PRO®U130User ManualA91M.12-279328.00-0991
20xCopyrightAll rights reserved. No part of this document may be reproduced or transmittedin any form or by any means, electronic or mechanical, inclu
21Handling78
21IL-Blocks and Macros 79Chapter 6IL-Blocks and MacrosThe individual IL blocks and the macros used to create them aredescribed in this chapter.
21IL-Blocks and Macros806.1 SummaryWarning User-dependent PC* functions can be included in anIL created with PRO®U130 in accordance with the rules ofD
21IL-Blocks and Macros 816.1.1 List of the IL BlocksIL block MeaningOB1 Block organizationPB1 SU multiplexer and organizationPB2 Pre-definitions and m
21IL-Blocks and Macros826.1.2 List of the Markers UsedMarker ExplanationM1* isalwayssetto0M2* isalwayssetto1M3* 1 = SU1 was reloadedM4* 1 = real-time
21IL-Blocks and Macros 83Marker ExplanationMW1 - MW40* SU1 - bufferMW41 - MW80* SU2 - bufferMW81 - MW120* SD - bufferMW121- MW160* Real-time informati
21IL-Blocks and Macros846.1.3 List of the Macro FilesMacro file MeaningANSW.MAC Process analog setpoint valuesBEF1.MAC 1-of-n command checkBEF2.MAC Ou
21IL-Blocks and Macros 856.2 The Organization BlockNote The end-of-block instruction BE is always appended automati-cally by PRO®U130 after the last n
21IL-Blocks and Macros866.3 The Program BlocksNote The end-of-block instruction BE is automatically appended byPRO®U130 after the last network. *** ar
21IL-Blocks and Macros 8713 : A M3 SU1 already reloaded14 : AN M95 SU2 not yet reloaded15 : A M736 Acknowledgement bit SU16 : BCC FB12 Call: reload SU
20xiTerminologyNote This symbol emphasizes very important facts.Caution This symbol refers to frequently appearing errorsources.Warning This symbol po
21IL-Blocks and Macros886.3.2 Program Block PB201 : LD V0 Always set marker 1 to 002 : = M103 : LD V1 Always set marker 2 to 104 : = M2: ***05 : LBB M
21IL-Blocks and Macros 89Macro File VERW.MAC* Organization information Module failureLKx;=MB2;USMx.1;BAB FB11;MB2;*;Lines 1 to 7, 20 and 21 are direct
21IL-Blocks and Macros90Macro File ZAEHL.MAC* Counted measurandsBA FB3;Ex.y;Mv;MWz;*;The macro file is copied to correspond to the number of counted m
21IL-Blocks and Macros 91Macro File MELD.MAC* 16 MELDUNGENLBW Ex.y;TBW MB56;LBW Ex.y;TBW MB58;BA FB4;MBlh;MBhl;MWz;*;Monitored information is always a
21IL-Blocks and Macros926.3.5 Program Block PB501 : BA FB5 Call: 8-bit measurand processing02 NAME: MESS803 INL: IWA1.1 Pass 1st measurand input as LO
21IL-Blocks and Macros 936.3.6 Program Block PB601 : BA FB19 Call: limit measurand to + 100002 NAME: MESSW_1603 MESS: IWA1.1 Pass 1st measurand input0
21IL-Blocks and Macros946.3.7 Program Block PB701 : A M 0.735 Acknowledgement bit SD: 1 = new SD02 : BCC PB 10 Call: SD processing: ***03 : A M90 1 =
21IL-Blocks and Macros 95Macro File VERKL.MAC* Link time for cancelled commandsU M94;SS T19;LKt;UN M5;R T19;= M91;*;Macro File T_BEFAUS.MAC* Timer for
21IL-Blocks and Macros96Lines 1 to 4 are directly generated by PRO®U130. The macro VERKL.MAC isread in for lines 5 to 10. Variable t is replaced with
21IL-Blocks and Macros 976.3.9 Program Block PB901 : LD MW 0.86 Load word from SD buffer02 : = QWA 2.1 and output to analog output: ***03 : LD MW 0.87
20xiiAbbreviation ExplanationA-byte Address b yte in SEAB-1FA1-byte Subaddress b y te in SEAB-1FIL Instruction listBGT SubrackD1-, D2-, D3-, D4-byte 1
21IL-Blocks and Macros986.3.11 Program Block PB1101 : LD V 0 Reset command output marker02 : = M 0.503 : LD V 004 : = M 0.9005 : LD V 006 : = M 0.9107
21IL-Blocks and Macros 99Macro File BEF3.MAC* Reset SD bufferLK0;=MWs;*;Lines 1 to 10 are read from the macro file BEF9.MAC. The macro BEF3.MAC iscopi
21IL-Blocks and Macros10022 : LD K 300 Load value for timer setpoint value (30 sec) in23 : = MW 0.165 transfer word24 : LD MW 0.82 Load commands 17 -
21IL-Blocks and Macros 101Macro File BEF1.MAC* Check c ommand 1-of-nLKt;= MW165;LMWs;= MW161;BA FB10;MW 161;MW167;MW165;L MW167;GR K1;BABPBbl;L MW167;
21IL-Blocks and Macros102If the value of the marker word MW167 is equal to 0 after the function blockFB10 has been processed, this means that no comma
21IL-Blocks and Macros 10316 : Ld MW 0.167 Load error counter17 : GT V 1 0 = no command, 1 = ok, >1 = error18 : BCC PB 11 Call: delete SD buffer19
21IL-Blocks and Macros104Macro File BEF11.MAC* 2-pole c ommand outputLMWs;TBWMB4;LK0;=MBlh;LBWMB4;= MW161;LKt;= MW165;BA FB10;MW161;MW167;MW165;L MW16
21IL-Blocks and Macros 1056.3.13 Program Block PB13The commands are output to the module outputs in program block PB13. De -pending on the command typ
21IL-Blocks and Macros106Output 11/2-pole commands01 : LD MW 0.81 Load word from SD buffer02 : TBW MB 4 Assign to MB4 and MB503 : LD MB 4 Load the LOW
21IL-Blocks and Macros 107For 11/2-pole commands, output to the individual networks is bytewise since 8commands are always assigned to a common group
20xiiiObjectivesThis description is intended for the designer of Geadat U130 outstations.The designer caninstall the programming panel,install the sof
21IL-Blocks and Macros10813 : LD MW 0.82 Load word from SD buffer14 : TBW MB 4 Assign to MB4 and MB515 : LD MB 4 Load the LOW byte and16 : TBW Q3.1 ou
21IL-Blocks and Macros 1096.3.14 Program Block PB1401 : LD V 0 Reset marker for malposition timer02 : = M 0.6 start03 : LD V 0 Reset marker for malpos
21IL-Blocks and Macros11032 : LD MB 0.733 : EQ V 034 : O M 0.835 : BCC FB 936 NAME: DM-UMSP37 IN: MB 0.57 Transfer double-point information38 INKE: M
21IL-Blocks and Macros 111Macro File T_STOER.MAC* Timer for malposition suppressionUM6;SS T18;LKt;UM7;R T18;=M8;UM7;OM8;=M8;*;BE ;$;The markers which
21IL-Blocks and Macros112In order to determine whether a malposition was recognized, a double-point in-formation byte exists parallel to each monitore
21IL-Blocks and Macros 1136.3.15 Program Block PB1501 : LD V 1000 Assign upper limit for marker word MW16102 : = MW 16103 : LD V 100 Assign hysterese
21IL-Blocks and Macros114Macro File MESS_GR.MAC* Measurand limit monitoringLKgr;= MW 0.161;LKhy;= MW 0.162;LKbit;= MW 0.163;BA FB6;M0.1;EWA x.y;MW 0.1
21IL-Blocks and Macros 1156.3.16 Program Block PB1601 : LD K 25502 : = MB 0.1: ***:BEThe PB16 is directly generated by PRO®U130. It is only executed i
21IL-Blocks and Macros1166.3.18 Program Block PB19Check command for cancellation for 1-pole commands and 11/2--pole com-mands with 16 group contacts01
21IL-Blocks and Macros 117Check command for cancellation for 2-pole commands and 11/2-pole com-mands with 8 group contacts01 : LBB Q 1.9 Load 8 output
20xivRelated DocumentsGeadat U130 User ManualDolog AKF®A030/A130 User ManualValidity NoteThis description is valid for the:Software PRO®U130, Version
21IL-Blocks and Macros1186.3.19 Program Block PB2101 : BC FB 13 Call: Process the process s tate of the03 NAME: EZM-PROZ real-time information03 IN: I
21IL-Blocks and Macros 1196.3.20 Program Block PB2201 : LD V 002 : = M 0.9 Set marker M9 to NULL03 : LD IWA 1.11 Load 1st status word EZM04 : A V 128
21IL-Blocks and Macros12030 : LD V 254 Set bit 20to 0, set all other31 : = MB 0.56 bits to 132 : LD IWA 1.1133 : O IWA 1.1434 : A V 128 If in the 1st
21IL-Blocks and Macros 121Macro File ECHTPU.MAC* Real-time information from the bufferLK0;= M 0.9;LEWAx.11;U K 128;G K 128;= M 0.10;L MB 0.60;KL K 11;
21IL-Blocks and Macros122A maximum of 2 items of real-time information can be read from each DEZ 160in one IL scan. The first EZM lies in the EWA x .1
21IL-Blocks and Macros 1236.3.21 Program Block PB2301 : LD IWA 6.302 : = MW 0.8: ***03 : LD IWA 6.404 : = MW 0.9: ***:BEMacro File ZW16.MAC* 16-bit c
21IL-Blocks and Macros124Macro File DAUERBEF.MAC* Check whether a persistent c ommand should still be outputBA FB16;MWs;Ax.y;*;Variable s is replaced
21IL-Blocks and Macros 1256.4 The Function BlocksThe function blocks are all in the macro file FBS.MAC. They contain no variableswhich must be replace
21IL-Blocks and Macros126:LD MW0.11:= TAW0.3:LD MW0.12:= TAW0.4:LD MW0.13:= TAW0.5:LD MW0.14:= TAW0.6:LD MW0.15:= TAW0.7:LD MW0.16:= TAW0.8:LD MW0.17:
21IL-Blocks and Macros 127:= CAW0.7:LD MW0.32:= CAW0.8:LD MW0.33:= CAW0.9:LD MW0.34:= CAW0.10:LD MW0.35:= CAW0.11:LD MW0.36:= CAW0.12:LD MW0.37:= CAW0
20xvHandling 31/2” DiskettesNo cleaning of diskettes.TemperatureHumidity 8 to 80%Store diskettes in protectivecontainers and boxes.Insert diskettes co
21IL-Blocks and Macros1286.4.2 Function Block FB2NAME: SUECHT: ***: LD V 1 The two most significant bits in: = M 0.751 the 1st SU word (organization i
21IL-Blocks and Macros 129: LD MW 0.137:= TAW0.9: LD MW 0.138:= TAW0.10: LD MW 0.139:= TAW0.11: LD MW 0.140:= TAW0.12: LD MW 0.141:= TAW0.13: LD MW 0.
21IL-Blocks and Macros130:= CAW0.13: LD MW 0.158:= CAW0.14: LD MW 0.159:= CAW0.15: LD MW 0.160:= CAW0.16:*** Allmarkersarenormedsincethereal-time: LD
21IL-Blocks and Macros 1316.4.4 Function Block FB4NAME: MELDUNGBEZ: INLB (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (I/R) MB LBEZ: INHB (I/Q/M/MB/MW/SM/SMB/SMW/T/C)
21IL-Blocks and Macros132ZWEI: LD =INHB Load 2nd measurand for HIGH byte: TBW M 0.9 and transfer to bit string starting with marker M9: LD M 0.19 Chec
21IL-Blocks and Macros 133: A =BIT limit exceeded:= =MELD: JF =ENDE Jump to end of blockU-GR: LD =EINEQ Monitor lower limit:: LE =GREN Compare measura
21IL-Blocks and Macros134: = MW 0.87:LBW M0.1009: = MW 0.88:LD TSW0.1: = MW 0.89:LD TSW0.2: = MW 0.90:LD TSW0.3: = MW 0.91:LD TSW0.4: = MW 0.92:LD TSW
21IL-Blocks and Macros 135:LD CSW0.4: = MW 0.108:LD CSW0.5: = MW 0.109:LD CSW0.6:= MW0.110:LD CSW0.7: = MW 0.111:LD CSW0.8:= MW0.112:LD CSW0.9:= MW0.1
21IL-Blocks and Macros1366.4.8 Function Block FB8NAME: DOPPELMBEZ: IN (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB LBEZ: DMNR (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L
21IL-Blocks and Macros 137: = MB 0.55ME2: LD =DMMB Check 2nd double-point information: ADD V 2 Add constant 2 to DMMB for 2nd: = MB 0.54 double-point
20xviHandling 51/4” DiskettesNo diskettes near mag-netic fields.Label diskettes at theright spot.No cleaning of diskettes.Insert diskettes correctly.S
21IL-Blocks and Macros138:EQ V4:JT =ME4:LD V1:= M0.6: LD =DMNR:O V4:= =DMNR:LD MB0.54: = MB 0.55:JI =ENDEME33: LD =DMNR:A V4:EQ V4:JF =ME4: LD =DMNR:A
21IL-Blocks and Macros 139: JI =ENDEME44: LD =DMNR:V V8:EQ V8: JF =ENDE: LD =DMNR: A V 247:= =DMNR:LD MB0.54:EQ MB0.55: JF =ENDE:LD V1:= M0.7:LD V0: =
21IL-Blocks and Macros1406.4.9 Function Block FB9NAME: DM-UMSPBEZ: IN (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB LBEZ: INKE (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L
21IL-Blocks and Macros 141: EQ V -32768 is already set: JT =LAB3 If yes, jump to end of block: LD MW 0.166 If no, set next bit in MW166:MULD V2: = MW
21IL-Blocks and Macros1426.4.12 Function Block FB12NAME: SU2NORM: ***: LD K 0 Two most significant bits in: = M 0.751 1st SU word (organization inform
21IL-Blocks and Macros 143:LD MW0.57:= TAW0.9:LD MW0.58:= TAW0.10:LD MW0.59:= TAW0.11:LD MW0.60:= TAW0.12:LD MW0.61:= TAW0.13:LD MW0.62:= TAW0.14:LD M
21IL-Blocks and Macros144:= CAW0.13:LD MW0.78:= CAW0.14:LD MW0.79:= CAW0.15:LD MW0.80:= CAW0.16: ***: LD V 1 Set marker for SU2 reloaded:= M0.95: LD V
21IL-Blocks and Macros 1456.4.14 Function Block FB14NAME: EZM-PUBEZ: IN1 (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MW LBEZ: IN2 (I/Q/M/MB/MW/SM/SMB/SMW/T/C)
21IL-Blocks and Macros146: = MW 0.127 to 7th to 9th buffer words:LD =IN2: = MW 0.128:LD =IN3: = MW 0.129:LD V0: = MW 0.130 Set end codeLAB3: ***: LD =
21IL-Blocks and Macros 147:LD V0: = MW 0.139 Set end codeLAB6: ***: LD =ZBYT:EQ V6: JF =LAB7: LD =IN1 Pointer = 6, assign real-time information: = MW
21Table of Contents xviiTable of ContentsPart I Configuration Instructions 1...Chapter 1 Introduction 3...
21IL-Blocks and Macros148: JF =LA10: LD =IN1 Pointer = 9, assign real-time information: = MW 0.148 to 27th to 29th buffer words:LD =IN2: = MW 0.149:LD
21IL-Blocks and Macros 1496.4.15 Function Block FB15NAME: DEZ-FRBEZ: RSET (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB LBEZ: MB1 (I/Q/M/MB/MW/SM/SMB/SMW/T/C)
21IL-Blocks and Macros1506.4.17 Function Block FB17NAME: DAUERBE2BEZ: MWSD (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB LBEZ: AUS (I/Q/M/MB/MW/SM/SMB/SMW/T/C
21IL-Blocks and Macros 1516.4.19 Function Block FB19NAME: MESSW_16BEZ: MESS (I/Q/M/MB/MW/SM/SMB/SMW/T/X) (L/R) MW LBEZ: MWSU (I/Q/M/MB/MW/SM/SMB/SMW/T
21IL-Blocks and Macros152
21153Part IIDEZ 160 - Parameterization
21154
21General Information 155Chapter 1General Information
21General Information156You can start the DEZ160 parametrization software directly from the operatingsystem level (call: C:\PRO-U130\DEZ160P) or call
21Handling 157Chapter 2Handling
21Table of Contentsxviii4.2.16 Digital Setpoint Values 32...4.2.17 Analog Setpoint Values 32...4.3 Co
21Handling1582.1 Main Menu E5 B2You can call the following functions from the main menu:<F1> Data Input<F2> Data Archive<F3> EPROM M
21Handling 159System A maximum of 8 characters may be input. The systemname is also the name of the subindex in which the dataof the DEZ 160 are archi
21Handling160Setting of Data Type E7 B8”Data Input”,”Setting of Data Type”(F1®F2 )The DEZ 160 is displayed divided into 4 times 8 inputs. 4 different
21Handling 161Edge detection for real-time information E7 B10”Data Input”,”Edge Detection for Real-time Information”(F1®F4)For real-time information y
21Handling162You can also form summed c ounted measurands by allocating the same countedmeasurand register to several pulse inputs. Theoretically you
21Handling 163Write file”Data Archive ”,”Write File”(F2®F2 )The DEZ parameters are stored on the defined drive in “intel-hex” format. Thesystem name e
21Handling1642.4 EPROM - Menu E6 B8Only the EPROM programming station EPS 2000 can be a ddressed with thismenu. It is linked with the serial interface
21Handling 1652.4.1 Printer Output E6 B9Start Printer”Printer Output”,”Start Printer”(F4®F1 )The list with the DEZ parameters is printed.Printer selec
21Handling166
21Structure of Transmission Port 167Chapter 3Structure of TransmissionPort
21Table of Contents xix6.3.13 Program Block PB13 105...6.3.14 Program Block PB14 109...6.3.15 Prog
21Structure of Transmission Port168IWAx.1I16IWAx.2I32IWAx.3IWAx.4IWAx.5IWAx.6IWAx.7IWAx.8IWAx.9IWAx.10IWAx.11IWAx.12IWAx.13IWAx.14IWAx.15IWAx.16I1I17R
21Structure of Transmission Port 169Subadresse0 = Input 1 - 161 = Input 17 - 32slot 1-8= 0-7^not detined0=ok1 = error0 = real-time information1= appro
21Structure of Transmission Port170
21171Part IIIKOS 130/131 Parameteriza-tion
21General Instructions 173Chapter 1General Instructions
21General Instructions174There are two ways to input the parameters for the KOS 130/131.user input to the KOS 130/131 data model in the corresponding
21General Instructions 175No other changes have any effect on the instruction list. The changed parame-ters are stored in the file USTx.KOS.Caution If
21General Instructions176
21Handling 177Chapter 2Handling
21Table of ContentsxxChapter 3 Structure of Transmission Port 167...Part III KOS 130/131 Parameterization 171...Chapter 1 General
21Handling1782.1 Main Menu E5 B1The main menu appears after the KOS parametrization call. You can go to theindividual submenues using the function key
21Handling 1792.2 Configure Parameter List E6 B1A menu from which you can branch to the particular submenues appears.2.2.1 Common Parameters E7 B1”Con
21Handling1802.2.2 SEAB Parameters E7 B2”Configure Parameter Lis ts”,”SEAB Parameters”(F1®F2 )First the baud rate is interrogated. The default value i
21Handling 1812.2.3 KOS Parameters for SEAB- 1F E7 B3”Configure Parameter Lists”,”KOS Parameters”(F1®F3 )The KOS parameters are only required for oper
21Handling182You can set whether SEAB-1F telegrams should be transferred with 4 databytes. Some master stations (A350, GD 80-STAZ) cannot process thes
21Handling 183You can specify for real-time information whether the c urrent process state of theinformation inputs should be transferred for a GP (G)
21Handling184Data for Control Direction E8 B2”Configure Paramter Lists”,”Assignment lists”,”Data for Control Direc-tion”(F1®F4®F2 )The data type and g
21Handling 185Counter Va lue Processing E8 B4”Cofigure Parameter Lists”,”Assignment Lists”,”Counter Value Pro-cessing”(F1®F4®F4 )If counted measurands
21Handling186Ring Buffer Handling E8 B5”Configure Parameter Lists”,”Assignment List”,”Ring Buffer Handling”(F1®F4®F5 )If you defined that data should
21Handling 187Real-time Information E8 B6”Comfigure Parameter Lists”,”Assignment Lists”,”Real-time Informa-tion”(F1®F4®F6 )Real-time information can b
21Table of Contents xxiFiguresFigure 1 Elements for designing and programming 4...Figure 2 SU-Multiplexer 24...
21Handling1882.2.5 Logical Message Numbers for SEAB-1N E7 B5”Configure Parameter List”,”Logical message number”(F1®F5 )The logical message number is e
21Handling 189Store”Data Archiv e ”,”Store”(F2®F2 )You are rqeuested to enter with the path instruction the name of the file intowhich you want to sav
21Handling190Note When a parameter list is saved, there is a check whether afile with the same name already exists. A remark is displayed if this isth
21Handling 191The current date is transferred to the parameter RAM of the KOS when the dataare transported. Thus you can always find out when data wer
21Handling192Selection of Printer”Printer Output”,”Selection of Printer”(F4®F2 )One of the printers DRU 096, DRU 120, DRU 292, DRU 293 or DRU 1200 can
21Handling 1932.6 EPROM - Menu E6 B5Only the EPROM programming station EPS 2000 can be addressed with thismenu. It is linked with the serial interface
21Handling194Program EPROM”EPROM Menu”,”Program EPROM”(F50®F4 )The range from 0000H to 7FFFH is described.EPROM blank check”EPROM Menu”,”EPROM blank c
21Handling 195Program parameter listsRead in a parameter list from diskette, KOS or EPROM or create a new parame-ter list and then program on an EPROM
21Handling1962.7 Reset PUTE Memory E5 B1After the “reset memory in P500” call, you are again asked whether you are surethat this function should be ca
21197Part IV
21Table of Contentsxxii
21Index 199IndexAArchiving: Part I 60Arrow keys : Part I 10Autosave: Part I 40BBill of materials: Part I 77CCancel link time: Part I 31, 44Cancel supe
21Index200EExtension: Part I 39FFunciton block, FB11: Part I 141Function blockFB1: Part I 125FB10: Part I 140FB12: Part I 142FB13: Part I 144FB14: Par
21Index 201E7 B2: Part III 180E7 B3: Part III 181E7 B4: Part III 182E7 B5: Part III 188E7 B7: Part II 158E7 B8: Part II 160E7 B9: Part II 160E8 B1: Pa
21Index202Operator: Part I 41Outstation: Part I 41Outstation number: Part I 41RReservation SU/SD: Part I 46Restart: Part I 39SSD: Part I 22Selection o
04Addresses 203Addresses
04Addresses204Technical Offices and Sales Pointsof AEG in the Federal Republic of GermanyAachenGrüner Weg 22/24W-5100 AachenTel. ( 02 41) 1 08-0Fax (0
04Addresses 205MagdeburgOtto-von-Guericke-Straße 25O-3010 Magdeburg 1Tel.(003791)31077Fax (00 37 91) 3 28 60MainzFischtorplatz 14W-6500 Mainz 1Tel. (0
04Addresses206Subsidiaries, Representatives and MODICON Distributorsof AEG in EuropeAlbaniaPauwels Contracting N.V.Antwerpse Steenweg 167-169B-2800 Me
04Addresses 207talyAEG Italiana S.p.A.Via Stephenson, 94I-20157 MilanTel. (0039 2) 3 32 12-1Fax (0039 2) 3 32 12-2 01MODICON Italiana S.r.L.Via Stephe
211Part IConfiguration Instructions
04Addresses208
23209Publications Comment FormWe are constantly striving to improve the contents and usability of our techni-cal documents. If you have any suggestion
23210Suggestions for improvementSoftware-Product:Product Documentation:Thank you for your help.
21Introduction 3Chapter 1Introduction
21Introduction41.1 The PRO®U130 Program Packagecomprises three 51/4” diskettes with 360 kbytes each, one 31/2” diskette with720 kbyte and the user man
21Introduction 51.2.1 HardwarePUTE P500P600Compaq 286/386IBM AT 286Printer (each with parallel interface)DRU 292/293DRU 120DRU 096DRU 1200EPROM _ Pro-
21Introduction6Step 3 Specify drive for installation. If installation on hard disk C,only confirm the default value with <Cr>. Otherwise enterdr
21Overview and General Information 7Chapter 2Overview and GeneralInformation
PRO®U130Type: PRO-U130Version 4.0Diskettes1x31/2”and3x51/4”Configuration GuideDOK-279467.22-0991Translation ofthe German Description DOK-272872Belongs
21Overview and General Information82.1 Summary of FeaturesPRO®U130 supports the user during the design and start-up of the GeadatU130 outstation.A sub
21Overview and General Information 92.2 Rough StructureData input (Chap. 5.2)Project DataGeneral Datas of OutstationNumber of Data PointsSelection of
21Overview and General Information102.3 Keyboard OperatingIf an instruction is in pointed brackets < > in the following description, this meanst
21Overview and General Information 11Caution If your PADT does not have a separate cursor block,make sure that the <Num Lock> key is switched of
21Overview and General Information12order to delete this remark window on the screen, press any key. You can thencorrect the input and c ontinue with
21Overview How To Work 13Chapter 3Overview How To Work
21Overview How To Work143.1 Sequence DiagramStartProject dataSystemname and outstationnumber have to beinputProcessing a new stationData inputSelectio
21Overview How To Work 15AInsert EPROMs to KOS 130, DEZ 160Set jumpers at modules.Insert modules to subrack.Generation of ILProgram EPROMTransfer toEd
21Overview How To Work163.2 Tree Structure of the MenuesModules and SubrackAssignmentProject DataGeneral Datas ofNumber of Data PointsMeasurand proces
21Overview How To Work 17B1InputLevel 3Figure 1InputFigure 2SelectFigure 4Module SelectionFigure 5InputFigure 7InputFigure 8SelectFigure 9Data Point A
21Overview How To Work18Common parameterConfigure parameterFigure 1Figure 1F1F2F3F4F5F3F4F8F2F1Level 6Level 5B1listsArchiveTransferPrinter outputEPROM
21Overview How To Work 19General ParameterData InputFigure 6Figure 2F1F2F3F4F3F4F5F6F2F1Ebene 6Ebene 5B2Setting of Data PointsInvertation of InputEdge
21Overview How To Work203.3 Index StructureDuring installation, a subindex PRO-U130 was set up. PRO®U130 opens asystem index under this index. The ind
21Configuration 21Chapter 4Configuration
21Configuration224.1 Definition of the Communications PortsThe outstation is coupled with the controller by the KOS 130/131. It is the linkbetween ALU
21Configuration 23The instruction list (IL) addresses memory areas SU and SD as follows (seealso Dolog AKF®A030/A130 manual):Table 1 Access to Memory
21Configuration24copy SU1 intermediate memoryAorBset SU1 markerreset acknowledgement bitacknowl. bit = 1?SU1 marker = 1?SU2 marker =1?real--time infor
21Configuration 254.2 Definition of the Data Types4.2.1 Monitored InformationProjektierbar bei DEP 112, DAP 102, DAP 103, DEZ 160Zuordnung In groups o
21Configuration264.2.3 Return InformationProjektierbar bei DAP 102, DAP 103Zuordnung In groups of 8 inputs eachThe assignment is automatic if an activ
21Configuration 274.2.5 System InformationProjektierbar bei Cannot be planned, virtual information.Zuordnung Is always assigned to the 1st word in SU
20NotesTable of ContentsConfigurationPart IPart IIPart IIIPart IVPart VPart VIPart VIIPart VIIIPart IXDEZ 160 ParametrizationKOS 130/131IndexAppendixO
21Configuration284.2.7 8-Bit MeasurandProjektierbar bei ADU 115, ADU 116, DAU 104Zuordnung In groups of 8 inputs each. The number of actually re-quire
21Configuration 294.2.10 11/2-Pole Commands with 8 Group ContactsProjektierbar bei DAP 103Zuordnung per outstationVerarbeitung The upper 8 outputs of
21Configuration304.2.12 2-Pole CommandsProjektierbar bei DAP 103Zuordnung per outstationVerarbeitung A command from the master station controls 2 outp
21Configuration 314.2.14 Persistent CommandsA time for the duration of the telegram execution is parametrized per outstation.As soon as a command is o
21Configuration32For 2-pole commands, only the first 8 event inputs of a DAP 103 are used as re-turn information. The other 8 inputs can be assigned a
21Configuration 334.3 Configuration LimitsTable 3 Configuration Lim itsData type Number StructureMonitored information 512 BitReal-time information 25
21Configuration344.4 Special FeaturesDEZ 160 and DAU 104 can only be used in the central subrack.Only one KOS 130/131 can be used per outstation.The c
21Handling 35Chapter 5HandlingThis chapter describes design, parametrization and programmingwith PRO®U130.It can be used as a reference manual for the
21Handling365.1 General InformationThe individual menu points are described in the order given below.Data input Chapter 5.2Data archiving Chapter 5.3I
21Handling 375.1.1 The Line EditorThe line editor is used for entering project data, c ommenting the data point listand extending the library file.Tab
21Handling38Since many computers have a US keyboard, the special German letters are as-signed to function keys.<Shift>+<F1> = Ä<Shift&g
21Handling 395.1.2 Starting PRO®U130 E0 B1PRO®U130 is started by the operating level with the “PRO-U130” call. Aheader containing the current version
21Handling405.1.3 AutosaveBefore leaving certain submenues, the data edited or generated there must besaved on the hard disk. This is true for the fol
21Handling 415.2 Data Input E1 B15.2.1 Project Data E2 B1”Data input”,”Project data”(F1®F1)The date of the last time a s tation was processed is displ
21Handling42Example:System “BEISPIEL” and outstation number “0” is loaded and should be copied to“BEISPIEL\UST5”.Step 1 Overwrite outstation number (U
21Handling 435.2.2 General Datas of Outstation E2 B1”Data input”,”General Datas of Outstation”(F1®F2)The values set in this menu are valid for the com
21Handling44Note If a group contact is defined as such but not required, it will beincluded for the users’ own IL parts. This is only true for group c
21Handling 45Malposition suppression time E3 B2Range of settings: 100 msec to 99,9 s ecStandard setting: 20 secThe transfer of the malposition for dou
21Handling46Delay time for persistent commands E3 B2Range of settings: 100 msec to 99,9 s ecStandard setting: 2 secThis delay time defines the telegra
21Handling 475.2.3 Number of Data Points E2 B1”Data Input”,”Number of Data Points”(F1®F3)Input: E3 B3If you input the number of individual data points
20viiNotesTable of Contents
21Handling48The subrack(s) are also equipped in the above order.Since monitored information can only be assigned in groups of 8 and commandsin groups
21Handling 49If an existing selection is “reduced”, any I/O modules which were planned aredeleted.If this is the case, a remark is output and you can
21Handling50Caution If the KOS 130/131 is entered in the secondary sub-rack, its parameter RAM is not battery-buffered.The individual modules are sele
21Handling 51The particular I/O module is displayed graphically in the window opened by theZOOM function. The valid data point types are listed to the
21Handling52A data type which has been assigned can be deleted again with <Del>.For pulse commands, a command runtime (command duration) per out
21Handling 53You can process unused counted measurand inputs, measurand inputs and ana-log outputs in a separate IL part if required.This is not true
21Handling545.2.6 Measurand Processing E3 B6”Data input”,”measurand processing”(F1®F6)All the measurands planned in the“I/O module selection” menu are
21Handling 5501--1000 +1000Hysteresisupper limit valuelower limit value1 - 0 edge2. information0 - 1 edge1. information1 -- 0 edge1. information0 - 1
21Handling565.2.7 List of Data Points E3 B7”Data input”,”List of Data Points”(F1®F7)The data point list c ontains a number of columns:1. A-byte (Outst
21Handling 57It is possible to c opy single lines or whole line blocks.You can mark the line containing the cursor for copying with <Alt> + <
20viii
21Handling585.2.8 Edit Library E3 B8”Data Input”,”Edit Library”(F1®F8)All existing library files are listed alphabetically in a window. The arrow mark
21Handling 59You can also store library files with a certain combination of components asstandard files.The individual libraries comprise 120 position
21Handling605.3 Data Archive E1 B1Read data E2 B3”Data Archiv e”, “Read Data”(F2®F1)All the systems processed so far are listed alphabetically in a wi
21Handling 61Delete file E2 B2”Data Archive ”,”Delete File”(F2®F3)As for “read data”, first all the systems so far processed and then all the outsta-t
21Handling625.4 IL Generation E1 B1Start IL generation (German) E2 B5”Generation of IL”,”Start IL g eneration (German)”(F5®F1)The generated blocks are
21Handling 63Step 9 Read in macro for processing the process state of thereal-time information and set up program block PB21Step 10 Read in macro for
21Handling64Step 22 Generate program block PB20 for message “commandwas cancelled”Step 23 Read in macro for digital setpoint value output and set uppr
21Handling 65The processing of monitored information for 64 items of information will beused to explain how a program block is set up:The macro file f
21Handling66Start IL Generation (English)”Generation of IL”,”Start IL-Generation (English)”(F5®F2)The German IL as described above is the basis for th
21Handling 67PRO®U130 then calls the program Dolog AKF®A030/A130. The parameter/FWT, which causes Dolog AKF®A030/A130 to read the file PRO-AKF, istran
20ixNotesApplication NoteCaution The relevant regulations must be observed for controlapplications involving safety requirements.For reasons of safety
21Handling68Load IL in the RAM of the ALU 131 and startStep 1 Set up connection between COM1 and PC*Step 2 Select “load” in main menu and <Cr>St
21Handling 69Program IL on EPROMStep 1 Set up connection between COM1 and EPS 2000Step 2 Select “load” in main menu and <Cr>Step 3 Select “EPROM
21Handling70Print ILStep 1 Select “print” in the main menu and <Cr>Step 2 Select “program protocol” and <Cr>Step 3 Set the following param
21Handling 715.6 Printer Output E1 B1Each printed page contains a header text which contains:system nameoutstation identifierdate of creationversion i
21Handling72Printout of the Table of Measurand Limits E2 B4”Printer Output”,”Table of Measurand Limits”(F4®F3)The table contains only the measurands w
21Handling 73Printout of the List of Data Points E2 B4”Printer Output”,”List of Data Points”(F4®F4)The data point list is printed sorted according to
21Handling74Printout of the General Datas of Outstation E2 B4”Printer Output”,”General Datas of Outstation”(F4®F5)The following data are printed:comma
21Handling 75DRU 292/293 E3 B9”Printer Output”,”Selection of Printer”,”DRU 292P/293P”(F4®F7®F1)DRU 292 = DIN A4 matrix printerDRU 293 = DIN A3 matrix
21Handling76Near Letter Quality E3 B9”Printer output”,”Selection of Printer”,”Near Letter Quality”(F4®F7®F5)The near letter quality mode can be switch
21Handling 775.7 Display the Bill of Material on the ScreenE1 B1This function gives you a quick summary of the scope and price of a plannedoutstation.
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