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ComAp InteliMains 210 BTB Global Manual

ComAp InteliMains 210 BTB Global Manual

Bus tie breaker controller

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InteliMains

210 BTB

SW version 2.0.0

1 Document information

2 System overview

3 Applications overview

4 Installation and wiring

5 Controller setup

6 Communication

7 Technical data

8 Appendix

Copyright © 2018 ComAp a.s.

Written by Michal Slavata

Prague, Czech Republic

ComAp a.s., U Uranie 1612/14a,

170 00 Prague 7, Czech Republic

Tel: +420 246 012 111

E-mail: info@comap-control.com, www.comap-control.com

Bus Tie Breaker controller

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132

161

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Global Guide

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Summary of Contents for ComAp InteliMains 210 BTB

Page 1 3 Applications overview 4 Installation and wiring 5 Controller setup 6 Communication 7 Technical data 8 Appendix Copyright © 2018 ComAp a.s. Written by Michal Slavata Prague, Czech Republic ComAp a.s., U Uranie 1612/14a, 170 00 Prague 7, Czech Republic Global Guide Tel: +420 246 012 111 E-mail: info@comap-control.com, www.comap-control.com...
Page 2: Table Of Contents
Table of contents 1 Document information 1.1 Clarification of notation 1.2 About this Global Guide 1.3 Legal notice 1.4 General warnings 1.4.1 Remote control and programing 1.4.2 SW and HW versions compatibility 1.4.3 Dangerous voltage 1.4.4 Adjust the setpoints 1.5 Certifications and standards 1.6 Document history 1.7 Symbols in this manual 2 System overview...
Page 3 3.1 BTB 4 Installation and wiring 4.1 Package content 4.2 Controller installation 4.2.1 Dimensions 4.2.2 Mounting 4.3 Terminal Diagram 4.4 Recommended wiring 4.4.1 General 4.4.2 Grounding 4.4.3 Power supply 4.4.4 Measurement wiring 4.4.5 Binary inputs 4.4.6 Binary Outputs 4.4.7 CAN bus and RS485 wiring 4.4.8 USB 4.4.9 USB HOST 4.5 Plug-in module installation...
Page 4 5.4.1 Operating Modes 5.4.2 Connecting to load 5.4.3 Power management 5.4.4 Control groups 5.4.5 Distributed power management signals 5.4.6 Regulation loops 5.4.7 Frequency control 5.4.8 Voltage PF control 5.4.9 Electric state machine 5.4.10 Alarm management 5.4.11 History log 5.4.12 Breaker control 5.4.13 Exercise timers 5.4.14 Analog switches 5.4.15 Voltage phase sequence detection...
Page 5 8.2.2 Alarms level 2 8.2.3 Fail sensor and other types 8.3 Modules 8.3.1 Plug-In modules 8.3.2 CAN modules InteliMains 210 Global Guide...
Page 6: Document Information
AGREEMENT CONDITIONS – COMAP CONTROL SYSTEMS SOFTWARE” (License Agreement) and/or in the “ComAp a.s. Global terms and conditions for sale of Products and provision of Services” (Terms) and/or in the “Standardní podmínky projektů komplexního řešení ke smlouvě o dílo, Standard Conditions for Supply of Complete Solutions”...
Page 7 Official version of the ComAp’s End User's Guide/Manual is the version published in English. ComAp reserves the right to update this End User's Guide/Manual at any time. ComAp does not assume any responsibility for its use outside of the scope of the Terms or the Conditions and the License Agreement.
Page 8: General Warnings
contain any kind of security – neither encryption nor authentication. Thus it is intended to be used only in closed private network infrastructures. • Avoid exposing the port TCP/502 to the public Internet. 5. SNMP • The SNMP protocol (port UDP/161) version 1,2 is not encrypted. Thus it is intended to be used only in closed private network infrastructures.
Page 9: Certifications And Standards
The following instructions are for qualified personnel only. To avoid personal injury do not perform any action not specified in related guides for product. 1.5 Certifications and standards EN 61000-6-2 EN 61000-6-4 EN 61010-1 EN 60068-2-1 (-20 °C/16 h for std, -40 °C/16 h for LT version) EN 60068-2-2 (70 °C/16 h) EN 60068-2-6 (2÷25 Hz / ±1,6 mm;...
Page 10: Symbols In This Manual
1.7 Symbols in this manual Connector - Resistor 3 x Phases Grounding male adjustable Active Resistive Contact current sensor sensor RPTC RS 232 Contactor modem AirGate male Controller RS 232 IG-AVRi Alternating simplified female current Module IG-AVRi Starter Analog simplified TRANS modem Switch - Current manually...
Page 11: System Overview
2 System overview 2.1 General description 2.2 True RMS measurement 2.3 Configurability and monitoring 2.4 PC tools 2.5 Plug-in modules 2.6 CAN modules 6 back to Table of contents 2.1 General description InteliMains 210 controller is comprehensive mains supervision controller for multiple generating sets operating in parallel to the Mains.
Page 12: Configurability And Monitoring
2.3 Configurability and monitoring One of the key features of the controller is the system’s high level of adaptability to the needs of each individual application and wide possibilities for monitoring. This can be achieved by configuring and using the powerful PC/mobile tools.
Page 13 Image 2.1 Principle of binary inputs and outputs configuration The controller is shipped with a default configuration, which should be suitable for most standard applications. This default configuration can be changed only by using a PC with the InteliConfig software. See InteliConfig documentation for details.
Page 14: Pc Tools
2.4 PC tools 2.4.1 InteliConfig Configuration and monitoring tool for InteliGen controllers. See more in InteliConfig Reference Guide. This tool provides the following functions: Direct or internet communication with the controller Offline or online controller configuration Controller firmware upgrade Reading/writing/adjustment of setpoints Reading of measured values Browsing of controller history records Exporting data into a XLS file...
Page 15: Winscope
Special graphical controller monitoring software used mainly for commissioning and gen-set troubleshooting. See more in the WinScope Reference guide. This tool provides the following functions: Monitoring and archiving of ComAp controller’s parameters and values View of actual / historical trends in controller On-line change of controllers’...
Page 16: Cm-4G-Gps
2.5.2 CM-4G-GPS GSM/4G Internet module and GPS locator Wireless integrated solution Quick and easy installation Support of WebSupervisor Instant alarm SMS notification System control over SMS Quad Band GPRS/EDGE modem, 850/900/1800/1900 MHz, FDD LTE: Band 1, Band 2, Band 3, Band 4, Band 5, Band 7, Band 8, Band 20, all bands with diversity, WCDMA/HSDPA/HSUPA/HSPA+: Band 1, Band 2, Band 5, Band 8, all bands with diversity...
Page 17: Em-Bio8-Efcp
2.5.5 EM-BIO8-EFCP Hybrid current input and binary input/output extension module. One additional AC current (CT) measuring for Earth Fault Current protection (EFCP) Wide range of measured current - one input for 1A and 1 input for 5A Up to 8 additional configurable binary inputs or outputs 2.6 CAN modules 2.6.1 Inteli AIN8...
Page 18: Inteli Io8/8
2.6.2 Inteli IO8/8 The unit offers the user the flexibility to configure the unit to have 8 binary inputs, 8 binary outputs, and 2 analog outputs, or 16 binary inputs, 0 binary outputs and 2 analog outputs via switches inside the controller. Configuration 8/8 8 Binary inputs (options: pull up or pull down logic)
Page 19: Igl-Ra15
2.6.4 IGL-RA15 Remote annunciator. 15 programmable LEDs with configurable colors red-green-yellow Lamp test function with status LED Customizable labels Local horn output Maximal distance 200 m from the controller Up to 4 units can be connected to the controller UL certified 6 back to System overview InteliMains 210 Global Guide...
Page 20: Applications Overview
3 Applications overview 3.1 BTB 6 back to Table of contents 3.1 BTB Image 3.1 BTB application overview InteliMains 210 controller closes automatically BTB if bus voltages are within the limits there is voltage on one of the buses and closing to dead bus is enabled binary input BTB disable is not closed it is enabled by setting of setpoints 6 back to Applications overview...
Page 21: Installation And Wiring
4 Installation and wiring 4.1 Package content 4.2 Controller installation 4.3 Terminal Diagram 4.4 Recommended wiring 4.5 Plug-in module installation 4.6 Maintenance 6 back to Table of contents 4.1 Package content The package contains: Controller Mounting holders Terminal blocks Note: The package does not contain a communication or extension modules. The required modules should be ordered separately.
Page 22: Controller Installation
4.2 Controller installation 4.2.1 Dimensions ① Plug-in module Note: Dimension x depends on plug-in module Note: Dimensions are in millimeters. Note: Cutout is in millimeters. 4.2.2 Mounting The controller is to be mounted onto the switchboard door. Requested cutout size is 187 x 132 mm. Use the screw holders delivered with the controller to fix the controller into the door as described on pictures below.Recommended torque for holders is 0.15 N·m.
Page 23 Panel door mounting Note: The final depth of the controller depends on the selected extension module - it can vary between 41 and 56 mm. Mind also a size of connector and cables (e.g. in case of RS232 connector add about another 60 mm for standard RS232 connector and cable).
Page 24: Terminal Diagram
4.3 Terminal Diagram ① CURRENT ② MAINS VOLTAGE ③ BUS VOLTAGE ④ BINARY MEASUREMENT INPUTS BIN1 BIN2 BIN3 BIN4 BIN5 BIN6 BIN7 BIN8 ⑤ CAN1 ⑦ BINARY OUTPUTS ⑧ POWER SUPPLY, D+ ⑩ USB ⑪ USB HOST BOUT1 BATT - BOUT2 BOUT3 BATT +...
Page 25: Recommended Wiring
4.4 Recommended wiring Current inputs 29 - 32 Current measurement wiring (page 28) Mains voltage inputs 37 - 40 Voltage measurement wiring (page 30) Bus voltage inputs 41 - 44 Voltage measurement wiring (page 30) Binary inputs 45 - 52 Binary inputs (page 33) CAN1 H, COM, L...
Page 26: General
IMPORTANT: Firmware InteliMains 210 is possible to upload also in to the InteliGen 200 Hardware. Be aware that the BO1 and BO2 on the InteliGen 200 are used only combination with E-Stop input which are in InteliMains 210 not supported. Check always the terminal numbers. 4.4.1 General To ensure proper function: Use grounding terminals.
Page 27 Maximum continuous DC power supply voltage is 36 V DC. The controller’s power supply terminals are protected against large pulse power disturbances. When there is a potential risk of the controller being subjected to conditions outside its capabilities, an outside protection device should be used. It is necessary to ensure that potential difference between generator current COM terminal and battery “ - ”...
Page 28: Measurement Wiring
Note: Recommended fusing is 4 A fuse. IMPORTANT: 4 A fuse is calculated without BOUT consumption nor extension modules. Real value of fuse depends on consumption of binary outputs and modules. Example: Maximal consumption of binary outputs can be 22 A 2 x 10 A on high current outputs (for 10 seconds) 2 A on all others binary outputs 4.4.4 Measurement wiring...
Page 29 3 phase application: Image 4.1 3 phase application It is necessary to ensure that potential difference between current COM terminal and battery “-” terminal is maximally ± 2 V. Therefore is strongly recommended to interconnect these two terminals together. Split phase application: Image 4.2 Split phase application IMPORTANT: The second phase of split phase connection is connected to the terminal, where is normally connected the third phase.
Page 30 Mono phase application: Connect CT according to following drawings. Terminals phase 2 and phase 3 are opened. Image 4.3 Mono phase application Voltage measurement wiring There are 4 voltage measurement Connection Type (setpoint Connection type (page 176) [3Ph4Wire / High Leg D / 3Ph3Wire / Split Ph / Mono Ph]) options, every type matches to corresponding connection type.
Page 31 ConnectionType: 3 Phase 4 Wires Image 4.4 3 phase application with neutral ConnectionType: 3 Phase 3 Wires Image 4.5 3 phase application without neutral InteliMains 210 Global Guide...
Page 32 ConnectionType: Split Phase Image 4.6 Split phase application IMPORTANT: The second phase of split phase connection is connected to the terminal, where is normaly connected the third phase. ConnectionType: Mono Phase Image 4.7 Mono phase application Voltage measurement InteliMains applications on InteliGen 200 hardware Because there is possible to import the InteliMains 210 Firmware in to the InteliGen 200 Hardware, is important to respect the number of terminals for voltage measurement.
Page 33: Binary Inputs
Image 4.8 Voltage measurement on InteliGen 200 Hardware 4.4.5 Binary inputs Use minimally 1 mm cables for wiring of Binary inputs. Image 4.9 Wiring binary inputs Note: The name and function or alarm type for each binary input have to be assigned during the configuration. InteliMains 210 Global Guide...
Page 34: Binary Outputs
4.4.6 Binary Outputs Use min. 1 mm cables for wiring of binary outputs. Use external relays as indicated on the schematic below for all outputs except those where low-current loads are connected (signalization etc...). IMPORTANT: Use suppression diodes on all relays and other inductive loads! Note: Every single binary output can provide up to 0,5 A of steady current.
Page 35 Shielded cable has to be used, shielding has to be connected to the terminal T01 (Grounding). External units can be connected on the CAN bus line in any order, but keeping line arrangement (no tails, no star) is necessary. The CAN bus has to be terminated by 120 Ohm resistors at both ends use a cable with following parameters: Cable type Shielded twisted pair...
Page 36 For shorter distances (connection within one building) Image 4.11 CAN bus wiring for shorter distances Note: Shielding shall be grounded at one end only. Shielding shall not be connected to CAN COM terminal. For longer distances or in case of surge hazard (connection out of building, in case of storm etc.) Image 4.12 CAN bus wiring for longer distances ①...
Page 37 For shorter distances (connection within one building). Image 4.13 RS485 wiring for shorter distances For longer distances or in case of surge hazard (connection out of building, in case of storm etc.) Image 4.14 RS485 wiring for longer distances ① Recommended PT5HF-5DC-ST Note: Communication circuits shall be connected to communication circuits of Listed equipment.
Page 38 On board RS485 description Balancing resistors The transmission bus into the RS-485 port enters an indeterminate state when it is not being transmitted to. This indeterminate state can cause the receivers to receive invalid data bits from the noise picked up on the cable. To prevent these data bits, you should force the transmission line into a known state.
Page 39: Usb
4.4.8 USB This is required for computer connection. Use the shielded USB A-B cable. Image 4.17 USB connection Controller can by also power by USB (only for service purpose like a uploading firmware, change of configuration etc.). IMPORTANT: Power supply by USB is only for service purpose. Binary inputs and outputs are in logical 0.
Page 40 After removing back cover insert the plug-in module. Plug-in module has to be inserted under holders. Start with holders marked by symbol 1. On the controller are also arrows for better navigation. After inserting plug-in module under holders 1 press it down to holders marked by symbol 2 which locks the module. Insert the plug-in module under holders marked by symbol 1.
Page 41: Maintenance
4.6 Maintenance 4.6.1 Backup battery replacement The internal backup battery lifetime is approx. 6 years. If replacement of backup batter is needed, follow these instructions: Connect the controller to a PC and save an archive for backup purposes (not necessary but recommended). Disconnect all terminals from the controller and remove the controller from the switchboard.
Page 42: Controller Setup
5 Controller setup 5.1 Default configuration 5.2 Controller configuration and PC tools connection 5.3 Operator Guide 5.4 Functions 6 back to Table of contents 5.1 Default configuration 5.1.1 Default configuration Binary inputs Number Description Configured function BIN1 Bus tie breaker feedback BTB Feedback BIN2 Access lock keyswitch...
Page 43: Usb
5.2.4 Firmware upgrade 6 back to Controller setup This chapter contains brief introduction into the specifics of firmware and archive upload and connection of various PC tools to the controller. If you require detailed information on each PC tool please use the included Help in those PC tools or download their Reference Guides.
Page 44: Rs232/Rs485
Connection using WinScope Image 5.3 WinScope screen - select direct connection 5.2.2 RS232/RS485 It is possible to connect to the controller using RS232 or RS485 direct connection (serial port or USB to RS232/RS485 converter may be used). The following settings need to be checked in the controller: COM1 Mode (page 263) = Direct Controller Address (page 181)
Page 45: Ethernet
Note: Winscope supports only 19200, 38400, 57600 speeds. 5.2.3 Ethernet It is possible to connect to the controller using ethernet port either directly or using ComAp's AirGate service. Direct connection When you use direct connection the controller needs to be reachable directly from the PC you use (i.e. one LAN or WAN without any firewalls and other points that may not allow the connection).
Page 46 Gateway IP (page 290) can be set here when it is used. ComAp TCP Port (page 294) number is 23. Make sure that this port is open for communication in your network.
Page 47 AirGate connection You can use ComAp's AirGate service that allows you to connect to any controller via internet no matter what are the restrictions of the local network (if the controller can connect to the internet AirGate service will work).
Page 48 AirGate Connection (page 293) has to be set to Enabled. AirGate Address (page 293) currently there is one AirGate server running at URL airgate.comap.cz (enter this URL into the setpoint). Connection using InteliConfig Image 5.10 First screen of InteliConfig - select connect to controller...
Page 49: Firmware Upgrade
5.2.4 Firmware upgrade Firmware upgrade is provided through InteliConfig pc software. For more information please download the manual from websites. https://www.comap-control.com/products/detail/inteliconfig Firmware upgrade in IG200 hardware IMPORTANT: InteliMains 210 firmware is possible to use also with InteliGen 200 hardware. But because there are some important differences between both hardwares, please pay always attention by configuration of InteliMains 210.
Page 50 Image 5.12 Terminal diagram InteliGen 200 and InteliMains 210 InteliMains 210 doesn't use the terminals 04, 05, 06 see Terminal Diagram on page 24. This leads to very specific condition which has to be remembered during configuration. From the configuration point of view is that you configure always binary outputs BO1-BO6 and on InteliGen 200 hardware is it in fact BO3-BO8.
Page 51 Image 5.13 Binary outputs configuration IM210 Image 5.14 Binary outputs configuration IG200 IMPORTANT: During configuration of binary outputs either for InteliMains 210 or InteliGen 200 hardware is always required to keep the same terminal numbers BO1=07...BO6=12! InteliMains 210 Global Guide...
Page 52: Operator Guide
5.3 Operator Guide 5.3.1 Front panel elements 5.3.2 Display screens and pages structure 5.3.3 Browsing alarms 5.3.4 Password 5.3.5 Information screen 5.3.6 Language selection 5.3.7 Display contrast adjustment 5.3.1 Front panel elements Image 5.15 Operator interface of InteliMains 210 Control buttons Position Picture Description LEFT button.
Page 53 Note: This button will not change the mode if the controller mode is forced by one of binary inputs listed in the Reference Guide – “Operating modes” chapter. HORN RESET button. Use this button to deactivate the horn output without acknowledging the alarms.
Page 54: Display Screens And Pages Structure
BTB ON. Green LEDs are on if BTB is closed and Bus is healthy. If Bus is not healthy and BTB is closed than middle LED is on. It is driven by BTB CLOSE/OPEN output or by BTB feedback signal. Bus Left status indicator.
Page 55 Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. InteliMains 210 Global Guide...
Page 56 Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. InteliMains 210 Global Guide...
Page 57 Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. InteliMains 210 Global Guide...
Page 58 Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. Note: Use Up and Down button to move between measurement pages. InteliMains 210 Global Guide...
Page 59 Note: From all of these pages it is possible to switch seamlessly to the setpoint group page by pressing Page button. Note: There can be some additional screens and also some screens can be hidden. Screen’s visibility depends on actual configuration (usage of extension or communication modules, etc.). Setpoint Screens Note: From all measurement pages we can fluently go to the setpoint group page by pressing Page button.
Page 60 Note: Use Up and Down button to set required value of selected setpoint. Note: Use Enter button to confirm adjusted value of setpoint. Note: Use Page button to discard changes, to set setpoint to previous value and to return to the list of setpoints of selected group.
Page 61 Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required...
Page 62 Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required...
Page 63 Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required...
Page 64: Browsing Alarms
Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the next page of history log. Note: Use Up and Down button to select required alarm reason. Note: Use Enter button to move to the first page of history log. IMPORTANT: The records are numbered in reverse order, i.e.
Page 65: Password
Active alarms are displayed as white text on black background. It means the alarm is still active, i.e. the appropriate alarm conditions are still present. Inactive alarms are displayed as black text on white background. It means the alarm is no more active, i.e. the appropriate alarm conditions are gone.
Page 66 Note: Use Up and Down button to select setpoint group Password. Note: Use Enter button to enter setpoint group Password. Note: Use Up and Down button to select Enter Password. Note: Use Enter button to enter selected setpoint. Note: Use Up and Down button to set required value of selected setpoint.
Page 67 Note: In case that invalid password is entered, the controller shows Invalid password screen. Use Page button to go back to menu. Change password Note: From all measurement pages we can fluently go to the setpoint group page by pressing Page button. Note: Use Up and Down button to select setpoint group...
Page 68 Note: Use Up and Down button to select required level of password. Note: Use Enter button to enter selected setpoint. Note: Use Up and Down button to set required value of password. Note: Use Left and Right button to move between digits. Note: After setting new password use Enter button to confirm adjusted password.
Page 69 Note: Before changing the password controller has to be unlocked. In case that controller is locked, the controller shows Password required screen. In that case the password has to be entered before changing the password. Log out from controller Note: From all measurement pages we can fluently go to the setpoint group page by pressing Page button. Note: Use Up and Down button to select setpoint...
Page 70 You will obtain unique one-time request code which must be sent to ComAp technical support. 2. ComAp technical support will send an unique one-time action code to the backup e-mail address specified in the controller. 3. Copy the received action code to InteliConfig and reset the administrator-level password to default.
Page 71: Information Screen
particular interface. 2. While the controller is blocked it refuses any further attempts to enter password. 3. When unblocked again the controller accepts one attempt to enter password. If the password is incorrect again the controller will be blocked for 2 minutes. 4.
Page 72: Language Selection
Note: Use Up button to move back to main measurement screen. 5.3.6 Language selection Note: On Main measurement screen press Enter and Page button together. Enter button has to be pressed first. Note: Use Page button to move to the next page. InteliMains 210 Global Guide...
Page 73 Note: Use Page button to move to the next page. Note: Use Page button to move to the next page. Note: Use Up and down button to select required language. Note: Use Enter button to confirm selected language. InteliMains 210 Global Guide...
Page 74: Display Contrast Adjustment
5.3.7 Display contrast adjustment Note: On any measurement screen press Enter and Note: On any measurement screen press Enter and Down button together for lower contrast. Up button together for higher contrast. Note: After setting a contrast, no another action is needed. 6 back to Controller setup 5.4 Functions 5.4.1 Operating Modes...
Page 75: Operating Modes
5.4.18 Alternate configuration 5.4.19 USB host 6 back to Controller setup 5.4.1 Operating Modes Selecting the operating mode is done through Left and Right buttons on the front panel or by changing the Controller mode (page 178) setpoint (from the front panel or remotely). Note: If this setpoint is configured as password-protected, the correct password must be entered prior to attempting to change the mode.
Page 76 Synchronization Synchronization process It is possible to influence the behavior of the controller in MAN and AUTO mode and limit the process of synchronization. Following setpoints have influence to synchronization process: Mains Coupling (page 171) Synchronization R To Mains (page 172) Synchronization L To Mains (page 173) Synchronization R To L (page 173) Synchronization L To R (page 173)
Page 77 Synchronization with Mains on one side In situation when one one side are only gen-sets and on second side is Mains or Gen-sets wirh Mains, setpoint Synchronization R To L (page 173) Synchronization L To R (page 173) Synchronization R To Mains (page 172) Synchronization L To Mains (page 173) has to be enabled.
Page 78: Power Management
The bus frequency is regulated to match the mains frequency + Slip Frequency (page 205). The frequency regulation loop is active (setpoints Frequency Gain (page 202) Frequency Int (page 202)). Once the frequency is matched, the regulation loop gets frozen immediately and the command for breaker closing is unblocked after Dwell Time (page 205).
Page 79 198) is elapsed. Once the gen-set runs the controller evaluates stopping conditions based on load reserves and priorities. If the reserve is sufficient enough to stop a particular gen-set, it is stopped after delay given by the #Next Engine Stop Delay (page 198) setpoint is elapsed.
Page 80 Case #1 This case is used in island operation. Reserve Actual Reserve Start condition Stop condition ARstrt = ∑Pg - ∑Pg ARstrt < ARstp > Absolute kW #LoadResStrt #LoadResStop ARstp = ∑Pg* - ∑Pg RRstrt = [(∑Pg - ∑Pg ) / ∑Pg ].100% RRstrt <...
Page 81 Image 5.16 Start sequence of power management As shown above, the load of the system has increased above the level defined by the start condition – i.e. the load reserve is not sufficient as required by the appropriate setpoint. Further explanation is provided in chapters Absolute power management (page 82) Relative power management (page 85).
Page 82 Image 5.17 Stopping sequence of power management As shown above, the system load has decreased below the level defined by the stop condition – i.e. the load reserve is over a limit given by the appropriate setpoint. Further explanation is provided in chapters Absolute power management (page 82) Relative power management (page...
Page 83 Image 5.18 Power management based on absolute load reserve Example: An example of absolute power management is shown on the figure below. There are three gen- sets with following choice of setpoints: #Power #Priority #Starting #Stopping Nominal Power Gen-set management Priority Auto Load...
Page 84 Image 5.19 Absolute power management example As it is shown on both figures above, the additional gen-set is added once the actual load reserve is below the level given by the appropriate setpoint of load reserve. The additional gen-set is removed once the actual load reserve is above the level set by appropriate setpoint of load reserve.
Page 85 There are 2 sets of setpoints for starting and stopping gen-sets in absolute power management. #Starting Load Reserve 1 (page 193) #Stopping Load Reserve 1 (page 194) #Starting Load Reserve 2 (page 195) #Stopping Load Reserve 2 (page 196) considered if binary input 430) is activated CTIVE...
Page 86 Example: An example of relative power management is shown on the figure below. There are three gen-sets with following choice of setpoints: #Power #Priority #Starting #Stopping Nominal Power Gen-set management Priority Auto Rel Load Rel Load power management mode Swap Reserve X Reserve X Gen-set...
Page 87 As it is shown on both figures above, the additional gen-set is added once the actual load reserve is below the level given by the appropriate setpoint of load reserve. The additional gen-set is removed once the actual load reserve is above the level set by appropriate setpoint of load reserve. The green dashed line depicts the value of load at which the additional gen-set is requested to start.
Page 88 The Running hours equalization function compares RHE value of each controller in the group. Once the difference between RHE of individual controllers is higher than #Run Hours Max Difference (page 200) (i.e. #Run Hours Max Difference (page 200) + 1), the gen-set(s) with the lowest RHE is/are started. Example: The system structure and its settings is shown on the figure below.
Page 89 Image 5.23 Run hours equalization - case #1 Step RHE1 RHE2 Run G1 (ΔRHE1) Run G2 (ΔRHE2) From the example of the case #1, it can be concluded that the gen-sets are swapped after the duration determined by following formula: SwapTime = Second lowest considered running hours –...
Page 90 Image 5.24 Run hours equalization - case #2 step RHE1 RHE2 RHE3 Run G1 (ΔRHE1) Run G2 (ΔRHE2) Run G3 (ΔRHE3) Case #3: Gen-set 1 running hours = 250 -> running hours considered in RHE = 100 (150-RunHoursBase) Gen-set 2 running hours = 450 -> running hours considered in RHE = 200 (250-RunHoursBase) Gen-set 3 running hours = 750 ->...
Page 91 step RHE1 RHE2 RHE3 Run G1 (ΔRHE1) Run G2 (ΔRHE2) Run G3 (ΔRHE3) Note: Setting #Run Hours Max Difference (page 200) = 5 does not mean that gen-sets swap every 5 hours. The Swap time is determined by the formula stated above. Please read the entire chapter Running hours equalization for better understanding.
Page 92 Image 5.26 Example of the system Following table provide an example of gen-set selection in function of system load evolution. The table is an example of Efficiency priority optimization function (#Power Management Mode (page 192) = ABS (kW) and #Starting Load Reserve 1 (page 193) = 20 kW).
Page 93 System Total Running power Relative load Running gen-sets Description Load [kW] within PM [kW] of gen-sets [%] 5 start Gen#5 joins (LDS) 2 start LDS Swap 5 stop 2 [30h] 5 start Gen#5 joins (LDS) 3 start LDS Swap 1000 5 stop 3 [40h] InteliMains 210 Global Guide...
Page 94 System Total Running power Relative load Running gen-sets Description Load [kW] within PM [kW] of gen-sets [%] 5 start Gen#5 joins (LDS) 1000 1000 Minimal running power Minimum Running Power function is used to adjust a minimum value of the sum of nominal power of all running gen-sets.
Page 95: Control Groups
Image 5.27 Minimal running power Setpoint #Min Run Power (page 197) is adjusted to 400 kW. Once the 430) OWER CTIVE PAGE activated, the available nominal running power has to be equal or higher to 400 kW. Even if the load reserve is big enough to stop the gen-set #2 (nominal power 500 kW), the gen-set keeps running as at least 400 kW has to be available.
Page 96: Distributed Power Management Signals
The two groups which are connected together by the BTB, are defined with parameters Group Link L (page 201) Group Link R (page 202). Controller sends via CAN2 bus information that controllers from groups Group Link L and Group Link R are linked together, if the Group link function (signal associated with the function) is active.
Page 97 These LBI functions are shared automatically: System Start/Stop Note: InteliMains controller activates the System Start/Stop signal in case of all system activations (e.g. AMF, TEST Mode, ...) Min Run Power Act Load Res 2 Active MCB Feedback These rules applies to the automatic sharing of the selected signals: 1.
Page 98 3. LBI state received from CAN2 bus is not used, if corresponding LBI function is configured in a controller. Example: LBI Remote Start/Stop is configured with a controller. Controller follows only state of signal linked with the Remote Start/Stop function. The function is not activated by a shared System Start/Stop signal.
Page 99 4. LBI function state transmitted via CAN2 bus is used only by controllers, which are in the same group as controller, which is source of the shared signal. Signal coming from controller in a different group is accepted only if the “source controller” group is linked with the “receiving controller” group. InteliMains 210 Global Guide...
Page 100: Regulation Loops
5. LBI function can be configured with multiple controllers, which transmit through CAN2 bus state of the function. OR function applies to the function evaluation in controllers, in which the function is not configured. It means that function is activated by shared signal coming from any controller (rule 4. applies). 5.4.6 Regulation loops Regulation loops overview Regulation loops overview...
Page 101: Frequency Control
Voltage, PF, VAr sharing have one common output = Voltage request. The value of this output is always composed from the contribution of each of the regulation loop. Note: All regulation loops are PID, but only PI components are visible as setpoints. Adjustment of regulation loops The regulation loops have two adjustable factors: P-factor and I-factor (except angle regulation loop, which has P-factor only).
Page 102: Voltage Pf Control
Load control adjustment Synchronization adjustment Start the system in MAN Mode. In case of MCB application follow the synchronization procedure over the GCB according to rules described in particular gen-set guide. To start the synchronization press MGCB ON/OFF button. MGCB LED starts to flash to indicate synchronization.
Page 103: Alarm Management
RevSync Mains is synchronized to presented bus (MCB is opened, (M)GCB closed) Synchro Gen-set is synchronizing (MCB is closed, GCB is opened) MainsFlt Mains fails MainsRet Mains recover ValidFlt State activated after Emergency start del MCB Off Mains breaker is opened Controller mode, where the LBI Emergency manual is activated.
Page 104 After pressing the Fault reset button or activating the binary input 428), all active AULT ESET UTTON PAGE alarms change to confirmed state. Confirmed alarms will disappear from the Alarmlist as soon as the respective condition dismisses. If the condition is dismissed before acknowledging the alarm, the alarm will remain in the Alarmlist as Inactive.
Page 105 Breaker open protection The alarm appears in the alarmlist and is recorded into the history log. There can be two types of breaker open protection. Breaker open (BO) - this protection is not visible in alarmlist Breaker open with Reset (BOR) - this protection is visible in alarmlist and must be confirmed to deactivate the protection.
Page 106 Event Warning Shutdown Event Warning Shutdown Terminal email email email email CM-RS232-485 CM-Ethernet CM-GPRS yes* yes* noyes*yes* yes*yes* yes* yes* CM-4G-GPS yes* yes* noyes*yes* yes*yes* yes* yes* Note: * Only with enabled Mode (page 274). Note: * Only with enabled Mode (page 274).
Page 107: History Log
Events Protection Description specification type Wrn Bus Lx >V Wrn Bus Lx <V Hist Bus voltage is out of limits given by Bus < and Bus > Voltage setpoint. (where x=1,2,3) Bus Right Overfrequency The bus frequency is out of limits given by Bus >, <Frequency Hist (page 184)
Page 108: Breaker Control
Frequency Bus Right Voltage Vbr1 Bus Right voltage Ph1 Bus Right Voltage Vbr2 Bus Right voltage Ph2 Bus Right Voltage Vbr3 Bus Right voltage Ph3 Bus Right Voltage Vbr12 Bus Right voltage Ph12 Bus Right Voltage Vbr23 Bus Right voltage Ph23 Bus Right Voltage Vbr31 Bus Right voltage Ph31...
Page 109 After opening the breaker, there is internal delay for another closing of breaker. Delay is 6 seconds - 5 seconds for OFF coil and 1 second for UV coil. After these 6 seconds, breaker can be closed again. For opening of breaker there is no delay. Breaker control outputs An output for control of a contactor.
Page 110 IMPORTANT: When controller is synchronizing, there is only 2 seconds delay for breaker fail detection. When binary output breaker close/open is in steady state and breaker feedback is changed the breaker fail is detected immediately (no delay). Image 5.34 Breaker fail - breaker close/open in steady position - open Image 5.35 Breaker fail - breaker close/open in steady position - close When binary output breaker close/open opens there is 2 sec delay for breaker fail detection.
Page 111: Exercise Timers
When binary output breaker close/open closes there is 2 sec delay for breaker fail detection. Image 5.37 Breaker fail - breaker close/open closes 5.4.13 Exercise timers The exercise (general-purpose) timers in controller areis intended for scheduling of any operations such as e.g. periodic tests of the gen-set, scheduled transfer of the load to the gen-set prior to an expected disconnection of the mains etc.
Page 112 Available modes of each timer: This is a single shot mode. The timer will be activated only once at preset date/time for preset Once duration. The timer is activated every "x-th" day. The day period "x" is adjustable. Weekends can be Daily excluded.
Page 113 mode. Than adjust Timer 1 First Occur. Date (page 251), Timer 1 First Occur. Time (page 251) Timer 1 Duration (page 251). Note: Use left and right buttons to move between timer setpoints. Daily mode Set-up via InteliConfig To set-up timer via InteliConfig go to the setpoint ribbon, setpoint group scheduler and setpoint Timer 1 Setup. Note: First of all function of timer has to be adjusted via setpoint Timer 1 Function (page 250).
Page 114 Weekly mode Set-up via InteliConfig To set-up timer via InteliConfig go to the setpoint ribbon, setpoint group scheduler and setpoint Timer 1 Setup. Note: First of all function of timer has to be adjusted via setpoint Timer 1 Function (page 250).
Page 115 There are two types of monthly repetition. First of them is based on repeating one day in month. Image 5.41 Monthly mode - InteliConfig In timer mode select Repeat. In repetition type select Monthly. In timer settings adjust date and time of first occurrence of timer.
Page 116 Second type of monthly repetition is based on repeating days in week in month. Image 5.42 Monthly mode - InteliConfig In timer mode select Repeat. In repetition type select Monthly. In timer settings adjust date and time of first occurrence of timer. Also adjust the duration of each occurrence of timer. Than select the type of monthly repetition, the x-th week of repetition and days in week.
Page 117: Analog Switches
Short period mode Set-up via InteliConfig To set-up timer via InteliConfig go to the setpoint ribbon, setpoint group scheduler and setpoint Timer 1 Setup. Note: First of all function of timer has to be adjusted via setpoint Timer 1 Function (page 250).
Page 118 Analog switch Setpoints Binary output Analog Switch 1 On (page 208) AIN S 01 ( 484) AIN S 01 ( 439) WITCH PAGE WITCH PAGE Analog Switch 1 Off (page 208) Analog Switch 2 On (page 210) AIN S 02 ( 484) AIN S 02 (...
Page 119: Voltage Phase Sequence Detection
Analog switch Setpoints Binary output Analog Switch 18 On (page 242) AIN S 18 ( 489) AIN S 18 ( 448) WITCH PAGE WITCH PAGE Analog Switch 18 Off (page 242) Analog Switch 19 On (page 244) AIN S 19 ( 490) AIN S 19 (...
Page 120: Plc
General line 5 1000 General line 6 1000 General line 7 1000 General line 8 1000 General line 9 1000 General line 10 1000 General line 11 1000 General line 12 1000 General line 13 1000 Note: Curves can be modified via InteliConfig. In InteliConfig are also prepared some standard curves. 5.4.17 PLC PLC Editor is powerful tool which helps you to create your own PLC scheme.
Page 121 List of available PLC blocks PLC block Number of blocks OR/AND XOR/RS Comparator with hysteresis (Comp Hyst) Comparator with delay (Comp Time) Timer Delay Force history record (Force Hist) Force protection (Force Prot) Working with the editor If the currently opened archive does not contain any PLC program, then an empty drawing is created automatically when you select the PLC Editor.
Page 122 Image 5.46 Adjusting PLC sheet Adding PLC blocks Adding PLC block is simple and intuitive. Follow the procedure below to add PLC block. Select required block from the list of available PLC blocks at the left and drag it into the sheet. Double-click on the block and adjust properties of the block.
Page 123 Image 5.47 Adding PLC blocks Note: To delete PLC block just click on it and press delete button. Also delete selection function can by used. Note: To see context help for selected PLC block just press F1 button. Define inputs and outputs Image 5.48 Blank sheet of PLC editor Inputs Sheet inputs are located at the left side of a sheet.
Page 124 Double-click on a free input position or existing input to add new input or edit the existing one. Select the source for the input. If you create a binary input, you can select a source from following categories: Bin. Values - this category contains all binary values available in the controller as binary inputs, logical binary outputs etc.
Page 125 Outputs Sheet outputs are located at the right side of a sheet. Follow the procedure below to add or edit an input. Doubleclick on a free output position to add new sheet output. Doubleclick on an already created output to configure the output onto a controller output terminal or a logical binary input (first of all some PLC block output has to be connected to this output to enable configuration of output).
Page 126 Locate the mouse pointer over the starting point of the wire. If the area under the mouse pointer is a connection point, the pointer will change the color (fill of pointer will be white). Press and hold the left mouse button and drag the wire to the destination of required connection point. If you point over a valid connection point, the connection point will be marked with a red circle.
Page 127: Alternate Configuration
Other functions Consistency check Use this function to check if all inputs and outputs of PLC block are connected. Delete whole content of sheet Use this function to delete the whole content of sheet (including blocks, wires, inputs, outputs, etc...). Hints Use this function to enable or disable quick hints for blocks (controller help is not affected by this function).
Page 128: Usb Host
5.4.19 USB host USB host is a function for programming of controller from USB Flash Drive. Following functions are supported: Firmware upload Configuration upload Firmware and configuration upload Configuration download Image 5.52 USB host flowchart Terminology: The Archive = the native file of InteliConfig, including the complete Configuration + History + Statistic + Values (in the time of download) + Alarm list.
Page 129 Firmware upload Point 1 - controller detects that USB Flash Drive has been inserted. If the communication via USB B is running controller will not detect the USB memory key. On the other hand if the USB memory key was detected, communication via USB B port is not possible. Point 2 - controller is in OFF mode All operations with USB memory key are possible only in OFF mode Point 3 - Conditions for firmware upload with current configuration...
Page 130 Point 11 - Configuration upload Current archive is download to USB key (Name = SN_YYMMDDHHMM). New configuration is uploaded into the controller without the change of the firmware History record "USB key CFG upload" is made Confirming file (.txt) on USB key is made (Name = SN_YYMMDDHHMM) Content: Serial number, Year/Date/Time, Upgrade to the FW "Name of the new CFG"...
Page 131 Point 2 - controller is in OFF mode All operations with USB memory key are possible only in OFF mode Points 3, 6, 9 - conditions for configuration download There is no firmware or configuration with required name Point 12 - Pop-up message Confirmation of configuration download Point 11 - Configuration download Current archive is download to USB key (Name = SN_YYMMDDHHMM).
Page 132: Communication
6 Communication 6.1 PC 6.2 Connection to 3rd party systems 6 back to Table of contents 6.1 PC 6.1.1 Direct communication 6.1.2 Remote communication 6.1.1 Direct communication A RS232, USB, RS485 or ethernet interface can be used for direct cable connection to a PC. Connection via RS232 A plug-in communication module CM-RS232-485 is necessary for communication via RS232 connection.
Page 133 To connect your PC tool to the controller use the INTERNET connection type and just put the CM-Ethernet IP address into the gen-set address box in the PC tool. If you do not use the default ComAp TCP Port (page 294) then you also have to specify the port number using a colon.
Page 134: Remote Communication
Image 6.5 Shielded USB type A cable is used 6 back to Communication 6.1.2 Remote communication A PC can be connected to the controller also remotely via CM-GPRS or CM-Ethernet plug-in module. IMPORTANT: Factory default password and access code are "0". It is highly recommended to change these parameters.
Page 135 IP address of the network gateway to the local IP address of CM- Ethernet at the port specified for ComAp protocol. Different port numbers can be used to create multiple port forwarding rules in the same local network.
Page 136 AirGate server address. It can be entered in text form as well as numeric form. There is a public AirGate server available at address "airgate.comap.cz". Once the controller is attached to the Internet and the AirGate server address is properly adjusted then the controller registers automatically to the server and an identification string AirGate ID is given to a controller, which is visible at the controller screen.
Page 137 Alarm SMS The InteliMains 210 controller equipped with the CM-GPRS or CM-4G-GPS communication module is able to send Alarm SMS according to the setting of setpoints: Wrn Message (page 287) Sd Messages (page 287) BOC Message (page 287) Note: Firstly setpoint Telephone Number 1 (page 281) has to be adjusted.
Page 138 Example: When the controller, in AUTO mode, with a controller name of “InteliMains 210-Test”, with the CM-GPRS module and access code “0” receives the SMS: 0 man, start, gcb close, gcb open, stop, auto Controller mode will be changed to MANUAL mode. The engine will be started and GCB will close. Then GCB will open, the engine will stop and it will go into AUTO mode again.
Page 139 Alarm Email The InteliMains 210 controller equipped with the CM-Ethernet communication module is able to send Alarm Emails according to the setting of setpoints: Wrn Message (page 287) Sd Messages (page 287) BOC Message (page 287) Note: Firstly setpoints Email Address 1 (page 284) SMTP Sender Address (page 279) (for CM-GPRS) or SMTP Sender Address (page 289)
Page 140 Web Server IMPORTANT: The web interface is based on HTTP protocol and is intended to be used only in private networks. It is not recommended to expose the web interface to the public Internet. The Web Server is designed for basic monitoring and adjustment of the controller using a web browser. Just put the controller IP address into the browser to display the main controller web page like http://192.168.1.254.
Page 141 Scada Click to the SCADA link in the toolbar to display the scada page. The scada page is also the main page which is displayed by default if you just put the CM-Ethernet address into the browser (after entering the right access code).
Page 142 Measurement Click to the MEASUREMENT link in the toolbar to display the measurement page. Then click to the required group name in the left box to display values of the group in the right box. Note: The measurement page is automatically refreshed every 60 seconds (this time cannot be changed). Image 6.9 Web Server - measurement screen InteliMains 210 Global Guide...
Page 143 Setpoints Click to the SETPOINTS link in the toolbar to display the setpoints page. Click to the required group name in the left box to display setpoints of the group in the right box. Click to the required setpoint name or value to change the value. If the respective setpoint is protected by password, which is indicated by a lock icon by the setpoint name, you have to click on the "Controller password"...
Page 144 History Click to the HISTORY link in the toolbar to display the history page. Use the control buttons to move within the history file. Note: The history page is automatically refreshed every 60 seconds. If a new record appears in the controller, the web page will not show it immediately as e.g.
Page 145: Connection To 3Rd Party Systems
Web Server Adjustment Click to the "Web Server settings" icon in the toolbar to display the settings page. Select the controller language the web pages will appear in. Select the rate of automatic refresh of the scada page. Image 6.12 Web Server - Adjustment screen 6 back to Communication 6.2 Connection to 3rd party systems 6.2.1 SNMP...
Page 146 same group can be used to customize the „community strings“ for the read and write operations which have function like „passwords“. All requests sent from the SNMP Manager have to contain community string which match with the community string adjusted in the controller otherwise the controller refuses the operation. MIB table The „MIB table“ ...
Page 147: Modbus-Rtu, Modbus/Tcp
SNMP notifications Except the request-response communication model, in which the communication is controlled by the Manager, there are also messages that the Agent sends without any requests. These messages are called „Notifications“ and inform the Manager about significant events occurred in the Agent. The controller can send notifications to two different SNMP Managers (two different IP addresses).
Page 148 Discrete inputs The discrete inputs are read-only objects located in the address range 0-999. The source ComAp objects for discrete inputs can be: Single bit of any value of any binary type.
Page 149 The holding registers are read-write numeric values located in the address range 3000-3999. The source ComAp objects can be: Any controller setpoint of a primitive data type. The mapping of the particular data type into registers is described in Mapping data types to registers (page 149).
Page 150 Number of Data type Meaning Data maping registers LSB2 = value, byte 0 (LSB) MSB1 = value, byte 3 (MSB) LSB1 = value, byte 2 Unsigned32 4-byte unsigned integer MSB2 = value, byte 1 LSB2 = value, byte 0 (LSB) MSB ...
Page 151 Number of Data type Meaning Data maping registers MSB1 = BCD (dd) LSB1 = BCD (mm) Date Date (dd-mm-yy) MSB2 = BCD (yy) LSB2 = 0 MSB1 = BCD (hh) LSB1 = BCD (mm) Time Time (hh-mm-ss) MSB2 = BCD (ss) LSB2 = 0 MSB1 = reserved for future use LSB1 = reserved for future use...
Page 152 Register Number of Access Data type Meaning addresses registers 4200 - 4201 read/write Time RTC Time in BCD code 4202 - 4203 read/write Date RTC Date in BCD code Index of the language that is used for text 4204 read/write Unsigned8 data provided by MODBUS (e.g.
Page 153 2. Write the command argument into the registers 44208-44209 (register addresses 4207-4208). Use function 3. Write the command code into the register 44210 (register address 4209). Use function 6. 4. (Optional) Read the command return value from the registers 44208-44209 (register addresses 4207-4208). Use function 3.
Page 154 MODBUS examples Modbus RTU examples Reading of Battery voltage Export table of values from InteliConfig Table: Values Allowed MODBUS functions: 03, 04 Register(s) Com.Obj. Name Dimension Type Group Controller 01053 8213 BatteryVoltage Integer Request: (Numbers in Hex) Register address Controller address Modbus function Number of registers 041D...
Page 155 Reading all binary inputs as modbus register Table: Values Allowed MODBUS functions: 03, 04 Register(s) Com.Obj. Name Dimension Type Min Max Group Binary 01068 8235 Binary#2 Controller I/O Inputs Request: (Numbers in Hex) Register address Controller address Modbus function Number of registers 042C = 1068 Response: (Numbers in Hex)
Page 156 Reading binary inputs as coil status. Table: Binaries Allowed MODBUS functions: 01, 02 Addresses Source C.O.# Name of Value Bit Name Modbus Addr. = Value Bit # Group State # Name of State Activated by protection(s): Prot. Addr. = State 00000 Value 8235...
Page 157 Starting the engine Before starting engine you may need to write password. Depends on your settings in controller. Table Reserved registers (page 151) Register addresses Number of registers Access Data type Meaning Writing:command argument 4207 - 4208 read/write Unsigned32 Reading: command return value 4209 write Unsigned16...
Page 158 Password This password is the same as in InteliConfig or directly in controller. Table Reserved registers (page 151) Register addresses Number of registers Access Data type Meaning 4211 write Unsigned16 Password Note: Default password is "0". In this example the password is "1234". Request: (Numbers in Hex) Register address Password...
Page 159 Nominal Power – writing Table: Setpoints Allowed MODBUS functions: 03, 04, 06, 16 Register(s) Com.Obj. Name Dimension Type Group Nominal Basic 03008 8276 Unsigned 5000 Power Settings Request: (Numbers in Hex) Register address Data Controller address Modbus function 0BC0 = 3008 0064 = 100 Response: (Numbers in Hex)
Page 160 Modbus TCP examples Reading of Battery voltage Export table of values from InteliConfig Table: Values Allowed MODBUS functions: 03, 04 Register(s) Com.Obj. Name Dimension Type Group Controller 01053 8213 BatteryVoltage Integer Request: (Numbers in Hex) transaction protocol Length of Register address Controller Modbus Number of...
Page 161: Technical Data
7 Technical data Power supply Binary inputs Power supply range 8-36 V DC Number 8, non-isolated 320 mA / 8 V DC Close/Open 0-2 V DC close contact indication 6-36 V DC open contact 210 mA / 12 V DC Power consumption 120 mA / 24 V DC Binary outputs...
Page 162: Appendix
8 Appendix 8.1 Controller objects 8.2 Alarms 8.3 Modules 6 back to Table of contents InteliMains 210 Global Guide...
Page 163: Controller Objects
8.1 Controller objects 8.1.1 Setpoints 8.1.2 Values 8.1.3 Logical binary inputs 8.1.4 Logical binary outputs 8.1.5 Logical analog inputs 8.1.6 PLC InteliMains 210 Global Guide...
Page 164: Setpoints
8.1.1 Setpoints What setpoints are: Setpoints are analog, binary or special data objects which are used for adjusting the controller to the specific environment. Setpoints are organized into groups according to their meaning. Setpoints can be adjusted from the controller front panel, PC, MODBUS, etc. All setpoints can be protected by a password against unauthorized changes.
Page 165 List of setpoints Unbalance Process Control Communication Bus Left Voltage Settings #System Load Control Unbalance Delay Controller Address Bus Left Overfrequency #System PF Control PTM 170 RS485 Mode Bus Left Underfrequency 190 #System BaseLoad RS485 Communication Bus Left < > Frequency #System Power Factor Speed Delay...
Page 166 #Power Band Change Up Analog Protection 3 Sd Analog Protection 11 Wrn 227 Delay Analog Protection 3 Delay 211 Analog Protection 11 Sd 227 #Power Band Change Analog Switch 3 On Analog Protection 11 Down Delay Delay Analog Switch 3 Off Control Group Analog Switch 11 On Analog Protection 4 Wrn 213...
Page 167 Analog Switch 20 On Timer 2 Repeat Week In DNS IP Address Month Analog Switch 20 Off AirGate Connection AirGate Address Plug-In Modules Scheduler ComAp TCP Port Slot A Time Mode Slot B Date Required Connection Type275 Time Stamp act Communication...
Page 168 Nominal Voltage Ph-N 1 AirGate Connection PLC Setpoint 25 Nominal Voltage Ph-Ph 1 295 AirGate Address PLC Setpoint 26 Nominal Current 1 ComAp TCP Port PLC Setpoint 27 Connection Type 1 Email Address 1 PLC Setpoint 28 Nominal Frequency 2 Email Address 2...
Page 169 PLC Setpoint 61 PLC Setpoint 62 PLC Setpoint 63 PLC Setpoint 64 InteliMains 210 Global Guide...
Page 170: Group: Process Control
Group: Process Control Subgroup: Load Control #System Load Control PTM Setpoint group Process Control Related FW 2.0.0 Range [units] Baseload / Loadsharing [-] Default value Baseload Alternative config Step Comm object 8774 Related applications MCB, MGCB, BTB Description Load control mode in parallel to mains operation of the whole group of gen-sets. The total power of the group is controlled to constant level given by the setpoint #System BaseLoad (page 171).
Page 171 #System BaseLoad Setpoint group Process Control Related FW 2.0.0 Range [units] 0 .. 32 000 [kW] Default value 1 000 kW Alternative config Step 1 kW Comm object 8775 Related applications MCB, MGCB, BTB Description #System Required total load of the gen-set group in parallel to mains operation in baseload mode (setpoint Load Control PTM (page 170) = Baseload).
Page 172 Subgroup: Transferred Bus Power Measurement Bus Power Measurement Setpoint group Process Control Related FW 2.0.0 Range [units] None/Mains CT/Analog Input [-] Default value Mains CT Alternative config Step Comm object 10599 Related applications MCB, MGCB, BTB Description Bus Left Import (page 367) Defines source value of the measurement.
Page 173 Synchronization L To Mains Process Setpoint group Related FW 2.0.0 Control Range [units] Enabled / Disabled [-] Default value Disabled Alternative config Step Comm object 16048 Related applications Description Setpoint for adjustment of the direction of synchronization. This setpoint has to be Enable for situations where the Mains is on the right side and gen-sets are on the left side.
Page 174 BTB Opening Process Setpoint group Related FW 2.0.0 Control Range [units] Enabled / Disabled [-] Default value Disabled Alternative config Step Comm object 14028 Related applications Description Setpoint adjusts if the BTB should be opened (in AUTO mode) when both sides are dead. Enable - BTB is opened when both sides are dead Disable - BTB stays closed even both sides of the bus are dead 6 back to List of setpoints...
Page 175: Group: Basic Settings
Group: Basic settings Subgroup: Name Controller Name Setpoint group Basic settings Related FW 2.0.0 Range [units] 0 .. 15 characters [-] Default value InteliGen Alternative config Step Comm object 8637 Related applications MCB, MGCB, BTB Description User defined name, used for the controller identification at remote phone or mobile connection. Gen-Set Name is maximally 15 characters long and can be entered using InteliConfig or from controller’s configuration menu.
Page 176 Bus Import CT Ratio Setpoint group Basic settings Related FW 2.0.0 Range [units] 1 .. 2 000 [A/5A] Default value 500 A/5A Alternative config Step 1 A/5A Comm object 8274 Related applications MCB, MGCB, BTB Description Bus current transformers ratio. Note: Generator currents and power measurement is suppressed if current level is below 1% of CT range.
Page 177 3x CT (Current Transformer) Note: To lock this setpoint against editing you also have to lock setpoint Connection Type 1 (page 295), Connection type 2 (page 297) Connection type 3 (page 299). 6 back to List of setpoints Nominal Voltage Ph-N Setpoint group Basic settings Related FW...
Page 178 Subgroup: Frequency settings Nominal Frequency Setpoint group Basic settings Related FW 2.0.0 Range [units] 45 .. 65 [Hz] Default value 50 Hz Alternative config Step 1 Hz Comm object 8278 Related applications MCB, MGCB, BTB Description Nominal system frequency (usually 50 or 60 Hz). Note: To lock this setpoint against editing you also have to lock setpoint Nominal Frequency 1 (page 294),...
Page 179 Power On Mode Setpoint group Basic settings Related FW 2.0.0 Range [units] Previous / OFF [-] Default value Previous Alternative config Step Comm object 13000 Related applications MCB, MGCB, BTB Description This setpoint adjusts controller mode after power on of controller. Previous When controller is power on, than is switched into last mode before power off.
Page 180 Subgroup: Phase rotation Phase Rotation Setpoint group Basic settings Related FW 2.0.0 Range [units] Clockwise / CounterCCW [-] Default value Clockwise Alternative config Step Comm object 15122 Related applications MCB, MGCB, BTB Description This setpoint adjust the phase sequence of voltage terminals. 6 back to List of setpoints Subgroup: Battery Protections Battery Undervoltage...
Page 181: Group: Communication Settings
Battery <> Voltage Delay Setpoint group Engine settings Related FW 2.0.0 Range [units] 0 .. 600 [s] Default value Alternative config Step Comm object 8383 Related applications MCB, MGCB, BTB Description Delay for Battery Undervoltage (page 180) Battery Overvoltage (page 180) protection.
Page 182: Group: Bus Right Settings
RS485 Communication Speed Communication Setpoint group Related FW 2.0.0 Settings Range [units] 9600 / 19200 / 38400 / 57600 / 115200 [bps] Default value 57600 bps Alternative config Step Comm object 24135 Related applications MCB, MGCB, BTB Description If the direct mode is selected on on-board RS485, the direct communication speed of controller part of line can be adjusted here.
Page 183 Bus Right Undervoltage Setpoint group Bus Right Settings Related FW 2.0.0 Range [units] 50 .. Bus Right Overvoltage (page 182) Default value 60 % Alternative config Step 1 % of Nominal Voltage Ph-Ph (page 177) Comm object 9687 Related applications MCB, MGCB, BTB Description Threshold for Bus Right undervoltage.
Page 184 Subgroup: Bus Right Frequency Limits Bus Right Overfrequency Setpoint group Bus Right Settings Related FW 2.0.0 Range [units] Bus Right Underfrequency (page 184) .. 150 [%] Default value 102,0 % Alternative config Step 1,0 % of Nominal Frequency (page 178) Comm object 9688 Related applications...
Page 185: Group: Bus Left Settings
Group: Bus Left Settings Subgroup: Overload Protection Overload BOR Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] 0 .. 200 [%] Default value 120 % Alternative config Step 1 % of Nominal Bus Import (page 175) Comm object 8280 Related applications MCB, MGCB, BTB...
Page 186 Subgroup: Current Protection Short Circuit BOR Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] 100 .. 500 [%] Default value 250 % Alternative config Step 1 % of Nominal Current (page 175) Comm object 8282 Related applications MCB, MGCB, BTB Description BOR occurs when current reaches this preset threshold.
Page 187 IDMT Overcurrent Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] 1,0 .. 180,0 [s] Default value 4,0 s Alternative config Step 0,1 s Comm object 8283 Related applications MCB, MGCB, BTB Description IDMT curve shape selection. IDMT Overcurrent Delay is a reaction time of IDMT protection for 200% =2*Nominal Current (page 175) overcurrent I IDMT is “very inverse”...
Page 188 Current Unbalance Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] 1 .. 200 [%] of Nominal Current (page 175) Default value 50 % Alternative config Step 1 % of Nominal Current (page 175) Comm object 8284 Related applications MCB, MGCB, BTB Description Threshold for Bus Left current asymmetry (unbalance).
Page 189 Bus Left < > Voltage Delay Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] 0,0 .. 600,0 [s] Default value 2,0 s Alternative config Step 0,1 s Comm object 8306 Related applications MCB, MGCB, BTB Description Delay for Bus Left Undervoltage (page 188) Bus Left Overvoltage (page 188) protection.
Page 190 Bus Left Underfrequency Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] 50 .. Bus Left Overfrequency (page 189) Default value 98,0 % Alternative config Step 1,0 % of Nominal Frequency (page 178) Comm object 8312 Related applications MCB, MGCB, BTB Description Threshold for Bus Left underfrequency.
Page 191 Subgroup: Bus Measurement Error Bus Measurement Error Setpoint group Bus Left Settings Related FW 2.0.0 Range [units] DISABLED / ENABLED Default value DISABLED Alternative config Step Comm object 10558 Related applications MCB, MGCB, BTB Description Bus measure error is detected when the voltage on controller’s bus terminals is out of limits for 20 seconds under these conditions: MCB application MCB (feedback)was closed in AUTO mode.
Page 192: Group: Power Management
Group: Power Management Subgroup: Power Management Control #Power Management Mode Setpoint group Power Management Related FW 2.0.0 Range [units] ABS [kW] / REL [%] Default value Alternative config Step Comm object 9874 Related applications MCB, MGCB Description This setpoint is used to select the Power management (page 78) mode.
Page 193 #System Start Delay Setpoint group Power Management Related FW 2.0.0 Range [units] 0 .. 600 [-] Default value Alternative config Step Comm object 8549 Related applications MCB, MGCB Description This setpoint adjusts the delay of the system activation after the binary input EMOTE TART PAGE...
Page 194 #Stopping Load Reserve 1 Setpoint group Power Management Related FW 2.0.0 Range [units] #Starting Load Reserve 1 (page 193) .. 32 000 [kW] Default value 110 kW Alternative config Step 1 kW Comm object 8491 Related applications MCB, MGCB Description This setpoint is used to adjust the load reserve for stop of next gen-set in absolute mode.
Page 195 #Stopping Rel Load Reserve 1 Setpoint group Power Management Related FW 2.0.0 Range [units] #Starting Rel Load Reserve 1 (page 194) .. 110 [%] Default value 80 % Alternative config Step Comm object 10652 Related applications MCB, MGCB Description This setpoint is used to adjust the load reserve for stop of next gen-set in relative mode. i.e. #Power Management Mode (page 192) = REL.
Page 196 #Stopping Load Reserve 2 Setpoint group Power Management Related FW 2.0.0 Range [units] #Starting Load Reserve 2 (page 195) .. 32 000 [kW] Default value 460 kW Alternative config Step 1 kW Comm object 8633 Related applications MCB, MGCB Description This setpoint is used to adjust the load reserve for stop of next gen-set in absolute mode.
Page 197 #Stopping Rel Load Reserve 2 Setpoint group Power Management Related FW 2.0.0 Range [units] #Starting Rel Load Reserve 2 (page 196) .. 110 [%] Default value 80 % Alternative config Step Comm object 10653 Related applications MCB, MGCB Description This setpoint is used to adjust the load reserve for stop of next gen-set in relative mode. i.e. #Power Management Mode (page 192) = REL.
Page 198 Subgroup: Start/Stop Timing #Next Engine Start Delay Setpoint group Power Management Related FW 2.0.0 Range [units] 0 .. 3 600 [s] Default value Alternative config Step Comm object 8492 Related applications MCB, MGCB Description This setpoint adjusts the delay for starting the next gen-set after the reserve has dropped below the reserve for start.
Page 199 Subgroup: Over Load Next Start Protection #Overload Next Start Protection Setpoint group Power Management Related FW 2.0.0 Range [units] Enabled / Disabled [-] Default value Enabled Alternative config Step Comm object 14942 Related applications MCB, MGCB Description This setpoint is intended for activation of the protection against the overloading of the system due to rapid change of the load.
Page 200 Subgroup: Run Hours Equalization #Run Hours Max Difference Setpoint group Power Management Related FW 2.0.0 Range [units] 0 .. 65 000 [h] Default value 100 h Alternative config Step Comm object 9919 Related applications MCB, MGCB Description This setpoint adjusts the "dead-band" for the running hours equalization function (#Priority Auto Swap (page 192) = Run Hours Equal).
Page 201 #Power Band Change Down Delay Setpoint group Power Management Related FW 2.0.0 Range [units] 0 .. 3 600 [s] Default value 10 s Alternative config Step Comm object 10795 Related applications MCB, MGCB Description This setpoint is used for adjusting the delay of changing the power band if the load demand drops below the #Priority Auto Swap (page 192) lower limit of the current power band.
Page 202 Group Link R Setpoint group Power Management Related FW 2.0.0 Range [units] 1,2 .. 32 [-] Default value Alternative config Step Comm object 10591 Related applications MCB, MGCB Description If the input 429) of this particular controller is used to provide the "group link" information ROUP LINK PAGE for two Control groups (to get more information refer to the chapter...
Page 203 Angle Gain Setpoint group Load Control Related FW 2.0.0 Range [units] 0,0 .. 200,0 [%] Default value 10,0 % Alternative config Step 0,1 % Comm object 8718 Related applications MCB, MGCB, BTB Description This setpoint is used for adjusting of the gain factor (P-factor) of the phase angle P-control loop. Note: During synchronization, first the frequency loop is started to match the generator frequency with the mains or bus and after that the phase angle loop is started to match the phase angle.
Page 204 Group: Synchronisation Synchronization Type Setpoint group Synchronisation Related FW 2.0.0 Range [units] Phase Match / Slip Synchro [-] Default value Phase Match Alternative config Step Comm object 14802 Related applications MCB, MGCB, BTB Description This setpoint adjusts the type of synchronization. This type of synchronization is based on voltage and phase shift match.
Page 205 Voltage Window Setpoint group Synchronisation Related FW 2.0.0 Range [units] 0,0 .. 100,0 [%] Default value 10,0 % Alternative config Step 0,1 % Comm object 8650 Related applications MCB, MGCB, BTB Description This setpoint adjusts maximum difference between Bus Right and Bus Left voltage in respective phases for synchronization.
Page 206 Slip Frequency Window Setpoint group Synchronisation Related FW 2.0.0 Range [units] 0,01 .. 0,50 [Hz] Default value 0,15 Hz Alternative config Step 0,01 Hz Comm object 14799 Related applications MCB, MGCB, BTB Description Window of slip frequency for slip synchronization (Synchronization Type (page 204) = Slip Synchro).
Page 207 Group: General Analog Inputs General Analog Input 1 Analog Protection 1 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object...
Page 208 Analog Switch 1 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 11407 Related applications...
Page 209 General Analog Input 2 Analog Protection 2 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9262 Related applications...
Page 210 Analog Switch 2 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 11408 Related applications...
Page 211 General Analog Input 3 Analog Protection 3 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9265 Related applications...
Page 212 Analog Switch 3 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 11409 Related applications...
Page 213 General Analog Input 4 Analog Protection 4 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9268 Related applications...
Page 214 Analog Switch 4 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14385 Related applications...
Page 215 General Analog Input 5 Analog Protection 5 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9271 Related applications...
Page 216 Analog Switch 5 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14963 Related applications...
Page 217 General Analog Input 6 Analog Protection 6 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9274 Related applications...
Page 218 Analog Switch 6 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14964 Related applications...
Page 219 General Analog Input 7 Analog Protection 7 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9277 Related applications...
Page 220 Analog Switch 7 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14965 Related applications...
Page 221 General Analog Input 8 Analog Protection 8 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9280 Related applications...
Page 222 Analog Switch 8 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14966 Related applications...
Page 223 General Analog Input 9 Analog Protection 9 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9283 Related applications...
Page 224 Analog Switch 9 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14967 Related applications...
Page 225 General Analog Input 10 Analog Protection 10 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9286 Related applications...
Page 226 Analog Switch 10 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14968 Related applications...
Page 227 General Analog Input 11 Analog Protection 11 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9289 Related applications...
Page 228 Analog Switch 11 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14969 Related applications...
Page 229 General Analog Input 12 Analog Protection 12 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9292 Related applications...
Page 230 Analog Switch 12 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14970 Related applications...
Page 231 General Analog Input 13 Analog Protection 13 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9295 Related applications...
Page 232 Analog Switch 13 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14971 Related applications...
Page 233 General Analog Input 14 Analog Protection 14 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9298 Related applications...
Page 234 Analog Switch 14 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14972 Related applications...
Page 235 General Analog Input 15 Analog Protection 15 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9301 Related applications...
Page 236 Analog Switch 15 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14973 Related applications...
Page 237 General Analog Input 16 Analog Protection 16 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9304 Related applications...
Page 238 Analog Switch 16 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14974 Related applications...
Page 239 General Analog Input 17 Analog Protection 17 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9307 Related applications...
Page 240 Analog Switch 17 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14975 Related applications...
Page 241 General Analog Input 18 Analog Protection 18 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9310 Related applications...
Page 242 Analog Switch 18 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14976 Related applications...
Page 243 General Analog Input 19 Analog Protection 19 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9313 Related applications...
Page 244 Analog Switch 19 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14977 Related applications...
Page 245 General Analog Input 20 Analog Protection 20 Wrn Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 9316 Related applications...
Page 246 Analog Switch 20 On Setpoint group General Analog Inputs Related FW 2.0.0 Range [units] the range is defined by analog sensor curve the value is defined by Default value Alternative config analog sensor curve Step the step is defined by analog sensor curve Comm object 14978 Related applications...
Page 247 Group: Scheduler Subgroup: Time & Date Time Setpoint group Scheduler Related FW 2.0.0 Range [units] HH:MM:SS [-] Default value 0:0:0 Alternative config Step Comm object 24554 Related applications MCB, MGCB, BTB Description Real time clock adjustment. 6 back to List of setpoints Date Setpoint group Scheduler...
Page 248 Time Stamp Period Setpoint group Scheduler Related FW 2.0.0 Range [units] 0 .. 240 [min] Default value 60 min Alternative config Step 1 min Comm object 8979 Related applications MCB, MGCB, BTB Description Time interval for periodic history records. Note: History record is made only when engine is running. 6 back to List of setpoints #Summer Time Mode Setpoint group...
Page 249 Subgroup: Timer 1 Timer 1 Setup Setpoint group Scheduler Related FW 2.0.0 Range [units] Default value Alternative config Step Comm object 10969 Related applications MCB, MGCB, BTB Description Related setpoints for timer 1 are: Timer 1 Function (page 250) Timer 1 Day (page 254) Timer 1 Repetition (page 250) Timer 1 Repeated Day In Week (page 255) Timer 1 First Occur.
Page 250 Timer 1 Function Setpoint group Scheduler Related FW 2.0.0 Range [units] Disable / No Func / TEST / Test OnLd / MFail Blk / Mode OFF [-] Default value Disable Alternative config Step Comm object 15358 Related applications MCB, MGCB, BTB Description It is possible to choose from following timer functions.
Page 251 Timer 1 First Occur. Date Setpoint group Scheduler Related FW 2.0.0 Range [units] [DD/MM/YYYY] Default value 01/01/2000 Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Date of first occurrence of Timer 1 Function (page 250). 6 back to List of setpoints Timer 1 First Occur.
Page 252 Timer 1 Repeated Setpoint group Scheduler Related FW 2.0.0 Range [units] Daily / Weekly / Monthly / Short Period [-] Default value Daily Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Repeated interval of Timer 1 Function (page 250).
Page 253 Timer 1 Refresh Period Setpoint group Scheduler Related FW 2.0.0 Range [units] Default value Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Refresh period of Timer 1 Function (page 250). Meaning of this setpoint depends on type of repetition Timer 1 Repeated (page 252).
Page 254 Timer 1 Weekends Setpoint group Scheduler Related FW 2.0.0 Range [units] Including / Skip / Postpone [-] Default value Including Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Behavior of Timer 1 Function (page 250) on weekends. Timer 1 Function (page 250) Timer 1 Function counter is running on the weekends and...
Page 255 Timer 1 Repeated Day In Week Setpoint group Scheduler Related FW 2.0.0 Range [units] Monday / Tuesday / Wednesday / Thursday / Friday / Saturday/ Sunday[-] Default value All OFF Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Use this setpoint to select the day of week when timer will be activated.
Page 256 Subgroup: Timer 2 Timer 2 Setup Setpoint group Scheduler Related FW 2.0.0 Range [units] Default value Alternative config Step Comm object 10970 Related applications MCB, MGCB, BTB Description Related setpoints for timer 2 are: Timer 2 Function (page 257) Timer 2 Day (page 261) Timer 2 Repetition (page 257) Timer 2 Repeated Day In Week (page 262) Timer 2 First Occur.
Page 257 Timer 2 Function Setpoint group Scheduler Related FW 2.0.0 Range [units] Disable / No Func / TEST / Test OnLd / MFail Blk / Mode OFF [-] Default value No Func Alternative config Step Comm object 15359 Related applications MCB, MGCB, BTB Description It is possible to choose from following Timer functions.
Page 258 Timer 2 First Occur. Date Setpoint group Scheduler Related FW 2.0.0 Range [units] [DD/MM/YYYY] Default value 01/01/2000 Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Date of first occurrence ofTimer 2 Function (page 257). 6 back to List of setpoints Timer 2 First Occur.
Page 259 Timer 2 Repeated Setpoint group Scheduler Related FW 2.0.0 Range [units] Daily / Weekly / Monthly / Short Period [-] Default value Daily Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Repeated interval of Timer 2 Function (page 257).
Page 260 Timer 2 Refresh Period Setpoint group Scheduler Related FW 2.0.0 Range [units] Default value Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Refresh period of Timer 2 Function (page 257). Meaning of this setpoint depends on type of repetition Timer 2 Repeated (page 259).
Page 261 Timer 2 Weekends Setpoint group Scheduler Related FW 2.0.0 Range [units] Including / Skip / Postpone [-] Default value Including Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Behavior of Timer 2 Function (page 257) on weekends. Timer 2 Function (page 257) Timer 2 Function counter is running on the weekends and...
Page 262 Timer 2 Repeated Day In Week Setpoint group Scheduler Related FW 2.0.0 Range [units] Monday / Tuesday / Wednesday / Thursday / Friday / Saturday/ Sunday[-] Default value All OFF Alternative config Step Comm object Related applications MCB, MGCB, BTB Description Use this setpoint to select the day of week when timer will be activated.
Page 263 6 back to List of setpoints Slot B Setpoint group Plug-In Modules Related FW 2.0.0 Range [units] ENABLED / DISABLED [-] Default value ENABLED Alternative config Step Comm object 24279 Related applications MCB, MGCB, BTB Description This setpoint enable or disable module in slot B. 6 back to List of setpoints Group: CM-RS232-485 COM1 Mode...
Page 264 COM1 MODBUS Communication Speed Setpoint group CM-RS232-485 Related FW 2.0.0 Range [units] 9600 / 19200 / 38400 / 57600 / 115200 [bps] Default value 9600 bps Alternative config Step Comm object 24477 Related applications MCB, MGCB, BTB Description If the MODBUS mode is selected on COM1 channel, the MODBUS communication speed can be adjusted here.
Page 265 COM2 MODBUS Communication Speed Setpoint group CM-RS232-485 Related FW 2.0.0 Range [units] 9600 / 19200 / 38400 / 57600 / 115200 [bps] Default value 9600 bps Alternative config Step Comm object 24420 Related applications MCB, MGCB, BTB Description If the MODBUS mode is selected on COM2 channel, the MODBUS communication speed can be adjusted here.
Page 266 APN User Name CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 Range [units] 0..15 characters [-] Default value Alternative config Step Comm object 24361 Related applications MCB, MGCB, BTB Description User name for the GPRS/4G Access Point if authentication is required. But mostly it is not required and should be left blank.
Page 267 Email Address 2 CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] 0..63 characters [-] Default value Alternative config Step Comm object 24297 Related applications MCB, MGCB, BTB Description Enter in this setpoint a valid e-mail address where the alarm and event e-mails shall be sent. Leave this setpoint blank if alarm and event email should not be send.
Page 268 Message Language CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] Default value English Alternative config Step Comm object 24299 Related applications MCB, MGCB, BTB Description Use this setpoint to set the language of SMS and e-mail. Note: Numbers correspond with languages in language list. See the chapter for Language selection (page 72) more information.
Page 269 Note: You may use also any public SMTP server which does not require connection over SSL/TLS channels. If the device is connected to AirGate the AirGate SMTP server at "airgate.comap.cz" may be used. Ports 25 and 9925 are supported. After controller connects to AirGate for the first time (or with new public IP address), it may not be able to send emails for first 5-10 minutes.
Page 270 Time Zone CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] GMT-12:00 .. GMT+13:00 [hours] Default value GMT+1:00 hour Alternative config Step Comm object 24366 Related applications MCB, MGCB, BTB Description This setpoint is used to select the time zone where the controller is located. See your computer time zone setting (click on the time indicator located in the rightmost position of the Windows task bar) if you are not sure about your time zone.
Page 271 BOC Message CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] ON / OFF [-] Default value Alternative config Step Comm object 10566 Related applications MCB, MGCB, BTB Description This setpoint enables or disables BOC Messages. This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints Sd Messages CM-GPRS;...
Page 272 Telephone Number 2 CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 Range [units] 0..31 characters [-] Default value Alternative config Step Comm object 24295 Related applications MCB, MGCB, BTB Description Enter in this setpoint either a valid GSM phone number where the alarm messages shall be sent. For GSM numbers use either the national format (i.e.
Page 273 Description This setpoint is used for entering the domain name or IP address of the AirGate server. Use the free AirGate server provided by ComAp at airgate.comap.cz. Note: This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints...
Page 274 ComAp PC program (i.e. InteliConfig). This setpoint should be adjusted to 23, which is the default port used by all ComAp PC programs. A different value should be used only in special situations as e.g. sharing one public IP address among many controllers or to overcome a firewall restrictions.
Page 275 Required Connection Type Setpoint group CM-4G-GPS Related FW 2.0.0 Range [units] 2G/3G/4G/Automatic [-] Default value Automatic Alternative config Step Comm object 24132 Related applications MCB, MGCB, BTB Description This setpoint adjusts preferred connection type of CM-4G-GPS module. 6 back to List of setpoints APN Name CM-GPRS;...
Page 276 APN User Password CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 Range [units] 0..15 characters [-] Default value Alternative config Step Comm object 24360 Related applications MCB, MGCB, BTB Description User password for the GPRS/4G Access Point if authentication is required. But mostly it is not required and should be left blank.
Page 277 Email Address 3 CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] 0..63 characters [-] Default value Alternative config Step Comm object 24145 Related applications MCB, MGCB, BTB Description Enter in this setpoint a valid e-mail address where the alarm and event e-mails shall be sent. Leave this setpoint blank if alarm and event email should not be send.
Page 278 Note: You may use also any public SMTP server which does not require connection over SSL/TLS channels. If the device is connected to AirGate the AirGate SMTP server at "airgate.comap.cz" may be used. Ports 25 and 9925 are supported. After controller connects to AirGate for the first time (or with new public IP address), it may not be able to send emails for first 5-10 minutes.
Page 279 SMTP Sender Address CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 Range [units] 0..31 characters [-] Default value Alternative config Step Comm object 24310 Related applications MCB, MGCB, BTB Description Enter an existing email address into this setpoint. This address will be used as sender address in active e- mails that will be sent from the controller.
Page 280 Event Message CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] ON / OFF [-] Default value Alternative config Step Comm object 10926 Related applications MCB, MGCB, BTB Description This setpoint enables or disables Event Messages. This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints Wrn Message CM-GPRS;...
Page 281 Sd Messages CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] ON / OFF [-] Default value Alternative config Step Comm object 8484 Related applications MCB, MGCB, BTB Description This setpoint enables or disables Sd Messages. This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints Telephone Number 1 CM-GPRS;...
Page 282 Telephone Number 3 CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 Range [units] 0..31 characters [-] Default value Alternative config Step Comm object 24143 Related applications MCB, MGCB, BTB Description Enter in this setpoint either a valid GSM phone number where the alarm messages shall be sent. For GSM numbers use either the national format (i.e.
Page 283 Description This setpoint is used for entering the domain name or IP address of the AirGate server. Use the free AirGate server provided by ComAp at airgate.comap.cz. Note: This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints...
Page 284 ComAp PC program (i.e. InteliConfig). This setpoint should be adjusted to 23, which is the default port used by all ComAp PC programs. A different value should be used only in special situations as e.g. sharing one public IP address among many controllers or to overcome a firewall restrictions.
Page 285 Email Address 2 CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] 0..63 characters [-] Default value Alternative config Step Comm object 24297 Related applications MCB, MGCB, BTB Description Enter in this setpoint a valid e-mail address where the alarm and event e-mails shall be sent. Leave this setpoint blank if alarm and event email should not be send.
Page 286 Message Language CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] Default value English Alternative config Step Comm object 24299 Related applications MCB, MGCB, BTB Description Use this setpoint to set the language of SMS and e-mail. Note: Numbers correspond with languages in language list. See the chapter for Language selection (page 72) more information.
Page 287 Wrn Message CM-GPRS; CM-4G- Setpoint group Related FW 2.0.0 GPS; CM-Ethernet Range [units] ON / OFF [-] Default value Alternative config Step Comm object 8482 Related applications MCB, MGCB, BTB Description This setpoint enables or disables Wrn Messages. This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints BOC Message CM-GPRS;...
Page 288 Note: You may use also any public SMTP server which does not require connection over SSL/TLS channels. If the device is connected to AirGate the AirGate SMTP server at "airgate.comap.cz" may be used. Ports 25 and 9925 are supported. After controller connects to AirGate for the first time (or with new public IP address), it may not be able to send emails for first 5-10 minutes.
Page 289 SMTP Sender Address Setpoint group CM-Ethernet Related FW 2.0.0 Range [units] 0..31 characters [-] Default value Alternative config Step Comm object 24367 Related applications MCB, MGCB, BTB Description Enter an existing email address into this setpoint. This address will be used as sender address in active e- mails that will be sent from the controller.
Page 290 IP Address Setpoint group CM-Ethernet Related FW 2.0.0 Range [units] Valid IP address [-] Default value 192.168.1.254 Alternative config Step Comm object 24376 Related applications MCB, MGCB, BTB Description The setpoint is used to select the method how the IP Address is adjusted. IP Address Mode (page 289) is FIXED this setpoint is used to adjust the IP address of the ethernet interface of the controller.
Page 291 DNS IP Address 1 Setpoint group CM-Ethernet Related FW 2.0.0 Range [units] Valid IP address [-] Default value 8.8.8.8 Alternative config Step Comm object 24362 Related applications MCB, MGCB, BTB Description The setpoint is used to select the method how the DNS Address 1 is adjusted. IP Address Mode (page 289) is FIXED this setpoint is used to adjust the domain name server (DNS), which is needed to translate domain names in email addresses and server names into correct IP addresses.
Page 292 SNMP Agent Setpoint group CM-Ethernet Related FW 2.0.0 Range [units] DISABLED / ENABLED [-] Default value DISABLED Alternative config Step Comm object 24336 Related applications MCB, MGCB, BTB Description Enable or disable SNMP v1 Agent. 6 back to List of setpoints SNMP RD Community String Setpoint group CM-Ethernet...
Page 293 Description This setpoint is used for entering the domain name or IP address of the AirGate server. Use the free AirGate server provided by ComAp at airgate.comap.cz. Note: This setpoint is common for CM-Ethernet, CM-GPRS and CM-4G-GPS modules. 6 back to List of setpoints...
Page 294 ComAp PC program (i.e. InteliConfig). This setpoint should be adjusted to 23, which is the default port used by all ComAp PC programs. A different value should be used only in special situations as e.g. sharing one public IP address among many controllers or to overcome a firewall restrictions.
Page 295 Nominal Voltage Ph-Ph 1 Setpoint group Related FW 2.0.0 Range [units] 80 .. 40000 [V] Default value 400 V Alternative config Step Comm object 12055 Related applications MCB, MGCB, BTB Description Nominal system voltage (phase to phase). Note: This value is used when any other alternate configuration is not active. 6 back to List of setpoints Nominal Current 1 Setpoint group...
Page 296 Corner-Grounded Delta Split Phase Delta Three phase voltage measurement L1,L2,L3 with 120° phase shift No neutral is available 3x CT (Current Transformer) High Leg D High Leg Delta connection Three phase voltage measurement L1,L2,L3 3x CT (Current Transformer) 3Ph4Wire Grounded Star (Grounded Wye) connection – 3PY Three phase voltage measurement L1,L2,L3 with 120°...
Page 297 Nominal Voltage Ph-Ph 2 Setpoint group Related FW 2.0.0 Range [units] 80 .. 40000 [V] Default value 400 V Alternative config Step Comm object 12056 Related applications MCB, MGCB, BTB Description Nominal system voltage (phase to phase). Note: This value is used when binary input 401) is active.
Page 298 Corner-Grounded Delta Split Phase Delta Three phase voltage measurement L1,L2,L3 with 120° phase shift No neutral is available 3x CT (Current Transformer) High Leg D High Leg Delta connection Three phase voltage measurement L1,L2,L3 3x CT (Current Transformer) 3Ph4Wire Grounded Star (Grounded Wye) connection – 3PY Three phase voltage measurement L1,L2,L3 with 120°...
Page 299 Nominal Voltage Ph-Ph 3 Setpoint group Related FW 2.0.0 Range [units] 80 .. 40 000 [V] Default value 400 V Alternative config Step Comm object 12057 Related applications MCB, MGCB, BTB Description Nominal system voltage (phase to phase). Note: This value is used when binary input 401) is active.
Page 300 Corner-Grounded Delta Split Phase Delta Three phase voltage measurement L1,L2,L3 with 120° phase shift No neutral is available 3x CT (Current Transformer) High Leg D High Leg Delta connection Three phase voltage measurement L1,L2,L3 3x CT (Current Transformer) 3Ph4Wire Grounded Star (Grounded Wye) connection – 3PY Three phase voltage measurement L1,L2,L3 with 120°...
Page 301 PLC Setpoint 2 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10441 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 302 PLC Setpoint 3 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10442 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 303 PLC Setpoint 4 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10443 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 304 PLC Setpoint 5 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10444 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 305 PLC Setpoint 6 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10445 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 306 PLC Setpoint 7 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10446 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 307 PLC Setpoint 8 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10447 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 308 PLC Setpoint 9 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10448 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 309 PLC Setpoint 10 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10449 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 310 PLC Setpoint 11 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10450 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 311 PLC Setpoint 12 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10451 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 312 PLC Setpoint 13 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10452 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 313 PLC Setpoint 14 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10453 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 314 PLC Setpoint 15 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10454 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 315 PLC Setpoint 16 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10455 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 316 PLC Setpoint 17 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10456 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 317 PLC Setpoint 18 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10457 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 318 PLC Setpoint 19 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10458 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 319 PLC Setpoint 20 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10459 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 320 PLC Setpoint 21 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10460 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 321 PLC Setpoint 22 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10461 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 322 PLC Setpoint 23 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10462 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 323 PLC Setpoint 24 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10463 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 324 PLC Setpoint 25 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10464 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 325 PLC Setpoint 26 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10465 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 326 PLC Setpoint 27 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10466 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 327 PLC Setpoint 28 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10467 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 328 PLC Setpoint 29 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10468 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 329 PLC Setpoint 30 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10469 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 330 PLC Setpoint 31 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10470 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 331 PLC Setpoint 32 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10471 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 332 PLC Setpoint 33 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10472 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 333 PLC Setpoint 34 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10473 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 334 PLC Setpoint 35 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10474 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 335 PLC Setpoint 36 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10475 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 336 PLC Setpoint 37 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10476 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 337 PLC Setpoint 38 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10477 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 338 PLC Setpoint 39 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10478 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 339 PLC Setpoint 40 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10479 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 340 PLC Setpoint 41 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10480 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 341 PLC Setpoint 42 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10481 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 342 PLC Setpoint 43 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10482 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 343 PLC Setpoint 44 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10483 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 344 PLC Setpoint 45 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10484 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 345 PLC Setpoint 46 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10485 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 346 PLC Setpoint 47 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10486 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 347 PLC Setpoint 48 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10487 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 348 PLC Setpoint 49 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10488 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 349 PLC Setpoint 50 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10489 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 350 PLC Setpoint 51 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10490 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 351 PLC Setpoint 52 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10491 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 352 PLC Setpoint 53 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10492 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 353 PLC Setpoint 54 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10493 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 354 PLC Setpoint 55 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10494 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 355 PLC Setpoint 56 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10495 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 356 PLC Setpoint 57 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10496 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 357 PLC Setpoint 58 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10497 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 358 PLC Setpoint 59 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10498 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 359 PLC Setpoint 60 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10499 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 360 PLC Setpoint 61 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10500 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 361 PLC Setpoint 62 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10501 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 362 PLC Setpoint 63 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10502 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 363 PLC Setpoint 64 Setpoint group Related FW 2.0.0 Range [units] Depends on resolution of value [-] Depends on resolution of Default value Alternative config value [-] Step Depends on resolution of value [-] Comm object 10503 Related applications MCB, MGCB, BTB Description Adjustable value for input in PLC logic.
Page 364: Values
8.1.2 Values What values are: Values (or quantities) are analog or binary data objects, measured or computed by the controller, that are intended for reading from the controller screen, PC, MODBUS, etc. Values are organized into groups according to their meaning. Invalid flag If valid data is not available for a particular value, the invalid flag is set to it.
Page 365 List of values Binary Inputs Bus Left Bus Right Binary Outputs Bus Left Import Bus Right Frequency CAN16 Bus Left kW L1 Bus Right Voltage L1-N CAN32 Bus Left kW L2 Bus Right Voltage L2-N Reg16 Bus Left kW L3 Bus Right Voltage L3-N Reg32 Bus Left kVAr...
Page 366 Log Bout 6 Log Bout 7 Date/Time Time Date InteliMains 210 Global Guide...
Page 367 Group: Bus Left Bus Left Import Value group Bus Left Related FW 2.0.0 Units Comm object 8703 Related applications MCBMGCB, BTB Description Imported kW from Bus Left. 6 back to List of values Bus Left kW L1 Value group Bus Left Related FW 2.0.0 Units...
Page 368 Bus Left kVAr L1 Value group Bus Left Related FW 2.0.0 Units kVAr Comm object 8808 Related applications MCBMGCB, BTB Description Bus Left reactive power in phase L1. 6 back to List of values Bus Left kVAr L2 Value group Bus Left Related FW 2.0.0...
Page 369 Bus Left kVA L2 Value group Bus Left Related FW 2.0.0 Units Comm object 8813 Related applications MCBMGCB, BTB Description Bus Left apparent power in phase L2. 6 back to List of values Bus Left kVA L3 Value group Bus Left Related FW 2.0.0 Units...
Page 370 Bus Left Load Character L1 Value group Bus Left Related FW 2.0.0 Units Comm object 8818 Related applications MCBMGCB, BTB Description Character of Bus Left load. “L” means inductive load, “C” is capacitive and “R” is resistive load (power factor = 1).
Page 371 Bus Left Frequency Value group Bus Left Related FW 2.0.0 Units Comm object 8211 Related applications MCBMGCB, BTB Description Frequency of Bus Left. 6 back to List of values Bus Left Voltage L1-N Value group Bus Left Related FW 2.0.0 Units Comm object 8195...
Page 372 Bus Left Voltage L2-L3 Value group Bus Left Related FW 2.0.0 Units Comm object 9632 Related applications MCBMGCB, BTB Description Bus Left phase to phase voltage between L2 and L3 phases. 6 back to List of values Bus Left Voltage L3-L1 Value group Bus Left Related FW...
Page 373 Slip Frequency Value group Bus Left Related FW 2.0.0 Units Comm object 8224 Related applications MCBMGCB, BTB Description Differential frequency between the mains and bus. 6 back to List of values Slip Angle Value group Bus Left Related FW 2.0.0 Units °...
Page 374 Bus Right Voltage L3-N Value group Bus Right Related FW 2.0.0 Units Comm object 8194 Related applications MCB, MGCB, BTB Description Bus Right voltage on phase L3. 6 back to List of values Bus Right Voltage L1-L2 Value group Bus Right Related FW 2.0.0 Units...
Page 375 Actual Relative Reserve Value group Power Management Related FW 2.0.0 Units Comm object 10788 Related applications MCB, MGCB, BTB Description Actual relative reserve in power management. 6 back to List of values Start Reserve Value group Power Management Related FW 2.0.0 Units Comm object...
Page 376 Actual Active Power In PM Value group Power Management Related FW 2.0.0 Units Comm object 10657 Related applications MCB, MGCB, BTB Description Actual value of active power from all gen-sets running in power management. 6 back to List of values Actual Reactive Power In PM Value group Power Management...
Page 377 Minimal Running Nominal Power Value group Power Management Related FW 2.0.0 Units Comm object 10012 Related applications MCB, MGCB, BTB Description Actual minimal nominal power of all gen-sets, which are running. 6 back to List of values Actual Power Band Value group Power Management Related FW...
Page 378 Group: Voltage/PF Control Varsharing Output Value group Voltage/PF Control Related FW 2.0.0 Units kVAr Comm object 10925 Related applications MCB, MGCB, BTB Description Varsharing regulation loop output. 6 back to List of values Group: Controler I/O Battery Volts Value group Controler I/O Related FW 2.0.0...
Page 379 Group: Statistics Bus Left kWh Value group Statistics Related FW 2.0.0 Units Comm object 8205 Related applications MCB, MGCB, BTB Description Sum of kWh from the Bus Left. Note: This value can be also switch into one decimal power format (via InteliConfig PC tool). In this case the range of value is decrease 10 times.
Page 380 Bus Right kWh Value group Statistics Related FW 2.0.0 Units Comm object 11025 Related applications MCB, MGCB, BTB Description Sum of kWh from the Bus Left. Note: This value can be also switch into one decimal power format (via InteliConfig PC tool). In this case the range of value is decrease 10 times.
Page 381 Timer Text Value group Info Related FW 2.0.0 Units Comm object 10040 Related applications MCB, MGCB, BTB Description The value contains the numeric code of the “Current process timer” text which is shown on the main screen of the controller. The assignment of texts to the codes can be obtained using InteliConfig.
Page 382 Timer Value Value group Info Related FW 2.0.0 Units [HH:MM:SS] Comm object 14147 Related applications MCB, MGCB, BTB Description The value contains the "Current process timer" value which is shown on the main screen of the controller. 6 back to List of values ID String Value group Info...
Page 383 Password Decode Value group Info Related FW 2.0.0 Units Comm object 24202 Related applications MCB, MGCB, BTB Description This value contains a number which can be used for retrieving a lost password. Send this number together with the controller serial number to your distributor if you have lost your password. 6 back to List of values CAN16 Value group...
Page 384 Reg32 Value group Info Related FW 2.0.0 Units Comm object 11082 Related applications MCB, MGCB, BTB Description Bits of this value show "1" if the controller which has address corresponding with the bit position plays active role in the power management. Bit 0 represents address 17 etc. This value contains information about controllers with addresses 17-32.
Page 385 Log Bout 2 Value group Log Bout Related FW 2.0.0 Units Comm object 9144 Related applications MCB, MGCB, BTB Description State of binary outputs. 6 back to List of values Log Bout 3 Value group Log Bout Related FW 2.0.0 Units Comm object 9145...
Page 386 Log Bout 7 Value group Log Bout Related FW 2.0.0 Units Comm object 9149 Related applications MCB, MGCB, BTB Description State of binary outputs. 6 back to List of values Group: CM-GPRS AirGate Status CM-GPRS; CM-4G- Value group Related FW 2.0.0 GPS (4G part) Units...
Page 387 AirGate Status CM-GPRS; CM-4G- Value group Related FW 2.0.0 GPS (4G part) Units Comm object 24308 Related applications MCB, MGCB, BTB Description Diagnostic code for AirGate connection. Helps in troubleshooting. Code Description SIM card is not inserted Controller registered, waiting for authorization Not possible to register, controller blacklisted Not possible to register, server has no more capacity Not possible to register, other reason...
Page 388 Module – error in initialization Module – not possible to set the APN Module – not possible to connect to GPRS network Module – not possible to retrieve IP address Module – not accepted DNS IP address Error in modem detection Error in initialization of analog modem SIM card is locked (Possibly PIN code required, PIN needs to be deactivated) or unknown status of SIM locking...
Page 389 Can't read operator name ME909s: can't set flow control APN not typed Only running communication is needed to indicate 6 back to List of values Cell ErrorRate CM-GPRS; CM-4G- Value group Related FW 2.0.0 GPS (4G part) Units Comm object 24300 Related applications MCB, MGCB, BTB...
Page 390 Last Email Result CM-GPRS; CM-4G- Value group Related FW 2.0.0 GPS (4G part) Units Comm object 24307 Related applications MCB, MGCB, BTB Description Result of last email, which was sent by controller. Code Description Email was successfully sent. It is not possible to establish connection with SMTP server. SMTP server is not ready for communication.
Page 391 Operator CM-GPRS; CM-4G- Value group Related FW 2.0.0 GPS (4G part) Units Comm object 24147 Related applications MCB, MGCB, BTB Description The name of operator which to SIM card is connected. Note: If roaming service is used then prefix "R" is added before the name of operator. 6 back to List of values Group: CM-Ethernet AirGate Status...
Page 392 Current DNS Value group CM-Ethernet Related FW 2.0.0 Units Comm object 24181 Related applications MCB, MGCB, BTB Description Current domain name server. 6 back to List of values ETH Interface Status Value group CM-Ethernet Related FW 2.0.0 Units Comm object 24180 Related applications MCB, MGCB, BTB...
Page 393 Last Email Result Value group CM-Ethernet Related FW 2.0.0 Units Comm object 24332 Related applications MCB, MGCB, BTB Description Result of last email, which was sent by controller. Code Description Email was successfully sent. It is not possible to establish connection with SMTP server. SMTP server is not ready for communication.
Page 394 Current Subnet Mask Value group CM-Ethernet Related FW 2.0.0 Units Comm object 24183 Related applications MCB, MGCB, BTB Description Current subnet mask. 6 back to List of values Group: Date/Time Time Value group Date/Time Related FW 2.0.0 Units HH:MM:SS Comm object 24554 Related applications MCB, MGCB, BTB...
Page 395 EM BIO B Value group Plug-In I/O Related FW 2.0.0 Units Comm object 14292 Related applications MCB, MGCB, BTB Description Binary inputs from extension module in slot B. 6 back to List of values Group: PLC PLC Resource 1 Value group Related FW 2.0.0 Units...
Page 396 PLC Resource 5 Value group Related FW 2.0.0 Units Comm object 10508 Related applications MCB, MGCB, BTB Description Internal state of PLC countdowns (e.g. state of block Timer etc.). 6 back to List of values PLC Resource 6 Value group Related FW 2.0.0 Units...
Page 397 PLC-BOUT 2 Value group Related FW 2.0.0 Units Comm object 10425 Related applications MCB, MGCB, BTB Description State of binary outputs of PLC. 6 back to List of values PLC-BOUT 3 Value group Related FW 2.0.0 Units Comm object 10426 Related applications MCB, MGCB, BTB Description...
Page 398 PLC-BOUT 7 Value group Related FW 2.0.0 Units Comm object 10430 Related applications MCB, MGCB, BTB Description State of binary outputs of PLC. 6 back to List of values InteliMains 210 Global Guide...
Page 399: Logical Binary Inputs
8.1.3 Logical binary inputs What Logical binary inputs are: Logical binary inputs are inputs for binary values and functions. Alphabetical groups of Logical binary inputs LBI: A LBI: B LBI: E LBI: F LBI: G LBI: H LBI: L LBI: M LBI: N LBI: R LBI: T...
Page 400 Logical binary inputs alphabetically Access Lock BIN Protection 35 Alternate Config 2 BIN Protection 36 Alternate Config 3 BIN Protection 37 BIN Protection 1 BIN Protection 38 BIN Protection 02 BIN Protection 39 BIN Protection 03 BIN Protection 40 BIN Protection 04 BIN Protection 41 BIN Protection 05 BIN Protection 42...
Page 401 LBI: A Access Lock Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description When this input is closed, no setpoints can be adjusted from controller’s front panel and controller mode (OFF / MAN / AUTO) cannot be changed. Note: Access Lock does not protect setpoints and mode changing from InteliConfig.
Page 402 LBI: B BIN Protection 1 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9999 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 403 BIN Protection 03 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9997 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 404 BIN Protection 05 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9995 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 405 BIN Protection 07 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9993 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 406 BIN Protection 09 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9991 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 407 BIN Protection 11 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9989 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 408 BIN Protection 13 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9987 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 409 BIN Protection 15 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9985 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 410 BIN Protection 17 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9983 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 411 BIN Protection 19 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9981 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 412 BIN Protection 21 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9979 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 413 BIN Protection 23 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9977 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 414 BIN Protection 25 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9975 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 415 BIN Protection 27 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9973 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 416 BIN Protection 29 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9971 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 417 BIN Protection 31 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9969 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 418 BIN Protection 33 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9967 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 419 BIN Protection 35 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9965 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 420 BIN Protection 37 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9963 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 421 BIN Protection 39 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9961 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 422 BIN Protection 41 Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object 9959 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 423 BIN Protection 43 Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object 9957 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 424 BIN Protection 45 Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object 9955 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 425 BIN Protection 47 Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object 9953 Description This binary input is for general input function used as alarm. Protection types Monitoring Binary input is not used for protection or any other function. Signal is only monitored.
Page 426 BTB Button Related FW 2.0.0 Related applications MCB, MGCB Comm object Description This binary input has the same function as BTB button on the InteliMains 210 front panel. It is evaluated in MAN mode only. 6 back to Logical binary inputs alphabetically InteliMains 210 Global Guide...
Page 427 BTB Feedback Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Use this input for indication whether the bus circuit breaker is open or closed. Image 8.106 BTB Feedback 1 Image 8.107 BTB Feedback 2 6 back to Logical binary inputs alphabetically InteliMains 210 Global Guide...
Page 428 LBI: E Emergency MAN Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description This input is designed to allow the gen-set or breakers to be controlled externally, not by the controller. This feature can be useful in case of or in case of some failure, which disables the gen-set or breakers to be controlled by the controller, but the gen-set itself is operational.
Page 429 LBI: G Group link Related FW 2.0.0 Related applications MCB, MGCB Comm object Description This input is used for logical connection and disconnection of two gen-set groups selected with setpoints Group Link L (page 201) Group Link R (page 202). If the input is active, then the two selected groups will perform power management, load sharing and kVAr sharing together as one large group.
Page 430 Lang Selection 2 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Use this binary input with binary input 429) to choose required language of ELECTION PAGE controller. The system is based on binary numbers. Binary input Binary number Active language 429) is active...
Page 431 LBI: N Not Used Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Binary input has no function. Use this configuration when binary input is not used. 6 back to Logical binary inputs alphabetically LBI: R Remote AUTO Related FW 2.0.0 Related applications...
Page 432 Remote MAN Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description The controller is switched to the MAN mode (there are four modes OFF / MAN / AUTO / TEST) when this binary input is closed. When opens controller is switched back to previous mode. Remote control priority: Remote OFF (Highest priority) Remote TEST...
Page 433 Remote Start/Stop Related FW 2.0.0 Related applications MCB, MGCB Comm object Description Use this input to start and stop the gen-set in AUTO mode and TEST mode. Taken action in MCB, MGCB application (AUTO Mode) System Start/Stop is activated regardless the Mains is OK MGCB is closed in case of MGCB application Active Parallel operation - Baseload, import/export...
Page 434: Logical Binary Outputs
8.1.4 Logical binary outputs What Logical binary outputs are: Logical binary outputs are outputs for binary values and functions. Alphabetical groups of Logical binary outputs LBO: A LBO: B LBO: E LBO: F LBO: H LBO: M LBO: N LBO: S For full list of Logical binary outputs go to the chapter Logical binary outputs alphabetically (page 435).
Page 435 Logical binary outputs alphabetically AL Battery Voltage BIN 1 Status AL Bus Left Fail BIN 2 Status AL Bus Left Frequency BIN 3 Status AL Bus Left > Frequency 436 BIN 4 Status AL Bus Left > Voltage BIN 5 Status AL Bus Left <...
Page 436 LBO: A AL Battery Voltage Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1293 Description This output is active when the Wrn Battery Voltage (page 508)alarm is present in the alarmlist or isn’t confirm. 6 back to Logical binary outputs alphabetically AL Bus Left Fail Related FW 2.0.0...
Page 437 AL Bus Left < Frequency Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 2095 Description Signalisation of released protection for Bus Left uderfrequency. 6 back to Logical binary outputs alphabetically AL Bus Left < Voltage Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object...
Page 438 AL Common Fls Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Output closes when any sensor fail alarm appears. The output opens, if: No sensor fail alarm is active and Fault reset button is pressed 6 back to Logical binary outputs alphabetically AL Common Wrn Related FW 2.0.0...
Page 439 Alarm Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description The output is designed to be used as external alarm indication such as a red bulb in the control room etc. The output is active when at least one unconfirmed alarm is present in the alarmlist and remains active until confirmation of alarm.
Page 440 AIN Switch02 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1401 Description This is an output from the General Analog Input 2 switch function. The behavior of the switch depends on the adjustment of the setpoints Analog Switch 2 On (page 210) Analog Switch 2 Off (page 210).
Page 441 AIN Switch04 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1403 Description This is an output from the General Analog Input 4 switch function. The behavior of the switch depends on the Analog Switch 4 On (page 214) Analog Switch 4 Off (page 214).
Page 442 AIN Switch06 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1788 Description This is an output from the General Analog Input 6 switch function. The behavior of the switch depends on the Analog Switch 6 On (page 218) Analog Switch 6 Off (page 218).
Page 443 AIN Switch08 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1790 Description This is an output from the General Analog Input 8 switch function. The behavior of the switch depends on the adjustment of the setpoints Analog Switch 8 On (page 222) Analog Switch 8 Off (page 222).
Page 444 AIN Switch10 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1792 Description This is an output from the General Analog Input 10 switch function. The behavior of the switch depends on Analog Switch 10 On (page 226) Analog Switch 10 Off (page 226).
Page 445 AIN Switch12 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1794 Description This is an output from the General Analog Input 12 switch function. The behavior of the switch depends on the adjustment of the setpoints Analog Switch 12 On (page 230) Analog Switch 12 Off (page 230).
Page 446 AIN Switch14 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1796 Description This is an output from the General Analog Input 14 switch function. The behavior of the switch depends on the adjustment of the setpoints Analog Switch 14 On (page 234) Analog Switch 14 Off (page 234).
Page 447 AIN Switch16 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1798 Description This is an output from the General Analog Input 16 switch function. The behavior of the switch depends on Analog Switch 16 On (page 238) Analog Switch 16 Off (page 238).
Page 448 AIN Switch18 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1800 Description This is an output from the General Analog Input 18 switch function. The behavior of the switch depends on the adjustment of the setpoints Analog Switch 18 On (page 242) Analog Switch 18 Off (page 242).
Page 449 AIN Switch20 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1802 Description This is an output from the General Analog Input 20 switch function. The behavior of the switch depends on the adjustment of the setpoints Analog Switch 20 On (page 246) Analog Switch 20 Off (page 246).
Page 450 BIN 2 Status Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1375 Description This output is closed, when Binary Input 2 is active and open when Binary Input 2 is inactive. When Binary Input 2 is used for BIN protection function then this output is closed when BIN protection alarm is in Alarmlist.
Page 451 BIN 4 Status Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1377 Description This output is closed, when Binary Input 4 is active and open when Binary Input 4 is inactive. When Binary Input 4 is used for BIN protection function then this output is closed when BIN protection alarm is in Alarmlist.
Page 452 BIN 6 Status Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1379 Description This output is closed, when Binary Input 6 is active and open when Binary Input 6 is inactive. When Binary Input 6 is used for BIN protection function then this output is closed when BIN protection alarm is in Alarmlist.
Page 453 BIN 8 Status Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 1381 Description This output is closed, when Binary Input 8 is active and open when Binary Input 8 is inactive. When Binary Input 8 is used for BIN protection function then this output is closed when BIN protection alarm is in Alarmlist.
Page 454 Image 8.137 Repeated BTB Close command Image 8.138 BTB Open command 6 back to Logical binary outputs alphabetically InteliMains 210 Global Guide...
Page 455 BTB OFF Coil Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description The output is intended for control of open coil of bus circuit breaker. The output gives a pulse in the moment the breaker has to be opened. The pulse lasts until the feedback deactivates, but at least for 5 seconds. Image 8.139 BTB OFF Coil command 6 back to Logical binary outputs alphabetically InteliMains 210 Global Guide...
Page 456 BTB ON Coil Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description The output is intended for control of close coil of bus circuit breaker. The output gives at least 5 second pulse in the moment the breaker has to be closed. Image 8.140 BTB ON Coil close command Image 8.141 Repeated BTB ON coil close command 6 back to Logical binary outputs alphabetically...
Page 457 BTB UV Coil Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description The output is intended for control of undervoltage coil of bus circuit breaker. The output is active the whole time when the controller is switched on. The output is deactivated for at least 5 seconds in the moment the breaker has to be switched off.
Page 458 Bus Right Healthy Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description This output is active when the Bus Right voltage and frequency is within limits. 6 back to Logical binary outputs alphabetically Bus Left Healthy Related FW 2.0.0 Related applications MCB, MGCB, BTB...
Page 459 LBO: F Fault Reset Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description When the Fault Reset button is pressed the output is active for 1 s. 6 back to Logical binary outputs alphabetically LBO: H Heartbeat Related FW 2.0.0 Related applications MCB, MGCB, BTB...
Page 460 Mode MAN Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description This output is active whenever the controller is in MAN mode. 6 back to Logical binary outputs alphabetically Mode OFF Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description This output is active whenever the controller is in OFF mode.
Page 461 Still Log 1 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical binary output which is still in logical 1. 6 back to Logical binary outputs alphabetically Synchro Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description The output is active in case the synchronisation is active.
Page 462: Logical Analog Inputs
8.1.5 Logical analog inputs What Logical analog inputs are: Logical analog inputs are inputs for analog values. Note: Functions related to analog inputs are available only in case of configured analog extension module. Alphabetical groups of Logical analog inputs LAI: A LAI: N For full list of Logical analog inputs go to the chapter Logical analog inputs alphabetically (page...
Page 463 Logical analog inputs alphabetically AIN Prot01 AIN Switch 18 AIN Prot02 AIN Switch 19 AIN Prot03 AIN Switch 20 AIN Prot04 Bus Import Measurement 490 AIN Prot05 Not Used AIN Prot06 AIN Prot07 AIN Prot08 AIN Prot09 AIN Prot10 AIN Prot11 AIN Prot12 AIN Prot13 AIN Prot14...
Page 464 LAI: A AIN Prot01 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9999 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 1 Wrn (page 207) Analog Protection 1 Sd (page 207).
Page 465 AIN Prot02 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9998 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 2 Wrn (page 209) Analog Protection 2 Sd (page 209).
Page 466 AIN Prot03 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9997 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 3 Wrn (page 211) Analog Protection 3 Sd (page 211).
Page 467 AIN Prot04 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9996 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 4 Wrn (page 213) Analog Protection 4 Sd (page 213).
Page 468 AIN Prot05 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9995 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 5 Wrn (page 215) Analog Protection 5 Sd (page 215).
Page 469 AIN Prot06 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9994 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 6 Wrn (page 217) Analog Protection 6 Sd (page 217).
Page 470 AIN Prot07 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9993 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 7 Wrn (page 219) Analog Protection 7 Sd (page 219).
Page 471 AIN Prot08 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9992 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are Analog Protection 8 Wrn (page 221) Analog Protection 8 Sd (page 221).
Page 472 AIN Prot09 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9991 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are Analog Protection 9 Wrn (page 223) Analog Protection 9 Sd (page 223).
Page 473 AIN Prot10 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9990 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 10 Wrn (page 225) Analog Protection 10 Sd (page 225).
Page 474 AIN Prot11 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9989 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are Analog Protection 11 Wrn (page 227) Analog Protection 11 Sd (page 227).
Page 475 AIN Prot12 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9988 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 12 Wrn (page 229) Analog Protection 12 Sd (page 229).
Page 476 AIN Prot13 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9987 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 13 Wrn (page 231) Analog Protection 13 Sd (page 231).
Page 477 AIN Prot14 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9986 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are Analog Protection 14 Wrn (page 233) Analog Protection 14 Sd (page 233).
Page 478 AIN Prot15 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9985 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 15 Wrn (page 235) Analog Protection 15 Sd (page 235).
Page 479 AIN Prot16 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9984 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 16 Wrn (page 237) Analog Protection 16 Sd (page 237).
Page 480 AIN Prot17 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9983 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 17 Wrn (page 239) Analog Protection 17 Sd (page 239).
Page 481 AIN Prot18 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9982 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 18 Wrn (page 241) Analog Protection 18 Sd (page 241).
Page 482 AIN Prot19 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9981 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 19 Wrn (page 243) Analog Protection 19 Sd (page 243).
Page 483 AIN Prot20 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object 9980 Description Logical analog input designed for general value received from analog sensor. Limits for this protection are adjusted by setpoints Analog Protection 20 Wrn (page 245) Analog Protection 20 Sd (page 245).
Page 484 AIN Switch 01 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 01 ( 439). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 485 AIN Switch 04 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 04 ( 441). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 486 AIN Switch 07 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 07 ( 442). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 487 AIN Switch 10 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 10 ( 444). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 488 AIN Switch 13 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 13 ( 445). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 489 AIN Switch 16 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 16 ( 447). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 490 AIN Switch 19 Related FW 2.0.0 Related applications MCB, MGCB, BTB Comm object Description Logical analog input designed for general value received from analog sensor. This analog input controls logical binary output AIN S 19 ( 448). The behavior of the switch depends on the adjustment of WITCH PAGE the setpoints...
Page 491: Plc
8.1.6 PLC List of PLC groups Group: Basic Logical functions Group: Comparison of analog inputs Group: Time functions Group: Other functions For full list of PLC blocks go to the chapter List of PLC blocks (page 492). InteliMains 210 Global Guide...
Page 492 List of PLC blocks Group: Basic logical functions OR/AND XOR/RS Group: Comparison of analog inputs Comparator With Hysteresis Comparator With Delay Group: Time functions Timer Delay Group: Other functions Force History Record Force Protection InteliMains 210 Global Guide...
Page 493 Group: Basic Logical functions OR/AND PLC group Basic logical functions Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object Inputs Input Type Negation Range Function Input 1..8 Binary Inputs 1..8 Outputs Output Type Negation Range Function Output Binary Result of the logical operation Description The block performs logical operation OR / AND of 2 - 8 binary operands.
Page 494 Image 8.144 Configuration of OR/AND block 6 back to List of PLC blocks InteliMains 210 Global Guide...
Page 495 XOR/RS PLC group Basic logical functions Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object Inputs Input Type Negation Range Function Input 1..2 Binary Inputs 1..2 Outputs Output Type Negation Range Function Output Binary Result of the logical operation Description The block provides logical function of two values - XOR or RS flip-flop.
Page 496 Group: Comparison of analog inputs Comparator With Hysteresis PLC group Comparison of analog inputs Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object Inputs Input Type Negation Range Function Input Analog Compared value Input ON Analog Same as Input Comparative level for switching on Input OFF Analog...
Page 497 Image 8.147 Configuration of Comp Hyst block Note: Level On and Level Off can be constants or values from controller. IMPORTANT: In case that values on inputs have different decimal numbers than the values are converted and the name of block is red. It is strongly recommended to use values with the same decimal numbers.
Page 498 Image 8.148 Principle of delay Image 8.149 Configuration of Comp Time block Note: Input 2 and Delay can be constants or values from controller. 6 back to List of PLC blocks Group: Time functions Timer PLC group Time functions Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM...
Page 499 Output Type Negation Range Function Output Binary Timer output Description The block works as a countdown timer which is decreased by 1 every PLC cycle. The timer initial value is adjustable by the "Reload value" input. The timer is automatically reloaded with the initial value when it reaches zero or it can be reloaded in any other moment using the "reload"...
Page 500 Delay PLC group Time functions Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object Inputs Input Type Negation Range Function Input Binary Input signal to be delayed Delay of the rising edge resp. pulse Input time -3200,0..3200,0 [s, Analog length generated by rising edge of the m, h]...
Page 501 Image 8.152 Delay modes principles Image 8.153 Configuration of Delay block Note: If Input time up or Input time down value is <0, this input is internally set to zero. Note: Input time up and Input time down values can be constants or values from controller. Note: Use Pulse on edge option to choose between delay and pulse mode.
Page 502 Group: Other functions Force History Record PLC group Other functions Related FW 2.0.0 Related applications AMF, MRS MINT, SPtM Comm object Inputs Input Type Negation Range Function A record with configured text is Input Binary recorded into the controller history when the input is activated.
Page 503 Outputs No outputs. Description This block issues alarms of configured type and text when appropriate binary input is activated. Image 8.155 Configuration of Force Prot block Available protections are: Monitoring HistRecOnl AL Indic Wrn+BOC Wrn+Sd Note: Maximal number of characters for alarmlist message is 15. Note: Prefix of protection (e.g.
Page 504: Alarms
8.2 Alarms 8.2.1 Alarms level 1 8.2.2 Alarms level 2 8.2.3 Fail sensor and other types What alarms are: The controller evaluates two levels of alarms. For more information see Alarm management on page 103. 8.2.1 Alarms level 1 Warnings Other type For full list of Alarms level 1 go to List of alarms level 1 (page...
Page 505 List of alarms level 1 Alarm Email 1 Fail Bus Right L3 Overvoltage 515 unexpected Alarm Email 2 Fail Bus Right L3 Module(slotB) - unknown Undervoltage module Alarm Email 3 Fail Bus Right L3L1 Alarm Email 4 Fail Overvoltage Alarm SMS 1 Fail Bus Right L3L1 Alarm SMS 2 Fail Undervoltage...
Page 506 Warnings Alarm Email 1 Fail Alarm Type Other Alarmlist message Alarm Email 1 Fail Alarm evaluated All the time Related applications MCB, MGCB, BTB The alarm indicates that there was a request to send an alarm email to email Description address which is adjusted in setpoint Email Address 1 (page 284) and email wasn’t...
Page 507 Alarm SMS 1 Fail Alarm Type Other Alarmlist message Alarm SMS 1 Fail Alarm evaluated All the time Related applications MCB, MGCB, BTB The alarm indicates that there was a request to send an alarm SMS to telephone Description number which is adjusted in setpoint Telephone Number 1 (page 281) and SMS wasn’t send.
Page 508 Wrn Battery Voltage Alarm Type Warning Alarmlist message Wrn Battery Voltage Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm informs the operator that the controller supply voltage is out of limits. The following setpoints are related to it: Battery Undervoltage (page 180) Description Battery Overvoltage (page 180)
Page 509 Event Email 4 Fail Alarm Type Other Alarmlist message Event Email 4 Fail Alarm evaluated All the time Related applications MCB, MGCB, BTB The alarm indicates that there was a request to send an event email to email Description address which is adjusted in setpoint Email Address 4 (page 285) and email wasn’t send.
Page 510 Event SMS 4 Fail Alarm Type Other Alarmlist message Event SMS 4 Fail Alarm evaluated All the time Related applications MCB, MGCB, BTB The alarm indicates that there was a request to send an event SMS to telephone Description number which is adjusted in setpoint Telephone Number 4 (page 282) and SMS wasn’t send.
Page 511 Wrn BadPwrCfg Alarm Type Warning Alarmlist message Wrn BadPwrCfg Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm is issued when there is different power format on controller which are Description connected via CAN2. 6 back to List of alarms level 1 Wrn BIN Protection Alarm Type Warning...
Page 512 Wrn Overload Alarm Type Warning Alarmlist message Wrn Overload Alarm evaluated All the time Related applications MCB, MGCB, BTB The alarm is issued when the Bus Left power is over the limit for time period longer than the delay. The following setpoints are related to it: Description Overload Wrn (page 185) adjusts the overload limit.
Page 513 Other type Bus Right L1 Overvoltage Alarm Type History record Alarmlist message Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm evaluates the Bus Right phase voltage in phases. The following setpoints are related to it: Bus Right Overvoltage (page 182) Description Bus Right <...
Page 514 Bus Right L1L2 Undervoltage Alarm Type History record Alarmlist message Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm evaluates the Bus Right voltage between phases L1 a L2. The following setpoints are related to it: Bus Right Undervoltage (page 183) Description Bus Right <...
Page 515 Bus Right L2L3 Overvoltage Alarm Type History record Alarmlist message Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm evaluates the Bus Right voltage between phases L2 a L3. The following setpoints are related to it: Bus Right Overvoltage (page 182) Description Bus Right <...
Page 516 Bus Right L3 Undervoltage Alarm Type History record Alarmlist message Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm evaluates the Bus Right phase voltage in phases. The following setpoints are related to it: Bus Right Undervoltage (page 183) Description Bus Right <...
Page 517 Bus Right Overfrequency Alarm Type History record Alarmlist message Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm evaluates the Bus Right frequency. The following setpoints are related to it: Description Bus Right Overfrequency (page 184) Bus Right < > Frequency Delay (page 184) 6 back to List of alarms level 2 Bus Right Underfrequency Alarm Type...
Page 518 EM(A) - configuration mistake Alarm Type Other Alarmlist message EM(A) - configuration mistake Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm indicates that there is a problem with configuration of binary input or Description output of module in slot. 6 back to List of alarms level 1 EM(A) - insufficient Alarm Type...
Page 519 EM(B) - configuration mistake Alarm Type Other Alarmlist message EM(B) - configuration mistake Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm indicates that there is a problem with configuration of binary input or Description output of module in slot. 6 back to List of alarms level 1 EM(B) - insufficient Alarm Type...
Page 520 Module(slotA) - unattended Alarm Type Other Alarmlist message Module(slotA) - unattended Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm indicates that two same communication modules are inserted in slots Description and one of them will be inactive. 6 back to List of alarms level 1 Module(slotA) - unexpected Alarm Type...
Page 521 Module(slotB) - false module Alarm Type Other Alarmlist message Module(slotB) - fake module Alarm evaluated All the time Related applications MCB, MGCB, BTB Description This alarm indicates that false module is inserted in slot. 6 back to List of alarms level 1 Module(slotB) - unattended Alarm Type Other...
Page 522 8.2.2 Alarms level 2 Other type For full list of Alarms level 2 go to List of alarms level 2 (page 523). What alarms level 2 are: The level 2 level alarm indicates that a critical level of the respective value or parameter has been reached. For more information see Alarm types - Level 2 on page 104.
Page 523 List of alarms level 2 Synchronization Fail Bus Measurement Error BOR AIN Prot BOR BIN Protection Current Unbalance BOR Overcurrent IDMT BOR Overload MPR Short Circuit Bus Left L1 Overvoltage Bus Left L1 Undervoltage 526 Bus Left L1L2 Overvoltage526 Bus Left L1L2 Undervoltage Bus Left L2 Overvoltage Bus Left L2 Undervoltage 527...
Page 524 Other type BOR AIN Prot Alarm Type Alarmlist message BOR + Name of analog input Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm indicates that the value of general analog protection is out of BOR Description protection limit.
Page 525 Related applications MCB, MGCB. BTB The overcurrent alarm is based on IDMT principle. The reaction time of an IDMT alarm is not fixed, but depends on how much is the protected value above the limit (Nominal Current (page 175)). The higher is the overcurrent, the shorter the reaction time will be.
Page 526 Related applications MCB, MGCB, BTB This alarm evaluates the Bus Left phase voltage in phases. The following setpoints are related to it: Bus Left Overvoltage (page 188) Description Bus Left < > Voltage Delay (page 189) Note: Alarm is active only in case the setpoint Connection type (page 176) set to 3Ph4Wire or MonoPhase.
Page 527 Related applications MCB, MGCB, BTB This alarm evaluates the Bus Left voltage between phases L1 a L2. The following setpoints are related to it: Bus Left Undervoltage (page 188) Description Bus Left < > Voltage Delay (page 189) Note: Alarm is active only in case the setpoint Connection type (page 176) set to 3Ph3Wire or High Leg D.
Page 528 Related applications MCB, MGCB, BTB This alarm evaluates the Bus Left voltage between phases L2 a L3. The following setpoints are related to it: Bus Left Overvoltage (page 188) Description Bus Left < > Voltage Delay (page 189) Note: Alarm is active only in case the setpoint Connection type (page 176) set to 3Ph3Wire or High Leg D.
Page 529 Related applications MCB, MGCB, BTB This alarm evaluates the Bus Left phase voltage in phases. The following setpoints are related to it: Bus Left Undervoltage (page 188) Description Bus Left < > Voltage Delay (page 189) Note: Alarm is active only in case the setpoint Connection type (page 176) set to 3Ph4Wire.
Page 530 Related applications MCB, MGCB, BTB This alarm evaluates the Bus Left phase voltage in phases 1. The following setpoints are related to it: Description Bus Left Overvoltage (page 188) Bus Left < > Voltage Delay (page 189) 6 back to List of alarms level 2 Bus Left L1 Overvoltage Alarm Type Breaker open...
Page 531 8.2.3 Fail sensor and other types Fls AIN Prot 1 Fls AIN Protect 2 Fls AIN Protect 3 Fls AIN Protect 4 Fls AIN Protect 5 Fls AIN Protect 6 Fls AIN Protect 7 Fls AIN Protect 8 Fls AIN Protect 9 Fls AIN Protect 10 Fls AIN Protect 11 Fls AIN Protect 12...
Page 532 Fls AIN Protect 11 Fls AIN Protect 12 Fls AIN Protect 13 Fls AIN Protect 14 Fls AIN Protect 15 Fls AIN Protect 16 Fls AIN Protect 17 Fls AIN Protect 18 Fls AIN Protect 19 Fls AIN Protect 20 InteliMains 210 Global Guide...
Page 533 Fail sensor Fls AIN Prot 1 Alarm Type Alarmlist message Fls + name of analog input 1 Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm indicates that the value of general analog protection is out of range or is Description missing.
Page 534 Fls AIN Protect 5 Alarm Type Alarmlist message Fls + name of analog input 5 Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm occurs when measurement value of analog input 5 is out of range or is Description missing.
Page 535 Fls AIN Protect 9 Alarm Type Alarmlist message Fls + name of analog input 9 Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm occurs when measurement value of analog input 9 is out of range or is Description missing.
Page 536 Fls AIN Protect 13 Alarm Type Alarmlist message Fls + name of analog input 13 Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm occurs when measurement value of analog input 13 is out of range or is Description missing.
Page 537 Fls AIN Protect 17 Alarm Type Alarmlist message Fls + name of analog input 17 Alarm evaluated All the time Related applications MCB, MGCB, BTB This alarm occurs when measurement value of analog input 17 is out of range or is Description missing.
Page 538 8.3 Modules 8.3.1 Plug-In modules 8.3.2 CAN modules 8.3.1 Plug-In modules Communication modules Extension modules IMPORTANT: 2nd generation of InteliMains 210 controllers does not support new modules and 3rd generation does not support all old modules. The available communication plug-in modules are: CM-RS232-485 - communication module for connection via RS232 or RS485 line CM-4G-GPS - communication module for connection via 4G CM-GPRS - communication module for connection via GPRS...
Page 539 CM-RS232-485 CM-RS232-485 is optional plug-in card to enable InteliMains 210 the RS232 and RS485 communication. This is required for computer or MODBUS connection. The CM-RS232-485 is a dual port module with RS232 and RS485 interfaces at independent COM channels. The RS232 is connected to COM1 and RS485 to COM2. Image 8.156 CM-RS232-485 interface IMPORTANT: Any manipulation with plug-in module shall be done with disconnected power supply to controller.
Page 540 Galvanic separation Firmware upgrade Download the newest FW of module from ComAp website (in form of PSI file or installation package) Instal package to computer or open PSI to instal it into InteliConfig Plug the module into the controller and power the controller on.
Page 541 Go the menu Tools -> Firmware upgrade, select the Plug-in modules tab and select the appropriate firmware you want to program into the module (in InteliConfig). Press the OK button to start upgrade of firmware. The firmware update process may be performed via any kind of connection including connection via the same module in which the firmware is to be updated.
Page 542 - green LED is blinking in period 250ms/250ms Firmware upgrade Download the newest FW of module from ComAp website (in form of PSI file or installation package) Instal package to computer or open PSI to instal it into InteliConfig Plug the module into the controller and power the controller on.
Page 543 Image 8.162 CM-GPRS module IMPORTANT: Any manipulation with plug-in module shall be done with disconnected power supply to controller. IMPORTANT: CM-4G-GPS and CM-GPRS modules can't be used in one controller in the same time. Note: GPRS and CSD services must be provided by your GSM/GPRS operator for successful operation. Note: The GPRS and CSD connection should not be used for the firmware update process.
Page 544 Make sure SIM card does not require PIN code. Use any mobile phone to switch the SIM PIN security off. Place the SIM card into slot on CM-GPRS card Connect the antenna to Cellular module antenna connector. Switch off the controller. Insert CM-GPRS module into controller Power up the controller.
Page 545 GSM Diag Code – Common list of diagnostic codes for cellular modules Code Description OK. No error. Not possible to hang up. Modul is switched off Module is switched on Module – error in initialization Module – not possible to set the APN Module –...
Page 546 Controller registered and authorized Firmware upgrade Download the newest FW of module from ComAp website (in form of PSI file or installation package) Instal package to computer or open PSI to instal it into InteliConfig Plug the module into the controller and power the controller on.
Page 547 Image 8.165 CM-4G-GPS module IMPORTANT: Any manipulation with plug-in module shall be done with disconnected power supply to controller. IMPORTANT: CM-4G-GPS and CM-GPRS modules cant be used in one controller in the same time. IMPORTANT: Operating temperature of module is from -30°C to +75°C. Note: Cellular data service must be enabled in your SIM card by your mobile operator for successful operation.
Page 548 Note: Make sure that your SIM supports the packet data network type you want to use. - i.e. if you want to use the module in LTE (4G) network you have to confirm with the operator that the particular SIM card supports 4G network.
Page 549 Image 8.167 Screen of AirGate GSM Diag Code – Common list of diagnostic codes for cellular modules GSM Diag Code – Common list of diagnostic codes for cellular modules Code Description OK. No error. Not possible to hang up. Modul is switched off Module is switched on Module –...
Page 550 Controller registered and authorized Firmware upgrade Download the newest FW of module from ComAp website (in form of PSI file or installation package) Instal package to computer or open PSI to instal it into InteliConfig Plug the module into the controller and power the controller on.
Page 551 The firmware update process may be performed via any kind of connection including connection via the same module in which the firmware is to be updated. The connection is reestablished again automatically when the update process is finished. Extension modules EM-BIO8-EFCP EM-BIO8-EFCP EM-BIO8-EFCP is optional plug-in card.
Page 552 Image 8.169 Overview of EM-BIO8-EFCP Note: Current inputs are supported only in MRS16 and AMF25 controllers. Image 8.170 EM-BIO8-EFCP wiring Note: Current inputs are supported only in MRS16 and AMF25 controllers. EM-BIO8-EFCP technical data Power supply Power supply range 8-36 VDC 40 mA / 8 VDC 27 mA / 12 VDC Power consumption...
Page 553 10 A Firmware upgrade Download the newest FW of module from ComAp website (in form of PSI file or installation package) Instal package to computer or open PSI to instal it into InteliConfig Plug the module into the controller and power the controller on.
Page 554 Supported combinations of modules Slot Inteli AIN8 Inteli AIN8TC Inteli IO8/8 Inteli IO16/0 IGL-RA15 IGS-PTM Inteli AIO9/1 IMPORTANT: In slot 3, 4 and 5 CAN modules Inteli IO8/8 and Inteli IO16/0 are supported without analog outputs. Analog outputs of these CAN modules are supported only in slot 1 and 2. It is possible to add up to 80 binary inputs or up to 68 binary outputs or up to 32 analog inputs on CAN modules.
Page 555 Image 8.172 Inteli AIN8 dimensions Note: All dimensions are in mm. Terminals Analog input 8 analog Inputs CAN1 line Power Power supply CAN LED Tx, Rx Indication transmitted or received data Status LED LED indication of correct function CAN terminator Terminating CAN resistor (active in position “ON”...
Page 556 Note: Impulse input is not supported. Analog inputs 8 channels can be configured as: resistor three wire input current input voltage input All inputs can be configured to any logical function or protection. IMPORTANT: Impulse input is not supported in controller. Supported sensors Sensors User curves...
Page 557 4. Connect the unit with PC via RS232-null modem cable and AT-Link conv 5. Connect power supply of the module (status LED lights continuously) 6. Launch FlashPgr.exe PC software (version 4.2 or higher) 7. In FlashPrg program choose card Inteli AIN8 and load FW for the module 8.
Page 558 Terminator Resistance sensor - 3 wires Note: Ranges: Pt100, Pt1000, Ni100, Ni1000, 0 – 2400 Ω, 0 – 10 kΩ Resistance sensor - 2 wires Note: Ranges: Pt100, Pt1000, Ni100, Ni1000, 0 – 2400 Ω, 0 – 10 kΩ Current sensor - active Note: Ranges: ±20 mA, 4 –...
Page 559 Current sensor - passive Note: Ranges: 0 – 20 mA, 4 – 20 mA Voltage sensor Note: Ranges: ±1 V, 0 – 2,5 V, 0 – 5 V, 0 – 10 V Technical data General data Power supply 8 to 36 V DC Current consumption 35 mA at 24 V ÷...
Page 560 Accuracy: ± 0,25 % of actual value + ± 50 µA Range: 0- 10 kΩ Resistive Accuracy: ± 0,5 % of actual value + ± 2 Ω Inteli IO8/8 Inteli IO8/8 module is an extension module equipped with binary inputs, binary outputs and analog outputs. Inteli IO8/8 is the name of the module, but it is possible to configure the module (by internal switch) to two configurations: Inteli IO8/8 - 8 binary inputs, 8 binary outputs and 2 analog outputs...
Page 561 Image 8.174 Inteli IO8/8 dimensions Note: All dimensions are in mm. Terminals Binary inputs 8 binary inputs Binary outputs 8 binary outputs (8 binary inputs) Analog outputs 2 analog outputs CAN1 line Power Power supply Binary inputs LEDs 8 LEDs for binary input indication InteliMains 210 Global Guide...
Page 562 Binary outputs LEDs 8 LEDs for binary output indication CAN LED Indication transmitted or received data Status LED indication of correct function CAN terminator Terminating CAN resistor (active in position “ON” - switch both switches) Inputs and outputs Binary inputs 8 channels can be configured as: pull up...
Page 563 Note: In case of setting the CAN address to zero, the appropriate group of signals is deactivated. Programming firmware Firmware upgrade process: 1. Disconnect all terminals from the unit. 2. Separate the top cover of module 3. Put the TEST jumper on a pins 4.
Page 564 11. Connect power supply again (status LED should blinking) 12. Module FW is upgraded LED indication Binary input Each binary input has LED which indicates input signal. LED is shining when input signal is set, and LED is dark while input signal has other state. Binary output Each binary output has LED which indicates output signal.
Page 565 Binary inputs - pull down There are two options of wiring. On upper picture you can see case when binary input is connected between BIN2 and COM (COM is connected internally to the Ucc (+) - dashed line). On lower picture is case of wiring between BIN2 and Ucc (+). Both ways are correct. Binary outputs - high side When high side setting of outputs is chosen - binary output must be connected to the minus potential directly Terminal VHS (voltage High side) has to be connected to positive potential directly.
Page 566 Note: Limit of analog ground (AGND) is 100mA. IMPORTANT: Terminator for analog output has special analog ground (AGND), which must not be connected to the GND. Technical data General data Power supply 8 to 36 V DC Current consumption 35 mA at 24 V ÷ 100 mA at 8 V Interface to controller CAN1 Protection...
Page 567 IGS-PTM IGS-PTM module is extension module equipped with binary inputs, binary outputs, analog inputs and analog output. IGS-PTM module is connected to controller by CAN1 bus. Image 8.175 IGS-PTM Image 8.176 IGS-PTM dimensions InteliMains 210 Global Guide...
Page 568 Terminals Binary inputs 8 binary inputs Analog inputs 4 analog inputs Analog outputs 1 analog output Binary outputs 8 binary outputs CAN1 line RS232-TTL Interface for programming Power Power supply Analog inputs Analog inputs can be configured for: Resistance measurement Current measurement Voltage measurement The type of analog inputs is configured via jumpers RUI located on lower PCB.
Page 569 CAN address Controller type selection The type of controller to be used with IGS-PTM must be selected via jumper labeled IGS accessible at the lower PCB. IGS jumper Controller type OPEN IL-NT, IC-NT CLOSE IG-NT, IS-NT, InteliGen Address configuration If InteliGen controller type is selected (by IGS jumper), address of IGS-PTM could be modified via jumpers labeled ADR1 and ADR2.
Page 570 Wiring Binary inputs Binary outputs Resistance sensor Note: Range: 0- 2400 Ω IMPORTANT: Physical analog input range is 0-250 Ω. In sensor configuration in PC tool it is necessary to chose 0-2400 Ω sensor HW type to ensure proper function of analog input. Voltage sensor Note: Range 0-100 mV InteliMains 210 Global Guide...
Page 571 Current sensor - passive Note: Range: ± 0-20 mA IMPORTANT: Physical analog input range is 0-20mA. In sensor configuration in PC tool it is necessary to chose +- 20mA active sensor HW type to ensure proper function of analog input. Analog outputs Note: Range: 0 to 20 mA ±...
Page 572 Analog outputs Number of channels Range: 0 to 20 mA ± 0,33 mA Current Resolution 10 bit Binary inputs Number of channels Input resistance 4700 Ω Input range 0 to 36 V DC Switching voltage level for open contact 0 to 2 V DC indication Max voltage level for close contact indication 8 to 36 V DC...
Page 573 Image 8.178 IGL-RA15 dimensions Terminals Horn Horn CAN1 line Power Power supply CAN address Address Jumper A Jumper B OPEN OPEN CLOSED OPEN Customer defined CLOSED CLOSED SW changing of CAN1 address is enabled only when both jumpers are closed. Any one of these addresses (1+2 or 3+4 or 5+6 or 7+8) can be set by following steps: Switch to programming mode (Hold the Horn reset and Lamp test when unit is powering on).
Page 574 Press Lamp test to switch to the next LED color adjusting Continue to adjust all LEDs color After LED15 color adjusting press three times Lamp test Note: If there is no operator action during address setting, color adjusting or timeout setting, the unit returns to normal operation without changes saving.
Page 575 By pressing horn reset button or It silences automatically after adjusted time Lamp and horn test Pressing and holding lamp test button for less than 2 s execute the basic lamp test. All LEDs light up with the configured colour. If the button is hold longer than 2 s, an extended test is started. Every LED is tested step-by- step in green colour and then in red colour.
Page 576 Horn output Maximum current 1.0 A Maximum switching voltage 36 V DC CAN bus interface Galvanic separated Maximal CAN bus length 200 m Speed 250 kBd Nominal impedance 120 Ω Cable type twisted pair (shielded) Following dynamic cable parameters are important especially for maximal 200 meters CAN bus length Nominal Velocity of Propagation min.