AEG EWA7500- Manuals

Page 3 - Translation of the German Description DOK-272872

PRO ® U130 Type: PRO-U130 Version 4.0 Diskettes 1 x 3 1 / 2 ” and 3 x 5 1 / 4 ” Configuration Guide DOK-279467.22-0991 Translation of the German Description DOK-272872 Belongs to software kit E-No. 424-247175

Page 7 - vii; Notes

Page 8 - viii

Page 9 - ix; Application Note

20 ix Notes Application Note Caution The relevant regulations must be observed for controlapplications involving safety requirements.For reasons of safety and to ensure compliance with docu-mented system data, repairs to components should be per-formed only by the manufacturer. Training AEG offers s...

Page 10 - 991 AEG Aktiengesellschaft.

20 x Copyright All rights reserved. No part of this document may be reproduced or transmittedin any form or by any means, electronic or mechanical, including copying, pro-cessing or any information storage, without permission in writing by the AEG Ak-tiengesellschaft. You are not authorized to trans...

Page 11 - xi; Terminology; Note; This symbol emphasizes very important facts.; Expert; This symbol is used when a more detailed information is; Path; This symbol identifies the use of paths in software menus.

20 xi Terminology Note This symbol emphasizes very important facts. Caution This symbol refers to frequently appearing errorsources. Warning This symbol points to sources of danger that maycause financial and health damages or may have other aggravat-ing consequences. Expert This symbol is used when...

Page 13 - xiii; Objectives; The designer can; Arrangement of This Guide; contains the list of addresses and the user comments.

20 xiii Objectives This description is intended for the designer of Geadat U130 outstations. The designer can install the programming panel,install the software,plan with the software,document the design thus created,transfer the created parameters,pass the created program to the controller and star...

Page 14 - xiv; Related Documents; PRO

20 xiv Related Documents Geadat U130 User ManualDolog AKF ® A030/A130 User Manual Validity Note This description is valid for the:Software PRO ® U130, Version 4.0 Dolog AKF ® A030/A130, Version 2.0 Basic software versions ALU 131 247138.02 DEZ 160 247154.00 KOS 130/131 241128.09

Page 15 - xv; Handling 3; Always keep in mind

20 xv Handling 3 1 / 2 ” Diskettes No cleaning of diskettes. Temperature Humidity 8 to 80% Store diskettes in protective containers and boxes. Insert diskettes correctly. No water on diskettes. No heavy objects on diskettes. Diskettes tolerate no heat (sunshine). No erasing on diskettes. Don’t move ...

Page 16 - xvi; Handling 5

20 xvi Handling 5 1 / 4 ” Diskettes No diskettes near mag- netic fields. Label diskettes at the right spot. No cleaning of diskettes. Insert diskettes correctly. Store diskettes in protective containers and boxes. Temperature Humidity 10 to 50 C 8 to 80% No bending or folding of diskettes. No water ...

Page 17 - xvii; Table of Contents; Part I

21 Table of Contents xvii Table of Contents Part I Configuration Instructions 1 . . . . . . . . . . . . . . . Chapter 1 Introduction 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.1 The PRO U130 Program Package 4 . . . . . . . . . . . . . . . . . . 1.2 System Require...

Page 18 - xviii; Chapter 5

21 Table of Contents xviii 4.2.16 Digital Setpoint Values 32 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.2.17 Analog Setpoint Values 32 . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.3 Configuration Limits 33 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.4 Spec...

Page 19 - xix; Part II; Chapter 1

21 Table of Contents xix 6.3.13 Program Block PB13 105 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3.14 Program Block PB14 109 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3.15 Program Block PB15 113 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3.16 Prog...

Page 20 - xx; Part III

21 Table of Contents xx Chapter 3 Structure of Transmission Port 167 . . . . . . . . . . . . . . . . . . Part III KOS 130/131 Parameterization 171 . . . . . . . . . Chapter 1 General Instructions 173 . . . . . . . . . . . . . . . . . . . . . . . . . . . . Chapter 2 Handling 177 . . . . . . . . . . ....

Page 21 - xxi; Figures

21 Table of Contents xxi Figures Figure 1 Elements for designing and programming 4 . . . . . . . . . . . . Figure 2 SU-Multiplexer 24 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 3 Time diagram for actively cancelled commands 44 . . . . . . Figure 4 Time diagram for m...

Page 22 - xxii

Page 25 - Introduction

Page 26 - The PRO; comprises three 5; System Requirements; Hardware

21 Introduction 4 1.1 The PRO ® U130 Program Package comprises three 5 1 / 4 ” diskettes with 360 kbytes each, one 3 1 / 2 ” diskette with 720 kbyte and the user manual. 1.2 System Requirements Dolog AKF MS-DOS PRO U130 ® Basicsoftware KOS 130/131 PADT IBM-kompatibel SPS Hardware Software ® Basicsof...

Page 27 - PUTE; Software; Dolog AKF; Installation; Installation PRO

21 Introduction 5 1.2.1 Hardware PUTE P500P600Compaq 286/386IBM AT 286 Printer (each with parallel interface)DRU 292/293DRU 120DRU 096DRU 1200 EPROM _ Pro- gramming station EPS 2000 1.2.2 Software MS-DOS as of version 3.2 Dolog AKF ® A030/A130 1.3 Installation Installation PRO ® U130 from 3 x 5 1 / ...

Page 28 - Installation begins

21 Introduction 6 Step 3 Specify drive for installation. If installation on hard disk C,only confirm the default value with <Cr>. Otherwise enterdrive identifier (C,D) and <Cr>. Note Installation begins Step 4 After request, insert diskette 2 of 3 and press any key. Step 5 After request,...

Page 29 - Overview and General Information; Chapter 2

21 Overview and General Information 7 Chapter 2 Overview and General Information

Page 30 - Summary of Features

21 Overview and General Information 8 2.1 Summary of Features PRO ® U130 supports the user during the design and start-up of the Geadat U130 outstation. A subrack including the subrack assignments is automatically determinedwhen the data points are specified. A certain hardware (subrack and I/O modu...

Page 31 - Rough Structure

21 Overview and General Information 9 2.2 Rough Structure Data input (Chap. 5.2) Project DataGeneral Datas of OutstationNumber of Data PointsSelection of SubrackSelection of Modules / ParameterizationMeasurand ProcessingList of Data PointsEdit Library Data Archive (Chap. 5.3) Read DataSave DataDelet...

Page 32 - Keyboard Operating; US keyboard; The individual submenues are selected with the function keys.

21 Overview and General Information 10 2.3 Keyboard Operating If an instruction is in pointed brackets < > in the following description, this meansthat the corresponding key must be pressed.<Cr> = Press RETURN key.<Alt> + <Ctrl> + <Del> = Warm restart. Press all three k...

Page 33 - Pressing this key causes a return to the previous menu level.; Toggling; General Information; The designations Ex By in the titles are also displayed at the

21 Overview and General Information 11 Caution If your PADT does not have a separate cursor block,make sure that the <Num Lock> key is switched off as otherwisethe number block will be active. <Return> key The input to the line editor is terminated or the selected parameters are enteredw...

Page 35 - Overview How To Work; Chapter 3

21 Overview How To Work 13 Chapter 3 Overview How To Work

Page 36 - Sequence Diagram

21 Overview How To Work 14 3.1 Sequence Diagram Start Project data Systemname and outstation number have to be input Processing a new station Data input Selection of modules Parameterization General datas of outstation Number of data points Selection of subracks Measurand Processing A Only the modul...

Page 38 - Tree Structure of the Menues

21 Overview How To Work 16 3.2 Tree Structure of the Menues Modules and Subrack Assignment Project DataGeneral Datas of Number of Data Points Measurand processingList of Data PointsEdit Library Read Data Save Data Delete File Change Drive Start IL Generation (GE)Start IL Generation (EN) Output Selec...

Page 42 - Index Structure

21 Overview How To Work 20 3.3 Index Structure During installation, a subindex PRO-U130 was set up. PRO ® U130 opens a system index under this index. The individual files of the outstation are stored inthis system index. Example: PRO-U130 TEST.PRO UST0.HWUST1.HWUST2.HWUST1.HWUST22.HW BEISPIEL.PRO Th...

Page 43 - Configuration; Chapter 4

Page 44 - Definition of the Communications Ports; In the monitoring direction (SU), the capacity can be doubled

21 Configuration 22 4.1 Definition of the Communications Ports The outstation is coupled with the controller by the KOS 130/131. It is the linkbetween ALU 131 and the serial bus SEAB-1F. Data is transferred between ALU 131 and KOS 130/131 using the SU/SD inter-face. SU = Storage UploadSD = Storage D...

Page 47 - Definition of the Data Types; Monitored Information; Double-point Information; In groups of 8 inputs each

21 Configuration 25 4.2 Definition of the Data Types 4.2.1 Monitored Information Projektierbar bei DEP 112, DAP 102, DAP 103, DEZ 160 Zuordnung In groups of 8 inputs each Verarbeitung No special processing. Two input groups are assigned toone word and passed on to the KOS 130/131. No tran- sient beh...

Page 48 - Return Information

21 Configuration 26 4.2.3 Return Information Projektierbar bei DAP 102, DAP 103 Zuordnung In groups of 8 inputs eachThe assignment is automatic if an actively cancelled com-mand is planned. Return information cannot be overwrittenor deleted during project planning. The first return informa-tion of a...

Page 49 - System Information; More than one module failed bit 2; Counted Measurands; Counted pulses up to 50 Hz are counted in the

21 Configuration 27 4.2.5 System Information Projektierbar bei Cannot be planned, virtual information. Zuordnung Is always assigned to the 1st word in SU (WM737). Verarbeitung The organization information contains the following infor-mation:Module disturbed (1-16 binary coded) bit 2 0 to 2 4. More t...

Page 50 - per outstation

21 Configuration 28 4.2.7 8-Bit Measurand Projektierbar bei ADU 115, ADU 116, DAU 104 Zuordnung In groups of 8 inputs each. The number of actually re-quired inputs is also specified. Verarbeitung Two 8-bit measurands are assigned to one word andpassed on to KOS 130/131. Only positive measurands aret...

Page 51 - -Pole Commands with 8 Group Contacts; -Pole Commands with 16 Group Contacts

21 Configuration 29 4.2.10 1 1 / 2 -Pole Commands with 8 Group Contacts Projektierbar bei DAP 103 Zuordnung per outstation Verarbeitung The upper 8 outputs of the first DAP 103 are the groupcontacts for the next 8 output groups of 8 outputs each.The 10th output group is again the group contact block...

Page 52 - Verarbeitung; Pulse commands (commands whose output time can be parametrized); Pulse Commands

21 Configuration 30 4.2.12 2-Pole Commands Projektierbar bei DAP 103 Zuordnung per outstation Verarbeitung A command from the master station controls 2 outputs ofa DAP 103. Outputs 1 and 9, 2 and 10, 3 and 11 etc. forma 2-pole command. Note A 1-of-n check is made before each command output. No fur- ...

Page 53 - Persistent Commands; same; Actively Cancelled Commands; in the organization information word is reset.; Actively cancelled commands can only be configured for the

21 Configuration 31 4.2.14 Persistent Commands A time for the duration of the telegram execution is parametrized per outstation.As soon as a command is output, a timer is set with the parametrized time andstarted. The command output is reset when the timer has expired. In contrast to pulse commands,...

Page 54 - Digital Setpoint Values; In Groups of 16 outputs each.; Analog Setpoint Values; The number of setpoint values is configured.

21 Configuration 32 For 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 as required. Table 2 Command Assignment Table Commands 1-pole 1 1 / 2 -pole 2-pole Pulse commands DAP 102DAP 103 DAP 103 DAP 103 DAP 112 Persistent ...

Page 55 - Configuration Limits

21 Configuration 33 4.3 Configuration Limits Table 3 Configuration Limits Data type Number Structure Monitored information 512 Bit Real-time information 256 Bit Counted measurand 64 Word 8-bit measurand 128 Byte 16-bit measurand 64 Word Organization information 16 Bit Commands 256 Bit Digital setpoi...

Page 56 - Special Features; DEZ 160 and DAU 104 can only be used in the central subrack.

21 Configuration 34 4.4 Special Features DEZ 160 and DAU 104 can only be used in the central subrack. Only one KOS 130/131 can be used per outstation. The clock antenna EM77.5 can only be used with DEZ 160 orKOS 130c/131c. If KOS 130/131 is equipped at slots 9 - 17, the parameter RAM is not buffered...

Page 57 - Handling; This chapter describes design, parametrization and programming

21 Handling 35 Chapter 5 Handling This chapter describes design, parametrization and programming with PRO ® U130. It can be used as a reference manual for the project planner. Its structure adheres to that of the menu sequence.

Page 59 - The Line Editor

21 Handling 37 5.1.1 The Line Editor The line editor is used for entering project data, commenting the data point listand extending the library file. Table 4 Key Definitions (US keyboard) Key Definition ¬ (Backspace) Delete character to left <Del> Delete character above cursor <Ins> Inse...

Page 61 - Starting PRO; extended

21 Handling 39 5.1.2 Starting PRO ® U130 E0 B1 PRO ® U130 is started by the operating level with the “PRO-U130” call. A header containing the current version of the operating software appears once af-ter the call. The main menu appears after you have pressed any key. You canthen begin project planni...

Page 62 - Autosave

21 Handling 40 5.1.3 Autosave Before leaving certain submenues, the data edited or generated there must besaved on the hard disk. This is true for the following menues: Data inputNumber of data pointsI/O module selectionMeasurand processingData point listEdit libraryIL generatingScreen output of the...

Page 63 - Data Input; Project Data; System; An input of a maximum of 8 characters is; required; . The system name is also; Outstation number; be entered. It is also used to identify the indi-; You can copy the set station by overwriting the system name

21 Handling 41 5.2 Data Input E1 B1 5.2.1 Project Data E2 B1 ”Data input”,”Project data”(F1 ® F1) The date of the last time a station was processed is displayed. The operatorcannot change this line. System E3 B1 An input of a maximum of 8 characters is required . The system name is also the name of ...

Page 64 - Outstation is copied.; You can then edit and extend the corresponding menues.

21 Handling 42 Example: System “BEISPIEL” and outstation number “0” is loaded and should be copied to“BEISPIEL\UST5”. Step 1 Overwrite outstation number (UST-Nr.) “0” with a “5”. Step 2 Leave the menu with <F9> or <Esc>. Step 3 Answer whether outstation should be copied with <J><...

Page 65 - General Datas of Outstation; complete

21 Handling 43 5.2.2 General Datas of Outstation E2 B1 ”Data input”,”General Datas of Outstation”(F1 ® F2) The values set in this menu are valid for the complete outstation. Command type E3 B2 You can select between 1-pole, 1 1 / 2 -pole and 2-pole command output by toggling. Note 1 1 / 2 -pole and ...

Page 66 - If a group contact is defined as such but not required, it will be; Cancel link time; is set in the organization infor-

21 Handling 44 Note If a group contact is defined as such but not required, it will be included for the users’ own IL parts. This is only true for group con-tacts, but not for other output groups. Cancel link time E3 B2 Range of settings: 100 msec to 99,9 sec Standard setting: 200 msec The arrival o...

Page 69 - Number of Data Points; If you input the number of individual data points, PRO; It is recommended that you alrady take this suggested se-; The following I/O modules can be selected for this function:

21 Handling 47 5.2.3 Number of Data Points E2 B1 ”Data Input”,”Number of Data Points”(F1 ® F3) Input: E3 B3 If you input the number of individual data points, PRO ® U130 automatically computes the required subracks and I/O modules. You can rework or modify this “suggestion” in the “subrack selection...

Page 70 - Selection of Subracks

21 Handling 48 The subrack(s) are also equipped in the above order. Since monitored information can only be assigned in groups of 8 and commandsin groups of 16, these values are automatically rounded up when leaving themenu. Do not be surprised, therefore, if your definitions have been changedwhen y...

Page 71 - If this is the case, a remark is output and you can annul your change.; Selection of Modules/Parameterization

21 Handling 49 If 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 annul your change. When leaving the menu with <F9> or <Esc>, the selected subracks in the con-figuration of the station are entered. 5....

Page 72 - The module can be deleted from the marked slot location with ~~.; be entered in the~~

21 Handling 50 Caution If the KOS 130/131 is entered in the secondary sub-rack, its parameter RAM is not battery-buffered. The individual modules are selected with < > and < > and the subrack slot loca-tion with < ¬ > and < ® >. An arrow shows the current position. The module...

Page 73 - The individual modules are displayed according to data groups.

21 Handling 51 The particular I/O module is displayed graphically in the window opened by theZOOM function. The valid data point types are listed to their right. (see chap.4.2) These are: monitored informationdouble-point informationcounted measurands8-bit measurands10-bit measurandsactively cancell...

Page 74 - A data type which has been assigned can be deleted again with ~~.; wrong~~

21 Handling 52 A data type which has been assigned can be deleted again with <Del>. For pulse commands, a command runtime (command duration) per output groupcan be defined. The times may be between 100 msec and 99,9 sec. The stan-dard setting is 300 msec. The runtimes for persistent commands a...

Page 75 - The following upper limits are checked after each assignment:

21 Handling 53 You can process unused counted measurand inputs, measurand inputs and ana-log outputs in a separate IL part if required. This is not true for monitored information input and command output since theyare always processed by the “generated IL”. The following upper limits are checked aft...

Page 76 - Measurand Processing; Therefore the following is valid for all measurands:

21 Handling 54 5.2.6 Measurand Processing E3 B6 ”Data input”,”measurand processing”(F1 ® F6) All the measurands planned in the“I/O module selection” menu are listed. An up-per and lower limit to be monitored and a hysterese can assigned to each one. Limits from --1000 to +1000 are possible. The hyst...

Page 77 - Otherwise the requirements of the line editor are valid.

21 Handling 55 0 1 --1000 +1000 Hysteresis upper limit value lower limit value 1 - 0 edge 2. information 0 - 1 edge 1. information 1 -- 0 edge 1. information 0 - 1 edge 2. information Figure 7 Limit monitoring of the measurands Input of the limits: The current input field is displayed inversely. You...

Page 78 - List of Data Points

21 Handling 56 5.2.7 List of Data Points E3 B7 ”Data input”,”List of Data Points”(F1 ® F7) The data point list contains a number of columns: 1. A-byte (Outstation number) 2. F-byte (Function byte) 3. A1-byte (Subaddress) 4. D1/D2-byte (Data bytes) 5. SU/SD-address 6. Data type 7. Module connection (...

Page 79 - It is possible to copy single lines or whole line blocks.; Line blocks can only be marked within an I/O module and only

21 Handling 57 It is possible to copy single lines or whole line blocks. You can mark the line containing the cursor for copying with <Alt> + <M>. A line block is marked as follows:Cursor to 1st line to be copied and <Alt> + <A>. Cursor to last line to be co-pied and <Alt&...

Page 80 - Edit Library; When PRO

21 Handling 58 5.2.8 Edit Library E3 B8 ”Data Input”,”Edit Library”(F1 ® F8) All existing library files are listed alphabetically in a window. The arrow markingthe selected library can be moved with < > and < >. The lines are scrolled atthe start and end of the window if more library fil...

Page 81 - You can skip to the first possible input position with <

21 Handling 59 You can also store library files with a certain combination of components asstandard files. The individual libraries comprise 120 positions divided into three categories. Positions 1 - 17 are the subracks and the modules, whose number is de-fined during project planning (see chap. 5.2...

Page 82 - Data Archive; Read data; A station is saved on the drive currently set.

21 Handling 60 5.3 Data Archive E1 B1 Read data E2 B3 ”Data Archive”, “Read Data”(F2 ® F1) All the systems processed so far are listed alphabetically in a window. The arrowmarking the selected system can be moved with < > and < >. The lines arescrolled at the beginning and end of the win...

Page 83 - Drives A to D are displayed for selection in a window.

21 Handling 61 Delete 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-tions are listed in a window. All the files belonging to an outstation are deleted if the selection of this outsta-tion is confirmed with <Cr&g...

Page 84 - IL Generation; The IL is generated as follows:

21 Handling 62 5.4 IL Generation E1 B1 Start IL generation (German) E2 B5 ”Generation of IL”,”Start IL generation (German)”(F5 ® F1) The generated blocks are saved in the file USTx.AWL. File USTx.AWL is openedfor writing in mode APPEND. APPEND means that additional write operationsare always appende...

Page 87 - During IL generating, you will be asked whether the informa-

21 Handling 65 The processing of monitored information for 64 items of information will beused to explain how a program block is set up: The macro file for processing monitored information is read in. 16 items of infor-mation are processed in one macro. The macro is copied to user memory of thePUTE ...

Page 88 - Transfer and Start AKF130; Transfer

21 Handling 66 Start IL Generation (English) ”Generation of IL”,”Start IL-Generation (English)”(F5 ® F2) The German IL as described above is the basis for the English ASCII-IL. This ILis again translated into English, i.e. commands or operands which have a differ-ent name in English are replaced. In...

Page 89 - all; the block files are deleted from the outstation index. If

21 Handling 67 PRO ® U130 then calls the program Dolog AKF ® A030/A130. The parameter /FWT, which causes Dolog AKF ® A030/A130 to read the file PRO-AKF, is transferred in this call. The intermediate code files are generated and stored in the outstation index dur-ing reading. Warning Before Dolog AKF...

Page 90 - Set up connection between COM1 and PC*; Note the display at the lower right of the screen. If the PC* is

21 Handling 68 Load IL in the RAM of the ALU 131 and start Step 1 Set up connection between COM1 and PC* Step 2 Select “load” in main menu and <Cr> Step 3 Select “link program” and <Cr> Step 4 Select “program to PC*” and <Cr> Step 5 Select “online” in main menu and <Cr> Step ...

Page 91 - Set up connection between COM1 and EPS 2000; A special EPROM (part number 233 891) is used for the ALU

21 Handling 69 Program IL on EPROM Step 1 Set up connection between COM1 and EPS 2000 Step 2 Select “load” in main menu and <Cr> Step 3 Select “EPROM processing” and <Cr> Step 4 Select “create EPROM file” and <Cr> Step 5 Select “station ® EPROM file” and <Cr> Step 6 Answer “P...

Page 93 - Printer Output; Each printed page contains a header text which contains:; Printout of the bill of materials

21 Handling 71 5.6 Printer Output E1 B1 Each printed page contains a header text which contains: system nameoutstation identifierdate of creationversion indexcommentsoperator Printout of the bill of materials E2 B4 ”Printer Output”,”Bill of Materials”(F4 ® F1) The defined bill of materials is printe...

Page 94 - Limits included later in “extension” mode are not sorted into; Monitored information data; The IL must be generated before the table of limits is printed

21 Handling 72 Printout of the Table of Measurand Limits E2 B4 ”Printer Output”,”Table of Measurand Limits”(F4 ® F3) The table contains only the measurands whose limits are to be monitored. The limits are printed sorted according to the slot locations of the measurands. Note Limits included later in...

Page 95 - The module type is printed as a header

21 Handling 73 Printout 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 I/O slot locations. The module type is printed as a header The data point list comprises the SEAB telegram address, the SU/SD address,the data t...

Page 97 - matrix printer

21 Handling 75 DRU 292/293 E3 B9 ”Printer Output”,”Selection of Printer”,”DRU 292P/293P”(F4 ® F7 ® F1) DRU 292 = DIN A4 matrix printer DRU 293 = DIN A3 matrix printer Near Letter Quality (NLQ) can be switched on and off with <F5>. DRU 120 E3 B9 ”Printer Output”,”Selection of Printer”,”DRU 120P...

Page 98 - The individual IL blocks are not printed under PRO

21 Handling 76 Near Letter Quality E3 B9 ”Printer output”,”Selection of Printer”,”Near Letter Quality”(F4 ® F7 ® F5) The near letter quality mode can be switched on for the matrix printers. Theprinter output is somewhat slower then. Note The individual IL blocks are not printed under PRO ® U130. The...

Page 99 - Display the Bill of Material on the Screen

21 Handling 77 5.7 Display the Bill of Material on the Screen E1 B1 This function gives you a quick summary of the scope and price of a plannedoutstation. In order to compute the prices, the price per item for the individualcomponents must have been entered in the menu “edit library”. You can workwi...

Page 101 - Chapter 6; The individual IL blocks and the macros used to create them are

21 IL-Blocks and Macros 79 Chapter 6 IL-Blocks and Macros The individual IL blocks and the macros used to create them are described in this chapter.

Page 102 - Summary; U130 in accordance with the rules of

21 IL-Blocks and Macros 80 6.1 Summary Warning User-dependent PC* functions can be included in anIL created with PRO ® U130 in accordance with the rules of Dolog AKF ® A030/A130. If the blocks generated by PRO ® U130 are changed, no guar- antee can be made that these changed blocks will function cor...

Page 103 - List of the IL Blocks

21 IL-Blocks and Macros 81 6.1.1 List of the IL Blocks IL block Meaning OB1 Block organization PB1 SU multiplexer and organization PB2 Pre-definitions and module check PB3 Call counted measurand processing PB4 Call monitored information processing PB5 8-bit measurand processing PB6 10-bit measurand ...

Page 104 - List of the Markers Used

21 IL-Blocks and Macros 82 6.1.2 List of the Markers Used Marker Explanation M1* is always set to 0 M2* is always set to 1 M3* 1 = SU1 was reloaded M4* 1 = real-time information is present M5* 1 = command executing M6* set timer for malposition M7* reset timer for malposition M8* output timer malpos...

Page 106 - List of the Macro Files

21 IL-Blocks and Macros 84 6.1.3 List of the Macro Files Macro file Meaning ANSW.MAC Process analog setpoint values BEF1.MAC 1-of-n command check BEF2.MAC Output pulse command BEF3.MAC Reset pulse command BEF4.MAC Output 2-pole command BEF5.MAC Check if 2-pole command will be cancelled BEF6.MAC Bloc...

Page 107 - The Organization Block; cally by PRO

21 IL-Blocks and Macros 85 6.2 The Organization Block Note The end-of-block instruction BE is always appended automati- cally by PRO ® U130 after the last network. *** are the network deli- miters. 01 : U SM6 02 : BCC PB16 Call: Set MB1 to 255 (FFH) 03 : BC PB2 Call: Module check 04 : BC PB1 Call: S...

Page 108 - The Program Blocks; Program Block PB1

21 IL-Blocks and Macros 86 6.3 The Program Blocks Note The end-of-block instruction BE is automatically appended by PRO ® U130 after the last network. *** are the network delimiters. 6.3.1 Program Block PB1 01 : BC PB3 Call: measurand processing : *** 02 : BC PB23 Call: 16-bit measurand processing :...

Page 110 - Program Block PB2

21 IL-Blocks and Macros 88 6.3.2 Program Block PB2 01 : LD V0 Always set marker 1 to 0 02 : = M1 03 : LD V1 Always set marker 2 to 1 04 : = M2 : *** 05 : LBB M737 Load LOW part into 1st SU word 06 : A K192 Delete 6 least significant bits 07 : TBB M737 : *** 08 : LD V1 1 for 1st I/O module location i...

Page 111 - Lines 1 to 7, 20 and 21 are directly generated by PRO; Program Block PB3; Call: counted measurand processing

21 IL-Blocks and Macros 89 Macro File VERW.MAC * Organization information Module failureL Kx;= MB2;U SMx.1;BAB FB11;MB2;*; Lines 1 to 7, 20 and 21 are directly generated by PRO ® U130. Lines 8 to 19 were generated using the macro file. The macro is copied once foreach module location assigned. The v...

Page 112 - Program Block PB4

21 IL-Blocks and Macros 90 Macro File ZAEHL.MAC * Counted measurandsBA FB3;Ex.y;Mv;MWz;*; The macro file is copied to correspond to the number of counted measurands.x.y are then replaced with the connection address. Variable v is replaced withthe contents of the edge detection counter and the counte...

Page 113 - U130 recognizes that the

21 IL-Blocks and Macros 91 Macro File MELD.MAC * 16 MELDUNGENLBW Ex.y;TBW MB56;LBW Ex.y;TBW MB58;BA FB4;MBlh;MBhl;MWz;*; Monitored information is always assigned byte-by-byte. However, since the DEZ160 can only read monitored information input in groups of 16 and not singly, theinputs are always loa...

Page 114 - Program Block PB5

21 IL-Blocks and Macros 92 6.3.5 Program Block PB5 01 : BA FB5 Call: 8-bit measurand processing 02 NAME: MESS803 INL: IWA1.1 Pass 1st measurand input as LOW byte 04 INH: IWA1.2 Pass 2nd measurand input as HIGH byte 05 INKE: M1 Pass the value 0 06 MWSU: MW1 Pass SU address : *** 07 : BA FB5 08 NAME: ...

Page 115 - Program Block PB6; Pass SU address

21 IL-Blocks and Macros 93 6.3.6 Program Block PB6 01 : BA FB19 Call: limit measurand to + 1000 02 NAME: MESSW_1603 MESS: IWA1.1 Pass 1st measurand input04 MWSU: MW1 Pass SU address : *** 05 : BA FB19 06 NAME: MESSW_1607 MESS: IWA1.208 MWSU: MW2 : ***: BE Macro File MW16.MAC * 16-bit measurandsBA FB...

Page 116 - Program Block PB7

21 IL-Blocks and Macros 94 6.3.7 Program Block PB7 01 : A M 0.735 Acknowledgement bit SD: 1 = new SD 02 : BCC PB 10 Call: SD processing : *** 03 : A M90 1 = cancelled command executing 04 : BCC PB19 Call: cancellation check : *** 05 : A M 0.94 1 = return information arrived 06 : TS T 0.19 07 : LD K ...

Page 118 - Program Block PB8

21 IL-Blocks and Macros 96 Lines 1 to 4 are directly generated by PRO ® U130. The macro VERKL.MAC is read in for lines 5 to 10. Variable t is replaced with the cancel link time. Macros T_BEFAUS.MAC, BEF7.MAC and BEF6.MAC are read in for lines 11 to27. Lines 28 and 29 are again directly generated by ...

Page 120 - Program Block PB11; Reset command output marker

21 IL-Blocks and Macros 98 6.3.11 Program Block PB11 01 : LD V 0 Reset command output marker 02 : = M 0.5 03 : LD V 0 04 : = M 0.90 05 : LD V 0 06 : = M 0.91 07 : LD V 0 08 : = M 0.94 09 : LD V 0 Reset the 10 : = MW 0.167 error counter for 1-of-n : *** 11 : LD V 0 Reset SD buffer 12 : = MW 0.81 Comm...

Page 121 - Program Block PB12

21 IL-Blocks and Macros 99 Macro File BEF3.MAC * Reset SD bufferL K0;= MWs;*; Lines 1 to 10 are read from the macro file BEF9.MAC. The macro BEF3.MAC iscopied once for each 16 commands. Variable s is replaced with the contents ofthe SD buffer counter and the counter is incremented by 1. 6.3.12 Progr...

Page 124 - commands with 8 group contacts

21 IL-Blocks and Macros 102 If the value of the marker word MW167 is equal to 0 after the function blockFB10 has been processed, this means that no command is entered in thepassed SD word. The function block FB10 actually only carries out a 1-of-16 check. The individualbits 2 0 to 2 15 are checked s...

Page 126 - -pole commands with 8

21 IL-Blocks and Macros 104 Macro File BEF11.MAC * 2-pole command outputL MWs;TBWMB4;L K0;= MBlh;LBWMB4;= MW161;L Kt;= MW165;BA FB10;MW161;MW167;MW165;L MW167;GR K1;BABPBbl;L MW167;G K1;= M5;L MW161;UGL K0;O M90;= M90;*; Commands with different command output times or processing types can becontaine...

Page 127 - Program Block PB13; Output 1-pole commands; Load word from SD buffer

21 IL-Blocks and Macros 105 6.3.13 Program Block PB13 The commands are output to the module outputs in program block PB13. De-pending on the command type selected, it is generated using the macro filesBEF2.MAC, BEF4.MAC or BEF8.MAC. All command words from the SD buffer are output to the correspondin...

Page 128 - Output 1

21 IL-Blocks and Macros 106 Output 1 1 / 2 -pole commands 01 : LD MW 0.81 Load word from SD buffer 02 : TBW MB 4 Assign to MB4 and MB5 03 : LD MB 4 Load the LOW byte and 04 : TBW Q1.9 output to outputs 9 - 16 05 : LD MB4 If the output byte is greater 06 : GT V0 than 0, 07 : = Q1.1 set corresponding ...

Page 129 - Output 2-pole commands

21 IL-Blocks and Macros 107 For 1 1 / 2 -pole commands, output to the individual networks is bytewise since 8 commands are always assigned to a common group contact. Therefore the SDbuffer word is assigned to two bytes. Variable lh is replaced alternately with 4 or5 per network so that the LOW byte ...

Page 131 - Program Block PB14

21 IL-Blocks and Macros 109 6.3.14 Program Block PB14 01 : LD V 0 Reset marker for malposition timer 02 : = M 0.6 start 03 : LD V 0 Reset marker for malposition timer 04 : = M 0.7 stop : *** 05 : LBW E 3.17 Load inputs 17 - 32 from DAP 112 06 : TBW MB 0.56 Assign to MB56 and MB57 07 : LD V 0 Load do...

Page 132 - Macro File DOPPEL.MAC

21 IL-Blocks and Macros 110 32 : LD MB 0.7 33 : EQ V 0 34 : O M 0.8 35 : BCC FB 9 36 NAME: DM-UMSP37 IN: MB 0.57 Transfer double-point information 38 INKE: M 0.2 M2 means: DM in HIGH part of SU word 39 MWSU: MW 0.1 SU buffer word 40 MERK: MB 0.7 : *** 41 : A M 0.6 M6 = 1 starts the timer 42 : TS T 0...

Page 134 - Lines 1 to 4 are directly generated by PRO

21 IL-Blocks and Macros 112 In order to determine whether a malposition was recognized, a double-point in-formation byte exists parallel to each monitored information byte. This is neces-sary so that the same malposition does not start the timer for the suppressiontime again in the next IL scan. A b...

Page 135 - Program Block PB15

21 IL-Blocks and Macros 113 6.3.15 Program Block PB15 01 : LD V 1000 Assign upper limit for marker word MW161 02 : = MW 161 03 : LD V 100 Assign hysterese for marker word MW162 04 : = MW 162 05 : LD V 1 Load value for 1st bit set in marker word 06 : = MW 163 MW163 07 : BC FB 6 Call: limit monitoring...

Page 137 - Program Block PB16; The PB16 is directly generated by PRO; Program Block PB18

21 IL-Blocks and Macros 115 6.3.16 Program Block PB16 01 : LD K 255 02 : = MB 0.1 : ***: BE The PB16 is directly generated by PRO ® U130. It is only executed in the 1st IL scan and sets the enable byte for the DEZ 160 to 255 (FFH). Real-time information is requested from the DEZ 160 by resetting the...

Page 138 - Program Block PB19; Check command for cancellation for 1-pole commands and 1

21 IL-Blocks and Macros 116 6.3.18 Program Block PB19 Check command for cancellation for 1-pole commands and 1 1 / 2- -pole com- mands with 16 group contacts 01 : LBW Q 7.1 Load 16 outputs and 02 : = MW 0.161 assign to MW161 03 : LBW I 7.1 Load 16 inputs and 04 : = MW 0.162 assign to MW162 05 : LD M...

Page 140 - Program Block PB21

21 IL-Blocks and Macros 118 6.3.19 Program Block PB21 01 : BC FB 13 Call: Process the process state of the 03 NAME: EZM-PROZ real-time information 03 IN: IWA 1.1 Transfer monitored information 1 - 16 05 INKE: M 0.1 Code for 16 items of real-time information 04 MWSU: MW1 SU buffer address : *** 05 : ...

Page 141 - Program Block PB22

21 IL-Blocks and Macros 119 6.3.20 Program Block PB22 01 : LD V 0 02 : = M 0.9 Set marker M9 to NULL 03 : LD IWA 1.11 Load 1st status word EZM 04 : A V 128 Check if bit 2 7 is set 05 : EQ V 128 06 : = M 0.10 Result in marker M10 07 : LD MB 0.60 Load counter byte for EZM buffer, 08 : LT V 11 and chec...

Page 143 - Macro File ECHTPU.MAC

21 IL-Blocks and Macros 121 Macro File ECHTPU.MAC * Real-time information from the bufferL K 0;= M 0.9;L EWA x.11;U K 128;G K 128;= M 0.10;L MB 0.60;KL K 11;= M 0.11;U M 0.10;U M 0.11;BABFB 14;EWA x.11;EWA x.12;EWA x.13;MB 0.60;M 0.2;L EWA x.14;U K 128;G K 128;U M 0.9;BABFB 14;EWA x.14;EWA x.15;EWA ...

Page 144 - in the

21 IL-Blocks and Macros 122 A 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.12, the corresponding exact timein the EWA x.13 and the status word in EWA x.11. The second EZM lies in EWAx.15, the exact time in EWA x.16 and the s...

Page 146 - Macro File DAUERBEF.MAC; BC; Macro File DAUERBE2.MAC; -pole persistent command is still present

21 IL-Blocks and Macros 124 Macro File DAUERBEF.MAC * Check whether a persistent command should still be outputBA FB16;MWs;Ax.y;*; Variable s is replaced with the contents of the SD buffer counter and the counteris then incremented. Variables x.y are replaced with the calculated connectionaddresses....

Page 147 - The Function Blocks; Function Block FB1; The two most significant bits

21 IL-Blocks and Macros 125 6.4 The Function Blocks The function blocks are all in the macro file FBS.MAC. They contain no variableswhich must be replaced by the generator. All the function blocks are written to the file USTx.AWL, whether or not they arerequired. This does not cause an unnecessarily...

Page 150 - Function Block FB2; The two most significant bits in

21 IL-Blocks and Macros 128 6.4.2 Function Block FB2 NAME: SUECHT : ***: LD V 1 The two most significant bits in : = M 0.751 the 1st SU word (organization information) : LD V 0 are set to 01 : = M 0.752 : LD MW 0.121 The real-time buffer time of : TBW M 0.753 marker words MW121 to MW160 is : LD MW 0...

Page 152 - Function Block FB3

21 IL-Blocks and Macros 130 : = CAW 0.13 : LD MW 0.158 : = CAW 0.14 : LD MW 0.159 : = CAW 0.15 : LD MW 0.160 : = CAW 0.16 : *** All markers are normed since the real-time : LD V 0 SU was the last one to be reloaded : = M 0.3 Marker SU1 reloaded : LD V 0 : = M 0.4 Marker EZM exists : LD V 0 : = M 0.9...

Page 154 - Function Block FB6

21 IL-Blocks and Macros 132 ZWEI: 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 Check sign : JF =OK2 : LD V 0 If measurand negative, it is set to NULL : TBW M 0.9 OK2: LBB M 0.11 Load 8-bit measurand starting with 3rd bit : = MB ...

Page 155 - Function Block FB7

21 IL-Blocks and Macros 133 : A =BIT limit exceeded : = =MELD : JF =ENDE Jump to end of block U-GR: LD =EINEQ Monitor lower limit: : LE =GREN Compare measurand with limit : JF =LAB2 MW > GRW, jump to hysterese check : LD =MELD Limit reached, load monitored information word : O =BIT and set monito...

Page 158 - Function Block FB8; Check 1st double-point information

21 IL-Blocks and Macros 136 6.4.8 Function Block FB8 NAME: DOPPELM BEZ: IN (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB L BEZ: DMNR (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB R BEZ: DMMB (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB R : ***: LD =IN Load 8 double-point information inputs : TBB M 0.10 and copy to the bit...

Page 160 - Check 4th double-point information

21 IL-Blocks and Macros 138 : EQ V 4 : JT =ME4 : LD V 1 : = M 0.6 : LD =DMNR : O V 4 : = =DMNR : LD MB 0.54 : = MB 0.55 :JI =ENDE ME33: LD =DMNR : A V 4 : EQ V 4 : JF =ME4 : LD =DMNR : A V 251 : = =DMNR : LD MB 0.54 : EQ MB 0.55 : JF =ME4 : LD V 1 : = M 0.7 : LD V 0 : = MB 0.55 ME4: LD =DMMB Check 4...

Page 161 - Each group of double-point information with 8 inputs has its

21 IL-Blocks and Macros 139 : JI =ENDE ME44: LD =DMNR : V V 8 : EQ V 8 : JF =ENDE : LD =DMNR : A V 247 : = =DMNR : LD MB 0.54 : EQ MB 0.55 : JF =ENDE : LD V 1 : = M 0.7 : LD V 0 : = MB 0.55 ENDE: *** : BE Note Each group of double-point information with 8 inputs has its own DMNR in which the first 4...

Page 163 - Function Block FB11

21 IL-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 V 2: = MW 0.166 : LD =INPU Compare transferred command word with MW166 : A MW 0.166 using logical AND : EQ V 0 If they do not agree, jump to : JT =LAB1 l...

Page 164 - Function Block FB12; Two most significant bits in

21 IL-Blocks and Macros 142 6.4.12 Function Block FB12 NAME: SU2NORM : ***: LD K 0 Two most significant bits in : = M 0.751 1st SU word (organization information) : LD K 1 are set to 10. : = M 0.752 : LD MW 0.41 SU2 buffer of marker words : TBW M 0.753 MW41 to MW80 is copied to SU store : LD MW 0.42...

Page 166 - Function Block FB13

21 IL-Blocks and Macros 144 : = CAW 0.13 : LD MW 0.78 : = CAW 0.14 : LD MW 0.79 : = CAW 0.15 : LD MW 0.80 : = CAW 0.16 : ***: LD V 1 Set marker for SU2 reloaded : = M 0.95 : LD V 0 Reset SU acknowledgement bit : = M 0.736 : ***: BE 6.4.13 Function Block FB13 NAME: EZM-PROZ BEZ: IN (I/Q/M/MB/MW/SM/SM...

Page 167 - Function Block FB14; Set marker M9 to contents of MERK

21 IL-Blocks and Macros 145 6.4.14 Function Block FB14 NAME: EZM-PU BEZ: IN1 (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MW L BEZ: IN2 (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MW L BEZ: IN3 (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MW L BEZ: ZBYT (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MB R BEZ: MERK (I/Q/M/MB/MW/SM/SMB/SMW/T...

Page 170 - Increment buffer pointer

21 IL-Blocks and Macros 148 : 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 =IN3 : = MW 0.150 : LD V 0 : = MW 0.151 Set end code LA10: *** : LD =ZBYT : EQ V 10 : JF =LA11 : LD =IN1 Pointer = 10, assign real-time inf...

Page 173 - Function Block FB19

21 IL-Blocks and Macros 151 6.4.19 Function Block FB19 NAME: MESSW_16 BEZ: MESS (I/Q/M/MB/MW/SM/SMB/SMW/T/X) (L/R) MW L BEZ: MWSU (I/Q/M/MB/MW/SM/SMB/SMW/T/C) (L/R) MW R : ***: LD =MESS Assign transferred measurand to : = MW 0.164 marker word MW164. : LD =MESS : GT V 1000 Check if measurand is great...

Page 178 - U130 main program when you leave the DEZ parametrization. There-

21 General Information 156 You can start the DEZ160 parametrization software directly from the operatingsystem level (call: C:\PRO-U130\DEZ160P) or call it from PRO ® U130. Note when calling from PRO ® U130: The data are automatically saved on the hard disk and transferred to thePRO ® U130 main prog...

Page 180 - Main Menu; You can call the following functions from the main menu:; General Parameters

21 Handling 158 2.1 Main Menu E5 B2 You can call the following functions from the main menu: <F1> Data Input <F2> Data Archive <F3> EPROM Menu <F4> Printer Output <F8> Switch Monochrome/color 2.2 Data Input E6 B6 General Parameters E7 B7 ”Data Input”,”General Parameters...

Page 182 - counted measurands; Invertation of Input

21 Handling 160 Setting 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 data typescan be assigned to the groups selected with <Home> or <End>. These are: counted measurands real-time information single ...

Page 184 - Selection is with the cursor keys.; Data Archiving; U130, the “Data Archive” function is not provided in; Read file

21 Handling 162 You can also form summed counted measurands by allocating the same countedmeasurand register to several pulse inputs. Theoretically you can allocate 32pulse inputs to 14 counted measurand registers in this way. Counted measurand registers can only be allocated to inputs which were de...

Page 185 - The station MUSTER contains two DEZ 160 at I/O slots 1 and 2.; Erase file

21 Handling 163 Write file ”Data Archive”,”Write File”( F2 ® F2 ) The DEZ parameters are stored on the defined drive in “intel-hex” format. Thesystem name entered in the menu “General Parameters” is used as file name.The module address is appended as extension to distinguish the differentDEZ 160 of ...

Page 186 - You can check whether an EPROM is empty with this function.

21 Handling 164 2.4 EPROM - Menu E6 B8 Only the EPROM programming station EPS 2000 can be addressed with thismenu. It is linked with the serial interface COM1. The EPROM used is a 27C256. Read EPROM ”EPROM Menu”,”Read Eprom”( F3 ® F1 ) EPROM reads the parameters, which can be displayed in the indivi...

Page 187 - Start Printer; The list with the DEZ parameters is printed.; Printer selection; The printers must be set to IBM graphic character set 2.; If you want to use a printer with serial interface neverthe-

21 Handling 165 2.4.1 Printer Output E6 B9 Start Printer ”Printer Output”,”Start Printer”( F4 ® F1 ) The list with the DEZ parameters is printed. Printer selection ”Printer Output”,”Selection of Printer”( F4 ® F2 ) The printers DRU 096, DRU 120, DRU 292, DRU 293 or DRU 1200 can be se-lected. Near le...

Page 189 - Structure of Transmission Port

21 Structure of Transmission Port 167 Chapter 3 Structure of Transmission Port

Page 195 - General Instructions

21 General Instructions 173 Chapter 1 General Instructions

Page 201 - Configure Parameter List; Common Parameters; If a; EPROM was read in before the “process parameter list” call or the

21 Handling 179 2.2 Configure Parameter List E6 B1 A menu from which you can branch to the particular submenues appears. 2.2.1 Common Parameters E7 B1 ”Configure Parameter Lists”,”Common parameters”(F1 ® F1) The current date is displayed if this outstation is being processed for the firsttime. The d...

Page 202 - SEAB Parameters; If a telephone connection is used, you must set the wait time; If an outstation U130 is driven on a line mixed with U120 out-

21 Handling 180 2.2.2 SEAB Parameters E7 B2 ”Configure Parameter Lists”,”SEAB Parameters”( F1 ® F2 ) First the baud rate is interrogated. The default value is 600 Bd. A different baudrate can be selected by toggling with <Cr>. The subsequent times are entered in tbit. Values between 1 and 255 ...

Page 203 - KOS Parameters for SEAB-1F; Bit

21 Handling 181 2.2.3 KOS Parameters for SEAB-1F E7 B3 ”Configure Parameter Lists”,”KOS Parameters”( F1 ® F3 ) The KOS parameters are only required for operations with SEAB-1F. Thereforethis menu cannot be called if SEAB-1N is selected. The deviation time integral (AZI) for 8-bit measurands (default...

Page 204 - Assignment Lists for SEAB-1F; You can select the data word in the table you want to define with <; Data for Monitoring Direction; The data type can be changed with <

21 Handling 182 You can set whether SEAB-1F telegrams should be transferred with 4 databytes. Some master stations (A350, GD 80-STAZ) cannot process these tele-grams, however. In this case set “no”. This means that no telegrams can betransferred from the ring buffer (e.g. real-time information). Fur...

Page 206 - The following data types are processed:; Set Value Input

21 Handling 184 Data for Control Direction E8 B2 ”Configure Paramter Lists”,”Assignment lists”,”Data for Control Direc-tion”( F1 ® F4 ® F2 ) The data type and group number are selected and entered in the same manneras for the data for the monitoring direction. The following data types are processed:...

Page 208 - The following are defined as events:; Ring buffer entries can only be made if the KOS is equipped

21 Handling 186 Ring Buffer Handling E8 B5 ”Configure Parameter Lists”,”Assignment List”,”Ring Buffer Handling”( F1 ® F4 ® F5 ) If you defined that data should be written to the ring buffer in the menu for themonitoring direction, you can define when the entry is to be made in this menu.Default is t...

Page 209 - In order to be able to transfer real-time information with a time

21 Handling 187 Real-time Information E8 B6 ”Comfigure Parameter Lists”,”Assignment Lists”,”Real-time Informa-tion”( F1 ® F4 ® F6 ) Real-time information can be generated for GEADAT-U130 with a DEZ 160. 4D telegram = monitored information + exact time2D telegram = only monitored information The grou...

Page 210 - Logical Message Numbers for SEAB-1N; Monitoring direction = data from A130/U130; If the KOS parametrization is called from PRO; Read

21 Handling 188 2.2.5 Logical Message Numbers for SEAB-1N E7 B5 ”Configure Parameter List”,”Logical message number”( F1 ® F5 ) The logical message number is entered as a decimal number between 256 and9999. There is one logical message number each for the monitoring and thecontrol direction. This is ...

Page 212 - When a parameter list is saved, there is a check whether a; Parameter Lists from KOS

21 Handling 190 Note When a parameter list is saved, there is a check whether a file with the same name already exists. A remark is displayed if this isthe case and you are asked whether the file should be overwritten. The data are stored in ”intel-hex” format. The program enters the current date in...

Page 213 - The serial interface is initialized as follows:; The following lists are printed:

21 Handling 191 The current date is transferred to the parameter RAM of the KOS when the dataare transported. Thus you can always find out when data were last transferred tothe KOS-RAM. A remark on the screen shows whether the data transfer is running or whether ithas been terminated. A message appe...

Page 215 - The range from 0000H to 7FFFH is read in.

21 Handling 193 2.6 EPROM - Menu E6 B5 Only the EPROM programming station EPS 2000 can be addressed with thismenu. It is linked with the serial interface COM1. The EPROM used is a 27C256.The firmware EPROM is a component of the KOS 130/131 module. Reading Parameter Lists ”EPROM Menu”,”Reading Parame...

Page 216 - The range from 0000H to 7FFFH is described.; EPROM blank check; You have several possibilities for EPROM creation:; Create new EPROM

21 Handling 194 Program EPROM ”EPROM Menu”,”Program EPROM”( F5 0 ® F4 ) The range from 0000H to 7FFFH is described. EPROM blank check ”EPROM Menu”,”EPROM blank check”( F5 ® F5 ) The “EPROM blank check” function can be used to check whether the EPROMto be programmed is empty. There is a check whether...

Page 217 - If you do not have ring buffer processing, you can also insert

21 Handling 195 Program parameter lists Read in a parameter list from diskette, KOS or EPROM or create a new parame-ter list and then program on an EPROM already containing the KOS firmwarewith the call <F2>. Change EPROM Read in data with the call <F3>, change it with the menu ”process ...

Page 218 - Reset PUTE Memory; Quit LT

21 Handling 196 2.7 Reset PUTE Memory E5 B1 After the “reset memory in P500” call, you are again asked whether you are surethat this function should be carried out. If yes, all the data are deleted and thedefault parameters are set. Default parameters: SEAB version: SEAB-1F outstation number: 0 Baud...

Page 219 - Part IV

Page 221 - Index

21 Index 199 Index A Archiving: Part I 60 Arrow keys: Part I 10 Autosave: Part I 40 B Bill of materials: Part I 77 C Cancel link time: Part I 31, 44 Cancel supervise time: Part I 31, 44 Cursor keys: Part I 10 D Data Archive: Part II 162; Part III 188 Data archive: Part I 60--61 Read data: Part I 60 ...

Page 225 - Addresses

Page 226 - Technical Offices and Sales Points

04 Addresses 204 Technical Offices and Sales Points of AEG in the Federal Republic of Germany Aachen Grüner Weg 22/24 W-5100 Aachen Tel. (02 41) 1 08-0 Fax (02 41) 1 08-1 05 Augsburg-Lechhausen Raiffeisenstraße 13 W-8900 Augsburg-Lechhausen Tel. (08 21) 79 03-130 Fax (08 21) 79 03-1 45 Bayreuth Oper...

Page 228 - Subsidiaries, Representatives and MODICON Distributors

04 Addresses 206 Subsidiaries, Representatives and MODICON Distributors of AEG in Europe Albania Pauwels Contracting N.V. Antwerpse Steenweg 167-169 B-2800 Mechelen Austria AEG Austria GmbH, Dept. TKM Brünner Straße 52 A-1210 Vienna Tel. (0043 1) 2 77 11-65 04 Fax (0043 1) 2 77 11-65 06 Roßmähder 1 ...

Page 231 - Publications Comment Form; know and mail this form to us.; From; Phone

23 209 Publications Comment Form We are constantly striving to improve the contents and usability of our techni- cal documents. If you have any suggestions for improvement, please let us know and mail this form to us. Name: E-No. 424-Version: GSW-/Firmware-Version: Automation Device: Progr. Device (...

Page 232 - Thank you for your help.

23 210 Suggestions for improvement Software-Product: Product Documentation: Thank you for your help.