Doepke. ProLine NG. Configuration Software for the Dupline Bus System. User Manual. ProLine NG Version 1.20 and newer. May 2010, Version 1.

Transcription

1 Doepke ProLine NG Configuraion Sofware for he Dupline Bus Sysem User Manual ProLine NG Version 1.20 and newer May 2010, Version 1.03

2 ProLine NG Configuraion Sofware for he Dupline Bus Sysem User Manual ProLine NG Version 1.20 and newer May 2010, Version 1.03

3 Regisered Trademarks IBM and IBM PC are regisered rademarks of he Inernaional Business Machines Corporaion. Microsof, MS-DOS and Windows are regisered rademarks, and Windows NT, Windows 2000, Windows XP, Windows Visa and Windows 7 are rademarks of he Microsof Corporaion. Liabiliy All informaion conained in his documen of Doepke Schalgeräe GmbH & Co. KG is proeced by copyrigh. The reproducion and processing, adaping and/or ransfer agains paymen of such informaion is permissible only wih he express wrien approval of Doepke Schalgeräe GmbH & Co. KG. The informaion in his manual is inended solely as cusomer informaion and does no consiue a binding guaranee or underaking. I is subjec o change a any ime, be i in echnical conen or in financial/commercial erms. Binding saemens can only be given following specific enquiries. Being non-binding, no liabiliy of any kind can be acceped for he accuracy of he informaion. The use of his documen is solely a your own discreion. Doepke Schalgeräe GmbH & Co. KG acceps no liabiliy for any damages arising from he use of his documen, in paricular soppage of operaions, loss of earnings, loss of informaion or daa or consequenial damages, excep in cases of compulsory liabiliy, e.g. as provided for under he Produc Liabiliy Law, or in cases of premediaion, gross negligence, absence of promised capabiliies, or because of infringemen of fundamenal conracual obligaions. Compensaion for infringemen of fundamenal conracual obligaions shall, however, be limied o conrac-ypical, foreseeable damage, provided here is no premediaion or gross negligence. Copyrigh Doepke Schalgeräe GmbH & Co. KG 2010

4 Table of Conens Doepke Chaper 1 - Inroducion Table of Conens 1.1 Wha is ProLine NG? Abou his Documen Convenions Abbreviaions and Terminology Documens Used...3 Chaper 2 - Basics 2.1 ProLine NG Versions Differences o ProLine 1.03/ Sysem Requiremens Insalling he Sofware The "Dupline Principle"...6 Chaper 3 - Operaion 3.1 General Informaion Sar-up and Exiing Saring Programme Consrucion Exiing The Help Sysem General Descripion General Informaion Help wih Objecs Help for every Seing Opion Selecing he Language Direc Selecion Selec New Files Saring a New File Opening an Exising File Saving Files Prining File Working wih Objecs Insering Objecs Changing Objecs Deleing Objecs Seing Parameers Descripive Texs Usage Copying, Cuing and Insering Tex Copying and Pasing Objecs Channel Generaor Seings Basic Seup General Descripion...17 I May 2010, Version 1.03 ProLine NG User Manual

5 Doepke Table of Conens Number of Dupline Channels Auo-sar afer Dupline Shor Saus of Channels a Resar Auomaic Updae of Realime Saus Time and Dae Seings Holiday Seup Chaper 4 - Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Overview Connecing PC and Channel Generaor Physical Inerfaces (COM por, USB, PCMCIA,...) Selecing he Serial Por Selecing he Por of he Channel Generaor Online Display Transferring Applicaion o Channel Generaor Reading he Applicaion from he Channel Generaor Loading a new Channel Generaor Firmware Communicaion beween Channel Generaors General Informaion Connecing Channel Generaors Seing he Communicaion Parameers Overview Selecing he Device Address Transfer Rae Seings for Time-ou Configuring he Daa Exchange General Informaion "Free Channel" (Blank) as Saus Display Exernal References AnaLink Daa Visualizing via Touch Screen or PC General Informaion Seup Neworks wih Radio Modem General Informaion Seings for he Cenral Uni ( Radio Modem Cenral ) Seings for Subsaions ( Radio Modem Subsaion ) SMS Seings for he DKG 21-GSM General Informaion Configuraion Hardware Seup SMS Seup Operaion SMS Evens Command Funcion Suppored ProLine Objecs ProLine NG User Manual May 2010, Version 1.03 II

6 Table of Conens Doepke Chaper 5 - The Objecs 5.1 Overview General Informaion Objec Descripions Parameers Timing Characerisics Sandard Objecs Free Channel ("Blank / Saus Display") Push Buon Funcion Toggle Swich Funcion Timer / Pulse Generaor (Real-) Time Swich The Maser Funcion Special Objecs Analog Sensors Moion / Proximiy Deecor Thermosa and Nigh Seback Synchronizaion Signal Alarm Sysems Overview General Characerisics Inpu/Oupu on one Channel Maser Funcions ISA Alarm Smoke Alarm Inruder Alarm Waer Alarm Common Siren Shuer Conrols Shuer Conrol Shuer Maser Couner and Analog Daa Transfer Muliplexer (Meer Coun Transfer) Muliplexer (Analog Daa Transfer) Chaper 6 - Logic Connecives 6.1 Inroducion The "Logic Connecives" Dialogue Srucure Usage Connecives and Funcions Ediing Connecives Funcioning Inversion and Slope Analysis Operaion Invering Slope Analysis Using Markers Markers for Semiconducor Inpus and Oupus III May 2010, Version 1.03 ProLine NG User Manual

7 Doepke Table of Conens Inernal Processing of Connecives Noes and Documenaion Chaper 7 - Examples 7.1 Inroducion Tour Sep 1: Time-conrolled lighing Sep 2: Time- and ligh-conrolled lighing Sep 3: Ligh-level conrolled lighing wih manual operaion Sep 4: Auomaic lighing wih manual operaion Sep 5: Auomaic lighing wih manual operaion (improved) Sep 6: Inclusion of a roller blind maser conrol Seleced Tasks Maser ON/OFF wih one Push-buon Two Funcions wih one Push-buon Two Funcions wih one Push-buon (ime-conrolled) Time-delayed Toile Venilaion Temperaure-conrolled Conservaory Window Holiday Conrol for Lighing and Shuers wih Disable Feaure Random Conrol Shuer Maser wih Sar/Sop Funcion Index... i ProLine NG User Manual May 2010, Version 1.03 IV

8 1 Inroducion 1.1 Wha is ProLine NG? Doepke Chaper 1 Inroducion 1.1 Wha is ProLine NG? Nowadays building auomaion sysems are sprouing up all over he place, wih each new sysem placing ever-higher demands on boh he user and he insaller. Dupline is differen: wih his bus sysem our objecive has been o creae a user-friendly environmen and provide pracical applicaion opions. Bu Dupline noneheless offers numerous possibiliies o carry ou and affec seings, hus reaining he flexibiliy of a bus sysem. This is done wih ProLine, our Windows based sofware programme which is available free-of-charge and which could be ermed he "inerface" beween man and he Doepke Dupline sysem - or, more accuraely: he channel generaor. Wih he inroducion of he new generaion DKG 20 and DKG 21-GSM channel generaors, which have been upgraded in many ways, ProLine has been provided wih so many innovaions ha we decided o rename i: ProLine NG. 1.2 Abou his Documen This manual describes in deail he funcions available wih ProLine NG. Alhough here are numerous common feaures wih ProLine, he many small differences have made i necessary o provide his separae manual exclusively for ProLine NG. Therefore, if you are working wih channel generaors DKG 1 and DKG 2, i would be advisable o refer o he manual specifically drafed for ProLine. Alhough exensive informaion is provided here, here are some subjecs which exceed he scope of his documen. There are some subjecs, however, which exceed he scope of his documen. Because of differing naional seings and insallaion configuraions, he range of Windows based insallaions is so exensive ha no every specific version wihin ProLine can be covered. We rus you will appreciae his. To ensure ha he manual is kep up-o-dae Doepke will assis you in every way: uilize our elephone suppor holine, our updae service, or he informaion available a hp:// always o be a he cuing edge. 1.3 Convenions For reasons of clariy, and in order o faciliae reading, here are some se markings relaing o working wih Windows. As far as possible hese convenions are adhered o hroughou he documen. Sar "a:seup" <File><Save> Over and underlined erms signify special keys or menu iems (also called "buons"). You will find hese eiher in Windows or ProLine. Texs shown in invered commas, prined in bold or ialics, describe wha has o be enered. The invered commas serve merely as ex limi markers and do no need o be enered. Texs se in greaer han/smaller han symbols, prined in bold or ialics describe menu iems or menu sequences which are necessary. The specified commands generally signify muli-level menu iems. Page 1 May 2010, Version 1.03 ProLine NG User Manual

9 Doepke 1 Inroducion 1.4 Abbreviaions and Terminology 1.4 Abbreviaions and Terminology Abbreviaion BCD-Code Checkbox COM1/COM2/ COM3/COM4 Cursor I/O FPROM Icon ISA LCD LED CET/CEST Modbus Objec Descripion Binary Coded Decimals. In daa processing his is a code in which all he digis of a decimal number are represened by a four-line binary number (erad). The addiion of wo coded decimal numbers is carried ou by erad for each individual digi. Box wihin a dialogue field ha may be icked (acivaed) or deseleced (de-acivaed). Several checkboxes can be acivaed simulaneously. See also radiobuon. Communicaion por: plug-in connecors on he PC o enable i o be linked o oher communicaion parners. Marker (poiner or similar) on he screen showing a which poin he nex inpu will be. Inpu/oupu General erm for componens on bus sysems. Flash Programmable Read-Only Memory: memory module which - by applying a volage - is permanenly programmed wih daa. Graphic symbol for user programmes, daa ec. on he screen. Formerly: "Insrumen Sociey of America", now "Insrumenaion, Sysems, and Auomaion Sociey" - a sociey for he sandardizaion of insrumens and sysems in auomaing echnology. Liquid Crysal Display Ligh Emiing Diode: a semiconducor diode which emis ligh. Cenral European Time/Cenral European Summer Time. Proocol for exchanging daa via serial pors; he basic proocol "Modbus I RTU" was sandardized by Messrs. Gould Elecronics. Used in his documen o denoe a funcion, i.e. he execuion by he sofware of an inpu or oupu, e.g. a roller-blind conrol. In ProLine many devices have a specific objec assigned o hem in order o make available cerain seings which are decisive for he funcioning of he device. ProLine Configuraion programme for channel generaors DKG 1 and DKG 2. ProLine NG Configuraion programme for channel generaors DKG 20 and DKG 21-GSM. In his documen he erms ProLine and ProLine NG always refer o he version Pro- Line NG for he new DKGs. Radiobuon For he selecion of several acivaing fields, only one of which can be called up a any one ime. Spli I/O Spli Inpus/Oupus: A feaure of he Dupline bus sysem: inpu and oupu of each channel are normally independen of each oher. A connecion beween boh direcions is achieved only afer configuraion of he channel generaor. Touch Screen Panel Screen by which commands can be enered via direc conac wih he screen surface. ProLine NG User Manual May 2010, Version 1.03 Page 2

10 1 Inroducion 1.5 Documens Used Doepke 1.5 Documens Used Reference Descripion [1] Dupline Produc Informaion and Planning Aid [2] Dupline Sysem caalogue (Carlo Gavazzi Inernaional) CAT DUP GER 13 06/00 [3] ProLine user manual Page 3 May 2010, Version 1.03 ProLine NG User Manual

11 Doepke 2 Basics 2.1 ProLine NG Chaper 2 Basics 2.1 ProLine NG Versions ProLine is closely linked o he sysem sofware of he channel generaors - basic funcions can only be added by simulaneously changing boh he channel generaors' and he ProLine sofware. Such changes occurred when version 1.xy was superseded by version 3.xy of he DKG 1/2 (ProLine) generaors, and even more so wih he DKG 20 and DKG 21 (ProLine NG ). The correlaion beween DKG 1/DKG 2/DKG 20/DKG 21-GSM and ProLine/ProLine NG is as follows: DKG Type DKG Version ProLine NG Version DKG 1/DKG 2 up o 1.04 ProLine 1.03 DKG 1/DKG 2 3.xy ProLine from 3.07 DKG 20/DKG 21-GSM 1.03 ProLine NG 1.02 DKG 20/DKG 21-GSM 1.20 / 1.21 ProLine NG 1.20 Warning: Always ensure ha you are using he appropriae ProLine version for he DKGs. Using an incorrec version could resul in unforeseen consequences Differences o ProLine 1.03/3.07 There are cerain differences beween ProLine and ProLine NG ; he mos imporan of which are lised in he able below: Funcion DKG 1/2 - ProLine 3.xy DKG 20/21 - ProLine NG Nework Wih exernal maser and up o15 slaves. Daa exchange mus be programmed. Inegraed wih configurable maser and up o 31 slaves. Auomaic daa exchange via exernal references and saus display. 2 nd serial por No provided Provided Radio modems No connecion provided. Connecion a COM2 possible. Remoe conrol via SMS Only wih ex. GSM 8 modem (1) Inegraed in DKG 21. Markers W1..Z8 can be used Q1..Q8 reserved for inpus/oupus, R1..Z8 available Dae / ime Display and seing direcly a DKG. Synchronizaion only via Pro- Line. No reseing a DKG. Synchronizaion via ProLine NG NG, DCF clock, nework or visualizing componen. Time ransfer via Dupline Yes, on wo channel groups No available ProLine NG User Manual May 2010, Version 1.03 Page 4

12 2 Basics 2.1 ProLine NG Doepke Funcion DKG 1/2 - ProLine 3.xy DKG 20/21 - ProLine NG Display of channel swich saus or analog daa No available Available Resoring channel saes No available Afer resaring or loading of applicaion (2) Documenary descripion No available Available "Thermosa" and "Nigh seback" objecs No available Available Firmware updae By forwarding o facory By inegraing a file (1)The GSM 8 modem is no longer available. (2)This funcion does no work on all DKG devices. I is quie obvious ha he new generaion ("NG") of channel generaors already offers many more funcions. Bu neiher he DKG 1 nor he DKG 2 should be consigned o he "scrap heap". In hose circumsances where no neworks are required, hey will coninue o give reliable and saisfacory service. However, if neworks, a precise radio ime, radio modems or exended access o DKG daa are required, hen here is no alernaive bu he new generaion Sysem Requiremens ProLine NG has he following operaing environmen requiremens: PC Monior Operaing sysem Requiremens IBM compaible PC, 486 processor minimum (preferably: Penium or Ahlon) 8 MB RAM minimum 5 MB free hard disk space minimum mouse floppy disk, CD or DVD drive for insalling ProLine NG 1 free serial por (COM1, COM2, COM3 or COM4) resoluion 640 x 480 Pixel minimum 256 colours minimum Microsof Windows 95/98/ME/NT 4.0/2000/XP/Visa/7 In oher words: ProLine NG can be insalled and sared using sandard compuers, provided Windows 95 or a newer Microsof operaing sysem has been insalled. This also applies, of course, o noebooks and lapops, where i mus be specifically ensured ha a free serial por is available Insalling he Sofware The ProLine NG sofware is available on our Building Sysem CD or free of charge via he Inerne a hp:// where you will always find he laes version. To iniiae he insallaion, click on he link and selec "Open" a file download. Then follow he insrucions of he insallaion assisance. Alhough i is normally possible o insall several ProLine and ProLine NG versions in one PC, we recommend ha you always use he laes version and erase older versions before insalling newer sofware. Page 5 May 2010, Version 1.03 ProLine NG User Manual

13 Doepke 2 Basics 2.2 The "Dupline Principle" 2.2 The "Dupline Principle" Dupline consiss of hree componens: 1. a cenral uni (channel generaor) 2. inpus and oupus, and 3. a ransmission medium, e.g. a win-wire lead. In is basic condiion, i.e. no configured, he channel generaor merely generaes he Dupline carrier signal used for communicaion. Mos inpu and oupu devices have no inelligence of heir own eiher. The allocaion of an inpu channel o he oupu channel which i is o conrol is carried ou by assigning an address wih he DHK 1 hand encoder. Normally boh channels will be given he same address wihin he range A1 o P8. Any inpus which are o be used in addiion o swich his oupu, and all oupus which are o be so swiched, are hen given his same address. In his way inpus and oupus know ha hey are o ac ogeher, albei no in which manner. The exac way in which hey funcion is deermined a he channel generaor and requires a configuraion file which is provided by means of ProLine NG and which is hen loaded. Using he example of a simple ligh swich, he following diagram illusraes he ineracion of all componens: A1 A1 To implemen his ligh swich layou proceed as follows: 1. Connec he push-buon o inpu T1 of an operaing signal sensor and code he firs channel o address A1. 2. Connec he lamp o he firs oupu of a relay module (e.g. DRM 8) and code he firs channel also o address A1. 3. In ProLine NG configure channel A1 as a push buon funcion and ransfer he applicaion o he channel generaor. This procedure can be aken as he basis for all oher applicaions. There are, of course, an infinie number of possible variaions. For furher deails on communicaion and layou of he Dupline bus sysem refer o he Dupline Planning Aid, which we will be happy o send o you, or download he informaion from our websie a hp:// ProLine NG User Manual May 2010, Version 1.03 Page 6

14 3 Operaion 3.1 General Informaion Doepke Chaper 3 Operaion 3.1 General Informaion Wih ProLine NG we have creaed a user inerface which has been kep deliberaely simple whils, a he same ime, offering a hos of opions for seing he parameers of insallaion objecs. The main feaures of ProLine NG are: wo-window layou (wih some excepions), lile menu deph, efficien shorcu keys, and help ex for all objecs and seing opions. To sum up, ProLine NG could be called an easy-o-use "ool" - and, as wih all ools, i is essenial o learn how o handle i. This chaper is inended o suppor you in his. 3.2 Sar-up and Exiing Saring Afer successful insallaion (see Chaper "Insalling he Sofware" on Page 5) you will see he icon for ProLine NG in he Windows sar menu under <Sar><Programs> <Doepke Schalgeraee><ProLine NG> which appears as follows: ProLineNG 1.20 Click his enry wih he mouse or selec i wih he keyboard, and ProLine NG will sar. Page 7 May 2010, Version 1.03 ProLine NG User Manual

15 Doepke 3 Operaion 3.2 Sar-up and Exiing Programme Consrucion Afer saring ProLine NG wo programme windows will appear. The following picure illusraes he layou in principle; however, in he window on he righ he sar page has already been replaced by an objec dialogue: Menu Objec Objec Dialogue Address Marix Channel Saus Connecion Saus The Menu permis direc access o general funcions of he programme, e.g. o open, save or prin files. Here you can also specify he seings for holidays and languages. The Address Marix shows he channels of he Dupline sysem; here specific funcions - or more accuraely Objecs, such as moion deecors - are assigned o he channels. For each of such objecs he righ window, or he Objec Dialogue, provides he relevan mask. To find ou wheher your PC is conneced o a DKG 20/DKG 21-GSM, check a he boom of he lef programme window. Here he device address as well as he ime of any conneced DKG will be shown Exiing Menu: <File><Exi> Keyboard: Al+X There are hree opions for exiing from ProLine NG : 1. By means of he menu sequence <File><Exi>, 2. By Clicking "x" in he upper righ hand corner of he lef programme window, or 3. By using he shorcu key Al+X. I is immaerial which one of hese you selec - in each case you will be asked wheher you wan o save any changes made in he configuraion daa. ProLine NG User Manual May 2010, Version 1.03 Page 8

16 3 Operaion 3.3 The Help Sysem Doepke 3.3 The Help Sysem The Help sysem makes iself "known" a many poins wihin ProLine NG : General descripion, In he Help menu ("General Informaion"), For each objec, and For each special seing opion ("conex-relaed help") General Descripion Informaion concerning he programme and conac addresses can be accessed via he <Help><Abou program> menu sequence. The informaion is displayed on he righ programme window and will also auomaically open afer saring he programme. The following informaion will be displayed: Doepke's elephone/fax number and address, and The version of he programme currenly in use, e.g. "1.20" General Informaion General help can be accessed via he <Help><General Informaion> programme sequence and provides he following informaion: Procedure o add objecs, Keyboard shorcus, and Addiional ips. The individual poins will be explained in deail in he following chapers Help wih Objecs Press F1 o ge a deailed descripion of every objec enered in he lef programme window. Firsly, however, i mus be ensured ha he objec has been correcly seleced, i.e. i is frequenly necessary o click he icon of he objec wih he lef mouse buon. Noe: In he case of objecs wih several componens, such as e.g. an inruder alarm wih acive deecor, passive deecor ec., he help relaes o ha paricular ype. Thus, here are differen help exs for acive and passive deecors (normally-closed and normally-openconacs) Help for every Seing Opion Many Help exs are also available in he r.h. window of ProLine NG : Help is provided for each individual seing opion of every objec by clicking a he objec and hen pressing he F1 key. The following illusraion demonsraes his using he imer as an example: by selecing he Acivaion by Pulse followed by pressing F1 he Help ex below appears: Mouse Click + F1 Page 9 May 2010, Version 1.03 ProLine NG User Manual

17 Doepke 3 Operaion 3.4 Selecing he Language 3.4 Selecing he Language The defaul language of ProLine NG menus and Help exs is German. There are wo opions for swiching o oher languages: 1. English, Danish and German can be seleced direcly via he menu. 2. Oher available languages, e.g. Polish, may be added via a dialogue box Direc Selecion Menu: <Opions><Language><...> Keyboard: no shorcu By following he <Opions><Language> menu sequence you can direcly access any languages already defined. Here, oo, he language icked is he one currenly seleced. Noe: The selecion in his menu may vary - depending upon he languages se-up wih <Selec New>. Please refer o he following chaper Selec New In order o adap i o he counry in which i is being used, ProLine NG provides an opion in he <Opions><Language><Selec New> menu which enables you o change he predefined language selecion (see chaper above). If you selec his menu iem, he following dialogue will appear in he lef programme window: 1. Menu enry Buon o display language files 2. Menu enry To save seings and exi dialogue 3. Menu enry The menu enries 1 o 3 can be changed wih he relevan Browse buon on he lef. By clicking wih he mouse on one of he buons an "Open file" dialogue will appear, which hen permis anoher language file o be seleced. The names of he language files are always in he forma "<language>.da" e.g. "english.da" or "deusch.da". (Depending upon he se-up of your compuer, i may be ha you are unable o ProLine NG User Manual May 2010, Version 1.03 Page 10

18 3 Operaion 3.5 Files Doepke see he "da" suffix. The se-up can be changed in he folder opions (sysem conrol)). When selecing new language files please observe he following: There mus be a Help file - in he same folder. The name of his Help file mus consis of he firs hree leers of he Language file ogeher wih he suffix "_hlp.da", hus e.g. "eng_hlp.da" if he Language file name is "english.da". The Help and Language files may be neiher erased nor he folders renamed. Should his occur, however, error messages such as "Error by reading Language file" or "Error by reading Help file" will appear when he program is nex sared. Insead of menu headers only numbers will be displayed, e.g. "<- 1-->. 3.5 Files In addiion o he language file, ProLine NG recognizes only hose applicaion files ending in ".dkg" or ".x16" 1. Such files can only be opened, saved or prined via he <File> menu, whereby i is irrelevan wih which ending you are working Saring a New File Menu: <File><New> Keyboard: Crl+N Via he command <File><New> you can always sar a compleely new applicaion. ProLine NG delees all objecs in he marix and also reses o he basic seings Opening an Exising File Menu: <File><Open> Keyboard: Crl+O You can open an already exising file - in he same way as oher Windows applicaions - by using he command <File><Open>. A dialogue box will hen appear which enables you o navigae your hard drive. Anoher possibiliy of opening an exising file is offered via he "Hisory" opion in he <File> menu: here he four files las opened are displayed and can be direcly accessed Saving Files Menu: <File><Save> Keyboard: Crl+S <File><Save as...> Crl+A Wih he <File><Save> menu iem you can save new or edied applicaions eiher on hard drive or floppy disk. If he file already exiss, i will be overwrien; if i is a new file, you will be asked for a file name. Wih he <File><Save as...> menu iem, on he oher hand, you can save he curren applicaion under a new name. Here, oo, you will herefore be asked for a file name Prining File ProLine NG suppors you in providing projec documenaion by auomaic prining of various liss. The prinou will always be on he sandard priner se up a he ime of prining. This means ha he daa oupu can be direced o he usual inkje or laser priners, bu also ino a file, e.g. as PDF file. 1. This ending derives from he designaion given o DKG by Messrs. Carlo Gavazzi.. Page 11 May 2010, Version 1.03 ProLine NG User Manual

19 Doepke 3 Operaion 3.5 Files The following opions are available: Command <File><Prin> <Address Lis> <File><Prin> <Maser Channels> <File><Prin> <Time Swich Channels> <File><Prin> <Logic Connecives> <File><Prin> <SMS Seup> <File><Prin> <Exernal References> Prinou Objecs such as e.g. push buon (oggle swich) funcion, moion deecor, analog sensors, alarm sysems, decenral, i.e. local, roller-blind Up-Down conrols Parameers for each objec, e.g. roll ime, inpu range, limis All maser commands, i.e. maser funcions and cenral roller-blind conrols Parameers for each objec Lis of holidays All real-ime faciliies wih swich imes Lis of logic connecives: he noes will be prined o he righ of each seing (please refer o Chaper 6.4 "Noes and Documenaion" on Page 122) Parameers for he SMS message wih phone numbers, dial-ou mode ec. Lis of channels ha can be acivaed by exernal references from he DKG nework. Noe: Should here be no daa for a command o prin - e.g. if no exernal references have been used - he message "Nohing o prin" will appear. ProLine NG User Manual May 2010, Version 1.03 Page 12

20 3 Operaion 3.6 Working wih Objecs Doepke 3.6 Working wih Objecs The erm "objec" can mean a range of hings. In he conex of ProLine NG we refer o funcions which are assigned o he channels, or addresses, as "auomaing objecs", or "objecs" for shor. Typical examples are he push buon or oggle swich funcions, he moion deecor and he roller-blind conrol. A each of he 128 addresses you can inser an objec, bu i mus, of course, be appropriae for he hardware which has been configured wih his address. To breahe "life" ino he applicaion here are various operaions which can be carried ou wih i. These are explained in deail in he following chapers Insering Objecs There are wo opions for insering an objec ino he lef hand marix field: via he righ mouse buon and via a leer key. Which opion you choose depends on your personal preference. Insering wih he mouse Insering wih he mouse requires he following seps: 1. Posiion he mouse poiner on he address where you wan o inser he objec. 2. Press he righ mouse buon. 3. From he Lis which appears selec he relevan objec. Wih ProLine NG version 1.20 he selecion we have made for address B1 will look as shown on he righ. When he selecion has been made he appropriae icon for he chosen objec appears ogeher wih, on he righ hand side, he associaed configuraion parameers. Insering via he keyboard Wih ProLine NG objecs may also be insered by pressing a single key. To do so proceed as follows: 1. Click once a he address where you wan o inser he objec. 2. Now press he key assigned o he objec (see able below) you wan o inser. 3. If you wan o inser furher objecs in his way, jus press again anoher relevan key. The following objecs can be insered by pressing a key: <B> <I> <S> Key Objec Blank / Saus Inruder Alarm Smoke Alarm Page 13 May 2010, Version 1.03 ProLine NG User Manual

21 Doepke 3 Operaion 3.6 Working wih Objecs Pasing afer copying You may also inser objecs afer copying. For deails please read Chaper "Copying and Pasing Objecs" on Page Changing Objecs To edi he configuraion of an objec... <A> ISA Alarm <R> (Real-) Time Swich <0> (Null) Push Buon Funcion <F> Toggle Swich Funcion <T> Timer <W> Waer Alarm <M> Maser Funcion... click he objec in he lef marix field using he lef mouse buon. On he righ hand side a dialogue field wih parameers will appear which you can hen change. To exchange one objec for anoher click he objec in quesion wih he righ mouse buon and selec a new one from he menu which appears Deleing Objecs Channels can be "erased" by removing heir funcion. To do so configure he objec "Blank" for he relevan channel in he address marix Seing Parameers To se he parameers for ProLine NG objecs you can usually proceed according o he rules summarized in he following able: Channel Address Field Acion Descripion Ener Inver Delee Change Key Objec Posiion he cursor Type in leer and channel number Posiion he cursor Press - (minus) key Posiion he cursor Press Del or - (minus) key Posiion he cursor Overype leer and channel number ProLine NG User Manual May 2010, Version 1.03 Page 14

22 3 Operaion 3.6 Working wih Objecs Doepke Field Acion Descripion Times/Daes Ener Posiion he cursor Type in numbers Change Posiion he cursor Overype numbers Delee Posiion he cursor Press Del or - (minus) key Nex Field Press TAB or Ener Descripive Texs Usage Each objecs offers a possibiliy o you o assign wo descripive exs wih a lengh of 31 characers each; ProLine NG dumps boh exs during he prin-ou of he address lis. Descripion This general ex is used for receiving and sending SMS (see Chaper 4.5 "SMS Seings for he DKG 21-GSM" on Page 41). Documenary Descripion Here, you can give informaion which shall no appear in SMS, e.g. drawing codes or hins. Noe: Under no circumsances use special characers as e.g. [ ] or [ ] (quoaion marks) [,] (comma) erms like Ein, Aus, On or Off These characers and erms can lead o problems during SMS ransfer and during opening of files by ProLine NG Copying, Cuing and Insering Tex One of he few insances where working wih ProLine NG differs from using Windows is he ediing of e.g. descripive ex, because here no shorcu keys (Crl+C, Crl+X, Crl+V) can be used. Insead, for hese asks please use he funcions which appear in he menu when clicking wih he righ mouse buon a he relevan box Copying and Pasing Objecs A paricularly useful faciliy when configuring he channel generaors is he possibiliy of copying complee objecs - including heir full configuraion - and insering hem as many imes as may be required. Menu: Righ mouse buon <Copy> Keyboard: Crl+C Righ mouse buon <Pase...> Crl+V Page 15 May 2010, Version 1.03 ProLine NG User Manual

23 Doepke 3 Operaion 3.6 Working wih Objecs To copy an objec......click he objec in he lef marix field wih he righ mouse buon and selec he command <Copy>. Or:... click he objec in he lef marix field wih he lef mouse buon and simulaneously press Crl+C. To pase in an objec click he objec wih he righ mouse buon and selec he command <Pase...>. ProLine NG hen indicaes in he opened menu from which address he copied daa originae. Or:... click he objec in he lef marix field wih he lef mouse buon and simulaneously press Crl+V. ProLine NG User Manual May 2010, Version 1.03 Page 16

24 3 Operaion 3.7 Channel Generaor Seings Doepke 3.7 Channel Generaor Seings Wih he expanded funcionaliy of he new channel generaors you are now able o make a wide range of seings in ProLine for he DKG. We have made no aemp o deal in a single concenraed manner wih hese seings which, ogeher wih heir applicaion(s), are sored in he channel generaor, bu raher o explain hem as and where hey are needed. The following lising gives an overview of where you can find he seing deails: Subjec Chaper Page Noes Basic Seup Seings for resaring and dae & ime Holiday Seup Specifying he special days for ime swich channels Couner and Analog MUX Seup Seings for ransfer of couner and muliplex daa Logic Connecives Inerlinking he channels SMS Seup Se-up of he inernal GSM modem Communicaion Seup 4 21 Configuraion of serial inerfaces Basic Seup The main seing opions are available in he <Basic Seup> dialogue which is accessed via he <Edi> menu iem General Descripion For general applicaion deails, e.g. projec name, execuor, daa, ec., he "General descripion" box provides for ex of up o 255 characers o be enered Number of Dupline Channels In respec of communicaion on he Dupline signal lines, he <Edi><Basic Seup> menu enables an imporan funcion o be changed: ha of he number of Dupline channels. Wih his seing you can adjus he sysem o he requiremens of he applicaion by seing he number of channels o a figure beween 16 and 128. I is herefore always possible o adap Dupline and o increase he overall clariy when no all channels are needed. Furhermore, his seing has he effec of reducing he cycle imes on he bus when only a small number of channels are involved. This cycle ime varies beween 24 ms (16 channels) and 136 ms (128 channels). Page 17 May 2010, Version 1.03 ProLine NG User Manual

25 Doepke 3 Operaion 3.7 Channel Generaor Seings Auo-sar afer Dupline Shor Here you are given he opporuniy of deermining he behaviour of he DKG following a shor-circui on he Dupline signal lines. If his opion has no been seleced he DKG will no auomaically sar he process sequence afer a shor-circui, bu needs o be rese (power off - on). If his opion has been seleced he DKG will resar he ask process as soon as he shor-circui has been correced. A resar is herefore unnecessary Saus of Channels a Resar Wih he aid of his opion you can specify - from firmware version 1.04 onwards - wheher bisable channels (oggle-swiches, ime swiches) are o be rese o heir previous saus afer a resar of he DKG. If his opion has no been seleced he channels configured as oggle or ime swiches will be rese o "0". If his opion has been seleced he channels configured as oggle or ime swiches will be rese o he saus which hey had before he resar. Closely linked o his is he seing <Channel Delay (in 0.1 s)>. Here you can only selec a figure if you have acivaed he opion <Rerieve Saus of Channels upon Resar>. Wih his seing you can deermine he inerval beween he process sequence of he channels: Specify "0" if all channels are o be resared simulaneously afer a resar. Ener a figure beween 1 and 59 in order o reinsae he channels one by one a an inerval of 0.1 s o 5.9 s Auomaic Updae of Realime Saus Wih his opion you deermine he behaviour of ime swiches during a resar of he DKG and when loading an applicaion on o he DKG. If his opion has no been seleced he saus of he ime swiches will no be affeced during a resar / ransfer. If his opion has been seleced he DKG will check wheher he ime swich should be acivaed according o he swiching ime(s) and, if applicable, swich on he clock channels. Noe: Noe: The DKG carries ou he on or off he swiching operaion only if here is exacly one swiching ime and he inernal ime seing mees his range. The <Rerieve Saus of Channels upon Resar> seing has prioriy over he <Auomaic Updae of Realime Saus afer Download of Configuraion and Sysem Power-Up> opion Time and Dae Seings Because of he changed hardware - he DKG no longer feaures a display and buons - oher opions for synchronizing ime and dae have been creaed. There are basically hree synchronizing opions: 1. Auomaic via he buil-in DCF clock; 2. Auomaic as slave wihin a DKG nework, and 3. Manually via ProLine. For DKGs, which are par of a DKG nework and also have a DCF anenna conneced, he prioriy applies as per he above lis. ProLine NG User Manual May 2010, Version 1.03 Page 18

26 3 Operaion 3.7 Channel Generaor Seings Doepke The synchronizaion mehods differ as follows: Synchronizaion via DCF radio signal Provided he DCF-acive anenna DDA 1 (Order No ) is conneced o he DKG and recepion of he DCF77 ime signal from Rugby (GB) is possible, he DKG will synchronize he inernal clock wih he DCF ime signal. Imporan poins o remember are: Afer he DKG is swiched on i may ake several minues before synchronizaion wih he DCF ime akes place. If recepion of he ime signal is disruped, he DKG will ry o synchronize he clock via he nework - where provided. If here is no nework i will reain he same ime and calibrae he seconds according o he mains frequency (provided he <Synchronize Clock wih Mains Frequency> is swiched on). Upon receiving he valid ime signal any slave in he DKG nework will ignore he ime sandard of he maser as well as any manual synchronizaion. However, a emporary ime change may occur. Tip: The saus of recepion is displayed in he lower par of he <Basic Seup> dialog. Synchronizaion via DKG nework Slaves conneced o a DKG nework auomaically receive he ime seing from he nework maser. I is herefore advisable eiher o adjus i manually or - preferably - o equip i wih he DCF anenna DDA 1 (Order No ). In his conex please noe, Tha DKGs synchronized via he nework will ignore manual reseing of he ime via ProLine. Tha in he even of nework failure he inernal clock will coninue o be operaive and be calibraed by he mains frequency if he <Synchronize Clock wih Mains Frequency> opion has been swiched on. Manual synchronizaion The ime ransmission during an applicaion ransfer has now been superseded by a buon wih which you can manually synchronize he ime of he channel generaor wih he PC's clock (<Se Dae/Time o:>). Please noe he following: If a DCF anenna is conneced o he DKG o be synchronized and he radio ime signal can be received, he DKG will, afer a shor delay, overwrie he se ime wih he radio signal ime. If you synchronize he clock of a slave wihin a DKG nework he se ime will, afer a shor delay, be overwrien wih he ime of he nework maser. The clock of he DKG will no be se by loading an applicaion. In he case of channel generaors which neiher receive he DCF ime signal nor are synchronized via a maser in a DKG nework you should, if necessary, acivae he following opions: Auomaic Dayligh Saving (CET/CEST) This seing insrucs he channel generaor o carry ou he summer and winer ime reseings in accordance wih European regulaions. This means: Sar of summer ime: las Sunday in March from 2:00 hrs CET o 3:00 hrs CEST; Sar of winer ime: las Sunday in Ocober from 3:00 hrs CEST o 2:00 hrs CET. Page 19 May 2010, Version 1.03 ProLine NG User Manual

27 Doepke 3 Operaion 3.7 Channel Generaor Seings Noe: The summer / winer ime reseing is carried ou auomaically upon receip of he DCF ime signal. Synchronize Clock wih Mains Frequency Anoher opion for increasing he accuracy of he clock is calibraion by he mains volage frequency. Wih mos elecriciy suppliers his is very sable - when assessed over a longer period - and hus ends o offer good accuracy. In order o uilise his calibraion mehod he <Synchronize Clock wih Mains Frequency> opion needs o be swiched on Holiday Seup Holidays and vacaions, for which special arrangemens can be se up in he real-ime objecs and in he real-ime faciliies of he maser funcion, are se separaely in he <Edi><Holiday Seup> menu. They apply o he whole applicaion and are sored in he channel generaor during downloading. The real-ime channels are only acivaed during he specified holiday(s) when he On ime is been passed and he "H" has been seleced in he weekday seings. The dialogue window appears as follows: Several days One day Noe: I is necessary o confirm he firs enry of a monh or day wih he Ener key - only hen can he field o he righ be edied. When he fields have a whie background you can use he TAB key o "jump" o he nex field. To change he daa selec he relevan box and simply ener he new daa; o delee enries use he Del or - (minus) key. ProLine NG User Manual May 2010, Version 1.03 Page 20

28 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Doepke Chaper 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Overview ProLine NG has been considerably expanded - in comparison wih he ProLine versions for he DKG 1 and DKG 2 - paricularly in respec of communicaion. This chaper shows you How o use he serial pors of he DKG 20 and DKG 21-GSM; How o load applicaions direcly or via he nework on o he DKG; How o updae he sysem sofware of a DKG, and How o se up he communicaion for visualizing componens. Afer saring ProLine NG - and provided connecion o he PC is correc - you will already noice ha communicaion is in progress: ProLine auomaically reads he ime and saus of he channels. In addiion o esing he communicaion, his also enables you o esablish which channels are swiched on or off and which analog daa hey are ransmiing, provided hey have been so configured Connecing PC and Channel Generaor Physical Inerfaces (COM por, USB, PCMCIA,...) For communicaion wih he DKG we advise using PCs wih an inegraed serial COM inerface. The communicaion wih his ype of inerface works very reliable under all versions of Windows. However, oday only a few noebooks are equipped wih a "rue" inerface, werden heuzuage nur noch wenige Noebooks mi einer echen Schniselle ausgesae, so ha under cerain circumsances one of he following alernaives has o be used: Serial PCMCIA or ExpressCard Adaper Unil now, his ype of inerface card could be used wihou problems under all versions of Windows and offers a wide range of differen seings. Evenually he Laency Time has o be adjused (see below). Eherne Por Server Por server offer an efficien way of communicaion wih he DKG over eherne. In case of using a cross cable, a direc connecion beween PC and por server can be esablished which does no require addiional nework componens. We offer such a por server named DCI 2", aricle no USB-/RS232 Converer Alhough aracive regarding heir price, such converers ofen implicae communicaion problems under differen versions of Windows. There are only wo differen chips on which he design of hese converers is based: Prolific und FTDI (hp:// The laer one are working raher reliable if he Laency Time (in <Device Manager><Pors (COM & LPT)><USB Serial Por><Advanced>) has been adjused o 16 ms as described below. Noe: The emulaed inerface has o be locaed beween COM1 and COM2, independenly from he choice of hardware. This normally can be se up in he Windows device manager. Page 21 May 2010, Version 1.03 ProLine NG User Manual

29 Doepke 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Einsellung der Laency Time (Warezei vor dem Senden) Selecing he Serial Por Menu: <Opions><Serial Por><...> Keyboard: no shorcu ProLine NG requires wo hings in order o be able o communicae wih he channel generaor: 1. a connecing cable beween he serial por of he PC (COM1 o COM4) and he channel generaor (Doepke DKK 1, Order No ), and 2. a free serial por. Decide which connecion you wan o use - e.g. COM1. These pors are normally marked a he rear of your PC. Having seleced he por, ProLine NG needs o be se up accordingly. This is easily done via he menu command <Opions><Serial Por>. Here you can hen selec beween <Com 1> and <Com 4>. The por marked wih a ick is he seleced connecion. ProLine NG User Manual May 2010, Version 1.03 Page 22

30 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Doepke Tip: Noe: As a rule he COM1 por is seleced during insallaion, so ha - should you wan o use COM1 - no changes need be made. If you have only one 25-pole connecion available, you can conver his o a 9-pole connecion by using Doepke's DKK 3 adaper (Order No ) Selecing he Por of he Channel Generaor The following able shows which pors he channel generaors make available and wha hey may be used for: Por COM1 COM2 COM3 Descripion RS232 inerface for Loading he applicaion on o he local DKG (1) ; Loading he applicaion on o DKGs linked o he local DKG; Loading he sysem sofware (firmware) on o he local DKG. RS232 por for connecing a PC or a ouch screen for visualizing he daa of he local and oher DKGs in he nework. RS485 por for connecing up o 32 DKGs in one nework. (1)The 'local' DKG is he channel generaor o which he PC is direcly conneced. ProLine NG indicaes ha he connecion is funcioning properly by a flashing ligh a he boom of he lef programme window (see nex chaper) Online Display Once he PC inerface is conneced o he COM1 por of he DKG i immediaely becomes apparen jus how communicaive he new channel generaors really are. For as soon as his has been accomplished he DKG sars o reques he device address, he se ime and all Dupline daa a he boom of he lef program window: Communicaion indicaor Device address Se ime of he DKG If he connecion is successful he inensiy of he green indicaor ligh increases from a weak glow o srong. Daa of he Dupline channels are also displayed, wih ProLine naurally being able o disinguish wheher hese daa are valid. The daa will be displayed in he righ programme window if you click he rel- Page 23 May 2010, Version 1.03 ProLine NG User Manual

31 Doepke 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor evan channel in he lef window: Display Descripion Applicaion in ProLine NG no loaded Channel in DKG configured e.g. as push buon (oggle-swich) Here ProLine NG recognizes his as a digial daa and displays is saus. Applicaion in ProLine NG no loaded/loaded Channel in DKG configured as ligh sensor Here ProLine NG displays he AnaLink daa as he basic value wihin a range of Applicaion in ProLine NG loaded: channel configured as ligh sensor. Channel in DKG configured as ligh sensor Here ProLine NG displays he scaled AnaLink daa, i.e. he acual ligh inensiy in Lux. When a synchronizaion or daa channel has been seleced, he displayed figures are no represenaive. Noe: Please noe ha only he daa of ha DKG are shown o which he PC is direcly conneced. There is no visualizaion across he nework Transferring Applicaion o Channel Generaor Menu: <File><Wrie o Generaor> Keyboard: Crl+W Once all employed channels have been configured, he applicaion or file can be ransferred on o he channel generaor. This is done wih he command <File><Wrie o Generaor>. Warning: Transferring an applicaion may cause devices o swich randomly on or off. Therefore, always ensure ha no persons or animals are wihin he danger area. Prerequisies for he perfec ransfer are: Using he correc version - please refer o Chaper "Versions" on Page 4; The correc connecion from he PC via he DKK 1 cable; The correc selecion of he por in ProLine NG (see Chaper "Selecing he Serial Por" on Page 22). Properly funcioning communicaion across he nework, should he PC be conneced o he Modbus maser and he applicaion is o be ransferred on o a slave. ProLine NG User Manual May 2010, Version 1.03 Page 24

32 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Doepke If he PC is conneced o a modbus maser he following dialogue box will appear prior o he ransfer. Selec in he <Device Address> box he device address of he channel generaor whose configuraion is o be read via he nework 1. Noe: Please noe ha he clock is no auomaically adjused when ransferring he applicaion. A descripion of how manually o synchronize he ime wih he PC is provided in Chaper "Basic Seup" on Page Reading he Applicaion from he Channel Generaor Menu: <File><Read from Generaor> Keyboard: Crl-R Upon ransfer, he applicaion is permanenly saved so ha i can be rerieved even years laer. Provided he above specified requiremens are me, he read-back process can be iniiaed via he <File><Read from Generaor> menu iem. Afer reading he applicaion from he generaor i can be modified or saved. Wih ProLine NG he sandard name for such an applicaion is "Upload" - bu we recommend ha you choose a more descripive name for he file when saving. If your PC is conneced o a nework maser DKG he following window will appear: Selec in he <Device Address> box he device address of he channel generaor whose configuraion is o be read via he nework Loading a new Channel Generaor Firmware One of he ousanding innovaions inroduced wih he DKG 20/DKG21-GSM is he possibiliy of reroloading (updaing) he firmware (operaing sysem) of DKGs via he PC. You can hus always keep your DKG fully up o dae. Depending upon he firmware version, i may be necessary - afer he updae - o insall a newer version of he ProLine configuraion sofware. Informaion on which version his should be will be provided in ProLine 1. Downloading on o a slave can only ake place if beforehand i has been configured locally wih he appropriae nework se-up. 2. Uploading from a slave can only ake place if beforehand i has been configured locally wih he appropriae nework se-up. Page 25 May 2010, Version 1.03 ProLine NG User Manual

33 Doepke 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor in he firmware-updae dialogue box (see Sep 3 on Page 27). Firmware updaes - as well as he currenly appropriae ProLine version - are available eiher via our newsleer or in he download secion of our homepage hp:// Warning: During updaing he channel generaor will sop processing. This may resul in unwaned swiching. I is herefore essenial always o ensure ha no persons or animals are wihin he danger area of he equipmen! You can erminae he process a any ime wih he Cancel buon; in which case he firmware dialogue window will be closed auomaically. Terminaion does no affec he previous sysem in any way. To updae please proceed as follows: Sep 1: Opening he firmware file Menu: <Tools><Generaor Firmware> Keyboard: none This menu iem is only selecable if he DKG is conneced and operaional. Firs check he firmware version - in he example illusraed here i is version 0141/01.11 of and compare i o he version of he new file. Only if his has a higher version number (e.g. 0141/01.20), or is of a more recen dae, should you proceed. If you hen click he Load Firmware File he dialogue will open for selecing he firmware file (e.g. "ZE_0141_0120.bin"). Selec he file by acuaing he Open buon. Wih he file having successfully been opened, boh he exising firmware version (in blue) as well as he opened file (in green) will be displayed. Please ensure ha you have opened he correc file. Sep 2: Transferring he firmware file To ransfer he seleced firmware file click he Download Firmware buon. If you did no carry ou he firs sep his buon will be shown "faded" and canno be seleced. Then confirm wih OK he safey promp "Send Firmware o Generaor". The loading process may ake up o one minue; you can follow he progress on he saus progress bar in he lef programme window. If he ransfer has been successful you can coninue wih he nex sep. ProLine NG User Manual May 2010, Version 1.03 Page 26

34 4 Communicaion and Neworks 4.1 Communicaion beween PC and Channel Generaor Doepke Sep 3: Program he firmware file The final sep is for he firmware o be saved. You achieve his by acuaing he swich box Program Firmware. Provided no error message appears, he firmware has been saved wihou any problems. If he indicaion of he loaded version has no been updaed, close he dialogue (e.g. by clicking a channel objec) and open i again. Thereupon he informaion will be displayed elling you which ProLine version should be used for his new firmware. Page 27 May 2010, Version 1.03 ProLine NG User Manual

35 Doepke 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors 4.2 Communicaion beween Channel Generaors General Informaion One of he highlighs of he new channel generaors DKG 20 and DKG 21-GSM is he inegraed inerface for seing up a DKG nework; referred o hereinafer simply as "nework". This por - designaed COM3 a he DKG - enables up o 32 DKGs o be linked ino one nework; he nework iself is based on RS485 win-wire communicaion. The Modbus proocol is laid ou in such a way ha here is exacly one maser (which conrols he communicaion) and up o "n" number of slaves. The laer only reac when requesed by he maser and heir number wihin any one nework is max. 31. Boh new DKG ypes have idenical nework pors and may hus be used ogeher in one nework. In conras, i is no possible o use DKG 1 and DKG 2 in a nework of DKG 20 and DKG 21 generaors. In order o se up he communicaion in a DKG nework proceed as follows: 1. Connec all DKGs as direced in he operaing insrucions. 2. Provide precisely one applicaion for he maser wih he device address "32". 3. Provide one applicaion for each slave, whereby he addresses of he slaves should sar wih "1" and be numbered consecuively - wihou gaps - up o max. 31. The ransfer rae of he RS485 nework mus be idenical o ha of he maser. 4. For he iniial loading of he applicaion connec he PC direcly o he maser or slave resp. Wih correc nework configuraion he maser will auomaically sar he communicaion wih he slaves, which is indicaed by LED "D3" flashing. When he nework is funcioning properly you can make changes cenrally, via he COM1 connecion of he maser, o he applicaions of maser and slaves. The daa exchange beween he channels hemselves is "source addressed", i.e. channels of oher DKGs can always only be read. Such reading is accomplished on he channel iself via he so-called exernal reference ("Ex.Ref."), which consiss of he device address of he oher DKG. A signal hus "impored" acs like an addiional operaing signal inpu: he exernal reference is being "or-linked" wih he imporing channel. Alernaively, you can also work he channels of oher DKGs ino logic connecives. For his you need only o se up a "free channel", configure i as a saus indicaor, and ener he device address / channel address of he oher DKG Connecing Channel Generaors Connec he channel generaors of a nework as described in he operaing insrucions of DKG 20/DKG 21-GSM ( ). Please ensure ha you follow in paricular all recommendaions regarding erminaing he RS485 leads Seing he Communicaion Parameers Overview Menu: <Edi><Communicaion Seup> Keyboard: none In he new ProLine you will find all he seing opions beween channel generaors in he menu shown ProLine NG User Manual May 2010, Version 1.03 Page 28

36 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors Doepke above. The dialog looks as follws: Device Address / 32 Unique address enabling he DKGs in a nework o communicae wih each oher. If he RS485 Maser opion is seleced, his address will auomaically be fixed as "32". Slave addresses should sar wih "1" and run consecuively wihou gaps. For deails see Chaper on Page 29. RS485 Maser No acivaed Acivaed Selecing he Device Address The DKG funcions as a Slave in he nework. The DKG funcions as he Maser in he nework. No. of Slaves This number can only be specified a he maser and informs he laer how many slaves i is o adminiser. RS485 Baud Rae baud Here you can specify he speed a which maser and slaves communicae. All devices wihin any one nework mus have he same rae seing. For deails see Chaper on Page 30. Time-ou Daa delee No acivaed Acivaed Should here be an ouage of one or more DKGs wih which daa are being exchanged, he daa las applicable will be "frozen", i.e. reained. Should here be an ouage of one or more DKGs wih which daa are being exchanged, all affeced daa will be deleed or rese o "0" when he prese ime Time-ou afer has elapsed. For deails see Chaper on Page 31. Time-ou afer s If he Time-ou Daa delee opion has been seleced, you can specify here he ime which is o elapse following a communicaion problem before he daa are o be deleed. All DKG 20/21-GSM mus be assigned a unique device address via he ProLine NG applicaion file, wherein he address of he maser is fixed as he device address "32". Opimum communicaion resuls are achieved if you sar wih he device address "1" and leave no gaps when configuring he slaves. In a nework consising of one maser and 5 slaves he addresses would Page 29 May 2010, Version 1.03 ProLine NG User Manual

37 Doepke 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors hen look as follows: 1, 2, 3, 4, 5 (slaves) and 32 (maser). Assigning device addresses wih gaps in he numbering resuls in a slowing down of he communicaion beween maser and slave: The maser cyclically synchronizes he daa beween all nework paries and polls each paricipan in urn, saring wih address "1". If i encouners a "gap" (a device ID no assigned o any DKG) i wais for a second before progressing o he nex slave. Closely linked o his is he seing No. of Slaves: This should correspond exacly o he number of slaves in he nework. If he seleced figure is oo low, he maser could miss one or more slaves, if i is oo high, unnecessary delays will resul. Maser When defining he maser (by acivaing he RS485 Maser opion) he DKG concerned is auomaically assigned he address 32. Anoher imporan parameer for he operaion of he maser is he opion No. of Slaves: Wih his seing you specify how many slaves he maser is o adminiser in he nework. Slaves Because here may only be one maser, all oher DKGs in he nework mus be configured as slaves. This configuraion requires firsly ha he RS485 Maser opion is no acivaed, and secondly ha each slave is assigned a differen number Transfer Rae The ransfer rae in a RS485 nework can be seleced freely beween 2,400 and 115,000 baud and configured for all conneced DKGs. However, here are condiions where i is no advisable o selec he maximum rae of 115 kbaud: If he RS485 leads are subjec o elecromagneic fields, If he leads are long and heir diameer limied, or If he applicaion imposes a high load on one or more DKG(s). In mos cases such condiions manifes hemselves by gaps in he communicaion. I is advisable in such ProLine NG User Manual May 2010, Version 1.03 Page 30

38 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors Doepke cases o reduce sep by sep he ransfer rae a all paricipans Seings for Time-ou Wih he opions Time-ou Daa delee and Time-ou afer you are given he opporuniy o deermine he behaviour if a paricipan fails, bu a differeniaion mus be made beween maser and slave: Maser No acivaed: If he maser deecs a missing slave, i "freezes" he daa las received. This means ha i will always operae wih he mos recen daa. Acivaed: If he maser deecs a missing slave, i reses o "0" all daa of his slave once he se ime has elapsed. Slaves No acivaed: If he slave deecs a missing maser, i "freezes" he daa las received from he maser and all oher slaves. This means ha i will always operae wih he mos recen daa. Acivaed: If he slave deecs a missing maser, i reses o "0" all daa of he maser and of all oher slaves once he se ime has elapsed Configuring he Daa Exchange General Informaion You can uilise he daa exchange a all DKGs as soon as he nework has been se up - as described above. The daa ransfer works on he "source addressing" principle. Alhough each DKG can read daa, i canno wrie hem which may, a firs glance, appear o be resricing. In pracical erms, however, his mehod has a leas one imporan advanage: You do no need o search for he origin of he daa because every DKG impors only hose daa which he generaor iself assers. Wih he DKG you have wo opions of working wih daa from oher nework paries: 1. Via he "free channel", which is configured as saus display, 2. Via "Exernal References" a nearly all oher objecs, and 3. Via "Read Exernal Inpu" in he case of AnaLink objecs. While he firs opion allows he daa o be displayed only wihin ProLine NG and be processed in logic connecives, he second opion will permi direc access o he objec. As wih many bus sysems, he daa ransfer does ake ime. Wih Dupline he following imes will accrue: Max. 272 ms (2 bus cycles) for recognizing he inpu in he firs sysem; Max. 1 s for ransfer beween he sysems; Max. 272 ms for he oupu signal of he channel in he second sysem. When adding he processing ime in he channel generaors, i may ake some 2 seconds from he buon's being pressed unil a lamp lighs up. Tip: References may no necessarily have o come from oher Dupline sysems. You can also ener he "own" ID as he device address and hus achieve a sraighforward "or-link" of he channel wih up o 32 oher channels in he same DKG. This saves on logic connecives "Free Channel" (Blank) as Saus Display If you configure he "Blank" objec as saus display (Use as Saus Display opion acivaed - see Chaper on Page 49) and specify he device address / channel address of a remoe DKG, you can already view he saus of he channel in ProLine NG. Page 31 May 2010, Version 1.03 ProLine NG User Manual

39 Doepke 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors In conras o "Exernal Reference" (see below) he saus display does no show he inpus bu he swiching saus of he referenced channel. You can hus have he saus of e.g. real-ime swiches displayed here. Example: Channel B5 of DKG #2 is o indicae he saus of channel A1 a DKG #1. The following configuraions apply: DKG Channel Configuraion Noes #1 A1 Time swich Push-buon for man. acivaion of ime swich provided. #2 B5 Free channel (saus display) Use as saus display: Yes Device Address: 01, channel: A1 The following diagram serves o illusrae he operaing principle: Inpu Channel A1 DKG #1 Oupu (Time Swich) Channel A1 DKG #1 Inpu Channel B5 DKG #2 Oupu (Saus Display) Channel B5 DKG # PMan_TSInd_1a I is very eviden ha he oupu of Channel B5 always follows he oupu of channel A1. Inpu signals from channel A1 or, indeed, hose of channel B5 have no effec on he oupu. Relay oupus, coded on channel B5, are being swiched. The saus display may also be used, as required, in logic connecives (see Chaper 6 "Logic Connecives" on Page 116), even slope analysis is possible Exernal References ProLine permis he inclusion of hese references on channels of oher DKGs in he nework; his applies for nearly all objecs - he only resricion being he maximum number which is se a 32. ProLine NG User Manual May 2010, Version 1.03 Page 32

40 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors Doepke References ac in a compleely ransparen fashion, fully in accordance wih he Dupline sysem: In he same way as you would inegrae an addiional push-buon, which would operae on an already exising swich command, so a reference would funcion as an addiional inpu which is "or-linked" o he channel. The decisive poin here is ha he reference is no impored as he saus of he channel, bu as is inpu signals - you are hus pracically referring o he inpus of he specified channel. Noe: Please noe ha only inpu signals generaed on he Dupline bus have an effec. These do no include e.g. signals generaed direcly a he channel generaor by visualizaion. Example: Channel B5 of DKG #2 refers o channel A1 of DKG #1. The following configuraion applies: DKG Channel Configuraion Noes #1 A1 Time swich Push-buon for man. acivaion of ime swich provided. #2 B5 Toggle-swich Push-buon as inpu provided. Ex. reference a device address 01, channel A1. This can be illusraed as follows: Inpu Channel A1 DKG #1 Oupu (Time Swich) Channel A1 DKG #1 Inpu Channel B5 DKG #2 Oupu (Toggle-swich) Channel B5 DKG # PMan_TExRef_1a 1 : 2 : 3 : Here he push-buon, coded for channel A1, acivaes he ime swich. As channel B5 refers o A1, he inpu signal is ransmied and acivaes he oggle-swich funcion a channel B5. An inpu signal a B5 (push-buon) swiches channel B5 - as normal - off again. A furher inpu pulse a A1 swiches he ime swich off again, and channel B5 on. Page 33 May 2010, Version 1.03 ProLine NG User Manual

41 Doepke 4 Communicaion and Neworks 4.2 Communicaion beween Channel Generaors 4 : The ime swich a B5 swiches on - in line wih is On-ime. Bu because here is no inpu signal, he saus of channel B 5 does no change. Ediing references By clicking he Ex.Ref. box he "Exernal References" dialogue box opens: To add a reference... Ener he device address of he nework pary from which you wan o impor he channel (his is slave #03 in our example); Ener he channel address which you wan o impor from he relevan nework pary (his is channel A5 in our example); Acuae he <Add> swich box - and he enered pair of addresses will appear in he lis o he righ of he inpu boxes. To delee a reference... Highligh in he reference lis he address pair which you wan o delee; Acuae he <Delee> swich box - and he seleced address pair will be wiped from he lis AnaLink Daa Alhough Dupline ransfers analog daa ulimaely in digial form, analog references canno be handled like digial daa: firsly, because an analog value is added up over a longer period and, secondly, because i is no sensible o impor more han one value. You are probably already familiar wih he basic process of he "Exernal inpu" from ProLine 3.xx - for he purpose of ransfers wihin a nework, his has simply been exended by he device address, i.e. he address of a DKG conneced o he nework. Please refer o Chaper "Analog Sensors" on Page 66. As wih he exernal references in he previous chaper, here oo he same applies, namely ha he device refers o he inpu of he referenced channel. This means ha he swich saus of sensors configured as swiching channels are no ransmied. ProLine NG User Manual May 2010, Version 1.03 Page 34

42 4 Communicaion and Neworks 4.3 Visualizing via Touch Screen or PC Doepke 4.3 Visualizing via Touch Screen or PC General Informaion By providing he DKG wih a second serial por new horizons have been opened up for connecion o higher ranking conrol unis. Wih he proven Modbus-I-RTU proocol his second inerface enables he following: A a DKG wihou nework connecion you can read, and wrie, all daa of he DKG. A a maser DKG in he nework you can read, and wrie, all daa of he maser and of all conneced slaves. I is herefore clear: If you wan o have access o all daa you mus connec he visualizing componen o he COM2 por of he nework maser. You will find he possible seings in he nex chaper. The Planning Aid [1] provides furher informaion on he hardware arrangemen for visualizaions. Noe: Alhough i is possible o run a visualizing componen a COM2 of a nework slave, here is a danger of ransmission problems arising no only a COM2 bu also a he COM3 inerface. As his migh impair he daa inerchange beween DKGs, his operaing mode is no recommended Seup Menu: <Edi><Communicaion Seup> Keyboard: none I requires precisely hree seings o connec a visualizing medium a he COM2 por of he DKG: Device Address / 32 This is he ID number wih which he DKG is addressed by he visualizaion. If he DKG is par of a nework, you should specify his number according o he nework's requiremens (see Chaper "Seing he Communicaion Parameers" on Page 28). If he DKG is no in a nework you can ener here any device ID beween 1 and 31. I is no advisable in his case o run he DKG as maser. COM2 Operaion Mode Modbus RTU Selec here he operaing mode of he 2 nd serial por. When connecing a visualizing medium, "Modbus RTU" mus be seleced here. Page 35 May 2010, Version 1.03 ProLine NG User Manual

43 Doepke 4 Communicaion and Neworks 4.3 Visualizing via Touch Screen or PC COM2 Baud Rae baud Here you specify he speed wih which he DKG communicaes wih he visualizaion. Please ensure ha he visualizing componen is also se for his ransfer rae. The oher non-seable communicaion parameers are: 8 daa bis 1 sar / 1 sop bi Pariy: None Noe: Please noe he following poins: The higher he daa hroughpu a he COM2 inerface, he higher will be he compuing requiremen of he microprocessor inegraed in he DKG. This may cause a break in he communicaion beween one DKG and anoher. "Digial and AnaLink daa of all conneced slaves are buffer sored in he maser; for all oher daa (analog muliplex and couner daa) he maser enquires direcly a he relevan slave. Fas ransfers of he laer daa ypes hus consiue a burden on he cyclic communicaion beween he DKGs and should be avoided. The serial inerface o he maser is a RS232 por. The lengh of he connecing cable should no exceed 12 m. Please also refer o he Planning Aid [1]. ProLine NG User Manual May 2010, Version 1.03 Page 36

44 4 Communicaion and Neworks 4.4 Neworks wih Radio Modem Doepke 4.4 Neworks wih Radio Modem DKG 20/21 Cenral #32 Dupline General Informaion Anoher way of seing up a nework is via radio modems: You can divide a Dupline sysem ino as many as 32 locally disribued secions and operae he daa exchange via radio modems. This sysem suppors he modem ypes 2ASxE and 3AS of he Finnish manufacurer SATEL (hp:// Wih his ype of operaion you can run a Dupline sysem also in locaions where he insallaion of bus lines is impossible. In a radio ne we differeniae beween a cenral uni ("Radio Modem Cenral") and up o 31 subsaions ("Radio Modem Subsaion"). The cenral uni coninuously polls all daa of he subsaions and disribues hem. The linked ne hus acs like a large Dupline sysem wih one channel generaor. Apar from he longer reacion ime (dependen upon he number of acive subsaions), he sysem works like one channel generaor (he maser) wih conneced I/O devices. For his reason only he cenral uni can be configured as an "inelligen" device wih objecs, while configuraion of objecs is impossible a subsaions; hey funcion merely as inerfaces. The modems are conneced o he 2 nd serial por COM2; for informaion on he assignmen of he inerface refer o he Planning Aid [1] or he operaing insrucions for he DKG. This se-up is capable of ransmiing all digial and (analog) muliplex daa; he ransfer of AnaLink daa, however, is no possible. RS232 DKG 20/21 Subsaion #1 Dupline RS232 DKG 20/21 Subsaion #2 Dupline RS232 D _9/B Noe: Please noe he following poins: Boh digial and analog muliplex daa can be ransmied via he radio roue; he ransfer of AnaLink daa, however, is no possible. Radio modem subsaions merely serve as gaeways - no visualizing componens may be conneced here a he free COM pors. Page 37 May 2010, Version 1.03 ProLine NG User Manual

45 Doepke 4 Communicaion and Neworks 4.4 Neworks wih Radio Modem Seings for he Cenral Uni ( Radio Modem Cenral ) Menu: <Edi><Communicaion Seup> Keyboard: none Operaing radio modems a a cenral uni involves some parameers which are explained below: COM2 Operaion Mode Radio Modem Cenral Selec here he operaing mode of he 2 nd serial por. Here Radio Modem Cenral has o be seleced a he cenral uni. COM2 Baud Rae Baud Here you specify he speed wih which he DKG communicaes wih he modem. The speed mus be he same as ha se a he modem. Modem Change-over Time Milliseconds Ener here he ime required by he modem for swiching over beween ransmission and recepion. This daa is normally given in he operaing insrucions of he modem. No. of Subsaions Specify here how many subsaions you wan o use. Noe: The address of he slaves mus correspond wih his figure, e.g. if you ener "3" here, he subsaions mus be allocaed he consecuive addresses "1", "2" and "3". ProLine NG User Manual May 2010, Version 1.03 Page 38

46 4 Communicaion and Neworks 4.4 Neworks wih Radio Modem Doepke Time-ou afer seconds Here you specify he ime wihin which he subsaions mus have responded. Should here be no reply when he se ime has elapsed, he maser will coninue wih he nex subsaion. One seconds is sufficien for mos applicaions; you can increase he ime here if you are using a radio repeaer. Analog MUX Transfer o Groups C-D, E-F, G-H, I- J, K-L, M-N, O-P Here you can specify he group(s) where muliplex ransfer is o ake place. In order o be able o selec his opion, he muliplex ransfer mus firs be acivaed in he <Edi><Couner and Analog MUX Seup> menu (see Chaper "Muliplexer (Analog Daa Transfer)" on Page 114). Should you also have seleced Couner Download here, he groups "C-D" can no longer be used here Seings for Subsaions ( Radio Modem Subsaion ) Menu: <Edi><Communicaion Seup> Keyboard: none Operaing radio modems in subsaions involves some parameers which are explained below: Page 39 May 2010, Version 1.03 ProLine NG User Manual

47 Doepke 4 Communicaion and Neworks 4.4 Neworks wih Radio Modem Device Address Se here he unique address for each subsaion; consecuively numbered, and wihou gaps, saring wih "1". The address of he las saion mus correspond wih he figure which has been se in he No. of Subsaions opion a he cenral uni. COM2 Operaion Mode Radio Modem Subsaion Selec here he operaing mode of he 2nd serial por. A he subsaion Radio Modem Subsaion has o be seleced here. Noe: You only can selec his operaing mode when he RS486 Maser opion is deseleced. COM2 Baud Rae baud Here you specify he speed wih which he DKG communicaes wih he modem. The speed mus be he same as ha se a he modem. Time-ou Daa delee Normally he subsaions coninue o operae wih he daa las received from he cenral uni. If his opion is acivaed he subsaion will delee he daa if no valid elegram has been received wihin he ime se for Timeou afer. Time-ou afer seconds Deermine here afer how many seconds he daa a a subsaion are o be deleed following a communicaions breakdown wih ha saion. This ime mus be longer han he communicaion cycle of he complee sysem and should cover boh he number, as well as he maximum response ime, of he subsaions. A useful figure is he number of subsaions muliplied by wo, e.g. Number of subsaions: 10 x 2 Time-ou: 20 seconds. ProLine NG User Manual May 2010, Version 1.03 Page 40

48 4 Communicaion and Neworks 4.5 SMS Seings for he DKG 21-GSM Doepke 4.5 SMS Seings for he DKG 21-GSM General Informaion The Dupline GSM modem in he DKG 21-GSM provides for remoe polling and operaion of a Dupline sysem via he SMS messages of a mobile phone. When using exernal references or saus indicaors he modem also permis access o a complee nework. For informaion on he hardware of he DKG 21-GSM please refer o he Dupline Planning Aid [1] and he Operaing Insrucions of he DKG 21-GSM Configuraion Hardware Seup Firs prepare he DKG 21-GSM: Inser ino he card slo a valid SIM card for SMS operaion wih PIN code "9090"; Connec he GSM anenna DGA 1 (Order No ) or a sandard mobile anenna; Before insalling ino he DKG 21-GSM you should check he SIM card wih a sandard mobile phone - if available - and if necessary clear he code SMS Seup Menu: <Edi><SMS Seup> Keyboard: Crl+M The dialogue window for configuring he SMS service looks as follows: Seings for even download Seings for command funcions Saus GSM modem Page 41 May 2010, Version 1.03 ProLine NG User Manual

49 Doepke 4 Communicaion and Neworks 4.5 SMS Seings for he DKG 21-GSM The following parameers can be se: SMS Message o Ener here up o four mobile phone numbers which are o be called in he even of configured saus changes. Here you can ener only numbers and he "+" for he counry code - oher symbols are no permissible and will be highlighed in red. SMS Transmi Mode To all simulaneously One by one o acknowledge Noe: Each enered number mus also include he counry code (e.g. "+44" for Grea Briain). In his mode he SMS message is sen in sequence o all enered phone numbers. In his mode he numbers are repeaedly conaced unil an acknowledgemen is received from one of he lised numbers. The forma of such acknowledgemen is described in Chaper "SMS Evens" on Page 43. The inerval beween calling he numbers can be specified wih he seing Max. User Response Time. Max. User Response Time min Ener here he ime ha he modem should wai before sending he SMS o any oher phone number. The permissible seing is beween 0 and 30 minues. Message Idenifying Tex This freely selecable ex of up o 31 characers accompanies he SMS o idenify is source. Delee old SIM Card Messages wih Resar Here you can specify wha is o happen o messages no ye sen. If his opion is no acivaed old messages will coninue o be processed. If he opion is acivaed old messages will be deleed. Check Caller Numbers This opion mus be acivaed before he sysem can be conrolled via mobile phone. Only when acivaed will an incoming SMS from he mobile phone numbers lised underneah be acceped. SMS permied from Ener here he numbers of mobile phones which are o be allowed access o he Dupline sysem. Please noe ha in order o uilize he conrol faciliy he ransmission of he mobile phone's own number mus have been acivaed on he phone. Use Password Password Noe: Each enered number mus also include he counry code (e.g. "+44" for Grea Briain). Assign a password o increase he securiy of your sysem. Every incoming SMS mus be accompanied by his password. Here you can ener he password which safeguards all incoming SMS. A maximum of 4 characers or numbers is permissible. ProLine NG User Manual May 2010, Version 1.03 Page 42

50 4 Communicaion and Neworks 4.5 SMS Seings for he DKG 21-GSM Doepke Operaion SMS Evens To dae i has already been possible o change and reques he swich saes of he sysem via a mobile phone. If, because of specific channel saes, an SMS noificaion is also o be generaed, hen his needs o be configured individually for each channel concerned. The se-up opions for SMS operaion will be found a he boom edge of he configuraion dialogue for objecs and will look somehing like his: I is only wih roller-blind conrols ha he generaion of SMS messages a On/Off slopes is no possible. Oherwise he following applies: On Off SMS a... Descripion The GSM modem generaes an SMS message when he appropriaely configured channel is swiched on. The message conains he uni idenificaion and he channel descripion followed by he saus "On". The GSM modem generaes an SMS message when he appropriaely configured channel is swiched off. The message conains he uni idenificaion and he channel descripion followed by he saus "Off". The "Documenary Descripion" is no used in relaion o SMS messages. The necessary acknowledgemen afer an even (e.g. o preven anoher mobile number's being noified) can be accomplished in differen ways: 1. Blank command Wihou password: "??" (wo quesion marks); Wih password: "easy,??" (he password in his case being "easy"); 2. Swich command (see nex chaper); 3. Daa inquiry (see nex chaper). The GSM modem will no respond upon an empy acknowledgemen command Command Funcion Three commands are available: 1. Swich on 2. Swich off 3. Daa inquiry Upper or lower case is immaerial when enering a command. Page 43 May 2010, Version 1.03 ProLine NG User Manual

51 Doepke 4 Communicaion and Neworks 4.5 SMS Seings for he DKG 21-GSM Example: The forma of he command is dependen upon wheher or no a password has been se: Wihou Password Swich Command Example Channel,argumen A1,on A1,off supply_cooker,on Inquiring Command Example Channel,? A1,? (or: A1?) supply_cooker,? Even acknowledgemen Example???? Wih Password Swich Command Example Password,channel,argumen easy,a1,on easy,a1,off Easy,supply_cooker,on Inquiring Command Example Password,channel,? easy,a1,? (or: easy,a1?) ProLine NG User Manual May 2010, Version 1.03 Page 44

52 4 Communicaion and Neworks 4.5 SMS Seings for he DKG 21-GSM Doepke Easy,supply_cooker,? Even acknowledgemen Password,?? Example easy,?? I is clear ha he channel descripion of each objec can be used insead of is channel number. Noe: If you wan o use channel descripions in command funcions, please avoid special characers like e.g. accens and umlaus ("ä", "ö" ec.), brackes ("{", "]" ec.) and puncuaion marks (poins, commas, exclamaion marks ec.). These could be misinerpreed by he GSM modem Suppored ProLine Objecs Due o heir funcionaliy and he signals on he bus, no all objecs can be suppored equally. The following able explains for which signals even messages are generaed and which signals are conrollable by SMS: Funcion Even Message Command Saus Polling On Off On Off No Funcion On Off Illegal (1) Illegal (1) Acual Push buon On Off Pulse (2) (3) Acual Push buon, invered Off On Pulse (2) (3) Acual Toggle swich On Off On Off Acual Timer On Off Pulse (2) (3) Acual Timer, Pulses by acivaion On Off On (3) Acual Pulse Generaor None None Illegal (1) Illegal (1) Acual Time Swich On Off On Off Acual Maser funcion On Off Pulse (3) Acual Moion deecor On Off Illegal (1) Illegal (1) Acual Thermosa On Off Illegal (1) Illegal (1) Acual Nigh Seback On Off Pulse (2) (3) Acual Analog Sensors On (4) Off Illegal (1) Illegal (1) Acual ISA alarms NOC/NCC (5) On Off Illegal (1) Illegal (1) Acual Acknowledge On Off Pulse (2) (3) Acual Rese On Off Pulse (2) (3) Acual Lampes On Off Pulse (2) (3) Acual Alarm siren On Off Illegal (2) Illegal (1) Acual Page 45 May 2010, Version 1.03 ProLine NG User Manual

53 Doepke 4 Communicaion and Neworks 4.5 SMS Seings for he DKG 21-GSM Funcion Even Message Command Saus Polling On Off On Off Smoke alarm NOC/NCC (5) On Off Illegal (1) Illegal (1) Acual Rese On Off Pulse (2) (3) Acual Alarm siren/signal On Off Illegal (1) Illegal (1) Acual Inruder alarm NOC/NCC (5) On Off Illegal (1) Illegal (1) Acual Enable by Code Lock On Off Illegal (1) Illegal (1) Acual Enable by Swich On Off Illegal (1) Illegal (1) Acual Enable by Push Buon On Off Illegal (1) Illegal (1) Acual Alarm sirene/signal On Off Illegal (1) Illegal (1) Acual Waer alarm NOC/NCC (5) On Off Illegal (1) Illegal (1) Acual Rese On Off Pulse (2) (3) Acual Alarm sirene/signal On Off Illegal (1) Illegal (1) Acual Common siren On Off Illegal (1) Illegal (1) Acual Couner None None Illegal (1) Illegal (1) Acual Muliplex Channels None None Illegal (1) Illegal (1) Acual Synchronisaion Signal None None Illegal (1) Illegal (1) - Shuer Conrol None None UP-Pulse DOWN-Pulse Acual Shuer Maser None None UP-Pulse DOWN-Pulse Acual (1)Conrol of his channel is no permissible and resuls in he message "Unknown or Illegal Command". (2)The GSM modem will in his case send an On-Off pulse. This can be processed by he logic sysem and ensures ha no SMS command will be permanenly saved. (3)As his iem is also conrolled by inpu signals, i canno be ensured ha - upon an "Off" command - he channel will acually be swiched off. (4)Analog sensors mus be scaled and configured as swiching channels. (5)Boh acive and passive deecors indicae an alarm by he "On" saus. ProLine NG User Manual May 2010, Version 1.03 Page 46

54 5 The Objecs Overview General Informaion Doepke Chaper 5 The Objecs 5.1 Overview General Informaion In his chaper we would like o inroduce o you he objecs available in ProLine NG. In Chaper 3.6 "Working wih Objecs" on Page 13 we have already shown you how o use hem. Linking hese objecs o each oher is described in Chaper 6 "Logic Connecives" on Page 116. The objecs are grouped as follows: Sandard Objecs... Chaper Page 49 Here you will find simple objecs for push buons, oggle swiches, real-ime (clock) or imer conrolled acuaors and he sraighforward maser funcion. Special Objecs... Chaper Page 66 This chaper explains objecs such as analog sensors and moion deecors. Alarm Sysems... Chaper Page 76 Are you looking for a reasonably priced alarm sysem? Read here how o configure and operae Dupline alarm sysems. Shuer Conrols... Chaper Page 102 Here he decenral and maser roller-blind conrols are described in deail. Couner and Analog Daa Transfer... Chaper Page 111 Wha are muliplex meer coun ransfer and analog muliplexer? You will find he answers o hese quesions in his chaper Objec Descripions Parameers In he objec descripion you will find all available se-up opions, also called parameers. The selecion possibiliies may differ - according o which ProLine NG version is being used. You will find a descripion of how o deal wih he parameers in Chaper "Seing Parameers" on Page 14. Example of an Applicaion Applicaion examples are given for mos objecs. They are inended o illusrae how a ask can be accomplished wih he described objec. Hardware Configuraion Sofware Configuraion Page 47 May 2010, Version 1.03 ProLine NG User Manual

55 Doepke 5 The Objecs Overview Objec Descripions These examples all illusrae jus a small secion of Dupline's range of funcions; in addiion, many asks can be solved in a variey of oher ways. Lised in he Objec column are eiher he Dupline objec (e.g. inpu) or he ProLine NG objec (e.g. push buon funcion). The Significance his objec has for he example briefly explains he funcion. The Channel column specifies he address a which he funcion is carried ou. Under Noes/Configuraion you will find informaion on he implemenaion and on componens which could be used for his. However, because of he diversiy of componens we canno provide a complee lis in his manual. For mos of he examples you will also find channel generaor files available; hese can be insalled in addiion o his manual Timing Characerisics For each objec you will find a iming iem. This is inended o give you an overview of he dependencies beween inpu and oupu signals. Because of he many oher parameers, hese dependencies can only be represened qualiaively; he diagrams herefore have no ime graduaions bu simply markings wih idenifying lower-case leers (e.g. 1, 2,...). Channel Saus ON T E Channel Saus OFF T N Time Span I Time Axis Inpu Signal Oupu Signal O PMan_TTimer_1a Time Markings Time spans, on he oher hand, are marked wih capial leers (T E, T N ). The saus of he channel can be esablished by he signal saes ("On": high level, "OFF": low level). Noe: The ime lag due o he ransfer and he processing in he channel generaor is normally no illusraed. I can amoun o several bus cycles. ProLine NG User Manual May 2010, Version 1.03 Page 48

56 5 The Objecs Sandard Objecs Free Channel ("Blank / Saus Display") Doepke 5.2 Sandard Objecs Free Channel ("Blank / Saus Display") Funcion: None / saus display. Applicaion: To acivae oupu channels by maser funcions or logic connecives; displaying he saus of a reference inernally or via nework. Insering wih he mouse ("Blank") or shorcu key "B". Descripion I migh sound funny, bu i is a fac: even he objec "Blank" has a purpose in ProLine NG. The poin is ha here, oo, inpu and oupu are independen of each oher. As his objec does no fulfil a funcion beween inpu and oupu, any inpu configured wih his address will have no effec. I is however possible o conrol his channel - and hereby also he oupus coded wih his address; his can be eiher via he maser funcion (see Chaper on Page 61) or as an oupu for logic connecives (see Chaper 6 on Page 116). Addiionally, a channel hus configured can also serve as a monosable marker. This objec furhermore enables he saus of oher channels of his DKG, or of oher channel generaors conneced via a nework - o be displayed and even o be analysed in he logic connecives. Please refer o Chaper ""Free Channel" (Blank) as Saus Display" on Page 31. Parameers Parameers Blank / Saus Display Descripion Use as a Saus Display If you ick his opion you can ener a furher channel address whose swich saus serves as inpu for his channel. You can specify he address of a DKG in he nework or he own device address. Page 49 May 2010, Version 1.03 ProLine NG User Manual

57 Doepke 5 The Objecs Sandard Objecs Push Buon Funcion Push Buon Funcion Funcion: Monosable flipflop (wipe pulse). Applicaion: Connecion of swiches and conacs in order o swiching loads, e.g. via operaing signal sensors DSS 2U, DSS 4U, DSS 8U. Can also be operaed as an invered funcion. Inserion eiher wih mouse ("Push buon") or shorcu key "0" (zero). Descripion The push buon funcion is he simples objec of he channel generaors and enables swiches and conacs of any kind o be conneced o he Dupline bus. Wih his funcion he oupu lags slighly behind he inpu signal: i is acive as long as he inpu signal is presen (he reverse applies wih he invered funcion). Parameers Parameers Push Buon Funcion Descripion Invered funcion If his funcion is icked, he oupu signal will be invered. This means ha he oupu is acivaed as long as he inpu has no been se. Timing Characerisics Normal Invered I I O O PMan_TPush_1a PMan_TPush_2a The oupu follows he inpu wih a sligh delay. Wih he invered funcion he behaviour of he oupu o he inpu is invered. Example of an Applicaion ProLine NG User Manual May 2010, Version 1.03 Page 50

58 5 The Objecs Sandard Objecs Push Buon Funcion Doepke Task: Soluion: A ligh is o be swiched on and off wih a convenional swich. Use e.g. he DSS 2U flush-mouned operaing signal module for he inpu of he operaing signal and configure an inpu wih he address A1. An oupu of a relay module (e.g. DRM 8) is assigned he same address. Then all ha is required is o configure channel A1 in ProLine NG as a push buon funcion. Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ligh A1 Oupu modules, e.g. DSM 1U, DRM 4 Binary inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine NG Configuraion Push buon Lighing conrol A1 Page 51 May 2010, Version 1.03 ProLine NG User Manual

59 Doepke 5 The Objecs Sandard Objecs Toggle Swich Funcion Toggle Swich Funcion Funcion: Bisable flipflop Applicaion: To connec swiches and conacs for swiching loads, e.g. via operaing signal sensors DSS 2U, DSS 4U, DSS 8U. Can also be operaed as a signal conac in he inruder alarm sysem Inserion eiher wih mouse ("Toggle swich") or shorcu key "F". Descripion This funcion permis he characerisics of a oggle swich o be copied: pressing once swiches he oupu on, pressing a second ime swiches i off. By selecing he "Use in Inruderalarm" opion he acivaed alarm sysem will include he conac during monioring. Then, as soon as he oggle swich is operaed, he inruder alarm sysem riggers he alarm signal. Parameers Parameers Toggle swich Descripion Use in Inruder Alarm If his funcion is icked, a configured inruder alarm sysem will include he inpu in he monioring. This means ha when he alarm sysem is swiched on he alarm signal will be riggered if he inpu has been acivaed. Timing Characerisics I O PMan_TToggle_1a The firs pulse of he inpu enables he oupu; he second pulse disables i again. ProLine NG User Manual May 2010, Version 1.03 Page 52

60 5 The Objecs Sandard Objecs Toggle Swich Funcion Doepke Example of an Applicaion Task: Soluion: A ligh is o be swiched on wih a ouch conac swich. Use e.g. he DSS 2U flush-mouned operaing signal module for he inpu of he operaing signal and configure one inpu wih address A1. An oupu of a relay module (e.g. DRM 8) is assigned he same address. Then all ha is required is o configure channel A1 in ProLine NG as a oggle swich funcion. Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ligh A1 Oupu modules, e.g. DSM 1U, DRM 4 Push-buon inpu Ligh conac swich A1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine NG Configuraion Toggle swich Lighing conrol A1 Page 53 May 2010, Version 1.03 ProLine NG User Manual

61 Doepke 5 The Objecs Sandard Objecs Timer / Pulse Generaor Timer / Pulse Generaor Funcion: Timer (iming elemen) or pulse generaor Applicaion: Swiching loads wih on- or off-delay or pulsing. Acivaed by an acivaed signal or an operaing pulse. Acivaed by addiional channel or marker. Inserion eiher wih mouse ("Timer") or shorcu key "T". Descripion This objec offers he choice beween wo operaing modes: as imer and as pulse generaor. Wih boh modes he funcions are sared by an inpu which has been coded for he imer channel; bu i is also possible o use anoher channel or a marker for acivaion. Timer (On/Off delay) The imer can be se for delayed swiching on and/or off (Off Time). During he swiching-on delay he oupu signal remains disabled and is only acivaed when he off ime begins. Via he "Acivaion by Pulse" opion is behaviour can be adaped o he inpu signal. If his opion is swiched off, hen he inpu signal has o be presen a leas unil he on-delay has elapsed; afer which he channel generaor acivaes he oupu. Only when he inpu signal is wihdrawn will he off ime sar. When he "Acivaion by Pulse" opion is acivaed he inpu signal does no need o be operaive during he whole of he delay ime. Here, he off ime sars auomaically when he on-delay has elapsed. In he case of an inpu signal which persiss longer han he on-delay, he off ime will only sar afer wihdrawal of he inpu signal. This seing is paricularly imporan if a maser conrol command is o sar he imer, as his command is usually of only a shor duraion. Pulse Generaor If he pulse generaor is sared via an inpu, i generaes a repeaing square wave signal. The oupu will be acivaed according o he "On Time" seing and hen swiched off again according o he "Off Time" seing. This process is repeaed for as long as he signal of he inpu or he addiional riggering address is presen. Parameers Depending upon he selecion in he "Timer funcion" field, differen parameers will appear for imer and pulse generaor: Parameers Timer (On/Off delay) Descripion Timer funcion To use he imer selec here he "On/Off delay" mode. ProLine NG User Manual May 2010, Version 1.03 Page 54

62 5 The Objecs Sandard Objecs Timer / Pulse Generaor Doepke Parameers Acivaion by Pulse On Delay Off Time Enabled by Address Pulse Generaor Descripion Selec his opion o sar he imer wih a shor pulse e.g. by pressing a push-buon. Here you can ener he ime (0 s o 99 h, 59 min, 59 s), which is o elapse before he channel is acivaed. Here you can ener he exension ime (0 s o 99 h, 59 min, 59 s) during which he channel is o be acivaed. In addiion, he channel or marker enered here can also sar he imer. Is behaviour is he same as ha of he inpu channel; he seing "Acivaion by Pulse" is also effecive here. To preven self-laching of he signal, he imer's own address may no be enered here. Timer funcion On Time Off Time Enabled by Address To use he pulse generaor selec here "Pulse Generaor" mode. The seing seleced here (1 s o 99 h, 59 min, 59 s) deermines he ime during which he oupu is swiched on during pulsing. The seing seleced here (1 s o 99 h, 59 min, 59 s) deermines he ime during which he oupu is swiched off during pulsing. In addiion, he channel or marker enered here can also sar he imer. To preven self-laching of he signal, he imer's own address mus no be enered here. Timing Characerisics Timer (On/Off delay) The following iming is based on he assumpion ha he "Acivaion by Pulse" opion has been seleced: T E T N T E T N I O PMan_TTimer_1a Page 55 May 2010, Version 1.03 ProLine NG User Manual

63 Doepke 5 The Objecs Sandard Objecs Timer / Pulse Generaor 1 : 2 : 3 : 4 : 5 : 6 : 7 : By acivaing his inpu (operaing pulse) he on-delay T E will sar. Afer he on-delay has elapsed, he off ime T N sars a which poin he oupu is swiched on. A he end of he off ime he channel generaor will also disable he oupu. Here, oo, he oupu is reacivaed and he on-delay T E sars. Afer he on-delay has elapsed, he oupu is acivaed. However, he off ime does no commence here. Only when he inpu is again inacive will he measuring of he off ime T N begin. A he end of he off ime T N he DKG disables he oupu again; bu only if he inpu had previously been deacivaed. Pulse Generaor I T E T A O PMan_TTimer_2a The generaion of he pulse sars shorly afer he inpu is acivaed a ime 1. The pulse cycle hen consiss of he ON ime T E and he OFF ime T A. Deacivaion of he inpu also erminaes he pulse generaion ( 4 ). Example of an Applicaion Task: Soluion: File: A venilaor in a oile is o sar 5 min afer he ligh is swiched on and o run for 10 min. The lighing is operaed via a push-buon, which is conneced o an operaing signal sensor (e.g. he DSS 2U flush-mouned inpu module) and which is configured as a oggle swich funcion a address A1. The oupu of a relay module (e.g. DRM 8) is assigned he same address and conrols he lighing. A second channel, A2, is configured as a imer and is conrolled via he above menioned push-buon. Anoher channel of he DRM 8 oupu module is also assigned his A2 address and conrols he venilaor. imer.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Toile ligh A1 Oupu modules, e.g. DSM 1U, DRM 4 Push-buon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 Relay oupu Toile venilaor A2 Oupu modules, e.g. DSM 1U, DRM 4 ProLine NG User Manual May 2010, Version 1.03 Page 56

64 5 The Objecs Sandard Objecs Timer / Pulse Generaor Doepke Objec Significance Channel Noes / Configuraion ProLine NG Configuraion Toggle swich Lighing conrol A1 Timer Venilaor conrol A2 Configuraion: By uilising he addiional rigger ("Enabled by Address") of A1 he imer will sar when he ligh is swiched on. Due o he enabled opion "Acivaion by Pulse" he venilaor will sar afer expiry of he "On Delay", even if he lighing has been swiched off before. The opion should be disabled if his is no waned. Page 57 May 2010, Version 1.03 ProLine NG User Manual

65 Doepke 5 The Objecs Sandard Objecs (Real-) Time Swich (Real-) Time Swich Funcion: Timing for eigh swiching imes wih 7-day programme and holiday se-up. Applicaion: Time-conrolled swiching on and off of loads. Can also double as oggle swich funcion. Cenral definiion of holiday seings for all ime swiches. Inserion eiher wih mouse ("(Real-) Time Swich") or shorcu key "R". Descripion The real-ime funcion permis loads o be swiched on and off depending upon he inernal clock of he channel generaor. For each real-ime funcion up o four on- and off-imes can be programmed; hese o be execued a freely selecable days of he week and holiday daes. When adjusing swiching imes please observer, ha a no ime wo or more ime swiches are o be acivaed or de-acivaed simulaneously, i.e. he same swiching ime is used several imes. In his case, only he ime swich wih he highes address number (e.g. B7 before A5) will be execued. Tip: If you wish o swich on and off on differen days, simply leave blank hose on and off imes which are no required (see example). The real-ime opion is based on he oggle swich funcion; i is hus also possible o carry ou manual swiching processes wih sandard inpus during ime-conrolled operaion. Noe: You can choose wheher he real-ime swiches are o be acivaed when downloading an applicaion or when he channel generaor is resared, provided here is only one on/off swiching ime which iming condiion is me. For furher deails refer o Chaper "Auomaic Updae of Realime Saus" on Page 18. Parameers Parameers (Real-) Time Swich Descripion Swich on Time a which he channel is o be swiched on (00:00 o 23:59). Swich off Time a which he channel is o be swiched off (00:00 o 23:59). ProLine NG User Manual May 2010, Version 1.03 Page 58

66 5 The Objecs Sandard Objecs (Real-) Time Swich Doepke Parameers Days of week Descripion Day(s) on which he swiching ime on he lef has o be execued (M: Monday, T: Tuesday, W: Wednesday, T: Thursday, F: Friday, S: Saurday, S: Sunday). You can conrol he ime swiche s behaviour wihin he periods of evenually specified vacaion or holiday daes by means of he "H" check box - holiday daes are enered in he <Edi><Holiday Seup> menu (see also Chaper "Holiday Seup" on Page 20): If "H" has no been icked, he clock will no carry ou any swiching operaions a he enered holiday dae. If "H" has been icked, he clock will swich a every enered holiday dae irrespecive of he specified days of he week. Timing Characerisics The following diagram illusraes he iming process, wih E being an opional inpu channel - e.g. a push buon of a DSS 2U - a he address of he real-ime funcion: I O PMan_TReal_1a 1 : 2 : 3 : 4 : 5 : The ime swich acivaes he channel a he preconfigured ime wihou being influenced by he inpu channel. Upon acuaion of he inpu he oupu swiches direcly off. Renewed acuaion of he inpu swiches he oupu on again. A he seleced swich-on ime he oupu will in any case be deacivaed. The oupu can be reacivaed a any ime via he inpu. Example of an Applicaion Task: Soluion: The lighing of a shop window is o be swiched on auomaically every Friday a 7 o'clock and o be swiched off a 2 o'clock he following day. On all oher days i can be swiched on and off manually wih a push-buon. Use e.g. he DSS 2U flush-mouned operaing signal module for he inpu of he operaing signal and configure one inpu wih he address A1. An oupu of a relay module (e.g. DRM 8) is assigned he same address. Then all ha is required is o configure channel A1 in ProLine as a oggle swich funcion. Page 59 May 2010, Version 1.03 ProLine NG User Manual

67 Doepke 5 The Objecs Sandard Objecs (Real-) Time Swich File: ime_swich.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Shop-window A1 Oupu modules, e.g. DSM 1U, DRM 4 Push-buon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine NG Configuraion Time Swich Time conrol A1 Configuraion of ime swich: ProLine NG User Manual May 2010, Version 1.03 Page 60

68 5 The Objecs Sandard Objecs The Maser Funcion Doepke The Maser Funcion Funcion: Cenral enabling and disabling of oggle swiches, real-ime swiches ec. Two operaing modes: "Sandard" (forced channel saes) and "Toggle-swich" (saus reversal) Inegraed real-ime swich wih eigh swich imes Applicaion: Cenrally swiching of loads on and off, rerieving lighing scenes of dimmer swiches. Inserion eiher wih mouse ("Maser funcion") or shorcu key "M". Descripion The maser funcion enables simulaneous acivaion of any number of channels which have been configured wih suiable objecs. Please noe he following poins when using he maser funcion: A he momen of acivaion he maser funcion has prioriy over individual conrol commands, i.e. operaing an individual channel is no possible, so long as he maser command is acive. When his maser command is wihdrawn, any decenral commands will again be acceped. Wih paricular regard o real-ime swiches, i should be noed ha only one maser funcion command can be carried ou a one and he same ime. In he even of simulaneous acivaion of several maser commands, only ha wih he highes address number (e.g. B7 before A5) will be execued. The maser funcion canno affec any channels wih prioriy funcions, such as e.g. alarm channels or analog sensors. If he Toggle-swich opion is swiched on, dimmer lighing scenes canno be called up. A maser funcion canno acivae anoher maser funcion. You can choose beween wo operaing modes: "Sandard" (Toggle-swich opion deacivaed): Upon acuaing he maser funcion an On signal will be generaed for a ime span of 2 cycles a any channels marked urn on ("1"), while a channels marked for urn off ("0") an Off signal will be generaed. However, he objecs configured a hese channels govern he behaviour of he oupus. Channels marked wih "x" remain unaffeced by he maser funcion. "Saus Reversal" (Toggle-swich opion acivaed): Wih his operaing mode he maser funcion iself operaes like a oggle-swich funcion and knows he saes "On" and "Off". I swiches he channels assigned o i in relaion o heir own saus: A channel marked wih "0" will always be swiched off when he maser funcion command iself is swiched on - and vice versa. A channel marked wih "1" will always be swiched on when he maser funcion command iself is also swiched on - and vice versa. If, upon he maser funcion's firs being acivaed, a marked channel is swiched manually, hen he nex acivaion will force he channel ino he configured saus (On a "1", Off a "0"). Here, oo, channels marked wih "x" remain unaffeced by he maser funcion. Page 61 May 2010, Version 1.03 ProLine NG User Manual

69 Doepke 5 The Objecs Sandard Objecs The Maser Funcion Parameers The objec has he following configuraion page when he real-ime funcion has been included and he <Ener Swich Times> buon has been acivaed: Parameers Maser funcion Descripion Address marix Toggle Swich Funcion Include Time Swich Ener Swich Times Time Swich Mark here wih a "1" hose addresses which are o be swiched on when he maser command is being execued, and mark hose which are o be swiched off wih an "0". Addresses bearing an "X" remain unouched. Any addresses which are auomaically marked wih a red dash "-", canno be cenrally conrolled. These are e.g. maser funcions, roller-blind conrols ec. When his opion is icked, he maser funcion will reverse he saus of he marked channels wih every acivaion. When his is acivaed, a real-ime funcion will be included which carries ou he maser command according o ime conrol seings. The <Ener Swich Times> field will appear. Click his field in order o acivae he real-ime funcion for he inpu and o deacivae i again aferwards. The ime swich funcion for he ime-conrolled operaion of he maser command operaes in he same way as he "(Real-) Time Swich" objec. For furher deails see Chaper "(Real-) Time Swich" on Page 58. In conras o a separae ime swich, his funcion only generaes swich pulses. This should be noed in paricular if he maser command is o swich oupus which have been configured as "Push buon". These could possibly hen receive only a shor swich signal. Tip: Complee address groups can be changed o he relevan group by clicking wih he righ mouse buon. ProLine NG User Manual May 2010, Version 1.03 Page 62

70 5 The Objecs Sandard Objecs The Maser Funcion Doepke Timing Characerisics Toggle Swich Funcion opion deacivaed: The following diagram illusraes he correlaion beween he inpu of he maser command, he maser command iself and he swiched-on oupus (in his example: coninuous line: a push buon funcion, doed line: a oggle swich funcion). Inpu Maser command Swiched oupus Toggle swich PMan_TMaser_1a Push buon The maser command remains acive unil he inpu is deacivaed. The oupus are swiched on - in his example - wih he push-buon; however, his is only he case unil he maser command ceases again. Toggle Swich Funcion opion acivaed: The following diagram illusraes he correlaion beween he maser command iself and a channel, marked wih "0", which has been configured as oggle-swich funcion. This channel had previously been manually acivaed. Noe: When saring he DKG a maser swiching cycle may be required in order o bring he cenrally conrolled channels ino he defined saus. Page 63 May 2010, Version 1.03 ProLine NG User Manual

71 Doepke 5 The Objecs Sandard Objecs The Maser Funcion Inpu of Maser Channel Maser Funcion Channel Channel marked "0" (Toggle Swich) PMan_TMaser_2b 1 : 2 : 3 : The channel, previously acivaed manually, remains iniially unchanged when he maser funcion is acivaed. This serves o synchronise he saus of he maser channel and he individual channel. The maser channel iself now swiches on and he individual channel is swiched off. Here he maser channel swiches off and he individual channel is swiched on. Example of an Applicaion Task: In a domesic building maser funcions are o be used for 4 lighs and 2 dimmer swiches: Maser ON: Swiches all he lighs on and ses he DDM 1Rplus dimmer o 100%. Maser OFF: Swiches all he lighs off and ses he DDM 1Rplus dimmers o 0%. Lighing scene for lounge: Lighing scene 6 (facory seing 85%) is o be called up a boh DDM 1Rplus dimmers. Soluion: File: Configure hree push-buons for he cenral and lighing scene rerieval as maser funcion commands a addresses A1 o A3. The channels of he dimmers are coded B1 o B8 and configured as oggle swich funcions. lighscene_via_maser_funcion.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpu Maser ON A1 Inpu modules, e.g. DSS 2U, DBA 4 Push-buon inpu Maser OFF A2 Inpu modules, e.g. DSS 2U, DBA 4 Push-buon inpu Push-buon o call-up lighing scene 6 A3 Inpu modules, e.g. DSS 2U, DBA 4 ProLine NG User Manual May 2010, Version 1.03 Page 64

72 5 The Objecs Sandard Objecs The Maser Funcion Doepke Objec Significance Channel Noes / Configuraion Dimmer channels Channels o call-up lighing scenes B1..B4 B5..B8 Dimmer modules, e.g. DDM 1Rplus Relay oupus Lighs C1..C4 Oupu modules, e.g. DSM 1U, DRM 4 ProLine NG Configuraion Maser funcion Maser ON channel A1 On-command for lighs C1..C4; Rerieval of lighing scene 2 (facory seing 100%) a boh DDM 1Rplus (channel 4, B4/B8); Toggle Swich Funcion opion deacivaed. Maser funcion Maser OFF channel A2 Off-command for lighs C1..C4; On-command of maser OFF channel a boh DDM 1Rplus (channel 1, B1/B5); Toggle Swich Funcion opion deacivaed. Maser funcion Lighing scene rerieval A3 Simulaneous acivaion of channels B1, B3 and B4 for rerieval of lighing scene 6. Off-command for lounge wall ligh C2. Toggle Swich Funcion opion deacivaed. Push buon Dimmer channels 1..4 B1..B4 B5..B8 Channels of DDM 1Rplus dimmer(s): 1: B1, 2: B2, 3: B3, 4: B4. Toggle swich Lighs C1..C4 Manual swiching of lighs Page 65 May 2010, Version 1.03 ProLine NG User Manual

73 Doepke 5 The Objecs Special Objecs Analog Sensors 5.3 Special Objecs Analog Sensors Funcion: Transfer of analog daa (emperaure, ligh level, wind and oher sensors) and heir evaluaion for swiching processes. Applicaion: Display of analog (AnaLink) daa on ex display / ouch screen; swiching loads (e.g. radiaors, lighs, roller blinds) in accordance wih e.g. emperaure or ouside lighing. Evaluaion as frequenly as required of an analog value in relaion o oher inpus. Up o wo swiching ranges defineable per channel. Suppression (disabling) of swiching processes by oher channels or markers. Inserion wih mouse ("Analog Sensor"). Descripion The objecs of he analog sensors provide he opion of inegraing analog measuring devices (ransfer by AnaLink process) ino he Dupline sysem and of furher processing heir daa. In all, here are four sensor ypes which can be seleced in he objec window under he "Funcion" header: Temperaure Sensor: Ligh Sensor: Wind Sensor: Measuring Device: This objec also operaes like he measuring device (see below), bu has is own icon o aid idenificaion. Temperaure sensors, such as e.g. he DTS 1 and DTS 2 should preferably be used in connecion wih his objec. This predefined objec for he DLUX ligh level sensor acs like he measuring device bu feaures a differen icon and he prese measuring range of 0.1 o lux. This sensor objec is designed for he inegraion of an air speed meer (anemomeer). Bu because Doepke's wind sensor SIWS can only be operaed wih he SIWR wind relay, wind sensors wih analog oupus from oher manufacurers have o be used for his applicaion. Tha consideraion apar, his objec funcions like he measuring device. This is he general sensor objec: Wih his all sensor ypes can be inegraed (all oher following sensors, such as e.g. he ligh level sensor, only make differen icons available and, in some insances, already presen he sensor inpu range). As all sensors operae in he same manner, he funcions are explained wih he aid of he general measuring device. General: The daa ransfer via one sensor channel generally akes place by he AnaLink process (see [1]). The accuracy is 8 bi (in he case of he wind sensor 5 bi are analysed - in order o increase he reacion rae). Analog ransfer channels do no funcion like normal swiching channels; e.g. hey canno be swiched wih push-buons which are operaed on he same channel. This means ha anoher (possibly virual) channel is required if, for example, a sensor is o be swiched only a a cerain ime and, in addiion, is o be swiched manually. Furhermore, analog daa canno be processed by means of markers. Insead here is he possibiliy of ProLine NG User Manual May 2010, Version 1.03 Page 66

74 5 The Objecs Special Objecs Analog Sensors Doepke configuring several analog sensors in such a way ha hey access a 'source value'. Working wih he DTG 1 Teser Daa ransferred by he AnaLink process canno be displayed wih he DTG 1. Bu by seing he channel for a longer ime i is possible o affec he AnaLink daa. If you have already coded an analog sensor a his channel, a summaion of he inpu signals will resul. Parameers The objec has he following configuraion page: Generally speaking, he operaing mode of he sensor depends upon wha is hen o be done wih he daa: You wan o display analog daa on a PC, ouch screen or ex display: For he purpose of display in his case you require a 'pure' analog value. To achieve his you have o code he analog sensor objec on he channel of he sensor; bu he "Conrol Oupu" parameer may no hen be acivaed. Tip: I is possible o se limis in his operaing mode. Even wihou he "Conrol Oupu" having been acivaed you can uilize he swich commands of his channel as an inpu in logic connecives. In his case he sensor inpu range should be configured wih a minimum and maximum limi (e.g. for he DTS 1-30ºC and +60ºC). You wan o conrol an elecrical load, or similar, wih he aid of he sensor: For his he "Conrol Oupu" parameer has o be acivaed so ha he limis, which have hen o be se, can be evaluaed. The resul of such evaluaion is ha on his channel a swich command is generaed for oupus (relays or similar) wih he same address. Configure he sensor as follows: 1. Ener he inpu range of he sensor (his will be marked on he sensor iself or specified in he operaing insrucions): he DTS 1 and DTS 2 emperaure sensors, for example, measure emperaures beween -30ºC and +60ºC. Page 67 May 2010, Version 1.03 ProLine NG User Manual

75 Doepke 5 The Objecs Special Objecs Analog Sensors 2. Ener he operaing range a which he objec is o swich on or off: you will hen ge he hreshold values "Off < Limi" and "On > Limi". This means ha he channel is swiched off when he analog value falls below he firs enry and ha he channel is swiched on when i exceeds he second figure. More ofen - and in paricular in he conex of heaing conrols - you will wan o swich he radiaor on when is emperaure falls below he seing, and o swich i off when i exceeds i. The necessary reversal of he evaluaion is accomplished by he "Inver Limis" parameer; his changes he meaning of he enered values o "On <Limi" and "Off > Limi". Selec he values shown in order o conrol he emperaure of a room beween 19ºC and 21ºC. You wan o use oher limis under cerain condiions: In order o configure he heaing for e.g. nigh-ime reducion, proceed via he following seps: 1. Carry ou seps 1 and 2 above. 2. Acivae he "Enable Limi 2" opion and ener he limis. 3. In he "Enabled by address" box ener an address of a marker which acivaes hese wo limi values. This can be e.g. he address A3, as shown in he illusraion, a which a ime swich has been configured Noe: The second pair of limis will also be affeced by he "Inver Limis" opion. You wan o disable swiching processes under cerain condiions: 1. Carry ou he configuraion as described above. 2. In he "Disable Address" box ener an address of a marker a which, when acivaed, he evaluaion of he sensor will be suppressed. The swiching channel will be forced o "Off" sae. You wan muliple evaluaion of he sensor: 1. Configure an analog sensor as 'source', i.e. no as a swiching channel. The sensor iself mus also be coded a his address, i.e. for example a DLUX channel. 2. Se up as many sensor objecs as required of he ype in quesion and configure hem as described in he previous seps. 3. In each objec se-up use he 'source objec' of sep 1 as reference. This is accomplished by clicking he "Read Exernal Inpu" box and enering he address of sep 1. The following able again liss all parameers: Parameers Funcion Disable Address Conrol Oupu Inver Limis Descripion Selec here wheher you wan o operae a general measuring device, a wind sensor or a emperaure sensor. Basically, all funcion in he same way. A channel, or marker, enered here and acivaed will resul in seing he channel o zero. The figure can be overyped a any ime and erased wih he Del key. This is an essenial enry if he sensor is o swich e.g. a relay which has been coded wih he same address. This seing should no be acivaed if you wan o display he analog daa of he sensor (e.g. on a ouch screen panel). Wih his seing you inver he swiching condiions for boh ses of limi values. Thus, insead of "On > Limi" you will ge he seing "Off > Limi". ProLine NG User Manual May 2010, Version 1.03 Page 68

76 5 The Objecs Special Objecs Analog Sensors Doepke Parameers Read Exernal Inpu Sensor Inpu Range Descripion Here you deermine wheher he analog daa for his sensor objec originaes from anoher channel. If his box is icked, you can specify a channel (device address / channel) from which he acual daa is o be drawn. Such daa may originae eiher from he own sysem (he device address being ha of he DKG concerned) or from a channel generaor conneced via he DKG nework. Here he upper and lower measuring daa of he sensor should be specified. For he DTS 1 emperaure sensor his would be "-30ºC" as he lower value and "60ºC" as he upper value. Noe: Dev.Addr./Channel Off < Limi On > Limi or On < Limis Off > Limis Enable Limi 2 Off < Limi On > Limi or On < Limis Off > Limis You mus confirm each enry by pressing ENTER oherwise he enries will no be sored. If he sensor, which provides he daa, has been coded on anoher channel, he "Source Channel" can be specified here. Bu o be able o do so, he "Read Exernal Inpu" mus firs be acivaed. The enry can be overwrien a any ime and erased wih he Del key. These are he swiching limis of he sensor objec. If he "Inver Limis" box has been acivaed, he upper condiions will be displayed. If you ener he values "17.0" and "20.0" he channel will swich off below 17.0 and swich on above If you have invered while reaining he same values, he sensor will swich he channel on below 17.0 and off above 20.0, which would be a ypical seing for a heaing conrol. These limis are only acive provided he "Enabled by Address" rigger of an exising second limi has no been swiched on. Wih his opion you acivae he inpu of a second se of limis wih which e.g. a nigh-ime reducion can be se up. The second limi gives you he opion of defining - via he "Enabled by address" parameer - a differen swiching behaviour. If he oher riggering address is acivaed, he objec will ignore he firs se of limis. This se of limis is also conrolled via he "Inver Limis" box, i.e. evaluaion will hen be reversed. Noe: Enabled by Address You mus confirm each enry by pressing ENTER oherwise he enries will no be sored. If he channel, or marker, enered here is no acive, he firs se of limis will be used for he evaluaion; if i is acive he second pair will be used. The enry can be overwrien a any ime and erased wih he Del key. Page 69 May 2010, Version 1.03 ProLine NG User Manual

77 Doepke 5 The Objecs Special Objecs Analog Sensors Timing Characerisics Sensor for displaying he measured value: In his case he displayed sensor daa will lag slighly behind he rue value. Noe: Afer swiching on he sensor, or he Dupline bus, he rue sensor daa will be reached only afer approx. 30 seconds. The sysem needs his ime in order o fully ransmi he figure. Sensor as swiching channel: The iming characerisics of he sensors are illusraed below using a emperaure sensor as an example; he upper graph curve represens he room emperaure, he middle one he disable address and he boom curve he emperaure sensor as he swiching channel. Room Temperaure Value for "Off > Limi" Value for "On < Limi" Disable Address Swiching Channel PMan_TTemp_1a 1 : 2 : 3 : 4 : 5 : 6 : The emperaure in he room sinks below he figure which has been enered for "On < Limi", e.g. 21ºC. Because he disable address is "0", he "Temperaure Sensor" objec swiches he channel on. The emperaure reaches he seing for "Off > Limi", e.g. 17ºC. Here, oo, he disable address is "0" so ha he channel of he "Temperaure Sensor" objec swiches off. The emperaure of he room again reaches he lower limi, he objec swiches on. The disable address (channel or marker in he "Disable Address" box) is now acivaed by e.g. a change-over swich. Despie reaching he upper limi he objec does no swich he channel on, because he disable address has been acivaed. No unil he disable address has been deacivaed does he emperaure sensor's swiching channel swich off again. ProLine NG User Manual May 2010, Version 1.03 Page 70

78 5 The Objecs Special Objecs Analog Sensors Doepke Example of an Applicaion Task: Soluion: File: A radiaor is o keep he room emperaure beween 19ºC and 21ºC during he day. A nigh he emperaure is o be lowered by 4ºC. The DTS 2 emperaure sensor in his room is coded a address A2 and serves o display he emperaure on a DSC 3 ouch screen. Because he analog value of he sensor a A2 is already required for he display, he emperaure objec - and he relay which conrols he radiaor valve - is assigned address A3. For he nigh-ime reducion we use a ime swich funcion a A4 wih he appropriae swich imes; i serves as an "Enabled by Address" rigger for acivaing he second se of limis. emperaureconrol.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Temperaure sensor Temperaure A2 Modules DTS 1, DTS 2, indusry modules Relay oupu Radiaor valve A3 Oupu modules, e.g. DSM 1U, DRM 4 ProLine NG Configuraion Analog Sensor: Temperaure Sensor Analog Sensor: Temperaure Sensor Analog daa ransfer A2 Makes analog daa available for ouch screen a Temperaure Sensor and serves as source for he sensor objec a channel A3. "Conrol Oupu" mus no have been acivaed here. Evaluaion of he analog signal and swiching channel for he relay of he radiaor valve A3 The following enries are required: Time Swich Time swich for he nigh-ime reducion A4 A sensible ime should be enered here, e.g. from hours o 6.00 hours. During his ime he "Temperaure Sensor" objec uses he second se of limis. Page 71 May 2010, Version 1.03 ProLine NG User Manual

79 Doepke 5 The Objecs Special Objecs Moion / Proximiy Deecor Moion / Proximiy Deecor Funcion: Inclusion of proximiy deecors or similar inpu devices in he Dupline sysem. Applicaion: Conrolling lighs and inegraion ino he inruder alarm sysem. Off Time selecable from 00 h 00 min 00 s o 99 h 59 min 59 s. Variable number of movemen pulses offers beer safeguard agains false alarms by he inruder alarm. Inserion wih mouse ("Moion Deecor"). Descripion The "Moion Deecor" objec permis he inclusion of Dupline proximiy deecors (e.g. DPM 1) and sandard moion deecors, which are conneced o he Dupline bus via binary inpus. The moion deecor hus conneced can be programmed wih an exension ime (Off Time) and be inegraed ino he inruder alarm sysem. To reduce he number of false alarms, he number of pulses required wihin 10 s can be prese, a which he alarm will be riggered. Noe: Tip: If you wan o use a proximiy/moion deecor which auomaically generaes an exension ime, we recommend you use he "Push buon" funcion. The DBM 1 is also provided wih an exension ime, bu his can be disabled wih a DIP swich. In addiion o he moion deecor you also may swich on he lighing wih a push buon signal sensor. Therefor, e.g. a signal sensor DSS 2U jus has o be encoded o he address of he moion deecor. When acivaing he push buon he sysem swiches on he lighing for he duraion specified as "Off Time". Parameers Parameers Moion Deecor Descripion Off Time The ime during which he channel is o remain acive (00:00:00 o 99:59:59) afer a movemen pulse has been regisered. Furher pulses will always sar he off ime anew. If an Off Time of 00:00:00 is enered, he channel generaor emis a shor oupu pulse irrespecive of he duraion of he inpu pulse. Use in Inruder Alarm Tick his checkbox o include he channel in he monioring of he inruder alarm sysem. Swiching he inruder alarm sysem live is hen carried ou wih is enable funcion (see Chaper "Inruder Alarm" on Page 88). ProLine NG User Manual May 2010, Version 1.03 Page 72

80 5 The Objecs Special Objecs Moion / Proximiy Deecor Doepke Parameers No. of Pulses Descripion The figure enered here ( ) deermines how many pulses he moion deecor may generae wihin 10 s unil an alarm is riggered. When a pulse is deeced he channel generaor checks wheher he number of pulses during he preceding 10 s exceeds he prese number. Should ha be he case, hen an alarm signal will be generaed provided he inruder alarm is acive. This seing herefore provides a beer safeguard agains spurious false alarms. Timing Characerisics Noe: Because he evaluaion akes place aferwards, an addiional pulse is required each ime. This means ha when he prese number is "3", he alarm will no be riggered unil he fourh pulse. The Off Time as se does no affec he alarm signal being generaed. In he following illusraion "I" represens he inpu channel of he moion deecor, or he conac, and "O" he oupu signal of he same channel. Also, he "Moion Deecor" objec has been inegraed ino he inruder alarm sysem, whose alarm siren can be seen in he boom diagram. The number of pulses seleced was "3": I O T N Alarm Siren P1 P2 P3 P4 PMan_TMoion_1a P1, P2, P3 and P4 are he imes when he moion deecor generaes a signal; he duraion of he pulse depends upon he characerisics of he deecor. T N is he seing for he Off Time, which is pos-riggered by he pulses P2 and P3 and herefore does no sar unil afer he hird pulse has passed. The alarm is no riggered unil he fourh pulse P4 occurs, if he ime span beween P1 and P4 is less han 10 s. Page 73 May 2010, Version 1.03 ProLine NG User Manual

81 Doepke 5 The Objecs Special Objecs Moion / Proximiy Deecor Example of an Applicaion Task: Soluion: File: The lighing in a hall is o be swiched on auomaically for 5 minues by he DPM 1 proximiy deecor and is also o serve - during absences - as an inruder deecor. The DBM 1 needs only o be conneced o he Dupline bus wire and assigned an address (here: A1). In his case disable he exension of he signal ransmission ime wih he DIP swich. Configure he "Moion Deecor" objec as well as an oupu channel of a relay module (e.g. DRM 8) for address A1 and configure any oher required objecs for he inruder alarm (Enable by Push Buon, Alarm siren). moiondeecor.dkg Objec Significance Channel Noes / Configuraion Inpu/Oupu Proximiy deecor Alarm signal A1 DPM 1, DBM 1 (direc) or oher manufacurers' modules via DSS 2U/DSS 4U/DSS 8U/ DSU 2U/DSU 8 Relay oupu Hall lighing A1 Oupu modules, e.g. DSM 1U, DRM 4 Push-buon inpu Enabling alarm A2 Inpu modules, e.g. DSS 2U, DBA 4 Relay oupu Alarm siren A3 Oupu modules, e.g. DSM 1U, DRM 4 ProLine NG Configuraion Moion Deecor Ligh and alarm conrol A1 Configure he moion deecor as given under "Parameers". Enable by Push Buon Enabling he alarm sysem Here, oo, he proximiy deecor direcly acivaes he oupu module for he lighing a address A1. If he alarm sysem is acivaed via he manual enable push-buon, he channel generaor will rigger an alarm wihin 10 s of he hird pulse. For furher deails on he inruder alarm refer o Chaper "Inruder Alarm" on Page 88. A2 Configure he delay according o environmenal alarm sysem condiions. Alarm siren Alarm signal A3 Configure he alarm signal ime and he ype of alarming (e.g. pulsing on several channels) according o your applicaion. Tip: If you wan o use he saboage safeguard (invered funcion) of he DBM 1, you should configure he "Push buon" opion wih he seing "Invered funcion" and uilize he exension of he signal ransmission a he device. In order o include he deecor wih saboage safeguard in an inruder alarm, you have o use he "NCC" objec of he inruder alarm sysem ProLine NG User Manual May 2010, Version 1.03 Page 74

82 5 The Objecs Special Objecs Thermosa and Nigh Seback Doepke Thermosa and Nigh Seback Funcion: "Locaion reserver" for channels which ransmi he heaing command of he DRT 1 hermosa or he command for nigh-ime reducion for he DRT 1. Inserion wih mouse ("Thermosa" or "Nigh seback") Descripion These wo objecs do no acually make available any new funcions - bu you can use hem o gain a clearer overview by marking he heaing command of he DRT 1 hermosa or he nigh-ime reducion command for he DRT 1. Thermosa: Nigh seback: You can use his objec o ransfer on o he Dupline bus he heaing command of a hermosa (e.g. DRT 1). Is funcion corresponds o ha of a push buon. You can use his objec o ransfer on o he Dupline bus he command for nigh-ime reducion for DRT 1 hermosas. Is funcion corresponds o ha of a push buon so ha you need o use a mechanical swich for his. Alernaively, his channel can also be acivaed via a visualising sofware Synchronizaion Signal Funcion: "Locaion reserver" for he synchronizaion channel; for he Dupline consan ligh conrol. Inserion wih he mouse ("Synchronizaion signal"). Descripion This objec is required if he Dupline consan lighing conrol - consising of a sensor and up o wo dimmer channels - is being used. Wih his faciliy only one synchronizaion signal is required for all lighing conrols wihin one Dupline sysem. The acual daa ransfer beween sensor and conrol device akes place via one channel, separae for each individual conrol roue, which has o be configured as push-buon funcion. For furher deails please refer o he operaing insrucions of he consan lighing conrol. Page 75 May 2010, Version 1.03 ProLine NG User Manual

83 Doepke 5 The Objecs Alarm Sysems Overview 5.4 Alarm Sysems Overview This chaper is inended o enable you o use he four differen Dupline alarm sysems. These are: 1. ISA Alarm (Chaper on Page 77) This general alarm sysem was developed o ISA specificaions; i can be flexibly employed and serves as a paern for he oher alarm sysems. Possible applicaions are, amongs ohers, for emperaure and fluid level monioring, and in insallaions which require general alarm funcions. 2. Smoke Alarm (Chaper on Page 83) This alarm sysem is used mainly in connecion wih he Dupline DRD 2/3 smoke alarm. I is, of course, also possible o use oher smoke alarms which provide eiher a normally-closed or normally-open-conac. In ha case he link o he Dupline sysem can be esablished via a binary inpu. 3. Inruder Alarm (Chaper on Page 88) This sysem makes objecs available wih which he inpu signals for he inruder alarm can be moniored. These may be elecrically isolaed or poenial-bonded conacs, which are linked o he sysem via binary Dupline inpus. 4. Waer Alarm (Chaper on Page 95) The waer alarm has been inroduced as a separae sysem - i is inended for use in connecion wih waer-sop sensors. The alarm sysems differ in heir enable mechanism (enable push buon/enable swich) in he way he alarm is rese (acknowledge/rese) in he ype of alarming, and in he iming characerisics. The individual sysems are explained in deail in he following pages. I is possible o use he "Common siren" objec (Chaper on Page 100) for all sysems, which enables a collecive alarm signal General Characerisics Inpu/Oupu on one Channel The alarm sysems in paricular benefi from he abiliy of he Dupline sysem o disinguish beween inpus and oupus on he same channel ("Spli I/O"). I is hus possible o use a normally-open-conac for reseing he sysem and hereafer o pulse i on and off. You should herefore no be surprised if A channel is acivaed wihou an inpu having been acuaed, or A channel is no acivaed when an inpu has been acuaed Maser Funcions In general, alarm objecs canno be influenced by maser funcions. ProLine NG User Manual May 2010, Version 1.03 Page 76

84 5 The Objecs Alarm Sysems ISA Alarm Doepke ISA Alarm Funcion: General alarm sysem wih inclusion of NOC/NCC deecors, acknowledge buon, sandard rese, lamp es faciliy and alarm siren. Applicaion: Monioring of conacs and oher alarm sources. Inserion eiher wih mouse ("ISA alarm") or shorcu key "A". Descripion The ISA alarm is designed for seing up a general alarm sysem o ISA specificaions. The sysem suppors wo operaing modes: 1. Sandard rese: reseing of an alarm ("Rese") and reacivaing is carried ou manually via a push-buon. 2. Auo Rese: boh he reseing of an alarm and he reacivaion of he sysem akes place auomaically afer acknowledgemen and remedying he cause of he alarm (normal posiion of he signal conacs). Signal conacs are generally included in he sysem via he "NCC" and "NOC" objecs. The alarm sysem is iniially swiched live afer downloading he ProLine applicaion, when all signal conacs are in heir idle posiion, or by pressing he rese buon. The alarm is riggered when one or more signal conacs are acivaed. The sysem hen flashes he acivaed signal conac approx. every second and swiches he alarm oupu on for he seleced ime span. Afer acuaing he acknowledge buon in he "Rese" mode he signal conacs swich from blinking o coninuous operaion and he alarm oupu is swiched off. A his poin a renewed acivaion of a signal conac no longer riggers an alarm. Subsequen acuaion of he sandard rese buon swiches he signal conac off and enables he alarm sysem again. If he sandard rese is acuaed before he acknowledge buon, he sysem will also swich off he alarm oupu; however, he signal conacs will coninue o flash. In his case a renewed acivaion of a signal conac will rigger a new alarm. In he "Auo Rese" mode he alarm sysem will be resared afer an acknowledgemen and wih he signal conacs in idle posiion. The saus of he signal conacs can easily be displayed, e.g. on an indicaor board. All ha is required is ha he oupu channels are coded wih he addresses of he signal conacs. The funcioning of he lamps can be ascerained wih he "Lampes" objec. The "Common Siren" can also be used for he alarm signal. For deails see Chaper "Common Siren" on Page 100. Various ISA objecs can be seleced via he "Channel funcion" dialogue enry: NOC: NCC: Wih his objec you can incorporae normally-open-conacs (passive deecors). If a conac is ripped, and hereby a "1" signal is ransmied on he bus, he alarm will be raised. Wih his objec you can incorporae normally-closed-conacs (acive deecors). If a conac is ripped, and hereby a "0" signal is ransmied on he bus, he alarm will be raised. Page 77 May 2010, Version 1.03 ProLine NG User Manual

85 Doepke 5 The Objecs Alarm Sysems ISA Alarm Acknowledge: Wih his objec you can incorporae acknowledgemen buons. By acuaing he acknowledgemen he alarm oupu will be rese and he alarm source indicaor prepared for rese (change-over from flashing o coninuous signal). Noe: This objec mus be configured in every case. Rese: Lampes: Alarm Siren: This objec is only required in he "Sandard" rese mode and enables he inclusion of a push-buon for reseing he alarm and resaring he sysem. However, he alarm has firs o be acknowledged. If a conac is acivaed while reseing a channel, he sysem will se off a new alarm. When you are configuring his objec, ProLine NG will auomaically selec he "Sandard" mode. This objec allows you o check he funcioning of he lamps, which indicae he saus of he signal conacs. When acuaing he lamp es buon all signal channels will be acivaed. The alarm siren indicaes wheher an alarm siuaion has arisen. The channel configured wih his objec can be used o oupu he alarm a any oupu modules. I normally acivaes a relay oupu which, in urn, is conneced o a siren. Parameers Parameers Operaion Mode Descripion Sandard Wih his seing you deermine ha he acivaion of he alarm sysem akes place afer prior release of he rese buon. This means, of course, ha he "Rese" objec has o be configured. Auo Rese Wih his seing he sysem is auomaically acivaed afer an acknowledgemen, when all normally-closed and normally-open conacs are in heir "normal" posiion (in which hey do no rigger an alarm). Noe: You can selec he operaing mode a any of he ISA alarm objecs - bu i will apply o he enire sysem. If he "Rese" objec is se up so ha a rese buon is included, ProLine assumes ha he "Sandard" mode is o be adoped. A he same ime he operaing mode opion will be deacivaed. This can only be revoked by deleing he "Rese" objec. If you selec "Auo Rese", ProLine will preven he configuraion of he "Rese" objec. ProLine NG User Manual May 2010, Version 1.03 Page 78

86 5 The Objecs Alarm Sysems ISA Alarm Doepke NOC Parameers Descripion Disable Address On Delay NCC Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-open-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. Here you can ener he ime in seconds (0..255) by which he alarm signal is o be delayed when he signal conac is acivaed. Disable Address On Delay Acknowledge Rese Lampes Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-closed-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. Here you can ener he ime in seconds (0..255) by which he alarm signal is o be delayed upon acivaion of he signal conac. There are no configuraion opions for his iem. There are no configuraion opions for his iem. There are no configuraion opions for his iem. Page 79 May 2010, Version 1.03 ProLine NG User Manual

87 Doepke 5 The Objecs Alarm Sysems ISA Alarm Parameers Alarm Siren Descripion Siren Time Wih his seing you deermine for how long he alarm oupu is o remain acivaed when an alarm occurs. The seing can be beween 0 and 60 min. A figure enered here will auomaically be adoped by he common siren. Noe: Wih he - (minus) key you can se an infinie ime. This will be indicaed by ">>>". Timing Characerisics "Sandard" Mode: Normally-openconac (Inpu) Normally-openconac (Oupu) T EV Acknowledge Rese Alarm siren T A PMan_TISA_1a This diagram illusraes he normal sequence of an alarm and is reseing in he "Sandard" mode: 1 : When all conacs are a idle, he channel generaor auomaically swiches he alarm sysem live once he applicaion is loaded. If a conac is acuaed hereafer, iniially nohing will happen because of he enered On delay T EV. ProLine NG User Manual May 2010, Version 1.03 Page 80

88 5 The Objecs Alarm Sysems ISA Alarm Doepke 2 : 3 : 4 : When he On delay T EV has elapsed, he DKG acivaes he alarm siren and flashes he oupu of he source channel. By pressing he acknowledge buon he channel generaor swiches he alarm siren off (if he siren delay ime has no ye elapsed) and changes he alarm source indicaor o a coninuous signal. By pressing he rese buon he alarm source indicaor is also cancelled and he sysem resared. "Auo Rese" Mode Normally-openconac (Inpu) T E T E Normally-openconac (Oupu) Acknowledge Alarm siren T A T A PMan_TISA_2a This diagram illusraes he normal sequence of an alarm and is reseing in he "Auo Rese" mode: 1 : When all conacs are a idle, he channel generaor auomaically swiches he alarm sysem live once he applicaion is loaded. If a conac is acuaed hereafer, iniially nohing will happen because of he enered on-delay T EV. 2 : When he on-delay T EV has elapsed, he DKG acivaes he alarm siren and flashes he oupu of he source channel. 3 : When he siren delay ime T A has elapsed, and he alarm conac has meanwhile been cancelled, he channel generaor swiches he alarm siren off. 4 : Wih he acknowledgemen he oupu of he normally-open-conac is deacivaed and he sysem immediaely and auomaically swiches back o live. 5 / 6 : As per 1 / 2. 7 : Despie he alarm's having been acknowledged, he source indicaor swiches o coninuous mode, as he alarm source is sill acive a his sage. As he siren ime has no ye elapsed in his case, he alarm siren is swiched off. 8 : Only when he alarm source swiches off, is he source indicaor rese and he alarm sysem reurned o live. Page 81 May 2010, Version 1.03 ProLine NG User Manual

89 Doepke 5 The Objecs Alarm Sysems ISA Alarm Example of an Applicaion Task: Soluion: File: Eigh laboraories in a chemical facory are o be fied wih alarm swiches. When an alarm buon is pressed, he works' fire brigade is o be noified via a siren. When he works' fire brigade has acknowledged he alarm, hey are o proceed o he laboraory which raised he alarm. The alarm swiches are assigned o channels A1 o A8. The source of he alarm is displayed on an indicaor board, whose LED is conrolled via a DNP 8A oupu board of he indicaor board. The addresses correspond o hose of he alarm conacs. For acknowledgmen he fire brigade cenre is supplied wih a push-buon a address B1. The alarm is rese via a sandard rese a address B2. The alarm is raised via a klaxon which is acivaed via a relay of a DRM 8 a address B4. alarmsysems.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Alarm swich Alarm conac A1..A8 Inpu modules, e.g. DSS 4U/DSU 8 Push-buon inpu Acknowledgemen B1 Inpu modules, e.g. DSS 4U/DSU 8 Push-buon inpu Rese B2 Inpu modules, e.g. DSS 4U/DSU 8 Push-buon inpu Lamp esing B3 Inpu modules, e.g. DSS 4U/DSU 8 Semiconducor oupu LEDs for source indicaion on indicaor board A1..A8 Oupu modules DNP 8A, DPN/DNP 4 or DSM 1U/DRM 4/DRM 8 Relay oupu Alarm siren B4 Oupu modules, e.g. DSM 1U, DRM 4 ProLine NG Configuraion ISA alarm: NOC Alarm sources A1..A8 On delay: 0 s ISA alarm: Acknowledge Acknowledgemen of alarm B1 - ISA-Alarm: Rese Rese he alarm B2 - ISA alarm: Lampes Acivaes all LEDS on B3 - indicaor board ISA alarm: Alarm Siren Audible alarm B4 Siren ime: 3 min ProLine NG User Manual May 2010, Version 1.03 Page 82

90 5 The Objecs Alarm Sysems Smoke Alarm Doepke Smoke Alarm Funcion: Fire deecion sysem wih inclusion of normally-closed/normally-openconacs, rese buon, alarm siren and alarm signal. Applicaion: Linking smoke/fire deecors, e.g. he DRD 3, ino one alarm sysem. Inserion eiher wih mouse ("Smokealarm") or shorcu key "S". Descripion The smoke alarm serves o se up an alarm sysem consising of smoke or fire deecors, which can be inegraed as normally-closed or normally-open-conacs. By means of inerlinking i is hus possible o replace convenional fire alarm sysems. Smoke deecors are always incorporaed in he sysem via he "NOC" and "NCC" objecs. Upon downloading he ProLine applicaion, or he channel generaor being swiched on, he alarm sysem is auomaically swiched live once he rese delay seleced for he rese objec has elapsed. During his ime he rese oupu is swiched on. An alarm is riggered when one or more signal conacs are acivaed for a minimum of 3 s o 11 s 1. The sysem hen flashes boh he acivaed signal conacs (as he alarm source indicaion), as well as he alarm oupu, approx. once every second. When he rese buon is hen pressed again he channel generaor will cease o flash he alarm conacs and he alarm oupu. If channels hen sill remain acivaed, an alarm will be riggered afer he rese delay has elapsed. Noe: In order o ensure proper funcioning i is essenial o configure he "Rese" objec. The saus of he signal conacs can easily be displayed, e.g. on an indicaor board. All ha is required is ha he oupu channels are coded wih he addresses of he signal conacs. By means of he momenary signal on is channel he "Alarm signal" objec enables a elephone modem or GSM modem o be riggered. The "Common siren" objec may also be used for alarm purposes; for deails refer o Chaper "Common Siren" on Page 100. Via he dialogue window "Channel funcion" various smoke alarm objecs can be seleced: NOC: NCC: Rese: Wih his objec you can incorporae smoke deecors wih normallyopen-conacs. If a conac is ripped, and hereby a "1" signal is ransmied on he bus, he alarm will be raised. Wih his objec you can incorporae smoke deecors wih normallyclosed-conacs. If a conac is ripped, and hereby a "0" signal is ransmied on he bus, he alarm will be raised. This objec enables he inclusion of a push-buon for reseing he alarm and resaring he sysem. If a conac is acivaed while reseing, he sysem will se off a new alarm once he rese delay has elapsed. This objec has o be configured in order o ensure he proper funcioning of he fire alarm. 1. The acivaing ime depends upon he number of channels se up - i.e. hose in he basic se-up menu - and varies beween 3 s (16 channels) and 11 s (128 channels). Page 83 May 2010, Version 1.03 ProLine NG User Manual

91 Doepke 5 The Objecs Alarm Sysems Smoke Alarm Alarm Siren: The alarm siren indicaes wheher an alarm siuaion has arisen. The channel configured wih his objec can be used o oupu he alarm a any chosen oupu modules. I normally acivaes a relay oupu which, in urn, is conneced o a siren. Alarm Signal: Parameers Noe: The alarm oupu signal is always flashed. When an alarm occurs he channel configured wih his objec will be acivaed for approx. 1 s o 10 s (1) and can hus be used o rigger a elephone modem or a GSM modem (DKG 21-GSM). (1)The acivaing ime depends upon he number of channels se up - i.e. hose in he basic se-up menu - and varies beween 3 s (16 channels) and 11 s (128 channels). NOC Parameers Descripion Disable Address NCC Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-open-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. Disable Address Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-closed-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. ProLine NG User Manual May 2010, Version 1.03 Page 84

92 5 The Objecs Alarm Sysems Smoke Alarm Doepke Rese Parameers Descripion Rese Time Alarm Siren Here you can deermine he delay by which - afer he rese buon has been pressed - he sysem is o be se live and an alarm is o be suppressed. This can be uilized for ensuring ha he smoke in he measuring chambers has compleely dissipaed. This ime will also be used when downloading he applicaion and when swiching on he channel generaor. y Siren Time Alarm Signal Wih his seing you deermine for how long he alarm oupu is o remain acivaed when an alarm occurs. The seing can be beween 0 and 60 min. A figure enered here will auomaically be adoped by he common siren. y Alarm Signal Delay Wih his seing you deermine how much ime is o elapse afer he alarm siren is swiched on and before an alarm signal is generaed. The seing can be beween 0 and 10 min. Page 85 May 2010, Version 1.03 ProLine NG User Manual

93 Doepke 5 The Objecs Alarm Sysems Smoke Alarm Timing Characerisics Normally-openconac (Inpu) Normally-openconac (Oupu) Rese (Inpu) Rese (Oupu) T R T R Alarm Siren Alarm Signal T M PMan_TSmoke_1a This diagram illusraes he normal sequence of an alarm and is reseing wih he rese buon: 1 : 2 : 3 : 4 : 5 : 6 : When volage is applied he sysem swiches live afer he seleced rese delay T R has elapsed, as evidenced by he wihdrawal of he rese oupu. Following a shor delay (approx. 10s) afer he fire has been deeced (acivaion of he normallyopen-conac), he alarm is riggered. This is in he form of he alarm siren's being sounded and he oupu of he normally-open-conac's channel being pulsed; he laer indicaing he source of he alarm. The channel generaor acivaes he alarm signal channel afer he se signal delay ime T M has elapsed. Wih he rese buon being pressed boh he alarm siren and he alarm source indicaor are cancelled, alhough he alarm source (normally-open-conac) remains acivaed. This is due o he fac ha he channel generaor ignores all alarm sources during he rese delay. Wih he dissipaion of he smoke in he smoke deecor he normally-open-conac opens again and deacivaes he alarm channel. Afer he rese delay has elapsed he sysem swiches again o live; he rese oupu is wihdrawn. ProLine NG User Manual May 2010, Version 1.03 Page 86

94 5 The Objecs Alarm Sysems Smoke Alarm Doepke Example of an Applicaion Task: Soluion: File: Eigh rooms in a domesic building are o be equipped wih smoke alarms. In he even of an alarm occurring he siren is swiched on and he fire brigade noified. The alarm channels of he DRD 3 smoke deecor are assigned o channels C1 o C8. The source of he alarm is signalled on an indicaor board whose LEDs are riggered via a DNP 8A oupu board. The addresses correspond o hose of he alarm conacs. The alarm signal is given via an alarm bell which is acivaed by he relay of a DRM 8 a address D2. The alarm is rese by a push-buon a address B1. alarmsysems.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Alarm conac Smoke deecor C1..C8 DRD 2 or devices from oher manufacurers Push-buon inpu Rese D1 Inpu modules, e.g. DSS 2U, DBA 4 Semiconducor oupu LEDs as source indicaion on board C1..C8 Oupu modules DNP 8A, DPN/DNP 4 or DSM 1U/DRM 4/DRM 8 Relay oupu Alarm siren D2 Oupu modules, e.g. DSM 1U, DRM 4 Relay or semiconducor oupu Alarm signal D3 Oupu modules, e.g. DSM 1U, DRM 4 for linking o a elephone module or direcly o he GSM modem of he DKG 21-GSM ProLine NG Configuraion Smoke alarm: Smoke deecor C1..C8 No disable addresses. Passive deecor Smoke alarm: Reseing alarm D1 Rese delay: 2 min. Rese Smoke alarm: Alarm siren Audible alarm D2 Siren ime: 10 min. Smoke alarm: Alarm signal Acivaing elephone modem D3 Alarm signal delay: 3 min. Page 87 May 2010, Version 1.03 ProLine NG User Manual

95 Doepke 5 The Objecs Alarm Sysems Inruder Alarm Inruder Alarm Funcion: Inruder alarm sysem wih inclusion of normally-closed/normally-openconacs, oggle swich funcions, proximiy deecors, enable push-buon and swich, code lock enabling, alarm siren and alarm signal. Applicaion: Linking inruder signal conacs ino one alarm sysem Inserion eiher wih mouse ("Inruder Alarm") or shorcu key "I". Descripion The inruder alarm serves o se up an alarm sysem consising of various conacs which can be inegraed as normally-closed or normally-open-conacs. By means of inerlinking i is hus possible o replace convenional burglar alarm sysems. In addiion o he objec's own conacs (normally-open and normally-closed-conacs), i is also possible o include any already-configured oggle swich funcions and moion deecor objecs. This is carried ou direcly a he relevan objecs. An enabled sysem will rigger an alarm when one or more signal conacs have been acivaed. The sysem hen flashes he acivaed signal conacs (as alarm source indicaion) and, afer he se delay, swiches he alarm oupu on. Wih subsequen acuaion of he enable push-buon or swich, or he code lock enabling, he channel generaor will cease o flash he alarm conacs and will swich he alarm oupu off. If an alarm is no acknowledged before he siren delay has elapsed, he sysem will auomaically swich live again. Noe: In order o ensure ha he sysem funcions properly i is essenial ha one of he objecs "Enable by Push Buon", "Enable by Swich" or "Enable by Code Lock" is configured. I is no necessary o use he "Enable by Swich" or "Enable by Code Lock" objecs; heir operaion is however possible in addiion o, or insead of, he "Enable by Push Buon". If wo objecs are used, he alarm mus be acknowledged wih he objec wih which he sysem had been se live. The saus of he signal conacs can easily be displayed, e.g. on an indicaor board. All ha is required is ha he oupu channels are coded wih he addresses of he signal conacs. By means of he momenary signal on is channel he "Alarm signal" objec enables a elephone modem or GSM modem o be riggered. The "Common siren" objec may also be used for alarm purposes; for deails refer o Chaper "Common Siren" on Page 100. Via he dialogue window "Channel funcion" various inruder alarm objecs can be seleced: NOC: NCC: Toggle Swich: This objec enables windows, doors ec. wih normally-open-conacs o be moniored. If a conac is ripped, and hereby a "1" signal is ransmied on he bus, he alarm will be raised. This objec enables windows, doors ec. wih normally-closed-conacs o be moniored. If a conac is ripped, and hereby a "0" signal is ransmied on he bus, he alarm will be raised. This objec can also be included in he monioring by selecing he "Use in Inruder alarm" opion. For deails refer o Chaper "Toggle Swich Funcion" on Page 52. ProLine NG User Manual May 2010, Version 1.03 Page 88

96 5 The Objecs Alarm Sysems Inruder Alarm Doepke Moion Deecor: Enable by Push Buon: Enable by Swich: Enable by Code Lock: Alarm Siren: Alarm Signal: The moion deecor funcion can also be inegraed in he inruder alarm. For deails refer o Chaper "Moion / Proximiy Deecor" on Page 72. This objecs enables he inclusion of a push-buon for enabling and reseing he alarm. This objec only enables hose alarm conacs for which no, or a deacivaed, disable address has been enered. I is hus someimes possible o se up an alarm enabling via he enable buon. When he enable push-buon is pressed, he enabling delay has firs o elapse. During his ime he channel generaor will ignore acivaed alarm conacs. If hereafer a non-disabled alarm conac is acivaed, his channel (as well as he channel of he enable buon) will sar o pulse, and will rigger he alarm via he siren once he alarm delay has elapsed. To acknowledge an alarm he enable buon has o be pressed once; o resar he alarm sysem i has o be pressed once more. This objec enables he incorporaion of a swich for acivaing he alarm sysem. Is funcion is similar o ha of he enable push-buon, whereby here he disable addresses - enered a he alarm conacs - will be ignored. The swich hus carries ou a oal enabling. Afer laching he swich, he enabling delay has firs o elapse. During his ime he channel generaor will ignore acivaed alarm conacs. If hereafer an alarm conac is acivaed, his channel (as well as he channel of he enable swich) will sar o pulse, and will rigger he alarm via he siren once he alarm delay has elapsed. To acknowledge an alarm he enable swich has o be swiched off; o se he sysem live i has o be swiched on again. The code lock enabling may be used as an alernaive o he enabling swich; he operaional effec is idenical because i, oo, carries ou a oal enabling of all - even disabled - alarm conacs. The objec awais a pulse from he code lock for seing he alarm sysem live; a furher pulse is required for acknowledging an alarm which has occurred (see "Enable by Push Buon"). The alarm siren indicaes wheher an alarm siuaion has arisen. The channel configured wih his objec can be used o oupu he alarm a any chosen oupu modules. I normally acivaes a relay oupu which, in urn, is conneced o a siren. The configuraion also permis he alarm oupu o be pulsed, as well as he selecion of any addiional channels which will also be pulsed. When an alarm occurs he channel configured wih his objec will be acivaed for approx. 1 s and can hus be used o rigger a elephone modem or a GSM modem (DKG 21-GSM). Page 89 May 2010, Version 1.03 ProLine NG User Manual

97 Doepke 5 The Objecs Alarm Sysems Inruder Alarm Parameers NOC Parameers Descripion Disable Address NCC Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-open-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. Disable Address Enable by Push Buon Enable by Swich Enable by Code Lock Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-closed-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. Enable Delay Alarm Delay Here you can specify he delay by which - once he enable faciliy has been acuaed - he sysem will be swiched live. Wih his seing you specify how many seconds have o elapse afer an alarm has occurred and before he alarm siren is o be acivaed. This provides for an early acknowledgmen of he alarm and prevens he siren from sounding he alarm, e.g. when enering a building. ProLine NG User Manual May 2010, Version 1.03 Page 90

98 5 The Objecs Alarm Sysems Inruder Alarm Doepke Parameers Alarm Siren y Descripion Siren Time Flash when Alarm Wih his seing you deermine for how long he alarm oupu is o remain acivaed when an alarm occurs. The seing can be beween 0 and 60 min. The sysem will immediaely be swiched live again once he siren ime has elapsed and here is no alarm conac sill acive. A figure enered here will auomaically be adoped by he common siren. When you click his checkbox you are given he opporuniy no only o selec via he "Flashing Channels" opion hose channels which are o be flashed on and off, bu also o specify heir pulse inerval (see below). The channel of he alarm siren will, however, sill be swiched on coninuously. Flash Inerval Flashing Channels Alarm Signal Noe: The "Flash Inerval" and "Flashing Channels" opions will only be displayed if he "Flash when Alarm" box has been icked. Here you can deermine he swiching-on and -off inerval of he pulsed alarm signal. This is condiional upon he "Flash when Alarm" opion having been swiched on. The ime can be beween 0 and 60 s. Please bear in mind ha pulse imes of less han wo seconds may be irregular due o he cycle ime. If 0 s is enered, he sysem will adop he fases possible flashing rhyhm. If you click his swich wih he mouse an address marix will appear in which you can ener he channels which are o be flashed when he alarm occurs. The opion will only appear if "Flash when Alarm" has been icked. y Alarm Signal Delay Wih his seing you deermine how much ime is o elapse afer he alarm siren is swiched on and before an alarm signal is generaed. The seing can be beween 0 and 10 min. Page 91 May 2010, Version 1.03 ProLine NG User Manual

99 Doepke 5 The Objecs Alarm Sysems Inruder Alarm Timing Characerisics Normally-openconac (Inpu) Normally-openconac (Oupu) T FV Manual armouring (Inpu) Manual armouring (Oupu) T AV T A Alarm Siren Alarm Signal T M PMan_TBurglar_1a The above diagram illusraes he normal sequence of an alarm and is early acknowledgemen and reseing o live wih he enable push-buon: 1 : 2 : 3 : 4 : 5 : 6 : 7 : 8 : Afer he channel generaor is swiched on, he alarm sysem is se live by pressing he enable buon once. An alarm conac is acivaed, e.g. by an alarmed door being opened. As he enabling delay T FV has no ye elapsed in our example, nohing happens iniially. Afer he enabling delay T FV has elapsed, he alarming sequence is sared, i.e. he channel of he alarm conac, as well as he oupu of he enable buon, begin o flash. Afer he alarm delay T AV has elapsed, he channel generaor acivaes he siren. Afer he siren ime T A has elapsed, he alarm siren channel is deacivaed. The flashing of he alarm conac and he enable buon oupu coninues. Afer he alarm signal ime T M of he "Alarm Signal" objec has elapsed, he channel is momenarily acivaed. A he same ime boh he alarm conac and he enable buon oupu are permanenly swiched on. Pressing he enable buon acknowledges he alarm and he enable buon oupu is rese. Pressing he enable buon once again swiches he sysem back o live - whils observing he alarm delay T FV. ProLine NG User Manual May 2010, Version 1.03 Page 92

100 5 The Objecs Alarm Sysems Inruder Alarm Doepke Example of an Applicaion Task: Soluion: File: Eigh rooms in a domesic building are o be fied wih door and window conacs. In addiion, all ligh swiches and wo moion deecors are o be inegraed. In he even of an alarm a siren is o be acivaed and he police o be informed via a elephone modem. An indicaor board signals he source of he alarm. I also has o be possible o disable he alarm conacs of each sorey individually. The alarm conacs of each room are grouped ogeher (conneced in series). Each is assigned a normally-open-conac wihin he range of E1..E8. The source of he alarm is indicaed on a board whose LED is riggered via a DNP 8A oupu board. The addresses correspond o hose of he alarm conacs. The alarm is signalled via an alarm bell, which is riggered via a relay of a DRM 8 a address F3. The alarm can be swiched live, and also acknowledged, eiher by he enable buon F1 in he enrance hall, or by he code lock enable faciliy a he fron door. The disabling of he individual soreys is by means of wo swiches. alarmsysems.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Alarm conac Moion deecors Ligh conac swich Reed conacs a windows and doors Generae he alarm if sysem is acivaed Push-buons which serve as alarm source if sysem is acivaed E1..E8 F5/F6 N1..N8 O1..O4 Conacs incorporaed via inpu modules, e.g. DSS 4U, DSU 8 Dupline DPM 1 proximiy deecor Conacs incorporaed via inpu modules, e.g. DSS 4U, DBA 4 Push-buon inpu Enabling F1 Inpu modules, e.g. DSS 2U, DBA 4 Code lock Code lock enabling F1 Inpu modules, e.g. DSS 2U, DBA 4 Hardware mus supply a pulse. Swich inpu Inhibiing grd.fl/1s fl P1/P2 Inpu modules, e.g. DSS 4U, DSU 8 Semiconducor oupu LEDs as source indicaion on board E1..E8 F1..F3 Oupu modules DNP 8A, DPN/DNP 4 or DSM 1U, DRM 4, DRM 8 Relay oupu Lighing N1..N8 Oupu modules, e.g. DSM 1U, DRM 4 O1..O4 Relay oupu Alarm siren F3 Oupu modules, e.g. DSM 1U, DRM 4 Relay or semiconducor oupu ProLine NG Configuraion Inruder alarm: NOC Moion Deecor Alarm signal F4 Oupu modules, e.g. DSM 1U, DRM 4 for linking o a elephone module. Inruder alarm E1..E8 I1..E4 (grd.fl.): disabled via swich P1 E5..E8 (1s fl.): disable via swich P2 Auom. ligh on/alarm conac Toggle swich Ligh swich / alarm conac Inruder alarm: Enable by Push Buon F5/F6 N1..N8 O1..O4 "Use in Inruder alarm" opion called up, alarming afer 2 pulses. "Use in Inruder alarm" opion called up. Acknowledging alarm F1 Enable Delay: 180 s Alarm Delay: 10 s. Page 93 May 2010, Version 1.03 ProLine NG User Manual

101 Doepke 5 The Objecs Alarm Sysems Inruder Alarm Objec Significance Channel Noes / Configuraion Inruder alarm: Enable by Code Lock Acknowledging F2 Enable/Alarm delay as above Push buon Disable swich P1/P2 - Inruder alarm: Alarm siren Inruder alarm: Alarm signal Audible alarm F3 Siren ime: 5 min All lighs N1..O4 acivaed wih 3 s pulse. Acivaing elephone modem F4 Alarm signal delay: 3 min. ProLine NG User Manual May 2010, Version 1.03 Page 94

102 5 The Objecs Alarm Sysems Waer Alarm Doepke Waer Alarm Funcion: Waer deecion sysem wih inclusion of normally-closed/normally-openconacs, rese buon, alarm siren and alarm signal. Applicaion: Linking waer sensors, e.g. he DWS 1, ino one alarm sysem. Inserion eiher wih mouse ("Waer Alarm") or shorcu key "W". Descripion The waer alarm serves o se up an alarm sysem consising of waer sensors, which can be inegraed as normally-closed or normally-open-conacs. By means of inerlinking i is hus possible o replace convenional alarm sysems. Waer alarms are generally incorporaed in he sysem via he "NOC" and "NCC" objecs. Upon downloading he ProLine applicaion, or upon he channel generaor being swiched on, he alarm sysem is auomaically swiched live once he rese delay seleced for he rese objec has elapsed. An alarm is riggered when one or more signal conacs are acivaed for a minimum of 3 s o 11 s 1. The sysem hen flashes he acivaed signal conacs (as he alarm source indicaion) approx. once every second. The alarm sysem is pulsed a an on-off sequence of approx. 3 s o 57 s. If he rese buon is pressed again he channel generaor will cease o pulse he signal conacs and he alarm oupu. Should channels hen sill remain acivaed, an alarm will be riggered afer he rese delay has elapsed. Noe: In order o ensure proper funcioning i is essenial o configure he "Rese" objec. The saus of he signal conacs can easily be displayed, e.g. on an indicaor board. All ha is required is ha he oupu channels are coded wih he addresses of he signal conacs. By means of he momenary signal on is channel, he "Alarm signal" objec enables a elephone modem or GSM modem o be riggered. The "Common siren" objec may also be used for alarm purposes; for deails refer o Chaper "Common Siren" on Page 100. Via he dialogue window "Channel funcion" various smoke alarm objecs can be seleced: NOC: NCC: Rese: Wih his objec you can incorporae waer deecors wih normallyopen-conacs. If a conac is ripped, and hereby a "1" signal is ransmied on he bus, he alarm will be raised. Wih his objec you can incorporae waer deecors wih normallyclosed-conacs. If a conac is ripped, and hereby a "0" signal is ransmied on he bus, he alarm will be raised. This objec enables he inclusion of a push-buon for reseing he alarm and resaring he sysem. If a conac is acivaed while reseing, he sysem will se off a new alarm once he rese delay has elapsed. This objec has o be configured in order o ensure he proper funcioning of he waer alarm. 1. The necessary acivaing ime depends upon he number of channels se up - i.e. in he basic se-up menu - and varies beween 3 s (16 channels) and 11 s (128 channels). Page 95 May 2010, Version 1.03 ProLine NG User Manual

103 Doepke 5 The Objecs Alarm Sysems Waer Alarm Alarm Siren: The alarm siren indicaes wheher an alarm siuaion has arisen. The channel configured wih his objec can be used o oupu he alarm a any chosen oupu modules. I normally acivaes a relay oupu which, in urn, is conneced o a siren. In he even of an alarm his oupu is pulsed wih an on-ime of approx. 3 s and an off-ime of approx. 57 s. Alarm Signal: Parameers When an alarm occurs he channel configured wih his objec will be acivaed for approx. 1 s o 10 s (1) and can hus be used o rigger a elephone modem or a GSM modem (DKG 21-GSM). (1)The acivaing ime depends upon he number of channels se up - i.e. in he basic se-up menu - and varies beween 3 s (16 channels) and 11 s (128 channels). NOC Parameers Descripion Disable Address NCC Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-open-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. Disable Address Ener here an address (A1..P8) or a marker (R1..Z8) upon whose acivaion ("1" signal) he normally-closed-conac is o be excluded from he monioring and is hus no longer able o rigger an alarm. ProLine NG User Manual May 2010, Version 1.03 Page 96

104 5 The Objecs Alarm Sysems Waer Alarm Doepke Rese Parameers Descripion Rese Time Alarm Siren Here you can deermine he delay by which, afer he rese buon has been pressed, he sysem is o be se live or remain swiched off. The rese delay can be beween 2 and 10 min. y Siren Time Alarm Signal Wih his seing you deermine for how long he alarm oupu is o remain acivaed when an alarm occurs. The seing can be beween 0 and 60 min. A figure enered here will auomaically be adoped by he common siren. y Alarm Sgnal Delay Wih his seing you deermine how much ime is o elapse afer he alarm siren is swiched on and before an alarm signal is generaed. The seing can be beween 0 and 10 min. Page 97 May 2010, Version 1.03 ProLine NG User Manual

105 Doepke 5 The Objecs Alarm Sysems Waer Alarm Timing Characerisics Normally-openconac (Inpu) T EV Normally-openconac (Oupu) Rese (Inpu) T R T R Rese (Oupu) 3s 57s Alarm Siren Alarm Signal T M 4 5 PMan_TWaer_1a This diagram illusraes he normal sequence of an alarm and is reseing wih he rese buon: 1 : 2 : 3 : 4 : 5 : When volage is applied he sysem swiches live afer he seleced rese delay T R has elapsed, as evidenced by he wihdrawal of he rese oupu. An alarm conac is acivaed, whereupon he On delay T EV sars, which varies beween 3 s and 11 s. Afer he On delay has elapsed (s. above), he channel generaor pulses he acivaed conac as well as he alarm siren. The laer is hen swiched on for approx. 3 s and swiched off for approx. 57 s. Afer he signal delay T M has elapsed he alarm signal is acivaed for a shor ime. Wih he rese buon being pressed he rese delay sars and he siren is swiched off. ProLine NG User Manual May 2010, Version 1.03 Page 98

106 5 The Objecs Alarm Sysems Waer Alarm Doepke Example of an Applicaion Task: Soluion: File: Six rooms in a domesic building are o be proeced agains waer damage. When an alarm siuaion occurs a siren is swiched on and he homeowner noified via an SMS message. The affeced rooms are o be indicaed on an indicaor board. The alarm channels of he DWS 1 waer sop sensor are assigned o channels G1 o G6. The source of he alarm is displayed on an indicaor board whose LEDs are riggered via a DNP 8A oupu board. The addresses correspond o hose of he alarm conacs. The alarm signal is given via an alarm bell which is acivaed by a relay of a DRM 8 a address H2. The alarm is rese by a push-buon a address H1. alarmsysems.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Alarm conac Waer sop sensor G1..G6 DWS 1 or devices from oher manufacurers Push-buon inpu Rese H1 Inpu modules, e.g. DSS 4U, DSU 8 Semiconducor oupu LEDs as source indicaion on board G1..G6 Oupu modules DNP 8A, DPN/DNP 4 or DSM 1U/DRM 4/DRM 8 Relay oupu Alarm siren H2 Oupu modules, e.g. DSM 1U, DRM 4 Relay or semiconducor oupu Alarm signal H3 Module DNP 8A for indicaor board display; alarm signal direcly o GSM modem of he DKG 21-GSM ProLine NG Configuraion Waer alarm: Passive deecor G1..G6 No disable address. NOC Waer alarm: Reseing of alarm H1 Rese delay: 2 min Rese Waer alarm: Audible alarm H2 Siren ime: 5 min. Alarm siren Waer alarm: Alarm signal Acivaing GSM modem H3 No delay. Page 99 May 2010, Version 1.03 ProLine NG User Manual

107 Doepke 5 The Objecs Alarm Sysems Common Siren Common Siren Funcion: Combined oupu of ISA, inruder, smoke and waer alarm. Applicaion: Oupu of several alarms by one siren in addiion o, or insead of, individual alarms' own siren. Inserion wih mouse ("Common Siren") Descripion The "Common Siren" offers he opion of grouping ogeher on one channel he alarms of all alarm sysems. The siren hen adops he same alarm characerisics as he respecive alarm siren. If several alarms are riggered, hey are signalled in he following order of prioriy: 1. Smoke alarm 2. Inruder alarm 3. Waer alarm 4. ISA alarm Operaion of he common siren is irrespecive of wheher a siren of he paricular alarm sysem has been configured. Noe: The siren ime enered for he common siren will auomaically be adoped by he individual sirens. This is also applicable o he reverse process. If an alarm is acknowledged and/or rese in ime, he channel generaor will also wihdraw he signal of he common siren. Parameers Parameers Common Siren Descripion Channel Funcion Siren Time Selec here one or more alarm sysems for which - should is/heir alarm(s) be riggered - his siren o be acivaed in addiion. Specify here he max. ime for which he siren is o be acivaed. The duraion can be beween 0 min and 60 min. ProLine NG User Manual May 2010, Version 1.03 Page 100

108 5 The Objecs Alarm Sysems Common Siren Doepke Example of an Applicaion Task: Soluion: File: The various alarm sysems (smoke, waer, ISA and inruder alarms) in a commercial building are o acivae an exernally mouned siren. The alarm sysems of he example previously given are being used. The relay for he exernal siren is configured a address I1. The siren ime of each included alarm will be configured. alarmsysems.x16 Page 101 May 2010, Version 1.03 ProLine NG User Manual

109 Doepke 5 The Objecs Shuer Conrols Shuer Conrol 5.5 Shuer Conrols Shuer Conrol Funcion: Up/Down conrol of drive moors Applicaion: Conrol of e.g. shuers, roller blinds, awnings and skylighs via he Dupline modules DRO 1U, DRM 4 and DRM 8. Individual seing possible for roll ime and reverse ime. Sla il conrol for shuers and prioriy seing for e.g. wind sensor. Inserion wih mouse ("Shuer Conrol"). Descripion The shuer conrol permis he operaion of Dupline shuer conrol devices for e.g. shuer, roller blind and awning drives. By combining he Up and Down channels he channel generaor is able o ensure roublefree operaion: i prevens simulaneous acivaion of he raising and lowering channels, and provides for he idle ime when swiching over beween Up and Down direcions. Aenion: The DRO 1U, (DRO 2, DRO 4b/c) 1, DRM 4 and DRM 8 shuer conrol devices may only be operaed wih he Roller Blind Up-Down objec! Using oher objecs will ineviably resul in irrevocable damage of he shuer conrols and/or moors. Generally he Up channel has prioriy over he Down channel. If boh are operaed simulaneously he channel generaor will execue he Up command. Address Configuraion The shuer conrol can only be configured a an uneven address. This means ha he Up channel has o be a an uneven (e.g. A1, B5 or P7) and he Down channel a an even address (e.g. A2, B6 or P8). This also reflecs he address coding a he shuer conrol devices: here, oo, he Up channel may only be a an uneven oupu channel (1, 3, 5 or 7), he Down channel only a an even oupu channel (2, 4, 6 or 8). The following able illusraes a possible configuraion: Device: DRO 1U DRM 4 (DRO 2) DRM 8 (DRO 4b/c) Oupu Channel: Shuer Up A1 x B5 x C3 x #1 Down x A2 x B6 x C4 Shuer #2 Shuer #3 Shuer #4 Up D7 x G5 x Down x D8 x G6 Up A3 x Down x A4 Up K7 x Down x K8 Under no circumsances may hose oupu channels marked wih an "x" be assigned o he respecive direcion; areas marked in grey are available only once a he device. I would hus also be possible of course for e.g. shuer #3 a he DRM 8 o be operaed on channels 1/2. 1. Modules no available anymore. ProLine NG User Manual May 2010, Version 1.03 Page 102

110 5 The Objecs Shuer Conrols Shuer Conrol Doepke Aenion: If he moor runs in he wrong direcion despie a correc address configuraion, hen he relevan connecing wires of he moor have been inerchanged. In such a case reconnec he wires correcly - under no circumsances may he address be exchanged! Tiling Blinds The Up and Down push-buons configured a he addresses of he shuer Up-Down conrol are exremely easy o operae: Opion "Tiling Blinds" disabled: By pressing he direcion buon once, he moor will run o he end posiion or unil he end of he roll ime. By pressing he direcion buon for a longer ime, he moor will drive unil he buon will be released. Pressing he same direcion buon again will sop he moor. Upon pressing in he opposie direcion, he moor will sop momenarily and hen drive in he opposie direcion up o he end posiion or unil he se roll ime has elapsed. Opion "Tiling Blinds" enabled: If he direcion buon is pressed for less han 1,8 seconds, he moor will sop when he buon is released. If he direcion buon is pressed for more han hree seconds, he moor will drive o he end posiion or unil he roll ime has elapsed. Here, oo, i is possible o sop he moor by pressing he buon once more or, o ge i o run in he opposie direcion, by pressing he oher direcion buon. Wih he iling blinds conrol he shuer drives can be acivaed for a shor ime so ha - insead of resuling in an Up/Down movemen - hey adjus he sla angle. However, his funcion is dependen upon he design of he shuers or blinds. Noe: If you are using he modules of ype (DRO 4c), DRM 4 or DRM 8, do no swich on he opion "iling blinds", bu prefer using he in-buil sep mode of he devices. This one allows an even more precise adjusmen of he iling blinds. Auomaing he roller blind conrol There are cerainly many opions available for an auomaed operaion of roller blinds/shuers. Wind and rain sensors, and also ligh sensors and ime swiches, can enhance comfor by auomaic operaion. Such funcions should normally be implemened by means of logic connecives - provided hey have no been configured as a prioriy address. Here i is preferable o use he slope analysis, which prevens coninuous signals and permis operaion a any ime. Please refer o Chaper 6 "Logic Connecives" on Page 116. Inerconnecion of several moors You can achieve simulaneous riggering of several moors by: 1. Connecing all moors o separae oupus, and 2. Allocaing all Up and all Down channels he same address. We srongly advise agains connecing wo or more moors in parallel o one oupu channel. The more flexible way for he group or maser conrol of several devices is o uilize he Shuer Maser objec. For deails see Chaper "Shuer Maser" on Page 107. Page 103 May 2010, Version 1.03 ProLine NG User Manual

111 Doepke 5 The Objecs Shuer Conrols Shuer Conrol Parameers Parameers Shuer Conrol Descripion Running Time Ener here he ime in seconds ha he moor is o be acivaed in he appropriae direcion. The figure can be beween 0 and 255 s. The ime span should be chosen so as o allow he blinds o reach heir end posiion in boh direcions, whereby an end posiion conac has o swich off he drive. Inermediae imes could provide e.g. shading; in which case i should be noed, however, ha he blinds are o be in one or oher of heir end posiions before he sar. Noe: Reverse Delay Tiling Blinds Address Prioriy The roll ime enered here will be overwrien by he maser conrol bu observed when an acivaion by a prioriy address occurs. Ener here he ime in milliseconds ha he drive is o remain sill when he direcion is changed. The figure can be beween 500 and 2000 ms. Tip: If you re using a (DRO 4c), DRM 4 or DRM 8 o achieve a more precise sla adjusmen, you may swich off he sep mode for single channels jus by seing he value of Reverse Delay o 2000 ms. This opion enables he slas of shuers/blinds o be conrolled. If his opion is seleced, he drive will be sopped wihin hree seconds of he push-buon being released. You have o acivae he iling blinds opion if you wan o configure he reverse opion for his drive in he rollerblind maser conrol. Tip: If you would like o achieve a more precise adjusmen of he iling blinds, prefer using he inegraed sep mode of he shuer conrols DRM 4 and DRM 8 insead of his sofware seing. If he channel address enered here is acivaed, he moor will drive for he enered running ime in he direcion seleced. As long as he specified prioriy channel is se, any inpu signals a he shuer channels will be ignored. Noe: The prioriy address has an even higher prioriy han he maser conrol. Here you can specify in which direcion he moor is o drive if he channel enered in he box below has been acivaed. ProLine NG User Manual May 2010, Version 1.03 Page 104

112 5 The Objecs Shuer Conrols Shuer Conrol Doepke Timing Characerisics Up push-buon T V T V T V Down push-buon Up channel Down channel T U T L PMan_TRollerUpD_1a The iming shown above relaes o a shuer objec where he iling blinds funcion has been acivaed (iling ime T V of 1,8 s). 1 : 2 : 3 : 4 : 5 : 6 : 7 : The push-buon for he Up direcion is being pressed. As he pulse is shorer han he 1,8 s iling ime T V, he drive sops upon he buon being released. Once again he Up direcion is being acivaed. Bu because he acuaion ime is longer han he iling ime T V on his occasion, he conrol ries o swich he channel on for he oal running ime. Anoher press of he push-buon in he same direcion sops he drive. Now he buon for he Up direcion is pressed once again and he drive is hereby sared in he Up direcion. By pressing he buon for he Down direcion, he drive is sopped and he ransi ime (reverse delay) T U sars. Afer he ransi ime T U has elapsed, he moor is acivaed in he Down direcion. A he end of he running ime T L he moor sops. However, in order o reach he end of he running ime, he push-buon for Down has o be pressed for longer han he iling ime T V. Example of an Applicaion Task: Soluion: A number of shuers and one skyligh in a domesic building are o be conrolled. One group conrol each are o be provided for he upper and he ground floor, plus one maser conrol which acivaes all shuers. To proec he shuers a SIWS/SIWR wind sensor and a SIRW rain sensor are insalled. When i rains he shuers are o be lowered, when i is windy hey are o be raised; wih windy condiions having prioriy. The skyligh is o be closed when i rains. The shuers as well as he skyligh are riggered via Dupline DRM shuer conrol devices. Shuer conrol maser funcions are used for he group and maser conrol. The address of he wind sensor is enered direcly as a prioriy address in he shuer Up/Down conrols. The Down channel of he maser conrol (up. fl.+ grd. fl) is acivaed via a logic seing by he address of he rain sensor. Page 105 May 2010, Version 1.03 ProLine NG User Manual

113 Doepke 5 The Objecs Shuer Conrols Shuer Conrol For deails on he shuer conrol maser funcion see Chaper "Shuer Maser" on Page 107. File: rollerblindconrol.dkg Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpus Push-buon inpus Binary inpus for wind sensor / rain sensor Local operaion Group Maser A1...B4 C1..D4 B5/6, D5/6 D7/8 Inpu modules, e.g. DSS 2U, DBA 4 Inpu modules, e.g. DSS 2U, DBA 4 Prioriy conrol I1 / I2 SIWS/SIWR and SIRW, linked via inpu modules like e.g. DSS 2U, DSU 8, DRM 4. Relay oupus Drives A1...B4 C1..D4 ProLine NG Configuraion Shuer Conrol Shuer/skyligh conrol, decenral A1...B4 C1..D4 Shuer conrol modules, e.g. DRO 1U, DRM 4 Prioriy address I1, prioriy "UP" (skyligh: prioriy address I2, prioriy "DOWN"). Roll ime: This is se o 30 s as he shuers require approx. 20 s. Shuer maser Group conrol, grd.fl. B5/6 All shuer conrol devices of he ground floor are enered here. Shuer maser Group conrol, up.fl. D5/6 All shuer conrol devices of he firs floor are enered here. Shuer maser Cenral conrol D7/8 All shuer conrol devices of he ground and firs floors are enered here. Push buon Incorporaing wind/rain deecor I1/I2 Wih he logic seing shown below he rain sensor acivaes all shuers in he Down direcion via he maser conrol. When he wind sensor channel is acivaed, he command will no be carried ou by he local shuer conrol objecs (prioriy conrol a every decenral shuer conrol objec). Oupu Inpu 1 Funcion Inpu 2 D8 /I2 AND /I2 Wih he push buon funcion he channels remain acivaed while here is wind or rain. ProLine NG User Manual May 2010, Version 1.03 Page 106

114 5 The Objecs Shuer Conrols Shuer Maser Doepke Shuer Maser Funcion: Group or cenrally conrolled operaion of decenral shuer conrols. Applicaion: Group or maser conrol of drives for shuers, roller blinds, awnings, skylighs ec. Roll ime wih prioriy over individual roll imes seable. Collecive or sequenial sar of blinds selecable. Reverse ime for sla adjusmen upon reaching he end posiion. Inserion wih mouse ("Shuer Maser"). Descripion Wih his objec boh group and maser conrols can be realized for shuers, awnings, roller blinds and skylighs. The decenral shuer conrol channels which have o be configured beforehand, (see Chaper "Shuer Conrol" on Page 102) are included in he channel marix of he maser conrol by means of simple markings. The running ime se for he maser conrol applies o all individual conrols and has prioriy over he running imes se for he laer. Enering a reverse Up ime enables auomaic adjusmen of he slas a he end of a drive cycle: when he se running ime has elapsed, he channel generaor swiches he drive for he se reverse Up ime in he opposie direcion. The maser conrol funcion offers wo operaing modes for saring he drives: 1. "Simulaneously": all drives are sared in unison. 2. "Sequenially": all drives are sared wihin a space of one second of each oher; his avoids peak loads. Address Configuraion The roller blind maser can only be configured a an uneven address. This means ha he Up channel has o be a an uneven (e.g. A1, B5 or P7) and he Down channel a an even address (e.g. A2, B6 or P8). Noe: Shuer conrol componens DRO 1U, (DRO 2, DRO 4b/c) 1, DRM 4 and DRM 8 should no be assigned he address of a maser funcion. Operaion The Up and Down push-buons configured a he addresses of he shuer maser conrol are exremely easy o operae: By pressing a direcion buon once, all seleced moors will run o he end posiion or unil he end of he running ime. Pressing he same direcion buon again will resar he se roll ime. Sopping is herefore no possible. Upon pressing in he opposie direcion he moors will momenarily sop (decenrally se reverse Up ime) and drive in he opposie direcion up o he end posiion or unil he se roll ime has elapsed Afer he Down roll ime has elapsed he drives run in he Up direcion, provided a reverse Up ime has been enered and he iling blinds conrol has been acivaed a he decenral shuer conrol. While he maser conrol command is applied, all drives can also be riggered by he respecive decenral shuer channels. All funcions of he decenral shuer conrol objec are available here (sop, reverse direcion, sla adjusmen). 1. Modules no available anymore. Page 107 May 2010, Version 1.03 ProLine NG User Manual

115 Doepke 5 The Objecs Shuer Conrols Shuer Maser Tip: On channel generaors DKG 20 and DKG 21-GSM he sop funcion can be realised also by using exernal references (see Chaper "Shuer Maser wih Sar/Sop Funcion" on Page 135). However, his does no work when operaing using ouch panels. Auomaing he shuer conrol There are cerainly many opions available for an auomaed operaion of several roller blinds/shuers. Wind and rain sensors, and also ligh sensors and ime swiches, can enhance comfor by auomaic operaion. Such funcions should normally be implemened by means of logic connecives. Wih such a seing i is preferable o use he slope analysis, which prevens coninuous signals and permis operaion a any ime. Please refer o Chaper 6 "Logic Connecives" on Page 116. Noe: If several shuer maser conrols are acive a he same ime, he running ime enered a he maser conrol of he higher order will apply o all acivaed blinds. Example: You are configuring a shuer maser conrol a addresses L1/L2 (roll ime 45 seconds) and anoher a addresses L3/L4 (roll ime 60 seconds). If boh are sared simulaneously he decenral blinds will have a roll ime of 60 seconds. Noe: To avoid false running imes we recommend he ime-delayed acivaion of he maser conrols by means of imers. A delay of 1 second normally is sufficien. Parameers Parameers Shuer Maser Descripion Operaion Mode Running Time Wih his seing you deermine wheher he blinds are o be sared simulaneously or sequenially. In he "Sequenially" seing he blinds will sar and sop wihin one second of each oher. This ime is also used for direcion change and reversing, and does no affec he se roll ime. Wih he roll ime you deermine for how long all blinds are o be driven. This roll ime has prioriy over he roll ime enered for he individual roller blind objecs. ProLine NG User Manual May 2010, Version 1.03 Page 108

116 5 The Objecs Shuer Conrols Shuer Maser Doepke Parameers Reverse Up Time Descripion The reverse Up ime deermines he ime in seconds, in which he blinds are o be operaed in he opposie direcion afer he running ime has elapsed, so ha he slas are auomaically iled. Noe: The channel generaor only carries ou he reversing a hose decenral roller blind conrols where he "Tiling Blinds" opion has been acivaed. Timing Characerisics Up push-buon Maser Down push-buon Maser T U T L T U T R Up channel (Blind 1) Down channel (Blind 1) T V T V T V T L T U Up channel (Blind 2) Down channel (Blind 2) PMan_TRollerMaser_1a The iming shown above relaes o a roller blind maser conrol where he operaing mode "Sequenially" has been seleced and a reverse Up ime T R has been specified. 1 : 2 : 3 : 4 : 5 : 6 : The push-buon for Up is pressed. The Up channel of he firs drive is acivaed. Because he operaing mode "Sequenially" has been seleced, he channel generaor swiches he Up channel of he second drive wih a 1 second delay. Before he maser running ime has elapsed, he Down push-buon is being pressed, hereby forcing a change of direcion. The moors sop in sequence a his, and he reverse delay T U enered a he decenral roller blind sars. Afer he reverse delay T U has elapsed, he firs moor sars in reverse direcion; he second drive is acivaed again afer 1 s delay (see 2 ). A he end of he roll ime T L - because of he imminen reversing - he wai for he reverse delay T U recurs. Because of he enered reverse Up ime T R, he drive again ravels in reverse direcion in order o urn he slas. Page 109 May 2010, Version 1.03 ProLine NG User Manual

117 Doepke 5 The Objecs Shuer Conrols Shuer Maser 7 : A he end of he reverse Up ime T R he drive of he firs blind is sopped. Example of an Applicaion A deailed example in connecion wih he decenral shuer conrol is described on Page 106. The relevan file is rollerblindconrol.x16. ProLine NG User Manual May 2010, Version 1.03 Page 110

118 5 The Objecs Couner and Analog Daa Transfer Muliplexer (Meer Coun Transfer) Doepke 5.6 Couner and Analog Daa Transfer Muliplexer (Meer Coun Transfer) Funcion: Objec for he acquisiion of up o 128 couner daa. Applicaion: Recording energy consumpion and hours-run wih he DTZ 4 couner module. Configuraion via <Edi><Couner and Analog MUX Seup> dialogue. Descripion The couner channels wih he summaion sign " " provide a locaion for he ransfer of couner readings. This muliplex ransfer enables he operaion of Doepke Dupline modules DTZ 4 wih up o 128 meer couns. The ransferable daa range can be seleced in he couner se-up via he "Couner Daa Range" opion. According o he daa range involved, a corresponding number of address groups will be reserved and, a he same ime, he muliplex sysem iniiaed. Noe: Reserved addresses may no be used for oher purposes, such as e.g. o oupu swich commands. An opporuniy o opimise is offered by he "No. of Couns" seing: By adaping o he hardware employed, his may increase he rae of he couner reading. The reading of he DTZ 4 channels, as well as he ransfer and filing of he daa, is carried ou fully auomaically by he channel generaor. Appliance configuraion In order o record he meer coun he DTZ 4 couner modules have o be correcly se. In addiion o seing he measuring range a he appliances, each module mus also be allocaed an address by means of he roary swiches. For deails please refer o he operaing insrucions of he DTZ 4. Daa forma For a descripion of he daa forma used, please refer o he operaing insrucions of he DTZ 4 and o [1]. Analysis of couner readings Access o, and analysis of, he recorded couner daa akes place exclusively via he modbus communicaion inerface of he channel generaor. There are basically wo available opions for furher processing: 1. By displaying he figures using visualising sofware and operaor worksaions (such as a PC or a ouch screen panel); 2. Via communicaion programmes such as he Dupline DDEServer, which offers an open sofware inerface o e.g Microsof Office Applicaions. Simulaneous operaion wih he Muliplex analog daa ransfer If meer and analog daa ransfer are o be used, care mus be aken ha no superimposing of addresses occurs. The ransfer channels of he analog modules have o be se in such a way ha hey have no common channels wih he meer coun ransfer. Please refer o he following Chaper "Muliplexer (Analog Daa Transfer)" on Page 114. Page 111 May 2010, Version 1.03 ProLine NG User Manual

119 Doepke 5 The Objecs Couner and Analog Daa Transfer Muliplexer (Meer Coun Transfer) Parameers Parameers Muliplexer (Meer Coun Recording) Descripion Couner Range No. of Couns Disable Couner Rese via Dupline Wih his seing, accessed via <Edi><Couner and Analog MUX Seup>, you selec he range of he couner. According o he daa range involved a corresponding number of channel groups - saring wih "B" - will be reserved: Couner Range Reserved Groups --- none (couner operaion disabled) B..C B..D B..E B..F Here you specify how many couner channels are o be downloaded, whereby each DTZ 4 couner module makes available four channels. Limiing he number of channels increases he processing speed. Wih his opion you deermine how he DKG is o reac in he even of signal failure on he bus. In he case of a bus faul all channels are normally swiched on. Bu his resuls in he couner modules being rese (he couner sars again a zero). Acivaing his opion avoids his problem. Example of an Applicaion Task: Soluion: On a camping sie a oal of 64 elecriciy consumpion readings are o be acquired and used via a PC for billing purposes. The DTZ 4 couner modules are insalled in he service supply unis of he individual sie piches; four AC elecriciy meers each supply one DTZ 4 wih he corresponding pulses. The channel generaor is configured for meer operaion by enering he couner range in he basic se-up. An accouning sofware wih a DDE inerface expors he daa via he DDE and reses he meer readings upon he arrival of a new gues. The power for he individual sockes is swiched on and off from he PC via he DRM 8 (Doepke DP-Camp sofware); free channels being used for his purpose. The DKG employed can, of course, underake furher auomaing funcions. ProLine NG User Manual May 2010, Version 1.03 Page 112

120 5 The Objecs Couner and Analog Daa Transfer Muliplexer (Meer Coun Transfer) Doepke File: meerdaarecording.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Couner inpu Acquisiion of pulses from elecriciy meer B1..F8 Modules DTZ 4: each module mus be assigned an unique saring address; all modules mus be se for he correc number of couner digis. Relay oupu Swiching of sockes G1..N8 Oupu modules, e.g. DRM 4, DRM 8 ProLine NG Configuraion Couner range Channels for meer daa B1..F8 In <Edi><Couner and Analog MUX Seup>: Toggle swich Swich for sockes G1..N8 - Page 113 May 2010, Version 1.03 ProLine NG User Manual

121 Doepke 5 The Objecs Couner and Analog Daa Transfer Muliplexer (Analog Daa Transfer) Muliplexer (Analog Daa Transfer) Funcion: Objec for he acquisiion of up o 112 analog daa. Applicaion: Fas ransfer of muliplex analog daa wih Dupline analog modules of Messrs. Carlo Gavazzi. Configuraion via <Edi><Couner and Analog MUX Seup> dialogue. Descripion This pioneering mehod of muliplex ransfer permis boh he reading and wriing of Dupline muliplex analog daa. Unlike he AnaLink process wih analog sensors, here wo address groups are required insead of one channel. This permis more precise analog daa o be ransferred. In addiion, he speed of ransfer is higher: under opimum condiions a complee analog value will require one bus cycle, in he case of AnaLink daa i would be 256 cycles. While here are only inpu modules for he meer coun ransfer (see Chaper on Page 111), muliplex analog daa can also be oupu; various Gavazzi-Dupline devices wih oupus for ma, ma and V are available for his purpose. When configuring he muliplexer in he basic se-up ("Muliplexer coun" and "Muliplexer delay" opions) ProLine will auomaically reserve four channels (A1..A4) for he addressing of modules. Addressing on hese channels is auomaically carried ou by he DKG. The daa ransfer generally akes place on wo consecuive address groups (C/D, E/F, G/H, I/J, K/L, M/N and O/P); hey are o be se variably a he modules employed, and herefore canno be reserved by ProLine. Even hough he number of channels is resriced o 16, because only four address channels are reserved - in pracical erms up o 112 daa can be processed. To achieve his, up o 7 analog channels are assigned he same binary address, bu differen channel groups will hen sore he daa (see above). Noe: Reserved addresses may no be used for oher purposes, such as e.g. o oupu swich commands. Aenion: Reading muliplex daa via he serial inerface of he DKG only works for devices addresses 1..31, no for he address 32 (nework maser). Appliance configuraion I is essenial o se he analog modules correcly for he analog daa ransfer. In addiion o seing he ransfer channels a he modules, hey mus each also be allocaed a binary address. For deails please refer o he descripion of he relevan device in he Dupline Sysem Caalogue of Messrs. Carlo Gavazzi. Daa forma Wihin he wo channel groups (here C and D) he figure "1957" is represened as follows: Time Signal On Daa Valid Sign 1000s 100s 10s Unis Channel C1 C2 C3 C4 C5 C6 C7 C8 D1 D2 D3 D4 D5 D6 D7 D8 Facor Example: Channel saus Value Signal On signifies ha an inpu module is coninuously supplying he value. Daa Valid indicaes he ProLine NG User Manual May 2010, Version 1.03 Page 114

122 5 The Objecs Couner and Analog Daa Transfer Muliplexer (Analog Daa Transfer) Doepke validiy of he value. If "0" is shown under Sign i is a posiive value, while "1" signifies a negaive value. Processing he analog daa Unlike couner readings, analog muliplex daa canno only be displayed via he modbus communicaion inerface of he channel generaor, bu can also be alered. There are basically wo processing opions available: 1. By displaying he figures using visualising sofware and operaor worksaions (such as a PC wih he Dupline Webserver); 2. Via communicaion programmes such as he Dupline DDEServer, which offers an open sofware inerface o e.g. Microsof Office Applicaions. Simulaneous operaion wih he Muliplexer analog daa ransfer If boh muliplex processes are o be used, care mus be aken ha no superimposing of addresses occurs. The ransfer channels of he analog modules have o be se in such a way ha hey have no common channels wih he meer coun ransfer. Please refer o he previous Chaper "Muliplexer (Meer Coun Transfer)" on Page 111. Working wih he DTG 1 eser Analog daa in his forma can easily be displayed and simulaed wih he DTG 1 (operaing mode "Analog BCD"). However, wih simulaions care mus be aken ha boh he "Signal On" bi and he valid bi have been se (see above). Parameers Parameers Muliplexer (Analog daa ransfer) Descripion Muliplex Coun Muliplex Delay Wih his seing, accessed via <Edi><Couner and Analog MUX Seup>, you specify how many devices are o be addressed. The number depends upon he number of modules used and heir inpu/oupu channels. From 0 o 16 addresses can be seleced; he value 0 disables he process. Wih his seing, accessed via <Edi><Couner and Analog MUX Seup>, you can deermine how quickly he channel generaor is o iniiae enquiries of he muliplex addresses. This seing is only effecive if he muliplex ransfer has been acivaed (a leas 1 muliplexer channel seleced). As some Dupline muliplex devices need a large par of heir compuing capaciy for inernal processing, heir response speed is lowered. This can be compensaed for by a longer delay; he channel generaor hen wais for he corresponding number of cycles beween enquiries. Page 115 May 2010, Version 1.03 ProLine NG User Manual

123 Doepke 6 Logic Connecives 6.1 Inroducion Chaper 6 Logic Connecives 6.1 Inroducion The previous chapers illusrae how easy he acual configuraion of he channels is wih he predefined objecs. The realiy is ofen no quie as sraighforward - for example, if an ouside ligh is o be conrolled subjec o he ime of day, or if roller blinds are o be conrolled depending upon ligh and weaher condiions. To solve such problems ProLine NG makes available o you a powerful ool: he logic seing. Wih hese connecives any desired relaionship beween individual channels can be se up. You will find a deailed descripion in he following chapers: 6.2 The "Logic Connecives" Dialogue Srucure Logic connecives are edied exclusively in he "Logic Connecive" dialogue window. Menu: <Bearbeien><Logische Verknüpfungen> Keyboard: Crl+L The layou of he menu looks as follows: Pages 1 o 8 Seleced page Eigh connecives are always represened on each of he eigh pages: he individual pages are seleced by clicking he relevan page number. A narrow bar underneah he number box indicaes chosen page. Each connecive consiss of wo inpus which are linked by an operand (e.g. "AND"). ProLine NG User Manual May 2010, Version 1.03 Page 116

124 6 Logic Connecives 6.3 Usage Doepke The resul of such link ("True" or "False") is hen assigned o he oupu: Designaion Perm.Values Descripion Abbr. (1) Oupu A1..P8 The channel or marker whose saus is o be changed. O R1..Z8 Q5..Q8 Inpu 1 Funcion Inpu 2 (1)This abbreviaion will be used in he following for he respecive componen. 6.3 Usage A1..P8 R1..Z8 Q1..Q4 -, /, \ AND, OR, XOR A1..P8 R1..Z8 Q1..Q4 -, /, \ Connecives and Funcions Ediing Connecives The channel or marker which represens he firs par of he condiion for he saus change of he oupu. The logic operand which links he wo inpus. The channel or marker which represens he second par of he condiion for he saus change of he oupu. Navigaing To jump forward beween individual field boxes press he TAB; o jump backwards press Shif+TAB. Insering Each connecive line has o be compleed in full, i.e. all four componens mus be presen. The number of connecives used can be seleced as required wih gaps being permissible. To inser a connecive place he inserion mark wih a simple click of he mouse in any desired box of he line. Depending upon he componen you can hen press a leer or number key. Changing Changing is carried ou like insering: posiion he inserion mark in he box o be edied and overype he old enry wih a new one. Deleing You can erase a complee connecive line by posiioning he cursor wih a click of he mouse in he "Funcion" box and hen pressing eiher Delee or he space bar Funcioning The inpus and oupus are eiher channel addresses (A1 o P8) or markers (R1 o Z8). According o he inpus or connecives (resul of he funcion) he oupu is se during every bus cycle (max. every 136 ms). This means ha he oupu is se o "0" when he connecive is no fulfilled, and o "1" if i is fulfilled. There are exacly hree logic funcions, which correspond o hose used in mahemaics: AND, OR and XOR (Exclusive OR). AND The oupu is always "1" if boh inpus are "1". I1 Fc I2 Page 117 May 2010, Version 1.03 ProLine NG User Manual

125 Doepke 6 Logic Connecives 6.3 Usage OR The oupu is always "1" if one or boh inpus is "1". XOR (Exclusive OR) The oupu is only "1" precisely when jus one of he wo inpus is "1". The following able provides an overview of he resuls of he logic connecives: AND OR XOR I1 I2 O I1 I2 O I1 I2 O Example: If, in he case of he funcion XOR, inpu 1 (I1) as well as inpu 2 (I2) are "1", he oupu (O) adops he value "0" Inversion and Slope Analysis A specialiy of connecives is he opion of changing how he inpus are evaluaed: by prefixing an enry wih he minus sign ("-") he inpu will be invered before processing, i.e. if he inpu was "0", i is given he value "1" for he analysis and vice versa; by prefixing wih a slash "/" only he rising slope of he inpu will be analysed; by prefixing wih a back-slash "\" only he falling slope of he inpu will be analysed. The alered analysis affecs neiher inpu channels nor markers! Operaion The following able shows how he signs for invering and slope analysis can be insered in, or deleed from, he inpu boxes of he logic connecives: Prefix Insering Deleing "-" "/" "\" by pressing he - key by pressing he & key (Shif + 7) by pressing he x- or key on he number pad by wice pressing he x or key on he number pad by again pressing he - key by pressing he Del key by wice pressing he - key by wice pressing he Del key by pressing he - key by pressing he Del key Tip: To change he signs for he rising and falling slopes press he x or he key on he number pad several imes. ProLine NG User Manual May 2010, Version 1.03 Page 118

126 6 Logic Connecives 6.3 Usage Doepke Invering Inversions can be used wih channels as well as markers. Moreover, here are no resricions on he ype of oupu. Example: The focus is on he following logic se-up: The following diagram illusraes he ime sequence: Oupu Inpu 1 Funcion Inpu 2 A1 I1 AND -I2 I1 I2 A1 1 2 PMan_002b In his example oupu "A1" becomes acive only when inpu I1 is acive and inpu I2 is no acive (secion beween he doed lines). The inernal processing in he channel generaor invers he value of I2 (i.e. considers i o be acive) before he analysis Slope Analysis The analysis of rising and falling slopes can only be used a channels A1 o P8. As his is a dynamic process over only wo bus cycles, an objec configuraion needs o be seleced here which is able o process pulses. This would, for example, be objecs such as "Toggle swich", "Timer" (wih acivaing-pulse processing) or "Maser conrols". I would cerainly also make sense o se a "Push buon" funcion wih such connecions; however, i should be borne in mind ha in his case he oupu will only be acive for wo cycles. Example: The focus is on he following logic se-up Oupu Inpu 1 Funcion Inpu 2 A1 I1 AND /I2 Page 119 May 2010, Version 1.03 ProLine NG User Manual

127 Doepke 6 Logic Connecives 6.3 Usage The following diagram illusraes he ime sequence: I1 I2 A1 1 2 PMan_003b Here wo condiions have o be fulfilled ("AND"): I1 mus be acive and I2 mus have a posiive slope. This is only he case a 1. When he signal of I1 drops (r.h. line), oupu A1 remains se. The diagram is based on he assumpion ha, for example, a oggle swich funcion is configured a he channel used as oupu A1. This funcion only requires one impulse in order o execue a swiching process. A "Push buon" funcion would immediaely reurn o is inacive saus Using Markers Dupline makes available markers wih which you can "save" logic seings so ha hey can be used in oher connecives. Properies: The markers are locaed a channels R1..Z8. The markers Q1..Q4 are uilized for addressing he semiconducor inpus, he markers Q5..Q8 for addressing he semiconducor oupus of DKG 20/DKG 21-GSM. They are no suiable for "normal" use in logic funcions (see Chaper on Page 121). The markers will no be iniialised when volage is applied a he channel generaor. The markers will no be saved if he volage drops off a he channel generaor. Markers behave in basically similar fashion o he "Push Buon" funcion, i.e. he value of he marker changes immediaely upon he resul of he logic seing. However, in he case of markers no slope analysis is possible. Applicaion If a channel is o be se depending upon more han wo oher channels, markers assis in coordinaing he connecives. The following example illusraes he co-ordinaion of channels A1, A2 and A3 and heir assignmen o B1: Oupu Inpu 1 Funcion Inpu 2 W1 A1 AND A2 B1 W1 AND A3 Markers can be used in place of channels for mos objecs in he marix, e.g. decenral shuer conrol. I is hus possible o realize e.g. prioriy conrols which are dependen upon several saes. ProLine NG User Manual May 2010, Version 1.03 Page 120

128 6 Logic Connecives 6.3 Usage Doepke Markers for Semiconducor Inpus and Oupus Special amongs he markers are hose employed for reading he semiconducor inpus (Q1..Q4) and hose for wriing he semiconducor oupus (Q5..Q8). Wih heses markers you can read he signals a he inpus of he DKG 20/DKG 21-GSM and wrie heir oupus. The following examples illusrae how his is accomplished: Oupu Inpu 1 Funcion Inpu 2 Noes K5 Q1 AND A2 Channel K5 is se when semiconducor inpu 1 (Q1) and channel A2 are acivaed. Q5 B4 AND Q3 Semiconducor oupu 1 (Q5) is se when channel B4 and semiconducor inpu 3 (Q3) are acivaed. Noe: Only use hese markers if you wan o read or wrie he semiconducor inpus or oupus resp. Their use in oher logic connecives may resul in unforeseen effecs Inernal Processing of Connecives The channel generaor processes he connecives from page 1 o page 8 and wihin each page from op o boom. Noe: On muliple assignmens o a channel or a marker he channel generaor a firs performs an "OR-linking" on he resuls of boh connecives and hen assigns he laer o he channel or marker. Example: In he following B1 is On and K8 is Off. Boh connecives are locaed on any pages of connecives: Oupu Inpu 1 Funcion Inpu 2 Noes A1 B1 OR K8 Channel A1 will be se ( 1 or 0 resuls in 1 ). A1 B1 AND K8 Channel A1 will no be se ( 1 and 0 resuls in 0 ). Alhough "0" or "Off" would be he laes calculaed value he DKG ses he channel A1 o "On", since boh connecives will be "OR-linked". Page 121 May 2010, Version 1.03 ProLine NG User Manual

129 Doepke 6 Logic Connecives 6.4 Noes and Documenaion 6.4 Noes and Documenaion For he purpose of subsequen documenaion of he logic seings (see Chaper "Prining File" on Page 11) i makes sense o ener commens concerning he logic seings in he "Noes" field. When prining a a laer ime hese noes will appear nex o he lines so ha each individual funcion can be annoaed: ProLine NG User Manual May 2010, Version 1.03 Page 122

130 7 Examples 7.1 Inroducion Doepke Chaper 7 Examples 7.1 Inroducion In order o faciliae your enry ino he logic connecives his chaper provides a so-called "Tour" which guides you sep by sep hrough a defined ask plus some oher seleced cases. Here, oo, i should be noed ha we canno cover every possible ask se. To underake hese exercises you will require a channel generaor and a DTG 1 eser (Order No ) wih which you can simulae he inpu and oupu signals. Our demonsraion case (Order No ) conains a wide range of componens which are paricularly suiable for hese exercises. 7.2 Tour Please noe ha he examples given here build upon each oher. You will find he channel generaor files eiher on he documenaion CD or on he inerne a hp:// Before using hese examples please check he funcion. Doepke Schalgeräe GmbH & Co. KG acceps no liabiliy for any damage ha could arise from he use of hese examples! Sep 1: Time-conrolled lighing Task: Soluion: File: The ouside lighing is o be swiched on and off depending upon he ime of day. No connecives are required in his sep as he ime swich direcly swiches he relay coded a address A1. our_01.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ouside ligh A1 Oupu modules, e.g. DSM 1U, DRM 4 opional: Pushbuon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Real-ime Time conrols A1 Swiching on from 20:00 o 06:00 Page 123 May 2010, Version 1.03 ProLine NG User Manual

131 Doepke 7 Examples 7.2 Tour Sep 2: Time- and ligh-conrolled lighing Task: Soluion: File: A DLUX ligh level sensor is used in addiion o conrol he ouside lighing dependen upon he prevailing ligh. The ouside ligh is o be swiched on only if he ime swich is acive (swiched on). No provision for manual operaion is required. For his purpose he ime swich needs o be separaed from he oupu channel (a address C1). our_02.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ouside ligh A1 Oupu modules, e.g. DSM 1U, DRM 4 DLUX Ligh sensor D1 ProLine-Configuraion Push buon Oupu channel A1 Real-ime Time conrol C1 Time swich wih holiday seings. Analog sensor: Ligh sensor Lighing conrol D1 On, if < 10 Lux; Off, if > 50 Lux In his sep he oupu channel A1 has been configured as a push buon funcion as no manual operaion is required and hus only a simple logic se-up being necessary: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A1 C1 AND D1 Ouside lighing ON if clock and DLUX are acive. ProLine NG User Manual May 2010, Version 1.03 Page 124

132 7 Examples 7.2 Tour Doepke Sep 3: Ligh-level conrolled lighing wih manual operaion Task: Soluion: File: Ouside lighing, solely ligh-level conrolled, is o be se up so ha i can also be operaed manually wih a swich. Here i makes sense o configure boh he relay and he push-buon inpu a he same address (A1). The push-buon is hus able o override he auomaic lighing unil one of he ligh hresholds is again exceeded. our_03.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ouside ligh A1 Oupu modules, e.g. DSM 1U/DRM 4 Push-buon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Toggle swich Manual operaion A1 Analog sensor: Ligh sensor Lighing conrol D1 On, if < 10 Lux; Off, if > 50 Lux As channel A1 is a oggle swich funcion, we now have o work wih slopes in he logic se-up: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A1 -A1 AND /D1 On-condiion for ouside ligh: DLUX ON A1 A1 AND \D1 Off-condiion for ouside ligh: DLUX OFF As is he case wih a "normal" ligh conrol, he oggle swich funcion always requires one pulse for swiching on and anoher for swiching off; he channel hus oggles wih every pulse. The ligh sensor, however, supplies a pulse in boh cases (upon reaching he upper and lower limis of he ligh hresholds). I mus herefore be ensured ha he oggle swich funcion swiches on only a he posiive slope of he ligh sensor (below hreshold) and swiches off a he negaive slope of he ligh sensor (above hreshold). This is achieved by including in he connecive he saus of he oggle swich a A1: Swich On: The firs connecive ensures ha A1 is oggled only by he rising slope of he sensor a D1 when A1 is swiched off ("-A1"). Swich Off: The second permis he oggling by he sensor only when A1 has been swiched on beforehand. Page 125 May 2010, Version 1.03 ProLine NG User Manual

133 Doepke 7 Examples 7.2 Tour Sep 4: Auomaic lighing wih manual operaion Task: Soluion: File: I is somewha more involved when he ouside lighing is o be swiched on only a specific imes and depending upon he ligh inensiy. Here he relay may only be acuaed when he ime swich and he ligh sensor send a "1" signal. The simples soluion is o use an "auxiliary channel": a push buon funcion configured a a free channel (A8) is swiched on only when boh inpu signals are swiched on: our_04.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ouside ligh A1 Oupu modules, e.g. DSM 1U/DRM 4 Push-buon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Toggle swich Manual operaion A1 Push buon Aux. Channel A8 Co-ordinaes signals from DLUX and clock. Real-ime Time conrol C1 Time swich wih holiday seings. Analog sensor: Ligh sensor Lighing conrol D1 On, if < 10 Lux; Off, if > 50 Lux The logic se-up can hen look as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A8 C1 AND D1 On-condiion for auxiliary channel A1 -A1 AND /A8 On-condiion for ouside ligh: auxiliary channel ON A1 A1 AND \A8 Off-condiion for ouside ligh: auxiliary channel OFF Bu jus how his applicaion funcions leaves iself open o argumen: when he ouside ligh has been manually swiched on, will i be swiched off only if he clock, as well as he ligh sensor, have been acive a he same ime? An improved version is explained in he nex sep Sep 5: Auomaic lighing wih manual operaion (improved) Task: Soluion: File: The applicaion illusraed above makes more sense if he falling slopes of he clock and ligh sensor are also analysed. This can easily be accomplished by exending he logic connecives. our_05.x16 Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A8 C1 AND D1 On-condiion for auxiliary channel ProLine NG User Manual May 2010, Version 1.03 Page 126

134 7 Examples 7.2 Tour Doepke Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A1 -A1 AND /A8 On-condiion for ouside ligh: auxiliary channel ON A1 A1 AND \A8 Off-condiion for ouside ligh: auxiliary channel OFF A1 A1 AND \C1 Off-condiion for ouside ligh: ime swich OFF A1 A1 AND \D1 Off-condiion for ouside ligh: DLUX OFF Sep 6: Inclusion of a roller blind maser conrol Task: Soluion: File: Here several shuers are o be operaed ogeher wih he ouside ligh: when i ges dark a he specified ime he shuers are o be lowered, when i ges ligh again hey are o be raised. The addiional inclusion of one or more roller blinds in he previous applicaion simply consiues an exension of he se-up: by insering he roller blind maser and logic seings he shuers will hen be lowered when i is dark and raised when i is ligh. our_06.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupu Ouside ligh A1 Oupu modules, e.g. DSM 1U, DRM 4 Push-buon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 Shuers 1..3 Shuers B1..B6 Shuer conrols, e.g. DRO 1U, DRM 4 Opional: Blinds maser swich Swich for shuer maser command B7/B8 Wih hese swiches he shuers could also be operaed manually. ProLine-Configuraion Toggle swich Manual operaion A1 Push buon Aux. Channel A8 Co-ordinaes signals from DLUX and clock. Roller Blind Up-Down Shuer conrol B1..B6 Roller blind maser Maser conrol B7/B8 Real-ime Time conrol C1 Time swich wih holiday seings. Analog sensor: Ligh sensor Lighing conrol D1 On, if < 10 Lux; Off, if > 50 Lux, invered The logic se-up needs merely o be exended by wo lines - for each direcion of ravel a connecive has o be provided o acivae he addresses. Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A8 C1 AND D1 On-condiion for auxiliary channel A1 -A1 AND /A8 On-condiion for ouside ligh: auxiliary channel ON A1 A1 AND \A8 Off-condiion for ouside ligh: auxiliary channel OFF A1 A1 AND \C1 Off-condiion for ouside ligh: clock OFF A1 A1 AND \D1 Off-condiion for ouside ligh: DLUX OFF Page 127 May 2010, Version 1.03 ProLine NG User Manual

135 Doepke 7 Examples 7.2 Tour Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes B7 \A8 AND \A8 Blinds maser UP when ligh B8 /A8 AND /A8 Blinds maser DOWN when dark Here, oo, here are of course possibiliies for improving, or exending, he funcionaliy - give free rein o your own ideas. ProLine NG User Manual May 2010, Version 1.03 Page 128

136 7 Examples 7.3 Seleced Tasks Doepke 7.3 Seleced Tasks Here are a few small applicaions which frequenly occur in pracice. These examples are also available on he documenaion CD and a hp:// Before using hese examples please check he funcion. Doepke Schalgeräe GmbH & Co. KG acceps no liabiliy for any damage arising from he use of hese examples! Maser ON/OFF wih one Push-buon Task: Soluion: File: In ProLine NG and DKG versions before 1.11, wo push-buons normally were required for he maser conrol: one for swiching on and anoher for swiching off. If only one swich is o be used for swiching over beween maser On and Off, hen logic connecives are required. Nowadays, he oggle funcions has been incorporaed in maser conrol (see Chaper "The Maser Funcion" on Page 61). The push-buon for he maser On/Off change-over is coded a address B1 and in ProLine NG a oggle swich funcion is configured. The acual maser funcions are a addresses B2 and B3. maser_on_off_pushbuon.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupus Loads 1..4 A1..A4 Oupu modules, e.g. DSM 1U, DRM 4 Push-buon inpu Maser On/Off B1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Toggle swich Manual operaion of loads 1..4 A1..A4 Toggle swich Acivaing maser conrols B1 Provides slopes for acivaing maser commands. Maser conrol Maser ON B2 All loads ON. Maser conrol Maser OFF B3 All loads OFF. The logic se-up looks as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes B2 -B3 AND /B1 Rising slope of push-buon for maser On B3 -B2 AND \B1 Falling slope of push-buon for maser Off A single pressing of he buon (rising slope) hus acivaes he maser ON command, and a second press (falling slope) he maser OFF command. I is hus ensured ha no maser ON command is execued as long as an OFF command is operaional ("-B3") and vice versa ("-B2"). Page 129 May 2010, Version 1.03 ProLine NG User Manual

137 Doepke 7 Examples 7.3 Seleced Tasks Two Funcions wih one Push-buon Task: Frequenly wo funcions are o be carried ou by one push-buon, e.g. when here is insufficien room o fi anoher. In his example we wan o conrol wo loads wih one pushbuon so ha hey are swiched on and off alernaely. 1. Pressing: Load 1 on 2. Pressing: Load 1 off, Load 2 on 3. Pressing: Load 1 on, Load 2 on 4. Pressing: Load 1 off, Load 2 off Soluion: File: The soluion is surprisingly simple: in addiion o he oupu channel for each load (A1/A2) we only require wo logic connecives. The push-buon for acivaing he oupu has o be configured a he channel of he firs oupu (A1). wo_funcions_1.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpu Push-buon for 2 loads A1 Inpu modules, e.g. DSS 2U, DBA 4 Relay oupu Oupu/load 1 A1 Oupu modules, e.g. DSM 1U, DRM 4 Relay oupu Oupu/load 2 A2 Oupu modules, e.g. DSM 1U, DRM 4 ProLine-Configuraion Toggle swich 2-funcion swich and A1 Oupu/load 1 Toggle swich Oupu/load 2 A3 The logic se-up looks as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A2 -A2 AND \A1 Swich on oupu 2, if swiched off and oupu 1 has falling slope. A2 A2 AND \A1 Swich off oupu 2, if swiched on and oupu 1 has falling slope Two Funcions wih one Push-buon (ime-conrolled) Task: Soluion: In his example we wan o conrol wo loads via one push-buon so ha, when he swich is pressed for a brief period only, he firs load swiches on or off, and wih prolonged pressing only he second is swiched on or off. We require four channels for he soluion: he push-buon inpu, a imer and an oupu for each load. Wih a shor acivaion (before he on-delay of he imer has elapsed) a connecive ensures ha oupu 1 is swiched on or off. Wih longer pressing of he swich (on-delay elapsed) he imer sars which in urn swiches oupu 2. ProLine NG User Manual May 2010, Version 1.03 Page 130

138 7 Examples 7.3 Seleced Tasks Doepke File: wo_funcions_2.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpu Push-buon for 2 loads A1 Inpu modules, e.g. DSS 2U, DBA 4 Relay oupu Oupu/load 1 A3 Oupu modules, e.g. DSM 1U, DRM 4 Relay oupu Oupu/load 2 A4 Oupu modules, e.g. DSM 1U, DRM 4 ProLine-Configuraion Push buon 2-funcion swich A1 Timer Aux. Timer for ime delay A2 Operaing mode: On/Off delay (1 s each), ime delay Addiional rigger: A1 Toggle swich Oupu/load 1 A3 Swiches on/off wih shor acuaion. Toggle swich Oupu/load 2 A4 Swiches on/off wih longer acuaion. The logic se-up looks as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A3 \A1 AND -A2 Operaion of A1 (push-buon) sars he imer. Upon release of he buon before he on-delay has elapsed, he imer does no swich on, hus his condiion is me, and generaes a pulse a A3 (swiching On/Off). A4 A1 AND /A2 Operaion of A1 (push-buon) sars he imer. Upon release of he buon afer he on-delay has elapsed, he imer swiches on, hus his condiion is me, and generaes a pulse a A4 (swiching On/Off) Time-delayed Toile Venilaion Task: Soluion: File: In his exercise a oile venilaor is o be acivaed wih a 5 min. delay (afer he ligh has been swiched on). The oile ligh is configured as a oggle swich a address 1. This riggers he imer a address A2 wih which he relay for he venilaor is also coded. wc_venilaor.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpu Ligh swich A1 Inpu modules, e.g. DSS 2U, DBA 4 Relay oupu Venilaor A2 Oupu modules, e.g. DSM 1U, DRM 4 ProLine-Configuraion Toggle swich Acuaion of lighing A1 Timer Acivaing venilaor A2 Operaing mode: On/Off delayed (5 min. each), "Acivaion by Pulse" Page 131 May 2010, Version 1.03 ProLine NG User Manual

139 Doepke 7 Examples 7.3 Seleced Tasks The logic se-up looks as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes A2 /A1 AND /A1 Rising slope of swich acivaes he venilaor imer. The imer for he venilaor is acivaed by he rising slope of he oile ligh and swiches auomaically off again afer he exension ime has elapsed Temperaure-conrolled Conservaory Window Task: Soluion: File: Here he window of a conservaory is o be opened when he inside emperaure exceeds 22ºC and closed if i drops below 17ºC. The window is conrolled via he "Roller Blind Up-Down" objec a B1/B2; he manual operaion is via wo push-buons which are also coded for B1 and B2. The emperaure evaluaion is via a PT1000 sensor a address A1 which acivaes he roller blind conrol via logic seings. conservaory.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Shuer conrol uni Window drive B1/B2 Shuer conrols, e.g. DRO 1U, DRM 4 Add. opional: Pushbuon inpu Local conrol B1/B2 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Shuer Conrol Local shuer conrol B1/B2 Do no forge roll ime! Analog sensor: Temperaure Sensor The logic se-up looks as follows: Measuring inside emperaure A1 For DTS 1: Inpu range -60ºC ºC Off, if < 17ºC, On, if >22ºC, no invered Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes B1 -B2 AND /A1 Exceeding he emperaure opens he window (B1: Up command, only if DOWN command B2 no acive) B2 -B1 AND \A1 Falling below he emperaure closes he window (B1: Up command, only if UP command B1 no acive) ProLine NG User Manual May 2010, Version 1.03 Page 132

140 7 Examples 7.3 Seleced Tasks Doepke Holiday Conrol for Lighing and Shuers wih Disable Feaure Task: Soluion: File: An imporan and popular funcion of Dupline is he auomaic conrol of lighs and shuers when nobody is a home - for example while on holiday. Ofen, however, people will wan o suppress he auomaic processes when hey are a home - i mus herefore be possible o swich off he conrol seing. In our example eigh loads (e.g. lighs and sockes), as well as four shuers, are o be conrolled. We configure he loads a addresses A1 o A8, he shuers a B1 o B8, he change-over swich, he ime swich and he maser conrols on group C. holidayfuncion.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpu Ligh swich A1..A8 Inpu modules, e.g. DSS 2U, DBA 4 Shuer conrol unis Shuer drive B1..B8 Shuer conrols, e.g. DRO 1U, DRM 4 Add. opional: Pushbuon Local conrol B1..B8 Inpu modules, e.g. DSS 2U, DBA 4 inpu Swich Change-over: A home (0)/Holiday (1) C1 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Toggle swich Ligh swich A1..A8 Roller Blind Up-Down Local shuer conrol B1..B8 Do no forge roll ime! Push buon Change-over C1 Off: A home, On: Holiday seing A home/holiday Time swich Auomaic C2 Any desired imes possible: if using holiday seing he behaviour can be alered for cerain days. Maser funcion Maser ON C3 Swiches on all loads A1..A8 and he roller blind maser funcion UP (C5). Maser funcion Maser OFF C4 Swiches off all loads A1..A8 and he roller blind maser funcion DOWN (C6). Roller Blind Maser Maser conrol shuers B1..B8 C5/C6 Drives all shuers up or down. The logic se-up looks as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes C3 C1 AND /C2 Maser ON when absen and pos. slope of ime swich C4 C1 AND \C2 Maser OFF when presen and pos. slope of ime swich Of course, no jus one group of shuers and one group of lighs should be conrolled - in order o achieve a proper absence simulaion, he applicaion can always be furher exended as desired. Page 133 May 2010, Version 1.03 ProLine NG User Manual

141 Doepke 7 Examples 7.3 Seleced Tasks Random Conrol Task: Soluion: File: There is as ye no "Absence Simulaion" objec available for ProLine NG. Bu on occasion i can be quie handy if shuers and lighs are "randomly" raised or lowered and swiched on or off. One possibiliy has already been shown in he previous example; in his example he shuers are o be conrolled so ha hey are acivaed a more or less indeerminae imes. In order o achieve near unpredicable conrol, we uilize four pulse generaors whose ON and OFF signal imes are configured differenly. By "AND-linking" (linked by "AND") seleced pulse generaors we achieve a varying swiching paern. An auxiliary channel, configured as oggle swich funcion, insures ha neiher wo Up, nor wo Down, commands are generaed consecuively. As before, he shuers are configured a addresses B1 o B8; his ime, however, wo roller blind maser funcions are being used for wo shuers each. The firs is acivaed via a logic se-up, he second via he maser funcion a C3/C4. The change-over swich is configured a C1. I acivaes/deacivaes he imer wih which he auomaic seing can be swiched on and off. randomconrol.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Push-buon inpu Ligh swich A1..A8 Inpu modules, e.g. DSS 2U, DBA 4 Shuer conrol unis Shuer drive B1..B8 Shuer conrols, e.g. DRO 1U, DRM 4 Add. opional: Pushbuon Local conrol B1..B8 Inpu modules, e.g. DSS 2U, DBA 4 inpu Swich Change-over: C1 Inpu modules, e.g. DSS 2U, DBA 4 A home (0)/Holiday (1) ProLine-Configuraion Toggle swich Ligh swich A1..A8 Shuer conrol Shuer conrol B1..B8 Do no forge roll ime! Push buon Change-over C1 Off: A home, On: Holiday seing A home/holiday Maser conrol Maser ON C3 Swiches all loads A1..A8 and he roller blind maser funcion UP (C7) on. Maser conrol Maser OFF C4 Swiches all loads A1..A8 off and he roller blind maser funcion DOWN (C8) on. Shuer Maser Maser conrol for Shuers C5/C6 Drives shuers B1/B2 and B5/B6 up or down. Shuer Maser Maser conrol for Shuers C7/C8 Drives shuers B3/B4 and B7/B8 up or down. Push buon Aux. Channel D4 Auxiliary channel for avoiding double Up or Down commands for shuers. Pulse generaor Generae random signal D5..D8 Acivaed via change-over swich C1. ProLine NG User Manual May 2010, Version 1.03 Page 134

142 7 Examples 7.3 Seleced Tasks Doepke The logic se-up looks as follows: Logic block number Oupu Inpu 1 Funcion Inpu 2 Noes W1 D5 AND D6 Random marker "UP" W2 D7 AND D8 Random marker "DOWN" D4 -D4 AND W1 Enable condiion for aux. Channel D4 D4 AND W2 Disable condiion for aux. Channel C3 \D4 OR \D4 Maser ON via aux. Channel C4 /D4 OR /D4 Maser OFF via aux. Channel C5 /D4 OR /D4 Shuers "UP" via aux. Channel C6 \D4 OR \D4 Shuers "DOWN" via aux. Channel Here, oo, here are numerous possibiliies of varying and exending he applicaion. As a suggesion, consider ime for example swiches or addiional maser conrols. Give i a ry! Shuer Maser wih Sar/Sop Funcion You surely will have observed ha he shuer maser command - in conras o he single shuer objec - does no suppor inerim sopping. This behavior can be realised very easily by means of exernal references. Please observe ha, when changing he device address of he relaed DKG, you ll also have o change all exernal references; Daei: shuermasersarsop.x16 Objec Significance Channel Noes / Configuraion Inpu/Oupu Relay oupus Drives A1..A8 Shuer conrol modules, e.g. DRO 1U, DRM 4 Push-buon inpus B1/B2 Inpu modules, e.g. DSS 2U, DBA 4 ProLine-Configuraion Shuer Conrol Shuer/skyligh conrol, decenral A1..A8 An exernal reference o B1 for "UP" direcion has o be insered for each channel A1/A3/A5 and A7; An exernal reference o B2 for "DOWN" direcion has o be insered for each channel A2/A4/A6 and A8; Shuer maser Cenral conrol B1/B2 Eine Laufzei is hier nich nowendig, da nur der Tasendruck weier gegeben wird. Insering exernal refences: Provide each shuer decenral objec wih he references menioned above as described in Chaper "Exernal References" on Page 32. Use he device address of he corresponding DKG (in his example "1") as se in <Edi><Communicaion Seup> (see Chaper Page 135 May 2010, Version 1.03 ProLine NG User Manual

143 Doepke 7 Examples 7.3 Seleced Tasks 4.3.2, Communicaion and Neworks): ProLine NG User Manual May 2010, Version 1.03 Page 136