User Manual - Charter Controls
Contents
1. Type selection SLS FBR FBR extension module R Relay output C Central extension module D Decentral extension module 35 HIQUEL Solution SLS 86 Technical information SLS FBR Supply voltage Power consumption Operating temperature Storage temperature Inputs Di1 to Di4 Input resistance Outputs Do1 to Do4 Relay output Ue le AC 15 Ue le DC 13 Life Terminals Wiring Screw type Tightening torque 24VDC 10 0 5W 15 C to 55 C 50 to 90 rH not condensing 25 C to 70 C not condensing min 3kOhm 230VAC max 5A 120V 1 5A 240V 1A 24V 1A 1x10 mechanical 1x10 electrical max 2 x 1 5mm Pozidrive 1 1 0Nm 36 HIQUEL Solution SLS 86 Bus terminator SLS 86 BUS Description The bus terminator has to be installed on the last module in a decentral or partly decentral application Type selection SLS 86 BUS bus terminator RJ45 8 8 3 HIQUEL Solution SLS 86 Installation This chapter deals with the dimensions and the correct mounting of the SLS 86 and its extension modules Module size SLS 86 The SLS 86 module is 67 5mm wide 85mm high and 70mm deep and Suitable for mounting on a 35mm rail according to DIN EN 50022 2 Digita DI Solution N Sg 86 R L1 on S 10 Bus E 2 3 1 EJ i utput L2 Digital Output Fig Front view of the SLS 86 with dimensions 85 Fig2. True Door is not fully open and and otop button is not operated Reminder M1 Operate Door Open Close M2 Door Closed limit switch M3 Door Open limit switch M4 Stop button M5 see Fig13 on P40 Fig 8 Path 1 Fig 8 shows the result of the previous considerations You can easily prove this path Temporarily program any free output in series with the normally open contact of M5 parallel to NC contacts M3 amp M4 and Marker M5 to simulate the door motor Download the program to SLS 86 and operate the program see Step 11 on P72 for downloading instructions Once you are satisfied that the path operates as required delete the output you added and proceed to step 6 80 HIQUEL Solution SLS 86 Step 6 Create path 2 The close door path must now be considered When the door is open normally open contact M3 open limit switch will be closed Operating the Close Open input DI1 will close normally open contact M1 the circuit will be complete through normally closed contacts M2 M4 amp Mb therefore marker M6 will energise The normally open contact of M6 in parallel with contacts M3 amp M1 will latch M6 until any of the normally closed contacts M2 M4 or M5 open Fig 9 Path 2 You could stop here to prove your circuit as before if required Now the results of the paths will be used again first the timing function has to be considered In the tool bar click the relay sym
3. limit switch Di3 is active and the push button Di1 is pressed LJ When the stop push button Di4 is pressed the door has to stop instantly After releasing the stop push button the door is to roll down to the door closed limit switch and await for the next activation of the open door push button A step by step guide to programme the above specification follows Step 1 Create a project and define its name As a first step click create new project 74 HIQUEL Solution SLS 86 Fig 2 Start up window The hardware configuration menu opens Softwire PLUS Project 1 5WP Softwire PLUS Gleis al zelt Ele a ye fol As the module allocation is correct no extension modules are required please click OK to close the menu and open the work space 75 HIQUEL Solution SLS 86 When performing these steps a free work space and a file to store the project data is created If a different project name is required open the project menu and choose save as a window called save under will open Type the required name into the text line and click the button save Projekt speichern BS Speichen in C3 SoftwirePLUS amp Al e L Projekte a Project ISWP N Dateiname Project 3 3WP Speichern Dateityp RESI Project Files S WP Abbrechen Zi Fig 3 Save project Step 2 Place elements into the working space The project software dr
4. RTC 4 RIO LI RTC time function ranges Weekdays t Wochentage SchlieBer gt Kalendermochen Weekday Calendar Week M 1 Solution SLS 86 Tage Day Monate Month Jahre Year Datum Date Zeit Time Time functions of the real time clock can be integrated into the wiring diagram as normally open or normally closed contacts You can define the _ switching function as a point in time switch on at X time day date etc or as a time interval switch on between X and Y times days dates etc The switching time or time interval setting is selected in the output allocation dialogue Bezeichnung RTC C Zeitpunkt Zeitraum onday Sunday Calendar week 12 HIQUEL Connections Solution SLS 86 All program elements which are selected from the tool bar or from the menu and placed into the work space must be connected according to the relevant standards Each path has to be a complete circuit If the elements are not connected you will get a failure message Output program data dialogue Click the output data dialogue button in order to open the dialogue El Softwire PLUS x Real Time Clock Gee Schnittstelle CONI m ECH Daten senden Datum 27 06 01 14 41 27 Get Kalenderwoche 26 Wochentag Mittwoch Abbrechen Output data dialogue options Send data transmit data to the SL S 86 On starting the dialogue with an SLS 86 module conn
5. Rem function macros REM_STAR DELTA FEM PTC The RemPTC RemPT100 re RemPT1000 RemANALOG REM_PT1000 AU RemANALOG Al TEN And RemFBR macros are required if you use special extension modules of these types REM FBR REM AMALOG A 48 HIQUEL Solution SLS 86 Program elements Contact Normally open normally closed etc Host contact contact of field bus or other control system Relays outputs timers bistable function reset input ost relay output to field bus or other control system arker normal rising impulse falling impulse etc Counters ocal Starters SLS 86 Remote starter SLS Real time clock N O and N C contacts switching by days weeks months etc L ee Ege ine tool draw connection lines between program elements Cursor tool 49 HIQUEL Solution SLS 86 Description of the program elements The following chapter deals with the individual objects Normally closed contact This element indicates the inverted status on an input timer marker or a normally closed output contact By double clicking an object you will get to the allocation dialogue of the object to adjust allocation and description Normally open contact LI DJ R1 DiT SN Start This element indicates the status of an input timer marker or a normally close output contact 50 HIQUEL Solution SLS 86 Host switch The host switch function generally corresponds to The normally op
6. Side view of the SLS 86 38 HIQUEL Solution SLS 86 Module size SLS extension modules The SLS extension modules are 45mm wide 85mm high 70mm deep and suitable for mounting on a 35mm rail according to DIN EN 50022 Fig Front view of the SLS module with dimensions y 85 lt gt Fig Side view of the SLS extension module 39 HIQUEL Solution SLS 86 DIN rail mounting A S u B Fig mounting of the SLS 86 and the SLS module on the 35mm rail When mounting the SLS 86 on DIN rail attach the module on the top first A and then fix it by levering open the spring clip with a screw driver and easing back onto the rail B Advice Please use a suitable Pozidrive screwdriver for connecting the terminals and fasten the terminals with max 1 0 Nm tightening torque Type of screw Pozidrive No 1 40 HIQUEL Solution SLS 86 software installation This chapter will guide you through the installation of SoftwirePLUS P C System requirements The following is the recommended specification to provide a proper installation of the programming software Minimum Recommended Processor Pentium 90 Pentium 166 Operating 32 bit MS Win95 98 or Win NT Version system 3 51 Win2000 or higher RAM 16 MB 64 MB 32 MB for Win NT 128 MB for Win NT Free memory 20 MB 40 MB Serial port 1 free RS232 port 1 free RS232 port Installation OU Start Windows
7. loops each with up to 6 PTC s in series according to DIN44081 You can connect up to 31 PTC extension modules with the SLS 86 H BER s re EA FIE D ry E HE e Thal Fig Front view of the PTC module Supply voltage L 24Vdc M Ground 4 PTC inputs 111 211 311 411 CT2 is the common connection for the PTC sensors 4 digital outputs Do1 to Do4 Terminal C1 4 is the common connection for the digital outputs Do1 to Do4 CAT5 socket to connect decentral D modules with the bus Central C modules are connected by recessed back to back connectors LED display supply voltage OK LED display module failure or program failure Potentiometer for time adjustment LED display for digital output status DD O DS 97m HIQUEL Solution SLS 86 Example F ils kk E H m e rm m mr mg K FUA cL SHEI Y 4 ei sF m L m m L d E D DO PTC inputs which are not used must be connected Type selection SLS PTC PTC extension module central extension module D decentral extension module 20 HIQUEL Solution SLS 86 Technical information SLS PTC Supply voltage Power consumption Operating temperature Storage temperature Inputs 1T1 to 174 Sensor max Overall resistor Triggering threshold Reset threshold Short circuit detection Outputs Transistor output PNP Terminals Wiring Screw type Tightening torque 24VDC 10 SW 15 C to 55 C 5096 to 9096
8. me 2 N TA 1 12 1 When this input is activated the output will be set to Low for time t1 and High for time t2 This action will continue until the input is de activated After a rising impulse on the input the timer always starts with Low 60 HIQUEL Solution SLS 86 Timer recycling impulse first tl Time 1 12 Time 2 When this input is activated the output will be set to High for time t1 and Low for time t2 This action will continue until the input is de activated After a rising impulse on the input the timer always starts with High Host Relay GEET The host relay logically corresponds to a digital HRI output But if a host relay is active the Description Automatik and the status of the corresponding relay will be transmitted to the host system for example TERMA4 Modbus Host System A Modbus converter WA shifts the Modbus address to the host switch address TERM4 Host System You can display the status of a host relay on the TERMA text display You can also see the Description of the last three messages in the Show Text List menu This field displays the Description g of the corresponding host relay mm There are 16 host switches available See chapter TERMA for details about operating with the text display 61 HIQUEL Solution SLS 86 Analogue output for AU and Al modules ates cat Analogue modules have a binary static a
9. 5 6 El 8 9 C Te um am we ww m m Res Step 1 mm Value 1 Step 2 Value 3 Step 3 mem Value 7 Step Value Counter input C When a rising edge is present on the input the corresponding counter value decreases by one The counter value stops at zero it will not continue to a negative value 65 HIQUEL Solution SLS 86 Counter input CC As long as the input is activated the corresponding counter increments every 100mS therefore with this function you can measure for instance how long a contact is closed for Tous 1 2 LA er Sten 1 Value 1 SLTH he BR e Wali 2 oO e a SOT m cen Malue Counter input CC Zo MEDIE Chien IES As long as the input is activated the corresponding counter decrements every 100mS therefore with this function you can measure for instance how long a contact is closed for 6 O HIQUEL Solution SLS 86 1xDOL Direct On Line starter macro See A M a SET DOL L1 Dol1 R1 Dol1 e ac X Motor DU als E Be ee m cs jaan Max SOms Max 50msSs A Er eo er wg EEE lf a DOL output is set or reset there must be a feedback signal after 50 ms Two internal flags with addresses Dol 10N amp Dol 1Err are automatically written into the program in order to connect an output or a failure warning It is therefore possible to debug failures Object 1xDO
10. Die mit den Einstellungen zufrieden sind klicken Sie auf weiter um die Dateien zu kopieren Aktuelle Einstellungen Setup T yp Vollstandig lel Ordner C Pragramme S aftwirePLLIS Anwender Infarmationien Mame Max Mustermann Firma HIQUEL Elektronik und Anlagenbau GmbH S Abbrechen lt Zur ck Click Weiter to start the installation process This will take a few minutes Setup abgeschlossen Setup hat das Kopieren der Dateien auf Ihren Computer abgeschlossen Setup wird das Programm jetzt starten Wahlen Sie weiter unten eine Option Ich machte das Programm jetzt starten Klicken Sie auf Beenden um das Setup abzuschlie en After installation you can exit the set up by clicking Beenden Start SoftwirePLUS in the start menu Start Program SoftwirePLUS 44 HIQUEL Solution SLS 86 SoftwirePLUS the program General With SoftwirePLUS you can create applications using all the advantages of the WINDOWS operating system The control elements within SoftwirePLUS utilise IEC standard symbols that you are already familiar with and can therefore easily recognise As a result the learning effort is reduced to a minimum Please note that SoftwirePLUS executes the circuit from left to the right This means that the software starts by reading the status of the control element of the top left of the PC screen 45 HIQUEL Solution SLS 86 Hardware configur
11. Local starter remote starter 1 2 amp 3 DOL STARTER STAR DELTA STARTER REVERSING CONTACTOR Programming software Wiring diagram SoftwirePLUS Standards EN61082 2 89 336 73 23 Programming software platform Windows95 98 or Windows NT 2000 Wiring diagram Automatic wiring diagram check printing options for the wiring diagram a cross reference list and a connection diagram HIQUEL Solution SLS 86 Module connections Extension modules must be connected in a series configuration Although it is physically possible to branch to a parallel bus this should not be tried Central and decentral modules can be mixed but attention must be given to the connection options of the modules Central Connection M H Cem HU EES In ep CALA AT P Central modules are placed side by side on DIN rail and connected with recessed back to back connectors It is possible to connect up to 31 extension modules with the SLS 86 This makes up to 250 inputs outputs The maximum length of a central connection system without bus terminator Busabschluss is 1 metre Deceniral Connection Decentral modules are connected by CAT5 cable and connectors Connection between SLS 86 and the first extension module is also with the CAT5 cable The maximum distance between two modules must not be more than 100 metres The maximum overall distance of all SLS modules in one system must not exceed 600 metres A bus terminator must be
12. Supply voltage L 24Vdc M Ground B 8 digital inputs L1 Di1 Local 1 Digital input 1 to L1 Di4 and L2 Di1 to L2 Di4 4 inputs are dual digital analogue C 3 digital outputs L1 Do1 to L1 Do3 Local 1 Digital output 3 terminal L1 C is the common connection for the digital outputs L1 Do1 to L1 Do3 D 3 digital outputs L2 Do1 to L2 Do3 terminal L2 C is the common connection for the digital outputs L2 Do1 to L2 Do3 E Modular socket to connect programming cable SLS 86 CONN 12 HIQUEL Solution SLS 86 CAT5 socket for bus connection Slot to insert memory card SLS 86 SIM 2 potentiometers for timer adjustment LED display for digital input status LED display for digital output status LED display supply voltage is OK LED display module failure or program failure Ce TOM Example Le M Type selection SLS 86 Main module LD Relay output EB Solid State output HIQUEL Technical information SLS 86 Supply voltage Power consumption Operating temperature Storage temperature Inputs L1 Dit to L1 Di4 L2 Di1 to L2 Di4 Outputs L1 Do1 to L1 Do3 L2 Do1 to L2 Do3 Relay output Ue le AC 15 Ue le DC 13 Life Solid State output Ue DC 13 Photomos Data memory without power supply Non volatile markers and counters Time Date Terminals Wiring Screw type Tightening torque Solution SLS 86 24VDC 10 10W 15 C to 55 C 50 to 90 rH non condensing 25 C to 70 C non condensing Input
13. rH non condensing 25 C to 70 C non condensing PTC Sensor DIN44081 15000hm 6 Sensors 31000hm 10 16500hm 10 0 200hm 24VDC 800mA short circuit proof max 2 x 1 5mm Pozidrive 1 1 0Nm 21 HIQUEL Solution SLS 86 PT100 extension module SLS PT100 E 9 analogue inputs PT 100 4 digital outputs 1 external potentiometer Description With the PT100 extension module you are able to connect up to 2 PT100 sensors of 2 3 or 4 wire types Up to 31 PT100 extension modules can be connected with the SLS 86 Fig Front view of the PT100 module Supply voltage L 24Vdc M Ground 5 inputs 1 to 5 for 2 PT100 4 digital outputs Do1 to Do4 terminal C1 4 is the common connection for the digital outputs Dol to Do4 D CAT5 socket to connect decentral D modules with the bus Central C modules are connected by recessed back to back connectors LED display supply voltage OK LED display module failure or program failure Potentiometer for time adjustment LED display for digital output status 22 OU GQ 1M HIQUEL Solution SLS 86 Example SL5PT100 315 PT100 PT100 inputs which are not used must be connected Type selection SLS PT100 PT100 extension module E central extension module ID decentral extension module 23 HIQUEL Solution SLS 86 Technical information SLS PT100 Supply voltage Power consumption Operating temperature Storage temperature P
14. used on the output port of the last module 10 HIQUEL Solution SLS 86 Mixed connection cx It is also possible to mix central and de central modules in one system Example SLS 86 R SLS DT D SLS AU D SLS PTC C SLS PTC D Although decentral modules have CAT5 ports on the front plate they can also be side connected with recessed back to back connectors in the same way as the central modules Therefore a decentral module can be directly connected with the SLS 86 The connection to an additional decentral module can be made with CAT5 cable In this case you have the opportunity to connect a central module directly but you must ensure that the last module is decentral in order to fit a bus terminator Also ensure that the distance between the individual modules is not more than 100 metres that the overall length of the system does not exceed 600 metres and that the last module in the system has a bus terminator fitted In addition ensure that the total system is connected in a series configuration 11 HIQUEL Solution SLS 86 Base module SLS 86 8 digital inputs e digital outputs 2 external potentiometers Description Although the Base module is the central controller in a SLS system it can also be run separately stand alone using just its 8 inputs and 6 outputs Solution H SLS 86 R N 100 0 100 CN 0s L1 L2 AME SOF Fig Front view of the module A
15. 0 REM_ANALOG_AU REM_ANALOG_Al REM_FBR Up to 32 extension modules AR C Selektionsmodus 46 HIQUEL Solution SLS 86 Work space Clicking on OK in the hardware configuration screen takes you to the work space where you create your program A Work space Here you will create your wiring diagram B Symbol Library Here you select the program element symbol to insert into your wiring diagram C Tool bar Here you can click on symbols for load project save project print project download simulation etc D Menu All actions can be performed by using the drop down menu as well if preferred E Status line Here you will see information concerning the active mode selected program element and other information 47 HIQUEL Solution SLS 86 Functions In this chapter all function elements which are necessary to create a application wiring diagram with SoftwirePLUS are be explained Macro functions in the hardware configuration Macro for 4 in and 3 outputs Macro for 3 DOL starters with 1 free input EST EI Macro for 2 DOL starters wth2 gt free inputs and 1 free output 1 DOL Macro for 1 DOL starter with 3 wer iii FwD REV free inputs and 2 free outputs 2xDUL STAR DELTA Macro for FWD REV function with 2 free inputs and 1 free output En Macro for Star Delta starter with 1 REM_2xDOL Free input REM 1 DOL HEM Pu D REV For the remote modules you have to use the
16. 10 Bit 0 1 0 5 O to 10VDC output lt 2mA 0 1 0 5 24VDC max 800mA short circuit proof max 2x 1 5mm Pozidrive 1 1 0Nm 33 HIQUEL Solution SLS 86 FBR Extension module SLS FBR 5 4 FBR inputs two wire room thermostats E 4 digital outputs 4 external potentiometer Description With the FBR extension module you can connect up to 4 FBR controllers Up to 31 current extension modules can be connected with the SLS 86 OU LG mm Digital Input ld 1 2 8 Als 0 100 1 1 Vi SLS FBR R D E A A In Out F Fig Front view of the FBR module Supply voltage L 24Vdc M Ground 4 FBR inputs Di1 to Di4 C is the common ground 4 digital outputs Do1 to Do4 Terminal C1 4 is the common connection for the digital outputs Do1 to Do4 CAT5 socket for the connection of decentral D modules with the Bus Central C modules are connected with recessed back to back connectors LED display supply voltage OK LED display module failure or program failure Potentiometer for time adjustment LED display for FBR input status LED display for digital output status 34 HIQUEL Solution SLS 86 Example 1 Digital Input LU DI 3 4 SLS FBR R D SEN 100 R 4 LA N A In Out ERR 1 2 3 1a Ce Do2 Do3 Do4
17. CAT5 socket to connect decentral D modules to the bus Central C modules are connected by recessed back to back connectors LED display Supply voltage is OK LED display module failure or program failure Potentiometer for time adjustment LED display for digital input status LED display for digital output status OU Ionm HIQUEL Solution SLS 86 Example L M Type selection SLS D Digital extension module R Relay output T Transistor output PNP S Solid State output C central extension module D decentral extension module HIQUEL Solution SLS 86 Technical information SLS D Supply voltage 24VDC 10 Power consumption 3W Operating temperature 15 to 55 C 50 to 90 rH non condensing Storage temperature 25 C to 70 C non condensing Inputs Di1 to Di4 Input resistance min 3kOhm Outputs Do1 to Do4 Relay output 230VAC max 5A Ue le AC 15 120V 1 5A 240V 1A Ue le DC 13 24V 1A Life 1x10 mechanical 1x10 electrical Transistor output PNP 24VDC 800mA short circuit proof Solid State output Ue DC 13 Photomos 60VDC 2A Terminals Wiring max 2 x 1 5mm Screw type Pozidrive 1 Tightening torque 1 0Nm HIQUEL Solution SLS 86 PTC extension module SLS PTC 4 analogue inputs PTC 4 digital outputs 1 external potentiometer Description With the PTC extension module you are able to record and analyse 4 PTC
18. DI St eta aaa Aa ada sada eba aa anaa 55 E Le Ee Ee ee ee a ee 56 FBR Objects Digital room controller oo ccccccccconocnncnncccnnnnnnnnnonnnnnnos 56 A e 57 FICS OU IMO it aus aliada a larisa 57 Timer OD dl e ee a 58 Timer SOM delay sr 58 Timer On and Off delay sas sasana a aaa a a Nan a ei a naa ja gan aa ba aaa a pa a Na ag aa Naah 59 HESS PUSO eran 59 TIME SOT PU Sinai as 60 Timer On and Off pulse sese 60 Timer recycling pause first ooncccccnncoccccnnonocononcononcnnononnnnnnnanonconanons 60 Timer recycling impulse Ter 61 o A aaa aa IRAN 61 Analogue output for AU and Almodules een 62 FBR e e 62 MAKE WERE att eet A dn aka a da aana aaa 63 Impulse marker rising edge onoannnnnnennnnensnnnnnonrnnnrenrnrrrensnnrnrrsrnnrrenne 64 Impulse marker falling edge nnnnnnnoannnnnnennnnnnnnnnnnnnnnnnnnensnnrnnesnnneeenne 64 Impulse marker rising and falling ege 64 COUNEIS war PK 65 Counter Input Ce 65 Counter le UU Can ee 65 COUNT IOUT e ee 66 Counter NDUT EC ade 66 1xDOL Direct On Line starter macro 67 2xDOL Direct On Line starter macro 68 3xDOL Direct On Line starter macro 69 FWD REV Reversing contactor mac 70 STAR DELTA Star Delta starter macro ccccococncnncccconncnnnccconnnnnnnnnnns 71 misiles d c 72 Sete n M m 73 Output program data dalogue 73 Firsts lep raa I 74 ADDIIC
19. DIN 44081 4 digital outputs transistor PNP PT 100 extension module SLS PT100 C SLS PT100 D 2PT100 50 C to 300 C 4 digital outputs transistor PNP PT 1000 extension module SLS PT1000 C SLS PT1000 D 2PT100 50 C to 300 C 4 digital outputs transistor PNP Voltage input extension module SLS AI C SLS Al D 4 analogue inputs 0 20mA or 4 20mA 1 analogue output 0 10V 4 digital outputs transistor PNP Current input extension module SLS AU C SLS AU D 4 analogue inputs 0 10V 1 analogue output 0 10V 4 digital outputs transistor PNP Bus terminator SLS 86 BUS for extension modules HIQUEL Solution SLS 86 Technical information Housing DIN rail mounting Safety Wiring Supply voltage Memory card 8kByte SIMM Card Programming port external RS232 for connection with the PC Connection between modules among decentral with CAT5 connectors central with each other side connection LED display LEDs for digital in and outputs supply voltage OK failure and information Cycling time constant 100ms Timers 11 time functions 32 timers Real Time Clock with calendar Timer resolution 0 1s to 109min two time ranges can be adjusted by potentiometer Counter 32 counters 8 non volatile Standard counters 8 adjustable set points for each counter Marker 64 Markers functions 16 x standard 16 x rising edge 16 x falling edge 16 x rising and falling edge Special functions program macros
20. Electrically isolate the installation LJ Cover any non isolated areas HIQUEL Solution SLS 86 Preface The Hiquel Solution SLS Smart Logic System is a device from the new generation of HIQUEL products SLS is designed to bridge the gap between low end control modules and specialised mini PLC s For this reason SLS will replace time relays counting functions time measuring functions electronic systems and complex or annual real time switching systems O OOOO Simply draw a circuit diagram for your application on your PC and SLS will be ready to execute the tasks in a wide range of applications including the following Heating systems control systems for lights doors roller shutters car park barriers blower and ventilation systems revolving doors automated machines and installations presses punches belt conveyors vibration conveyors sorters pumps compressors etc HIQUEL Solution SLS 86 Module description This chapter deals with the various SLS components Main module SLS 86 R SLS 86 S 4 digital inputs 4 digital analogue inputs 6 digital outputs Memory card SLS 86 SIM Read Only Memory ROM 8kb for SLS 86 Programming cable SLS 86 CONN Connection between PC RS232 and SLS 86 Digital extension module SLS DR C SLS DR D SLS DT C SLS DT D SLS DS C SLS DS D 4 digital inputs 4 digital outputs relay transistor PNP Solid State PTC extension module SLS PTC C SLS PTC D 4 PTC
21. L uses Dol as a DOL output input Dil is awaiting a feedback signal WH f a 1xDOL Macro is loaded to a 4 input 3 output half SLS 86 local module there are 3 inputs and 2 output free for use in the program If a 1xDOL Macro is loaded to a 4 input 4 output extension module there are 3 inputs and 3 output free for use in the program 6 HIQUEL Solution SLS 86 2xDOL Direct On Line starter macro Compared to the 1xDOL macro described on the previous page because the 2xDOL uses Dol and Do2 there are only two free outputs available 1 on a half SLS 86 local module Also as both Dil and Di2 are awaiting feedback there are only 2 free inputs available EES Mi Mi FT n 68 HIQUEL Solution SLS 86 3xDOL Direct On Line starter macro The 3xDOL Macro uses Do1 Do2 and Do3 as outputs and Di1 Di2 and Di3 as inputs This leaves one free input and one free output no free outputs on a half SLS 86 local module LLI rra ma e BA ma Hin BA d E 1 Hz 3 nd gi Id T m T E1 K K A hg dE x H BA 69 E NG ENEE AG Set FvVv engl LA Rev EX ReyFL Motor LEEY Motor Motor Doa di o HIQUEL Solution SLS 86 FWD REV Reversing contactor macro ma H e Di 4s Similar to the A an j A senz DOL macros described on the previous pages the FWD REV macro also requires feedback on the inputs Di1 and Di2 50ms If the FWD output is activated and set th
22. LIBZS MEN PIU EL HIGH QUALITY ELECTRONICS SLS 86 Solution Herbert Wei Peter Reiter Ren Pilz Thomas Kaufmann SLS 86 User Manual Great care has been taken in the creation of the text illustrations and program examples in this manual Neither HIQUEL their authors nor their interpreters may be held responsible for any errors herein nor can they be held responsible or liable for consequences arising from any errors herein This manual is subject to copyright law All rights are reserved This manual may not be copied in part or whole in any form including electronic media without the written consent of Hiquel Neither may it be transferred in any other language suitable for machines or data processing facilities Also rights for reproduction through lecture radio or television transmission are reserved This documentation and the accompanying software is copyrighted by Hiquel Copyright 2002 by HIQUEL GmbH Windows and Microsoft are registered trademarks of Microsoft Corporation Pentium is a registered trademark of Intel Corporation Adobe Acrobat Acrobat Reader and the Adobe Logo are registered trademarks of Adobe System Incorporated All other trademarks mentioned and shown in the text are trademarks of their owners and are patented that way HIQUEL Solution SLS 86 Attention O OOOUUU You are handling dangerous electrical current Disconnect
23. T100 Inputs Number Measuring range Accuracy Outputs Do1 to Do4 Transistor output PNP Terminals Wiring Screw type Tightening torque 24VDC 10 SW 15 C to 55 C 50 to 90 rH non condensing 25 C to 70 C non condensing 2 50 C to 300 C 0 1 C 24VDC max 800mA short circuit proof max 2x 1 5mm Pozidrive 1 1 0Nm 24 HIQUEL Solution SLS 86 PT1000 extension module SLS PT1000 y analogue inputs PT1000 4 digital outputs 1 external potentiometer Description With the PT1000 extension module you are able to connect up to 4 PT1000 sensors of 2 wire format Up to 31 PT1000 extension modules can be connected with the SLS 86 ma l be A e Fig Front view of the PT1000 module A Supply voltage L 24Vdc M Ground B 5 inputs 1 to 5 for up to 4 x PT1000 C 4 digital outputs Do1 to Do4 Terminal C1 4 is the common connection for the digital outputs Do1 to Do4 D CAT5 socket for the connection of decentral D modules with the bus Central C modules are connected with recessed back to back connectors E LED display supply voltage OK F LED display module failure or program failure G Potentiometer for time adjustment LED display for digital output status 25 HIQUEL Solution SLS 86 Example SLS PT1000 TE DEN rg HE SW Ae amp E a a E tr E R S T Pj m E vi Sal 5 PTI000 T PR o oi en wi amp SS amp 7 PT1000 inputs which are not us
24. UEL Solution SLS 86 Please choose your desired directory Zielpfad w hlen X SafteirePLLIS wird in diesem Verzeichnis installiert Klicken Ste Weiter zur Installation in diesem Verzeichnis Durchsuchen zur Installation in einem anderen und wahlen Sie dieses Klicken Sie amp bbrechen um Setup zu beenden wenn Sie SoftwirePLUS nicht installieren Zielverzeichnis i C Frogramme S oftwirePLLI S Durchsuchen lt Zuruck Weiler gt Abbrechen By clicking Weiter you can confirm the standard directory In order to choose another directory please click on Durchsuchen Please choose the program directory in your start menu Programmordner auswahlen Ei Setup f gt den unten aufgef hrten Programmordner neue Symbole hinzu Sie konnen einen neuen Ordnernamen eingeben oder einen vorhandenen Ordner aus der Liste ausw hlen Wahlen Sie Weiter um den Vorgang fortzusetzen Frogrammardner SoftwireP LUS Vorhandene Ordner HP DeskJet 595C Serie v11 1 lomega Tools Modfee VirusScan Microsoft Nachschlagewerke Horton Antivirus E Online Dienste PictureGear 3 2Lite lt Zur ck Abbrechen 43 HIQUEL Solution SLS 86 The installation details will be summarised here Kopiervorgang starten x um Kopieren der Programmdatelen sind genugend Informationen vorhanden Klicken Sie auf Zur ck wenn Sie die Einstellungen berpr fen oder ndern machten Wenn
25. allocating contacts normally open or normally closed to it The allocation dialogues of all time delays feature settings to define the time the duration of the delay and the allocation to an external potentiometer if required lf you allocate the Timer to a potentiometer the adjustment range of the potentiometer is from O to the delay time entered Timer Off delay With the Off delay timer you can hold the status of any point for a specified time 98 HIQUEL Solution SLS 86 Timer On and Off delay ee durs La men E B Tl On delay 12 Off delay The On and Off delay is a combination of the two previously described functions Timer On pulse With the On pulse timer a timed output corresponding to the pre set time will be set on the rising impulse leading edge of the input 99 HIQUEL Solution SLS 86 Timer Off pulse NI a In ee scena Res Out t Time cael t With the off pulse timer a timed output corresponding to the pre set time will be set on the falling impulse trailing edge of the input no matter how long the input is set Timer On and Off pulse SORTE ae eae BE T schen Ei Res Out tl 12 12 tl Time gt ag 12 Time2 The on and off pulse timer is a combination of the two functions previously described Timer recycling pause first tl Time 12
26. ard SLS 86 SIM 0 cccccccceccecseseeeeeescceseeeeecceseeeeescceseeeenees 15 Programming cable GG g9eCONN nnn 15 Digital extension module ll 16 PTC extension module SLS PTC eruessessesneonnennnnnnnnnnnnnnnnnennennennnn 19 PT100 extension module GlG RIIO0 22 PT1000 extension module GlG bRIIOo0D0 25 Current input extension module GlGAI as ananan aane nana namane anna anae 26 Voltage input extension module GlG AU en en aa n anane naen 31 FBR Extension module SLS FBR iieiea 34 Bls temminator 8 95 86 BUS zen nee 37 inizia n UT RM READERS 38 Module size SI WEE 38 Module size SLS extension modules sssssssssssserennnrrrrrrrrreeeessersssreen 39 DIN Fall MOURUAG une 40 Software IM STAN ATOM kaa tet teeta as Ait iad a Es de Aaa 41 P C System reouirements eene nennen nnns 41 JET e EE 41 SOolwirePLU SIhe Program esse ee 45 Sein VS anana akang Pe 45 Hardware configuration screen nennen nennen nennen 46 A nennen Renee Eege 47 PCN iO Rc ERE ft ee are 48 Macro functions in the hardware Contfguraton 48 Program elements aan ada 49 Description of the program elements asas enena eaaa anana nennen een 50 Normally closed Contact rennen ek 50 Normally open ComaC sasaka adana tania iio lic 50 W asana ekan jsi arias 51 FOLEMMOMCLEN int 52 Digitalize inputs of module li 53 HIQUEL Solution SLS 86 PEC ODOC arne m HE 54 PILOOODJECIS cuii A es 55 Pt OOO O
27. ation screen After starting SoftwirePLUS you will initially see the hardware configuration menu in which the function of all the modules in a system is defined The L1 and L2 modules at the top of the screen represent the SLS 86 base module divided into two halves local modules The default condition of both of these modules is 4 Digital inputs and 3 Digital outputs 4IN 3OUT These functions can be removed and replaced with any of the function macros listed to the right of the screen NOT starting with Rem remote The Ri to R31 modules represent the 31 extension remote modules that can be attached to an SLS 86 base module The function macros listed on the right hand side of the screen starting with REM can be loaded into each of the R modules To load a function macro into the L1 or L2 modules first right click and delete the 4IN SOUT default Then click on and drag and drop one of the macros to the L module The Rem macro s are loaded into the R modules in the same way but as the R modules are initially un allocated there is no existing macro to be deleted Once the hardware configuration has been completed click on OK Softwire PLUS Project 1 SWP Softwire PLUS a eel Slept Elle Sl xs 7 4IN 30UT 3xDOL 2xDOL 1 DOL FwD REV STAR DELTA REM 4IN 40UT _ Wi 3xDOL REM_1xDOL REM_FWD REV REM_STAR DELTA REM_PTC REM_PT100 REM_PT100
28. atonm BT e 74 Step 1 Create a project and define tename 74 Step 2 Place elements into the working space 76 Step 3 Connecting various elements Au 78 Step 4 Delete elements cccoooonncncccccooncnncncnnnncononononncnnnnononncnnnnnnnanennnnnnnas 79 Stepo Crete palh Tann e lo e 80 Step o Crete MM e elo le 81 Step 7 Configure timing functions cccccococncnncccnonnnnncncnonnnnnnnonancnnononnnnns 82 HIQUEL Solution SLS 86 Step 8 Allocate potentiometer sees 82 Step 9 Timing dagran rt odias 83 Step 10 Draw results of the combined timing and marker functions 83 steB TID OW MO A NM MT LE 84 TERM4 85 Physical Cohhneelioh ur 85 Communication parameter oooonncnncccconncnncccnnnnnnnnncnnnnnnnnnononnnnnnnonnnnennnnnnnas 85 AY STL a sesa ete TELE 85 SES EE 86 Beal MMS COCK sn ea 86 Co OS MERETUR 87 BAGUE EE 87 ESRUM OOD ee ee esse ee 87 721081 ue 88 SE e EE 88 e NON Er ii ne ee ee ee 88 HIQUEL Solution SLS 86 Solution SLS 86 Safety precautions Danger to life through electrical current Only skilled personal trained in electro engineering should perform the described steps in the following chapters Please observe the country specific rules and standards Do not perform any electrical work while the device is connected to power Pay attention to following rules Q Switch off the automated installation Q Disable any automatic restart system Q
29. awing can now be created by placing the various elements into the work space The application specification has four input values Di1 Operate Door push button Open and Close door Di2 Door closed limit switch Di3 Door open limit switch Di4 Stop push button The inputs should be placed into the program first You may select either a normally open contact which represents a contact that closes makes when it is operated or a normally closed contact that opens breaks when it is operated Click on the required symbol in the toolbar choose a Normally open contact from the drop down menu and place this element on the work space drag and drop 76 HIQUEL Solution SLS 86 Softwire PLUS Project 2 SWP Projekt Bearbeiten Elemente Optionen Ansicht Ausfuehren Hilfe Giele Sal Y Fig 4 Choosing an element Depending on the selected element a window Fig 5 will appear Alternatively double click a recently placed element and the same dialogue opens The allocation description of the element can now be entered Bezeichnung Schl Leber Zugeh rigkeit Abb 5 Allocation dialogue The other inputs have to be executed as normally closed contacts and are defined as L1 Di2 L1 Di3 and L1 Di4 Local 1 Digital input 2 Local 1 Digital input 3 Local 1 Digital input 4 Defining an output as the result of a switching combination is as easy as placing an input on the work space Fro
30. bed for the potentiometer Actual voltage values replace the percentage representation Between the two set values the digital input for example L1 A1 will be active HIGH above and below the set values the digital input will inactive LOW 53 HIQUEL Solution SLS 86 PTC Objects R PTE Sensor 1 6 Sensors Two objects are available with every input The PTC object shows you the active state of the sensor and the ER object shows you any failures The graph shows you the values with the corresponding function of the objects The PTC contact is active if the resistance value of the PTC sensors is between gt 20Q and lt 3100Q The PTC ERROR contact is active if the resistance value is under 20Q short circuit monitoring and if the value is higher than 3100Q Over temperature Nominal temperature of the PTC sensors for example exceeding 60 C 31000 PTC Sensor DIN44081 54 HIQUEL Solution SLS 86 Pt100 Objects R1 PT100 Input 1 ARA Hystl PT100 Schlie er Schlie er This module offers you Input and Hyst objects Go to the allocation dialogue in the hardware configuration Einstellungen EN Pot PT100 Input 1 PT100 4nput 2 Darstellung eines digitalen Einganges Threshold for low ln D I menu for adjustments The ihe adjustment of the objects for reshold for hig example 11 Huet j 60 00 corresponds to the previous described
31. bol select delayed and choose the On delay function from the menu place the time relay and configure it The configuration dialogue is similar to the other symbols however the timing features are additional Fig 10 81 HIQUEL Solution SLS 86 Step 7 Configure timing functions Bezeichnung Element 1 Beschriftungsindex T Zeitverz gerung 1 s Zeiteinheit ls 3 Pot Zeit 1 11 v Fig 10 Property dialogue for relay with on delay function To define the delay time there are two possibilities Q Fixthe time in the program by typing the figures into the box O Use a variable time by allocating the timer to one of the external potentiometers Step 8 Allocate potentiometer Right click the appropriate symbol in order to get to the allocation dialogue Fig 11 Here you can define the time the duration of the delay and the allocation to Pot 1 or Pot 2 potentiometer lf you allocate to a potentiometer the adjusted time is the accumulated value Bezeichnung Timer Beschriftungsindex T Zeitverz gerung C Zeitverz gerung lt 10 Timing function Zeiteinheit sl Diagram bu ton Dot eit 1 E Pot Zeit 2 Fig 11 allocate potentiometer 82 HIQUEL Solution SLS 86 Step 9 Timing diagram To check the timer function you can look on the function diagram Just click the button on the diagram Fig 11 Fig 12 Timing diagram Step 10 Draw results of the combined timing and marker fun
32. ctions Once the timer is defined and configured it can be integrated into the circuit The result is a combination of timing functions with marker functions Fig 13 Fig 13 Result of the combination 83 HIQUEL Solution SLS 86 Step 11 Download To execute the program the program has to be assembled and downloaded to the SLS 86 Click the button on the top toolbar with horizontal blue and red arrows to get to the output data dialogue Fig 14 Softwire PLUS X Compile E Set Schnittstelle COM1 E 2 Daten senden Datum 27 06 01 14 41 27 y Set Kalenderwoche 26 Wochentag Mittwoch Abbrechen Fig 14 Output data dialogue If the connection cannot be made the following message will occur Fig 15 5 oftwire PLUS Ein F ommunik ationsprablem ist aufgetreten Fig 15 communication failure By clicking the button Compile the code will be generated from your drawing and by clicking Send data the code will be transmitted to the device If there is no failure message your program will be ready 84 HIQUEL Solution SLS 86 TERM4 This chapter deals with the operation of the product group SLS86 by using the text display TERMA Physical Connection The cable for the physical connection of Term4 to SLS is supplied with the Term4 Connect the SLS marked cable end with the Config input of the module SLS86 Then connect the TERM4 marked end with the displa
33. e flags RevFOn and RevFERR which are automatically loaded into the program with the macro If you switch from FW D output to REV output the REV output will be set after a suitable delay which is defined in the allocation dialogue The two flags RevRON and RevRERR which are also automatically loaded into the program with the macro will be available for use in the program Flags with the extension ON mean a successful execution of the function flags with the extension ERR show a failure in your function Mi 1 Mi 1 MOLA 70 HIQUEL Solution SLS 86 STAR DELTA Star Delta starter macro LI Start R1 Star o une Motor STAR The Star Delta macro is intended for Star Delta start applications The macro uses 3 outputs Do1 Do2 and Do3 which also require feedback on the inputs When the Star delta function is activated the SLS D outputs OutMain and OutStar will be set When the Star Time which is defined in the in the allocation dialogue expires the OutStar output will be reset The Dwell Time d a Which is also adjusted in the allocation dialogue 50ms o or 100ms m When the Dwell Time expires the OutDelta output will be set Flags are also automatically loaded with this macro and are available for use in the program 71 HIQUEL Real time clock Montag Week20 sonntag i Week40 j RIC 222001 Y 240401 2002 270401
34. ected to the COM port of the PC you will see the real time clock adjustments If you get the message al communication problem has occurred there is a communication failure Should this happen choose another port or check the wiring to your device Compile compile the program you have created Stop CC stop program on the SLS 86 from running Reset and Start CC reset and restart the program on the SLS 86 Copy from SLS to SIM copy the program from the SLS 86 RAM to the memory card ensure card loaded in cassette Copy from SIM to SLS copy the program from the memory card to the SLS 86 RAM Save and release adjust the memory card 73 HIQUEL Solution SLS 86 First steps This chapter describes how to use the work space step by step Application example Please note that although all Windows and workspace menus in the following example are in German text the text will automatically change to whichever language you select when starting to create your project To implement the simple control of a roller shutter door with delay time between the opening and closing The following functions shall be integrated Q The Open door output Do1 is activated when the Door closed limit switch Di2 is closed and the Open Door push button Di1 is pressed or when the door is closing and the push button Di1 is pressed delay time LY The Close Door output Do2 is activated when the Door open
35. ed must be connected Type selection SLS PT1000 PT1000 extension module po central extension module M D decentral extension module 26 HIQUEL Solution SLS 86 Technical information SLS PT1000 Supply voltage Power consumption Operating temperature Storage temperature PT1000 inputs Number Measuring range Accuracy Outputs Do1 to Do4 Transistor output PNP Terminals Wiring Screw type Tightening torque 24VDC 10 SW 15 C to 55 C 50 to 90 rH non condensing 25 C to 70 C non condensing 4 50 C to 300 C 0 1 C 24VDC max 800mA short circuit proof max 2 x 1 5mm Pozidrive 1 1 0Nm 27 HIQUEL Solution SLS 86 Current input extension module SLS AI 4 analogue inputs current signal 4 digital outputs y analogue output voltage signal 4 external potentiometer Description With the current input extension module you are able to connect and analyse up to 4 current sources of 0 to 20mA or 4 to 20mA Up to 31 current input extension modules can be connected with the SLS 86 o PEERK p G E nERB o l n l ce Ge 07 Feeks C Fig Front view of the Al module A Supply voltage L 24Vdc M Ground B 4 current inputs Ai1 to Aid Ao1 is the voltage output from O to 10VDC C 4 digital outputs Do1 to Do4 Terminal C1 4 is the common connection for the digital outputs Do1 to Do4 28 HIQUEL Solution SLS 86 D CAT5 sock
36. en and normally closed contacts previous described though the host switch is activated by a host field sytem TERM4 illustrated Modbus Host System A Modbus converter changes the Modbus address to the host switch address TERM4 Host System You can manually activate a host switch by using the TERM4 text display This field shows you the Description of the corresponding host switch 16 host switches are available See chapter TERM4 for details about operating with the text display 91 HIQUEL Solution SLS 86 Potentiometer Pot Analog 11 Analog 12 Analog 13 Analog 14 A m Darstellung eines digitalen Einganges A A A c SC EE L1 Pot Ki Rot 3 dif C ten E E c Tow Theeshold foc high Deu A c J os With the potentiometer youcan me manually adjust time fu nctions m Darstellung eines analogen Einganges see Timer On d elay Percentage value for 0 Poti is on the left end It is also possible to digitalize a on potentiometer and to use it asa Percentage value for 100 Poti is on the right end digital input Right click a module M LN in the hardware configuration screen to get to the allocation dialogue of the corresponding module see above the Pot tab shows you two groups with two control bars each Adjust thresholds for low and high in group Darstellung eines digitalen Eingangs The exa
37. et for the connection of decentral D modules with the bus Central C modules are connected with recessed back to back connectors E LED display supply voltage is OK F LED display module failure or program failure G Potentiometer for time adjustment LED display for digital output status Example pa P5 bj Aj L Al Cx Cx Dad pa l Type selection SLS AI Current input extension module C central extension module D decentral extension module 29 HIQUEL Solution SLS 86 Technical information SLS Al Supply voltage Power consumption Operating temperature Storage temperature Inputs Ai1 to Ai4 Input resistance Resolution Repeat accuracy Precision Output Output Ao1 Current output Repeat accuracy Precision Outputs Do1 to Do4 Transistor output PNP Terminals Wiring Screw type Tightening torque 24VDC 10 SW 15 C to 55 C 50 to 90 rH non condensing 25 C to 70 C non condensing 2500hm 10 Bit 0 1 0 5 0 to 10VDC 2mA 0 1 0 5 24VDC max 800mA short circuit proof max 2x 1 5mm Pozidrive 1 1 0Nm 30 HIQUEL Solution SLS 86 Voltage input extension module SLS AU 4 analogue inputs voltage signal 4 digital outputs y analogue output voltage signal S 1 external potentiometer Description With the voltage input extension module you are able to connect and analyse up to 4 voltage sources
38. if its necessary Q Shut down all other Windows applications to avoid conflicts Q Insert the SoftwirePLUS CD into your CD ROM drive The installation program will start automatically A If nothing happens for a while choose Run from the Windows start menu Select D setup exe or other drive letter indicating the CD ROM drive in your system 41 HIQUEL Solution SLS 86 If you have no other applications running on your system you can click Weiter By clicking the button Abbrechen you can cancel the installation xl Wilkommen zum SoftwirePLUS Setup Mit diesem Programm wird SoftwirePLUS auf Ihrem Computer installiert Es wird dringend empfohlen dall Sie alle Windows Programme beenden bevor Sie das Setup ausf hren Klicken Sie auf Abbrechen um das Setup zu beenden und anschlie end schlie en Sie alle ge ffneten Programme W hlen Sie Weler um mit Setup fortzufahren WARNUNG Diese Anwendung ist durch Urheberrecht und internationale Yereinbarungen gesch tzt Unberechtigte Reproduktion oder nicht autorisierter Wertrieb dieser Anwendung oder einer ihrer Komponenten wird gerichtlich verfolgt und kann zu erheblichen Strafen f hren ZEITEN Weiler gt Abbrechen Please type in your name and the company name Benutzerinformationen x Geben Ste unten Ihren Namen ein Sie mussen auch den Namen der Firma bei der Sie arbeiten eingeben lt Zur ck Abbrechen 42 HIQ
39. l hiquel com http www hiquel com VIIAG AE 89
40. le 63 HIQUEL Solution SLS 86 Impulse marker rising edge A MR1 Merker Mr CARO E eee E 100ms With every rising impulse leading edge the marker will energise for 100mS Impulse marker falling edge Ng NG NE MF1 Merken s 100ms With every falling impulse the marker will energise for 100mS Impulse marker rising and falling edge DNE n RN MRF1 Merker LM Ot IE BEE 100ms 100ms lt lt With every rising and falling impulse the marker will energise for 100mS There are 16 impulse markers available The dialogue shows you 100 markers but markers 17 100 have no function 64 HIQUEL Solution SLS 86 Counters 32 counters are available Counters Z1 to Z4 are non volatile therefore they will retain their count value during a supply failure Each counter has 8 set points which can be independently allocated to program events Counter Input C cite mony Bert When a rising edge ON signal is present on the input the counter value increases by one When the counter value reaches a pre determined value set point a program event can be triggered When the counter value reaches the highest set point the counter will stop incrementing A reset input is used to clear the counter value to zero Impuls 1 2 3 4
41. m the toolbar choose the symbol for a relay see fig 4 A menu appears from which an output can be selected This output is then placed on the work space The properties of the output description and allocation can be entered The 4 outputs are named L1 Do1 L1 Do2 L1 Do3 and L1 D04 17 HIQUEL Solution SLS 86 Step 3 Connecting various elements The connection of several objects is easy Select the Line tool from the tool bar Then click onto the green connection point of the first object and drag to the connection of the second object A line will be drawn connecting the two points GSoftwire PLUS Projekt Bearbeiter Dell Fig 6 Line tool You should now see the following on your screen UD VD 7 LD bk LLDM jr schliefer Offner KAEH Fig 6 Work space This program could be downloaded to the SLS 86 and the outputs would operate depending on the input status however in relation to the application it is meaningless and the specifications are not fulfilled 78 HIQUEL Solution SLS 86 Step 4 Delete elements REGER ES M Wollen Sie das gew hlte Element die gew hlten Elemente wirklich l schen Fig 7 Delete dialogue Select the outputs as shown above and delete them Next replace the four deleted outputs with Marker internal relays The reasons are a to use specific properties of the marker logically and b to be able to use the properties of the inputs which activate the marke
42. mple shows you a logical activation of the digital potentiometer HIGH if the adjusted value exceeds 80 If the value falls under 20 the digital potentiometer will be inactive LOW A Hyst function develops Adjust the threshold value in group Darstellung eines analogen Einganges For example set the first control in this group at 50 and the minimum potentiometer value will be 50 of the selected value Configure the maximum potentiometer value with the second control Example Set a timer to 10sec and the potentiometer values at minimum 50 and maximum 100 As a result the potentiometer range will be adjustable from 5 to 10 seconds 92 HIQUEL Solution SLS 86 Digitalize inputs of module L1 NAAA Pot Analog 11 Analog 12 Analog 13 Analog 14 L1 a Hyst 1 L 1 o Al son Darstellung eines digitalen Einganges MEE Offner Schlie er Threshold for ow ee e NGANG E ESTEE S 400 M a AA Threshold for high meseld na 0 hight60 s o poo Y Treshald lew4056 r Darstellung eines analogen Einganges Percentage value for 0 Input voltage is NI Percentage value for 100 Input voltage is 10V 10 00 Y The four inputs of module L1 are Analogue or digital Analogue signals applied to these inputs and can be digitalized afterwards Adjustments of the Hyst objects for example L1 Hyst1 are the same as the adjustments descri
43. nalogue D H er o output Configure the output with the allocation TRES dialogue Corresponding to the binary control choose two output values HIGH or LOW with the slider bars imeem El in the group Darstellung Pot Adnput1 Adnput 2 Adnput3 Adnput4 Aot DK eines digitalen Eingangs r Darstellung eines digitalen Einganges Threshold for low 400 Vol Threshold for high Not E 6 00 Volt me Ze Implemented m Darstellung eines analogen Einganges Percentage value for Volt Input voltage is OV Percentage value for 10Volt Input voltage is 10 10 00 R1 TAG1 ON_L_R1 NACHT1 ON_L_ R1 TAG1 LL R1 NACHT1 _L_ Ausgang Ausgang Ausgang Ausgang Output TAG1 ON DAY1 ON activates the control for the monitoring of the day temperature Numbers 1 to 4 indicate the channel with which the FBR control is connected Output NACHT1 ON NIGHT 1 ON activates the control for the monitoring of the night temperature Output TAG1 DAY1 activates the function for temperature compensation during day mode Output NACHT1 NIGHT 1 activates the function for temperature compensation during night mode 62 HIQUEL Solution SLS 86 Marker Mee GE GEES GE Out With all marker types the result of a ladder rung can be transferred and used in any other ladder rung There are 16 markers availab
44. objects see Potentiometer and Digitalize inputs of module L1 though in this case temperature values replace voltage values or percentages Darstellung eines analogen Einganges Percentage value for 50 C Input voltage is MI AAA lt lt 0 00 Percentage value for 300 C Input voltage is 10 Es 100 00 Pt1000 Objects R1 PT1000 Input 1 R1 Hysti PT1000 Schlie amp er SchleBer Lei See chapter Pt100 objects for configuration and adjustment Objects are configured and used identically 55 HIQUEL Solution SLS 86 AU and Al Objects AANE ee po eee active between R1 A Input 1 R1 Hyst Inp 1 threshold values and Hyst SchlieBer Schlie er er active above second threshold inactive under first threshold are also available with the analogue modules Depending on the module type you can adjust voltage or current values using the allocation dialogue R1 TAG 1_ON Y R1 NACHT 1_ON Contact TAG 1_ON DAY K che K che 7 Y 1 ON is active if the rotary ce QU Ic switch of the FBR control is ee a NG en TIMES id i 5 z E n o A Y in the ES position ich 7 St D che y Numbers 1 to 4 indicate the GE Sy Pcs eye en lr channel to which the FBR AAA E EO NE E O control is connected Contact NACHT 1_ON NIGHT FBR1 ren2 rens FERS 1 ON is active if the rotary Darstellung eines digitalen Einganges switch of the FBR con
45. of 0 to 10V Up to 31 voltage input extension modules can be connected with SLS 86 ia Li CR a mmm s F i n CE d AE zi ER kerke C Fig Front view of the AU module A Supply voltage L 24Vdc M Ground B 4 voltage inputs Ai1 to Ai4 Ao1 is the voltage output from O to 10VDC C 4 digital outputs Do1 to Do4 Terminal C1 4 is the common connection for the digital outputs Do1 to Do4 D CAT5 socket for the connection of decentral D modules with the bus Central C modules are connected with recessed back to back connectors 31 HIQUEL Solution SLS 86 LED display supply voltage OK LED display module failure or program failure Potentiometer for time adjustment LED display for digital output status 1M Example B3 Pal Ail Ai Ais Alt An Da Das Dod Type selection SLS AU voltage input extension module central extension module JD decentral extension module 32 HIQUEL Solution SLS 86 Technical information SLS AU Supply voltage Power consumption Operating temperature Storage temperature Inputs Ai1 to Ai4 Input resistance Resolution Repeat accuracy Precision Output Output Ao1 Current output Repeat accuracy Precision Output Do1 to Do4 Transistor output PNP Terminals Wiring Screw type Tightening torque 24VDC 10 SW 15 C to 55 C 50 to 90 rH not condensing 25 C to 70 C not condensing 54 kOhm
46. resistance 44kQ 230VAC max 5A 120V 1 5A 240V 1A 24V 1A 1x10 mechanical 1x10 electrical 60VDC 2A min 30 days min 30 days max 2 x 1 5mm Pozidrive 1 1 0Nm HIQUEL Solution SLS 86 Memory card SLS 86 SIM Description Type selection SLS 86 SIM SLS uses a memory card which is visually identical to the SIM card of a mobile phone dont mix up Insert the card front side into the SLS 86 SIM memory card 8kB Programming cable SLS 86 CONN Description Type selection SLS 86 CONN Programming SLS 86 takes place on the PC SLS 86 CONN is required to transmit the program or to test the status Connect the cable to the PC using the RS232 COM port and to the SLS 86 with the RJ45 connection Programming cable PC SLS 86 2 5m length HIQUEL Solution SLS 86 Digital extension module SLS D 4 digital inputs 4 digital outputs 1 external potentiometer Description The digital extension module complements the available inputs outputs of SLS 86 Up to 31 digital extension modules can be connected with SLS 86 B H em TT TE BITI SLS DS D 0 100 E ram SE A In Out F E Fig Front view of the digital extension module Supply voltage L 24Vdc M Ground 4 digital inputs Di1 to Di4 C is the common ground 4 digital outputs Do1 to Do4 Terminal C1 4 is the common connection for the digital outputs Do1 to Do4 D
47. rm the configuration with This adjustment is identical with every menu 86 HIQUEL Solution SLS 86 B 3 CHANGE DATE B 4 CHANGE DAY B 5 CHANGE WEEK C Timers Choose the preferred timer with and gt The second line of the menu shows the status of the corresponding timer the third line shows the Description To edit a value press If one timer has two separate allocations you will have to press 6 again D Counters Choose the preferred timer with and You can also adjust the following functions Key 4 increment counter Key y decrement counter Key Load counter with value 0 reset E Run Stop Two menus can be chosen E 1 STOP PROGRAM Stop the application by pressing E 2 START PROGRAM Start the application by pressing 6 87 HIQUEL Solution SLS 86 F Host switches Choose your preferred object with the keys and gt The key 6 activates or deactivates the corresponding switch The second line shows you the binary status of the switch line 3 shows the Description G Host relays Navigation corresponds to the previously described objects the second line shows the status and line 3 shows the Description H Text List The Description of the last three messages will be displayed here 88 HIQUEL Solution SLS 86 Notes HIQUEL GmbH Bairisch K lldorf 266 A 8344 Bad Gleichenberg Tel 43 0 3159 3001 0 Fax 43 0 3159 3001 4 e mail hique
48. rs at multiple places in the program if required by adding additional contacts to the markers Consider the application specification The digital input Dil is responsible for both closing and opening the door Therefore a marker is required which is reacting to a rising impulse leading edge e g push to start push to stop Choose the corresponding symbol from the tool bar Click on the marker symbol select rising impulse All other relays are replaced by normal markers The conditions of the markers must now be combined starting with the open door path refer to fig 8 Consider the conditions that must be met to open the door Marker 1 and Marker 2 must be switched Marker 3 and Marker 4 must not be switched A self holding or latching contact has to be installed Marker 5 in fig 8 When the above conditions are met Marker 5 will be activated The normally open contact of marker 5 in parallel with markers 1 amp 2 becomes a self holding or latching contact This must be integrated in order to hold the action of the rising impulse marker M1 until the Door Closed limit switch Di2 or the Stop switch Di4 is activated thus stopping the door 19 HIQUEL Solution SLS 86 Step 5 Create path 1 Example of logic structure Actual function Marker 1 True Operate open door and if Marker 2 True or Marker5 True Door is closed and and Not Marker 3
49. the supply voltage before making any wiring modifications Ensure that the system cannot be switched on accidentally Ensure that the device and its surroundings are potential free Please refer to the specific installation and mounting instructions Qualified personal only should handle the device The device has to be mounted in such a way that no unintentional operation may occur All control and supply voltage wiring must be routed so that no inductive or capacitive interference or any other severe electrical noise disturbance may interfere with the device Supply voltage variation must not exceed the specifications in the technical details If so proper performance of the device can not be guaranteed Emergency installations according to EN60204 IEC204 VDE0113 must remain active in all modes of the automated installation Activation of the emergency installation must not cause an uncontrolled or undefined start cycle The software engineer has to make sure that no failure functions of the automated installation may occur when line faults or core faults arise Notwithstanding the above local regulations must be observed in all installations HIQUEL Solution SLS 86 Index Sij n 3 Index 3 Solo oL OD 2 id 6 Preface 7 Vleit eje X ties ae a aga 8 Technical Ito MAIN uuo ou aaa tess ie 9 Module connections ag ap aaa A eh eh eu 10 Base module SkS 86 ccc ie eee ee ee de 12 Memory c
50. trol is in nz the position ES Contact HEIZEN 1 HEATING Threshold for high 1 is active if the temperature ae E ot at TAG or at NACHT is lower imp emented than the set temperature Darstellung eines analogen Einganges Contact OFFEN 1 OPEN 1 iS Percentage value for 0 C Input voltage is OV active if channel 1 receives no FBR signal With this function the FBR control can be installed with a window contact If the window opens contact OFFEN 1 will be active and the heating will be switched off Threshold for low is the rated temperature for night Threshold for high is the rated temperature for day 96 HIQUEL Solution SLS 86 Digital output L1 Do1_1_14 Do018_1_14 Do1R_1_L4 Do1T Motor Motor Qe EK unse With the digital output you can change the status ON OFF of a digital output In addition to the normal output function you will find the objects SET output RESET output and TOGGLE output Reset input With the reset input you can initialise set to 0 timers counters or motor starters The reset input is used like a digital output Please note that you must insert the element you want to reset into your diagram before inserting a reset input to reset it 57 HIQUEL Solution SLS 86 Timer On delay BET With the On delay timer you can delay the status of any T4 point of the wiring diagram This delay can be used as often as required anywhere in the diagram by
51. y As the Config input is also used for programming the application module SLS86 has to be programmed Transfer application from PC to module before operating with TERMA Communication parameter Configure the text display as follows Baudrate 19200 8N1 CommMode Protected Refer to the Term4 Manual for details about adjustment opportunities Menu After activating the system a short message and afterwards the start display will occur SOLUTION SLS 836 USE Y to select lt gt to navigate 2001 by HIQUEL 85 HIQUEL Solution SLS 86 Navigate to the following menus by pressing the keys and gt STATUS SLS 66 REAL TIME CLOCK LIMERS COUNTERS RUN STOP HOSTISWITCEHES HOSTRELAIS EXT GEST CG Ob E UJ cb ur Choose the preferred menu with Y by pressing x you can leave the chosen menu A Status SLS 86 The status of the inputs and outputs of modules L1 and L2 will be displayed Line 1 inputs L1 inputs L2 outputs L1 outputs L2 Line 2 Voltage at L1 Di1 Voltage at L1 Di2 Line 3 Voltage at L1 Di3 Voltage at L1 Di4 Maximum displayed voltage value is 10V but you can also connect the L1 inputs with 24V Line 4 L1 Pot L2 Pot B Real Time Clock Choose the following menus B 1 SHOW DATES TIME Displays RTC data B 2 CHANGE TIME Bring the cursor into the right position by using the and gt keys Choose the preferred value with the keys and y Confi
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