AQ S214 Alarm and Indication IED

Transcription

1 INSTRUCTION MANUAL AQ S214 Alarm and Indication IED

2 Instruction manual AQ S214 Alarm and Indication IED 2 (79) Revision 1.00 Date Changes - The first revision for AQ-S214 Revision 1.01 Date Changes - Additions to HMI structure and binary input module chapters Revision 1.02 Date Changes - Added RTD&mA input module, Double LC 100Mb Ethernet card module and Serial RS232 & serial fiber module hardware descriptions - Added object control and monitoring function description and technical data Revision 1.03 Date Changes - Alarms-description revised Revision 1.04 Date Changes - Added password set up guide (previously only in AQtivate user guide) Revision 1.05 Date Changes - Added Programmable Control Switch and Indicator Object descriptions - Order Code updated Revision 1.06 Date Changes - Alarming function description revised. CTRL-button now clears all alarms.

3 Instruction manual AQ S214 Alarm and Indication IED 3 (79) Revision 1.06 Date Changes - Event lists revised on several functions - RTD&mA card description improvements - Ring-lug CT card option description added - Order code revised

4 Instruction manual AQ S214 Alarm and Indication IED 4 (79) Read these instructions carefully and inspect the equipment to become familiar with it before trying to install, operate, service or maintain it. Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. Local safety regulations should be followed. No responsibility is assumed by Arcteq for any consequences arising out of the use of this material. We reserve right to changes without further notice.

5 Instruction manual AQ S214 Alarm and Indication IED 5 (79) TABLE OF CONTENTS 1 ABBREVIATIONS GENERAL IED USER INTERFACE AQ 200 series local panel structure IED programming Basic configuration Navigation in main configuration menus General menu Control menu Communication menu User level configuration ALARMING Alarm descriptions Assigning digital inputs into alarms Clearing the activated alarms Clear all alarms Example situation Clearing individual alarms Buzzer activation and deactivation Clearing latched signals Events and registers CONTROL FUNCTIONS Object control and monitoring (OBJ) Input signals for object status monitoring Setting parameters Blocking and interlocking Events and registers Indicator object monitoring (CIN) Input signals for indicator status monitoring Events Programmable control switch Events SYSTEM INTEGRATION Communication protocols NTP ModbusTCP and ModbusRTU... 45

6 Instruction manual AQ S214 Alarm and Indication IED 6 (79) ModbusIO IEC GOOSE IEC DNP IEC 101 / SPA protocol General IO analog fault registers CONNECTIONS Block diagram AQ-S Connection example CONSTRUCTION AND INSTALLATION CPU, IO and Power supply module Scanning cycle of the digital input Digital input module DI Setting up the activation and release thresholds of the digital inputs Digital output module DO RTD & ma input module (option) Serial RS232 & Serial fiber module (option) Double LC 100 Mb Ethernet module (option) Installation and dimensions TECHNICAL DATA Connections Auxiliary voltage Binary inputs Binary outputs Communication ports Object control and monitoring (OBJ) Tests and environmental Electrical environment compatibility Physical environment compatibility Casing and package ORDERING INFORMATION REFERENCE INFORMATION... 79

7 Instruction manual AQ S214 Alarm and Indication IED 7 (79) 1 ABBREVIATIONS CB Circuit breaker CBFP Circuit breaker failure protection CT Current transformer CPU Central processing unit EMC Electromagnetic compatibility HMI Human machine interface HW Hardware IED Intelligent electronic device IO Input output LED Light emitting diode LV Low voltage MV Medium voltage NC Normally closed NO Normally open RMS Root mean square SF System failure TMS Time multiplier setting TRMS True root mean square VAC Voltage alternating current VDC Voltage direct current SW Software up - Microprocessor

8 Instruction manual AQ S214 Alarm and Indication IED 8 (79) 2 GENERAL The AQ-S214 Alarm and Indication IED is a member of the AQ-200 product line. The AQ- 200 protection product line in respect of hardware and software is a modular device. The hardware modules are assembled and configured according to the application IO requirements and the software determines the available functions. This manual describes the specific application of the AQ-S214 Alarm and Indication IED. The AQ-S214 Alarm and Indication IED may be applied as a substation alarm annunciator, substation general I/O extension unit or in any other application requiring extended I/O capability. Local indications are conveniently visualized through freely programmable alarm LED display and event list. AQ-S214 can be connected to substation automation system using various standard protocols including IEC substation communication standard. AQ-S214 can be programmed using easy to use AQtivate 200 setting and configuration software.

9 Instruction manual AQ S214 Alarm and Indication IED 9 (79) 3 IED USER INTERFACE AQ 200 series IED user interface section is divided into hardware- and software user interface sections. Software interface is divided into local panel configuration and programming by using AQtivate 200 freeware software suite. 3.1 AQ 200 SERIES LOCAL PANEL STRUCTURE AQ 200 series IEDs have multiple LEDs, control buttons and local RJ-45 Ethernet port for configuration on front as a default. Rear of each unit is equipped with RS-485 serial interface and RJ-45 Ethernet interface options as a standard. See list below. 16 configurable LEDs to display alarms. 3 object control buttons: Choose the controllable object with Ctrl button, control breaker with 0- and I push buttons. L/R push button for local remote control. 7 Navigation buttons for IED local programming and a button for password activation. RJ-45 Ethernet port for IED configuration. Figure 3.1-1AQ-200 series IED local panel structure.

10 Instruction manual AQ S214 Alarm and Indication IED 10 (79) 3.2 IED PROGRAMMING BASIC CONFIGURATION Alarming IED units have five different 5 quick displays available. The displays are Alarms, Events, Favorites, Mimic and Clock. The visible displays can be configured in the Carousel designer in AQtivate setting tool. Figure AQ-200 series IED basic navigation. Move around in the carousel displays with arrow keys. Home button transfers the user between the quick displays and four main configuration menus. Move around in main configuration menus witharrow keys

11 Instruction manual AQ S214 Alarm and Indication IED 11 (79) Enter menuswith. Notice that name of the main menu appears to the bottom of the display while staying on top of icon. Cancel key takes you one step back or holding it down for 3 seconds takes you back to menu selection. Padlock button takes user to password menu where it is possible to enter different user levels (user, operator, configurator and super user) NAVIGATION IN MAIN CONFIGURATION MENUS All the settings in AQ-200 alarming IEDs have been divided into four main configuration menus. Main configuration menus are presented below. Figure AQ-200 series IED main configuration menus.

12 Instruction manual AQ S214 Alarm and Indication IED 12 (79) GENERAL MENU General menu includes Device Info. Set name and location of the device. Serial number and SW version of the IED. Hardware configuration (order code). Source for time synchronization, Internal or External (internal as default). Enable stage forcing (disabled / enabled). When forcing is disabled after using every forced output will restore. Forcing is done individually in info menu of each stage. Language selection, all available languages here (English as default). Clear devices events. LCD contrast level and setting (120 as default). Reset latched signals Figure AQ-200 series IED Device Info sub- menu.

13 Instruction manual AQ S214 Alarm and Indication IED 13 (79) CONTROL MENU Control menu includes Device IO sub-menu. DEVICE IO Device IO menu has submenus for Binary Inputs, Binary Outputs, Alarm settings, Logic signals and for general Device IO matrix. Binary inputs, Logic Outputs and object status signals can be connected to output relay or to user configurable alarms in Device IO matrix and the Alarms menu. Figure AQ-200 series ID Device IO menu. Figure AQ-200 series IED Binary Inputs menu. All settings related to binary inputs can be found under the Binary Inputs menu. Menu includes polarity selection for the input (normally open or normally closed), activation ( V AC/DC, step 0.1V) and release ( V AC/DC, step 0.1V) threshold voltage for each available input and activation delay ( s, step 1ms). Binary input statuses can be check from corresponding menu.

14 Instruction manual AQ S214 Alarm and Indication IED 14 (79) Events are masked off as default. It is possible to activate desired events by masking them x. Only masked events appear to event list which can be viewed in the carousel view (if Events-display has been activated). Events can be cleared in General menu. Digital input activation and release threshold follows the measured peak value. Activation time of input is between 5-10 milliseconds. Activation delay is configurable. Release time with DC is between 5-10 milliseconds. Release time with AC is less than 25 milliseconds. Figure AQ-200 series IED Binary Outputs menu. Polarity of binary outputs are configured between normally open (NO) and normally closed (NC) in Binary Outputs menu. As default polarity is normal open. Status of binary outputs can be checked in Binary Outputs Status menu. Operation delay of output contact is around 5 milliseconds. NOTE! Normally closed signal goes to default position (normal open) in case the relay loses the auxiliary voltage or during System full reset. Normally closed output signal does not open during Communication- or protections reset.

15 Instruction manual AQ S214 Alarm and Indication IED 15 (79) Figure Object output- and block signal setting. Alarm Settings menu has three types of sub-menus: Alarm Descriptions, Alarm matrixes (4 menus) and Event masks. In Alarm Description Settings menu the label text of the Alarm can be modified. This label is visible in Alarm quick displays and matrixes. Additionally each alarm can be set to record itself to event list with a timestamp.

16 Instruction manual AQ S214 Alarm and Indication IED 16 (79) Figure AQ-200 series IED Binary Outputs menu. Binary inputs, Logic Outputs and object status signals can be connected to output relays in Device IO matrix IO Matrix. Connections can be made as latched x or non-latched x. Non-latched output is deactivated immediately when triggering signal is disabled. Latched signal stays active until the triggering signal dis-activates and latched function is cleared. Clearing latched signals is committed at the mimic display by pressing cancel key. 32 logical input signal status bits. Status is either 0 or logical output signal status bits. Status is either 0 or 1. Figure AQ-200 series IED Logical signals. Logical signals are mainly used for control purposes via IEC and GOOSE or other protocols with similar purpose. Logical Inputs and Outputs can be used when building programmable logic. Logic gate output activation won t make event but when logical output is connected to the logic gate it is possible to create an event of the gate activation. Logical

17 Instruction manual AQ S214 Alarm and Indication IED 17 (79) inputs and outputs have on and off events those can be masked on (off as default). For more detailed description of the logic editor please refer to AQtivate Instruction Booklet. Note! System integration chapter gives more details of use of the logical signals generally COMMUNICATION MENU Communication menu includes Connections and Protocols sub-menus. AQ-200 series IEDs can be configured through rear Ethernet by using AQtivate 200 setting and configuration software suite.ip address of the IED can be checked from the Connections menu. CONNECTIONS-menu Figure AQ-200 series IED Connections sub- menu. IP address of the IED is user settable. Default IP-address varies from device to another. Network subnet mask is entered here. Gateway is configured only when communicating with IEDs in separate subnet. Bitrate of the RS-485 serial communication interface is 9600 bps as standard but can be changed to or bps in case the external device supports faster speed. Databits, parity and stopbits can be set according the connected external devices. As default the IED does not have any serial protocol activated (None) but IEC103, ModbusIO and Modbus RTU can be used for communication. Note! When communicating with IED via front Ethernet port the IP address is always

18 Instruction manual AQ S214 Alarm and Indication IED 18 (79) SNTP protocol is used for time synchronization over Ethernet. It can be used at the same time with ModbusTCP and IEC61850 protocols. ModbusTCP can be used at the same time with other Ethernet based protocols like SNTP and IEC ModbusRTU / IEC103 / ModbusIO configuration menus. ModbusRTU like other serial protocols can be used only one at the time over one physical serial communication interface. Figure AQ-200 series IED Protocols sub- menu. See more detailed information about communications options in chapter System integration USER LEVEL CONFIGURATION As a factory default IEDs come without user level settings activated. In order to activate different user levels click the IED HMI lock button and set the desired passwords for different user levels. NOTE: Passwords can be set only at local HMI. In the HMI the user level currently in use is indicated in the upper right corner with stars. Different user levels and the indicators are: SUPERUSER (***) = full access including configurations CONFIGURATOR (**) = access to all settings OPERATOR (*) = access to limited settings and control USER ( - ) = view only

19 Instruction manual AQ S214 Alarm and Indication IED 19 (79) You can set a new password for the user level by selecting the key icon next to the user level. After this you can lock the user level by pressing return key while the lock is selected. If you need to change the password you can select the key icon again and give a new password. Please note that in order to do this the user level must be unlocked.

20 Instruction manual AQ S214 Alarm and Indication IED 20 (79) 4 ALARMING Signal alarming is the main feature of AQ-S214 and AQ-S254 Alarming IEDs. Alarming unit has 64 user settable alarms. Each alarm has a user defined description and an activation signal. These settings are done in Alarm settings menu (Control Device IO Alarm settings). Alarming unit generates events with timestamps into event history and alarm statuses can be read in RTU. 4.1 ALARM DESCRIPTIONS Figure 4-1 User edited alarm descriptions User edited alarm text will be displayed in the Alarm-view in the HMI when the alarm has been activated. To update the user descriptions, update the settings (Commands Write settings). Figure 4-2 Alarms assigning has been divided into four tabs in groups of ASSIGNING DIGITAL INPUTS INTO ALARMS Setting of alarms is divided into four tabs in groups of 16. User can assign a digital input or a logic output into each of the alarms. When any of the alarms have been activated by the assigned signal the alarm will appear in the Alarms-menu in the relay HMI.

21 Instruction manual AQ S214 Alarm and Indication IED 21 (79) Figure 4-3 Digital inputs assigned as alarm activating signals. Assign digital inputs or logical outputs into alarms by clicking on the matrix. When the matrix is done, it must be sent to the relay for the changes to take effect (Commands Write logic). When the signal assigned into an alarm (digital input or logical output) activates alarm text will be displayed in the Alarms-view in the relay HMI. Active alarms will be displayed in the Alarms-display with continuously lit LED. When the signal that has activated the alarm deactivated alarm text will be still displayed until it has been cleared in the HMI. This kind of alarm will be displayed with a blinking LED in the Alarms-display. If the alarm signals ON state has been checked in Event Mask, ALARM ON-event will be recorded with a timestamp into Event History. These alarms will also be reported in communication protocol, if one is in use. 4.3 CLEARING THE ACTIVATED ALARMS CLEAR ALL ALARMS To clear all alarms, press CTRL-button signal activating alarm is still active it will not be cleared. in the IED front panel. Please note that if the

22 Instruction manual AQ S214 Alarm and Indication IED 22 (79) Alarms can be also cleared by using Clear all alarms signal. In the example below physical push button is activating digital input 4 which is connected to Clear all alarms. After this is done in the logic editor click Export and then update logic (Commands Update logic).

23 Instruction manual AQ S214 Alarm and Indication IED 23 (79) EXAMPLE SITUATION Figure 4-4 Example situation of alarm text and LED activation/clearing. In the example figure digital inputs 1 and 2 activate alarm texts 1 and 2. LEDs next to the texts are also lit up as long as the digital inputs are on. When digital input 1 is deactivated the alarm text is still displayed but LED will start blinking as a sign that the digital input is deactivated. First CTRL-button push clears alarm 1 text and LED. Alarm text 2 and LED are not affected because digital input 2 is not yet deactivated. By the time CTRL-button is pushed again digital input 2 is deactivated and alarm text 2 is also cleared.

24 Instruction manual AQ S214 Alarm and Indication IED 24 (79) CLEARING INDIVIDUAL ALARMS An individual activated alarm can be cleared by choosing the alarm in the alarm view and pressing the -button in the relay front panel which leads to a menu with commands. Table 4-1 Available commands when an alarm has been selected in Alarm-view. Command Clear Clear all Mute buzzer Back Description Clears the selected alarm (if activating signal is off) Clears all alarms Mutes buzzer Goes back to Alarms-view 4.4 BUZZER ACTIVATION AND DEACTIVATION AQ-S214 and AQ-S254 Alarming IEDs do not have an integrated buzzer but if an alarming buzzer is needed it is possible to connect external buzzer which is activated by one of the output relays of the IED. To set up the buzzer control connect signal Alarm Buzzer signal to an output. This can be done in menu Control Device IO Device IO Matrix. Whenever an alarm is activated Alarm Buzzer signal will activate and output contact will be controlled. To silence the alarm buzzer, press the Back-button input or other binary signal in the logic to Silence alarm buzzer. in the IED panel or connect a digital

25 Instruction manual AQ S214 Alarm and Indication IED 25 (79) 4.5 CLEARING LATCHED SIGNALS If latched signals are connected to alarms the relay requires the user to push the back button in the relays front port before it can be cleared. Using latched signals is generally not advised to keep the clearing of the alarms simple EVENTS AND REGISTERS The alarm function generates events and registers from the status changes of monitored signals. To main event buffer is possible to select status On or Off messages. Table Event codes of the ALARM function. Event Number Event channel Event block name Event Code Description ALARM1 0 Alarm 1 On ALARM1 1 Alarm 1 Off ALARM1 2 Alarm 2 On

26 Instruction manual AQ S214 Alarm and Indication IED 26 (79) ALARM1 3 Alarm 2 Off ALARM1 4 Alarm 3 On ALARM1 5 Alarm 3 Off ALARM1 6 Alarm 4 On ALARM1 7 Alarm 4 Off ALARM1 8 Alarm 5 On ALARM1 9 Alarm 5 Off ALARM1 10 Alarm 6 On ALARM1 11 Alarm 6 Off ALARM1 12 Alarm 7 On ALARM1 13 Alarm 7 Off ALARM1 14 Alarm 8 On ALARM1 15 Alarm 8 Off ALARM1 16 Alarm 9 On ALARM1 17 Alarm 9 Off ALARM1 18 Alarm 10 On ALARM1 19 Alarm 10 Off ALARM1 20 Alarm 11 On ALARM1 21 Alarm 11 Off ALARM1 22 Alarm 12 On ALARM1 23 Alarm 12 Off ALARM1 24 Alarm 13 On ALARM1 25 Alarm 13 Off ALARM1 26 Alarm 14 On ALARM1 27 Alarm 14 Off ALARM1 28 Alarm 15 On ALARM1 29 Alarm 15 Off ALARM1 30 Alarm 16 On ALARM1 31 Alarm 16 Off ALARM1 32 Alarm 17 On ALARM1 33 Alarm 17 Off ALARM1 34 Alarm 18 On ALARM1 35 Alarm 18 Off ALARM1 36 Alarm 19 On ALARM1 37 Alarm 19 Off ALARM1 38 Alarm 20 On ALARM1 39 Alarm 20 Off ALARM1 40 Alarm 21 On ALARM1 41 Alarm 21 Off ALARM1 42 Alarm 22 On ALARM1 43 Alarm 22 Off ALARM1 44 Alarm 23 On ALARM1 45 Alarm 23 Off ALARM1 46 Alarm 24 On

27 Instruction manual AQ S214 Alarm and Indication IED 27 (79) ALARM1 47 Alarm 24 Off ALARM1 48 Alarm 25 On ALARM1 49 Alarm 25 Off ALARM1 50 Alarm 26 On ALARM1 51 Alarm 26 Off ALARM1 52 Alarm 27 On ALARM1 53 Alarm 27 Off ALARM1 54 Alarm 28 On ALARM1 55 Alarm 28 Off ALARM1 56 Alarm 29 On ALARM1 57 Alarm 29 Off ALARM1 58 Alarm 30 On ALARM1 59 Alarm 30 Off ALARM1 60 Alarm 31 On ALARM1 61 Alarm 31 Off ALARM1 62 Alarm 32 On ALARM1 63 Alarm 32 Off ALARM2 0 Alarm 33 On ALARM2 1 Alarm 33 Off ALARM2 2 Alarm 34 On ALARM2 3 Alarm 34 Off ALARM2 4 Alarm 35 On ALARM2 5 Alarm 35 Off ALARM2 6 Alarm 36 On ALARM2 7 Alarm 36 Off ALARM2 8 Alarm 37 On ALARM2 9 Alarm 37 Off ALARM2 10 Alarm 38 On ALARM2 11 Alarm 38 Off ALARM2 12 Alarm 39 On ALARM2 13 Alarm 39 Off ALARM2 14 Alarm 40 On ALARM2 15 Alarm 40 Off ALARM2 16 Alarm 41 On ALARM2 17 Alarm 41 Off ALARM2 18 Alarm 42 On ALARM2 19 Alarm 42 Off ALARM2 20 Alarm 43 On ALARM2 21 Alarm 43 Off ALARM2 22 Alarm 44 On ALARM2 23 Alarm 44 Off ALARM2 24 Alarm 45 On ALARM2 25 Alarm 45 Off ALARM2 26 Alarm 46 On

28 Instruction manual AQ S214 Alarm and Indication IED 28 (79) ALARM2 27 Alarm 46 Off ALARM2 28 Alarm 47 On ALARM2 29 Alarm 47 Off ALARM2 30 Alarm 48 On ALARM2 31 Alarm 48 Off ALARM2 32 Alarm 49 On ALARM2 33 Alarm 49 Off ALARM2 34 Alarm 50 On ALARM2 35 Alarm 50 Off ALARM2 36 Alarm 51 On ALARM2 37 Alarm 51 Off ALARM2 38 Alarm 52 On ALARM2 39 Alarm 52 Off ALARM2 40 Alarm 53 On ALARM2 41 Alarm 53 Off ALARM2 42 Alarm 54 On ALARM2 43 Alarm 54 Off ALARM2 44 Alarm 55 On ALARM2 45 Alarm 55 Off ALARM2 46 Alarm 56 On ALARM2 47 Alarm 56 Off ALARM2 48 Alarm 57 On ALARM2 49 Alarm 57 Off ALARM2 50 Alarm 58 On ALARM2 51 Alarm 58 Off ALARM2 52 Alarm 59 On ALARM2 53 Alarm 59 Off ALARM2 54 Alarm 60 On ALARM2 55 Alarm 60 Off ALARM2 56 Alarm 61 On ALARM2 57 Alarm 61 Off ALARM2 58 Alarm 62 On ALARM2 59 Alarm 62 Off ALARM2 60 Alarm 63 On ALARM2 61 Alarm 63 Off ALARM2 62 Alarm 64 On ALARM2 63 Alarm 64 Off

29 Instruction manual AQ S214 Alarm and Indication IED 29 (79) 5 CONTROL FUNCTIONS OBJECT CONTROL AND MONITORING (OBJ) Object control and monitoring function takes care of circuit breaker and disconnector controlling and status monitoring. Monitor and control is based into the statuses of the IED binary inputs and outputs configured. In the relay the amount of controllable and monitored objects is dependent of available IO. One controllable object requires minimum of 2 output contacts. For status monitoring typically 2 binary inputs are utilized per monitored object. Alternatively object status monitoring can be performed with single digital input using rising and falling edge monitoring and logic virtual inputs. Object can be controlled from local control, remote control and HMI mimic manually or by software function automatically. For remote control from protocols the modes Direct Control and Select before Execute are dealt in the protocol handling itself. Object control consists of control logic, control monitor and output handler. In addition of these main parts in the object control block can be added object related CBFP and object wear monitor. For the basic version of the object control block these additional functions are not included. Outputs of the function are Object open and Object close control signals. In addition to these output controls the function will report the monitored object status and applied operations. Setting parameters are static inputs for the function which are changed only by user input in the setup phase of the function. Inputs for the function are binary status indications open and close control signals, blockings, object ready and synchrocheck monitor signals. The function registers its operation into 12 last time-stamped registers and also generates general time stamped ON/OFF events to the common event buffer from each of the two output signal as well as several operational event signals. Time stamp resolution is 1ms. Function provides also cumulative counters for Open and Close act and Open / Close Failed events. In the following figure is presented the simplified function block diagram of the OBJ function.

30 Instruction manual AQ S214 Alarm and Indication IED 30 (79) Figure Simplified function block diagram of the OBJ function INPUT SIGNALS FOR OBJECT STATUS MONITORING For the function is used available hardware and software digital signal statuses and command signals. The signals can be divided into Monitor, Command and Control signals based into how they are dealt in the function. These input signals are also setting parameters for the function. The amount of needed control and setting parameters depend of the selected object type.

31 Instruction manual AQ S214 Alarm and Indication IED 31 (79) Table Monitor digital signal inputs used by the OBJ function. Signal Range Description Objectx Open Input DI1 DIx (SWx) Link to the physical binary input. Monitored object OPEN status. 1 means active open state of the monitored object. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Objectx Close Input WD Object In WD Object Out Object Ready Syncrocheck permission Open Block Input Close Block Input DI1 DIx (SWx) DI1 DIx (SWx) DI1 DIx (SWx) DI1 DIx (SWx) DI1 DIx (SWx) DI1 DIx (SWx) DI1 DIx (SWx) Link to the physical binary input. Monitored object CLOSE status. 1 means active close state of the monitored object. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Link to the physical binary input. Monitored withdrawable object position IN. 1 means that the withdrawable object cart is in. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Link to the physical binary input. Monitored withdrawable object position OUT. 1 means that the withdrawable object cart is pulled out. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Link to the physical binary input. Monitored object status. 1 means that the object is ready and spring is charged for close command. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Ready status can be set by application either 1 or 0. Link to the physical binary input or synchrocheck function. 1 means that the synchrocheck conditions are met and object can be closed. Position indication can be done among binary inputs and protection stage signals by using IEC , GOOSE or logical signals. Link to the physical or software binary input. 1 means that the opening of the object is blocked. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Link to the physical or software binary input. 1 means that the closing of the object is blocked. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. LOC / REM Pre-assigned IED Local / Remote switch status. Control of the object has to be applied in the correct control location. In local status remote controls cannot override the open or close commands. Status change of the monitor signals will always cause recorded event also in the object registers and object continuous status indications. Events can be enabled or disabled according to the application requirements.

32 Instruction manual AQ S214 Alarm and Indication IED 32 (79) Table Command digital signal inputs used by the OBJ function. Signal Range Description Objectx Local DI1 DIx Local Close command from physical digital input for example from pushbutton. Close control input Objectx Local DI1 DIx Local Open command from physical digital input for example from pushbutton. Open control input Objectx DI1 DIx Remote Close command from physical digital input for example from RTU. Remote Close control input Objectx DI1 DIx Remote Open command from physical digital input for example from RTU. Remote Open control input Objectx Pre-assigned Remote Close signal from communication protocols. Remote Close Signal Objectx Pre-assigned Remote Open signal from communication protocols. Remote Open Signal Objectx Local Close Signal Pre-assigned Local Close signal from HMI, either select-execute from the mimic SLD or direct from the local panel pushbutton. Objectx Local Open Signal Pre-assigned Local Open signal from HMI either select-execute from the mimic SLD or direct from the local panel pushbutton.. SW Open Input Configuration Software controlled open signal. Can be from autoreclosing or user logic. assigned SW Close Input Configuration assigned Software controlled open signal. Can be from autoreclosing, synchroswitch or user logic. Command signal activations are logged in the function registers when applied. The activation is logged also if the control is failed for any reason. Table Control digital signal outputs used by the OBJ function. Signal Range Description Close OUT1 OUTx Physical close command pulse to output relay of the IED. command Open command OUT1 OUTx Physical open command pulse to output relay of the IED SETTING PARAMETERS For the definition of the object following parameters are provided. Based into these settings the operation of the function will vary according to the type of the object. When Disconnector (NC) is selected as object type only parameters to be set are the position indication inputs and if withdrawable CB is selected, settings for WD cart, position indication of the CB, object ready, use synchrocheck and control timings are available. The functionality of the selected object is presented in the table below. Table Object type selection

33 Instruction manual AQ S214 Alarm and Indication IED 33 (79) Object type Functionality Description Withdrawable CB Position indication Withdrawable circuit breaker monitor and control configuration. WD cart position Control Object ready Use synchrocheck Interlocks Circuit Breaker Position indication Circuit breaker monitor and control configuration. Control Object ready Use synchrocheck Interlocks Disconnector (MC) Position indication Disconnector position monitoring and control of the disconnector Control Disconnector (NC) Position indication Earthing switch position indication In the following table are presented the setting parameters for withdrawable breaker configuration (maximum set of parameters). Table Object setting parameters Name Range Step Default Description Object type Withdrawable CB Circuit Breaker Disconnector (MC) Disconnector (NC) - - User selection of object type. Selection defines the amount of required binary inputs for the monitored object. This affects into the HMI and also for the monitoring of the CB, WD cart in or out and if object ready is in use or just monitoring of status (E.switch). Use Synchrocheck No Yes - No Selection if synchrocheck condition is in use for circuit breaker close command. Sync timeout s 0.02 s s Setting for synchrocheck wait timeout. If the synchrocheck permission is not received during this set time the close command will be rejected with error message. (visible only if Use Synchrocheck is Yes ) Use Object ready Ready High Ready Low Not in use - Not in use Selection if object ready condition is in use for circuit breaker close command. Selection can be either 1 or 0 for object ready or not in use. Ready timeout s 0.02 s 0.20 s Setting for ready wait timeout. If the object ready is not received during this set time the close command will be rejected with error message. (visible only if Use Object is either High or Low ) Max Close pulse length Max Open pulse length Control termination timeout s 0.02 s 0.20 s Maximum length for close pulse from the output relay to the controlled object. If the object operates faster than this set time the control pulse will be reset in the time when the status is changed s 0.02 s 0.20 s Maximum length for open pulse from the output relay to the controlled object. If the object operates faster than this set time the control pulse will be reset in the time when the status is changed s 0.02 s s Control pulse termination timeout. If the object has not changed it status in this given time the function will issue error event and the control is ended. This parameter is common for both open and close commands. The pick-up activation of the function is not directly equal to start-signal generation of the function. Start signal is allowed if blocking condition is not active.

34 Instruction manual AQ S214 Alarm and Indication IED 34 (79) BLOCKING AND INTERLOCKING For each controllable object can be set interlocking and blocking conditions for open and close separately. Blocking and interlocking can be based into other object statuses, software function or binary input. For example interlocking can be set for object close based into earthing disconnector position. Figure Example of interlock application. Closed earthing switch interlocks CB close. Blocking signal has to reach the function 5 ms before control command in order it is received in time EVENTS AND REGISTERS The OBJ function generates events and registers from the status changes of monitored signals as well as control command fails and operations. To main event buffer it is possible to select status On or Off messages. In the function is available 12 last registers where the triggering event of the function is recorded with time stamp and process data values. Table Events of the OBJ function instances Event Number Event channel Event block name Event Code Description OBJ1 0 Object Intermediate OBJ1 1 Object Open OBJ1 2 Object Close

35 Instruction manual AQ S214 Alarm and Indication IED 35 (79) OBJ1 3 Object Bad OBJ1 4 WD Intermediate OBJ1 5 WD Out OBJ1 6 WD in OBJ1 7 WD Bad OBJ1 8 Open Request On OBJ1 9 Open Request Off OBJ1 10 Open Command On OBJ1 11 Open Command Off OBJ1 12 Close Request On OBJ1 13 Close Request Off OBJ1 14 Close Command On OBJ1 15 Close Command Off OBJ1 16 Open Blocked On OBJ1 17 Open Blocked Off OBJ1 18 Close Blocked On OBJ1 19 Close Blocked Off OBJ1 20 Object Ready OBJ1 21 Object Not Ready OBJ1 22 Sync Ok OBJ1 23 Sync Not Ok OBJ1 24 Open Command Fail OBJ1 25 Close Command Fail OBJ1 26 Final trip On OBJ1 27 Final trip Off OBJ2 0 Object Intermediate OBJ2 1 Object Open OBJ2 2 Object Close OBJ2 3 Object Bad OBJ2 4 WD Intermediate OBJ2 5 WD Out OBJ2 6 WD in OBJ2 7 WD Bad OBJ2 8 Open Request On OBJ2 9 Open Request Off OBJ2 10 Open Command On OBJ2 11 Open Command Off OBJ2 12 Close Request On OBJ2 13 Close Request Off OBJ2 14 Close Command On OBJ2 15 Close Command Off OBJ2 16 Open Blocked On OBJ2 17 Open Blocked Off OBJ2 18 Close Blocked On OBJ2 19 Close Blocked Off OBJ2 20 Object Ready OBJ2 21 Object Not Ready OBJ2 22 Sync Ok OBJ2 23 Sync Not Ok OBJ2 24 Open Command Fail OBJ2 25 Close Command Fail OBJ2 26 Final trip On OBJ2 27 Final trip Off OBJ3 0 Object Intermediate OBJ3 1 Object Open OBJ3 2 Object Close OBJ3 3 Object Bad

36 Instruction manual AQ S214 Alarm and Indication IED 36 (79) OBJ3 4 WD Intermediate OBJ3 5 WD Out OBJ3 6 WD in OBJ3 7 WD Bad OBJ3 8 Open Request On OBJ3 9 Open Request Off OBJ3 10 Open Command On OBJ3 11 Open Command Off OBJ3 12 Close Request On OBJ3 13 Close Request Off OBJ3 14 Close Command On OBJ3 15 Close Command Off OBJ3 16 Open Blocked On OBJ3 17 Open Blocked Off OBJ3 18 Close Blocked On OBJ3 19 Close Blocked Off OBJ3 20 Object Ready OBJ3 21 Object Not Ready OBJ3 22 Sync Ok OBJ3 23 Sync Not Ok OBJ3 24 Open Command Fail OBJ3 25 Close Command Fail OBJ3 26 Final trip On OBJ3 27 Final trip Off OBJ4 0 Object Intermediate OBJ4 1 Object Open OBJ4 2 Object Close OBJ4 3 Object Bad OBJ4 4 WD Intermediate OBJ4 5 WD Out OBJ4 6 WD in OBJ4 7 WD Bad OBJ4 8 Open Request On OBJ4 9 Open Request Off OBJ4 10 Open Command On OBJ4 11 Open Command Off OBJ4 12 Close Request On OBJ4 13 Close Request Off OBJ4 14 Close Command On OBJ4 15 Close Command Off OBJ4 16 Open Blocked On OBJ4 17 Open Blocked Off OBJ4 18 Close Blocked On OBJ4 19 Close Blocked Off OBJ4 20 Object Ready OBJ4 21 Object Not Ready OBJ4 22 Sync Ok OBJ4 23 Sync Not Ok OBJ4 24 Open Command Fail OBJ4 25 Close Command Fail OBJ4 26 Final trip On OBJ4 27 Final trip Off OBJ5 0 Object Intermediate OBJ5 1 Object Open OBJ5 2 Object Close OBJ5 3 Object Bad OBJ5 4 WD Intermediate

37 Instruction manual AQ S214 Alarm and Indication IED 37 (79) OBJ5 5 WD Out OBJ5 6 WD in OBJ5 7 WD Bad OBJ5 8 Open Request On OBJ5 9 Open Request Off OBJ5 10 Open Command On OBJ5 11 Open Command Off OBJ5 12 Close Request On OBJ5 13 Close Request Off OBJ5 14 Close Command On OBJ5 15 Close Command Off OBJ5 16 Open Blocked On OBJ5 17 Open Blocked Off OBJ5 18 Close Blocked On OBJ5 19 Close Blocked Off OBJ5 20 Object Ready OBJ5 21 Object Not Ready OBJ5 22 Sync Ok OBJ5 23 Sync Not Ok OBJ5 24 Open Command Fail OBJ5 25 Close Command Fail OBJ5 26 Final trip On OBJ5 27 Final trip Off OBJ6 0 Object Intermediate OBJ6 1 Object Open OBJ6 2 Object Close OBJ6 3 Object Bad OBJ6 4 WD Intermediate OBJ6 5 WD Out OBJ6 6 WD in OBJ6 7 WD Bad OBJ6 8 Open Request On OBJ6 9 Open Request Off OBJ6 10 Open Command On OBJ6 11 Open Command Off OBJ6 12 Close Request On OBJ6 13 Close Request Off OBJ6 14 Close Command On OBJ6 15 Close Command Off OBJ6 16 Open Blocked On OBJ6 17 Open Blocked Off OBJ6 18 Close Blocked On OBJ6 19 Close Blocked Off OBJ6 20 Object Ready OBJ6 21 Object Not Ready OBJ6 22 Sync Ok OBJ6 23 Sync Not Ok OBJ6 24 Open Command Fail OBJ6 25 Close Command Fail OBJ6 26 Final trip On OBJ6 27 Final trip Off OBJ7 0 Object Intermediate OBJ7 1 Object Open OBJ7 2 Object Close OBJ7 3 Object Bad OBJ7 4 WD Intermediate OBJ7 5 WD Out

38 Instruction manual AQ S214 Alarm and Indication IED 38 (79) OBJ7 6 WD in OBJ7 7 WD Bad OBJ7 8 Open Request On OBJ7 9 Open Request Off OBJ7 10 Open Command On OBJ7 11 Open Command Off OBJ7 12 Close Request On OBJ7 13 Close Request Off OBJ7 14 Close Command On OBJ7 15 Close Command Off OBJ7 16 Open Blocked On OBJ7 17 Open Blocked Off OBJ7 18 Close Blocked On OBJ7 19 Close Blocked Off OBJ7 20 Object Ready OBJ7 21 Object Not Ready OBJ7 22 Sync Ok OBJ7 23 Sync Not Ok OBJ7 24 Open Command Fail OBJ7 25 Close Command Fail OBJ7 26 Final trip On OBJ7 27 Final trip Off OBJ8 0 Object Intermediate OBJ8 1 Object Open OBJ8 2 Object Close OBJ8 3 Object Bad OBJ8 4 WD Intermediate OBJ8 5 WD Out OBJ8 6 WD in OBJ8 7 WD Bad OBJ8 8 Open Request On OBJ8 9 Open Request Off OBJ8 10 Open Command On OBJ8 11 Open Command Off OBJ8 12 Close Request On OBJ8 13 Close Request Off OBJ8 14 Close Command On OBJ8 15 Close Command Off OBJ8 16 Open Blocked On OBJ8 17 Open Blocked Off OBJ8 18 Close Blocked On OBJ8 19 Close Blocked Off OBJ8 20 Object Ready OBJ8 21 Object Not Ready OBJ8 22 Sync Ok OBJ8 23 Sync Not Ok OBJ8 24 Open Command Fail OBJ8 25 Close Command Fail OBJ8 26 Final trip On OBJ8 27 Final trip Off OBJ9 0 Object Intermediate OBJ9 1 Object Open OBJ9 2 Object Close OBJ9 3 Object Bad OBJ9 4 WD Intermediate OBJ9 5 WD Out OBJ9 6 WD in

39 Instruction manual AQ S214 Alarm and Indication IED 39 (79) OBJ9 7 WD Bad OBJ9 8 Open Request On OBJ9 9 Open Request Off OBJ9 10 Open Command On OBJ9 11 Open Command Off OBJ9 12 Close Request On OBJ9 13 Close Request Off OBJ9 14 Close Command On OBJ9 15 Close Command Off OBJ9 16 Open Blocked On OBJ9 17 Open Blocked Off OBJ9 18 Close Blocked On OBJ9 19 Close Blocked Off OBJ9 20 Object Ready OBJ9 21 Object Not Ready OBJ9 22 Sync Ok OBJ9 23 Sync Not Ok OBJ9 24 Open Command Fail OBJ9 25 Close Command Fail OBJ9 26 Final trip On OBJ9 27 Final trip Off OBJ10 0 Object Intermediate OBJ10 1 Object Open OBJ10 2 Object Close OBJ10 3 Object Bad OBJ10 4 WD Intermediate OBJ10 5 WD Out OBJ10 6 WD in OBJ10 7 WD Bad OBJ10 8 Open Request On OBJ10 9 Open Request Off OBJ10 10 Open Command On OBJ10 11 Open Command Off OBJ10 12 Close Request On OBJ10 13 Close Request Off OBJ10 14 Close Command On OBJ10 15 Close Command Off OBJ10 16 Open Blocked On OBJ10 17 Open Blocked Off OBJ10 18 Close Blocked On OBJ10 19 Close Blocked Off OBJ10 20 Object Ready OBJ10 21 Object Not Ready OBJ10 22 Sync Ok OBJ10 23 Sync Not Ok OBJ10 24 Open Command Fail OBJ10 25 Close Command Fail OBJ10 26 Final trip On OBJ10 27 Final trip Off In the register of the OBJ function is recorded statuses, commands etc. On event process data. In the table below is presented the structure of OBJ function register content. This information is available in 12 last recorded events for all provided instances separately.

40 Instruction manual AQ S214 Alarm and Indication IED 40 (79) Table Register content. Date & Time dd.mm.yyyy hh:mm:ss.mss Event code Descr. Object status Open Close Intermediate Bad WDstatus Action Fails General status In Requests Reasons Blockings Out for failed Ready Intermediate commands Synchro Bad ok Timing opening and closing time Object registers are treated different from other registers seen in the IED. Following example is from closing of the breaker when the breaker is not ready. dd.mm.yyyy hh:mm:ss.mss ObjectOpen, WDIn, Close request from RemCloInput,Close pending due to: Close wait for Ready, Open Allowed, Close Allowed, Object Not Ready dd.mm.yyyy hh:mm:ss.mss ObjectOpen,WDIn,Open Allowed,Close Allowed,ObjectReady dd.mm.yyyy hh:mm:ss.mss ObjectClosed,WDIn,Open Allowed,Close Allowed,ObjectReady,Obj closetime:0.070s Corresponding event list is as below dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss dd.mm.yyyy hh:mm:ss.mss CloseRequestOn CloseFail CloseRequestOff CloseCommandOn StatusChangedOn ObjectIntermediate ObjectClose CloseCommandOff As can be seen the registers complement the event list information in cases when the control has failed. The reason of failure can be seen directly from the registers

41 Instruction manual AQ S214 Alarm and Indication IED 41 (79) INDICATOR OBJECT MONITORING (CIN) Indicator function takes care of circuit breaker and disconnector status monitoring. Indicator function is only for indication purposes which means it doesn t have any control functionality. For circuit breaker/disconnector controlling use objects. Monitoring is based into the statuses of the configured IED binary inputs. In the relay the number of monitored indicators is dependent of available IO. For status monitoring, typically 2 binary inputs are utilized per monitored indicator. Alternatively, indicator status monitoring can be performed with single digital input using rising and falling edge monitoring and logic virtual inputs. Selection of the type of object is selected in the mimic editor. Outputs of the function are monitored indicator statuses Open/Close. Setting parameters are static inputs of the function which are changed only by user input in the setup phase of the function. Inputs for the function are binary status indications. The function generates general time stamped ON/OFF events to the common event buffer from each of the open, close, bad and intermediate event signals. Time stamp resolution is 1ms INPUT SIGNALS FOR INDICATOR STATUS MONITORING Function uses available hardware and software digital signal statuses. These input signals are also setting parameters for the function. Table Monitor digital signal inputs used by the CIN function. Signal Range Description IndicatorX Open Input DI1 DIx (SWx) Link to the physical binary input. Monitored indicator OPEN status. 1 means active open state of the monitored indicator. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. IndicatorX Close Input DI1 Dix (SWx) Link to the physical binary input. Monitored indicator CLOSE status. 1 means active close state of the monitored indicator. Position indication can be done among binary inputs and protection stage signals by using IEC-61850, GOOSE or logical signals. Status change of the signals will always cause recorded event also in the indicators continuous status indications. Events can be enabled or disabled according to the application requirements EVENTS The indicator function generates events and registers from the status changes of monitored signals. To main event buffer is possible to select status On or Off messages.

42 Instruction manual AQ S214 Alarm and Indication IED 42 (79) Table Event codes of the CIN function instances 1 5. Event Number Event channel Event block name Event Code Description CIN1 0 Intermediate CIN1 1 Open CIN1 2 Close CIN1 3 Bad CIN2 0 Intermediate CIN2 1 Open CIN2 2 Close CIN2 3 Bad CIN3 0 Intermediate CIN3 1 Open CIN3 2 Close CIN3 3 Bad CIN4 0 Intermediate CIN4 1 Open CIN4 2 Close CIN4 3 Bad CIN5 0 Intermediate CIN5 1 Open CIN5 2 Close CIN5 3 Bad

43 Instruction manual AQ S214 Alarm and Indication IED 43 (79) PROGRAMMABLE CONTROL SWITCH Programmable Control Switch is a control function that controls its binary output signal on/off. This output signal can be controlled locally from the IED mimic (appears as square box) or remotely from RTU. Programmable Control Switches main purpose is to change function properties by changing the setting group by other means or block/enable functions. This binary signal can be also used for any other kind of purpose just like all other binary signals. Once Programmable Control Switch output has been activated (1) or disabled (0) it will remain in this state until given a new control command to the opposite state. The switch cannot be controlled by any auxiliary input like digital input or logic signals, only local mimic control or remote RTU control are available EVENTS The PCS function generates events from the status changes. To main event buffer it is possible to select status On or Off messages. The PCS function offers five independent instances. Table Event codes of the PCS function Event Number Event channel Event block name Event Code Description PCS 0 Switch1 On PCS 1 Switch1 Off PCS 2 Switch2 On PCS 3 Switch2 Off PCS 4 Switch3 On PCS 5 Switch3 Off PCS 6 Switch4 On PCS 7 Switch4 Off PCS 8 Switch5 On PCS 9 Switch5 Off

44 Instruction manual AQ S214 Alarm and Indication IED 44 (79) 6 SYSTEM INTEGRATION The AQ-200 series IED have fixed communication connections RS-485 (2-wire) and RJ- 45options for system integration. Both of these rear ports are designed for SCADA and service bus communications. In addition to these communication ports various communication media options can be installed to the IED including serial fiber as well as redundant Ethernet option cards. COM B RS-485 pin-out description Pin number (1=leftmost) Description 1 DATA + 2 DATA - 3 GND 4, 5 Terminator resistor enabled by shorting pins 4 and 5. Supported communication protocols are IEC-61850, Modbus RTU, Modbus TCP and IEC- 103 for SCADA and telnet, ftp and SNTP for station bus communications and time synchronization. 6.1 COMMUNICATION PROTOCOLS NTP NTP is short for Network Time Protocol. When NTP service is enabled in the device it can use an external time sources for synchronization of the device system time. NTP client service uses Ethernet connection to connect to NTP time server. NTP is enabled by setting the Primary time server (and Secondary time server) parameters to the address of the system NTP time source(s).

45 Instruction manual AQ S214 Alarm and Indication IED 45 (79) Parameter Range Description Primary time server address [ Primary NTP server ] address = service not in use. Secondary time server [ Secondary/backup NTP address ] server address = service not in use. IP address [ The NTP Client IP ] address. NOTE: NTP Client IP has to be different than relay IP address. Netmask [ NTP Client Netmask ] Gateway [ NTP Client Gateway ] NetworkStatus Messages: Running IP error Displays the status or possible errors of NTP settings. These are errors NM error in the parameters GW error mentioned above. NTP quality for events No sync Synchronized Shows the status of the NTP time synchronization at the moment. If other time synchronization method is used (external serial), this indication isn t valid. NOTE: a unique IP address needs to be reserved for NTP Client. Relay IP address cannot be used. To set the time zone of the relay connect to relay and then Commands Set time zone MODBUSTCP AND MODBUSRTU The device supports both Modbus TCP and Modbus RTU communication. Modbus TCP uses the Ethernet connection for communicating with Modbus TCP clients. Modbus RTU is a serial protocol which can be selected for the available serial ports.

46 Instruction manual AQ S214 Alarm and Indication IED 46 (79) Following Modbus function types are supported: Read Holding Register, 3 Write Single Register, 6 Write Multiple Registers, 16 Read/Write Multiple Registers, 23 Following data can be accessed using both Modbus TCP and Modbus RTU Device measurements Device I/O Commands Events Time NOTE: Modbus map of the relay is found in AQtivate software in Tools Modbus map once the configuration file has been loaded. Modbus TCP parameters can be found in following table. Parameter Range Description ModbusTCP enable [Disabled, Enabled] Enable setting for Modbus TCP on Ethernet port. IP port [ ] IP port used by Modbus TCP. Standard and default port is 502. Modbus RTU parameters can be found in following table. Parameter Range Description Slave address [1 247] Modbus RTU slave address for the unit MODBUSIO ModbusIO can be selected for communication on available serial ports. ModbusIO is actually a ModbusRTU master implementation dedicated for communication with serial ModbusRTU slaves such as RTD inputs modules. Up to 3 ModbusRTU slaves can be connected to the same bus polled by the ModbusIO implementation. These are named IO

47 Instruction manual AQ S214 Alarm and Indication IED 47 (79) Module A IO Module C. Each of the modules can be configured using parameters in the following table. Parameter Range Description IO Module[A,B,C] address [0 247] Modbus unit address for the IO Module. 0 = not in use. Module[A,B,C] type [ADAM-4018+] Type selection for module Channels in use [Ch0 Ch7] Channel selection for the module. For each of the 8 channels of the IO module connected thermocouple can be selected. T.C. type [+-20mA,Type J, Type K, Type T, Type E, Type R, Type S] Thermocouple setting. type IEC Device models with IEC support, can have the IEC protocol enabled by the user. IEC in Arcteq devices support the following services: Dataset, pre-defined datasets can be edited with IEC editor tool in Aqtivate. Report control block, both buffered and un-buffered reporting is supported. Control, direct-with-normal-security control sequences are supported. GOOSE Time synchronization

48 Instruction manual AQ S214 Alarm and Indication IED 48 (79) Currently used setup of the device can be viewed in the IEC61850 tool (Tools IEC61850). For a list of available Logical Nodes in the Arcteq implementation browse the tree. See following picture: Figure 6-1 IEC tool buttons. The available functions in the IEC tool are: 1. Open an existing CID-file from the PC hard drive 2. Save the CID file into the aqs currently open (save the aqs file as well [File Save] to keep the changes) 3. Save the CID file into the hard drive for later use. 4. Exports current CID file without private tags 5. Exports dataset info into a txt file that can be viewed in table format in tools like Excel 6. Opens main configurations window 7. Opens data set editing window 8. Send the CID configuration to the relay (requires a connection to the relay) 9. Retrieves the default CID file from the relay.

49 Instruction manual AQ S214 Alarm and Indication IED 49 (79) The main configurations dialog is opened by pressing 6 th button. Important parameters are here the IED Name and the IP settings. Also if GOOSE publisher service is to be used, the parameters for GCB1 and GCB2 should be set. See following picture: Figure 6-2 Main configuration window for basic settings and goose publishing. The pre-defined, editable, datasets can be opened by pressing the 7 th button. It is possible to add and remove datasets with +/- buttons. When a dataset has been added it has to be assigned to an RCB with RCB-button (opens a new window). It is possible to assign to Unbuffered URCB s or Buffered reporting BRCB s. All of these datasets can be edited. By unchecking both of the GOOSE publisher datasets GOOSE publisher service will be disabled. See following picture. Figure 6-3 DataSets window for adding/removing and editing datasets. By marking a dataset and pressing the Edit button the dataset edit dialog is opened. See following picture. In the edit dialog all currently configured entries of the dataset are visible. If the red - -button is pressed in the end of an entry row the entry will be removed from the

50 Instruction manual AQ S214 Alarm and Indication IED 50 (79) dataset. If the green ± -button is pressed a new dialog is opened were it is possible to edit contents of the dataset. New entries can be added and old edited. It is recommended that for URCB and BRCB datasets that data is selected on the doname, data object level, (see example below). In this way all available information like; status, quality and time is always sent in the report. Data can also be selected on daname, data attribute level, selecting each individual data. This approach may be preferred for the GOOSE datasets. Figure 6-4 Data can be also chosen in data attribute level. For more information on IEC support, see the conformance statement documents. IEC61850 general parameters visible in AQtivate and local HMI are described in the table below. Parameter Range Description IEC61850 enable [Disabled, Enabled] Enable setting for IEC protocol. IP port [ ] IP port used by IEC protocol. Standard and default port is 102. Measurements deadband [ ] Measurement data reporting dead-band setting. GOOSE subscriber [Disabled, Enabled] Enable setting for enable GOOSE subscriber.

51 Instruction manual AQ S214 Alarm and Indication IED 51 (79) GOOSE Both GOOSE publisher and subscriber are supported by the Arcteq implementation. GOOSE subscriber is enabled by parameter setting (Communication Protocols IEC61850 GOOSE subscriber enable) and GOOSE inputs are configured using HMI or Aqtivate tool. For each of the Goose inputs there is also an input quality signal which can also be used in the internal logic. If the input quality is low, (=0), then the quality is good. Input quality can be bad for reasons like GOOSE timeout and configuration error. Logical input signal states and quality can be viewed in the device under Device IO menu. For each GOOSE input following parameters are available. Parameter Range Description In use [No, Yes] Setting to take input in to use. AppId [ ] Application ID which will be matched with the publishers GOOSE control block. ConfRev [ ] Configuration revision which will be matched with the publishers GOOSE control block. DataIdx [0 99] Data index of the value in the matched published frame which will be the state of this input. NextIdx is quality [No, Yes] If the next received input is the quality bit of this GOOSE Input choose yes. Goose publisher configuration is done using the IEC61850 editor started from AQtivate tools menu. For GOOSE publishing service to start the GCB s and GOOSE datasets must be setup. GOOSE Control Blocks are visible by pressing 6 th button in the IEC61850 tool. See picture below. On the right side in the dialog the GCB s are setup. The important parameters are App ID which should be unique for the system. Also confrev parameter is

52 Instruction manual AQ S214 Alarm and Indication IED 52 (79) checked by the receiving part. If VLAN switches are used to build sub-networks the VLAN Priority and VLAN ID parameters must be set to match with the system specification. Figure 6-5 Settings for both available GOOSE Publishing datasets. GOOSE datasets defines the data which will be sent by the GOOSE publisher. Only binary data and quality information for the binary signals can be sent by the GOOSE publisher. The binary signals will be mapped to GOOSE input signals on the receiving side together with the quality information for that binary signal. The quality information in the incoming frame will be ORed with GOOSE reception timeout supervision information so that quality information for each GOOSE input can be used in relay logic IEC 103 IEC 103 is short for international standard IEC Arcteq implements a secondary station (slave). The IEC 103 protocol can be selected for the available serial ports of the device. A master or primary station can communicate with the Arcteq device and receive information by polling from the slave device. Disturbance recordings transfer is not supported.

53 Instruction manual AQ S214 Alarm and Indication IED 53 (79) NOTE: IEC103 map of the relay is found in AQtivate software in Tools IEC103 map once the configuration file has been loaded. IEC 103 parameters can be found in the following table. Parameter Range Description Slave address [1 254] IEC 103 slave address for the unit. Measurement interval [ ]ms Interval setting for the measurements update DNP3 DNP3 is a protocol standard which is controlled by the DNP Users Group at The implementation in the AQ2xx series of a DNP3 slave is compliant with DNP3 Subset Definition Level 2, but contains also functionality of higher levels. For detailed information see the DNP3 Device Profile document. DNP3 parameters can be found in following table. Parameter Range Description Slave address [ ] DNP3 slave address for the unit. Master address [ ] DNP3 address setting for allowed master. Link layer timeout [ ]ms Timeout of link layer Link layer retries [1 20] Number of link layer retries Application layer timeout [ ]ms Application layer timeout Application layer [0=No,1=Yes] Application layer confirmation confirmation enable. Time sync request [ ]ms Request interval for interval synchronization IEC 101 / 104 Standards IEC & IEC are closely related. Both are derived from IEC standard. On the physical layer IEC 101 uses serial communication but IEC 104 uses Ethernet communication.

54 Instruction manual AQ S214 Alarm and Indication IED 54 (79) The IEC 101/104 implementation in AQ2xx series works as a slave in unbalanced mode. For more detailed information see the IEC101 Profile Checklist document. IEC101/104 parameters can be found in following table. Parameter Range Description Link layer address [ ] Link layer address Link layer address size [1 2] Link layer address size ASDU address [ ] ASDU address ASDU address size [1 2] ASDU address size IO address size [1 2] IO address size IEC104 server enable [0=No,1=Yes] IEC104 enable IEC104 client IP Client IP address SPA PROTOCOL AQ-2xx relay can act as a SPA-slave. SPA can be selected as the communication protocol into COM B port (in CPU module). If serial RS232 & serial fiber module is available in the device SPA protocol can be activated for these channels (COM E or F). See the chapter for construction and installation to see the connections for these modules. SPAs data transfer rate is 9600bps but it can be also set to 19200bps or 38400bps. As a slave the relay will send data on demand or by sequenced polling. Available data can be measurements, circuit breaker states, function starts/trips etc. Full SPA signal map can be found in AQtivate from Tools SPA map. Please note that aqs file should be downloaded from relay first. The SPA EVENT addresses can be found in Tools Events and logs Event list. This also requires to open an aqs configuration file of the relay first. NOTE: SPA map of the relay is found in AQtivate software in Tools SPA map once the configuration file has been loaded. 6.2 GENERAL IO ANALOG FAULT REGISTERS In the menu in Communication General IO Analog fault register it is possible to set up to 12 channels to record the measured value at the time of protection function start or trip. These values can be read through possibly used communication protocol or locally from this same menu.

55 Instruction manual AQ S214 Alarm and Indication IED 55 (79) 7 CONNECTIONS 7.1 BLOCK DIAGRAM AQ-S214 Figure Block diagram of AQ-S214-AAAAAA variant without any add-on modules.

56 Instruction manual AQ S214 Alarm and Indication IED 56 (79) Figure Block diagram of AQ-S214-BBBBCC variant with DI8 and DO5 add-on modules in all configurable slots.

57 Instruction manual AQ S214 Alarm and Indication IED 57 (79) 7.2 CONNECTION EXAMPLE Figure Connection example of AQ-S214 Alarm and Indication IED.

58 Instruction manual AQ S214 Alarm and Indication IED 58 (79) 8 CONSTRUCTION AND INSTALLATION AQ-S214 Alarm and Indication IED is a member of modular and scalable AQ-2xx series and includes four configurable modular add-on card slots. As a standard configuration the IED includes CPU, IO and Power supply module. Non-optioned model (AQ-S214- XXXXXXX-AAAAAA) and fully optioned model (AQ-S214-XXXXXXX-BBBBCC) of the AQ- S214 Alarm and Indication IED are presented in the picture below. Figure 8-1 Modular construction of AQ-S214 Alarm and indication IED AQ-S214 modular structure allows scalable solutions for different application requirements. In any of the non-standard configured slot A, B, C, D, E and F can be ordered any available add-on module which can be binary IO module or any special module provided. Only differentiating factor in the device scalability is considering the E slot which supports also communication options. In case add-on module is inserted to the IED the start-up scan will search of the modules according to the type designation code, if the module location or content is differing from the expected the IED will not take additional modules into account and will issue a configuration error. For a field upgrade this means that the add-on module has to be ordered from Arcteq Ltd. or representative who shall provide the add-on module with corresponding unlocking code in order the device to be operating correctly after upgrading the hardware

59 Instruction manual AQ S214 Alarm and Indication IED 59 (79) configuration. This means also that the module location cannot be changed without updating the device configuration data, for this case also unlocking code is needed. When IO module is inserted to the IED the module location shall effect to the naming of the IO. The scanning order in the start-up sequence is CPU-module IO, slot A, slot B, slot C, slot D, slot E and slot F. This means that the binary input channels DI1, DI2 and DI3 and also the binary output channels OUT1, OUT2, OUT3, OUT4 and OUT5 are always located in the CPU-module. If more IO is installed the location of each type of card will have effect on the found IO naming. In following figure is presented the principle of the start-up hardware scan of the IED. 1. Scan: Start-up system, detect and self-test CPU-module, voltages, comm. and IO. Find and assign DI1, DI2, DI3, OUT1, OUT2, OUT3, OUT4 and OUT5. 2. Scan: Scan SlotA, if empty go to next slot. If found 8DI module then reserve to this slot DI4,DI5,DI6,DI7,DI8,,DI9,DI10 and DI11. If found DO5 module then reserve to this slot OUT6, OUT7, OUT8, OUT9 and OUT10. Amount of IO is added If the type designation code allows and if not match then issue alarm as also if module is expected to be found and is not there alarm will be issued. 3. Scan: Scan SlotB, if empty go to next slot. If found 8DI module then reserve to this slot running number regard if Slot A was empty or had other than Dix module then DI4,DI5,DI6,DI7,DI8,,DI9,DI10 and DI11 or if Slot A has also DI8 module then DI12,DI13,DI14,DI15,DI16,,DI17,DI18 and DI19. If found DO5 module then reserve to this slot OUT6, OUT7, OUT8, OUT9 and OUT10 or OUT11, OUT12, OUT13, OUT14 and OUT15 with similar basis than for the inputs. 4, 5, 6 and 7 Scan: Similar operation to Scan 3. Figure 8-2 Hardware scanning and IO naming principle in AQ-S214 IED In the previous example only IO add-on cards were described if installed into the option module slots. If the slot has other module than IO they are treated similarly. For example in case of added communication port the upper port of the communication module shall be in minimum of Comm. port 3 etc. since in the CPU-module already exist Comm. ports 1 and 2. After communication port is detected it is added into the communication space in the IED and corresponding settings are enabled for the IED. In the example case of AQ-S214-XXXXXXX-BBBBCC available binary input channel amount is DI1 DI35, of which DI1-DI3 are in the CPU module, DI4-DI11 are in Slot A, DI12-DI19 are in Slot B, DI20-DI27 are in Slot C, DI28-DI35 are in Slot D. Available binary output channels are DO1 DO15, of which DO1-DO5 are in the CPU module and DO6-

60 Instruction manual AQ S214 Alarm and Indication IED 60 (79) DO10 are in slot E and DO11-DO15 are in slot F. If the configuration should differ from this example the same principle is always applied into the IED.

61 Instruction manual AQ S214 Alarm and Indication IED 61 (79) 8.1 CPU, IO AND POWER SUPPLY MODULE By default the AQ-2xx IED platform combination CPU, IO and Power supply module is included in the AQ-2xx IED which includes two standard communication ports and basic binary IO of the relay. Module can be ordered either with 2 or 3 digital inputs included. Connector Description COM A : Communication port A, RJ-45. For AQtivate setting tool connection, IEC61850, Modbus TCP, IEC104, DNP TCP and station bus communications. COM B : Communication port B, RS-485. For Modbus RTU, Modbus IO, SPA, DNP3, IEC101 and IEC103 SCADA communications. Pin-out starting from the left: 1=DATA +, 2=DATA -, 3=GND, 4&5=Terminator resistor enabled by shorting. 3 digital input model 2 digital input model X 1 Digital input 1, nominal threshold voltage 24V,110V or Digital input 1, nominal threshold voltage 24V,110V or 220V 220V X 2 Digital input 2, nominal Digital input 1 ground. threshold voltage 24V,110V or 220V X 3 Digital input 3, nominal threshold voltage 24V,110V or Digital input 2, nominal threshold voltage 24V,110V or 220V 220V X 4 Digital inputs 1, 2 and 3 common ground. Digital input 2 ground. X 5:6 Output relay 1, Normally open contact X 7:8 Output relay 2, Normally open contact X 9:10 Output relay 3, Normally open contact X 11:12 Output relay 4, Normally open contact X 13:14:15 Output relay 5, Changeover contact X 16:17:18 System Fault output relay, Changeover contact X 19:20 Power supply in, Either VAC/DC (model H) or DC (model L), Positive side (+) to pin X1:20 GND Relay grounding connector Figure AQ-2xx Main processor module CPU, IO, communications and PSU. - Binary inputs current consumption is 2 ma when activated and the operating voltage range is 24V/110V/220V depending on ordered hardware. All binary inputs are scanned in 5 ms program cycle and have software settable pick-up and release delay and software settable NO/NC (normally open/-closed) selection. - Binary outputs controls are user settable. As standard binary outputs are controlled in 5 ms program cycle. All output contacts are mechanical type. Rated voltage of the NO/NC outputs is 250VAC/DC. Auxiliary voltage shall be defined in the ordering code of the device, either H ( VAC/DC) or L (18-75DC) model power supplies are available. Power supply minimum allowed bridging time for all voltage levels is > 150ms. Power supply maximum power

62 Instruction manual AQ S214 Alarm and Indication IED 62 (79) consumption is 15W max. Power supply allows DC ripple of <15 % and start-up time of power supply is < 5ms. Further details refer to the Technical data section of this document SCANNING CYCLE OF THE DIGITAL INPUT Binary inputs are scanned in 5 millisecond cycle. This makes the state of input to be updated between 0 5 milliseconds. When input is used internally in IED (group change or logic) it takes additional 0 5 milliseconds to operate. So in theory when binary input is used for group control or similar it takes 0 10 milliseconds to change the group. In practice the delay is between 2 8 milliseconds about 95% of the time. In case the binary input is connected directly to binary output (T1 Tx) it takes additional third 5 millisecond round. When binary input is controlling internally binary output it takes 0 15 milliseconds in theory and 2 13 milliseconds in practice. This delay excludes the mechanical delay of the relay.

63 Instruction manual AQ S214 Alarm and Indication IED 63 (79) 8.2 DIGITAL INPUT MODULE DI8 The DI8 module is an add-on module for additional eight (8) galvanically isolated binary inputs. This module can be ordered directly as factory installed option or it can be field upgraded if needed after the first installation of the AQ-200 series IED. Connector Description SlotX 1 DIx + 1 SlotX 2 DIx + 2 SlotX 3 DIx + 3 SlotX 4 DIx + 4 SlotX 5 GND common ground for this module 1-4 DI SlotX 6 DIx + 5 SlotX 7 DIx + 6 SlotX 8 DIx + 7 SlotX 9 DIx + 8 SlotX 10 GND common ground for this module 5-8 DI Figure DI8 Binary input module for eight add-on binary inputs. Properties of this binary input module provided inputs are the same as inputs in the CPUmodule. Binary inputs have as standard current consumption of 2 ma when activated and the operating voltage range is from 0V to 265VAC/DC with software settable activation/release threshold and 1V resolution. All binary inputs are scanned in 5 ms program cycle and they have software settable pick-up and release delay of input signal and software settable NO/NC (normally open/-closed) selection. Naming convention of the binary inputs provided by this module is presented in the chapter 6 Construction and installation. For technical details refer to the Technical data section of this document.

64 Instruction manual AQ S214 Alarm and Indication IED 64 (79) SETTING UP THE ACTIVATION AND RELEASE THRESHOLDS OF THE DIGITAL INPUTS The digital input activation threshold can be set for each digital input individually by the user. Properly set activation and release thresholds will give reliable activation and release of the digital input states. User settable normal state (normally open/normally closed) defines if the digital input is considered activated when the digital input channel is energized. Figure 8-1 Digital input state when energizing and de-energizing the digital input channels.

65 Instruction manual AQ S214 Alarm and Indication IED 65 (79) 8.3 DIGITAL OUTPUT MODULE DO5 The DO5 module is an add-on module for additional five (5) binary outputs. This module can be ordered directly as factory installed option or it can be field upgraded if needed after the first installation of the AQ-200 series IED. Connector SlotX 1 SlotX 2 SlotX 3 SlotX 4 SlotX 5 SlotX 6 SlotX 7 SlotX 8 SlotX 9 SlotX 10 Description OUTx + 1 first pole NO OUTx + 1 second pole NO OUTx + 2 first pole NO OUTx + 2 second pole NO OUTx + 3 first pole NO OUTx + 3 second pole NO OUTx + 4 first pole NO OUTx + 4 second pole NO OUTx + 5 first pole NO OUTx + 5 second pole NO Figure DO5 Binary output module for five add-on binary outputs. Properties of this binary input module provided inputs are exactly the same than inputs in the CPU-module. Binary outputs control can be settable from the software. As a standard binary outputs are controlled in 5 ms program cycle. All output contacts are mechanical type. Rated voltage of the NO/CO outputs is 250VAC/DC. Naming convention of the binary outputs provided by this module is presented in the chapter 6 Construction and installation. For further details refer to the Technical data section of this document.

66 Instruction manual AQ S214 Alarm and Indication IED 66 (79) 8.4 RTD & MA INPUT MODULE (OPTION) The RTD/mA module is an add-on module for 8 RTD inputs. Each input supports 2-wire, 3-wire and 4-wire RTDs and thermocouple sensors. Sensor type can be selected by software for two 4 channel groups. Supported RTD sensors: Pt100, Pt1000 Supported Thermocouple: Type K, Type J, Type T and Type S Two ma-input channels are available in the option card. If ma-input channels are used only the four first channels are available for RTD and TC measurements. Figure RTD module with 8 RTD channels, 8 thermocouple channels (TC) and 2 ma input channels.

67 Instruction manual AQ S214 Alarm and Indication IED 67 (79) Figure 8-2 Connection of different sensor types.

68 Instruction manual AQ S214 Alarm and Indication IED 68 (79) 8.5 SERIAL RS232 & SERIAL FIBER MODULE (OPTION) Option card includes two serial communication interfaces. COM E is a serial fiber interface with glass/plastic option. COM F is a RS-232 interface. COM E Serial fiber Serial based communications (GG/PP/GP/PG) COM F Pin1 GND (for+24vinput) Optional external auxiliary voltage for serial fiber COM F Pin2 - Optional external auxiliary voltage for serial fiber COM F Pin3 - - COM F Pin4 - - COM F Pin5 RS-232 RTS Serial based communications COM F Pin6 RS-232 GND Serial based communications COM F Pin7 RS-232 TX Serial based communications COM F Pin8 RS-232 RX Serial based communications COM F Pin9 - - COM F Pin V output (spare) Spare power source for external equipment (45mA) COM F Pin11 Clock sync input Clock synchronization input COM F Pin12 Clock sync GND Clock synchronization input Figure AQ-2xx Serial RS232-card connectors

69 Instruction manual AQ S214 Alarm and Indication IED 69 (79) 8.6 DOUBLE LC 100 MB ETHERNET MODULE (OPTION) Optional LC 100 MB Ethernet card supports HSR and PRP protocols according to IEC substation communication standard. Card has IEEE1588 (PIP) clock sync functionality. Card has two PRP/HSR ports which are 100Mbit fiber ports and can be configured to 100Mbit or 10 Mbit. Connector Description COM C : Communication port C, LC fiber connector. 62.5/100mm or 50/125mm multimode. Wavelength 1300nm COM D : Communication port D, LC fiber connector. 62.5/100mm or 50/125mm multimode Wavelength 1300nm Figure AQ-2xx LC 100 MB Ethernet card connectors

70 Instruction manual AQ S214 Alarm and Indication IED 70 (79) 8.7 INSTALLATION AND DIMENSIONS AQ-2xx IED can be installed either to standard 19 rack or cut-out to a switchgear panel (Installation type of the device has to be defined by ordering option). When installing to rack, the device will take ¼ of the rack width and total of four devices can be installed to same rack in parallel. In below is described the device panel installation and cut-outs. Figure Dimensions of the AQ-2xx IED. Figure Installation of the AQ-2xx IED

71 Instruction manual AQ S214 Alarm and Indication IED 71 (79) Figure Panel cut-out and spacing of the AQ-2xx IED.