN Closed Transition or Open Delayed Transition
1. Open Delayed Transition Open Delayed Transition is standard type of changeover provided by most common AMF or ATS controllers supplied by other vendors. Controllers perform load transfer between both power sources with break (blackout). Delayed Transition means there is delay between source breaker opening and target breaker closing.
ModbusComSpeed [9600,19200, 38400, 57600] If the Modbus mode ibps can be adjusted .
GenStart Logic [CLOSE-ON/CLOSEThe set po nt influences the behavior of the output Gen Start/Stop. CLOSE-ON: Gen-set shouCLOSE-OFF: Gen-set shou
Batt U ervolt [V]
Step: Range: 8V – 40 (Battery >
Batt rvolt Warning thres f aStep: 0,1 V
: 8V – 40 (Battery <Volts) Range
Batt Volt Del [s] Delay for low battery voltage alarm. Step: 1s Range: 0 – 600 s
Type [3Ph4Wire / 3PGenerator inding connection.
nnection, 3 phases and neutra3Ph4Wire: STAR CoThree phase “wye” measuremen
ee phase “delta” measuremSplit Phase: DOUBLE DELTA Connection, Split Phase,
Single-phase measurement – 1PH, 1xCTMono Phase: E,
Single-phase measurement – 1PH, 1x CT
CT Location [Load / GenSet] Load: CT (cuGenSe CT (current measu
Transition [OPEN/INPHASE/CLOSEDAbility to perform passive synchronization dramaticaossibility to provide Open In-p
s below described types of changeover between Mains and Gen-set power son following setpoint value: PEN Open Delayed Transition
N-PHASE Open In-phase Transition
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tion ATS switch or two independent breakers/contactors can be used as
A-NT controllers. Our controllers offer possibility to setup load transfer delay via Transfer Del setpoint.
Two or three posiswitching mechanism.
Bellow you can see how is Open Delay Transition implemented by I
HINT: This transition can perform fastest possible changeover if Transfer Del is set to zero value. Overall blackout time then equals to 20 ms + breaker reaction time. HINT: Use longer delay time to avoid problems with motor starters. (Motor starts prefer to see break of a few seconds so they can initialize properly). HINT: To avoid issues with contactor mechanical interlocks use delay 0.75s or longer (mech. interlock on contactors takes some time to clear). If you try to close one contactor before interlock has cleared it can jam and you end up with out supply to load).
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 53 IA-NT- PWR-2.0-Reference Guide.pdf
here delay during n both power
setpoint value is ignored (equals to zero). See description of
for such systems where fast changeover (very short blackout) is ot possible to use
nt breakers/contactors can be used as ays) affects
switching time << 200 ms). The faster the better to ensure real in-phase transition –> once sync moment is calculated and source is disconnected from load, electrical parameters of load are changing dynamically and could fall out of sync rapidly. Real phase difference depends on that switching time.
2. Open In-phase Transition Open In-phase Transition represents special kind of Open Delayed Transition wchangeover is reduced to minimal possible value and transition initiates only whesources are in sync. Transfer Delpassive synchronization for more info.
This kind of transition is suitablerequired, huge inductive load (e.g. large electric motor) is involved and it is nClosed Transition due to some reason.
Two or three position ATS switch or two independeswitching element. Reaction time of whole switching mechanism (including control reloverall changeover time and in-phase transfer accuracy.
It is recommended to use as fast switches as possible (overall
Picture above shows how is Open In-phase Transition implemented by IA-NT controllers.
In case of system using two separate breakers/contactors controller ensures no overlap between both switches during changeover however mechanical interlock can still be useful. Two or three position ATS switches ensure this by its nature.
HINT:
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 54 IA-NT- PWR-2.0-Reference Guide.pdf
It is necessary to use fast breakers with known closing/opening time when Open In-phase Transition takes place. Breaker switching time is used as parameter (MCB Delay, GCB Delay) for calculation/prediction of exact in-sync moment. Overall blackout time equals to 100 ms + one breaker reaction time (incl. control relay delay). HINT: In case of source (e.g. mains) failure changeover from source is always performed as open delayed, not as in-phase. HINT: During system tests two separate breakers/contactors with switching time below 50ms were used along with fast ATS switches (e.g. SOCOMEC ATyS M 3s, switching time 180 ms). We do not recommend usage of switching elements their reaction time exceeds these values!
HINT: Breaker delay default value for both breakers (MCB Delay, GCB Delay) is set to 50ms. ATS switch delay consists of both delays.
3. Closed Transition Closed Transition presents transition type where both breakers/contactors overlap for 100 ms and
is suitable for e
on time of whole switching mechanism (including control relays) affects overall changeover time.
It is required to use as fast switches as possible (breaker opening time < 100 ms including control relay). If parallel run exceeds 200 ms both breakers are opened and alarm is activated. If parallel run still continues (breakers are closed for at least 100 additional milliseconds), binary output Shunt Trip is activated (if configured).
transition initiates only when both power sources are in sync. This kind of transitionsuch systems where no break (no blackout) changeover is required. Transfer Del setpoint valuis ignored (equals to zero).
See description of passive synchronization for more info.
Two independent breakers/contactors are required as switching elements. Reacti
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HINT: It is necessary to use fast breakers with known closing/opening time when Closed Transition takes place. Breaker switching time is used as parameter (MCB Delay / GCB Delay) for calculation/prediction of exact in-sync moment. HINT: In case of source (e.g. mains) failure changeover from source is always performed as open delayed, not as closed.
HINT: During system tests two separate breakers/contactors with switching time below 50ms were used. We do not recommend usage of switching elements their reaction time exceeds these values.
HINT: Breaker delay default value for both breakers (MCB Delay, GCB Delay) is set to 50ms.
ition, Closed + Open Delayed Transition equals to [INPH-OPEN] or [CLOS-OPEN], system continues with Open
elaye sition after requested synchronized transition failed (sync timeout expired sooner than both sources reached synchronized state)
GCB Delay [s] By means of this setpoi system gets m n about breaker/contactor switching time. This value is needed for exact sync oment/ time predi n. Step: 0.01 s Range: 0.01 – 60.00 s Default: 0.05 s
4. Closed + Open Delayed TransIf Setpoint TransitionD d Tran
nt infor atio m ctio
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rmation about breaker/contactor switching time. This value d f oment/ time prediction.
Range: 0.01 – 60.00 s
MCB Delay [s] By means of this setpoint system gets infois nee or exact sync m
.01 s de
Step: 0
Default: 0.05 s
HINT: Value of breaker switching time MUST contain all the parts of breaker delay (i.e. breaker switching time plus switching time of relay used for breaker control). The more exact value is given, the more exact is the sync result.
Engine Params
Pres Titart me [s] s Prestart and/or Pretransfer output prior to the engine start.
u w nt to ave utput Prestart/Pretransfer open.
[s]
el [s] u START/STOP. When generator does not reach
defined limits Basic Settings: Nominal Freq) within Max Start Del, Trp Start Fail alarm occurs and the gen-set will shut down. See the table below for a description of the engine start evaluation. If MaxStartDel is longer then 600 s it means there is NO TIMEOUT. Step: 1s Range: 0 – 600 s, 601 s = NO TIMEOUT
Time of clo ing of the Set to zero if yo a le the oStep: 1s
: 0 – 600 s Range
Cooling Time Runtime of the lo gun aded en-set to cool the engine before stop. Step: 1s Range: 0 – 3600 s
Max Start DThis timeo t starts after closing binary output GEN
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Engine start evaluation diagram:
Min Stab Time [s] Minimum time interval between defined generator voltage is reached to GCB is clIf BI: GenReadyToLoad is not configured, timer is not used. Step: 1s
ge: 1 – 300 s
osed.
Stop Time of the Stop Time setpoint tells the controller how long should it wait for the
or pires the Wrn Stop s Stop command to
(Start/Stop output is deactivated). Step: 1s Range: 0 – 3601 sec Value 3601 mean ntroller doesn’t care for the engine is
stopped (Wrn ounced).
Power switch function This switch is assigned to the gen-set active power. Typical usage for this binary output can be switching of dummy load. The output behaves based on the setpoint adjustment as described on picture lower:
Ran
[s] Period given by the value engine to change to the stop state (stop state means GenReadyToLoad signal is deactivated generator voltages disappeared). If the engine is still running after the stop time exFail alarm is announced. Stop Fail starts counting always when the controller sendthe engine
s the co Stop Fail is never ann
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PowerSwitch ON [kW] witch” on.
1 : 0 kW
PowerSwitchOFF [kW] Threshold level for switching the binary output “Power Switch” off. Step: 1 Range: 0 – 32000 kW
Threshold level for switching the binary output “Power SStep: Range 0 – 3200
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Gener Protect NOTE: All electric protections when activated result in shutdown.
Gener otect [ENABLE/DIPr SABLE] Generato ntroller are active.
are inactive.
loa [%] erload ower)
1% of Nominal power
loa [s] o d ala
r [%] o nt reaches Short Crct Sd limit.
nt :
[s]
10.00 s
IDMT curve shape rotection for 200% overcurrent IStep:
ry inverse” generator over current protection. Reaction time is not constant but depends on
mal value of all measured phases of generator current.
ENABLE: r protections of the coDISABLE: en r ctionsG erato prote of the controller
Over d Threshold for generator ov (in % of Nominal pStep: Range: 0 – 200%
Over d Del Delay for generat r overloa rm. Step: 0.1s Range: 0 – 600.0 s
Short Crct T p r curreShutdown occurs when generat
% of Nominal curreStep: 1Range 100 - 500 %
Short Crct Del Delay for generator shorcurrent alarm.
1s Step: 0.0:Range 0.00 –
Amps IDMT Del [s] selection. Amps IDMT Del is Reaction time of IDMT p
Current. gen = 2* Nomin 0.1 s 0.1 - 60.0 s Range:
IDMT is “vegenerator over current level according following formula.
Igen is maxi
Amps IDMT Del * Nomin Current Reaction time = Igen - Nomin Current
NOTE: Reaction time is limited up to 900 sec = 15 minutes. IDMT protection is not active for Reaction time values longer than 15 minutes. EXAMPLE of Reaction time for different over current levels. Values in column 200% are IDMT Curr Del.
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Igen
Nominal Current Short Crct Sd
Amps IDMT Del
Maximal Reaction time
Reac
tion
time
Amps Unbal Trp [%] old for generator current asymmetry (unbalance).
Step: 1% of Nominal current 1 – 200% of Nominal current
s U [s] lance
0.1 s
] Threshold for generator overvoltage. All three phases are checked. Maximum out of three is used. Step: 1% of Nominal voltage Range: 0(Gen <V Sd) – 200%
Gen <V Trp [%] Threshold for generator undervoltage. All three phases are checked. Minimum out of three is used. Step: 1% of Nominal voltage Range: 0% – 200 (Gen >V Sd)%
rrent Overcu % =
MT CDel
≤ 100 % 101 % 110 % 200ID urr
0,2 s o ac 20 2 s N tion s
Thresh
Range:
Amp nbal Del Delay for generator current unbaStep: Range: 0.0 – 600.0 s
Gen >V Trp [%
2 s No 200 s 20 s action
Reaction time20 s No action No action
(time > 900 s)200 s
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 61 IA-NT- PWR-2.0-Reference Guide.pdf
ervoltage and overvoltage alarm
] hold f ance alarm.
al voltage 200% f No l voltage
[s] unbala arm.
>Frn ator p ase L rfrequency.
% of Nominal frequency
[%]
: 0 (Gen >Freq Sd ) % of Nominal frequency
[s]
ble del y on alarms le configured for binary intput 6 and 7 has been added. spective binary input for the whole time the delay is active. If the reason
the delay time expired, the alarm is activated. If not, the alarm does not lows the user to perform “filtering” of alarms within a specified period of time.
l gth can be set via the following setpoints:
[s] input nr. 6
ct Step: 0.1s
Range: 0 – 360.0 s
AMF Settings
Gen V Del [s] Delay for generator undStep: 0.1s Range: 0.0 – 600.0 s
Volt Unbal Trp [%Thres or generator voltage unbalStep: 1% of NominRange: 0 – o mina
Volt Unbal Del Delay for generator voltage nce alStep: 0.1s Range: 0.0 – 600.0 s
Gen eq Trp [%] Threshold for ge er h 3 oveStep: 0.1% of Nominal frequency
: 200.0Range 0 (Gen <Freq Sd) –
Gen <Freq Trp Threshold for generator phase L3 underfrequency.
0.1% of Nominal frequency Step:Range 0.0 – 20
Gen Freq Del Delay for generator underfrequency and overfrequency alarm. Step: 0.1s Range: 0.0 – 600.0 s
Programma adelay on alarms Possibility to set programmab
the reIf set, it blocks alarms ofsists after for the alarm per
appear. This feature alThe delay en
BI6 Delay Delay for alarm on binarySetpoint group: Gener Prote
Range: 0 – 360.0 s
BI7 Delay [s] Delay for alarm on bin inp r. 7 ary ut nSetpoint group: Gener Protect Step: 0.1s
RetFromIsland [MANUAL, AUTO] MANUAL: After closing GCB, IA-NT goes to MAN Mode automatically. AUTO: No automatic switching to MAN Mode.
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failure to the start of the gen-set
6000
] return to the GCB opening.
1s
ng to MCB closing during the return procedure. Delay after MCB opening to GCB closing if the setpoint MCB Opens On set to GENRUN Step: 0.1s Range: 0 – 600.0 s
EmergStart Del [s] Delay after the mainsStep: 1s Range: 0 – s
MainsReturnDel [sDelay after the mains Step: Range: s1 – 3600
Trans Del fer [s] Delay after GCB openi
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 63 IA-NT- PWR-2.0-Reference Guide.pdf
The time charts bellow show recommended setting of AMF Settings: Transfer Del setpoint.
shor eedback of t B Close/Open s G sfer Del
Close/Open output straight away (100 ms) must be set to sum of “MCB opening” + “del” after the MCB feedback input deactivates. time.
o e D l [s] -up procedure)
p
[%] hree is used.
tage Range: 50 (Mains <V) – 150%
[%] hold for mains undervoltage. All three phases are checked. Maximum out of three is used. nominal voltage
0 – 15 (Mai )%
[s] rvoltage and overvoltage
s
V l [%] e unbal
1% of Nominal voltage
V [s] Delay for mains voltage nbalance Step: 0.1 s Range: 0- 60.0
Mains >Freq [%] Threshold for mains overfrequency. All three phases are checked. Maximum out of three is used. Step: 0.1% of Nominal frequency Range: 50 (Mains <Freq) – 150.0%
If the Transfer Del setpoint is set ter If some delay between MCB f
than the time required for opening he deactivation and closing of GCoutput is required, then the Trancircuit breaker, the controller close CB
MCB Close/Open
MCB Feedback
GCB
MCB Close/Open
MCB Feedback
GCB Close/Open
MCB opening del
Transfer Del
MCB Cl s e Delay after mains returns to MCB closing, if gen-set is not running(e.g. is in startSte : 0.1s Range: 0 – 60.0 s
Mains >VThr s r mains overvoltagee hold fo . All three phases are checked. Maximum out of tStep: 1% of Nominal vol
Mains <V ThresStep: 1% of Range: 5 % 0 ns >V
Mains Del V Delay for mains undeStep: 0.1 Range: 0 – s600.0
Mains UnbaThreshold for mains voltag ance Step: Range: 1 – 150%
Mains Unb Del u
Close/Open
Transfer Del
MCB opening
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 64 IA-NT- PWR-2.0-Reference Guide.pdf
hold f All three phases are checked. Maximum out of three is used. ency
0 – 15 .0(Ma req)%
rfrequency and overfrequency
0.1s 0 60.0
] The set point influences the behavior of the output MCB CLOSE/OPEN CLOSE-ON: When the output MCB CLOSE/OPEN is closed – MCB should be closed. CLOSE-OF the output MCB CLOSE/OPEN is closed – MCB should be opened.
Mains <Freq [%] Thr s or mains underfrequencye .Step: 0.1% of Nominal frequRange: 5 % 0 ins >F
Mains Freq Del [s]Delay for mains undeStep: Range: – s
MCB Logic [CLOSE-ON / CLOSE-OFF
F: When
IA “OFF”
MCB logic = ”CLOSE-ON”
IA “ON”
Mains O.K. Mains O.K.
Mains Failure
Signal after exterinverted relay
MCB logic = ”CLOSE-OFF” nal
+
NOTE: In the case MCB Logic = “CLOSE-OFF” it is necessary to change externally the polarity of the output signal.
ReturnFromTEST [MANUAL / AUTO] The set point influences the behavior of the TEST mode. MANUAL: 1) Select TEST, gen-sets starts and running unloaded
Battery
-
iLDO 4
MCB
AUX.INVERTING
RELAY
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CB ON/OFF or wait for power-cut. 2) To transfer load from mains to the gen-set press M3) When mains recovers, the gen-set remains running loaded.
CB b) After the Transfer Del delay InteliATSNT closes the MCB. c) The gen-set is cooled and stopped
4) To stop the gen-set select AUTO Mode 5) In AUT Mode:
a teliATSNT opens the G) After the MainsReturnDel In
AUT: 1) Select TEST, gen-sets2
starts and running unloaded r the power-cut. the controller does not response ) To transfer load from mains to the gen-set wait fo
for MCB ON/OFF button. 3) When the mains recovers:
ens the GCB nsfer Del d CB. ains runnin
Opens On [MAINSFAIL / GENRUN]
a) After the MainsReturnDel the controller opb) After the Tra elay the controller closes the M
4) The gen-set rem g. 5) To stop the gen-set select a different mode than TEST.
MCB MAINSFAIL The command to open the MCB is given immediately after mains fail condition evalu
ated.
RUNGEN setpoint
EmergStart Del), reaches proper voltage and frequency and Min Stab Time elapses. After that, the ed and the GCB is closed after the timer elapses.
The command to open the MCB is not given till the Gen-set starts (with respecting the
MCB is opened, Transfer Del timer is start NOTE: This option should be used for MCBs using 230V control and not equipped with the undervoltage coil.
this timer starts. After the timer elapses the state of BI:
feedback del setpoint is longer then 60.0 s it means there is NO TIMEOUT.
ackDel [s] g binary output MCB close/open this timer starts. After the timer elapses the state of BI:
aluated. NO TIMEOUT.
O TIMEOUT.
GCBFeedbackDel [s] After closing binary output GCB close/openGCB feedback is evaluated. If the setting of the GCBStep: 0.1s Rang 0 – 60.0 s, 60.1 s = NO TIMEOUT. e:
MCBFeedbAfter closinMCB feedback is evIf the setting of the M fe ck delCB edba setpoint is longer then 60.0 s it means there is Step: 0.1s
– 60.0 s, 60.1 s = NRange: 0
Sync Ctrl
Voltage Window [%] This setpoint adjusts maximum allowed difference between generator and mains/bus voltage in respective phases for passive synchronizing: Step: 1 % Range: 0 – 30 % Default: 10 %
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 66 IA-NT- PWR-2.0-Reference Guide.pdf
d difference between generator and mains/bus frequency in ve
Freq Window [Hz] This setpoint adjusts maximum allowerespe phases for passive cti synchronizing:
1 Hz Step: 0. Range: 0.0 – 2.0 Hz (0.0 – 0.3 Hz for CLOSED transition) Default: 0.2 Hz
HINT: This setpoint de n trans ion typepe ds on it selected (setpoint Transition). If Closed transition takes place Frequenc W oint valuy indow setp es above 0.3 Hz are internally limited to value of 0.3 Hz.
mum time interval when system waits for both sources to get synchronized. hat ti nization timeout alarm is activated and either changeover is interrupted or ues a n delayed transition. See Transition setpoint description for more details, please.
Step: 1 min 1 – 60 min
Default: 1 min
Sync Timeout [min] This setpoint adjusts maxiAfter t me synchrocontin s ope
Range:
Date/Time
Time Stamp Per [min]
00m
Time interval for periodic history records. Step: 1 min Range: 0 – 2 in NOTE: Time stamps are only recorded into history while gen-set is running. When is engine stopped there are no time stamps records made.
SummerTimeMod [DISABLED / WINTER / SUMMER, WINTER-ER-S]
switching between summer and wintertime is disabled. mer and wintertime is enabled and it is set to
ER-S) : Modification for southern hemisphere.
[DDMMYYYY]
.. Fail Blk /
It is following Timer functions. Binary output Exerc Timer X is always activated when Timer is active regardless of chosen Timer function. Timer functions require controller running in AUT mode. No Func: There is no any other io ut binary output Timer1..2 activation. TEST: When this option is chosen then the Timer output is also internally connected to the
Remote TEST binary input. TEST OnLd: When this option is chosen then the Timer output is also internally connected to the
Rem TEST OnLd binary input. MFail Blk: When this option is chosen then the Timer output is also internally connected to the
MainsFailBlock binary input.
S, SUMMDISABLED: AutomaticWINTER (SUMMER) : Automatic switching between sumwinter (summer) season. WINTER-S (SUMM
Time [HHMMSS] Real time clock adjustment.
Date Actual date adjustment.
Timer1 2Function [No Func / TEST / TEST OnLd / MMode OFF]
possible to choose out of 5
funct n, b
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Mod ption is chosen then the Timer output is also internally connected to the binary input.
DNESDAY/FRIT-SUN]
s TIME is internally linked with Rem Start/Stop binary
MON AY, Y, WEDNESDAY, FRIDAY, SATURDAY, SUNDAY:activated on daily basis.
SAT-SUN: d on selected day interval.
ime ctivates.
Timer1..2Duration imer output is active.
1 min
e OFF: When this oRemote OFF
Timer 1..2 Repeat [NONE/MONDAY/TUESDAY/WEDNESDAY/THURSDAY/WEDAY/SATURDAY/SUNDAY/MON-FRI/MON-SAT/MON-SUN/SADefine R 1 activation. Binary output TIMER 1 input. Refer to binary inputs for details. NONE: Timer function is disabled
D TUESDAY, WEDNESDAY, THURSDA Timer is MON-FRI, MON-SAT, Timer is activate
Timer1..2 ON TDay t en T ime wh imer output a
Duration of TStep: Range: 1 – 1440 s
SMS/E-Mail
Remote alarm messaging If a GSM modem and/or Internet Bridge is connected to the controller, the controller camessages and/or emails in the mo
n send SMS ment when a new alarm appears in the Alarm list. The message will
contain a copy of the Alarm list.
Msg, which s shall be announced (red/yellow/both) and also enter valid GSM phone number and/or
il address to the setpoints TelNo/Addr Ch1 and TelNo/Addr Ch2. It is possible to put either a
To enable this function, you should select with setpoints Yel Alarm Msg and Red Alarmlevels of alarme-maGSM number or e-mail to both setpoints.
NOTE: An internet module be ilable for sending of e-mails. Smust ava imilarly, a GSM modem is necessary for sending of SMS. NOTE: There are 5 attempts for any active call (SMS/E-Mail). Timeout for connection is 90 sec and after 120 sec controller starts the next attempt. During the time the IA-NT is trying to send an active call type, incoming calls are blocked.
Set this setpoint to YES if you want to get messages when a yellow (warning) alarm occurs. Yel Alarm Msg [DISABLED, ENABLED]
NOTE: The target address (GSM phone num e ail address) must be set correctly to the setpoint(s) ber or -mTelNo/Ad r Ch1 resp. TelNo/Addr Ch
Red Alarm Msg [DISABLED, ENABLED] Set this setpoint to YES if you want to get messages when a red (shutdown) alarm occurs.
d 2.
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NOTE: The target address (GSM phone number or e-mail address) must be set correctly to the setpoint(s) TelNo/Addr Ch1 resp. TelNo/Addr Ch2.
he alarm messages e value of this parameter. If it consist „@“ it is
sup osed to be e-mail address and active e-mail is sent. If the value is number, without „@“, it is
TelNo/Addr Ch1, 2 Enter either a valid GSM phone number or e-mail address to this setpoint, where tshall be sent. Type of active call is considered from th
psupposed to be the telephone number and active SMS is sent.
NOTE: For GSM numbers use either national format (i.e. like number you will dial if you want to make a local call) or full international format with "+" character followed by international prefix in the begining. This setpoint can be modified from PC only!
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 69 IA-NT- PWR-2.0-Reference Guide.pdf
on Function Descripti
Operating modes Selection of the operating mode is done through Mode buttons on the front panel or by changing of the Controller mode setpoint (from the front panel or remotely).
NOTE: If this setpoint is configured as password-protected, correct password must be entered prior attempting to change the mode. NOTE: Mode can not be changed, if Access Lock input is active. T r g binary inputs that can be used to force one respective operating mode i e the mode setpoint selection:
•
he e are followinnd pendently on
Remote OFF • Remote MAN • Remote AUT • Remote TEST • Rem TEST OnLd
If the respective input is active the controller will change mode to the respective position according to rities of the
he priorities matches the order in the list above. If all inputs are deactivated the mode will iven by the setpoint.
in OFF mode depends mainly on setting of the ActivityAtOff
the active input. If more inputs are active the mode will be changed according to prioinputs. Treturn to the original position g
OFF The behavior of the controller setpoint.
No activity Setpoint ActivityAtOff = DISABLED.
The controller opens all binary outputs and Fault reset is active all the time.
Standard activity Setpoint ActivityAtOff = ENABLED.
oading The GCB will be opened and the engine will be immediately stopped in this mode without unland cooling. The MCB is closed permanently (MCB Opens On = GENRUN) or is open oaccording to the mains is present or not (
r closed MCB Opens On = MAINSFAIL). No AMF (A
- evaluates Mains failure / return) function will be performed. Buttons MCB, GCB, STincluding the appropriate binary inputs for external buttons are not active. Output
uto Mains Failure ART, STOP
GenStart/Stop is not d.
nd STOP buttons (or external buttons wired to appropiate binary inputs) in MAN mode. This will activate/deactivate GenStart/Stop
energize
MAN The engine can be started and stopped manually using START a
binary output which polarity depends on GenStart Logic setpoint. When the engine is running, GCB can be closed to a dead bus. Also MCB can b s nd opened manually using the MCB button, regardless the mains is present or not. No autostart is performed. No reaction to the input Rem
e clo ed a
Start/Stop.
NOTE: The engine can run without load unlimited time. The controller does not automatically stop the running gen-set in MAN Mode and does not start the gen-set when power cut comes.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 70 IA-NT- PWR-2.0-Reference Guide.pdf
NOTE: The breakers are internally locked to close two voltages against each. The controller will automatically recognize if the breaker can be closed, it means it is never possible to close both breakers together NOTE: If some voltage arises on generator bus (e.g. gen-set was started externally - not via IA-NT), generator LED blinks and [Stop], [MCB], [GCB] buttons are inactive. To bring them into operation [Start] button has to be pressed - it will synchronize IA-NT with gen-set state. CAUTION! The MCB can be opened manually in MAN mode. Accidental opening the MCB will cause the object (load) will remain without power!!!
AUT The engine is started and stopped either by the binary input Rem Start/Stop or by thmechani
e AMF sm or by the manual transfer request via Rem Transfer binary input. Buttons MCB, GCB,
not active. The full start the moment when the engine is loaded is automatic as well as unloading and stop
re
• and no next
• Gen-set Start/Stop signal stays active et parameters are OK (means GenReadyToLoad signal is activated or
generato d limits) and then G reclosed Fo n Voltage nough to
w e off po l setpoint
s
START, STOP including the appropriate binary inputs for external buttons are sequence up tosequence.
The controller behavior when gen-set is stopped and restarted again whilst the mains failuconstantly persists:
If the problem on the gen-set side appears, all faults messages are auto-quitoperation is be blocked
• Controller waits for gen-sr voltages are in allowe CB is
• re
r ensuring GCB Open/Close output remains off whilst Ge is OK long eind the Circuit breaker to th sition use the Transfer De
AMF equence (simplified) State Condition of the transition Action Next state
Mains failed1 or MCB feedback dropoutINSFAIL
MCB CLOSE/OPEN oEmergStart Del timer started
Mains failure MCB Opens On = MA
ff Mains operatio
edbackRUN
Mains failure n
Mains failed1 or MCB feMCB Opens On = GEN
dropout EmergStart Del timer started
Mains voltage and frequency OINSFAIL on
Mains operationK After elapsing MCB CMCB CLOSE/OPEN MCB Opens On = MA
lose Del
Mains voltage and frequency OMCB Opens On = GENRUN
Mains operationK None
EmergStart Del elapsed MCB Opens On = MAINSFAIL
nce perf , then
o
Island operationEngine start seque ormed
GCB CLOSE/OPEN n 2
Mains failure
EmergStart Del elapsed MCB Opens On = GENRUN
ce performed, EN off, time
lay Transfer Del performed and 2
Island operationEngine start sequenthen MCB CLOSE/OPdeGCB CLOSE/OPEN on
Island operation
Mains voltage and frequency OK MainsReturnDel timer started Mains return
Mains failed Island operationMains return MainsRetu Del elapsed GCB CLOSE/OPEN off, then after
Transfer Del MCB CLOSE/OPEN on and then engine stop sequence performed 3
Mains operationrn
1 Mains failed means mains over/under -voltage, over/under -frequency, voltage assymetry (preset delay must elapse)
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 71 IA-NT- PWR-2.0-Reference Guide.pdf
lay MCB Close Del2 If during start-up sequence mains returns, then MCB is reclosed with de (if opened, depending on MCB Opens On setpoint) and start-up sequence is interrupted.3 If mains fails during stop procedure (
cooling) again, stop sequence is interrupted, MCB opened and
GCB reclosedclosed with delay Transfer Del.
chapters: Circuit breakers timingSee also and AMF time chart.
WARNING! If an red alarm is present and the gen-set is in AUT mode, it can start by self after all red alarms becomes inactive and are acknowledged!!!
of the controller in TEST mode depends mainly on setting of the ReturnFromTEST
TESTThe behavior setpoint.
Automatic return Setpoint ReturnFromTEST = AUTO.
The gen-set will be started when the controller is put to TEST mode and will remain running unloaded. If a mains failure occurs, the MCB will be opened and after Transfer Del the GCB will be closed and
After mains is recovered, the delay MainsReturnDelthe gen-set will supply the load. will count ains is still ok, the controller will transfer the load back to the
ged. down and if elapses and the mmains and the gen-set will remain running unloaded again until the mode is chan
Manual return Setpoint ReturnFromTEST = MANUAL.
The d when the controller is put to TEST mode and will remain running unloaded.
sferred to the gen-set also manually:
ansfer Del
gen-set will be starteIf a mains failure occurs, the gen-set will take the load after it has started.
The load can be tran
• If the MCB button is pressed, the controller will open the MCB, then wait for Tr and
il the controller is
Test with load
finally close the GCB.
Once the load is supplied by the gen-set, the gen-set remains supplying it untswitched to other mode.
the gen-
lly make a , wait for Transfer Del
If the binary input Rem TEST OnLd is activated, the controller is switched to TEST mode (i.e.set will be started as described above), but once started the controller will automaticaswitchover, i.e. open MCB and close GCB.
to previous controller
will either stay supplying the load if the mains is failed, or will transfer the load back to the mains.
After the binary input Rem TEST OnLd has been deactivated, the controller goes backoperation mode and it's behavior depends on it. In most cases it will be AUT mode and the
Periodic exercises The output from the Exerc timer 1 is internally connected to the Remote TEST binary input to enable
testing of the gen-set.
The controller must have AUT mode selected by mode buttons and other "mode forcing" binary inputs must not be active to ensure proper function of the exercise.
periodic
NOTE: If a shutdown or other red alarm comes while the load is supplied from the gen-set and the mains is healthy, the load is switched back to the mains. CAUTION! The gen-set starts automatically and is always running in TEST mode!
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 72 IA-NT- PWR-2.0-Reference Guide.pdf
Circuit breakers timing
Relation between Mains fail and MCB and start of gen-set M
etected as Mains <V, Mains >V, Mains V Unbal, Mains <Freq, Mains >Freq. After
CB Opens On = MAINSFAIL:
Mains fail is ddetection MCB is opened.
NOTE: When MCB feedback drop-out and measured mains electrical limits (voltage, frequency) are still in limits, the controller switches MCB ON again.
EmergStart Del
Mains fail
MCB opened
Mains V Del or Mains Freq Del or Mains VUnb Del
genset start
MCB Opens On = GENRUN:
The MCB is not opened till the engine starts and gets ready to take the load.
Transfer Del
Engine started
MCB openedMinGenStabTime
GCB closed
MaxGenStartDel
Relation between Mains return and MCB OFF Mode, GCB and MCB are opened
Mains return
MCB closed (only when genset is not running and GCB is opened)
M B C Close Del
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 73 IA-NT- PWR-2.0-Reference Guide.pdf
Ren-set loaded.
Mains returns: GCB opens (according 3., MainsReturnDel), MCB closes (Transfer Del)
elation between GCB and MCB Conditions: AUTO Mode, Mains =off, MCB = opened, GCB = closed, g
GCB opened
MCB closed
Transfer Del
Relation between GCB and MCB (Test mode)
Situation 2: ReturnFromTEST=MANUAL, Mains =OK, MCB is closed, gen-set is running. Press MCB on/off -> MCB opens, GCB closes (Transfer Del), gen-set is running loaded.
Situation 1: Mains =OK, MCB = closed, GCB = opened, RPM=0. Change mode to TEST: gen-set starts, GCB = opened. Mains cut: MCB opens (according 1.), GCB closes (Transfer Del)
MCB opened
GCB closed
Transfer Del
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 74 IA-NT- PWR-2.0-Reference Guide.pdf
nt F re available:
• Trip re
Alarm Managemeollowing alarms a
• Warning
• Mains failu
Warning (WRN) When warning comes up, only alarm outputs and common warning output are closed.
warnings: ossible events
PossibleSee List of p
Trip (TRP) When the trip alarm comes up, InteliATSNT opens outputs GCB CLOSE/OPEN, GENSTART/STOP
p the engine immediately. Alarm outputs and common shutdown output are closed. Active or not reset protection disables start.
s:
and PRESTART to sto
Possible shut-down alarmSee List of possible events
Mains failure (MF) Mains failure detection depends on Auto mains failure (AMF) setpoints (levels and delays) adjusting.
p, mains circuit breaker is opened.
Possible mains failure reasons: See List of possible events
When the mains failure comes u
NOTE: Mains failure is not written to alarm list!
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 75 IA-NT- PWR-2.0-Reference Guide.pdf
AMF time chart – genset OK
AMF time chart – genset not started properly
NOTE: For more details please see the: * AMF Setting: MinStabTime & MaxStartDel setpoint description, ** AMF Setting: MCB Opens On & Transfer Del setpoint description, *** AMF Setting: MCB Close Del setpoint description
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 76 IA-NT- PWR-2.0-Reference Guide.pdf
Voltage phase sequence detection InteliATSNT controller detects phase sequence on both generator and mains/bus vThese protections are important after c
oltage terminals. ontroller installation to avoid wrong voltage phases phase
s can be detected:
The T controller L1, L2, L3. When the phases are conn 2, L1, L3) following alarms are detected:
ng generator phase sequence
t CB
tection – see following diagrams. When is BO GCB close/open (MCB Close/Open) in steady state and GCB feedback (MCB feedback) is changed the GCB fail is detected immediately (no delay).
connection. Following alarm
Wrong phase sequence re is fix defined phase sequence in InteliATSN
ected in different order (e.g. L1, L3, L2 or LGen CCW Rot = wroMains CCW Rot = wrong mains phase sequence
GCB, MCB fail detection MCB or GCB fail detection is based on binary output CB close/open comparing with binary inpufeedback. There are three different time delays for CB fail de
Alarm: GCB fail
BI GCB feedback
BO GCB close/open
Alarm detection:immediatelly
Alarm: GCB fail
BO GCB close/open
BI GCB feedback
Alarm detection:immediatelly
closed
opened
active active
opened
closed
When BO GCB close/open (MCB Close/Open) opens there is 5 sec delay for GCB fail (MCB fail) detection.
Alarm: GCB fail
BO GCB close/open
BI GCB feedback
active
opened
opened
Time delay
5 sec
When BO GCB close/open (MCB Close/Open) closes, there is 5sec delay for GCB fail (MCB fail) detection:
Alarm: GCB fail
BI GCB feedback
active
closed
closed
BO GCB close/open
Time delay5 or 2 sec
NOTE: You can solve state of MCB fail by pressing Fault Reset button.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 77 IA-NT- PWR-2.0-Reference Guide.pdf
tes ic sper
Gen-set Operation StaElectr tate machine MainsO Mains is present MainsFlt off – immediate state Mains cut MainsFlt es EmergStart del Mains cut off – takIslOper Island operation MainsRet Mains recover Brks Off GCB, MCB opened MinStabTO Minimal Stabilization Timeout MaxStabTO Maximal Stabilization Timeout Trans Del Forward return break delay. Delay between GCB opening and MCB closing
L ssib venist of po le e ts
Events specification
Protection type
Information on binary output available (See list of Binary outputs)
Description
Wrn Batt Volt WRN YES its given by Batt tpoints.
Battery voltage is out of limUndervolt/Batt OverVolt se
Binary input Configurable YES Configurable Warning/Shutdown alarms on ts of IA-NT.
the inpu
Trp BatteryFlat TRP YES during starting n it
nd activates this
If the controller switches off sequence due to bad battery conditiodoesn’t try to start again aprotection.
Trp Start Fail TRP YES Gen-set start failed. ParamFail NONE NO meters. Happends
new firmware or r. The controller
all parameters eter.
Wrong checksum of paratypically after downloading changing of the parametestays in INIT mode. Check and write at least one new param
Trp Gen Lx >,<V TRP YES is out of limits given Sd setpoints.
The generator voltageby Gen <V Sd and Gen >V
Trp Gen V Unbal TRP YES nerator voltage is unbalanced more nbal Sd setpoint.
The gethan the value of Volt U
Trp Gen >Freq TRP YES ncy is out of limits and Gen <Freq Sd
The generator frequeq Sd
egiven by Gen >Frsetpoints.
Wrn Amps Unbal TRP NO unbalanced. The generator current is Trp Overload TRP YES ter than the value given by The load is grea
Overload setpoint. EmergencyStop TRP NO p is opened
ctivated. If the input Emergency Stoshutdown is immediately a
GCB Fail TRP NO r circuit breaker. Failure of generatoMCB Fail MF NO Failure of mains circuit breaker. Wrn GeStateNA WRN NO Neither GenerProtect enabled nor BI
GenReadyToLoad defined. At least one must be enabled / configured.
Trp GenRd Fail TRP NO Signal BI GenReadyToLoad lost Wrn Stop Fail WRN YES Gen-set stop failed. The alarm appears if
the STOP command fails and the START command was issued before.
Low BackupBatt WRN NO RTC backup battery is flat
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 78 IA-NT- PWR-2.0-Reference Guide.pdf
History file InteliATSNT stores a record of each important event into the history file. The history file seats 117
rds. When the history file is full, the oldest records are removed. reco NOTE: To force history download in LiteEdit (direct, modem or Internet) open History window and select History | Read history command.
ord sbreviation Historical value
Rec tructure Ab
Num Number of historical event Reason Event specification Date event in format DD/MM/YY Date of historicalTime al event in format HH:MM:SS Time of historicMode de Controller’s moPwr r Generator active powePF Generator PF LChr e load Character of thGfrq uency Generator freqVg1 ge L1 Generator voltaVg2 age L2 Generator voltVg3 oltage L3 Generator vIg1 urrent L1 Generator cIg2 current L2 Generator Ig3 rrent L3 Generator cuVm1 L1 Mains voltage Vm2 Mains voltage L2 Vm3 Mains voltage L3 Mfrq Mains frequency UBat Battery voltage BIN Binary inputs IA-NT BOUT Binary outputs IA-NT
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 79 IA-NT- PWR-2.0-Reference Guide.pdf
ging Remote Control and Data Log
Direct connection to the PC InteliATSNT can be connected directly with PC via optional IL-NT RS232 interface.
NTUse the standard serial cable to connect PC with InteliATS . NOTE: Make sure the grounding system on controller and PC – COM port (negative of the PC DC supply) are identical – before the first direct connection. There must not be any voltage between these two points otherwise the internal reversible fuse in controller burns out. The simple solution is to assure, that the PC supply 240/20V is ground free (GND terminal is not connected).
5 - GND
2 - RxD3 - TxD
PC
5 - GND
2 - RxD3 - TxD
RS2
32
RS2
32
230 VAC
0 VD
C
CONTROLLER
+-Battery
Required the samevoltage potentialbetween GND‘s
RS 232
PC software – LiteEdit On the PC (for direct or modem connection) has to be installed the ComAp’s software package
dows 95 or newer platform)
r select software configuration
modify password, commands protections d on
M
LiteEdit. (based on WinLiteEdit enables: read the quantities adjust all set points control the engine configure the controlle
modify alarm inputs and outputs
irect, modem or Internet communicati
odbus protocol T ion of the function of iL serial port is done via the setpoint COMx Mode in Basic settings
• Function 3 (Read Multiply Registers) • Function 6 (Write Single Register) • Function 16 (Write Multiply Regis• The sponse to an incoming messa s nt with minimum 4.096 ms delay after message
reception The complete description of Modbus communication protocol can be found in Modbus Protocol Reference Guide PI-MBUS-300 and Open Modbus Specification Release 1.0. Both documents are available from web site at http://www.modicon.com/openmbus/
he select • 57600 bps, 8 data bits, 1 stop bit, no parity • Transfer mode RTU
ters) re ge i se
.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 80 IA-NT- PWR-2.0-Reference Guide.pdf
Communication object vs. Register All the data intended for communication has its representation as communication objecontroller. The communication object is represented by the n-byte array in the controllidentified by the unique 16-bit communication object number. The register, according tcommunication protocol, represents a two-byte data and in communication functions i16-bit register address. Further in the description of communication functions the comobject number will always b
cts in the er memory and o Modbus s referenced by munication
e used as a register address and length of the communication object will be expressed by number of registers. Just one communication object can be read or written by one communication function. NOTE: To obtain communication object numbers it is possible to download the actual controller description on-line from controller or from (ail) archive and use “export data” function from LiteEdit software.
C nica lis d de N arc
ommu tion object t (exporte from fault IA- T-PWR hive) Setpoints of
e re ve r. n IA-NT PWR:
Nam Firmwa r. Application Date App. ve Ser. um. Filename
IA-NT-PWR IA-NT-1.2.3 1.2010 12 56
R:7.0 PWR 8.1.201 1,2 34 78 IA-NT-PWR-
1.2.AIL
Group Name ens. Pa Com. o imit Data type Value Dim ssword bj. Lo limit Hi lBasic Settin lerName PWR No 86 Short string gs Control 37 Basic Settin Power 200 No 8 Unsigned 16 gs Nominal kW 276 1 5000 Basic Settin urrent 350 No 8275 000 Unsigned 16 gs Nomin C A 1 10Basic Settin o 2000 No 8274 5000 Unsigned 16 gs CT Rati /5A 1 Basic Settin 1,0 No 9579 500,0 Unsigned 16 gs PT Ratio /1 0,1 Basic Settin atio 1,0 No 9580 Unsigned 16 gs Vm PT R /1 0,1 500,0 Basic Settin l Volts 231 No 8277 20000 Unsigned 16 gs Nomina V 80 Basic Settin Freq 50 No 8278 65 Unsigned 16 gs Nominal Hz 45 Basic Settin F BLED No 16 String list gs ActivityAtOF ENA 1 20 Basic Settin lerMode OFF No 83 String list gs Control 15 Basic Settin llerAddr 1 Ye 453 32 Unsigned 8 gs Contro s 2 7 1 Basic Settings COM1 Mode IRECT Yes String list D 24522 Basic Settings COM2 Mode RECT Ye 445 String list DI s 2 1 Basic Settings GenStart Logic ON No 910 String list CLOSE- 0 Basic Settings Batt Undervolt 18,0 No 838 40,0 Integer 16 V 7 8,0 Basic Settings Batt Overvolt 36,0 No 95 40,0 Integer 16 V 87 18,0 Basic Settings Batt Volt Del 5 No 8383 0 600 Unsigned 16 s Engine Para Time 0 No 83 600 Unsigned 16 ms Prestart s 94 0 Engine Para ime 0 No 82 Unsigned 16 ms Cooling T s 58 0 3600 Engine Para 20 No 091 601 Unsigned 16 ms Max Star tDel s 1 4 0 Engine Para ime 3 No 82 300 Unsigned 16 ms Min Stab T s 59 1 Engine Para ime 60 No 981 Unsigned 16 ms Stop T s 5 1 3601 Gener Prote BLED No 10 String list ct GenerProtect ENA 1 30 Gener Prote ct Trp 250 No 82 500 Unsigned 16 ct Short Cr % 82 100 Gener Prote ct Del 0,00 No 99 0,00 Unsigned 16 ct Short Cr s 91 0,00 1Gener Prote MT Del 4,0 No 82 60,0 Unsigned 16 ct Amps ID s 83 1,0 Gener Prote nbal Trp 50 No 82 200 Unsigned 16 ct Amps U % 84 1 Gener Protect Amps Unbal Del 5,0 No 8285 0,0 600,0 Unsigned 16 s Gener Prote rp 110 No 8291 200 Unsigned 16 ct Gen >V T % 70 Gener Protect Gen <V Tr % No 8293 0 110 Unsigned 16 p 70 Gener Protect Gen V Del s No 8292 0,0 600,0 Unsigned 16 3,0 Gener Protect Volt Unbal Trp 10 % No 8288 1 200 Unsigned 16 Gener Protect Volt Unbal Del 3,0 s No 8289 0,0 600,0 Unsigned 16 Gener Protect Gen >Freq Trp 110,0 % No 8296 85,0 200,0 Unsigned 16 Gener Protect Gen <Freq Trp 85,0 % No 8298 0,0 110,0 Unsigned 16 Gener Protect Gen Freq Del 3,0 s No 8297 0,0 600,0 Unsigned 16 AMF Settings RetFromIsland AUTO No 9590 String list
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 81 IA-NT- PWR-2.0-Reference Guide.pdf
ng rt Del 5 No 83 Unsigned 16 AMF Setti s EmergSta s 01 0 6000 AMF Setting eturnDel 20 No 83 Unsigned 16 s MainsR s 02 1 3600 AMF Setting Del 1,0 No 83 00,0 Unsigned 16 s Transfer s 03 0,0 6AMF Setting Close Del 1,0 No 838 60,0 Unsigned 16 s MCB s 9 0,0 AMF Setting >V 110 No 83 150 Unsigned 16 s Mains % 05 60 AMF Setting 60 No 830 110 Unsigned 16 s Mains <V % 7 50 AMF Setting el 2,0 No 83 00,0 Unsigned 16 s Mains V D s 06 0,0 6AMF Setting V Unbal 10 No 84 150 Unsigned 16 s Mains % 46 1 AMF Setting Unb Del 2,0 No 84 60,0 Unsigned 16 s Mains V s 47 0,0 AMF Setting req 102,0 No 8310 Unsigned 16 s Mains >F % 98,0 150,0 AMF Setting q 98,0 No 8312 102,0 Unsigned 16 s Mains <Fre % 50,0 AMF Setting q De 0,5 No 8311 60,0 Unsigned 16 s Mains Fre l s 0,0 AMF Setting E-ON No 84 String list s MCB Logic CLOS 44 AMF Setting TEST No 86 String list s ReturnFrom MANUAL 18 AMF Setting On N No 9850 String list s MCB Opens GENRU AMF Setting ac 3,0 No 983 60,1 Unsigned 16 s GCBFeedb kDel s 6 1,0 AMF Setting 3,0 No 9056 60,1 Unsigned 16 s MCBFeedbackDel s 1,0 Date/Time mp Per 60 No 8979 240 Unsigned 8 Time Sta min 0 Date/Time meMo BLED No 8727 String list SummerTi d DISA Date/Time :00 No 45 Time Time 0:00 2 54 Date/Time .2006 No Date Date 1.1 24553 Date/Time peat NE No 00 String list Timer1 Re NO 1 45 Date/Time Timer1 ON Time No Time 5:00:00 10042Date/Time uration 5 No 1440 Unsigned 16 Timer1D min 10044 1 Date/Time epeat NONE No String list Timer2 R 10202 Date/Time Time No Time Timer2 ON 5:00:00 10199 Date/Time ration 5 No 1440 Unsigned 16 Timer2Du min 10201 1 SMS/E-Mail Yel Alarm Ms String list g OFF No 8482SMS/E-Mail Red Alarm Msg No String list OFF 8484SMS/E-Mail TelNo/Addr Ch1 No Long string 9597SMS/E-Mail /Addr Ch2 N 9598 Long string TelNo o Values o WR:
e mware ver. A on D r. Ser. num. Filename f IA-NT P
Nam Fir pplicati ate App. ve
IA-NT-PW IA-NT-1.0 3.01.2009 17.2 12345678 IA-NT-PWR-1.0.AIL R R:2 PWR .2009 1,0
Group Name Dime j. Data type Value nsion Com. obGenerato kW 02 Integer 16 r Gen kW 150 82Generato L1 50 kW 24 Integer 16 r Gen kW 85Generato L2 50 kW 25 Integer 16 r Gen kW 85Generato L3 50 kW 26 Integer 16 r Gen kW 85Generato n kVAr 15 kVAr 03 Integer 16 r Ge 82Generato L1 5 kVAr 8527 Integer 16 r Gen kVArGenerato L2 5 kVAr 28 Integer 16 r Gen kVAr 85Generato L3 5 kVAr Integer 16 r Gen kVAr 8529Generato 153 kVA Integer 16 r Gen kVA 8565Generato VA L1 51 kVA 30 Integer 16 r Gen k 85Generato 2 51 kVA 8531 Integer 16 r Gen kVA LGenerato kVA L3 51 kVA Integer 16 r Gen 8532Generator F 1,00 Integer 8 Gen P 8204Generator Gen Load Char R 8395 Char Generator Gen PF L1 8533 Integer 8 1,00 Generator Gen Ld Char L1 R 8626 Char Generator Gen PF L2 1,00 8534 Integer 8 Generator Gen Ld Char L2 R 8627 Char Generator Gen PF L3 1,00 8535 Integer 8 Generator Gen Ld Char L3 R 8628 Char Generator Gen Freq 50,0 Hz 8210 Unsigned 16Generator Gen V L1-N 230 V 8192 Unsigned 16
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 82 IA-NT- PWR-2.0-Reference Guide.pdf
to L2-N 230 V Unsigned 16Genera r Gen V 8193Generato L3-N 230 V Unsigned 16r Gen V 8194Generato L1-L2 398 V Unsigned 16r Gen V 9628Generato L2-L3 398 V Unsigned 16r Gen V 9629Generato V L3-L1 398 V Unsigned 16r Gen 9630Generato A L1 41 A Unsigned 16r Gen 8198Generator Gen A L2 41 A 8199 Unsigned 16Generator 3 41 A Unsigned 16Gen A L 8200 Mains L1-N 231 V Unsigned 16Mains V 8195Mains L2-N 230 V Unsigned 16Mains V 8196Mains L3-N 230 V Unsigned 16Mains V 8197Mains V L1-L2 398 V Unsigned 16Mains 9631Mains Mains V L2-L3 398 V 9632 Unsigned 16Mains Mains V L3-L1 398 V 33 Unsigned 1696Mains Mains Freq 50,0 Hz 11 Unsigned 1682 Controller Volts 24,3 V 13 Integer 16 I/O Battery 82Controller ts 35 Binary 16 I/O Bin Inpu [1111001] 82Controller utputs Binary 16 I/O Bin O [1111000] 8239 Statistics Energy kWh 0 Integer 32 8205Statistics h 0 Integer 32 Energy kVAr 8539Statistics tarts 0 Unsigned 16Num S 8207Statistics adStarts 0 5 Unsigned 32Num B 1119 IA Info ate ##### 5 Unsigned 16Breaker St 845IA Info ##### Unsigned 16Timer Text 8954IA Info Timer Value 0 s 8955 Unsigned 16IA Info FW Version 0,0 8393 Unsigned 8 IA Info Application 19 8480 Unsigned 8 IA Info FW Branch 10 8707 Unsigned 8 IA Info PasswordDecode ##### 9090 Unsigned 32 Date/Time Time ##### 24554 Time Date/Time Date ##### 24553 Date
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 83 IA-NT- PWR-2.0-Reference Guide.pdf
ion Remote CommunicatNOTE: Refer to InteliCommunication guide for all additional information.
Internet connection
d from InteliMonitor or LiteEdit over the Internet using IB-Lite
DN modem
IA-NT controllers can be monitoreplug-in.
Recommended IS
•
• Develo Microlink ISDN i
R c
Askey TAS-200E • ASUScom TA-220ST
e ommended GSM modem
• Siemens M20, TC35, TC35i, ES75, MC39 200/WMOD2
T recommended) Hz.
GSM Modem setup P r n following program for GSM proper setup. Program writes all the necessary AT commands to configure the GSM modem properly for use with I
_setup.exe. Select COM port
ress S
• Wavecom M1• Wavecom - Maestro 20, dual 900/1800MHz. • Wavecom – Fastrack M1306B, dual 900/1800 MHz (Fastrack M1206B is NO• FALCOM A2D, dual 900/1800M
rio to start work with GSM modem ru
A-NT. This program runs independent on LiteEdit:
• Start MS Windows-Start-Program files - LiteEdit –Gm•• Select iG-CU (=IS-CU) or iG-MU unit • P etup button
Follow command M Modem Setup w Typical real baud rate for GSM data communication s.
• s in GS indow
is 80 to 90 Bp
NOTE: It is strongly recommended to use the same type of modem on the both sides (IA and PC) of c
Mobile SIM card setting
onnection.
Analog modem
Analog GSM modem
GSM modem or modem
• Adjust SIM card in GSM modem following way: • enable data connection (when required) • no PIN code
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 84 IA-NT- PWR-2.0-Reference Guide.pdf
ware mote signalling
It is the optional ible to upload into controller instead of standard controller’s firmware.
IL-NT-RD Remote display softThis chapter describes Remote display software IL-NT-RD, which is designed as an reand control software for InteliATSNT, InteliLiteNT and InteliDrive Lite controllers. software which is poss
General description Remote display software works as “remote display and control” for the master InteliATSor InteliDrive Lite controller. Genset/Engines can be controlled
NT, InteliLiteNT from remote display as well as from
master controller. All remote display screens (Measure, Setpoints and History) displays the same data controller. Front panel buttons on both controllers work the same way. All remote display
LED’s shows the same state as corresponding LED’s on master controller. like master
Warning! It is highly recommended to use the display. Only in such case is assure
same type and model of controller for master and remote d the proper function of all buttons, LED diods and display.
Another combinations of HW types and models from Master controller and remote display are
tallation
not supported nor tested!
IL-NT-RD Software ins The IL-NT-RD remote display firmware is installed in the same way as any other IA-NT firmware using
Reference guide for details about upgrading firmware. IL-NT-RD c t H stall back the origi
• Open any type of online connection. • DDE server will try to open the connection, but it will fail and write red error message in the
status bar. • At this moment go to CONTROLLER -> PROGRAMMING AND CLONING -> PROGRAMMING and select
proper! firmware you want program to the controller. Choosing the wrong type of firmware may result in non-functional controller.
LiteEdit software. Please see LiteEditon ains only firmware, not an archive.
owever when there is IL-NT-RD firmware installed in the controller the procedure to innal standard firmware is following:
• Press "OK" button to programm the firmware to the controller.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 85 IA-NT- PWR-2.0-Reference Guide.pdf
oller, close the boot jumper and switch
• r cess
ns. • tus line and the
controller is blocked showing "Init" state. Use CONTROLLER -> RESET FROM INIT STATE menu item to put the controller to normal operation. Be sure you have checked all setpoints before.
• It may be required to switch off power supply of contron controller again. Follow the information windows accordingly.
After programming is finished (it may be required to power off controller, open the boot jumpeand power it on again) open configuration window and perform the configuration promanually. There is no compatibility of the configuration between different firmware versio
In some cases the "wrong setpoints" message can occur in the DDE server sta
CAUTION! Check the statistic values after firmware upgrade. Readjust the values if necessary.
IL-NT-RD Wiring IL-NT-RD can be connected to InteliATSNT, InteliLiteNT or InteliDrive Lite controllerRS485 communication line. It is possibl
via RS232 or e to connect only up to two remote displays to one master
ing different communication COMs. It is not supported to connect two or more ster
Connection process onnected. It
ddress 1 to 32. Remote display tries two communication speeds 38400 bps and 56000bps.
Detecting…” on screen and progress bar below counts from 0 to prox. 10-15 seconds. Than is 5 seconds pause and process continues r controller is found.
llers, not supported application, or controllers that are not properly ing the search.
C nI e.
Tmote display can not connect with master controller:
o uppo ed type of controller connected (Eg. IGS-NT, ID-DCU, IC-NT, IGS-CU, etc.) 2. Not supported firmware in master controller
tab troller 4. Wrong settings o in master controller
g connectio
Direct RS232 connection HW module: IL-NT-RS232 Master controller settings: ControllerAddr = 1..32
COM1 Mode = DIRECT Up to 2 meters: Recommended to use our standard AT-LINK cable.
controller, if they are usremote displays to one communication line, eg. RS485. It is possible to monitor only one macontroller from one remote display at the time.
Remote display after power on automaticaly starts to search for any master controller cstarts to search on COM1 from master controllers address 1 to 32 and later on COM2 from a
During this process is displayed text “100%. This process takes apagain until compatible maste Not supported types of controcomunicating are skipped dur
o troller type selection L-NT-RD automatically detects controller typ
roubles with connection There are few reasons why re
1. N t s rt
3. Configuration le error in master conf setpoint COMx Mode
5. Wron n, wiring, communication fail
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 86 IA-NT- PWR-2.0-Reference Guide.pdf
Up to 10 meters: r local the three wires
communication:
L-NT/ID-Lite connector (D-SUB9 fem IL-NT-RD connector (D-SUB9 female)
Recommended to use standard Null-modem cable foconnection between controller and remote display, although(TxD, RxD, GND) RS 232 connection is enough for direct
IA-NT/I ale) RxD 2 3 TxD TxD 3 2 RxD GND 5 5 GND
Remote RS485 and/or direct RS232 connection HW module: IL-NT-RS232-485 Up to 1000 meters (only with RS485):
Case 1) RS232 / Master controller settings:
ControllerAddr = 1..32 ECT
COM2 Mode = DIRECT Case 3) 32 + RS485 / Master controller settings:
ControllerAddr = 1..32 COM1 Mode = DIRECT COM2 Mode = DIRECT
It is possible to make a RS232 direct connection with IL-NT-RS232 module on one side and IL-NT-RS232-485 module on the other side.
COM1 Mode = DIR
Case 2) RS485 / Master controller settings: ControllerAddr = 1..32
RS2
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 87 IA-NT- PWR-2.0-Reference Guide.pdf
ion using external RS232-RS422/485 converter:
485 bus 0 or 56000 bps.
Any connected RS 232 to RS 422/485 converter has to be set to passive DSR signal (when DSR .
Alternative connectRecommend external converter: ADVANTECH – ADAM 4520: RS232 to RS422/485 converter, DIN rail, automatic RSsupervision, no external data flow control signals, galvanic isolated, baud rate 3840
connected) after switch on
Function description Remote display IL-NT-RD works as remote display and control of the master InteInteliDrive Lite controller. It is supposed and highly recommended that both, remote master are using the same HW type and model of controller. Another types and models of mastremote display are not supported nor tested. All remote display
liATSNT, InteliLiteNT or display and
er and ’s LEDs show the same state as
ork in the same ontroller. User can
s, set password, change setpoints and view history records.
All IL-NT-RD screens Init, Measure, Setpoints and History display the same data like in the master
Interruption of the serial line between master device and Remote display has no effect to the master
unication cannot be D’s are off.
nfiguration table
After the configuration from master is downloaded remote display jump to master controllers Init
and blinking.
en to check it’s version and serial number of used essing PAGE button for 3 seconds.
SW compatibility
corresponding LEDs on master controller. Front panel buttons on both controllers wway. Genset/Engine can be controlled from remote display as well as from master cswitch screen
controller. Master device is always able to work without connected Remote display.
controller. If the serial line between master device and remote display is interrupted, or commestablished, remote display shows it’s Init screen and message “Trying” and all LE Once remote display finds compatible master it shows “Preparing” and downloads cofrom master controller.
screen and all LEDs It is possible to switch to remote displays Init screcontroller and communication status by pr
IL-NT-RD sw. version 1.0 is compatible with masters SW: • All InteliATSNT standard software from ver. 1.0 • All InteliLiteNT standard software from ver. 1.1 • All ID-Lite standard software from ver. 1.0 • Chosen InteliATSNT, InteliLiteNT and ID-Lite customer branches Some of the future InteliATSNT, InteliLiteNT, ID-Lite versions may require upgrade of the IL-NT-RD software.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 88 IA-NT- PWR-2.0-Reference Guide.pdf
e Maintenanc
Backup battery replacement The internal backup battery should be replaced approx. every 5-7 years. Replace the battery, if the
1. Disconnect all terminals from the controller and remove the controller from the switchboard. 2. Release the rear cover using a flat screwdriver or another suitable tool.
alarm Low BackupBatt occurs. Follow these instructions:
3. Remove all plug-in modules. 4. The battery is located in a holder on the circuit board. Remove the old battery with a small
sharp screwdriver and push with a finger the new battery into the holder. Use only CR1225 lithium battery.
5. Put the rear cover back. Use slight pressure to lock the snaps into the housing. Pay attention that the cover is in correct position and not upside down!
6. Plug the modules back into the slots. 7. Power the controller on, adjust date and time and check all setpoints.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 89 IA-NT- PWR-2.0-Reference Guide.pdf
ta
Inputs/Outputs overview
Technical Da
Model BIN BOUT COM1 COM2GenVoltage
Mains Voltage
Gen. Current
.
IA-NT PWR 7 7 Y* Y* Y Y Y NOTE: * With optional plug-in module Y -Available N -Not available Power supply Voltage supply 8-36V DC Consumption 40-430mA depend on supply voltage and
Consumption depends on supply voltage 0,104A at 8VDC
,051A at 24VDC 0,044A at 30VDC
36VDC
p-out: 100ms from min. 10V, return to min. 8V ent tolerance 2 % at 24V
temperature
0,080A at 12VDC 0
0,040A at Allowed supply voltage droBattery voltage measurem
NOTE: For the supply voltage less than 7V the backlight of the display is switched off. Short-term voltage drops (e.g. during the engine cranking) do not affect the operation at all.
Operating conditions
ing temperature IA-NT oC Operat -20.+70Storage r temperatu e oC
Humidity 95% without condensation
EN 61010-1:95 +A1:97 Electromagnetic Compatibility EN 50081-1:94, EN 50081-2:96
:99, EN 50082-2:97 - 25 Hz, ±1,6mm
25 - 100 Hz, a = 4 g Shocks a = 200 m/s2
Dimensions and weight
-30.+80 Protection front panel IP65
Standard conformity Low Voltage Directive
EN 50082-1Vibration 5
Dimensions 180x120x55mm Weight 450g
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 90 IA-NT- PWR-2.0-Reference Guide.pdf
Mains and generator Nominal frequency 50-60Hz
urement tolerance 0,2Hz
t current (from CT)
se (In=5A) A
ent tolerance 2% from the Nominal current 150 A / 1s
ral phase to phase
ral ase to phase
0.6 MΩ phase to phase 0.3 MΩ phase to neutral
ent tolerance 2 % from the Nominal voltage ss III / 2 (EN61010)
Frequency meas
Current inputs Nominal inpu 5 A Load (CT output impedanc < 0,1 Ω
< 0,2 VA per phae)
CT input burden Max. measured current from CT 10Current measuremMax. peak current from CTMax. continuous cur 12 A rent
Voltage inputs C phase to neutMeasuring voltage range 0 – 277 VA
0 – 480 VACMaximal measured voltage 340 VAC phase to neut 600 VAC phInput resistance Voltage measuremOvervoltage cla
Binary inputs and outputs Binary inputs Number of inputs 7
4,2 kΩ 36 VDC
Max voltage level for open contact indication 8-36 V
7 A
6 VDC
Input resistance Input range 0-Switching voltage level for close contact indication 0-2 V
Binary open collector outputs Number of outputs Maximum current 0,5 Maximum switching voltage 3
IL-NT RS232 interface (optional card) Plugs into IA-NT controller COMMUNICATION MODULE port.
.4kBd Analog
4520: RS232 to RS422/485 converter, DIN rail, automatic RS485 bus supervision, no external data flow control sign vanic isolated. Recomm ed internal converter: ADVANTECH – PCL-745B or PCL745S: Dual port RS422/485 Interface card, automatic RS485 bus supervision, no external data flow control signals, galvanic isolated
Maximal distance 10m Maximum Speed Up to 57.6 kBd (DIRECT), 38modem, 9.6 kBd digital modem, 57.6 kBd (MODBUS) Recommend external converter: ADVANTECH – ADAM
als, gal
end
NOTE: For details on all IA-NT extension and communication modules see IL-NT, IC-NT, IA-NT, ID-Lite-Accessory Modules manual.
InteliATSNT PWR, SW version 2.0, ©ComAp – June 2010 91 IA-NT- PWR-2.0-Reference Guide.pdf
IL-NT RS232-485 interface (optional card) Plugs into IA-NT controller COMMUNICATION MODULE port. Maximal distance 10m (RS232), 1200m (RS485) Maximum Speed Up to 57.6 kBd (DIRECT), 38.4kBd Analog
BUS)
d)
modem, 9.6 kBd digital modem, 57.6 kBd (MOD
IL-NT S-USB interface (optional car Plugs into IA- o M A MODULE port.
NT c ntroller COM UNIC TION
Up to 57.6 kBd (DIRECT), 38.4kBd Analog ital modem, 57.6 kBd (MODBUS)
Use only shielded A-B USB cables up to 5m length.
USB-LINK CABLE 1.8M – ComAp A-B USB cable.
Maximal distance 5m Maximum Speed modem, 9.6 kBd dig
Recommend USB cable:
IB-Lite interface (optional card) Plugs into IA-NT controller COMMUNICATION MODULE port.
J45 (10baseT) erature -30..+70oC
oC
IO8 extension module (optional card)
Interface to Ethernet ROperating tempStorage temperature -30..+70
IL-NT B
Technical details:
al nfig inary inputs or outputs.
ts 8 4.7 kΩ 0-36 VDC
contact indication (Logical 1) < 0.8 VDC tage level for open contact indication (Logical 0) > 2 VDC
indication 8-36 VDC
Binary open collector outputs Number of outputs 8 Maximum current per pin 0.5 A Maximum switching common current 2 A Maximum switching voltage 36 VDC
IL-NT BIO8 plugs into the controller’s EXTENSION MODULE port. 8 dedicated pins of the plug-in card’s r can be co te min ured as b
Binary inputs Number of inpuInput resistance Input range Voltage level for close VolMax voltage level for open contact
HINT: Binary inputs are not galvanically isolated.
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