PRO ® UZ120 User Manual A91M.12-704
Contents
1. Set Point Value Figure 8 Displav 00 3 3 Directory Structure The subdirectory PRO UZ12 is set up in the directory PRO FWT during installa tion The subdirectory contain the PRO UZ120 EXE files and the program SETFARBE EXE with which you can change the colors of PRO UZ120 The files with color settings printer driver and system information are stored there too The subdirectory PRO FWT PRO UZ12 contain one more subdiectory TEXTE with the text files the library the AKF set up files and the KOS firmware files The files set up by PRO UZ120 are stored as follows Cc TEST PRO FW Z001 000 HW m Z001 000 TOP m Z001 000 EST m Z001 000 AWL m Z001 001 KOS m Z001 002 KOS r Z001 001 KOM 2001 002 KOM EXAMPLE PRO FW Z999 000 HW Explanations about Zxxx yyy HW etc xxx Master station no 001 127 yyy Line number 001 999 The number 000 is used for files which contain the data for the whole master station and which are not assigned to a certain line 00 Overview How To Work 41 42 Overview How To Work 00 Chapter 4 Configuration Configuration 43 4 1 Definition of the Interfaces The submaster is interfaced to the master stations and outstations using KOS 202 It is the link between ALU 200 201 and the serial bus SEAB 1F Up to 15 KOS modules can be used depending on the configuration Master station Auxiliary statio2. UZ120 V3 0 28 With regard to PRO UZ120 V 4 0 28 Table of Contents xvii Chapter 2 2 1 2 2 2 3 2 4 2 5 Chapter 3 3 1 3 2 3 3 Chapter 4 4 1 4 1 1 4 1 2 4 1 3 4 2 4 3 4 4 4 5 4 6 4 7 Chapter 5 5 1 5 1 1 5 1 2 5 1 3 5 2 5 2 1 5 2 2 5 2 3 5 2 4 5 2 5 5 2 6 5 3 5 4 5 5 5 6 5 7 Overview And General Information 29 Summary of Features 0 0 30 Rough structure ii aaa de ew ean 31 Keyboard operation 0 cee ee eee eee 32 Mouse operation coccion eens 34 General information 0 000 35 Overview How To Work 00c nennen nenn 37 Fow Ghan rast ern 38 Tree Structure of the Menues 2 0000 39 Directory Structure 0 cece eee 41 Configuration ococccococcnnnncn eens 43 Definition of the Interfaces ooooooooooo 44 QuiputiByte nn ae ee ben 45 Input Byt 2 25 Ai ea 45 Interface for Internal Input Output 47 Definition of the Types of Linkage 49 Configuration Limits 00 e eee eee eee 49 Special Features 000s eee eee eee eee 50 Organization Signals 0 eee eee eee eee 51 Organization Instructions 2222 00000 52 Messages for Master APS Operation 53 H ndling ocio a a eae aes 55 General Information 0 c eee eee eee eee 56 The Line Editor voor ee 57 Starting PRO UZ120 E1
3. new message signals 0O 3 signals 1 4 signals 2 5 lt new message Caution The old data model can only be kept if there are exten sions If messages were removed from the lists a new data model must be generated Handling 00 5 2 6 Edit Library E3 B8 gt Data input Library Library change F1 gt F8 All existing library files are listed in alphabetical order in a window The arrow marking the selected library can be shifted with lt f gt and lt gt The lines are scrolled at the start and end of the window if more library files exist than can be displayed in the window When installing PRO UZ120 a library PRO UZ120 BIB is provided which contains all the necessary hardware and software components for the UZ120 The individual components are listed together with their names and part num bers The individual libraries contain 120 positions which are divided into 3 categories Positions 1 11 are the subracks and the modules whose number is de fined by the configuration see Chap Part Ill 5 2 4 Only the price per unit can be edited here in the last column Positions 12 98 are hardware and software components for which you can define whether and how often they should be included in the bill of materials This is done by entering the required number in the first column Positions 99 120 are at your free disposition You can enter for example special modules or the costs for installation and con
4. 26 and 50 hours gt Note When synchronizing with DCF 77E it is possible that the in ternal clock can no longer be synchronized with a power reserve of 26 hours if the DCF signal failed for longer than 10 hours The syn chronization is only possible after expiration of 26 hours It is not pos sible to select 50 hours of power reserve for DCF 77E 20 Operating 113 Suppress transfer of internal errors This is only interrogated for a master KOS Since usually only the first 4 bits in error byte 1 are of interest in internal KOS errors the transfer of the remaining 4 bits and of error byte 2 can be suppressed i e errors defined in the 5th to 8th bits or in error byte 2 are not transferred to the IL and therefore not to the slave KOS Definition of error byte 1 ist bit start of master station disturbance 2nd bit end of master station disturbance 3rd bit start of serial bus busy 4th bit end of serial bus busy 5th bit receiving buffer overflow data loss 6th bit error longitudinal parity 7th bit error vertical parity 8th bit waiting period for answer from outstation exceeded Definition of error byte 2 ist bit missing acknowledgement of long message from outstation 2nd bit station number wrong 3rd bit M5 error M5 disappears prematurely 4th bit M5 error M5 waiting too long 5th bit no answer from outstation 6th bit receipt interrupt missing no message received 7th bit undefined 8th bit undefined
5. D2 D3 D4 byte I O module F bvte GP SP KOS LM NLQ PV Number UST UZ xii ALU 200 201 Address byte in Modnet 1F Subaddress byte in Modnet 1F Automatic Polling Service Instruction list Subrack 1st 4th data byte in Modnet 1F Input output module Function byte in Modnet 1F General polling Short polling KOS 202 Long message Near Letter Quality Process variable number Outstation Submaster 00 Objectives This description is intended for configurers of Geadat UZ120 master stations The configurer is then able to 00000 install the programming device install the software configure with the software document the configuration pass the parameters obtained transfer the generated IL to the controller and start it Arrangement of This Guide Part I Part Il Part Ill Part IV Part V Part VI Part VII 00 Check list how to proceed in order to start operations with a master station Description of the main menu PRO FWT This part describes how to configure the Geadat UZ120 master station with PRO UZ120 This part describes how to parameterize the KOS 202 with PRO UZ120 File Structures contains the index contains the user comments and the list of addresses xiii Relevant documentation Geadat U120 User Manual Dolog AKF A120 User Manual Dolog AKF A120 A250 User Manual Validity This description is valid for the Software PRO U
6. You can delete all libraries except the default library You select the library files you want to delete from a window where all library files are listed in 76 Handling 00 5 3 Data Archive El B1 Read data E2 B2 Data archive Read data F2 gt F1 All the systems processed so far are listed in alphabetical order in a window The arrow marking the selected system can be shifted with lt f gt and lt gt The lines are scrolled at the start and end of the window if more systems exist than can be displayed in the window The selection is confirmed with lt Cr gt and the previously processed outstations of this system are then listed The outstations are selected according to the same principle as described above If an outstation selection was confirmed with lt Cr gt it is loaded into user memory The windows can always be left with lt Esc gt or lt F9 gt without a new station being loaded Save data E2 B2 Data archive Save data F2 gt F2 A station is saved on the drive currently set First a subindex is opened containing the name of the system if it does not yet exist All previously generated files are then saved in this subindex see also Chap 3 3 Several stations can be saved on one diskette 00 Handling 77 Erase data E2 B2 aw Nan PI o Data archive Erase data F2 gt F3 As for read data all the previously processed systems and then all outstations a
7. simply copy the text be tween the lines a A valid driver name must appear after the text string CURRENT PRINTER a A 1 or 0 must appear after the text string NLQ O AUS 1 EIN o There may be no empty drivers in this file i e all the drivers must be de scribed with name and data o Decimal numbers and text strings in inverted commas can be entered Avoid superfluous blanks but they are permitted in a text string The individual ele ments are separated by commas a Up to 80 elements can be specified for INITIALIZATION CONTROL COMMAND PER PAGE and END PRINT Up to I5 elements for the rest of the parameters a Do not overwrite any colons and makes sure that your input always starts in the 26th column o Any text string with a maximum of 15 characters can be defined for the DRIVERNAME 86 Handling 00 DRIVERNAME DRU 292 293 INITIALISIERUNG STEUERANWEISUNG JE SEITE BREITSCHRIFT EIN 27 87 1 BREITSCHRIFT AUS 27 87 0 UNTERSTREICHEN EIN 27 45 1 UNTERSTREICHEN AUS 27 45 0 NLQ EIN 27 73 51 NLQ AUS 27 73 49 HOCHSCHRIFT EIN 27 83 2 HOCHSCHRIFT AUS 27 84 KOMPRIMIERT EIN 15 KOMPRIMIERT AUS 18 ELITE SCHRIFT 27 58 PICA SCHRIFT 18 ENDE AUSDRUCK PORT DRU CHECK O AUS 1 EIN 1 00 Handling 87 Printer output to file E2 B4 h a Printer output Printer output to file F4 D You are asked for the name of the file for the printer output Drive identifier and path commands can
8. the graphic mode function is active and the text mode function is passive 00 Operating 13 1 2 Expert system PRO The 120 series includes the expert systems o PRO U120 for outstations with Modnet IF o PRO UZ120 for submaster stations with Modnet IF o PRO Z120 for master stations with Modnet 1F a PRO U121 for outstations with Modnet 1W in preparation The 250 series contains the expert systems a PRO U250 for outstations with Modnet 1F in preparation a PRO UZ250 for submaster stations with Modnet 1F in preparation 14 Operating 00 1 3 Dolog AKF The two software products AKF12 and AKF25 are provided for programming the telecontrol stations The 120 series can be programmed with AKF12 The 250 series can be pro grammed with AKF25 Note The Dolog AKF software has large memory requirements If you loaded memory resident programs or operator interfaces the re maining main memory may not be sufficient for Dolog AKF In this ca se the functions Read in ASCII IL and Call cannot be executed Leave PRO FWT and remove the call of these programs from the AUTOEXEC BAT or the CONFIG SYS and make a warm restart lt Ctrl gt lt Alt gt lt Del gt Then start PRO FWT and select Read in ASCII IL or Call again 1 3 1 Read in ASCII With this call the particular AKF reads in a control file generated by PRO Tool AKF12 CMD or AKF25 CMD The AKF station is set up us
9. EPROM in the adaptor see also Figure 3 The long contact strip on the underside of the EPROMs must be adjacent to the marking in the adaptor Schritt6 Close the adaptor The EPROM is now inserted and ready for the tranmission 120 Operating 20 lower side Figure 3 20 upper side Insert EPROM 27C256 SMD in the Adaptor Operating 121 2 4 1 2 Removal of the EPROMs To remove the EPROMs you must take the following steps Warning The EPROM may not be removed as long as the LED on the EPS 2000 is blinking Schritt 1 Schritt 2 Schritt 3 Schritt 4 Schritt 5 Open the adaptor ADP 004 Remove the EPROM from the adaptor Close the adaptor ADP 004 Turn the lever of the Textool socket upwards Remove the adaptor 2 4 2 KOS Firmware and Parameter EPROM The firmware and parameter EPROM are programmed with this menu Only the EPROM programming station EPS 2000 can be used The connection is made with the serial interface COM1 The different firmware versions are supplied on diskette in the form of INTEL HEX files You can decide with which firmware the KOS should be operated The firmware files are stored by an installation routine on the diskette in the subdirec tory PRO FWT PRO Z120 TEXTE 122 Operating 20 Read in parameter lists e EPROM menu Read in parameter lists F3 gt F1 The area where the parameter lists are stored is read in
10. Handling 61 5 2 2 Submaster Configuration E3 B2 4 Daten Input Submaster Configuration F1 gt F2 Order of mounting You can choose the order of the slave and master KOS i e first all the slave and then all the master KOS are equipped or vice versa If the number of the KOS type entered directly next to ALU or DNP is changed the BGT equipment mounting is shifted ALU type You can toggle ALU types ALU 200 and ALU 201 For the setting ALU 201 the power supply module DNP 205 is automatically taken into consideration when the slots are allocated Number of master KOS You can define the number of master KOS here A maximum of 14 master KOS is possible since at least one slave KOS must be entered In automatic equip ment mounting the master KOS is entered directly next to ALU 200 or power supply module DNP 205 in the subrack A master KOS polls the outstations allocated to it in the menu Outstation list monitoring direction Number of slave KOS transparent mode You can define the number of slave KOS with transparent mode here A maxi mum of 14 slave KOS is possible since at least one master KOS must be en tered A slave KOS in transparent mode passes on the messages it receives from IL without changing them i e the address byte and the subaddress byte of a mes sage are not changed A slave KOS in transparent mode can pass on a maxi mum of 7000 messages in monitoring direction The limits of the SEAB 1F log
11. It is variable in length and depends on the number of parameterized messages The read in data is transformed and is displayed in the corresponding menus of Data entry Caution If a parameter EPROM was read in these parameters are not stored with the autosave function when you leave the KOS parameter assignment see chapter 1 Programming parameter lists m EPROM menu Programming parameter lists F3 gt F2 The parameters are stored in EPROM starting with address 0 Read in firmware EPROM u EPROM menu Read in firmware EPROM F3 gt F3 The contents of the firmware EPROM from address 0000H to 7FFFH is read into memory and can be copied afterwards 20 Operating 123 Programming firmware EPROM r EPROM menu Programming firmware EPROM F3 gt F4 You have read a firmware EPROM or a firmware file into the memory The con tents of the memory will now be written to an empty EPROM from address 0000H to 7FFFH Caution Remove the backup battery from the KOS before changing an FW EPROM Read in firmware file gt EPROM menu Read in firmware file F3 gt F5 All installed firmware files are displayed in a selection window You can see a helptext for the firmware version marked with the arrow by pressing lt F gt After the file is read in the part number and the index of this firmware is displayed on the screen The selection is made with lt l gt or lt gt The
12. OS Printer Output a Edit library mals Copy library B6 Delete library Figure 5 Fi Figure 7 Display system configuration F2 Display Display bill of material Figure 8 Display Overview How To Work 39 Level 4 Figure 1 Input Figure 2 Input Figure 3 Input Figure 4 B4 Input B5 Figure 5 Data input Transfer EPROM menu Display conversion list a Bottom Up Configuration Export e F1 F2 F3 Figure 6 Input 40 Overview How To Work F4 Level 5 Level 7 Figure 1 Figure 1 2 SEAB Parameter c Fl Input or APS Parameter KOS Parameter F2 Figure 3 ae Monitoring Dir b Input Set Transfer Bit F3 Figure 2 Figure 4 5 List of parameter Input from KOS List of parameter from KOS peke ed a Only with slave KOS Scan IL d in conversion mode Cycle Time i b only with master Figure 3 J Ko c fan un Bs set to a slave l Head parameter l APS parameter are asked instead Program parameter of SEAB EPROM i parameter Read firmware d Only slot EPROM 1 3 Program firmware e Only slave KOS EPROM re a Bi JESA Read firmware Figure 6 file EPROM Blank Check Display Figure 4 Figure 7 Monitoring Directi El onitoring Direction Display Commands F3
13. Organization signal A1 1 to KOS 1 to 15 M 2 31 Reserved for org signal A1 2 to KOS 1 to 15 M 3 15 Edge recognition for task byte M 5 2 Reset marker for slave KOS failure MB 15 Counter for O scans between org signal A1 0 and A1 1 Counter for failed blocks MB 36 Internal Processing MB 56 Internal Processing Marker words MW 1 MW 2 MW 3 MW 4 MW 5 MW 6 MW 7 MW 8 00 Counter for master KOS Counter for slave KOS Pointer from which master KOS messages are transferred Pointer from which slave KOS messages are transferred System information A1 0 System information A1 1 Temporary marker Temporary marker IL Blocks and Macros 95 Definition of the KOS system marker byte Syntax 1st bit 2nd bit 3rd bit 4th bit 5th bit 6th bit 7th bit 8th bit SMB x i t_ KOS slot KOS at wrong slot SEAB communications disturbed minute pulse missing time invalid KOS not parametrized not defined not defined not defined The system marker SM x 1 node disturbed is set as soon as SMB x 1 is not equal to 0 96 IL Blocks and Macros 00 Part IV KOS 201 Parameter assignment 97 98 00 Chapter 1 Handling Handling 99 1 1 Structure of KOS Menues Different parameter lists are generated and processed for the different KOS modes The mode master transparent slave or conversion slave of the partic ular KOS is transferred with the call of the parametrization program The
14. There are two different modes for transporting process data to the superior mas ter station Transparent mode The data is channeled through the submaster without changing the messages Conversion mode The data from different outstations is converted and passed on to the superior system with a station address These different modes only have an effect on the parametrization of the slave KOS The parametrization of the master KOS and the instruction list in the ALU remain unchanged 43 Configuration Limits O Addressing in the range of a submaster must be unique Each slave KOS is assigned its own station address also in transparent mode i e a maximum of 126 outstations can be configured a In conversion mode a maximum of 256 messages per data type can be con figured in monitoring direction distributed on n outstations In control direction the maximum is 256 setpoint values and 2048 commands These limits al ways refer to a slave KOS O A maximum of 7000 messages can be configured per master KOS in monitor ing direction O The number of communications modules is limited to 15 corresponding to slots 1 15 00 Configuration 49 44 Special Features a A selective data interrogation long message from a submaster to an outsta tion is not possible since the data range in the submaster exceeds the SEAB monitoring times For a slave KOS in conversion mdoe the data can only be requested from its data model with
15. When starting up operations in a system these signals can contain important in formation about the cause of the disturbance if there is an error Therefore it should be possible two pass them to the IL The corresponding EBs x 4 and x 5 can be displayed in Dolog AKF A120 with the online function 114 Operating 20 2 2 4 Data Monitoring Direction E6 B4 z Data input Data monitoring direction F17F3 This is only interroged for a master KOS All the messages in the monitoring direction are listed sorted according to outstation number and subaddress Since PRO UZ120 assigns the A1 byte subaddresses without gaps starting with O when these lists are created you can change the A1 bytes in this menu if required However there is a rule that the A1 bytes should be assigned in increasing order Gaps are permitted correct incorrect 0 signal 0 0 0 signal 1 1 0 signal 32 33 0 signal 33 32 In addition a terminal block for the instruction list is interrogated for each mes sage This block is a 16 bit pointer which points to a KOS slot for each bit The 16th bit is intended to be a pointer to the internal processing customer s IL With this pointer you can determine the slave KOS to which the messages should be passed It is possible to pass a message to several slave KOS Organization signals are not given an individual pointer All the organization sig nals are passed to all the configured slave KOS The selection
16. be entered The file is opened in APPEND mode so that all output is written into the same file This file is only closed when the printer menu is left If you want to newly create a file with the same name you must first delete the old file in the DOS level because otherwise the output is appended to the end of the file Note All the printer control characters are written into this file Output in a file only makes sense for example if you want to process the datapoint list with another editor You can also use parts of the PRO gt UZ120 documentation in other documentation systems Note The individual IL blocks are not printed with PRO UZ120 The IL as generated by PRO gt UZ120 has a special format and contains control characters which are eliminated again when read into Dolog AKF A120 For this reason the IL blocks should be printed in Dolog AKF using the corresponding functions 88 Handling 00 5 6 Display on the Screen El B1 This function gives you a quick overview of the scope and price of a configured submaster In order to determine the prices the prices of the parts of the in divdual components musts have been entered in the menu Edit library You can work with different library files Display system configuration E3 B7 Be Display on the screen Displav system configuration FS FI You can display the system configuration in the form of a diagram on the screen For the master KOS all the conne
17. be selected with the cursor keys 66 Handling 00 The input window for the line numbers can be called with lt F1 gt if it was chan ged Outstation list control direction E4 B2 ps Data input Line Configuration Outstation list control direction FI gt F3 gt F2 The outstation for which a slave KOS should accept commands and setpoints is defined here One screen page is displayed per line Only outstations which were already allocated to a master KOS can be entered An outstation can be allocated to several slave KOS control master auxililary master Operating A configured outstation is marked with an asterisk If several lines are config ured you can page between the individual screen pages with lt PgUp gt and lt PgDn gt Outstations which were not yet allocated to any master KOS are ma rekd with N and cannot be entered An outstation is set or deleted by toggling with RETURN or the key or by click ing with the mouse The individual station numbers can be selected with the cursor keys The input window for the line numbers is called with lt F1 gt if these are to be changed 00 Handling 67 Data monitoring direction E4 B3 eae Data input Line configuration Data monitoring direction F1 F3 F3 Here you can enter which and how many messages come from the individual outstations 256 messages can be processed per outstation and data type A master KOS however can only p
18. line number is needed to distinguish the individual KOS paramter files The allocated slots are marked with an asterisk 00 Handling 65 5 2 3 Line Configuration E3 B3 4 Data Input Line Configuration F1 gt F3 The line configuration comprises four submenues The outstation list must first be entered in monitoring direction and then in control direction The menues In put data and Output data can be processed in any order but output data is only entered in conversion mode for the slave KOS Outstation list monitoring direction E4 B1 es Data input Line configuration Outstation list monitoring direction FI gt F3 gt F1 A maximum of 126 outstations can be driven at one submaster The SEAB 1F permits 127 station addresses but each slave KOS has its own station address and at least one slave KOS must be configured leaving only 126 station ad dresses These 126 possible outstations can be distributed on one or more lines master KOS One screen page is displayed per line Operating A configured outstation is marked with an X If several lines are configured you can page between the individual screen pages with lt PgUp gt and lt PgDn gt Outstations which were already allocated to another line are marked with a B and cannot be entered again An outstation is set or deleted by toggling with RETURN or the X key or by click ing with the mouse The individual station numbers can
19. marked file is read into memory with lt Cr gt lt F9 gt or lt Esc gt aborts the function A Caution If you leave the EPROM menu the firmware file is dele ted from the memory A corresponding note is displayed on the screen when you re trying to leave the menu with lt F9 gt or lt Esc gt Now you can leave the EPROM menu only by pressing lt F9 gt or lt Esc gt again 124 Operating 20 Deletion test aw i gt EPROM menu Deletion test F3 gt F6 You can check whether the EPROM to be programmed is empty with the func tion Deletion test There is a check whether it was correctly plugged in before each access to the EPROM If not the corresponding remark appears on the screen Reading or programming an EPROM is done in steps of 256 bytes The pro cessed area is displayed on the screen Only an area which is empty can be programmed 2 5 Display Conversion Lists E5 B4 This menu is only offered for selection with a slave KOS in conversion mode You can look at the conversion lists which were defined by PRO UZ120 sepa rately for commands setpoint values and data in monitoring direction The messages are listed in sorted order outstation by outstation The address byte data type and subaddress byte in the outstation old is displayed The new converted subaddress byte is displayed in the last column The subaddress byte corresponds to the command number for commands 20 Operating 125
20. menues are structured or provided for selection in correspondence with the mode The structure of the menues can be seen in the following overview Master KOS Data input O SEAB parameters Transfer E KOS parameters EPROM men L Data monitoring direction Slave KOS transparent mode Data input SEAB parameters or APS parameter Transfer KOS parameters EPROM menu Bottom up configuration export Slave KOS conversion mode Data input SEAB parameters or APS parameters Transfer KOS parameters EPROM menu Enter signal prompting Display conversion lists Bottom up configuration export If the AWD 001 was entered as an optional module for a slave KOS the menu APS parameters is provided for processing instead of the menu SEAB param eters 100 Handling 00 1 2 Special Features 1 2 1 Autosave The KOS parameter assignment has no archiving function The parameters are automatically stored when you leave the KOS main menu This autosave always occurs unless a parameter EPROM was read in or parameters were read in on line from a KOS see chapters 1 2 2 and 1 2 3 1 2 2 KOS Parameter List In the Transfer menu the parameters of all the KOS modules of a submaster are read in online After reading the menues are automatically adapted to the mode of the KOS read in i e you can call the parameter assignment for a mas ter KOS and nevertheless read in the parameters of a slave KOS at another
21. must make sure that no old commands and setpoint values are stored in the submaster and output at the end of the interruption On the oth er hand the buffer should not be deleted after every short interruption Therefore a configurable minimum interruption time was introduced i e an interruption must last at least this time interval before the buffer is deleted The time can be defined between 0 and 3600 seconds Entering a O means that there is no dele tion The default value is 10 seconds Suppress signal minute pulse missing The signal start of minute pulse missing is sent with DCF 77E once 10 minutes after the last valid minute pulse Each valid clock signal resets the error count er in the KOS firmware so that at least 10 faulty or missing clock messages in sequence must exist to activate the transfer of the corresponding signal The transfer of this signal can also be suppressed with a software switch Define running reserve in hours If the KOS firmware can no longer synchronize the internal clock because either no valid minute pulse arrived via DCF 77E or no clock telegram arrived from the master station the corresponding message is sent to the master station after a parametrizable time The internal time management is stopped after this time and realtime signals are stored in the ring buffer with the fine time FFFFH Other data types are no longer entered in the ring buffer You can toggle between the settings 1
22. routine with call A INSTAL or B INSTAL de pending on the drive selected and start lt Cr gt Step 3 Now follow the directions given in the installation routine 26 Introduction 00 1 4 New Features 1 4 1 With regard to PRO UZ120 V 2 0 Control File A control file was introducted in Dolog AKF A120 version 5 0 for the call by PRO FWT This version of the software package PRO creates a correspond ing file and thus controls the flow in the call Read in ASCII IL The software package is no longer compatible with older AKF12 versons Clock Management in KOS Firmware The message Minute Pulse Missing can be suppressed with parameters Part IV chapter 2 2 3 The running reserve for time management can be set with parameters to 1 26 and 50 hours Part IV chapter 2 2 3 ALU Battery Status The status of the ALU battery is transferred in the two most significant bits of the organization signal A1 0 00 Introduction 27 1 4 2 With regard to PRO UZ120 V 3 0 Master APS Operation The outstation can be connected with the public telephone network Part IV chapter 2 2 2 FA6 less Operation The FA6 organization signals and commands can be suppressed Part Ill chap ter 5 2 2 1 4 3 With regard to PRO UZ120 V 4 0 a Revision of helptext PRO UZ120 o Revision of firmware 28 Introduction 00 Chapter 2 Overview And General Information Wi Overview And General Information 2
23. slot in order to check them A Caution After such a transfer the parameters are not stored when you leave the KOS parameter assignment since this could possibly destroy the submaster and line configurations There fore you should never enter changes to the individual menues and then read in the parameters of a KOS The changes are not stored 00 Handling 101 1 2 3 Read in Parameter EPROM In the EPROM menu the parameter EPROMs of any KOS modules of a sub master can be read in After reading the menues are automatically adapted to the mode of the KOS EPROMs read A Caution After reading in parameter EPROMs the parameters are not stored when you leave the KOS parameter assignment since this could possibly destroy the submaster and line config urations Therefore you should never enter changes to the indi vidual menues and then read in a parameter EPROM The changes are not stored 102 Handling 00 Chapter 2 Operating Operating 103 2 1 KOS main menu E4 B5 The main menu appears after you call KOS parameterization You can change to the submenus via the function keys lt F1 gt lt F7 gt O lt F1 gt Data input o lt F2 gt Transfer o lt F3 gt EPROM menu O lt F4 gt display conversion lists a lt F7 gt Bottom Up configuration export The conversion lists can only be displayed for a slave KOS in conversion mode 104 Operating 20 2 2 Data entry E5 B1 From this menu you can call the different submen
24. subrack s including the equipment mounting are printed in graphic form The I O module slots are designated with 1 to 18 to correspond with their slot address The subracks are displayed in three rows The bottom row is only intended sym bolically for optional modules and not for I O modules The two upper rows contain the slots which can be addressed by the ALU Ac tually both rows shoudl be displayed sequentially if no bus extension cable is used This was not done so that the printout could be made in DIN A4 format 82 Handling 00 A configured bus extension cable is printed as connection between the 1st and 2nd rows Printout of the submaster configuration E2 B4 o Printer output Configuration of submaster aw p g F4 gt F3 The submaster configuration is printed as a graphic 5 slots are displayed per page For the slots of the master KOS the connected outstations are printed as a branch below the KOS The outstations are combined in one box for continu ous station addresses otherwise one box is printed per outstation If due to poor address allocation the branch is too long to be able to be printed on one DIN A4 page printing extends past the perforation in order to obtain a complete repre sentation Printout of the loading E2 B4 E Printer output Loading F4 gt F5 The configured module as well as its load of the 5V and 24V power supply is printed for each slot 00 Handling 83 Printou
25. the following status signals to the IL AB L A F Al Dl 09 04 01 00 xx xx establishment of connection introduced 09 04 01 01 xx xx connection established to xxxx from Z 09 04 01 11 xx xx connection established to xxxx from UST 09 04 01 FF 00 00 establishment of connection disconnected 09 04 02 01 00 00 line not parametrized 09 04 02 02 00 00 UST not parametrized 09 04 02 03 00 00 no connection established 09 04 02 04 xx xx connection established to another UST 09 04 02 05 oo 00 awn is busy dialling call 09 04 02 06 00 00 UST cannot be reached modem error 09 04 02 06 01 00 UST cannot be reached dialling task 09 04 02 06 02 00 UST cannot be reached call by UST 09 04 03 00 00 00 long message sent 09 04 03 01 00 00 message send error LT 09 04 03 01 01 00 message send error polling 09 04 03 02 00 00 message receiving error LT 09 04 03 02 01 00 message receiving error polling XXXX station address 0 65535 0 126 for Modnet 1F AB task byte L message length 54 Configuration u Chapter 5 Handling Configurating parameter assignment and programming with PRO UZ120 is described in this chapter This chapter is a reference manual for the person configuring Its structure corresponds to that of the menues 00 Handling 55 5 The individual menu points are des
26. with PRO Uxx Since the user defines the name of this file and furthermore several files can ex ist this cannot be read in automatically After the function has been called a window providing all the existing files is dis played o Data Input Automatic Polling Edit Telephone Number F1 gt F1 gt F2 The data read in with lt F1 gt can be edited and extended in this menu If no file was provided with PRO Uxx the master KOS parameters can be en tered again completely Password The password comprises max 15 characters letters numbers or special char acters The slash however is not permitted Capital and small letters are distinguished Calling Number The calling number for the outstation and master station has a maximum of 15 digits The area code and calling number are entered one after the other without a gap Dialling You can choose pulse selection or tone selection by toggling 108 Operating 20 Type of Connection You can select one of 6 different types of connection main terminal extension T1 without telephone line extension T2 telephone line with O extension T3 telephone line with O waiting period extension T4 telephone line with grounding extension T5 telephone line with grounding waiting period 000000 Extension T1 is only possible if the master station and outstations are connected to the same extension network For extensions T3 and
27. 05 x 12 30 010 x 17 00 010 x X 00 00 010 A connection should be established to UST No 5 Mondays and Fridays at 12 30 A connection should be established to UST No 10 Wednesdays at 12 30 and Fridays at 17 00 On Sundays at 0 00 polling jobs which have not been completed are to be de leted for both stations When leaving the menu the entries are sorted according to UST addr hour minute and day of the week The following checks are also made when leaving the menu a whether data was configured in monitoring direction for the entered UST ad dresses line configuration E3 B3 O whether a telephone number was configured in the telephone number list for the entered UST addresses 110 Operating 20 Operating You can switch to the next column with lt Tab gt and to the previous column with lt Shift Tab gt You can change lines with cursor UP DOWN The days of the week are marked by toggling with RETURN or lt X gt A line can be marked for copying with lt Alt M gt The marked line can be copied as often as needed with lt Alt C gt Mouse Operating The columns and lines are clicked with the mouse cursor The days of the week are marked by clicking the same field twice The copy function is carried out by clicking the fields Alt M and Alt C 20 Operating 111 2 2 3 KOS Parameters E6 B3 a Data input KOS parameters F1 gt F2 Different KOS parameters are interrogate
28. 126 Operating 20 Part V Dateistrukturen 128 20 Chapter 1 File Structures File Structures 129 1 1 Bottom Up File The bottom up file generated in the outstations has the name Uxxx yyy KOM The same file can also be generated for the slave KOS of a substation These are given the names Zxxx yyy KOM XXX outstation or substation number yyy line number The files are stored in the subdirectory of the particular system e g C ANLAGE1 PRO FW U000 001 KOM The file for the bottom up configuration has three parts with the following struc ture struct head File header struct comm Communications data struct pv PV number list Structure of file header struct head char tool 10 Text Name of the tool e g PRO U120 char version 5 DEC Version of the tool e g 02 01 char date 10 DEC Date of last file processing 130 File Structures 05 Structure of Communications File struct char char char char char char char char char char char char char char char char char char char char char char char char char comm mode 1 baud 5 lead 3 ovtr 3 pause 3 rept_kt 3 rept_1t 3 s_r_1t 3 ackno 5 M5led 3 M5tr1 3 with_m5 1 list 1 pv_strt 5 pv_end 5 s_idnt 12 new_strt 3 multi_1 12 multi_2 12 multi_3 12 multi_4 12 multi_5 12 multi_6 12 multi_7 12 multi_8 12 DEC l master DEC baud rate DEC lead time
29. 2 slave DEC trailer time DEC pause time DEC call repetition KT DEC call repetition LT DEC send repetition LT DEC acknowledge long message DEC M5 lead time monitoring DEC M5 trailer time monitoring l without M5 2 APS DEC O with M5 DEC list 1 SEAB 1F DEC start of object number range DEC end of object number range DEC station identifier DEC new inquiry if disturbed outstation after n polling scans DEC multicast DEC multicast DEC multicast DEC multicast DEC multicast DEC multicast DEC multicast DEC multicast command command command command command command command command 1 OANA UW RAUN The parameters s_idnt new_strt multi_n were included in the file structure in preparation for MODNET 1W 05 File Structures 131 Structure of PV Number List struct pv char char char char char pv_attr 2 HEX kpv_cnr 4 HEX a 2 HEX 2 HEX al 2 HEX PV attribute PV counter number A Byte SEAB 1F F Byte SEAB 1F Al Byte SEAB 1F A combination of the A1 and D1 bytes and not just the A1 byte are stored here in commands This pseudo A1 byte always describes 16 commands 0 1 2 command 1 16 command 17 32 command 33 48 etc The structure struct pv is generated for each message and corresponds to one line in the file KOM The length of the file KOM varies because of the variable number of data points The last line co
30. 32 Autosave Part Ill 59 B Bill of material Part Ill 89 Cc Conversion mode Part Ill 49 63 Cursor keys Part Ill 32 D Data archive Part Ill 77 78 Change drive Part Ill 78 Erase file Part Ill 78 Read data Part Ill 77 Save data Part Ill 77 Data entry I O module selection Part Ill 71 Data input Part III 60 76 Data control direction Part Ill 69 Data monitoring direction Part 111 68 Edit library Part Ill 75 Line configuration Part Ill 66 List of outstation control direction Part 111 67 List of outstation monitoring direction Part Ill 66 Project data Part III 60 Submaster configuration Part Ill 62 Subrack select Part Ill 70 20 I I O module selection Part Ill 71 74 IL generation Part Ill 79 81 K KOS Parametrization APS Parameter Part IV 106 Data Input Part IV 105 Data Monitoring Direction Part IV 115 Display Conversion List Part IV 125 KOS Parameter Part IV 112 Main Menue Part IV 104 Set transfer bit Part IV 116 Transfer Part IV 117 Parameterlist to KOS Part IV 117 L Level Figure E1 B1 Part Ill 58 77 79 82 89 91 E2 B1 Part Ill 60 70 71 E2 B2 Part Ill 77 78 E2 B3 Part Ill 77 80 81 E2 BA Part Ill 82 83 84 88 E2 B5 Part Ill 79 E3 B1 Part III 60 E3 B2 Part Ill 62 E3 B3 Part Ill 66 E3 B4 Part Ill 70 E3 B5 Part Ill 71 E3 B7 Part Ill 89 Index 139 E3 B8 Part Ill 75 89 E4 B1 Part Ill 66 73 E4 B2 Part Ill 67 E4 B3 Part Ill 68 E4 BA Part III
31. 69 E4 B5 Part IV 104 E5 Bi Part IV 105 E5 B2 Part IV 117 E5 B4 Part IV 125 E6 B2 Part IV 106 E6 B3 Part IV 112 E6 B4 Part IV 115 E6 B5 Part IV 116 Ex By Part Ill 35 Library Part Ill 75 92 Limits Part Ill 49 Line configuration Part Ill 66 Line No Part Ill 65 M Master APS Part Ill 53 65 Master KOS Part Ill 62 Masterstation number Part Ill 60 O Organisation Signals Part Ill 51 Organization Instructions Part Ill 52 P Printer output Part Ill 82 88 Bill of materials Part Ill 82 140 Index Hardware configuration Part Ill 82 Instruction list Part Ill 88 KOS Data Part III 84 Loading Part Ill 83 Output to file Part Ill 88 Submaster configuration Part Ill 83 Printer selection Part Ill 85 Project data Part III 60 61 Masterstation number Part Ill 60 Operator Part III 60 R Read Parameter Part IV 101 Read Parameter EPROM Part IV 102 S Slave KOS Part Ill 62 63 Special Features Part Ill 50 Submaster configuration Part Ill 62 Subrack select Part Ill 70 System configuration Part Ill 89 T Transfer IL to Dolog AKF A120 Part III 81 Transparent mode Part Ill 49 62 Z ZOOM Part Ill 73 74 20
32. 9 2 1 Summary of Features PRO UZ120 supports the user in the configuration and start up of the Geadat UZ120 master station o The subracks including module assignment are defined automatically by spec ifying the lines to the outstations Master KOS and master stations slave KOS A bill of materials is determined for the configured station An instruction list IL is generated based on the parameters entered Transfer of instruction list to Dolog AKF A120 Transfer of generated parameters to KOS 202 with EPROM or by transfer to KOS RAM System documentation by printing o the bill of materials hardware configuration submaster configuration loading KOS data o 00 0 Archiving on hard disk or diskette of the files entered and generated A bottom up configuration with PRO U120 is possible 30 Overview And General Information 00 2 2 Rough structure Data entry chapter 5 2 Project data Submaster configuration Line configuration Subrack selection Module selection Library Archiving Chap 5 3 Read Data Save Data Erase File Change Drive IL generation and transfer Chap LEERER MERKER Start IL Generation German Start IL Generation English Create PLC Station And Copy ASCII IL Printer output chapter 5 5 Print the bill of materials Print the hardware configuration Print the submaster configuration Prin
33. B1 0 58 AULOSAVE iia A aude rk 59 Data Input E2 B1 3 55 ci pie e l 60 Project data EB BT LLL eee 60 Submaster Configuration E3 B2 62 Line Configuration E3 B3 0 eee eee 66 Selection of Subracks E2 B1 00 eee 70 Selection of Modules E2 B1 00 0 eee 71 Edit Library ES BS ias 75 Data Archive Ed B1 eee eee 77 IL generation and transfer E1 B1 79 Printer Output El B1 2 ee eee 82 Display on the Screen El B1 222222200 89 Bottom Up Configuration Import E1B1 91 xviii Table of Contents 00 Chapter 6 6 1 6 2 6 3 Part IV Chapter 1 1 1 1 2 1 2 1 1 2 2 1 2 3 Chapter 2 2 1 2 2 2 2 1 2 2 2 2 2 3 2 2 4 2 2 5 2 3 2 4 2 4 1 2 4 2 2 5 Part V Chapter 1 1 1 1 2 1 3 00 IL Blocks and Macros occocococccco 93 OVEIVIEW ne aa a a Sheed 94 List of the AKF blocks used o oooooooooo 94 List of the Markers Used under AKF 95 KOS 201 Parameter assignment 97 FHA ia ena a sain acm even eine aca a Hare wee 99 Structure of KOS Menues 00000 eee 100 Special Features 00 c eee eee eee eee 101 RUOSAVO ie boa pels es gee eas 101 KOS Parameter List o ooooooooo 101 Read in Parameter EPROM 5 102 Operating si anne 103 KOS main menu E4 B5 ena 104 Data entry E5 BT wi ii ada red
34. Copyright All rights reserved No part of this document may be reproduced or transmitted in any form or by any means electronic or mechanical including copying pro cessing or any information storage without permission in writing by the AEG Schneider Automation You are not authorized to translate this document into any other language Trademarks All terms used in this user manual to denote AEG Schneider Automation products are trademarks of the AEG Schneider Automation 1995 AEG Schneider Automation x 00 Terminology Note This symbol emphasizes very important facts A Caution This symbol refers to frequently appearing error sources Warning This symbol points to sources of danger that may cause financial and health damages or may have other aggravat ing consequences ey Expert This symbol is used when a more detailed information is given which is intended exclusively for experts special training re quired Skipping this information does not interfere with understand ing the publication and does not restrict standard application of the product es Path This symbol identifies the use of paths in software menus Figures are given in the spelling corresponding to international practice and ap proved by SI Syst me International d Unit s l e a space between the thousands and the usage of a decimal point e g 12 345 67 00 xi Abbreviation Explanation ALU A byte A1 byte APS IL BGT D1
35. PRO UZ120 User Manual A91M 12 704 851 00 0395 PRO UZ120 Type PRO UZ12 Version 4 1 User Instructions DOK 704 852 00 0395 Overview 00 Part Part Il Part Ill Part IV Part V Part VI Part VII Part VIII Part IX General Remarks Table of Contents How to proceed Main Menu PRO gt FWT Configuration Instructions KOS 202 Parameter assignment File Structures Index Appendix 00 Notes Table of Contents viii 00 Notes Application Note A Caution The relevant regulations must be observed for control applications 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 Schneider Automation offers suitable training that provides further informa tion concerning the system see addresses Data Illustrations Alterations Data and illustration are not binding We reserve the right to alter our products in line with our policy of continuous product development If you have any sugges tions for improvements or amendments or have found errors in this publication please notify us by using the form on the last page of this publication Addresses The addresses of our Regional Sales Offices Training Centers Service and En gineering Sales Offices in Europe are given at the end of this publication 00 ix
36. T5 the postal modem does not wait for the dialling tone in the telephone line but continues dialling after a defined waiting period Abort after Short Responses 0 The connection to the outstation is aborted by a message from an instruction list to be implemented by the user 1 255 The master KOS automatically aborts the connection after n short responses from an outstation Delay in call acceptance You can set how long to delay call acceptance Times between O and 30 se conds can be parametrized Operating CURSOR 1 Change line PGUP PGDN Select outstation number if the cursor is in the last line RETURN Complete input line or toggle F9 oder Esc Return to the previous level Ebene Mouse Operation The columns and lines are clicked with the mouse cursor Left mouse key click Right mouse key ESC 20 Operating 109 sad Data Input Automatic Polling Polling Job List F1 F1 F3 In addition to selective establishment of a connection by a corresponding instruc tion list to be created by the user the connection can be established automati cally by the master KOS of the submaster The polling job list must be filled in for this Up to 1024 jobs can be configured per master KOS Several entries can be made for one outstation The lines must be filled in without gaps Examples SL Standardize list SL Su Sa Fr Th We Tu Mo Hour Minute UST Addr Xx x 12 30 005 xX X 00 00 0
37. Z120 Version 4 1 Dolog AKF A120 Version 5 0 and higher Basic software versions ALU 200 702 996 00 ALU 201 702 998 00 KOS 202 firmware FPM 022 277 783 05 package containing FWM 003 276 647 05 FWM 004 276 648 04 FWM 005 276 649 05 FWM 006 277 747 04 FWM 051 277 703 04 FWM 052 261 545 01 xiv Handling 3 1 2 Diskettes Store diskettes in protective containers and boxes il No cleaning of diskettes Temperature 10 to 60 C Humiditv 8 to 8096 No water on diskettes x FI Diskettes tolerate no heat sunshine No diskettes near mag netic fields O Always keep in mind oy Insert diskettes correctly No heavy objects on diskettes Label diskettes at the right spot Al No forcing diskettes into disk drive l Don t move the metal slide baal 20 XV Handling 5 Diskettes Store diskettes in protective No diskettes near mag containers and boxes netic fields No bending or folding of diskettes Insert diskettes correctly Diskettes tolerate no heat sunshine Touch only protec of diskettes No painted pencils for ed parts writing on diskettes O O O Always keep in m
38. a long message All of this assumes that the data from the outstations is transmitted sponta neously i e the transfer bits or relocation periods must be parametrized for all the data of the otustation Submasters a Organization signals are redefined see chapter 4 5 a Organization commands are newly defined see chapter 4 6 Requirements for parametrizing the outstations a Counted measurands must be parametrized with pulse thresholds or ring buff er entries o The transfer bits must be parametrized for all the data if it is not parametrized as ring buffer data 50 Configuration 00 45 Organization Signals from outstation to master station U UF UFN DU1 DU2 A F Al D1 D2 D3 D4 A F A1 DI D2 D3 D4 bb FE 30 00 06 FF FF minute pulse missingstart XXXXXXXX XXXXXX 1 bb FE 38 00 OA FF FF end XXXXXXXX XXXXXX10 bb FE 33 06 FF FF FF time missing start XXXXXXXX XXXX01XxX bb FE 3B 06 FF FF FF end XXXXXXXX Xxxx10xx bb FE 25 FF D3 FF FF ring buffer warning XXXXXXXX xxxixxxxi bb FE 25 FF D4 FF FF start XXXXXXXX xxlixxxx bb FE 25 FF D5 FF FF end XXXXXXXX XX00XXXX bb FE 33 07 FF FF FF IL KOS link start XXXXXXXX 01xxxxx bb FE 3B 07 FF FF FF disturbed end XXXXXXXX 10xxxxx bb FA 00 xx module failure start XXXXXX01 xxxxxxxx 00 end XXXXXX10 XXXXXXXX aalEE bb 00 00 yyyyyyy
39. are valid in control direction 62 Handling 00 Number of slave KOS conversion mode You can define the number of slave KOS for conversion mode here A maximum of 14 slave KOS is possible since at least one master KOS must be entered A slave KOS in conversion mode converts the messages from different outsta tions and passes them to the superior system with a station addresss i e the messages from different outstations have the same address byte and only differ in their subaddress byte The station address is entered for the KOS parameters of the relevant slave KOS The limits of the SEAB 1F log are valid for the num ber of possible messages However commands are an exception since only 2048 commands can be converted due to the capacity of the parameter EPROM 00 Handling 63 Create FA6 Messages In order to permit connections to master stations which cannot process FA6 sys tem messages these can be suppressed Note Operation without FA6 messages is only possible for a slave KOS in transparent mode The information that an outstation has failed below the submaster is no longer passed on as an organization signal but in a signal message The signal mes sage has the following structure A byte address of the relevant slave KOS in the submaster F byte 8AH A1 byte 0 D1 byte contents of error byte 1 from layer 2 of master KOS 1st bit start of station disturbance 2nd bit end of station disturbance 3rd bit serial bus reser
40. cribed in the order listed below o O a a 56 1 General Information Data input Data archive IL generation and transfer Printer output Screen output of the bill of materials Handling Chapter 5 2 Chapter 5 3 Chapter 5 4 Chapter 5 5 Chapter 5 6 00 5 1 1 The Line Editor The line editor is used for inputting project data commenting the data point list and extending the library file Table 1 Keyboard Definition US Keyboard Key Definition lt Backspace Delete character to the left lt Del gt Delete character above cursor lt Ins gt Insert overwrite switch is displayed to the right in the last screen line lt Home gt Cursor to first character of input line lt End gt Cursor to last character of input line lt gt Cursor one position to left lt gt gt Cursor one position to right lt gt Cursor to start of previous input line lt gt Cursor to start of next input line lt Cr gt Terminate input Only for data point list library and bill of materials lt PgUp gt Previous page lt PgDn gt Next page Note The complete set of characters can be edited with lt Alt gt lt ASCll keyboard code gt The number sequence may only be entered using the numeric block The corresponding tables can be found in the PUTE user manual or in the printer manual Example The letter A should be input with the keyboard code Press the Alt key and then the digits 1 4 and 2 on
41. cted outstations are displayed in a branch downwards Arrows at the left edge of the screen show whether further outstations exist upwards or downwards Arrows show whether further KOS modules can be scrolled to the left or right You can shift the diagram to the right left upwards or downwards with the cur sor keys You return to the left upper corner with lt Home gt Display bill of materials E3 B8 re Display on the screen Display bill of materials F5 gt F2 After starting this menu a window listing all the existing libraries in alphabetic or der appears The library can be selected with lt f gt and lt gt The lines are scrolled at the start and end of the window if more libraries exist than can be shown in the window 00 Handling 89 The bill of materials is composed from the configured modules and subracks All the positions of the library in which a number of parts was entered are also in cluded A Caution If a new bill of materials is to be made remember that the current settings with regard to the optional components of a library are used to create the bill of materials 90 Handling 00 5 7 Bottom Up Configuration Import E1B1 The menues Project data and Submaster configuration must first be pro cessed For the project data first enter the name of the system for which the bottom up configuration is to be made Of course the files U KOM of the individua
42. ction E3 B5 The subracks are displayed as graphics according to the settings in the menu Subrack selection and the entries in the menus System configuration and Station configuration Because not all subracks fit in one row they are dis played in two seperate rows on the screen However this does not mean that a bus extension cable must be used If you configure a bus extension cable it will be displayed as a connection between the upper and middle subrack The 3rd top hat rail should enable the user to configure additional power sup plies or interface relays etc No I O modules may be entered there because the ALU can only address a maximum of 4 subracks with 18 I O slots There is a window with the I O modules the communications processor module and the power supply on the left side of the screen The Helptext for the selected module to the left in the window can be called with lt H gt The individual modules are selected with lt gt and lt gt the subrack slot is se lected with lt gt and lt gt An arrow indicates the current position The set module is entered in the selected subrack slot with lt Cr gt The module can be deleted from the marked slot with lt Del gt 00 Handling 71 A Caution Only the NUL modules and the power supply modules should be entered since changing the ALU or KOS modules also changes or deletes the entries in the menues Submaster con figuration and Line c
43. d for the master and slave KOS The structure of the menu depends on the KOS mode Own station number One s own station address is entered here for a slave KOS It must be unique within the range of the submaster i e no other slave KOS or outstation may have this address Addrsses 0 126 of the SEAB 1F log are permitted Read out ring buffer only after previous general interrogation You can configure whether the ring buffer should be read out after a short call or only after a previous general interrogation This setting is only necessary for a slave KOS Monitor polling scan A monitoring time base 10 msec for the polling scan can be defined for the slave KOS The slave KOS must be polled with its own address by the master station within the parametrized time If this is not the case the 2nd bit is set in the system marker byte of the KOS in order to inform the ALU that the SEAB communications to the master station are disturbed Entering a 0 means that there is no monitoring The default setting is the maximum value of 65535 10 msec Transfer module failure n of 18 For a slave KOS you can configure whether the organization signals A1 1 slot 1 16 and A1 2 slots 17 and 18 are to be transferred 112 Operating 20 Delete receiving buffer after seconds slave Delete sending buffer after seconds master If the connection to an outstation or master station is interrupted for a longer pe riod of time you
44. ding waiting period 000000 Extension T1 is only possible if the master station and the outstation are con nected to the same network of extensions The postal modem does not wait for the dialling tone for the telephone line with extensions T3 and T5 but continues dialling after a defined waiting period Delay in call acceptance You can set how long to delay call acceptance Times between O and 30 se conds can be parametrized Number of dialling attempts You can set how often the outstation should attempt to dial if no connection can be made From 0 to 255 repetitions are possible Repeat attempt to dial after how many minutes You can also define the time intervals for these repetitions Settings from 0 to 255 minutes are possible 20 Operating 107 Select 2nd calling number for master stations If the outstation cannot establish a connection for the master station with the 1st calling number an attempt to establish the connection is made with the 2nd call ing number APS Parametrization of the master KOS If communications with the outstsations are to use the public telephone network the KOS 202 must be equipped with the interface module AWD 001 A postal modem MDB 1200 is also necessary for coupling to the telephone network Data Input Automatic Polling Read in Telephone Number F1 gt F1 gt F1 A file for configuring the master KOS was already created during configuration of the outstations
45. e after the other Release the Alt key and the A appears on the screen 00 Handling 57 5 1 2 Starting PRO UZ120 El B1 PRO UZ120 is started from the main menu PRO FWT A header used for selecting the current version of the operating software appears once after the call The main menu PRO UZ120 appears after pressing any key and you can begin configuration PRO UZ120 loads the last processed system and station into user memory after the call Caution The system NONAME and the station Z001 000 are set by the installation routine during the first start 58 Handling 00 5 1 3 Autosave Before leaving certain submenues the data edited or generated there are stored on hard disk In particular these are the menues O Data input a Configuration of the submaster 0 Configuration of the line Edit Library a O Generate IL a Display of the bill of materials on the screen 00 Handling 59 5 2 Data Input E2 B1 5 2 1 Project data E3 B1 4 Data input Project data F1 gt F1 The last date of station processing is displayed The user cannot change this line System An input of at most 8 characters is required The system name is at the same time the name of the subindex in which the data of the outstation are archived see Chap 3 3 For this reason only characters which are permitted as index names under DOS may be input Comments Operator A maximum of 16 characters may be inpu
46. ease refer to the Geadat 120 User s Guide for more information on system startup 00 Check List 7 8 Check List 00 Part Il E Main Menu PRO FWT 10 00 Chapter 1 Operating Operating 11 1 1 General Information The PRO FWT main menu enables you to choose individual software packages required for starting up a Geadat telecontrol station without having to return to the DOS level Note Of course only the software packages which were installed can be called Note This main menu is always installed with the individual software packages PRO It is started from the operating system level with the call PRO FWT 12 Operating 00 Operation You can select one of two kinds of operator interface o Pulldown menues O Icons The interface can be set with the gt Desktop lt Both interfaces can be used with the cursor keys and with the mouse The individual menues or functions are called by clicking with the left mouse key or with RETURN In pulldown menus the call can also be made using the refe rence characters which are displayed in a different color The menu window is closed with ESC or by clicking with the right mouse key Passive functions are displayed in the pulldown menu without a reference charc ter and in a different color These cannot be selected or are skipped with the cursor Example The program is in graphic mode only a switch to text mode is now possible After switching
47. ed by PRO UZ120 is transferred to Dolog AKF A120 Step 1 PRO gt UZ120 sets up the AKF station directory Zxxx in the system subdirectory ANLAGE PRO Step 2 PRO UZ120 creates the equipment list and writes it to the station directory Step 3 The file Zxxx 000 AWL is now copied to the station direc tory under the name PRO AWL Step 4 The AKF control file AKF12 CMD is set up and stored in the directory PRO FWT Warning If you again transfer a station to Dolog AKF A120 remember that the PBs or FBs generated by PRO UZ120 and the OB are overwritten If you changed these blocks you should first save them in another index or on diskette in order to in clude the changes at a later time 00 Handling 81 5 5 Printer Output El B1 Each printed page contains a header which includes a System name o Unterzentralen Nr 0 Date of generation a Comments 0 Operator Printout of the bill of materials E2 B4 Sa Printer output Bill of materials F4 gt F1 A query is made whether a new bill of materials should be generated for the printout If yes all existing library files are offered for selection in order to deter mine the bill of materials If a library is selected with prices per unit you can specify whether the total price of the station should also be printed Printout of the hardware configuration E2 B4 cae Printer output Hardware configuration F4 gt F2 The selected
48. es are exchanged and the bits are mirrored in order to permit word by word processing in the IL i e with the instructions LBW EB x 15 DBB ANZ 2 TBW A x 1 DBB ANZ 16 the 16 signals can be output directly to an output module Organization signals are not affected Configuration 00 4 1 3 Interface for Internal Input Output All the messages transferred from the outstations via the master KOS can be processed internally in the submaster The 16th bit must be set for parametriza tion in the terminal block of the messages If only the internal bit is set in a mes sage it remains in the submaster and is not transferred to a slave KOS master station Data from a master station which is only to be processed in the submaster must be sent with the station address of the relevant slave KOS The pointer to the in ternal processing is always assigned to one s own station address This special case can only be implemented in a slave KOS in transparent mode In order to simplify handling of the internal processing for the user PRO UZ120 automatically links an internal transfer interface into the IL and interrogates it cy clically The following marker bytes are used here MB 28 Task byte MB 29 Message length MB 30 A bvte MB 31 F byte MB 32 A1 byte MB 33 D4 byte MB 34 D3 bvte MB 35 D2 byte MB 36 Dil bvte If the task byte is not equal to 0 there is a message for the internal procesing in the transfer field When t
49. figura tion The costs per item entered here are included in the calculation and in the bill of materials If an entry was made in one fo the lines 99 120 it is then handled as lines 12 98 Only the number and price per unit can be changed However the whole line can be deleted with lt Del gt if the cursor is at the start of the line 00 Handling 75 You go to the previous or next line with lt f gt and lt gt if the cursor is at the start of the line You go to the first possible input position with lt gt The line editor is valid wihtin an input field From the column number you always go first to column price per unit As of position 28 you cannot skip directly to the column price per unit If you want to skip a column press only lt Cr gt E Data input Library Library copy F1 gt F6 gt F2 You are prompted for the filename of the new library The name can have up to 8 characters PRO UZ120 appends the extension BIB and thereby indicates that the file is a library file It s usefull to create more than one library file if PRO UZ120 is used as an estimating tool by you You can enter the unit price for each component in the last column and create some files with different discounts You also have the possibility to save library files with certain combinations of components as default files ame Data input Library Library erase F1 gt F6 F3
50. hat rail The parameter file is created the first time that the parametrization is called for a KOS module If a parameter file already exists it is interrogated whether its new contents should be created or whether the old contents should be maintained gt Note If there was a change or extension to the menu Line configu ration the paramter file must be newly created You must also decide whether or not to keep the existing data model for a slave KOS in conversion mode If this is the case messages which are additionally entered in the menues Data monitoring direction or Data control direction are appended to the conversion lists i e the A1 bytes are allocated to the new mes sages following the last A1 byte of the previous generation run 00 Handling 73 Example An existing parameter assignment with two messages each from outstations 2 and 3 is extended by a message from outstations 2 and 3 The 4 columns define the outstation address data type A1 byte in the outstation and A1 byte con verted Conversion list after 1st generation run 2 2 3 3 signals 0 0 signals 1 1 signals 0 2 signals 1 3 Conversion list after extension with received data model WOWWNDN PY signals 0 0 signals 1 1 signals 2 4 lt new message signals 0O 2 signals 1 3 signals 2 5 lt new message Conversion list after extension with new data model 2 2 2 3 3 3 74 signals 0 0 signals 1 1 signals 2 2 lt
51. he output in the MS DOS level using If you want to use the printer with a serial interface MODE commands before PRO UZ120 is started The necessary commands can be found in the DOS manual The following printers can be selected from PRO UZ120 Oo Oo 00 DRU 292 DRU 293 DRU 120 DRU 096 PRT 294 PRT 295 DRU 1200 EPSON LQ550 DIN A4 DIN A3 DIN A4 DIN A3 DIN A4 DIN A3 DIN A4 DIN A4 matrix printer OKI matrix printer OKI matrix printer Citizen ink jet printer matrix printer matrix printer laser printer matrix printer IBM character set Il must be set in the printers Handling 85 You can also switch to script mode for the matrix printers The printer output however will be somewhat slower The corresponding selection window appears on the screen as soon as a matrix printer was selected Selection is made with the mouse or lt gt lt gt The printer driver is activated with lt Cr gt The printer control commands for the printers offered for selection by PRO UZ120 are defined in the driver file DRU DRV in the subdirectory PRO UZ12 You can extend this file by futher printer drivers with an editor taking the input rules into consideration When the printer is selected the new printer is listed with the text specified in the selection window for DRIVERNAME and pro vided for selection Input rules o Up to 15 drivers can be entered For new drivers
52. ind Sy Label diskettes at the right spot Temperature 10 to 50 C Humidity 8 to 80 No heavy objects on diskettes No forcing diskettes into disk drive xvi 20 Table of Contents Part I Chapter 1 1 1 1 2 1 3 Part Il Chapter 1 1 1 1 2 1 3 1 3 1 1 3 2 1 4 1 5 Part Ill Chapter 1 1 1 1 2 1 2 1 1 2 2 1 3 1 4 1 4 1 1 4 2 1 4 3 00 How to proceed LLsseennannnnnnnn 1 Check List viscoso dat bette oes 3 Checklist for parameterizing and configuring 4 Checklist for programming 2 00eeeeee 6 Checklist for system startup 00 000000 7 Main Menu PRO gt FWT 9 Operating sissu ni ee ee nn 11 General Information 0 cece eee eee eee 12 Expert system PRO LL 14 Dolog AK Fi m ne as 15 Read iMASGI 42 24 44 2 54 442 themes per e 15 ses GAME card area ae anne een nenne ale la 16 Tele Tools cn er are 17 Desktop 4 anp ra eat 18 Configuration Instructions 21 Introduction cece eee eee nn nen 23 Program package PRO UZ120 24 System requirements 0 eee 25 Hardware i sis eeg apse eriat bia eat ea 26 Software vivio a Pa ea aes ah nee een 26 Installation u 28 22 A E i aa 26 New Features 00000 eee eee eee eee eee 27 With regard to PRO UZ120 V 2 0 27 With regard to PRO
53. ing this control file and the ASCII IL generated by PRO Tool is read in The station which was last processed with a PRO Tool by the function Set up PLC Station or Generate ASCII Import Files for AKF is always processed 00 Operating 15 1 3 2 Call Dolog AKF can be started directly by PRO FWT with this call All the Dolog AKF functions can be executed If you only use the standard IL of PRO and have no special IL blocks you can limit yourself to the following function calls a Set up link to PLC O Bootload basic software not for ALU 200 a Link IL o Load IL in the RAM and start or a Program IL on EPROM o Print IL The exact instructions can be found in the Dolog AKF A120 A250 user manual A Caution The PRO Tools assume Dolog AKF A120 version 5 0 16 Operating 00 1 4 Tele Tools These tools can be used together with special PC plug in cards to simulate ma ster stations and outstations Teleview For Modnet 1F 1N together with PC V24 PC GDUE PC WT TELOO1 For Modnet 1F 1N and AWD together with PC AWD1 TEL002 For Modnet 1W together with PC AWD1 00 Operating 17 1 5 Desktop Language You can switch directly between German and English Screen PRO FWT can run as required in graphic mode or in text mode with an EGA or VGA card For all other screen adaptors there is an automatic switch to text mo de and this setting cannot be changed In graphic mode you can also define whe
54. is made by the slave KOS using the list which was defined in the menu Outstation list control direction You can set the bits of the pointer field in the lower part of the screen for each message The setting is valid for the particular message selected You can switch to the pointer field with lt TAB gt Since only one coarse time message is sent from each outstation the terminal blocks for the realtime signals and the course time message of an outstation may not have different settings 20 Operating 115 You can set whether the slot references of the KOS modules or the line numbers should be faded in with lt ALT gt gt L gt Since a selected setting is often valid for several messages they can be passed to copying storage with lt ALT gt lt M gt and be allocated any number of messages with lt Alt gt lt C gt without the pointer field having to be selected The previous or next message can be selected with lt f gt and lt gt You can page forwards and backwards in the message list with lt PgUp gt and lt PgDn gt 2 2 5 Enter Signal Prompting E6 B5 Data input Enter signal prompting F1 gt F3 This menu is only offered for processing with a slave KOS in conversion mode All the messages in monitoring direction are listed sorted according to data type You can select whether a signal prompting bit should be set per message if there is a change so that the message is tranasferred with the ne
55. ke sure that the key lt Num Lock gt is switched off as otherwise the number block is active lt Return gt key The input in the line editor is terminated or the selected parameter is accepted with this key lt Esc gt key There is a return to the previous menu level with this key Toggle Different settings can be selected by pressing the lt Return gt key repeatedly 00 Overview And General Information 33 2 4 Mouse operation The right mouse key corresponds to ESC or F9 Menu call Set the mouse cursor to the red inverse function key fields and click with the left key Selection within the menu Set the mouse cursor to the desired input line or selection field and click with the left mouse key Set the module or slot location in the menu l O module selection in this way and then delete or set by clicking the red inverse function fields A selected module can also be entered by twice clicking a subrack location File selection window Select the system or file with the mouse cursor and click with the left mouse key If the mouse cursor is set to the upper or lower free line in the window and clicked the scroll function is carried out if necessary Setting the mouse cursor to the text RETURN and clicking activates the corre sponding RETURN function 34 Overview And General Information 00 2 5 General information a The following symbol specifies how to select the described function Counting a
56. l outstations must have been created The number of master and slave KOS needed for the submaster configuration and the lines at which they work is defined You then return to the main menu The outstation data is then read in with the function lt F7 gt Bottom up configura tion import After calling the function the files KOM of the outstations which were configured for the lines defined in the submaster configuration are read from the system directory During reading there is a plausibility check with regard to the SEAB parameters and the object number areas All the outstations driven on one line must have the same SEAB parameters The object numbers and the outstation addresses must be unique in the subsystem If there is an error the corresponding remark is output on the screen and the im port is aborted The settings for the outstations must first be corrected before the import to PRO UZ120 can be correctly carried out Once the import has been correctly made the menues Outstation list Data monitoring direction and Data control direction are filled in The SEAB parame ters are automatically accepted for parametrization of the master KOS 00 Handling 91 The following settings must be made for the master KOS in the menu Data monitoring direction of the KOS parametrization E5 B3 1 terminal block 2 subaddress offset 128 pez 80ygx for relocated counted measurands 3 subaddresses for boundar
57. lways starts with the main menu The brackets contain the function keys which must be pressed in the main menu Example Data input Subrack selection F1 gt F4 Note The specifications Ex By in the titles are also included in the lower right corner of the screen pages They display the menu level and menu image In this way the relevant chapter for a particular screen page can easi ly be found using a cross reference list Remark window If an incorrect input is made when configuring with PRO UZ120 or if a limit is exceeded this is displayed on the screen with the corresponding output In order to delete this remark window from the screen press any key You can then cor rect the input and continue with configuration YES NO Box In a YES NO box only lt Y gt or lt N gt may be entered or the corresponding field can be clicked with the mouse cursor Some of the functions can be aborted with lt Esc gt if entry is not compulsory for the system 00 Overview And General Information 35 36 Overview And General Information 00 Chapter 3 Overview How To Work f Overview How To Work 37 3 1 38 Flow Chart Start Y Data input Archive station Project data Name of system an No of master have to be input Document station Submaster configuration Read ASCII IL in Dolog AKF Call Dolog AKF link IL and program EPROM Line co
58. n Line 1 Line 2 Submaster No 5 M S S A ALU KOS KOS KOS virtual Line 5 UST 0 UST 1 M KOS Master KOS S KOS Slave KOS The KOS 202 is treated like an I O module There are 32 bytes in each direction for communications with the ALU 200 201 The ALU 200 201 accepts messages from the KOS in the EB input byte area and passes them on to the AB output byte area of another KOS with a parametrizable pointer The data exchange can occur simultaneously in several KOS modules in monitoring direction In control direction it is also possible to pass messages from different slave KOS to one master KOS 44 Configuration 00 4 1 1 4 1 2 00 AB x 1 AB x 2 AB x 3 to AB x 5 AB x 6 to AB x 7 AB x 8 AB x 9 AB x 10 AB x 11 AB x 12 AB x 13 AB x 14 AB x 15 AB x 16 AB x 32 EB x 1 EB x 2 to EB x 5 EB x 6 to EB x 7 EB x 8 EB x 9 EB x 10 EB x 11 EB x 12 EB x 13 EB x 14 EB x 15 EB x 16 EB x 32 Output Byte Input Byte status byte reset byte not defined distribution pointer task byte message length A byte F byte A1 byte D4 byte D3 byte D2 byte D1 byte acknowledge message counter status byte error status bytes distribution pointer task byte message length A byte F byte A1 byte D4 byte D3 byte D2 byte D1 byte message counter Configuration 45 46 Note In signals the D1 and D2 byt
59. n address for a slave KOS Part IV chapter 2 2 3 Leave the KOS parametrization and return to the PRO UZ120 main menu Activate the IL generation Part Ill chapter 5 4 Use the PLC station settings and copying the ASCII IL function Part III chapter 5 4 Save your system to disk Part Ill chapter 5 3 Print the documentation Part Ill chapter 5 6 Check List 5 1 2 Checklist for programming When you have terminated configuration you can begin programming the ALU O Leave the configuration software PRO gt UZ120 and return to the PRO gt FWT main menu 0 Activate the function Read in ASCII IL for AKF12 Part Il chapter 1 3 1 o Invoke Dolog AKF12 or AKF125 Part Il chapter 1 3 2 a Program the PLC in online mode Part Il chapter 1 3 2 or o Create a PLC EPROM Part II chapter 1 3 2 Note At the first startup of an ALU 201 the basic software have to be loaded to the ALU 6 Check List 00 1 3 Checklist for system startup O Oo Create a KOS firmware EPROM Part IV chapter 2 4 2 Create a KOS parameter EPROM Part IV chapter 2 4 2 Plug in the KOS firmware and parameter EPROM Plug in the ALU EPROM or the EPROM board Verify that the switches and jumpers of each module are set correctly Plug in modules and hard wire You can also parameterize and program the KOS and the ALU in online mode via PADT In this case the KOS has to be equiped with the firmware EPROM Pl
60. nfiguration Subrack selection Insert EPROM s on KOS and ALU Set jumpers on all modules Insert modules in subrack Module selection KOS Parametrization For master KOS enter data range Set SEAB parameters Program EPROMs Generation of IL Transfer to Dolog AKF Overview How To Work End 00 3 2 Tree Structure of the Menues Level 1 Figure 1 Data input Fi Data archive fe Generation of IL F3 and Transfer Printer output ES F5 Display on screen Bottom Up Configuration Import Switch monochrom color Return to PRO FWT Main menu 00 Level 2 Level 3 Figure 1 Figure 1 g FI g Project data nuit F2 P Submaster config F3 i Line configuration Figure 2 F4 Input Subrack selection E F5 Module selection Figure 3 F6 Outstation list B1 Ebrary Monitoring Direction Sect B2 Outstation list LESE Figure 2 Control Direction Data Monitoring B3 Read dat a Sado dara Direction B4 Erase data Data Control Change drive Direction Figure 4 Figure 3 Selection IL Generation DE ln reate PLC Station and copy ASCII IL Figure 5 Module selection B5 Figure 4 Call KOS Param Printer Output F1 F7 Figure 6 Printer
61. ng direction A screen page is provided per outstation You can page with lt PgUp gt and lt PgDn gt The outstation whose line is being processed is faded into a status line The number of messages is entered in decimal The following limits are monitored 1 256 setpoint value messages per slave KOS 2 2048 command telegrams per slave KOS If one of these limits is exceeeded a remark is output to the screen and the in put is rejected 00 Handling 69 5 2 4 Selection of Subracks E2 B1 a Data input Selection of Subracks F1 gt F4 Selection E3 B4 The selected subracks are displayed inversely You can change the setting with lt gt or lt gt If an existing selection is reduced any I O modules are deleted You are informed if this is the case so that you can retract the change You can set whether or not a bus extension cable should be used with lt gt or lt gt Note Ifa bus extension cable and 2 or 3 subracksare used the slot distribution is not continuous Gaps occur in the addressing Because of the distribution pointer 1 15 a addressing without gaps is prem ised Therefor the bus extention cable can only be used with 4 sub racks When leaving the menu with lt F9 gt or lt Esc gt the selected subracks are included in the configuratino of the station 70 Handling 00 5 2 5 Selection of Modules E2 B1 gt Data input Selection of Modules F1 gt F5 Sele
62. ntains only ZEROES as en d code 132 File Structures 05 1 2 128 129 130 131 132 133 134 135 136 137 138 139 05 List of the PV attributes Monitored informations Real time informations Transient information Measurand 11 bits with sign Measurand 8 bits without sign Counted measurand Relocated counted measurand Commands Analog setpoint values Digital setpoint values System informations System commands File Structures 133 1 3 Example File U020 001 KOM PRO U120 04 00 28 05 1992 2 00600 015 005 016 o s af je 00060 020 020 000 1 00301 00600 af Da aye aft sje ay a fs ay zje af 80012D140A00 80013D140A01 80014D140A02 85015D142A00 85015E142A01 85015F142A02 850160142A03 850161142A04 850162142A05 850163142A06 850164142A07 830165144A00 830166144A01 830167144A02 830168144A03 134 File Structures 810169145A00 8A0179147A00 870189149B00 870199149B01 8901A914CB00 8901AA14CB01 8801AB14CB02 8801AC14CB03 000000000000 This is a file of an outstation A file with the same structure is generated for the slave KOS of a substation Different A bytes are entered in the file however in transparent mode of a substation The files of a substation are identified by the leading Z in the file name e g Z020 002 KOM 05 File Structures 135 136 File Structures 05 Part VI Index 138 00 Index A Archiving Part Ill 77 Arrow keys Part Ill
63. onfiguration There is a plausibility check whether this entry is valid If it is invalid there is a remark and the entry is not made The power load of the 5V and 24V power supplies are also monitored If for ex ample the maximum load of 700 mA of the 5V power supply is exceeded by the ALU 200 there is a remark In this case you can only use the ALU 201 together with the power supply module DNP 205 max 2 A The actual function of this menu is to select the optional modules for the KOS using the ZOOM function and to call the KOS parametrization 72 Handling 00 ZOOM on off E3 B5 as Data input Selection of Modules ZOOM on off FI gt F5 gt F1 You can zoom into a module i e you can enlarge its image The module that is marked in the subrack on the right side is displayed on the left side on the screen To display another module simply press lt gt or lt gt to change to another slot in the subrack You don t need to leave the ZOOM function The I O module is displayed in the window that has been opened by the ZOOM function You can activate the KOS parameterization for the KOS modules that way The KOS parameterization is described in Part IV The individual optional modules can be toggled with lt Z gt Only the UEM 001 can be selected for the master KOS The APS 001 can also be selected for the slave KOS If the APS 001 is selected the postal modem MDB 1200 5 is entered on the 3rd top
64. orm buffer bb FF 2F FF D1 00 00 aa EF bb 00 00 02 00 delete all transfer bits bb FF 2F FF 01 00 00 aa EF bb 00 00 04 00 start od send inhibit ring buffer bb FF 2F FF F6 00 00 aa EF bb 00 00 08 oo end of send inhibit ring buffer bb FF 2F FF F7 00 00 aa EF bb 00 00 10 00 aa EF bb 00 00 20 00 aa EF bb 00 00 40 00 aal EF bb 00 00 801 00 aa SEAB address UZT UZU bb SEAB address UST dddd date of the UZT UZU eeee time of the UZT UZU 52 Configuration 00 4 7 Messages for Master APS Operation In master APS operation the connection can also be set up by IL in addition to a parametrizable automatic establishment of a connection by the master KOS or by the master computer The following table shows the necessary instructions Note The marker byte for internal processing MB 46 MB 56 should always be used in the IL see Part Ill chapter 4 1 3 Messages from the IL to the master KOS gt 2 5 08 04 01 00 xx xx establish connection to UST xxxx 08 04 02 00 00 00 abort connection 08 04 03 00 00 00 automatic establishment of connection off 08 04 03 01 00 00 automatic establishment of connection on These message may only be sent if a connection is established XXXX station address 0 65535 0 126 for Modnet 1F AB task byte L message length 00 Configuration 53 The master KOS transfers
65. ping means that no messages are passed to the IL The master KOS no longer poll and the slave KOS accept no messages from the master stations If version 2 is selected all the messages to be sent to the failed KOS are lost If a redundant transfer system is to be established in the direction of the master station version 2 must be set for the slave KOS so that the messages can be transferred with the 2nd KOS The failure of one or more KOS modules is trasnferred to the master station in the organization signals with the subaddresses 0 2 The organization signals contain the station addresses of the slave KOS in transparent mode 00 Handling 79 Start IL generation English E2 B3 o IL generation and transfer Start IL generation English F3 F2 The basis for the english ASCII IL is the german IL that has been created as described above But you don t have to activate the F1 function because the german IL is generated automatically if you press lt F2 gt It is then translated into English i e statements and operands that have another designation in English are replaced Because of this procedure special english macro files are not nec essary Note An english ASCII IL cannot be read in by an german Dolog AKF A120 and vice versa 80 Handling 00 Create PLC station and copy the ASCII IL E2 B3 ms Generation of IL and Transfer Create PLC station and copy ASCII IL F3 gt F3 The IL generat
66. postal modem MDB 1200 is also necessary for coupling with the network c Note When entering the APS parameters each KOS of a submas ter is handled like a single outstation All the parameters necessary for the outstation are interrogated in this menu The link is established with two lines where these can be one master station with two lines or two different master stations Of course it is also possible to work with only one line First press lt Cr gt in order to activate the line editor for the input fields The input is also termianted with lt Cr gt The input and toggle fields are selected with the cursor keys 106 Operating 20 Password The password comprises max 15 characters letters numbers or special char acters except for the slash Capital letters and small letters are distin guished Calling number The calling number for the outstation and the master station has max 15 char acters The area code and calling number are entered without a gap A calling number is not necessary for the second master station Dialling You can choose pulse selection or tone selection by toggling Type of connection You can choose one of 6 different types of connection main terminal extension T1 without telephone line extension T2 telephone line with O extension T3 telephone line with O waiting period extension T4 telephone line with grounding extension T5 telephone line with groun
67. ransferring data of the internal processing to a master KOS outstation or slave KOS master station the marker bytes MB 46 to MB 56 must be as signed The terminal block is entered in MB 46 47 the task byte in MB 48 is set to 1 and the message and message length are entered in the remaining bytes A 5 is entered for the message length for 2D messages and a 7 for 4D messages As soon as the automatically generated IL has fetched and passed on the mes sage the task byte sets it to O and only then may the user IL enter a new mes sage in the marker byte area 00 Configuration 47 MB 46 MB 47 MB 48 MB 49 MB 50 MB 51 MB 52 MB 53 MB 54 MB 55 MB 56 Terminal block LOW byte Terminal block HIGH byte Task byte Message length A byte F byte A1 byte D4 byte D3 byte D2 byte D1 byte The bit corresponding to the slot of the KOS at which the message is to be transferred is set to 1 in the terminal block 1st bit for KOS slot 1 2nd bit for KOS slot 2 etc It is possible to transfer one message to several KOS by setting the correspond ing bits in the terminal block at the same time The standard IL however only enables the internal interface by resetting MB 48 once the message has been passed on to all the KOS defined by the terminal block The standard IL automatically deletes KOS modules which are reported to have failed so that the interface is not blocked 48 Configuration 00 4 2 Definition of the Types of Linkage
68. rating 00 Part Ill Configuration Instructions The configuration parametrization and programming of a Geadat UZ120 sub master are described in this part 00 21 22 00 Chapter 1 Introduction Introduction 23 1 1 Program package PRO UZ120 The program package PRO UZ120 consists of O disks with the configuration software o a disk with the KOS firmware g the user manual 24 Introduction 00 1 2 System requirements Hardware ALU 200 SPS KOS 201 EPS 2000 ADP 004 ADP 001 Lt YDL 36 1 YDL 44 PADT IBM compatible YDL 32 Printer Figure 1 Components for configuration and programming 00 Software Eprom Basic software KOS Basic software ALU Operating system MS DOS PRO U120 Dolog AKF A120 KOS firmware UB E UB E Introduction 25 1 2 1 Hardware PUTE IBM compatible PCs with hard disk and 640 Kbyte main memory A guarantee is only given for AEG devices Printer with parallel interface DRU 292 293 DRU 120 DRU 096 DRU 1200 PRT 294 295 EPROM programming station EPS 2000 1 2 2 Software o DOS Version 3 2 3 3 5 0 a Dolog AKF A120 Version 5 0 1 3 Installation Installation PRO UZ120 Switch on device operating system level display C gt Step 1 Diskette 1 in diskette drive A or B Step 2 Installation
69. re listed in a window If the selection of an outstation is confirmed with lt Cr gt all the files belonging to this outstation are deleted If all the outstations of a system are deleted the corresponding subindex is auto maticlly deleted The delete function can be aborted with lt Esc gt or lt F9 gt Change drive E2 B2 aw iuao ua o Data archive Change drive F27F4 Drives A Z can be toggled with lt F4 gt After calling lt F4 gt the drive can be entered directly by the keyboard The initial state is the drive from which PRO UZ120 was started If this setting is changed for example from C to A drive A is now accessed for the functions read file save file and delete file 78 Handling 00 5 4 IL generation and transfer El B1 Start IL generation German E2 B3 IL generation and transfer Start IL generation German F3 gt FI The individual generated modules are written to the file Zxxx 000 AWL The file Zxxx 000 AWL is opened for writing in APPEND mode APPEND means that additional write operations are always appended at the current file end At the start of IL generation there is an interrogation how the KOS modules should behave if a KOS fails The following settings are possible 1 All KOS modules of the other side are stopped if a single KOS fails 2 The KOS modules are only stopped if all the KOS of the other side fail In this case stop
70. rocess a maximum of 7000 messages in moni toring direction The number is limited to 5000 messages in APS operation Note The number of organization messages is not interrogated since the organization messages always contain a general pointer and are passed to all slave KOS for further processing Operating There is a separate scren page available for each outstation You can page with lt PgUp gt and lt PgDn gt The outstation whose line is being processed is faded into a status line The number of messages is entered in decimal You can change to the next or previous data type with lt gt and lt f gt The following limits are monitored 1 256 messages per data type and outstation 2 a total of 7000 5000 messages per master KOS If one of these limits is exceeded there is a remark on the screen and the input is rejected 68 Handling 00 Data control direction E4 B4 o Data input Line configuration Data control direction This menu can only be called for slave KOS in conversion mode The number of commands and setpoint values to be converted by the particular KOS is entered per outstation 256 setpoint values and 2048 commands per slave KOS can be converted Note This menu is not called for a slave KOS in transparent mode since commands and setpoint values are passed on unchanged The terminal block preceding the messages can be deduced for the defi nitions in the menu Outstation list monitori
71. s baad tet 105 SEAB parameter E6B1 eee eee ee 105 APS Parameter E6 B2 0 0 c cee eee ee 106 KOS Parameters E6 BS 0 00055 112 Data Monitoring Direction E6 B4 115 Enter Signal Prompting E6 B5 116 Transfer E5 Brita ia 117 EPROM Menu 0 cece cece e eee eee 119 EPROM 27C256 wid siekta dd 119 KOS Firmware and Parameter EPROM 122 Display Conversion Lists E5 B4 125 Dateistrukturen 0 00sec eens 127 File Structures 0 0 cece eee eee eee 129 Bottom Up File mi 130 List of the PV attributes o oooooo o o 133 Example File U020 001 KOM 222200 134 Table of Contents xix XX Part VI Index socio a a a a Table of Contents 00 Part How to proceed 00 Chapter 1 Check List Step by step procedures for a configuration o parameterizing and programming O system start up of a Geadat UZ120 outstation are defined here using check lists 00 Check List 3 1 1 Checklist for parameterizing and configuring Before you start the configuration of your UZ120 master station with the software package PRO UZ120 you should read the following checklist and refer to the corresponding chapters for details O Make sure that you have the right software environment for the configuration software PRO UZ120 Part Ill chapter 1 2 O Make sure tha
72. t All characters which can be dis played may be used see Chap 5 1 1 The specifications define more exactly a submaster They are printed in the do cumentabion in the form of a header Number of submaster It is also used to identify the individual files during archiving if more than one submaster is to be configured in a system see Chap 3 3 Note You can copy the station set by overwriting the system name or the number of submaster station First however it must be stored with the data archive menu 60 Handling 00 Example System EXAMPLE and submaster No 1 are loaded and should be copied to EXAMPLE Z005 000 Step 1 Overwrite submaster number 1 with a 5 Step 2 Leave menu with lt F9 gt or lt Esc gt Step 3 Interrogate if data should be copied Answer with lt J gt lt Cr gt Step 4 master station is copied If you answer step 3 with lt N gt lt Cr gt the system EXAMPLE submaster no 1 is not copied but EXAMPLE Z005 000 is opened as the new station Note If the station EXAMPLE Z005 000 already exists the corre sponding message appears on the screen You can now decide whether the archived data should be overwritten or loaded into user memory In the same way you can copy EXAMPLE Z001 000 to TEST Z003 000 by overwriting the system names and the submaster number You can then modify and supplement the corresponding menues 00
73. t of the KOS data E2 B4 oe dik Printer output KOS data F4 gt F6 You can print the data for all KOS modules or for parts of them The slot num bers are entered separated by commas or with a dash example 1 3 6 If you want to print the data for all the KOS modules enter lt gt The following data is printed o SEAB parameters a KOS parameters a pointer list only master KOS a conversion list only slave KOS in conversion mode The station addresses data type and subaddresses of the individual messages from the outstations are printed with the pointer lists The slave KOS with the slot number and line number to which these messages are to be passed on is printed to the right The messages are also listed with station address data type and subaddress in the conversion lists The new converted subaddress is also printed along with an entry whether a signal prompt should be set if there is a change Printout of all lists E2 B4 Printer output All lists FA gt F7 All the lists which exist are printed 84 Handling 00 Printer selection Printer output Printer selection F4 F8 E2 B4 A printer output is only possible using the parallel standard interface LPT1 with PRO UZ120 Output using the serial interface is not recommended since this is already used for the link to the PLC the EPROM programming panel and the mouse CE Expert Note nevertheless you can direct t
74. t the loading Print the KOS data Print all lists Printer selection Printer output to file Screen Output Chap 5 6 Display the System configuration Display the bill of materials KOS 202 Parameter assignment Part IV 00 Overview And General Information 31 2 3 Keyboard operation If a command is specified in pointed brackets lt gt in the following description this means that the corresponding key should be pressed lt Cr gt Press RETURN key lt Alt gt lt Ctrl gt lt Del gt Warm restart all three keys are pressed simultaneously lt F1 gt lt F3 gt the function keys Fi and F3 are pressed one after the other US keyboard German keyboard lt Esc gt lt Eing l sch gt lt Ctrl gt lt Strg gt lt Home gt lt Pos1 gt lt End gt lt Ende gt lt Prtsc gt lt Druck gt lt PgUp gt lt Figure f gt lt PgDn gt lt Figure gt lt Ins gt lt Einf gt lt Del gt lt Entf gt oder lt L sch gt lt Return gt lt Ubernahme gt auch lt Enter gt oder lt el gt Function keys The individual submenues are selected with the function keys There is always a return to the previous menu level with lt F9 gt Help is always called with lt F10 gt Arrow keys cursor keys The parameters are selected or modified in some menues with these keys 32 Overview And General Information 00 A Caution If your PUTE does not have a separate cursor block ma
75. t you have the right hardware environment Part Ill chapter 1 2 a Install the configuration software PRO UZ120 o Learn how to use the keyboard and the mouse Part Ill chapter 2 3 and 2 4 o Start the configuration aid PRO UZ120 via the main menu PRO FWT Part Il chapter 1 3 and Part Ill chapter 5 1 2 a Go to the data entry level Part Ill chapter 5 2 a Enter the system name and the master station address via the configuration data menu Part Ill chapter 5 2 1 a Enter the submaster configuration Part Ill chapter 5 2 2 0 Activate the Line configuration menu and enter the outstation list and the in put output data Part Ill chapter 5 2 3 o Activate the module selection menu and enter the changes and additions if necessary a Call the KOS parametrization using the ZOOM function in the menu Module selection Begin with the master KOS from left to right Part III chapter 5 2 5 4 Check List 00 00 Define the message distribution for the master KOS in the menu Data for monitoring direction Part IV chapter 2 2 4 Check whether the settings correspond to your requirements for signal prompting Part IV chapter 2 2 5 for the slave KOS in conversion mode Check whether the SEAB parameters and APS parameters are correctly set for your requirements Part IV chapters 2 2 1 and 2 2 2 Check whether the KOS parameters are correctly set for your requirements Enter the statio
76. ther PRO FWT should work with icons or only with pulldown menues You can choose one of three color representations both in graphic and in text mode For clarity you should choose two tone representation for some PCs The pulldown menues have a light background for black and white and a dark background for inverse black and white Version numbers The current data part number version date are entered in a version file when the individual PRO tools are installed The file is displayed on the screen with this function The display is in a scroll box i e it can be shifted up down with the cursor or by clicking the cursor fields with the mouse cursor 18 Operating 00 AKF Program Path In order to be able to work with different AKF versions the program path of the required AKF12 and AKF23 version can be entered here PRO FWT provides the default settings of the AKF installation program as default entries The subdi rectory in which the AKF12 EXE or AKF25 EXE reside including the drive identi fier must be defined as program path Example C AEG A91 AKF12 D AKF125 AKF 125 You must make sure that a V is entered after the drive identifier to specify the program path from the master directory The current entries are stored when you leave PRO FWT and are available again at the next call PRO FWT always works with the current program paths in the calls Read in IL and AKF call 00 Operating 19 20 Ope
77. this way you can always determine the last time that the data were transferred to the KOS RAM 20 Operating 117 A comment on the screen shows whether the data transfer is still running or whether it is terminated The corresponding message appears on the screen if there is an error Scan IL Cycle time Transfer Scan IL Cycle time F2 gt F3 This KOS firmware determines the current IL cycle time It also notes the longest IL cycle since the start of the outstation These two cycle times can be interroga ted and displayed online However this interrogation is only possible for KOS modules in master station subracks slots 1 3 118 Operating 20 2 4 EPROM Menu 2 4 1 EPROM 27C256 2 4 1 1 Inserting the EPROMs With this EPROM 27C256 SMD an adaptor ADP 004 must be inserted bet ween the Textool socket and the EPROM To insert the adaptor carry out steps Schritt 1 to Schritt 6 see also Figure 2 To insert the EPROMs follow Schritt 1 to Schritt 5 see also Figure 3 Schritt 1 Turn the lever of the Textool socket upwards Schritt 2 Set the adaptor to the Textool socket hinged side flush to the bottom Schritt3 Press the lever downwards Now that the adaptor is inserted you can place the EPROM in the adaptor 20 Operating 119 Figure 2 Insert Adaptor ADP 004 Schritt 4 Open the adaptor ADP 004 Press the opener upwards and lift the cover see also Figure 3 Schritt5 Insert the
78. us Different submenus are provided for selection depending on the KOS mode 2 2 1 SEAB parameter E6 B1 Data input SEAB parameter F1 F1 First the baud rate is interrogated The standard setting is 600 baud Another baud rate can be selected by toggling with lt Cr gt 200 300 600 1200 2400 4800 9600 The subsequent times are entered in tbits Values between 1 and 255 or 60 and 65635 are possible For the standard setting see Chap LEERER MERKER Note Ifthe KOS is driven together with a UEM 001 the following times are valid Table2 SEAB parameter Baudrate 600 Bd 1200 Bd Lead time 15 tBit 30 tBit Trailer time 4 tBit 4 tBit Pause time 16 tBit 26 tBit Aufrufwiederh LT 2 2 x Aufrufwiederh KT 2 2 Sendewiederh LT 0 0 Quit LT 60 tBit 84 tBit M5 Lead time 20 tBit 35 tBit M5 Trailer time 20 tBit 30 tBit 20 Operating 105 The parameters marked with are only valid for the master KOS They are meaningless for a slave KOS A Caution If the standard values are changed data could be lost if the parameter assignment is not correct for the system Warning Use always M5 Synchronisation when using the UEMOO1 2 2 2 APS Parameter E6 B2 APS parametrization of the slave KOS f Data input APS parameter FI gt F1 If communications with the master station at the moment only Z300M is to use the public telephone network the KOS 202 must be equipped with the interface module AWD 001 A
79. ves start 4th bit serial bus reserves end D2 byte address of the disturbed outstation Note See Suppress the transfer of internal errors Part IV chapter 2 2 3 Organization signals which are generated by the outstation module failure KOS ALU link disturbed etc are passed on without change Organization com mands e g general interrogations are also passed on without change in the control direction Limitations Selective data interrogations from the outstations are not possible since the slave KOS hsa no data model in transparent mode Instead it stores the incom ing messages in a temporary buffer in the order of their arrival A time synchro nization of the outstations by a time message from the master station is also not possible 64 Handling 00 Special Mode for Master APS If the outstations are linked with the submaster by automatic polling APS it can be necessary for an outstation to be dialled from several master KOS max 4 If the special mode for master APS operation is now selected an outstation can be allocated to several masters in the menu Outstation List Monitoring Direc tion In the menu Data Monitoring Direction the data of the outstation is automati cally accepted for all corresponding master KOS as soon as it is configured Line Number Entry You can call the input window for the line number with lt F1 gt Each KOS module must be allocated a line number between 1 and 999 The
80. xt short call You can toggle between ves and no with lt Cr gt The default value for all the messages except for counted measurands is ves The length of the message list and the line in which you are at the moment is displayed at the lower right of the image 116 Operating 20 2 3 Transfer E5 B2 Parameter lists from KOS ia Transfer Paramter lists from KOS F2 gt F1 The slot reference of KOS from which the parameters are to be read in is interrogated Any KOS can be read in Before the data is transferred from the KOS to the PADT there is another interrogation whether this function should really be carried out Confirmation with lt Y gt starts the transfer The KOS firmware part number including the modification index is displayed once the transfer has been ended The parameters are displayed in the corre sponding menues Parameter assignment is adapted to the the mode of the par ticular KOS read in A Caution If parameters are read in from a KOS these are not stored with the autosave function when leaving the KOS param eter assignment see chapter 1 Parameter List to KOS m Transfer Parameter lists to KOS F2 gt F2 Before the data are transferred from the PUTE to the KOS there is another que ry whether this function should really be carried out A confirmation with lt J gt starts the transfer The current date is passed to the parameter RAM of the KOS during the data transport In
81. y yyyyyyyy bb FA 00 26 missing status signal for JaalEE bb 00 02 00000000 00000001 cancelled command bb FA 01 XX xx module failure per aalEE bb 01 00 xxxxxxxx xxxxxxxx slot bb FA FF XX XX module failure on bit aalEE bb 01 FE xxxxxxxx XXXXXXXX from master KOS to master station U UF UFN DU1 DU2 A F A1 DI D2 D3 D4 station disturbance start XXXXXXXX XXXXXXO1 end XXXXXXXX XXXXXX10 serial bus busy start XXXXXXXX XXXX01xx end XXXXXXXX Xxxx10xx M5 error start XXXXXXXX XXX1XXXX end XXXXXXXX XXX0OXXXX aa EE bb 00 01 yyyyyyyy yyyyyyyy SEAB address UZT UZU SEAB address UST aa bb yyyyyyyy bitwise OR operation on information 00 Configuration 51 4 6 Organization Instructions from the master station to the outstation A F A1 D1 D2 D3 D4 A F A1 D1 D2 D3 D4 aa EF bb 00 00 00 01 general interrogation bb FB 2F FF 00 aa EF bb 00 00 00 02 measured value relocation bb FB 22 FF 12 aa EF bb 00 00 00 04 aa EF bb 00 00 00 08 aa EF bb 00 00 00 10 set date bb FF 2F FF El dd dd aa EF bb 00 00 00 20 set time bb FF 2F FF E0 ee ee aa EF bb 00 00 00 40 start of send inhibit bb FF 2F FF D6 00 00 aa EF bb 00 00 00 80 end of send inhibit bb FF 2F FF D7 00 00 aa EF bb 00 00 01 00 n
82. y messages The changes from points 2 to 3 must be made since PRO UZ120 assigns in creasing A1 bytes subaddresses to all data 92 Handling 00 Chapter 6 IL Blocks and Macros The IL blocks and the macros that are used to build them are described in this chapter 00 IL Blocks and Macros 93 6 1 Overview Warning An IL generated with PRO UZ120 is extended with user PLC functions following the rules of Dolog AKF A120 If the blocks generated by PRO UZ120 are changed no guar antee can be made that these modified blocks will function cor rectly gt Note Definition of interface Chapter 4 1 Part Ill 6 2 List of the AKF blocks used Organization block OB1 Block management Program blocks PB 100 Initialization call detect module failure PB 101 Transfer messgaes from KOS slot 1 PB 115 Transfer messages from KOS slot 15 PB 116 Input internal processing PB 117 Transfer organization signals to slave KOS slot 1 PB 131 Transfer organization signals to slave KOS slot 15 PB 132 Detect module failure 94 IL Blocks and Macros 00 6 3 List of the Markers Used under AKF The markers identified with may never be used in blocks other than those for which they are intended Marker bit M1 1 to M 1 18 M 1 19 M2 1 to M2 17 to M3 1 to M5 1 to Marker byte MB1 to MB 16 MB 28 to MB 46 to M 1 15 Organization signal A1 0 to KOS 1 to 15 Edge recognition 1st IL scan 1 1st IL scan M2 15
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