Page 1 AQ-S214 Alarm and Indication device Instruction manual...
Page 2: Table Of Contents
3.6 Monitoring menu........................33 3.7 Configuring user levels and their passwords................. 37 4 Functions unctions ...................................................... 40 4.1 Functions included in AQ-S214.................... 40 4.2 General menu........................40 4.3 Alarming function......................... 42 4.4 Control functions ......................... 51 4.4.1 Setting group selection ....................51 4.4.2 Object control and monitoring..................
Page 3 A A Q Q -S214 -S214 Instruction manual Version: 2.09 6.1 Connections of AQ-S214....................112 7 Construction and installa 7 Construction and installation tion ........................................115 7.1 Construction........................115 7.2 CPU module ........................117 7.3 Option cards........................120 7.3.1 Digital input module (optional).................. 120 7.3.2 Digital output module (optional) ................
Page 4 Nothing contained in this document shall increase the liability or extend the warranty obligations of the manufacturer Arcteq Relays Ltd. The manufacturer expressly disclaims any and all liability for any damages and/or losses caused due to a failure to comply with the instructions contained herein or caused by persons who do not fulfil the aforementioned requirements.
Page 5: Document Inf
- Order codes revised. - Added double ST 100 Mbps Ethernet communication module and Double RJ45 10/100 Mbps Ethernet communication module descriptions Revision 2.02 Date 7.7.2020 Changes - A number of image descriptions improved. Revision 2.03 Date 27.8.2020 © Arcteq Relays Ltd IM00033...
Page 6 - Improvements to many drawings and formula images. - Improved and updated device user interface display images. - AQ-S214 Functions included list Added: Indicator objects. - Added inches to Dimensions and installation chapter. - Added raising frames, wall mounting bracket, combiflex frame to order code.
Page 7: Version 1 Revision Notes
Revision 2.09 Date 14.3.2023 - Updated the Arcteq logo on the cover page and refined the manual's visual look. - Added the "Safety information" chapter and changed the notes throughout the document accordingly. - Changed the "IED user interface" chapter's title to "Device user interface" and replaced all 'IED' terms with 'device' or 'unit'.
Page 8: Safety Information
W W ARNING! ARNING! "Warning" messages indicate a potentially hazardous situation which, if not avoided, could could result in death or serious personal injury as well as serious damage to equipment/property. © Arcteq Relays Ltd IM00033...
Page 9: Abbreviations
DI – Digital input DO – Digital output DOL – Direct-on-line DR – Disturbance recorder DT – Definite time FF – Fundamental frequency FFT – Fast Fourier transform FTP – File Transfer Protocol GI – General interrogation © Arcteq Relays Ltd IM00033...
Page 10 SG – Setting group SOTF – Switch-on-to-fault SW – Software THD – Total harmonic distortion TRMS – True root mean square VT – Voltage transformer VTM – Voltage transformer module VTS – Voltage transformer supervision © Arcteq Relays Ltd IM00033...
Page 11: General
Version: 2.09 2 General The AQ-S214 alarm and indication unit is a member of the AQ 200 product line. The hardware and software are modular: the hardware modules are assembled and configured according to the application's I/O requirements and the software determines the available functions. This manual describes the specific application of the AQ-S214 alarm and indication unit.
Page 12: Device User Int Vice User Interface Erface
5. Eight (8) buttons for device local programming: the four navigation arrows and the E E nt nter er button in the middle, as well as the Home Home, the Back Back and the password activation buttons. 6. One (1) RJ-45 Ethernet port for device configuration. © Arcteq Relays Ltd IM00033...
Page 13: Mimic And Main Menu
Please note that the available quick display carousel view might be different if you have changed the view with AQtivate's Carousel Designer tool. Figure. 3.2.1 - 2. Basic navigation for AQ-S214. © Arcteq Relays Ltd IM00033...
Page 14: Navigation In The Main Configuration Menus
Home button switches between the quick display carousel and the main display with the five (5) main configuration menus. The AQ-S214 alarm and indication device has the following five configuration menus: General , Control, Communication , Transducers and Monitoring . You can switch between these menus by using the four navigational arrow keys and confirming your selection with the E E nt nter er button in the middle.
Page 15 Table. 3.3 - 3. Parameters and indications in the General menu. Name Range Step Default Description Device name Unitname The file name uses these fields when loading the .aqs configuration file from the AQ-200 Device location Unitlocation unit. © Arcteq Relays Ltd IM00033...
Page 16 When a reset command is given, the 1: Reset parameter automatically returns back to "-". Enables the measurement recorder tool, 0: Disabled Measurement recorder 0: Disabled further configured in Tools → Misc → 1: Enabled Measurement recorder. © Arcteq Relays Ltd IM00033...
Page 17 1: Fixed screen Function comments Function comments displays notes of each function that has been activated in the Protection, Control and Monitoring menu. Function notes can be edited by the user. Figure. 3.3 - 6. Function comments. © Arcteq Relays Ltd IM00033...
Page 18: Control Menu
In this submenu you can also activate and disable controllable objects. As with control functions, all objects are disabled by default. All activated objects can be viewed in the Objects submenu (see the section "Objects" below for more information). © Arcteq Relays Ltd IM00033...
Page 19 Setting group 1 (SG1) has the highest priority, while Setting group 8 (SG8) has the lowest priority. Setting groups can be controlled with pulses or with both pulses and static signals (see the image below). Figure. 3.4 - 10. Example of setting group (SG) changing. © Arcteq Relays Ltd IM00033...
Page 20 Controls → Controls enabled submenu. Each active object has four sections in their submenus: "Settings", "Application control" ("App contr"), "Registers" and "Events". These are described in further detail below. Figure. 3.4 - 12. Settings section. © Arcteq Relays Ltd IM00033...
Page 21 By default, the access level is set to "Configurator". • You can use digital inputs to control the object locally or remotely. Remote controlling via the bus is configured on the protocol level. © Arcteq Relays Ltd IM00033...
Page 22 Object blocking is done in the "Blocking input control" subsection. It can be done by any of the following: digital inputs, logical inputs or outputs, object status information as well as stage starts, trips or blocks. Figure. 3.4 - 14. Registers section. © Arcteq Relays Ltd IM00033...
Page 23 In the image series below, the user has activated three control functions. The user accesses the list of activated control stages through the "Control functions" module, and selects the control function for further inspection. Figure. 3.4 - 16. Control functions submenu. © Arcteq Relays Ltd IM00033...
Page 24 While the function is activated and disabled in the Control → Controls enabled submenu, you can disable the function through the "Info" section (the [function name] mode at the top of the section). Figure. 3.4 - 18. Settings section. © Arcteq Relays Ltd IM00033...
Page 25 Data included in the register depend on the control function. You can clear the the operation register by choosing "Clear registers" → "Clear". "General event register" stores the event generated by the stage. These general event registers cannot be cleared. © Arcteq Relays Ltd IM00033...
Page 26 "Blocking input control" allows you to block stages. The blocking can be done by using any of the following: • digital inputs. • logical inputs or outputs. • the START, TRIP or BLOCKED information of another protection stage. • object status information. © Arcteq Relays Ltd IM00033...
Page 27 Mimic Indicator", "Logic signals" and "GOOSE matrix". Please note that digital inputs, logic outputs, protection stage status signals (START, TRIP, BLOCKED, etc.) as well as object status signals can be connected to an output relay or to LEDs in the "Device I/O matrix" section. © Arcteq Relays Ltd IM00033...
Page 28 "Event masks" subsection you can determine which events are masked –and therefore recorded into the event history– and which are not. Figure. 3.4 - 24. Digital outputs section. All settings related to digital outputs can be found in the "Digital outputs" section. © Arcteq Relays Ltd IM00033...
Page 29 LED quick displays and the matrices. You can also modify the color of the LED ("LED color settings") between green and yellow; by default all LEDs are green. © Arcteq Relays Ltd IM00033...
Page 30 These signals can be used in a variety of situations, such as for controlling the logic program, for function blocking, etc. You can name each switch and set the access level to determine who can control the switch. © Arcteq Relays Ltd IM00033...
Page 31 Logical output signals can be used as the end result of a logic that has been built in the AQtivate 200 setting tool. The end result can then be connected to a digital output or a LED in the matrix, block functions and much more. © Arcteq Relays Ltd IM00033...
Page 32: Communication Menu
Communication → Connections submenu. As a standard, the devices support the following communication protocols: • NTP • IEC 61850 • Modbus/TCP • Modbus/RTU • IEC-103 • IEC -101/104 • SPA • DNP3 • ModbusIO. © Arcteq Relays Ltd IM00033...
Page 33 When communicating with a device via the front Ethernet port connection, the IP address is always 192.168.66.9. SERIAL COM1 & COM2 SERIAL COM1 & COM2 SERIAL COM1 and SERIAL COM2 are reserved for serial communication option cards. They have the same settings as the RS-485 port. © Arcteq Relays Ltd IM00033...
Page 34: Monitoring Menu
( Monitors enabled ), setting the various monitoring functions ( Monitor functions ), controlling the disturbance recorder ( Disturbance REC ) and accessing the device diagnostics ( Device diagnostics ). The available monitoring functions depend on the type of the device in use. © Arcteq Relays Ltd IM00033...
Page 35 You can activate the selected monitor functions in the Monitors enabled submenu. By default all the control functions are disabled. All activated functions can be viewed in the Monitor functions submenu (see the section "Monitor functions" below for more information). © Arcteq Relays Ltd IM00033...
Page 36 The Disturbance recorder submenu has the following settings: • "Recorder enabled" enables or disables the recorder. • "Recorder status" indicates the status of the recorder. • "Clear record" records the chosen record in the memory. © Arcteq Relays Ltd IM00033...
Page 37 • "Rec. digital channels" is a long list of the possible digital channels that can be recorded (including primary and secondary amplitudes and currents, calculated signals, TRMS values, sequence components, inputs and outputs, etc.). © Arcteq Relays Ltd IM00033...
Page 38: Configuring User Levels And Their Passwords
The different user levels and their star indicators are as follows (also, see the image below for the HMI view): • Super user (***) • Configurator (**) • Operator (*) • User ( - ) © Arcteq Relays Ltd IM00033...
Page 39 • Configurator: Can change most settings such as basic protection pick-up levels or time delays, breaker control functions, signal descriptions etc. and can operate breakers and other equipment. • Super user: Can change any setting and can operate breakers and other equipment. © Arcteq Relays Ltd IM00033...
Page 40 -S214 3 Device user interface Instruction manual 3.7 Configuring user levels and their passwords Version: 2.09 NOTICE! TICE! Any user level with a password automatically locks itself after half an hour (30 minutes) of inactivity. © Arcteq Relays Ltd IM00033...
Page 41: Functions Unctions
Instruction manual Version: 2.09 4 Functions 4.1 Functions included in AQ-S214 The AQ-S214 alarm and indication device includes the following functions as well as the number of stages in those functions. Table. 4.1 - 4. Alarming functions of AQ-S214. Name...
Page 42 Ethernet connecting with AQtivate software. card 0: - Clear events 0: - Clears the event history recorded in the AQ-200 device. 1: Clear LCD Contrast 0…255 Changes the contrast of the LCD display. © Arcteq Relays Ltd IM00033...
Page 43: Alarming Function
Signal set to this point can be used for resetting latest recorded fault register. 4.3 Alarming function Signal alarming is the main feature of AQ-S214 Alarming devices. The alarming unit has 64 alarms the user can set. The user defines each alarm description and activating signal. These settings are controlled in the Alarm settings menu ( Control →...
Page 44 Alarms view in the device's HMI. Active alarms are displayed in the Alarms display with a continuously lit LED. A deactivated alarm text is displayed until the alarm has been cleared in the HMI. This kind of alarm is displayed with a blinking LED in the Alarms display. © Arcteq Relays Ltd IM00033...
Page 45 Digital Input 4 which is connected to CLEAR ALL ALARMS. After doing this in the logic editor, click Save and then update logic ( Commands → Write to relay → Logic ). © Arcteq Relays Ltd IM00033...
Page 46 Digital Input 2 is not yet deactivated. By the time the Ctrl Ctrl button is pushed a second time Digital Input 2 is deactivated and Alarm Text 2 is also cleared alongside its alarm LED. © Arcteq Relays Ltd IM00033...
Page 47 Buzzer activation and deactivation AQ-S214 and AQ-S254 Alarming devices do not have an integrated buzzer. However, if an alarming buzzer is needed it is possible to connect an exteral buzzer. It is activated by one of the output relays of the device.
Page 48 Alarm 11 OFF ALARM1 Alarm 12 ON ALARM1 Alarm 12 OFF ALARM1 Alarm 13 ON ALARM1 Alarm 13 OFF ALARM1 Alarm 14 ON ALARM1 Alarm 14 OFF ALARM1 Alarm 15 ON ALARM1 Alarm 15 OFF © Arcteq Relays Ltd IM00033...
Page 49 Alarm 27 ON ALARM1 Alarm 27 OFF ALARM1 Alarm 28 ON ALARM1 Alarm 28 OFF ALARM1 Alarm 29 ON ALARM1 Alarm 29 OFF ALARM1 Alarm 30 ON ALARM1 Alarm 30 OFF ALARM1 Alarm 31 ON © Arcteq Relays Ltd IM00033...
Page 50 Alarm 42 OFF ALARM2 Alarm 43 ON ALARM2 Alarm 43 OFF ALARM2 Alarm 44 ON ALARM2 Alarm 44 OFF ALARM2 Alarm 45 ON ALARM2 Alarm 45 OFF ALARM2 Alarm 46 ON ALARM2 Alarm 46 OFF © Arcteq Relays Ltd IM00033...
Page 51 Alarm 58 ON ALARM2 Alarm 58 OFF ALARM2 Alarm 59 ON ALARM2 Alarm 59 OFF ALARM2 Alarm 60 ON ALARM2 Alarm 60 OFF ALARM2 Alarm 61 ON ALARM2 Alarm 61 OFF ALARM2 Alarm 62 ON © Arcteq Relays Ltd IM00033...
Page 52: Control Functions
Control → Setting groups . When the forcing parameter is enabled, the automatic control of the local device is overridden and the full control of the setting groups is given to the user until the "Force SG change" is disabled again. © Arcteq Relays Ltd IM00033...
Page 53 5: SG5 ON after "Force SG" is disabled. If there are no other controls, the last set 6: SG6 setting group remains active. 7: SG7 8: SG8 © Arcteq Relays Ltd IM00033...
Page 54 The selection of Setting group 6 ("SG6"). Has the third lowest priority input in setting group control. group Can be controlled with pulses or static signals. If static signal control is applied, SG7 and SG8 requests will not be processed. © Arcteq Relays Ltd IM00033...
Page 55 Figure. 4.4.1 - 45. Setting group control – one-wire connection from Petersen coil status. Depending on the application's requirements, the setting group control can be applied either with a one-wire connection or with a two-wire connection by monitoring the state of the Petersen coil connection. © Arcteq Relays Ltd IM00033...
Page 56 Setting group 2 is active. This way, if the wire is broken for some reason, the setting group is always controlled to SG2. Figure. 4.4.1 - 46. Setting group control – two-wire connection from Petersen coil status. © Arcteq Relays Ltd IM00033...
Page 57 The application-controlled setting group change can also be applied entirely from the relay's internal logics. For example, the setting group change can be based on the cold load pick-up function (see the image below). © Arcteq Relays Ltd IM00033...
Page 58 The function does not have a register. Table. 4.4.1 - 15. Event messages. Event block name Event names SG2 Enabled SG2 Disabled SG3 Enabled SG3 Disabled SG4 Enabled SG4 Disabled © Arcteq Relays Ltd IM00033...
Page 59 Remote Change SG Request ON Remote Change SG Request OFF Local Change SG Request ON Local Change SG Request OFF Force Change SG ON Force Change SG OFF SG Request Fail Not configured SG ON © Arcteq Relays Ltd IM00033...
Page 60: Object Control And Monitoring
Manual remote control can be done through one of the various communication protocols available (Modbus, IEC101/103/104 etc.). The function supports the modes "Direct control" and "Select before execute" while controlled remotely. Automatic controlling can be done with functions like auto-reclosing function (ANSI 79). © Arcteq Relays Ltd IM00033...
Page 61 The following parameters help the user to define the object. The operation of the function varies based on these settings and the selected object type. The selected object type determines how much control is needed and which setting parameters are required to meet those needs. © Arcteq Relays Ltd IM00033...
Page 62 WDBad status is displayed when both status signals (in and out) 2: WDCart In status are active. If the selected object type is not set to "Withdrawable 3: WDBad circuit breaker", this setting displays the "No in use" option . 4: Not in use © Arcteq Relays Ltd IM00033...
Page 63 Functionalities Description Breaker cart position Circuit breaker position Circuit breaker control Withdrawable circuit Object ready check before The monitor and control configuration of the breaker closing breaker withdrawable circuit breaker. Synchrochecking before closing breaker Interlocks © Arcteq Relays Ltd IM00033...
Page 64 Objectx Open command The physical "Open" command pulse to the device's output ("Objectx Open relay. Command") OUT1…OUTx Objectx Close command The physical "Close" command pulse to the device's output ("Objectx Close relay. Command") © Arcteq Relays Ltd IM00033...
Page 65 The remote Open command from a physical digital Open control input input (e.g. RTU). Objectx Application The Close command from the application. Can be any Close logical signal. Objectx Application The Close command from the application. Can be any Open logical signal. © Arcteq Relays Ltd IM00033...
Page 66 Figure. 4.4.2 - 50. Example of an interlock application. In order for the blocking signal to be received on time, it has to reach the function 5 ms before the control command. © Arcteq Relays Ltd IM00033...
Page 67 Close Command On OBJ1...OBJ10 Close Command Off OBJ1...OBJ10 Open Blocked On OBJ1...OBJ10 Open Blocked Off OBJ1...OBJ10 Close Blocked On OBJ1...OBJ10 Close Blocked Off OBJ1...OBJ10 Object Ready OBJ1...OBJ10 Object Not Ready OBJ1...OBJ10 Sync Ok OBJ1...OBJ10 Sync Not Ok © Arcteq Relays Ltd IM00033...
Page 68 The cause of an "Open" command's failure. Close fail The cause of a "Close" command's failure. Open command The source of an "Open" command. Close command The source of an "Open" command. General status The general status of the function. © Arcteq Relays Ltd IM00033...
Page 69: Indicator Object Monitoring
Close input A link to a physical digital input. The monitored indicator's signal selected by the user ("Ind.X CLOSE status. "1" refers to the active "Close" state of the monitored Close indicator. (SWx) Status In") © Arcteq Relays Ltd IM00033...
Page 70: Milliampere Output Control
3 and 4 Enable mA output channels 5 and 6 mA option Enables and disables the outputs of the mA Disabled card 2 Disabled output card 2. 1: Enabled Enable mA output channels 7 and 8 © Arcteq Relays Ltd IM00033...
Page 71 The mA output value when the measured value mA output 0.0000…24.0000mA 0.0001mA 0mA is equal to or greater than Input value 2. value 2 Figure. 4.4.4 - 51. Example of the effects of mA output channel settings. © Arcteq Relays Ltd IM00033...
Page 72: Programmable Control Switch
(see the image below). The switch cannot be controlled by an auxiliary input, such as digital inputs or logic signals; it can only be controlled locally (mimic) or remotely (RTU). Settings. These settings can be accessed at Control → Device I/O → Programmable control switch . © Arcteq Relays Ltd IM00033...
Page 73: Analog Input Scaling Curves
Currently following measurements can be scaled with analog input scaling curves: • RTD inputs and mA inputs in "RTD & mA input" option cards • mA inputs in "mA output & mA input" option cards • Digital input voltages © Arcteq Relays Ltd IM00033...
Page 74 For example, the value for the filter time constant is 2 seconds for a 1 second period time of a disturbance oscillation. © Arcteq Relays Ltd IM00033...
Page 75: Logical Outputs
32 logical outputs are available. The figure below presents a logic output example where a signal from the circuit breaker failure protection function controls the digital output relay number 5 ("OUT5") when the circuit breaker's cart status is "In". © Arcteq Relays Ltd IM00033...
Page 76: Logical Inputs
"0" or until the device is rebooted. When a logical input which has been set to "Pulse" mode is controlled to "1", the input will switch to status "1" and return back to "0" after 5 ms. © Arcteq Relays Ltd IM00033...
Page 77 Figure. 4.4.8 - 54. Extending a logical input pulse. Logical input descriptions Logical inputs can be given a description. The user defined description are displayed in most of the menus: • logic editor • matrix • block settings • • • etc. © Arcteq Relays Ltd IM00033...
Page 78: Monitoring Functions
(CT card 2) IL2” Phase current I (CT card 2) IL3” I01”c Residual current I coarse* (CT card 2) Residual current I fine* (CT card 2) I01”f I02”c Residual current I coarse* (CT card 2) © Arcteq Relays Ltd IM00033...
Page 79 A fine signal is capable of sampling at very low currents and with high accuracy but cuts off at higher currents. Table below lists performance of both channels with fine and coarse gain. © Arcteq Relays Ltd IM00033...
Page 80 Phase current TRMS Phase-to-phase current ILx (IL1, Pha.curr.ILx TRMS P-P curr.ILx ILx (IL1, IL2, IL3) IL2, IL3) Secondary phase Pha.curr.ILx TRMS Phase-to-phase current I0x (I01, current TRMS (IL1, P-P curr.I0x I02) IL2, IL3) Voltages © Arcteq Relays Ltd IM00033...
Page 81 Current p.u. Current Pri. I0x (I01, I02) unit values Positive sequence Pos.Seq. Reactive I0x Residual Reactive Primary residual reactive current reactive current in per- Current p.u. Current Pri. I0x (I01, I02) unit values © Arcteq Relays Ltd IM00033...
Page 82 Display (when not conductance G frequency is not measurable, this conductance measurable is 0 Hz) (Pri) will show "0 Hz". Neutral Primary neutral susceptance B f meas qlty Quality of tracked frequency susceptance (Pri) © Arcteq Relays Ltd IM00033...
Page 83 Phase rotating order at the moment. MBIO ModB Channel 1...8 of MBIO Mod control 0=A-B-C, 1=A- If true ("1") the phase order is Ch x Invalid C is invalid reversed. NOTICE! TICE! Digital channels are measured every 5 ms. © Arcteq Relays Ltd IM00033...
Page 84 Displays the highest pre-triggering time that can be set 0.000...1800.000s 0.001s - the pre- with the settings currently in use. trigger Recordings 0…100 Displays how many recordings are stored in the memory. in memory © Arcteq Relays Ltd IM00033...
Page 85 The disturbance recorder is not ready unless the "Max. length of a recording" parameter is showing some value other than zero. At least one trigger input has to be selected in the "Recorder Trigger" setting to fulfill this term. © Arcteq Relays Ltd IM00033...
Page 86 The recorder is configured by using the setting tool software or relay HMI, and the results are analyzed with the AQviewer software (is automatically downloaded and installed with AQtivate). Registered users can download the latest tools from the Arcteq website (arcteq.fi./downloads/).
Page 87 ) . Alternatively, the user can load the recordings individually ( Disturbance recorder → DR List ) from a folder in the PC's hard disk drive; the exact location of the folder is described in Tools → Settings → DR path . © Arcteq Relays Ltd IM00033...
Page 88: Event Logger
Version: 2.09 The user can also launch the AQviewer software from the Disturbance recorder menu. AQviewer software instructions can be found in AQtivate 200 Instruction manual (arcteq.fi./downloads/). Events The disturbance recorder function (abbreviated "DR" in event block names) generates events and registers from the status changes of the function: the recorder generates an event each time it is triggered (manually or by dedicated signals).
Page 89: Measurement Recorder
The setting tool estimates the maximum recording time, which depends on the recording interval. When the measurement recorder is running, the measurements can be viewed in graph form with the AQtivate PRO software (see the image below). © Arcteq Relays Ltd IM00033...
Page 90 V V olta oltage mea ge measur surements ements L2 Imp.React.Cap.E.Mvarh Res.Curr.I01 TRMS Pri U1Volt Pri L2 Imp.React.Cap.E.kvarh Res.Curr.I02 TRMS Pri U2Volt Pri L2 Exp/Imp React.Cap.E.bal.Mvarh Sec.Pha.Curr.IL1 U3Volt Pri L2 Exp/Imp React.Cap.E.bal.kvarh Sec.Pha.Curr.IL2 U4Volt Pri L2 Exp.React.Ind.E.Mvarh © Arcteq Relays Ltd IM00033...
Page 91 Neg.Seq.Volt. p.u. Exp/Imp Act. E balance MWh Pha.L3 ampl. THD Zero.Seq.Volt. p.u. Exp/Imp Act. E balance kWh Pha.L1 pow. THD U1Volt Angle Exp.React.Cap.E.Mvarh Pha.L2 pow. THD U2Volt Angle Exp.React.Cap.E.kvarh Pha.L3 pow. THD U3Volt Angle Imp.React.Cap.E.Mvarh © Arcteq Relays Ltd IM00033...
Page 92 S2 Measurement I” Pri.Neg.Seq.Curr. System Volt UL31 ang S3 Measurement I” Pri.Zero.Seq.Curr. System Volt UL1 ang S4 Measurement Res.Curr.I”01 TRMS Pri System Volt UL2 ang S5 Measurement Res.Curr.I”02 TRMS Pri System Volt UL3 ang S6 Measurement © Arcteq Relays Ltd IM00033...
Page 93 L1 Exp.Active Energy kWh Curve1 Input Pha.IL”2 ampl. THD L1 Imp.Active Energy MWh Curve1 Output Pha.IL”3 ampl. THD L1 Imp.Active Energy kWh Curve2 Input Pha.IL”1 pow. THD L1 Exp/Imp Act. E balance MWh Curve2 Output © Arcteq Relays Ltd IM00033...
Page 94 Res.I”01 pow. THD L1 Imp.React.Cap.E.Mvarh Curve4 Output Res.I”02 ampl. THD L1 Imp.React.Cap.E.kvarh Control mode Res.I”02 pow. THD L1 Exp/Imp React.Cap.E.bal.Mvarh Motor status P-P Curr.I”L1 L1 Exp/Imp React.Cap.E.bal.kvarh Active setting group P-P Curr.I”L2 L1 Exp.React.Ind.E.Mvarh L1 Exp.React.Ind.E.kvarh © Arcteq Relays Ltd IM00033...
Page 95: Communica A Tion
Ethernet and the Virtual Ethernet. Table. 5.1 - 46. Virtual Ethernet settings. Name Description Enable virtual adapter (No / Yes) Enable virtual adapter. Off by default. IP address Set IP address of the virtual adapter. © Arcteq Relays Ltd IM00033...
Page 96 Paritybits used by serial fiber channels. 2: Odd Stopbits 1...2 Stopbits used by serial fiber channels. 0: None 1: ModbutRTU 2: ModbusIO Protocol 3: IEC103 Communication protocol used by serial fiber channels. 4: SPA 5: DNP3 6: IEC101 © Arcteq Relays Ltd IM00033...
Page 97: Time Synchronization
Commands → Sync Time command or in the clock view from the HMI. When using Sync time command AQtivate sets the time to device the connected computer is currently using. Please note that the clock doesn't run when the device is powered off. © Arcteq Relays Ltd IM00033...
Page 98: Ntp
A unique IP address must be reserved for the NTP client. The relay's IP address cannot be used. Additionally, the time zone of the relay can be set by connecting to the relay and the selecting the time zone at Commands → Set time zone in AQtivate setting tool. © Arcteq Relays Ltd IM00033...
Page 99: Communication Protocols
AQ-25x frame units support both Edition 1 and 2 of IEC 61850. The following services are supported by IEC 61850 in Arcteq devices: • Up to six data sets (predefined data sets can be edited with the IEC 61850 tool in AQtivate) •...
Page 100: Goose
→ AQ 200 series → Resources). 5.3.1.1 GOOSE Arcteq relays support both GOOSE publisher and GOOSE subscriber. GOOSE subscriber is enabled with the "GOOSE subscriber enable" parameter at Communication → Protocols → IEC 61850/ GOOSE. The GOOSE inputs are configured using either the local HMI or the AQtivate software.
Page 101 GOOSE signals generate events from status changes. The user can select which event messages are stored in the main event buffer: ON, OFF, or both. The events triggered by the function are recorded with a time stamp and with process data values. The time stamp resolution is 1 ms. © Arcteq Relays Ltd IM00033...
Page 102: Modbus/Tcp And Modbus/Rtu
0: Get oldest event possible (Default) Event read 1: Continue previous 1: Continue with the event idx from previous connection mode connection 2: Get only new events from connection time and forward. 2: New events only © Arcteq Relays Ltd IM00033...
Page 103: Iec 103
IEC 104 protocol uses Ethernet communication. The IEC 101/104 implementation works as a slave in the unbalanced mode. For detailed information please refer to the IEC 101/104 interoperability document (www.arcteq.fi/ downloads/ → AQ-200 series → Resources → "AQ-200 IEC101 & IEC104 interoperability"). © Arcteq Relays Ltd IM00033...
Page 104 Test (t3) frame is sent at an interval specified here. Measurement scaling coefficients The measurement scaling coefficients are available for the following measurements, in addition to the general measurement scaling coefficient: © Arcteq Relays Ltd IM00033...
Page 105 Determines the data reporting deadband power deadband settings for this measurement. Power factor deadband 0.01…0.99 0.01 0.05 Frequency deadband 0.01…1.00Hz 0.01Hz 0.1Hz Current deadband 0.01…50.00A 0.01A Residual 0.01…50.00A 0.01A 0.2A current deadband Voltage deadband 0.01…5000.00V 0.01V 200V © Arcteq Relays Ltd IM00033...
Page 106: Spa
DNP3 slave is compliant with the DNP3 subset (level) 2, but it also contains some functionalities of the higher levels. For detailed information please refer to the DNP3 Device Profile document (www.arcteq.fi/downloads/ → AQ-200 series → Resources). Settings The following table describes the DNP3 setting parameters. © Arcteq Relays Ltd IM00033...
Page 107 Selects the variation of the double point signal. 1: Var 2 0: Var 1 1: Var 2 Group 20 variation (CNTR) 0: Var 1 Selects the variation of the control signal. 2: Var 5 3: Var 6 © Arcteq Relays Ltd IM00033...
Page 108 0.01V 200V voltage deadband Angle 0.1…5.0deg 0.1deg 1deg measurement deadband Determines the integration time of the Integration time 0…10 000ms protocol. If this parameter is set to "0 ms", no integration time is in use. © Arcteq Relays Ltd IM00033...
Page 109: Modbus I/O
These values can be read in two ways: locally from this same menu, or through a communication protocol if one is in use. The following table presents the setting parameters available for the 12 channels. © Arcteq Relays Ltd IM00033...
Page 110: Real-Time Measurements To Communication
, harmonic 17 , harmonic 19 harmonic h., 13 h., 15 h., 17 h., 19 current. Positive sequence current, negative sequence current and zero sequence I1, I2, I0Z current. I0CalcMag Residual current calculated from phase currents. © Arcteq Relays Ltd IM00033...
Page 111 Rseq, Xseq, Zseq Positive sequence resistance, reactance and impedance values and RseqAng, XseqAng, ZseqAng angles. GL1, GL2, GL3, G0 BL1, BL2, BL3, B0 Conductances, susceptances and admittances. YL1, YL2, YL3, Y0 YL1angle, YL2angle, YL3angle, Admittance angles. Y0angle © Arcteq Relays Ltd IM00033...
Page 112 Displays the measured value of the selected magnitude of the selected slot. -10 000 000.000…10 000 Magnitude X 0.001 - The unit depends on the selected 000.000 magnitude (either amperes, volts, or per- unit values). © Arcteq Relays Ltd IM00033...
Page 113: Connections Of Aq-S214
6 Connections and application examples A A Q Q -S214 -S214 6.1 Connections of AQ-S214 Instruction manual Version: 2.09 6 Connections and application examples 6.1 Connections of AQ-S214 Figure. 6.1 - 58. AQ-S214 variant without add-on modules. © Arcteq Relays Ltd IM00033...
Page 114 A A Q Q -S214 -S214 6 Connections and application examples Instruction manual 6.1 Connections of AQ-S214 Version: 2.09 Figure. 6.1 - 59. AQ-S214 variant with digital input and output modules. © Arcteq Relays Ltd IM00033...
Page 115 6 Connections and application examples A A Q Q -S214 -S214 6.1 Connections of AQ-S214 Instruction manual Version: 2.09 Figure. 6.1 - 60. AQ-S214 application example. © Arcteq Relays Ltd IM00033...
Page 116: Construction And Installation Tion
In field upgrades, therefore, add-on modules must be ordered from Arcteq Relays Ltd. or its representative who can then provide the module with its corresponding unlocking code to allow the device to operate correctly once the hardware configuration has been upgraded.
Page 117 "OUT11", "OUT12", "OUT13", "OUT14" and "OUT15" to this slot. 4. Scan A similar operation to Scan 3 (checks which designations have been reserved by modules in previous slots and numbers the new ones accordingly). © Arcteq Relays Ltd IM00033...
Page 118: Cpu Module
(DO1…DO5) in the CPU module, and the rest in Slots E…F in groups of five. These same principles apply to all non-standard configurations in the AQ-X214 devices. 7.2 CPU module Figure. 7.2 - 63. CPU module. © Arcteq Relays Ltd IM00033...
Page 119 The auxiliary voltage is defined in the ordering code: the available power supply models available are A (80…265 VAC/DC) and B (18…75 DC). For further details, please refer to the "Auxiliary voltage" chapter in the "Technical data" section of this document. © Arcteq Relays Ltd IM00033...
Page 120 0…15 milliseconds in theory and 2…13 milliseconds in practice. Please note that the mechanical delay of the relay is no not t included in these approximations. © Arcteq Relays Ltd IM00033...
Page 121: Option Cards
1 V. All digital inputs are scannced in 5 ms program cycles, and their pick-up and release delays as well as their NO/NC selection can be set with software. © Arcteq Relays Ltd IM00033...
Page 122 (NC) defines whether or not the digital input is considered activated when the digital input channel is energized. The diagram below depicts the digital input states when the input channels are energized and de- energized. © Arcteq Relays Ltd IM00033...
Page 123 Control → Device IO → Digital inputs → Digital input voltages . Table. 7.3.1 - 78. Digital input channel voltage measurement. Name Range Step Description DIx Voltage now 0.000...275.000 V 0.001 V Voltage measurement of a digital input channel. © Arcteq Relays Ltd IM00033...
Page 124: Digital Output Module (Optional)
For technical details please refer to the chapter titled "Digital output module" in the "Technical data" section of this document. Digital output descriptions Option card outputs can be given a description. The user defined description are displayed in most of the menus: • logic editor • matrix © Arcteq Relays Ltd IM00033...
Page 125: Rtd Input Module (Optional)
The RTD input module is an add-on module with eight (8) RTD input channels. Each input supports 2-wire, 3-wire and 4-wire RTD sensors. The sensor type can be selected with software for two groups, four channels each. The card supports Pt100 and Pt1000 sensors © Arcteq Relays Ltd IM00033...
Page 126: Serial Rs-232 Communication Module (Optional)
Description • Serial-based communications • Wavelength 660 nm Serial fiber (GG/PP/ COM E • Compatible with 50/125 μm, 62.5/125 μm, 100/140 μm, and 200 μm GP/PG) Plastic-Clad Silica (PCS) fiber • Compatible with ST connectors © Arcteq Relays Ltd IM00033...
Page 127 COM F – Clock sync GND Clock synchronization input Pin 12 The option card includes two serial communication interfaces: COM E is a serial fiber interface with glass/plastic option, COM F is an RS-232 interface. © Arcteq Relays Ltd IM00033...
Page 128: Lc Or Rj45 100 Mbps Ethernet Communication Module (Optional)
• Communication port D, 100 Mbps LC fiber connector. • RJ-45 connectors COM D: • 62.5/125 μm or 50/125 μm multimode (glass). • 10BASE-T and 100BASE-TX • Wavelength 1300 nm. Both cards support both HSR and PRP protocols. © Arcteq Relays Ltd IM00033...
Page 129: Double St 100 Mbps Ethernet Communication Module (Optional)
For other redundancy options, please refer to the option card "LC 100 Mbps Ethernet communication module". The images below present two example configurations: the first displays a ring configuration (note how the third party devices are connected in a separate ring), while the second displays a multidrop configuration. © Arcteq Relays Ltd IM00033...
Page 130 A A Q Q -S214 -S214 7 Construction and installation Instruction manual 7.3 Option cards Version: 2.09 Figure. 7.3.6 - 72. Example of a ring configuration. Figure. 7.3.6 - 73. Example of a multidrop configuration. © Arcteq Relays Ltd IM00033...
Page 131: Double Rj45 10/100 Mbps Ethernet Communication Module (Optional)
• Two Ethernet ports RJ-45 connectors • RJ-45 connectors • 10BASE-T and 100BASE-TX This option card supports multidrop configurations. For other redundancy options, please refer to the option card "LC 100 Mbps Ethernet communication module". © Arcteq Relays Ltd IM00033...
Page 132: Dimensions And Installation
(¼) of the rack's width, meaning that a total of four devices can be installed to the same rack next to one another. The figures below describe the device dimensions (first figure), the device installation (second), and the panel cutout dimensions and device spacing (third). Figure. 7.4 - 76. Device dimensions. © Arcteq Relays Ltd IM00033...
Page 133 7 Construction and installation A A Q Q -S214 -S214 7.4 Dimensions and installation Instruction manual Version: 2.09 Figure. 7.4 - 77. Device installation. © Arcteq Relays Ltd IM00033...
Page 134 A A Q Q -S214 -S214 7 Construction and installation Instruction manual 7.4 Dimensions and installation Version: 2.09 Figure. 7.4 - 78. Panel cutout dimensions and device spacing. © Arcteq Relays Ltd IM00033...
Page 135: Technic Echnical Da Al Data Ta
Table. 8.1.1.1 - 82. Power supply model B Rated values Rated auxiliary voltage 18…72 VDC < 7 W Power consumption < 15 W Maximum permitted interrupt time < 90 ms with 24 VDC DC ripple < 15 % © Arcteq Relays Ltd IM00033...
Page 136: Cpu Communication Ports
IEC 104 Modbus/TCP Port protocols DNP3 Telnet Data transfer rate 100 MB/s System integration Can be used for system protocols and for local programming Table. 8.1.1.2 - 85. Rear panel system communication port B. Port © Arcteq Relays Ltd IM00033...
Page 137: Cpu Digital Inputs
Phoenix Contact MSTB 2,5/5-ST-5,08 Solid or stranded wire 2.5 mm Maximum wire diameter 8.1.1.4 CPU digital outputs Table. 8.1.1.4 - 87. Digital outputs (Normally Open) Rated values Rated auxiliary voltage 265 V (AC/DC) Continuous carry © Arcteq Relays Ltd IM00033...
Page 138: Option Cards
Terminal block Phoenix Contact MSTB 2,5/5-ST-5,08 Solid or stranded wire Maximum wire diameter 2.5 mm 8.1.2 Option cards 8.1.2.1 Digital input module Table. 8.1.2.1 - 89. Technical data for the digital input module. General information © Arcteq Relays Ltd IM00033...
Page 139: Digital Output Module
Make and carry 3 s 15 A Breaking capacity, DC (L/R = 40 ms) at 48 VDC at 110 VDC 0.4 A at 220 VDC 0.2 A Control rate 5 ms Settings Polarity Software settable: Normally On/Normally Off © Arcteq Relays Ltd IM00033...
Page 140: Rtd Input Module
PG Spare part code #SP-2XX-232PG GP Spare part code #SP-2XX-232GP GG Spare part code #SP-2XX-232GG Compatibility AQ-200 series & AQ-250 series models Ports RS-232 Serial fiber (GG/PP/GP/PG) Serial port wavelength 660 nm Cable type 1 mm plastic fiber © Arcteq Relays Ltd IM00033...
Page 141: Double Lc 100 Mbps Ethernet Communication Module
Connector type 62.5/125 μm or 50/125 μm multimode fiber 100BASE-FX Transmitter wavelength 1260…1360 nm (nominal: 1310 nm) Receiver wavelength 1100…1600 nm Maximum distance 2 km IRIG-B Connector Connector type Phoenix Contact MC 1,5/ 2-ST-3,5 BD:1-2 © Arcteq Relays Ltd IM00033...
Page 142: Display
Force change overrule of local controls either from the setting tool, HMI or SCADA Operation time Reaction time <5 ms from receiving the control signal 8.2.1.2 Object control and monitoring Table. 8.2.1.2 - 97. Technical data for the object control and monitoring function. General Number of objects © Arcteq Relays Ltd IM00033...
Page 143: Indicator Object Monitoring
Disconnector (GND) Signals Digital inputs Input signals Software signals 8.2.2 Monitoring functions 8.2.2.1 Disturbance recorder Table. 8.2.2.1 - 99. Technical data for the disturbance recorder function. Recorded values Recorder 0…20 channels analog channels Freely selectable © Arcteq Relays Ltd IM00033...
Page 144: Event Logger
Other inputs and outputs 4 kV, 5/50 ns, 5 kHz Surge: Between wires 2 kV, 1.2/50 µs EN 60255-26, IEC 61000-4-5 Between wire and earth 4 kV, 1.2/50 µs Radiated RF electromagnetic field: f = 80….1 000 MHz, 10 V/m EN 60255-26, IEC 61000-4-3 © Arcteq Relays Ltd IM00033...
Page 145 Operational: –20 °C, 16 h Table. 8.3 - 105. Environmental conditions. IP classes IP54 (front) Casing protection class IP21 (rear) Temperature ranges Ambient service temperature range –35…+70 °C Transport and storage temperature range –40…+70 °C © Arcteq Relays Ltd IM00033...
Page 146 Height: 117 mm (4U) Dimensions Width: 127 mm (¼ rack) Depth: 174 mm (no cards & connectors) Weight 1.5 kg With packaging (gross) Height: 170 mm Dimensions Width: 242 mm Depth: 219 mm Weight 2 kg © Arcteq Relays Ltd IM00033...
Page 147: Ordering Inf Dering Informa Ormation Tion
Accessories Order code der code Descrip Description tion Not t e e Manufact Manufactur urer er External 6-channel 2 or 3 wires RTD Input Requires an Advanced ADAM-4015-CE module, pre-configured external power module Co. Ltd. © Arcteq Relays Ltd IM00033...
Page 148 External 8-ch Thermocouple mA Input module, Requires an Advanced pre-configured external power module Co. Ltd. AQX033 Raising frame 87 mm Arcteq Ltd. AQX070 Raising frame 40 mm Arcteq Ltd. AQX069 Combiflex frame Arcteq Ltd. AQX097 Wall mounting bracket Arcteq Ltd. © Arcteq Relays Ltd IM00033...
Page 149: Contact And R Ence Informa Ormation Tion
Arcteq Relays Ltd. Visiting and postal address Kvartsikatu 2 A 1 65300 Vaasa, Finland Contacts Phone: +358 10 3221 370 Website: arcteq.fi Technical support: support.arcteq.fi +358 10 3221 388 (EET 9:00 – 17.00) E-mail (sales): sales@arcteq.fi © Arcteq Relays Ltd IM00033...

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