DLXPara - baer
Contents
1. P Test prd DLXPARA Se File Edit View Connection olsa s Time elei Cplpl Asd sl Elan Number of Units Counter values Pulse in outputs gt Analog inputs Control in outputs gt Scroll List Registration period Tariff calendar gt Communications gt Periodic buffer gt Memory Extra device language COM4 Version 1 06 00 NUM Figure 14 Parameter Note Set the parameters step by step firstly the time and lastly the extras E Without input of the correct password for Parameters no parameters can be transmitted to the DLX for more information see chapter Password on page 83 25 III 26 Time Set the time parameters for the synchronization and summertime switching includ ing the date and time of the switching e Time xs Edit time 2011 06 06 Iw Allow summertime use Daylight Saving Time Summertime begins March el Sunday Hour 2 Wintertime begins October EI Sunday E Hour EN Day of switch over Last Sunday of March last Sunday of October 1 Sunday of March 1 Sunday of October C 2 Sunday of March 2 Sunday of October C 3 Sunday of March 3 Sunday of October Synchronization window Synchronization Iw DLX Version gt 1 04 01 Synchronization fo sec C No synchronization e SYN input Alarm free 0 sec External radio clock Settime via SCTM Set Cancel Figure 15 Setting the time2. PSTN ISDN ETH Ethernet LAN Interface You can find more information about the AT command set in the user manual of the modem PSTN Default settings for analogue modems e SEO load factory settings set 0 e S0 1 wait for 1 ring before responding e amp DO ignore DTR e N3 auto reliable mode with error correction according to V 42 MNP4 and data compression according to V 42bis MNP5 normal mode no error correction alternative NO no error correction OI do not output status codes e amp WO amp W1 store user settings in non volatile memory The modem will respond to an incoming call after one ring SO 1 The transmission speed between the two modems will be adjusted automatically N3 or NO gt The default modem string is designed for use in most applications If the mo dem used at your PC is of an older type and does not have error correction capability it is recommended to use the setting NO normal mode no error correction as this will shorten the time to establish a connection The mo dem initialization string should only be changed in exception cases because any change can have the effect that the DLX cannot be read via the modem in terface any more 65 S NY LS P III 66 ISDN Note Note ISDN modems are factory programmed at delivery e S0 1 Respond after one ring e amp DO Ignore DTR e B10 B Chanel Protocol X 75 NL e BSIZE 512 Block size 512 Byte e MSN MSN non active e
3. Perform software reset and load default settings Note Use for default ATZ or AT MSN xxx 67 ZY GE C7 III 68 ETH LAN LAN connections are factory programmed at delivery Note Note e S0 1 Respond after one ring e amp DO Ignore DTR e T TCP IP Mode e PORT 1234 Port 1234 e DTC 60 Data Transmit Control 60 seconds es GW 0 0 0 0 Gateway 000 000 000 000 e NM 255 255 255 0 Net Mask 255 255 255 000 FF FF FF 00 e IP 0 0 0 0 IP Address e QI No feedback messages e amp W Save user settings in non volatile memory The programming must be finalized on location performing the following instruc tions It is important to do the programming steps in correct order Sure complex method Default value First enter AT into the field Modem init string Com2 and send it to DLX using the __5 button Communications nese Baudrate Data Com Port Com 3600 EI Com Modem intern Modem init string Com2 AT C Other interface Figure 47 Communication parameter ETH Don t send now an AT amp W or AT amp F command to the modem This will save probably wrong settings permanently in the modem In case of failure the modem must be sent to manufacturer for correction Turn off DLX and after some seconds on again Now you can set IP Address used for the DLX To do this enter AT IP xxx xxx xxx xxx into the Modem init string Com2
4. gt These settings will only be used if external tariff control is activated Individual combinations are depicted in a graphical manner control input open or closed 48 444 o JP A baer CH 4 Ge 6 8 Scroll list as The scroll list can only display values for information purposes Scroll list x Address Text Unit Address Text Unit 1 10001 Energy Input 1 kwh 11 84000 Last reset 2 110002 Energy Input 2 kwh 12 133001 Maximum Input 1 kw kw 3 110003 Energy Input 3 kwh 13 4 10004 Energy Input 4 kWh 14 5 11001 Energy Sum 1 kwh 15 Ir Mm 6 13101 MD Input 1 kw 16 Z 13102 MD Input 2 kw 17 8 13103 MD Input 3 kw 18 3 13104 MD Input 4 kw 13 10 fino MD Sumt Ze EEE OK Set parameter Cancel i Figure 30 Scroll list Address Enter the address of the register that shall be displayed after pressing the Enter key on the DLX gt If you enter the address 0 this means the end of the scroll list The next press on the Enter key starts the scroll list from the beginning Text For the purpose of easy interpretation you can assign a text of max 20 characters to each address gt The display of the DLX cannot show special characters Unit Enter the physical unit of the displayed value e g kWh Example Enter the register address 84000 in the address field of line 11 and enter the text Date of last reset in the text field next to it After programming the DLX and starting
5. EES 31 Figure 19 Block circuit diagram of impulse processing 4444444ennnnnnnnnnnnnnnannnnnnnnnnnnnnnnnnnnnnnnn nn 32 Figur 20 Input deboUNGiNg EE 33 Figure 21 Pulse ratio E 35 Figure 22 ee EEN Ke E CN 38 Figure 23 Summation eu EE 39 Figure 24 Calculation of cosine of phi and apparent demand 41 Figure 25 Analog INputs EE 42 Figure 26 Control al EE 43 Figure 27 Assignment of signals to Qutputs neuen ESEENN ENEE ENEEEN ESA EEEEEN EEN 45 Figure 28 EE 47 Figure 29 Tariff control by EE sera 48 Fig re E UE E 49 Figure 31 Button WOre ss ae eu 50 Figure Eent E 55 Figure 33 Tariff rate CoNtf l neese ee 56 Figure 34 Tariff calendar Conliguratian a nasssenne nenn 57 Figure 35 Daily rate tables rate table 1 58 Figure 36 Daily rate EE 59 Figure 37 Season definition Season TEEN 60 Figure 38 Season definition Season EE 60 Figure 39 Allocation of daily rate tables for season 1 Mon Fri uueessssnnnenssennnnnnnnnnnnnennnnnnnnnnnnnnnnnn 61 Figure 40 Allocation of the daily rate table for season 1 Gart 62 Figure 41 Allocation of the daily rate table for season 1 Son uussssssnnnnensnennnnnnnnnnnnnennnnnnnnnnnennnnnn nn 62 Figure 42 Allocation of the daily rate table for season 2 Mon Fri 22222444ssnnnnnnnnnnnnnnnnnnnnnnnnnne nenn 62 Figure 43 Public holidays for the tariff calendar 63 Figure Trea SVMS EEN 64 Figure 45 Communication parameter IDN EEN EEN 66 Figur
6. Figure 69 Change pulse ratio Get parameter 89 d P baer IN You can now modify all the pulse weighting factors for the individual pulse inputs see menu item Pulse ratio page 35 Pulse ratio m Figure 70 Change pulse ratio Click on the button Set to send them to the DLX Transmission of data is visual ized by progress bar e e Set ball Set k BHD8DHRERRR 50 Geng ss t Cancel Figure 71 Change pulse ratio Set On successful modification of pulse ratios the program displays this message e DLXPARA xs o Parameter setting ok Figure 72 Change pulse ratio OK gt This parameter change should be documented for later reproduction 90 S Ww III 7 6 Get parameters Read all parameters from a connected DLX unit Get parameters x Read parameters from DLX 0 Get parameter Iw Time V Output assignments v V Tariff control Iw Counter values jw Tariff control by inputs Iw Input debouncing jw Scroll list Iw Pulse ratio jw Registration period Iw Sum components jw Tariff calendar Iw Summation outputs Iw Communications V Cosine phi jw Periodic buffer Iw Analog inputs jw Memory Iw Control inputs jw Extra device language Cancel ES Figure 73 Get parameters Click on the button Get parameter to read all active parameters from the connect ed DLX unit and to upload them into the programm
7. Time till hang up sec 0911123456 15 d en Unit identification D000000000000000 Figure 51 Communication parameter Callback function 444 WW JP Baer CH 4 Ge Phone Number Phone number to be called by DLX callback Time till callback sec Pause between a call and the following callback Number of call tries Number of tries to establish a connection to management software On failure an alarm is generated Time till hang up sec Maximum time between the incoming call and establishing an outgoing connection to management software If this time expires the DLX will hang up If an analogue modem is used this parameter must be at least time to callback plus 30 seconds Note It is important to set following parameter in the Modem init string amp D2 amp S1 BO Overview amp D2 internal DTR line on off transition causes the modem to hang up amp S1 internal DSR line on after a response tone has been detected B0 each character on the internal TxD line will result in an interruption of the connection setup Unit identification Enter the internal unit identification number with the numeric keys The internal unit identification number must have 16 digits Unit identification D000000000000000 Se Ge Figure 52 Communication parameter Unit ID 71 d P baer 6 11 2 SCTM protocol Defining the communication parameters for the SCTM protocol IN
8. 03 15 0840 73 N DA Ww FIN 74 IEC 60870 5 102 protocol Define the communication parameters for the IEC 60870 5 102 protocol IEC 60870 5 102 Protocol xX Identification Number of bytes Link address Hex 0000 C2 o Unit address Hex opp I Transmit tariff info jw Multi buffer ASDU 12 Registration period 1 Registration period 2 Billing meter e Operating meter v Figure 55 Communication IEC 60870 5 102 protocol Identification Parameters for data retrieval all values in hexadecimal notation 0000 to FFFFpex Link address device address length 2 bytes Unit address In addition to the link address a counter register address ASDU address can be assigned length 2 Byte This address is transmit ted automatically by the unit during queries for the most recent measurement values and spontaneous events During subsequent queries of registration period data this address must be set correctly at the control center Number of bytes Defines the number of bytes transmitted for each value during data retrieval Measured values are always aligned to the right for transmission Transmit tariff info Tariff information is sent during data retrieval Multi buffer ASDU 12x This setting allows data retrieval using ASDU 120 to123 Registration period 1 2 Billing meter Registered values are transmitted as billing data with checksum Operating meter Registered data is transmitt
9. From 00 00 PT and DPT From 18 00 NT and DNT Day table starts from the beginning Figure 42 Allocation of the daily rate table for season 2 Mon Fri 62 III d P IN 6 10 3 Definition of public holidays Select the menu item Tariff calendar public holidays to open the dialog for public holiday definition You can define up to 100 public holidays gt Fixed holidays which occur on the same day in every year can be defined by using the wildcard character examples New Year s Day 01 01 or Christmas Day 12 25 Definition of public holidays Public holidays Public holidays Public holiday P h type Public holiday P h type 01 01 2J Type 2 2011 04 22 Typed C Type 2 11 C Type 2 yyyy mm dd yyyy mm dd m Type 3 C Type 3 Set Cancel Set Cancel Figure 43 Public holidays for the tariff calendar Use the scroll buttons to select holiday number 1 the number is displayed to the left of the input field and then use the numeric keys to enter the date for the first public holiday 01 01 New Year s Day Please note the date format YYYY MM DD Year four digits Month two digits Day two digits Do not forget the dashes Now select the holiday type for this holiday in our example New Year s Day is de fined to be as a public holiday of type 1 Input of the remaining public holidays Use the same
10. You can use the dialog Tariff calendar to define the device internal switching times for the various tariff rates This dialog allows you to create a number of different rate tables for different periods of time e g summertime and wintertime for one whole year The following example is used to illustrate the usage Two different seasons wintertime and summertime with different switching times for two energy rates and two demand rates Peak time PT and Normal time NT The following settings switching times are used Peak time PT Time period April 01 00 00 to November 01 00 00 to November 01 00 00 April 01 00 00 MO FR PT SA PT MO FR PT _ 06 00 21 00 06 00 18 00 SA PT 06 00 13 00 06 00 13 00 Normal time NT All other time periods incl Sundays and public holidays Public holidays Holiday type 1 Tariff rate structure like Sunday Normal time NT only 01 01 2011 New Year s Day 22 04 2011 Easter Friday 25 04 2011 Easter Monday 01 05 2011 Labor Day 02 06 2011 Resurrection of Christ 13 06 2011 Whitsun Monday 25 26 12 2011 Christmas Day and Boxing Da Holiday type 2 Tariff rate structure like Saturday Peak time PT from 06 00 to 13 00 24 12 2011 Christmas Eve GUY WG JP Baer CH LP For these tariff settings 4 daily rate tables are required Rate table 1 Rate table 2 Rate table 3 Rate table 4 MO
11. Active Reactive input The correlated source for reactive energy this can be either a pulse input or a summation unit 41 S III 42 6 Note Examples Note Ww as Analog inputs A continuous signal current flow is applied to the signal current inputs e g 0 20mA or 4 20mA This current is proportional to the actual demand For firmware version from 1 06 00 and up the average value 50 scans per second will be send every second to the DLX CPU digital telegram Analog inputs xs Remarks 1 The signal is either OmA 20mA or 4mA 20mA 2 At the end of the registration period either the instantaneous value or the average value of the registration period can be stored Minimum value Maximum value Resolution and Unit 4mA 20mA 1 Instantaneous value 2 Figure 25 Analog inputs Select the settings for every analog input Minimum and maximum value Set the offset OmA or 4mA correspond to the minimum value 20mA correspond to the maximum value Calculation method average value over a measuring period or instantaneous value last data telegram at the end of measuring period Offset minimum value only positive values will be saved and transmitted to the AMR software Summation of the digital values is not possible Signal current input 4 20mA with 0 10m h e g flow Reading constant K 0 1 offset Om h Minimum value 0 data storage 0 Maximum value 100 100 x 0
12. An integrated energy direction switch directs the pulses in the first case to the posi tive output and in the second case to the negative output see Figure 19 Block cir cuit diagram of impulse processing We recommend using a hysteresis equal to the sum of numerators from the pulse weighting dialog of all active inputs If you set the hysteresis to 0 the calculation of balanced sums is deactivated for that summation unit 39 S Ww fa gu 40 Example Pulse output Defines the value for the weighting of output pulses The resolution and physical unit are the same as for the reading constant K see Pulse ratio on page 36 Reading constant K 1 for active energy 1kWh Pulse output Out 2 x 1kWh Imp each output pulse has the weight 2kWh Imp 0 5 Imp kWh III d P IN 6 5 5 Cosine phi and apparent demand Define the parameters for the calculation of apparent demand and cosine phi ol Cosine phi 1 Cosine phi 2 Cosine phi Active input E ER e Input Input C Sum Sum C C 1 Cosine phi 2 Cosine phi Reactive input DR a Input Input C Sum C Sum f C Set Cancel Figure 24 Calculation of cosine of phi and apparent demand Apparent demand d Active Reactive 2 Cos p aL f Active Re active Active input Define the source for the active energy this can be either a pulse input or a sum mation unit Reactive
13. C kvar kvarh 0 001 Mvar Mvarh e P RER C M VAh C KYA KM h Resolution MYA 2 MVA energy Ce Sun 0 01 Complex power 1 i Complex power 2 C 0 001 Cancel Figure 17 Measurement unit text strings Register Selects the inputs summation unit or complex power unit as defined previously Resolution demand energy Selects the number of decimals for each register eg 12kW 12 3kWh 12 34kvar 12 345kvarh Unit Here you can define the correct physical unit for demand and energy for each de fined register In addition to a selection of frequently used units for active reactive and apparent energy demand another 5 unit text strings can be defined and used freely e g m3 h m3 t K C Special characters are not possible e g m 30 544 P DIE DI EG 6 4 Counter values Definition of the counter values for total energy and for each tariff rate Counter values EX Energy value 000000000 I kWh Register ai Tariff e Total C Tariff 1 Tariff 2 r r Set Cancel Figure 18 Counter values Register Select the input for which you want to adjust the energy value the counter or meter reading Tariff Select the tariff rate for which you want to adjust the energy register value Energy value Here you can define the energy value the register or meter reading for the select ed input or register You can use the value 000000000 9 digits as s
14. Demand REG 120 nn Z REG 100 ee cum een last MPI Increment REG 270 nn ZEREG 100 ee curr Input 1 16 P 3 Maximum demand Registration period MP1 Total 60 rate 1 MPI rate 2 REG 131 ee DIFF pi REG 100 ee x 60 MP1 for demand current last MP1 rate 3 REG 131 ee DIFFyp1 REG 100 ee for increment D MT rate 4 Value Time Demand Increment REG 141 pp L REG 131 ee Total Total 1 4 rate 1 rate2 Forward rate 3 rate 4 Value Time Maxima 320 nn _ Total 321 nn _ rate 1 322 nn rate2 Backward i 323 nn__ rate 3 current last MPI MT 324 nn rate 4 Registration period MP2 REG 151 nn Z REG 131 ee Vave Time 60 L e i32 c i62 cc_ REG 132 ee DIFF Mp2 REG 100 ee x 60 MP2 for demand MP2 132 ee 1162 REG 132 ee DIFF ups REG 100 ee for increment REG 142 pp L REG 132 ee ET O EES current last MP2 REG 152 nn L REG 132 ee Figure 19 Block circuit diagram of impulse processing gt Any calculation of values for registration period 2 MP2 Tm2 only takes place if a period duration other than 0 was defined in the menu item Load profiles 32 S Ww III 6 5 1 Input debouncing Definition of input conditioning parameters for each input dependent of meter Input debouncing Input Minimal HIGH Phase 3 10ms All inputs 10 ms Minimal LOW Phase 10ms rane set E All inputs 30 ms Input 4 Input 5 Maximal HIGH P
15. EG Gaer 58 6 10 2 Tariff calendar definition 6 10 2 1 Daily rate tables Si For our example we require 4 different daily rate tables _Daytable_ In order to define these daily rate tables you select the menu item Tariff calendar from the menu item Tariff Then click on the button _Daytable Day table to open the dialog for the definition of the daily rate tables You can define up to max 15 different daily rate tables each with up to 8 different switching times for the various rates gt The range of selectable energy and demand tariff rates depends on the num ber of rates defined in the dialog Number of see page 29 Entering the first daily rate table Day table 1 A daily rate table can consist of a number of rate settings and it always spans a pe riod of 24 hours Definition of daily rates 06 00 to 21 00 PT energy peak time and DPT demand peak time 21 00 until end 06 00 NT energy normal time and DNT demand normal time Day table Er Day table 1 Day table 2 Day table 3 Day t_4 DPT DPT 4 Io Hour Minute Energy Demand 1 06 loo Pr DPT sl 2 21 loo Int sl DNT sl 3 End DPT 5 er DPT v loo End Oo V 4 21221322 JA End l Cancel Figure 35 Daily rate tables rate table 1 fa au NY P Ww NY Select the tab Day table 1 to define the daily rates Select the first daily
16. field and send it using the __ button Example IP 192 168 1 101 Communications Fi Baudrate Data Com Port Com 3600 EI Com Modem intern Modem init string Com2 ATHIP 1 92 168 1 101 C Other interface Figure 48 Communication parameter ETH IP Address III S Ww Note Optional settings send following commands to the DLX new port number AT PORT yyyyy 3 Sei with yyyyy new port number default the TCP IP connection uses the port number 1234 new gateway AT GW XXX XXX XXX XXX A ZS new net mask AT NM XXX XXX XXX XXX _ 5 TCP IP keep alive value ATHKEEP 10 Sa Default value finally send an AT command to DLX AT _ G x BAER Communications Baudrate Data Com Port Com1 9600 v Com2 Modem init string Com2 Modem intern C Other interface AT Figure 49 Communication parameter ETH default value Important Turn DLX off and after some seconds on again This causes all set tings to be enabled Use for default AT Fast method Set IP Address used for the DLX To do this enter AT IP xxx xxx xxx xxx into the Modem init string Com2 field and send it using the Set button G Communications lt a Baudrate Data Com Port Com 9600 X Com ger S Modem init string Com2 Modem intern Other interface ATHIP 192 168 1 101 Figure 50 Communication parameter ETH IP
17. 03 sum 3 04 sum 4 registration period 1 period MP1 Tm1 2 period MP2 Tm2 d AY I fa au Current cumulated energy values 10tcc Current energy value for input cc and tariff rate t I11tpp Current energy value for the positive sum pp and tariff rate t 12tnn Current energy value for the negative sum nn and tariff rate t Current demand values analogue inputs version 1 06 00 and up Current demand value for registration period m for input cc Analogue inputs instantaneous value from version 1 06 00 and up 137cc Analogue inputs average value for registration period Tm1 138cc Analogue inputs average value for registration period Tm2 Current demand value for registration period m for positive sum pp 15mnn Current demand value for registration period m for negative sum nn Demand values for the most recent registration period Demand value for the most recent registration period m for input cc Demand value for the most recent registration period m for positive sum pp 18mnn Demand value for the most recent registration period m for negative sum nn Cumulative energy values for the most recent registration period MP1 Tm1 Cumulative energy value for the most recent period MP1 for input cc and tariff rate t 20tpp Cumulative energy value for the most recent period MP1 for positive sum pp and tariff rate t Cumulative energy value for the most recent period MP1
18. 1 fa au d P IN 6 5 2 Al Note Pulse ratio Definition of the numerator and denominator of individual inputs depending on me ter constants transformer ratios and reading constants Pulse ratio 1 Denominator Cancel Figure 21 Pulse ratio Input Selects the input for which the weighting factors need to be adjusted Energy Numerator Here you enter the numerator for the selected input calculated from the formulas below Energy Denominator Here you enter the denominator for the selected input calculated from the formulas below In order to correctly calculate the energy represented by input signals of different or igins it is necessary to standardize the incoming pulses to a common unit and weight You use the pulse weighting factors for each input to achieve this The pulse weighting factors are represented by whole numbers with 8 digits each for numera tor and divisor For calculation of the analogue inputs 0 20mA or 4 20mA from firmware version 1 06 00 and up see menu item Analog inputs on page 42 35 WAN S Ww P DIE 36 Energy value weighting Meter with transformer nu pulse inputs Y RxK Meter without transformer consi pulse inputs or oe L signal current input 0 20mA Y 72000xK or Oo signal current input 4 20mA Y 57600xK X Y Numerator X and denominator Y whole numbers 8 digits W Transformer ratio primary to se
19. 1m h 10m3 h data storage 100 Signal current input 4 20mA with 20 50m e g water level Reading constant K 1 offset 20m Minimum value 20 20 x 1m 20m data storage 0 Maximum value 50 50 x 1m 50m data storage 30 Signal current input 0 20mA with 20 C 70 C e g temperature Reading constant K 0 1 offset 20 C Minimum value 200 200 x 0 1 C 20 C data storage 0 Maximum value 700 700 x 0 1 C 70 C data storage 900 Minimum value 0 and Maximum value 50 analog input deactivated S NY DIE 6 7 Control in and outputs 6 7 1 Control inputs Setting the parameters for control inputs Control inputs Reset disabled for MP1 ER Input CH1 SYN D Reset counter E Input CH 2 RSTX D Time for scroll button 9 Input Ct 3 ANZ e InputCth4 TR e Input CH5 TR2 e Input CHE TR3 e Input Cti z TR4 v SYN edge Positive Negative i 7 Sen ter Kae C Daily reset 00 yj 90 e Weekly reset M onday er Dee g 1 el January Figure 26 Control inputs As an option the DLX can be fitted with several control inputs Depending on the hardware version the following functions can be activated Reset disabled for MP1 Defines the period of time during which no reset can be initiated in registration peri ods MP1 The value can be set between 1 and 100 registration periods value 0 is not permitted Example The registration period MP1 is set to
20. 20mA or 4 20mA up to firmware version 1 05 06 then for these inputs you must set the minimum LOW phase value to 1 to prevent loss of incoming pulses Maximal HIGH Phase If an incoming pulse has a duration longer than this value the DLX will not register it pulse length monitoring This function is deactivated by entering the value 0 Invert input By default the DLX counts pulses on their rising edge When you select to invert an input then pulses will be counted on their falling edge Standard pulse Change from LOW to HIGH Phase Inverted pulse LL Change from HIGH to LOW Phase Pulse barrier With pulse barrier enabled all pulses arriving in a time window around the end of registration period Top are buffered These are forwarded in the next registration period synchronizing all following devices This is done to accomplish identical fig ures at main and control measurement This can cause pulses appear as packets at pulse outputs and summation registers Features individually configurable for every input time range 9 9 s around end of registration period Top settable in steps of 100 ms Instantaneous value MP1 1min For special calculation e g fill level fluid level temperature at the end of registra tion period it is possible to activate the measuring for the last minute in every regis tration period This function can be activated only for registration period MP1 Tm1 Buffer
21. E Disable display scaling on high DPI settings rivilege Level Change settings for all users L ok 11 Ge II Zen Figure 1 Properties Following start the Setup Program d N Ww OBE 10 Example N as Manually installation The following paragraphs explain how to install the programming software on a computer where it was previously not installed and no such directory exists Installation from CD drive D source drive onto hard disk drive C target drive on the hard disk into a newly created directory named DLXPARA Insert the CD ROM into the CD drive Start the MS Windows Explorer and select the root folder of the drive on which the pro gramming software shall be installed click on the drive symbol on the left hand side of the screen Create a new folder named DLXPARA on this drive File New Folder Now select the CD drive click on the symbol with the name D next to it Select all files on the right hand side of the screen and copy them into the newly created folder named DLXPARA The programming software is now installed on drive C in the folder DLXPARA IIE ig ZY Z OG ED JP If you would like to be able to start the software without using the MS Windows Ex plorer you can create a shortcut on the so called desktop of your computer the desktop is what you see on the screen when no applications are running
22. FR MO FR SO SA summertime wintertime holiday type 1 holiday type 2 PT 06 00 21 00 PT 06 00 18 00 NT 00 00 00 00 PT 06 00 13 00 NT 21 00 06 00 NT 18 00 06 00 NT 13 00 06 00 These settings can also be put into different tables with a slightly bigger effort in the table definition Rate table 1 Rate table 2 Rate table 3 Rate table 4 MO FR MO FR SO SA summertime wintertime holiday type 1 holiday type 2 NT 00 00 06 00 NT 00 00 06 00 NT 00 00 00 00 NT 00 00 06 00 PT 06 00 21 00 PT 06 00 18 00 PT 06 00 13 00 NT 21 00 00 00 NT 18 00 0000 NT 13 00 00 00 The following example only shows the steps required for the first set of tables 6 10 1 Tariff calendar configuration Definition of the number of seasons max 6 and the type of daily rate tables max 4 Tariff calendar configuration Sa No of seasons r Day table eist z C Mon Sun G CP C Mon Sat Sun public holiday p h CE e Mon Fri Sat Sun p h 1 p h 2 C Mon Tu Th Fri Sat Sun p h 1 2 3 Cancel Figure 34 Tariff calendar configuration You can use this dialog to adjust the number of required seasons and to define the basic structure of the daily tariff rate tables You can use up to 6 seasons and you can choose from 4 different daily rate tables For our example we require 2 seasons and the daily rate table structure named Mon Fri Sat Sun p h 1 public holidays 1 p h 2 public holidays 2 57 o JP 4
23. Liz Lise 2 M Apparent demand 1 Wi Cosine phi Cosi1 TI Cos 2 CosI TI Cos2 Cancel Figure 58 Periodic buffer 1 Demand values energy values or energy increments relevant for billing pur poses see menu item Buffer options under Periodic buffer can be stored and transmitted via the data interface or the modem using SCTM protocol or IEC 60870 5 102 protocol in two load profile buffers for registration periods MP1 and MP2 Input Select the inputs that must be stored in the selected periodic buffer MP1 Tm1 or MP2 Tm2 Sums Select the summation units that must be stored in the selected periodic buffer MP1 Tm1 or MP2 Tm2 III WAN S N Apparent demand Select the apparent demand registers that must be stored in the selected periodic buffer MP1 Tm1 or MP2 Tm2 Cosine phi Select the cosine phi registers that must be stored in the selected periodic buffer MP1 Tm1 or MP2 Tm2 The DLX will always store the first three digits to the right of the decimal point in rounded form for cosine phi values The following table shows some examples of rounding storage and transmission for the cosine values transmitted DLX display 0 9987 6 000999 00000999 0 9987 8 00000999 00000999 me e 001000 00001000 noo e 00001000 oooorooo 003 6 000030 00000030 003 8 00000030 00000030 6 12 3 Periodic buffer 2 P See Perio
24. OI No feedback messages e AW Save user settings in non volatile memory The programming must be finalized on location performing the following instruc tions It is important to do the programming steps in correct order Default value Enter ATZ as Modem init string and use the Set button to send it to DLX Communications pee Baudrate Data Com Port Con 9600 v Com Modem intern C Other interface Modem init string Com2 ATZ Figure 45 Communication parameter ISDN Don t send now an AT amp W or AT amp F command to the modem This will save probably wrong settings permanently in the modem In case of failure the modem must be sent to manufacturer for correction Turn off DLX and after some seconds on again Now you can set the MSN number if necessary To do this enter AT MSN xxx into the Modem init string Com2 field and send it to DLX using the Set button Communications Ex Baudrate Data Com Port Com1 9600 v Com Modem init string Com2 AT MSN 123 e Modem intern C Other interface Figure 46 Communication parameter ISDN MSN Number This value is recommendable for default You can disable an MSN number using the modem init string AT MSN and sending it to DLX use the Sei button S IN III 4 Some other commands to be optionally sent to DLX AT amp W A Set Save current configuration as default ATZ Set
25. Online programming individual parameters are sent directly from the relevant dialog windows to the DLX by using the action buttons Set or Set parameters after having been modified 2 By using the menu item Set all parameters Please proceed as follows e Connect the service interface of the DLX with a free COM port of your PC using a programming cable e Put the program protection switch of the DLX into the position Set Enable see DLX User Manual e Create or open a parameter file e Enter the valid password menu item Password e Program the DLX menu item Set all parameters e e E JP 5 File 5 1 New Creates a new unnamed parameter file with the default settings of the program ming software Open Opens an existing parameter file Cader EH K Computer Local Disk C DLXPARA X D Search DLXPARA P Organize v New folder s H x 5 Name 9 Date modified Type Size BI Info prd 06 06 2011 15 56 PRD File 9KB a Test prd 06 06 2011 16 23 PRD File 9 KB a kk amp es File name Info prd v Parameterdatei prd D Figure 12 Open a file This menu item allows you to read an existing parameter file prd The four most recently used parameter file names are shown at the bottom of the File menu If you select any of them it will be opened automatically Save Saves the parameters in the open parameter file With this
26. SCTM Protocol xa Unit identification 000 12345 Identification for registration period Communication password Transmit tariff information in the 2nd byte of the device status Mark change of LOG input in device status Transmit more than 16 measured values per reqistration period Time and Summertime Bit in the device status of the registration period e correspond to the state at the End of the registration period DLX standard correspond to the state during the registration period Set Cancel Figure 53 Communication SCTM protocol Unit identification Enter the unit identification number for SCTM transmissions 5 or 8 digits If the first three digits of an 8 digit unit identification number are 000 then the DLX will answer on both the 8 digit number e g 00012345 and the resulting 5 digit number e g 12345 Unit identification for MP1 Enter an additional unit identifier for the registration period MP1 Tm1 Unit identification for MP2 Enter an additional unit identifier for the registration period MP2 Tm2 gt Using the unit identification of the DLX all information can be retrieved MP1 Tm1 MP2 Tm2 and S51 spontaneous events buffer using the unit identification for MP1 only data for registration period MP1 Tm1 can be retrieved and respectively for unit identification for MP2 Identification for registration period Activates the unit identifiers for MP1 and MP2 7
27. for negative sum nn and tariff rate t Current energy values for the most recent registration period MP1 Tm1 since last reset Current energy value since last reset for MP1 for input cc and tariff rate t Current energy value since last reset for MP1 for positive sum pp and tariff rate t Current energy value since last reset for MP1 for negative sum nn and tariff rate t Current energy values since last reset Current energy value since last reset for MP1 for input cc and tariff rate t Current energy value since last reset for MP1 for positive sum pp and tariff rate t Current energy value since last reset for MP1 for negative sum nn and tariff rate t 51 d N Ww P OBE Maximum demand and timestamp for the current reset period current maxi mum without unit EE demand and timestamp for the current reset period for tariff rate t and input 31tpp m demand and timestamp for the current reset period for tariff rate t and posi tive sum pp Maximum demand and timestamp for the current reset period for tariff rate t and nega tive sum nn Maximum demand and timestamp for the last reset without unit Maximum demand and timestamp for the last reset for tariff rate t and input cc 34tpp Maximum demand and timestamp for the last reset for tariff rate t and positive sum DD Maximum demand and timestamp for the last reset for tariff rate t and negative sum nn Cumulate
28. for unit restart factory set Connection Password change gt Other pass tings words A8 N N III A9 Ka N WAN N NN Ns III Subject to change without notice
29. keys lt ccsiiscsrsccscctscasccansacctennsessannstinensnenncanctantanotansnnectinndceanenatianiaactannnessnnnatiennnca 17 FOTO zu nee ee erlernen 18 4 51 AGLION te E 18 25 2 2 ag Control Are een 20 4 5 3 Text input controls with scr lllbars cn iusiusninn tete 20 Connection to the DLX ee ee ee ee ee 21 Lal 23 NEW een 23 OPEN e cae we ec ccc sts ya sear cece ee eee eee eee ce eee 23 SE eege 23 Eeer 24 NEE 24 REENEN ee 24 BE Set p EE 24 LS EE 24 E A A Eege 25 Te eege dE 26 PRISON es aces BEDEEREEREDE TER ARBEPEELSEBPEUR a EDFTEBESESREN SED a ate ma teacee pease 29 Eeer 30 C nter VAS so ere Spee atc eis et eee a ee ee eee 31 Pulse IN OUT DUNS EE 32 oN ee OUI Ne EN WE 33 652 PU Eee 35 6 5 3 EE 38 6 5 4 Summalon olBule een 39 6 5 5 Cosine phi and apparent demand 2 224440nHannnonnannnonnannnnnnnnnnnnnnnnnnnnnnnnnnannnnnannnnnnannn 41 Analog INPUTS EE 42 Control in and e el 43 6 7 1 Gontro NDS ressidar ee ee 43 EE 45 ZY ZW HET P Gaver 6 7 3 Tariff cool ee 47 6 74 Tariff Control il 48 GE UR EE 49 6 9 Registration Mee Le EE 55 6 10 Tarif Ee EE 56 6 10 1 Tariff calendar eu leie e EE 5 6 10 2 Tariff calendar E 58 6 10 2 1 Daily rate EE 58 6 10 2 2 Definition Of SASONS E 60 6 10 2 3 Allocation of daily rate tables to seasons cccccccccccccceeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeeeenseneess 61 6 10 3 Definition of e e Mate le EC 63 611 GEIER 64 6 11 1 Transmission settings 64 E ENER e EE 72
30. may have created at installation Short description of the DLX device The DLX was designed as a powerful device for the registration and processing of electrical impulses from energy meters flow meters heat flow processors and simi lar devices It is meant for installation in bulk energy supply points power station in jection points at special contract customers and industrial premises Load profiles calculated values and spontaneous events are processed and stored on the site This data can be interrogated by hierarchically higher processing devices via a number of interfaces The direct serial service interface RS232 can be used to read and program the DLX via the programming software DLXPara Compatible data retrieval software e g SIGLON can be used to read data on site The data interface RS232 20mA CS M Bus or RS485 can be used to retrieve da ta on site via data retrieval software Alternatively an external modem can be con nected via RS232 The modem interface can be used to connect via the internal modem optional to the public switched telephone network PSTN and data can be uploaded to a PC Alternatively it is possible to use ISDN or Ethernet Modem An optional PC Card backup memory can be used to store the content of the peri odical buffers and the spontaneous event buffer as well as part of the device pa rameters This PC Card can be read by compatible data retrieval software via standard card readers an
31. or when all applications are minimized Move the mouse pointer to an empty area of the desk top somewhere over the background image and press the right hand button From the dropdown menu select the item New and wait for the next dropdown menu to open Now select Shortcut In the dialog that is now open either enter the com plete path to the DLXPara software or click on Browse to locate the program Now click on the button Next and enter a description for your shortcut We suggest you use DLXPara Now click on Finish Create Shortcut This wizard helps you to create shortcuts to local or network programs files folders computers or Internet addresses Type the location of the item Browse Click Next to continue Cancel Figure 2 Creating a shortcut You can move this new shortcut to anywhere on the desktop by pressing the left hand button on the mouse while the mouse pointer is over the icon and then mov ing the icon while keeping the button pressed When you release the mouse button the icon will be dropped onto the desktop gr My Computer td Windows Explorer DLXPara Figure 3 Icon on desktop DLXPara 11 N OBE 12 AN RN IN 2 2 3 2 4 Update For an update just overwrite the file DLXPARA EXE with the new release Uninstalling the program In order to uninstall you manually have to delete DLXPARA EXE and the directory and shortcut you
32. rate switching time in hours and minutes in our example the first switching of rates occurs at 06 00 Select the energy and demand rates that must be activated in our example the peak time rates for energy PT and demand DPT shall be activated at 06 00 Select the second daily rate switching time in hours and minutes this is also the stop time for the first set of daily rates in our example the second switching of rates occurs at 21 00 Select the energy and demand rates that must be activated for the second daily rate zone in our example the normal time rates for energy NT and demand DNT shall be active from 21 00 to 06 00 The first daily rate table is now complete If no further rate changes have been programmed then the rates last activat ed stay active until the next rate change happens in our example at 06 00 on the next day If the change to a new day activates a new daily rate table then the relevant rates for that table will be used from 00 00 Switching times must be entered in ascending order Entering the remaining daily rate tables The remaining daily rate tables are programmed accordingly same pattern of ac tions as for the first daily rate table Please make sure that you first select the correct tab Day table Daytable1 Day table 2 o iw Im im ie ka N ie el mee Dat 31 Demand DNT DPT esa Dat 4 gt Demand DPT DNT Sea Day table 3 Day ll Energy PT NT Day
33. 003 01 01 00 00 00 2003 01 01 00 00 05 2003 01 01 00 00 00 2002 12 31 23 59 29 2002 12 31 23 59 00 2002 11 28 11 54 30 2002 11 28 11 55 00 Synchronization to a minute that is not identical with the end of registration period is only possible if the synchronization window is set to 0 The SYN input and the radio clock receiver module of the DLX cannot detect whether the internal device time is set properly date hours and minutes The unit will only set the seconds to 0 and the minute to the closest minute value see table above Set time via SCTM Enables the transfer of date and time during remote data retrieval when using the SCTM protocol e g via modem Per registration period Tm1 is only one attempt for set time possible d P IN Number of Definition of the number of inputs tariff rates summation units apparent demand and balance calculation After every change set all parameters see chapter Set all parameters on page 88 Number of Sa Total number of inputs pulse inputs 16 Energy tariff rates gt w analog inputs Ip EI Thereof analog inputs 4 Demand tariff rates v Sums 4_ Iw Balance 1 minutes summation Cosine phi gt w Cancel Figure 16 Number of inputs sums tariff rates Total number of inputs Defines the number of inputs in the DLX pulse inputs and analogue inputs This number must be between 1 and the number of physical
34. 15 minutes the reset is disabled for 3 registra tion periods this results in a blocking time of 45 minutes for the reset Reset counter Defines the initial value for the reset counter a value between 1 and 12 The reset counter will be increased by 1 on each reset It rolls automatically over to the value 1 The reset counter can as an example be set equal to the current month 43 N DA Ww OBE 44 Time for scroll button Defines the period of time between automatic scrolls to the next register address in the scroll list after pressing the Enter key on the DLX If you set this value to 0 then automatic scrolling is disabled and the next entry in the scroll list is only dis played on the next press of the Enter key The time is measured in seconds The maximum time that can be defined is 240 seconds SYN edge Defines the polarity of the SYN input Default setting synchronization on the rising positive edge of a pulse This control is only active once the SYN function is assigned to a control input Input Ctl1 to Ctl7 Define the assignment of functions to control inputs The following functions are available SYN external synchronization TR1 to TR4 control inputs for external tariff rate control RSTX external reset Log 1 to Log 4 logic inputs changes to these inputs can be stored ANZ ROLL scrolling the display via an external signal none no function Automatic rese
35. 2 fa au d P IN Note Example Example Communication password Using a communication password adds an additional level of security If enabled this password must be sent by management software at every SCTM communica tion request The communication password must be either cleared disabled or exactly 9 charac ters long Otherwise an error message will be displayed DLXPARA x i Password less than 9 characters input Figure 54 Communication SCTM protocol wrong password Transmit tariff information If this checkbox is marked the DLX sends the tariff information byte in the device status byte 2 during SCTM transmissions Mark change of LOG input If this checkbox is marked all signal changes of the logic inputs Log1 to Log4 will be saved in the device status byte 2 and sent during SCTM transmissions Transmit more than 16 values per registration period If this checkbox is not marked standard only up to 16 register or counter values can be transmitted per registration period Time and Summertime Bit in the device status When the summertime switch happens the device can transmit either the current time setting DLX standard Time Device status 01 30 0040 01 45 0040 03 00 8840 03 15 0840 or alternatively the state during the registration period setting correspond to the state during the registration period 01 30 0040 01 45 0040 02 00 8040
36. 2 Tm2 RSTA reset output time for billing list Alarm 1 and Alarm 2 alarm outputs TRA1 to TRA4 tariff rate outputs 1 to 4 Log1 to Log4 logic outputs none no function default settings Rel 1 Alarm 2 Rel 2 MPA1 Outputs of summation units cannot be assigned to mechanical relay outputs For some output functions the type of output signal can be defined Pulse pulse with variable length in steps of 200ms for MPA and RSTA or in steps of 1 sec for alarms Switch permanent state until the signal changes Time MPA Defines the length of time for which the registration period output shall be active at the end of a registration period The typical value for MPA is 9 seconds this corre sponds to 45 x 200ms The highest value for MPA is 20 seconds this corresponds to 100 x 200ms This value can only be set once MPA MPA1 or MPA2 is as signed to an output Possible values 1 to 100 Reset output Defines the mode for the RSTA output pulse or switch This can only be defined once RSTA is assigned to an output RSTA pulse length Defines the pulse length for the reset signal for billing list The typical value is 9 seconds this corresponds to 45 x 200ms The highest value is 20 seconds this corresponds to 100 x 200ms This can only be defined once RSTA is assigned to an output Possible values 1 to 100 Alarm 1 or Alarm 2 Defines the mode for Alarm 1 or 2 pulse or switch This can only be defined once a
37. 27 BAR Industrie Elektronik GmbH accept any liability for mistakes in this document or for any sub sequential damage arising from installation or usage of the software Zz BAR Industrie Elektronik GmbH preserves the right to modify or withdraw this document at any time without prior announcement Zz BAR Industrie Elektronik GmbH does not accept any responsibility or liability for the installa tion usage maintenance or support of third party products Printed in Germany Gaer DA GA FA JP _ ch ch DA Mi 2 1 2 2 2 3 2 4 3 1 3 2 4 1 4 2 4 3 4 4 4 5 4 6 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 6 1 6 2 6 3 6 4 6 5 6 6 6 7 Table of Contents ETE UE 7 lee e EE 7 en E 7 SVSIEM TEOUNEIMENIS eenegen eener Eeer ees 7 TEAS Cea NAA ON a pa a cs ccs acce ei ee canen ena enatadecdacnecesenaeaencesteees 9 Manually installation EE 10 Update ee eg 12 Uninstalling the program nahe ae ni 12 Short description of the DLX device ANEN 12 Starting the programming software uusununnnsnnnnnnnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 13 Invisible items een ee 13 Application Deel E einer ee ee 14 ET Ne g K me Pe eee ee eee er 15 Main window ne 15 Menu EE 15 Kee 16 Selecting menu 8 EE 17 4 4 1 Selection with hanne 17 4 4 2 Selection with the keyboard ccccsscsccsssesceeseeeeeeeeeeaeeeeeeaeeeeeaeesaseaeesaeeaeeeeeaeseaseaeseeesneneeeenanae 17 4 4 3 Selection with Hot
38. 2_ min 12 Bytes in Tm1x Entries in Tm1 n Measuring period MP2 Tm2 Sectors in Tm2x65522 mi 12 Bytes in Tm2xEntries in Tm2 where Bytes in Tm1 2 4 for 4 stored decades 6 for6 or 8 stored decades Sectors in Tm1 2 Round memory share for Tm1 2 x 9 depends on the settings for the division of internal memory in DLXPARA e g share for MP1 56 Sectors in Tm1 5 Entries in Tm1 2 1 to 32 depends on the number of inputs sums apparent demand registers and cosine phi register select ed for the registration period load profile 81 WAN N Ww P DIE 82 6 14 Extra device language Select the language for the DLX display e Extra Ea Language DLX Display C German EN C French C Dutch Figure 60 Extra Language DLX Display Select the language to be used on the DLX display Currently four languages are available e German e English e French e Dutch gt This dialog does not change the language used in the programming software DLXPara e e E JP 7 Connection 7 1 Password Input for the password for Parameters f Password mi DLXPARA Sc Password input Password Cancel Send password Figure 61 Password Without input of the correct password for Parameters no parameters can be transmitted to the DLX when selecting the menu item Set all parameters Connect the service interface of the DLX to the PC Lapt
39. 6 11 3 IEC 60870 5 102 Pte E 74 6 11 4 Modbus RTU protocol nee 75 6 12 Periodi E 76 LK WE ele EE 76 6 12 2 Periodic buffer WE 78 6 1423 Periodic Dufner EE 79 6 13 NITIA 80 6 14 Extra device anlage eier 82 7 eea ei 2 aa E T T E AT 83 Tei PassWord socian e ee 83 TP PassWord en Cat 85 7 2 1 Change parameter D n veekrrksstntheiekAkAEEAAEAEASAEAAEAAEEAAEE AANER 85 7 2 2 Change lune 86 73 Factory Setti S sre ee apaa TEA EAE REE EEA OTERA EE EEEE RRE ES 87 7 4 Set all EE 88 7 3 Change pulse Tale eaae kei 89 Ee EE 91 Tes Ne ee ee ee era 92 Te EE 93 Appendix A Possible Erf r e ee ee eier from A 3 Gaer DA GA FA JP Table of Figures Fig re 1 Properti ES gesteet 9 Figure 2 Creating a SIVA CU casa os esac ee 11 Figure 3 leon on desktop DLXPara u ae a mame 11 ei VIA le EE 13 Figure 5 Graphical representation of the application environment 44444sssnnnnnnnnnnnnnnnnnnnnnnnn nenn 14 Figure 6 EE 15 Figure 7 Action button Cancel rissies ese e Ee E E EEA EE ENEA 18 Figure 8 Action button OR ann een ee een 18 Figure 9 Action ern 19 Figure 10 Action button Set parameter ENNEN 19 Figure 11 Location of the service interface at the DIN 21 Fig r 12 Operna file ee 23 PIQUVG 13 AVG TINGS esse 24 Figure 14 E E 25 Figure 15 Setting the time Paramelers n anne une anna 26 Figure 16 Number of inputs sums tariff rotes 29 Figure 17 Measurement unit text Strings ENNEN 30 Figure 18 Counter values
40. Address Turn DLX off and after some seconds on again This causes all settings to be enabled 69 d Ww III 70 Default protocol Com1 Com2 Select the desired transmission protocol for the data interface The device automat ically detects the protocol used by the control center for SCTM and IEC only It al ways interprets the first telegram in the default protocol If it cannot interpret the first telegram correctly the DLX switches the interface to the other protocol As a con sequence the first telegram is lost and needs to be repeated by the control center After a time period of 5 minutes without any telegram transmissions the interface will be automatically switched back to the default protocol SCTM IEC 60870 5 102 IEC 60870 5 102 SCTM Modbus RTU selects at first the SCTM protocol 7 even 1 7E1 af ter that IEC selects at first the IEC protocol 8 even 1 8E1 after that SCTM selects on both interfaces Com1 and Com2 the Mod bus protocol only 8 none 1 8N1 Callback function possible for PSTN modem only The callback functionality causes the DLX to terminate every incoming call immedi ately and after that call a previously programmed telephone number This call then must be accepted by a suitable management software e g AMR which can read data from the DLX Iw Callback function Callback parameters Phone Number Time till callback sec Number of call tries
41. II DLXPara Programming Software User Manual Doc No E116011212056 EI Test prd DLXPARA File Edit View Parameter Connection Dei S ojJBjn z l t Ready COM1 Version 1 06 00 NUM Bar Industrie Elektronik GmbH Rathsbergstr 23 D 90411 Nurnberg Phone 49 0 911 970590 Fax 49 0 911 9705950 Internet www baer gmbh com d AY e FIN COPYRIGHT Copyright 2012 Z BAR Industrie Elektronik GmbH All rights including those originating from translation re printing and copying of this document or parts thereof are reserved No part of this manual may be copied or distributed by electronic mechanic pho tographic or indeed any other means without prior written consent of Z5 BAR Industrie Elektronik GmbH All names of products or companies contained in this document may be trademarks or trade names of their respective owners Note Based on its policies Z327 BAR Industrie Elektronik GmbH develops and improves their products on an ongoing basis In consequence gt gt BAR Industrie Elektronik GmbH preserve the right to modify and improve the software product described in this document Specifications and other infor mation contained in this document can change without prior notice This document does not cover all functions in all possible detail or variations that may be encountered during installation maintenance and usage of the software Under no circumstances whatsoever will Z3
42. NNE ENNEN 87 Figure 67 Set all EE 88 Figure 68 Change pulse ratio Password an 89 Figure 69 Change pulse ratio Get parameter ENNEN 89 Figure 70 Change pulse ratio E 90 Figure 71 Change B lse fall Set ae ee 90 Figure 72 Change EE Le 90 Figure 73 Get EE 91 Figure 74 Port selection c cctivetniss ecerecbiweendseinonteb mcararsineeatchimvontvewyenebinparass weardbimneptiamensmnemmeNe 92 Leite Ee 93 SIEB DIE ZZ Zp 1 General 1 1 Short description P The programming software DLXPara can be used to program a DLX unit via the se rial communication interface The DLX can only be programmed with this program ming software If the parameter settings are saved in a parameter file several DLX can be pro grammed with identical or similar settings without having to laboriously re establish these parameter settings 1 2 Contents The software package contains a CD ROM and this user manual gt This manual describes the complete functionality of the programming soft ware Individual menu items may differ from this manual 1 3 System requirements d Computer PC minimum Intel Pentium 500MHz or comparable PC Lap Y top Main memory 2 256 MB Hard disk ca 1 MB for installation and 2 1 MB for parameterization files Disk drives Minimum CD ROM Interfaces Minimum one RS232 interface COM1 to COM30 Alternative USB interface with converter from USB to RS232 My Operating system Microsoft Windows 7 Vista XP A
43. Therefore gt 5 _ 35 or 2 Y 72000x1 720 144 The resolution for the display of energy values is 1kWh for demand values it is 1kW offset 1000kW gt If you need to total several inputs in a summation unit then the reading con stant K must be the same for all of these inputs 37 N NA Ww P FIN 38 6 5 3 sl Sum 1 Sum 2 Sum 3 Sum 4 Sum components Define the allocation of inputs to summation units Sum components Fi 1 2 4 5 6 H 8 2 0 le EG EES EZ SS SS dE EZ EES WG I dE RE Eu EA mt Tee ee N Cancel Figure 22 Input allocation to sums Sum Allocation of inputs 1 to 16 only pulse inputs are possible to the desired summa tion unit You can toggle between and inactive by clicking on the buttons with the mouse or by selecting a button and then using the space bar Use the Tab key to move between rows of buttons and the arrow keys to move from one button to next within the row Plus The input will be totaled into the positive sum Minus The input will be totaled into the negative sum Empty The input will not be totaled In our example Input 1 Input 2 Input 3 Input 4 Input 1 Input 2 Input 5 Input 6 Input 1 Input 5 Input 9 Input 11 Input 1 Input 2 Input 3 Input 4 Input 9 Input 10 Each summation unit in the DLX uses two registers a positive sum and a negative sum e g import export for f
44. Windows 2000 2003 2008 Server Windows NT 4 Windows 98SE ME 95 and up Recommendation of the manufacturer Microsoft Windows 7 XP III d ww N EE 2 Installation In order to install the programming software all files on the shipped CD ROM need to be copied onto the hard disk drive of the PC or Laptop computer e g into the di rectory DLXPARA For automatically installation insert the CD ROM in the respective drive The start menu automatically appears If this is not happening open the Microsoft Windows Explorer and then choose DLXParaV106xxSetup Directory for installation Program files Baer Industrie Elektronik GmbH DLXPara Program name DLXPara For installation on a computer with Windows 7 please change the Properties Compatibility Privilege Level of the DLXParaV106xxSetup Software Set the mark Run this program as an administrator E EI DLxParaV10501Setup exe Properties 3 General Compatibility Security Details Previous Versions F you have problems with this program and it worked correctly on an earlier version of Windows select the compatibility mode that matches that earlier version Help me choose the settings Compatibility mode E Run this program in compatibility mode for Windows XP Service Pack 3 Settings E Run in 256 colors E Run in 640 x 480 screen resolution E Disable visual themes E Disable desktop composition
45. cel Cancel Set all parameters Figure 67 Set all parameters You can define all the parameters for a data logger on a stationary PC and then program the device later on site by means of a laptop computer Use this function after having opened the relevant parameter file to program a unit on site You should execute a unit restart in the DLX before programming it to new parameters Prior to this the data logger needs to be activated by entering the Parameters password Parameters can only be programmed if the program protection switch is set to position Set Enable The programming of a unit can take some time Click on the button Set all parameters to send all parameters except passwords to the previously activated DLX If you have not yet entered the Parameters pass word an error message will be displayed During the transmission of parameters to the DLX the Service LED at the DLX front panel will blink and the display will show the message Password is activel If the download of parameters was preceded by a unit restart you need to note that all passwords have been reset to the factory default settings and these will not programmed by executing this function If you want the DLX to have specific passwords you must use the function Connection gt Pass word change If the basic parameters such as the registration period length the selection of signals for the load profiles and the
46. condary fe E R Meter constant e g Imp kWh can be found on the front plate of the transmitting meter K Reading constant usually assumed to be K 1 Const Impulse constant e g KWh Imp DIFF Transducer range max valU encoder MIN ValUCencoder ZOHZ Enter the correct values into the above formulas and reduce the result to the small est value represented by whole numbers Then enter the result into the input fields for the relevant input The demand is automatically calculated by using the ratio be tween numerator and divisor and the registration period in the device For signal current inputs only Offset minimum value only positive values will be saved and transmitted to the AMR software SIEB Baer CH 4 Ge Example 1 Meter with transformer Meter constant R 300 Imp kWh Transformer ratio W 200 Reading constant K 1 Therefore X _ 200_ _ 200 or e Y 300x1 300 3 The resolution for the display of energy values is 1kWh for demand values it is 1kW Example 2 Meter without transformer Impulse constant Const 2 5 kWh Imp Reading constant K 1 Therefore E a EE e BS Y 1 1x10 10 Example 3 Signal current input 0 20mA with 0 3500kW Reading constant K 1 Therefore X ZZ or ER Y 72000x1 720 144 The resolution for the display of energy values is 1kWh for demand values it is 1kW offset OkW Example 4 Signal current input 0 20mA with 1000 4500kW Reading constant K 1
47. d P1 Po D S sl mE Ilha Password change gt Factory settings Set all parameters Change pulse ratio Get parameters Port Language DLXPARA gt German English French Czech Programm language English COM1 Version 1 06 00 NUM Figure 75 Language Select the desired language for the programming software DLXPara The selected language will be activated immediately and the current setting will be stored in the current directory file DLXPARA INI Currently you have a choice of four languages German English H French Czech gt This dialog does not change the language used in the display of the DLX de vice see also menu item Extra device language page 82 93 N NN DA N NY Subject to change without notice Appendix A Possible Error Messages E116011212056 III ww N N A2 SE G JP Baer DL 4 Gs 1 Error messages Action Example Before changing parameters the correct parameter password must be sent to the DLX device otherwise the DLX returns an error message z S 2 9 a 5 S Figure 1 Error message DLXPARA wrong password In case of old DLXPARA Software version up to 1 05 06 and DLX from version 1 06 00 and up the DLX returns an error message DLXPARA a Xx Unknown error 18 at address 99001 Figure 2 Error message DLXPARA wrong software version Use the actually versio
48. d a PC Load management switching off and on of loads can be realized on site via exter nal load management software using the control outputs of the DLX LU 3 Starting the programming software o btia 3 1 Example Double click on the file named DLXPARA EXE in the MS Windows Explorer to start the programming software or double click on the desktop icon see previous page After the start of the programming software the monitor displays the main window explanation of the main window see chapter Main window on page 15 P Testiprd DLXPARA L zelt File Edit View Parameter Connection oela amp olaln z a s w Elli Ready COM4 Version 1 06 00 NUM Figure 4 Main window You can reach the main menu in this window either with the function key F10 with the hot keys or by clicking with the mouse pointer on any of the menu items Any changes to the parameters in a DLX unit require the correct input of a password Invisible items In various dialogs items have no function if particular other parameters are not set or set to specific values These items are then either not shown at all on the screen or they appear grayed out Only once the superceding parameters are set to the re quired values these items will appear or be activated In the dialog Time the input fields for date and time are only activated if the radio button Edit time is selected Once you s
49. d maximum demand for the last reset period version 1 05 02 and up Maximum demand of the current reset period current maximum Maximum demand of the current reset period for tariff rate t and input cc Maximum demand of the current reset period for tariff rate t and positive sum pp Maximum demand of the current reset period for tariff rate t and negative sum nn Maximum demand of the most recent reset Maximum demand at most recent reset for tariff rate t and input cc Maximum demand at most recent reset for tariff rate t and positive sum pp Maximum demand at most recent reset for tariff rate t and negative sum nn 52 444 SE JP FIN DA Cumulated maximum demand for the second last reset period version 1 05 02 and up Cumulated maximum demand for the second last reset for tariff rate t and input cc 47tpp Cumulated maximum demand for the second last reset for tariff rate t and positive sum Cumulated maximum demand for the second last reset for tariff rate t and negative sum nn Timestamp of the current maximum demand Timestamp for the current maximum demand for tariff rate t and input cc see address 40tcc Timestamp for the current maximum demand for tariff rate t and positive sum p see address 41tpp Timestamp for the current maximum demand for tariff rate t and negative sum nn see address 42tnn Timestamp for the maximum demand of the most recent reset Timestamp fo
50. dic buffer 1 79 d FIN 13 80 AY I Memory Define and display the memory capacity for the PC Card and the internal registra tion period storage e X Selected parameters PC Card Days in buffer 1 35 Registration period 1 15 min Decades MP1 4 Registration period 1 16 values Days in buffer 2 9 Demand for memory SRAM 254208 Byte Demand for memory FLASH 1179648 Byte Possible SRAM PC Card from 256 KByte on Possible FLASH PC Card from 2 MByte on Registration period 2 off Internal memory MP1 100 Buffer 1 89 days Buffer 2 off MP2 off Cancel Figure 59 Memory PC Card Select the number of days stored in periodic buffer 1 MP1 Tm1 and in periodic buffer 2 MP2 Tm2 Depending on the settings selected a minimum size of PC Card will be recom mended for two possible options SRAM PC card buffered by a battery FLASH PC card FLASH PC Cards usually require a higher capacity due to the technology which forces a storage method with higher usage of memory III d P N Internal memory In the case of two active registration periods the internal memory can divided into two areas The following settings are possible Minimum area size in Kbytes MP1 Tm1 MP2 Tm2 From these settings the software calculates the corresponding storage capacity in days and displays it on the screen Measuring period MP1 Tm1 ___SectorsinTm1x6552
51. e the factory settings to be activated Password x Type password for FACTORY SETTINGS I Password x Cancel Send password Figure 66 Unit restart and reload of factory settings gt The activation of a unit restart in a connected data logger will erase all data from the unit All previously set parameters and all registered data will be re set to the factory settings A unit restart can be activated if the program pro tection switch is set to the position Set Enable If you select this menu item and enter the current password for Factory settings the data logger connected will perform a unit restart If you enter the wrong pass word the error message wrong password will be displayed when you click on the button Send password If you enter the correct password the message password accepted will be dis played when you click on the button Send password The DLX will execute a sys tem test after the restart and will then use factory default settings all passwords including the password for unit restart and the complete memory will be erased and reset to the factory settings The data logger then needs to be programmed again to return it to ready status for operation 87 WAN S Ww P III 88 7 4 si Set all parameters Program the DLX with the values from the currently open parameter file Set all parameters x Set all parameters xs oO x 19 Can
52. e 46 Communication parameter ISDN MEN Number 66 Figure 47 Communication parameter ETH een en 68 Figure 48 Communication parameter ETH IP Address nenn 68 Figure 49 Communication parameter ETH default Value AEN EEN 69 Figure 50 Communication parameter ETH IP Address nenn 69 Figure 51 Communication parameter Callback function ern 70 Figure 52 Communication parameter Unit E 71 Figure 53 Communication SCTM protocol 4444ssesnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnnn 72 44427 JP tI be A Gaer Figure 54 Communication SCTM protocol wrong password uusssessssssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nn 73 Figure 55 Communication IEC 60870 5 102 protoco ee 74 Figure 56 Communication Modbus RTU porotocol reer rere eeecneeeeeeeeeeeeeeceiaeeeeeeeeeeneee 75 Figure 57 Options for periodic buffers load oroiiles rerne 76 Figure 38 Perlodie Duffer E 78 FISUrE SI EE 80 ES 82 Figur 61 VO E 83 Figure 62 Program protection switch by housing for panel mounting rresssssennnnnnnnennnnnnnnnnnnnn 83 Figure 63 Program protection switch by 19 rack a na 84 Figure 64 Changing the password for Parameters 444444snnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 85 Figure 65 Changing other passwords ses eEEEEERESENSREREEEEEREEESENSREREREEEEREEEEEAEREEESENEREEESEEEREEESEAERENEEEEERSESNEAENN 86 Figure 66 Unit restart and reload of factory settnge A
53. ed for checking purposes only and is not relevant for billing purposes without checksum III d P N IN 6 11 4 Modbus RTU protocol Define the communication parameters for the Modbus RTU Remote Terminal Unit protocol Modbus RTU Protocol Modbus Device Address 01 1 F Hex Set Abbruch Figure 56 Communication Modbus RTU protocol Modbus Device Address Hex length 1 byte hexadecimal value range 1 to F7 hex 1 to 247 75 FIN Periodic buffer Buffer options Define the periodic buffer load profile options Buffer options Registration period 1 e Demand Energy Energy feed Registration period 2 e Demand Energy Energy feed Decades of buffer 1 Decades of buffer 2 4AC6 Cg Ge A CB 08 Cancel Figure 57 Options for periodic buffers load profiles Registration period 1 Select the type of values to be stored and transmitted for periodic buffer MP1 Tm1 The following options exist Demand demand values are stored and transmitted e g kW Energy cumulative energy values are stored and transmitted e g kWh Energy feed the energy increments the amount of energy since the end of the last registration period are stored and transmitted e g kWh Only one option is possible per buffer i e all saved values are either of type demand or energy or energy feed Registration period 2 Select the type of values to be stored and
54. een 1 and 29 in seconds then synchro nization to the closest full minute is only possible in this time window around the end of registration period MP1 Alarm free Inside synchronization window an alarm free window can be defined When the DLX is synchronized out of the alarm free window but inside the synchronization win dow a warning is generated alarm number 07 02 Note If you set the synchronization time to 0 you can always synchronize to the closest full minute Example Sync window 10 seconds Alarm free 10 seconds Registration period Tm1 15 minutes Synchronization only permitted in a window of 10 seconds around each full 15 minutes where minutes 0 or 15 or 30 or 45 gt DLX firmware releases up to and including 1 04 00 didn t support the sync window alarm free only For release including 1 04 01 and up set the ver sion mark 27 N IN FIN 28 Note Example Synchronization No synchronization Incoming pulses at the SYN input have no effect on the time SYN input Incoming pulses at the SYN input set the seconds in the DLX to 0 see also menu item Control inputs on page 43 External radio clock The DLX will be synchronized by the external DCF77 radio clock receiver module currently to 0 seconds only Synchronisation one time per measuring period only SYN input active at The DLX will set the time to Date Time Date Time 2002 12 31 23 59 55 2
55. elect the radio button Internal PC time these input fields are grayed out and cannot be selected 13 GE Ww N P baer 14 3 2 Application environment Parameters in the DLX can be changed via the programming software DLXPara RS232 only dh Ce teg d RN NS ge 5 e Ke ie gt Auxiliary voltage Version 1 115VAC or 230VAC Inputs amp outputs Version 2 60VDC 270VDC 85VAC 265VAC Figure 5 Graphical representation of the application environment 444 Y JP Gaer AI baz Es 4 General functions 4 1 Main window After starting the software the main window of the programming software is dis played The main window contains the menu bar the task bar and the status bar Exit the Program Name of the active NEE d Maximize window Parameter file Minimize window _P Testiprd DLXPARA sec Menu bar Eile Edit View Parameter Connection Toolbar Dei amp olal z Status bar 4 2 Pal Pe EIER ee Ready COM4 Version 1 06 00 Figure 6 Control elements Menu bar The menu bar is located at the top edge of the window In the menu bar you can call up the following main menu items by selecting them with the mouse File E view Parameter Connection Ss New Open Save Save As Print Print Preview Print Setup Exit gt Tool bar Time Password About para Status bar Number of Password change Units Factory sett
56. et Password change New password for Set PC Card Factory settings Wily Reset Cancel Set passwords Figure 65 Changing other passwords In order to change any other passwords in the DLX you first need to enter the current password for Parameters Here you can change the passwords for the above mentioned items Passwords can have up to 8 digits How to change a password Select the category for which a new password shall be defined and enter the new password Then click on the button Set password All other passwords will be re set to the factory settings If you only change one password then all other passwords will be reset to the factory settings Set 2 or 00000002 PC Card 3 or 00000003 Factory settings 4 or 00000004 Reset 5 or 00000005 If you delete the default setting from the input field and you do not enter another password then that password will be set to O0000000 after programming the unit Changing all passwords Enter the new passwords and then click on the button Set passwords The pass words will be set to the new values Passwords can have up to 8 digits If you enter less than 8 digits the passwords will be extended to the left with leading zeroes see also menu item Change parameter password WAN S N P III 7 3 Factory settings Activation of a DLX unit restart after entering the password A unit restart will caus
57. hase 0 10ms Input 6 Input 7 Invert input Input 8 Input 9 Pulse barrier Input 10 Input 11 Instantaneous value MP1 1 min Input 12 jo fo 3 Set parameter Cancel Figure 20 Input debouncing Input Selects the input for which the conditioning parameters shall be displayed and de fined Each input can have its own settings for signal conditioning Select the re quired input and then define the minimum time for HIGH and LOW phases as well as the maximum time for the HIGH phase Minimal HIGH Phase Defines the minimum length of incoming pulses Pulses shorter than this duration are not accepted by the DLX and will not be registered The default setting is 30ms 3x10ms gt If your DLX is equipped with bi current input modules IED or signal current input modules 0 20mA or 4 20mA up to firmware version 1 05 06 then for these inputs you must set the minimum HIGH phase value to 1 to prevent loss of incoming pulses Allinputs 10 ms With this button you can set all inputs to 10ms or 30ms 33 d Ww as III 34 Example Minimal LOW Phase Defines the minimum length of the interval between two incoming pulses Intervals shorter than this time will not be accepted by the DLX and as a consequence the pulses will not be counted separately The default setting is 30ms 3x10ms If your DLX is equipped with bi current input modules IED or signal current input modules 0
58. ing software Existing settings will be overwritten You can use the menu item File gt Save As to store the read parameters into a file gt If you need to change the program in a DLX but you also need to make use of already registered data e g current counter values then you need to read all data from the DLX and save this under a new filename Parameter changes must then be done by using this file Get parameters Parameters related to marked check boxes will be read from the DLX via the ser vice interface Toggle This button toggles the marks for all parameters from off to on and vice versa If no check boxes have been marked then all will be activated gt The check box for Number of Units is always marked 91 GE Ww Ns P baer 92 7 7 Port Defines the PC COM port used to connect to a DLX via programming cable e Figure 74 Port selection Select the desired COM port COM1 to COM30 and click on the button OK The selected interface will be activated and the new setting will be stored in the current directory file DLXPARA INI The program also saves the current language and the names of the last four pa rameter files in DLXPARA INI S Ww III 7 8 Language ze eed STE a Select a language for the programming software DLXPara P Unbenannt DLXPARA Fee File Edit View Parameter Connection Dlelbl ll amp Passwor
59. ings Counter values Set all parameters Pulse in outputs Change pulse ratio Analog inputs Get parameters Control in outputs Port Scroll List Language Registration period Tariff calendar Communication Periodic buffer Memory Extra device display Menu items with an arrow have subsequent menu items 15 S Ww OBE P 3 Tool bar The tool bar is located underneath the menu bar It contains buttons with icons used for quick access to menu items If the mouse pointer comes to rest over a button a brief description of that button is displayed after a short period of time 2 ao o le Bla lm om Ja W New file Open file Save file Print Information about DLXPara Time Number of Pulse ratio pulse weighting Sum components Scroll list Tariff calendar Communication Periodic buffer 1 Load profile 1 Periodic buffer 2 Load profile 2 Password Set all parameters Exit software 2E fha Select language German English French Czech 16 III d P N 4 4 4 4 1 4 4 2 I VU 4 4 3 Selecting menu items You have several options how to select a menu item of the programming software Selection with the mouse Move the mouse pointer to the desired location and click with the left mouse button If you want to edit a value in an input field you can select and replace the entire value in that field with a double click press the left mou
60. larm signals are assigned to an output Alarm 1 or Alarm 2 pulse length Defines the pulse length for the alarm signals The value set must be between 1 and 254 seconds This can only be defined once alarm signals are assigned to an output III 6 7 3 Tariff control Control of the tariff rates can be done via internal tariff calendar or external signals e g ripple control receiver or radio clock If external tariff control is activated then the tariff rates are defined by 4 control inputs TR1 TR2 TR3 and TR4 Valid control settings depend on the number of tariff rates defined for the unit see page 29 Tariff rate control Tarif iate Gockel Tariff rate text strings External tariff inputs Tariff rate Energy tariff rate text PT Internal tariff rate calendar ES Tariff 2 Demand tariff rate text DPT Figure 28 Tariff control Tariff control Select the control mode External tariff control activates external control see menu item Tariff control by in puts on page 48 Internal tariff calendar activates the settings for the internal tariff calendar see menu item Tariff calendar on page 56 Rate text Energy and demand rates can be assigned a specific text maximum 3 character that will be display on the DLX e g AT1 MT1 PT DPT ER1 DR1 etc Default settings AT1 MT1 AT2 MT2 and so forth 47 z Ca es 6 7 4 Tariff control by inputs Define the assignmen
61. lds next to Beginning of season Set the values for the first day of the next season day and month in the fields next to End of season the time will be set automatically to 00 00 00 The second season will now be defined automatically by the programming software The display for season 2 only shows the start date November 01 This season stays active until the beginning of the next season in our example on April 01 Display for season 2 wintertime Start November 01 00 00 00 Stop 1 automatic detection Tariff calendar xa Season Season 2 Beginning of season D EI November gt End of season ES Figure 38 Season definition Season 2 d P IN III 6 10 2 3 Allocation of daily rate tables to seasons Once all the daily rate tables and the seasons are defined you can allocate daily rate tables to season Season 1 daily rate table for Mon Fri Tariff calendar x Season 1 Season 2 Beginning of season 1 DI April zi Endofseason 1 D November e Mon Fri Sat Sun Public holiday 1 Public holiday 2 3 Season 1 on Mon Fri day table 1 Day table 1 DI From 06 00 PT and DPT From 21 00 NT and DNT Day table starts from the beginning Set Cancel Day table Figure 39 Allocation of daily rate tables for season 1 Mon Fri 1 Select the tab Season 1 Summertime April 01 to November 01 2 Select the tab Mon Fri and the
62. ly available inputs max 16 If your DLX unit is equipped with only 6 input modules then this number must be between 1 and 6 Sums Defines the number of summation units in the DLX between 0 and 4 If you set this figure to 0 no summation will take place Cosine Phi Defines the number of apparent demand units and cosine phi p units in the DLX between 0 and 2 If you set this figure to 0 no apparent demand or cosine phi will be calculated Energy tariff rates Defines the number of energy tariff rates This figure must be between 1 and 4 Demand tariff rates Defines the number of demand tariff rates This figure must be between 1 and 4 Balance Activates the calculation of the differential balance for demand values only The DLX calculates the difference or balance between the total demand in forward direction and the total demand in backward direction and stores the result at the end of registration period in the relevant register of the summation unit The other register of that summation unit will then contain the value 0 1 minutes summation option on request Calculation for energy and MD only at the end of every minute Tm1 and Tm2 29 434 P tI be Es BIEer 6 3 Units Definition of the measurement unit text strings R Unit PS Reaister Resolution Unit demand empty Demand Energy CW Wh n i m3 ee G kWikwh p C 01 C MW MWh 5 r C 00 C var vath fc
63. menu item you can save any modified parameter settings in the currently open file If no parameter file is cur rently open the menu item Save as will be activated 23 d P baer 5 4 Save As Saves the parameters under a new filename in the current directory N IN Save As 3 Da WW Computer Local Disk C DLXPARA 4 Search DLXPARA p Organize v New folder d e x S Name Date modified Type Size gw Info prd 06 06 2011 15 56 PRD File 9 KB A _ Test prd 06 06 2011 16 23 PRD File 9 KB a NK g7 File name Info prd v Save as type Parameterdatei prd oa amp Hide Folders Cancel Figure 13 Save file as 5 5 Print Prints the currently open parameter file in clear text to the selected printer 5 6 Print Preview Shows the currently open parameter file page by page in the way it would be print ed 5 7 Print Setup Allows you to select a printer and a number of other options 5 8 Exit rw Qu ai If you want to exit the programming software select the menu item Exit click on the button in the upper right hand corner of the main window the SI button or use the key combination Alt and F4 gt If you have not saved your data by using the menu item Save As or Save it will be lost when you exit the software 24 S A JP Kal Gaer DA A 6 Parameter All parameters are collected in groups submenus
64. method as described above to define the remaining public holidays but ensure that you always first select a new holiday number for each public holiday 63 634 P tI be KS Zaeteze 6 11 Communication 6 11 1 Transmission settings Cl Define the parameters for transmissions Communications Baudrate Data Com Port Com1 3600 Com2 os r Modem init string Com2 e Modem intern E AT amp FO SO 1 amp D0 N3 Q1 KWO amp W1 9600 Default protocol Com1 Com2 e SCTM IEC 60870 5 102 C IEC 60870 5 102 SCTM C Modbus ATU Callback function Unit identification goo00000000000000 Sa See Figure 44 Transmission settings Baud rate for Data Com Port Com1 Select the transmission speed for the data interface Com1 gt The baud rate for the service interface is fixed at 9600 Baud the modem rec ognizes the baud rate automatically Com2 If the modem is replaced with another optional interface e g RS232 RS485 fiber optic interface 20mA CL CS or M Bus then a relevant text string must be entered here such as D2400 or D4800 or D9600 It happens automatically by clicking of Baud rate for Com2 64 oe Cu ze Modem init string Com2 String for the initialization of the modem set of AT commands starting with AT or the modem replacement interface Modem init string direct control string The DLX can be equipped with one of the following modem types
65. min C 3 min C 2min C Amin C 3min C 5min C 4min C Emin C Smin C 10min C Emin C 12min C 10min 15min C 12min C 20min C 15min C 30 min 20min C 60 min C 30 min 60 min C 2 hours C 3 hours C 6 hours 12 hours 24 hours Start of Period fos 00 Geet Figure 32 Registration periods Registration of demand values in the DLX can be done in two registration periods Period 1 Defines the length of registration period MP1 Tm1 Resets and maximum demand calculation are only done for registration period MP1 Period 2 Defines the length of registration period MP2 Tm2 Start of Period Defines the start time of registration period MP2 Tm2 in full hours Example Registration period 2 MP2 Tm2 24 hours Start of period 06 00 for CET Central European Time wintertime The calculation of values for registration period MP2 Tm2 starts at 06 00 for the next 24 hours gt This item can only be selected of registration period 2 Tm2 is set to 24 hours 55 d IN P OBE 56 6 10 Tariff calendar gt You must select the item Internal tariff calendar in the dialog Control in Example outputs Tariff control to activate the internal tariff rate calendar Tariff rate control mym Tariff rate text strings Tariff rate control WI Tariff rate Energy tariff rate text PT internal tariff rate calendar EA Tariff 2 Demand tariff rate text DPT Set Cancel Figure 33 Tariff rate control
66. n of DLXPARA DLXPARA checks all inputs and returns an error message in case of wrong parameter Wrong synchronisation windows DLXPARA A Use only values smaller than 30 for the synchronization windows Figure 3 Error message DLXPARA wrong input value A3 FIN S Ww If it receives wrong input data the DLX returns an error message too Example Address 64005 SYN window time is wrong DLXPARA X Value from address 64005 is wrong Figure 4 Error message DLX wrong value Example Address 64202 wrong address in the scroll list DLXPARA mise Error on setting parameter address 64202 One of the 40 addresses in the scroll list is not accepted by DLX Figure 5 Error message DLX wrong address in the scroll list If an error message appears during the download of parameters into the DLX the download of parameters will be terminated Example The DLX was not programmed with new parameters DLXPARA Ex D Parameter setting error Figure 6 Parameter download termination A4 534 Se P Gaer GER KS Before you can restart the parameter download you must first correct the wrong value The following table should be helpful in this regard 00000 Setting the time clock time summer Time time switching time SYN input no synchronization These values are calculated internally from the allocation of inputs to summation units and their 22200 Setti
67. n select the Day table 1 from the list box For control purposes you can now see the settings for the selected daily rate table to the right hand side of the list box 3 Now allocate the correct daily rate tables in the tabs Sat Sun Public holiday 1 and Public holiday 2 3 by using the same method as described under 1 and 2 61 S Ww P DIET Season 1 daily rate table for Sat Season 1 Season 2 Beginning of season fi DI April DI End of season fi DI November DI Mob Sat Sun Public holiday 1 Public holiday 2 3 Season 1 on Sat day table 4 Day table 4 From 06 00 PT and DPT From 13 00 NT and DNT Day table starts from the beginning Figure 40 Allocation of the daily rate table for season 1 Sat Season 1 daily rate table for Sun Season 1 Season 2 Beginning of season fi DI Apri DI End of season D DI November DI Mob Sat Sun Public holiday 1 Public holiday 2 3 Season 1 on Sun day table 3 Day table 3 DI From 00 00 NT and DNT Day table starts from the beginning Figure 41 Allocation of the daily rate table for season 1 Son Use the same method to allocate the daily rate tables for season 2 Season 2 daily rate table for Mon Fri Season Season 2 Beginning of season fi D November DI End of season fi a ES Mon Fri Sat Sun Public holiday 1 Public holiday 2 3 Season 2 on Mon Fri day table 2 Day table 2
68. ngs for analogue inputs Analog inputs signal type OmA 20mA 4mA 20mA 22300 Settings for analogue inputs Analog inputs value type calculation instantaneous value average value 28100 Terminal for positive sum output Control in outputs Output assignments A5 444 Y JP DA A Gaer Terminal for input In output Out Control in outputs Output assignments 30200 Number of decimals for energy regis Number of Unit ter 30201 Number of decimals for sums energy Number of gt Unit register 30202 umber of decimals for demand regis Number of Unit ter 30203 Number of decimals for sums demand Number of Unit register 30204 Number of decimals for complex pow Number of Unit er register 31000 Number of inputs rates or summation Number of balance calculation 64001 Reset blocking time Control in outputs Control inputs Control in outputs Control inputs 64102 Terminal for RSTX signal Control in outputs Control inputs 64002 Scroll list delay time Control in outputs Control inputs e G JP Gaer GER KS 80208 Transmit more then 16 values per Communication SCTM Protocol registration period A7 as P 80400 Type of profile data Lo Periodic buffer Buffer options energy energy feed Parameter password Connection Password change Parameter password Unknown error 18 Old version of the DLXPARA Use an update 99002 Password
69. number of inputs summation units apparent demand units and tariff rates remain unchanged then the load pro file memory will not be erased During the download of parameters into the DLX data retrieval from the unit is suspended due to reasons of data integrity III d P N IN 7 5 Change pulse ratio Read and modify the pulse weighting ratios from a connected DLX The input s pulse ratio values can be modified anytime even in calibrated devices see corresponding German PTB rules This may be necessary if the impulse source e g meter is changed First connect the service interface of the DLX to the PC Laptop by means of a pro gramming cable see menu item Connection to the DLX page 21 After selecting the menu item Change pulse ratio enter the relevant password see menu item Password page 83 Password DLXPARA a Password input Password Cancel Send password i Password accepted Figure 68 Change pulse ratio Password All required parameters will now be read from the connected DLX and uploaded into the programming software This function will also automatically read the number of inputs the assignments to summation units and the parameters for outputs but these cannot be modified in this dialog Get parameter BS Read parameter from DLX EECHER 41 Get parameter from DLXPARA EX Iv m a 7 o End of getting parameters IV cows IZ
70. of the check box changes Once you have selected all the correct values press the Enter key to save all changes to the internal memory of the PC and to close the dialog Text input controls with scroll bars In dialogs supporting the input of values to a number of similar items e g in the dia log counter values you can select the individual items without having to leave the input field To do this place the cursor into the input field using the mouse and enter the val ue You can now use the arrow keys cursor down or up to select another item in the scroll box and the input cursor stays in the input field 444 E JP 4 6 Connection to the DLX For the connection between the DLX and the PC a programming cable or modem cable 6998 25 pin SUB D connector according to 1502110 pin assignment acc To V 24 RS232C DIN 66020 with the following pin assignments is required DLX 25 pin female PC 25 pin male In Output ie a eS In Output Signal No Input 2 2 Output TD transmit data Output 3 3 input RxD _ receive data Input 4 m l4 Output IRTS Request to send Output 5 5 np CTS Clear to send Output 6 e Input DSR_ Data set ready PGND Ground Input 20 20 Tout DTR Data terminal ready Service Interface Figure 11 Location of the service interface at the DLX 21 S Ww III 22 The DLX can be programmed in the following ways 1
71. op by means of a program ming cable see menu item Connection to the DLX You can select one of two modes of programming Programmable parameters in order to transmit programmable values in the DLX the program protection switch at the backside of the display board must be in the position Set Enable see also the DLX User Manual Figure 62 Program protection switch by housing for panel mounting 83 III 84 Example Figure 63 Program protection switch by 19 rack Settable parameters for the transmission of settable parameters the setting of the program protection switch is not checked Enter the relevant password now and click on the button Set Password Once the DLX accepts the password it will stay active for 15 minutes and will be au tomatically reset afterwards If you want to program the DLX after this time has elapsed you need to re enter the password If there is no connection between the DLX and the PC Laptop or if the wrong cable is being used a corresponding error message will be displayed In this case please check correct connection of the cable and the cable itself All passwords in the DLX have a length of 8 digits and consist exclusively of numbers from 0 to 9 Leading zeroes 0 can be omitted when entering passwords in the programming software Password 00000001 Entering 1 is permitted ee D GY JP A Baer CH 4 Ge 7 2 Passw
72. ord change 7 2 1 Change parameter password Changing the Parameters password Change parameter password DLXPARA xa New password i Parameter password was changed Retype password i 7 Figure 64 Changing the password for Parameters gt In order to change the Parameters password in the DLX you first need to enter the correct active password for Parameters factory setting for this password 00000001 Leading 0 can be omitted Enter the new password in the field New password and repeat the password in the field Retype password Then click on the button Set password Passwords can have up to 8 digits If you enter less than 8 digits the password is extended to the left with leading zeroes If both passwords are identical the DLX will be programmed to the new password If you have entered two different passwords an error message will be displayed The new password will not be accepted and the original password remains active Example New password 123 the password will be set internally to 00000123 where the leading zeroes can be omitted when entering the password gt If you forget the password you need to perform a unit restart Please note that during a unit restart all currently stored data will be lost Therefore the device should be read prior to this 85 N DA Ww III 86 Change other passwords Changing the passwords for Set PC Card Restart and Res
73. orward and backward energy flow 434 P Gaer AI baz A 6 5 4 Summation outputs Define the output pulse length the hysteresis and the nominator for the selected summation unit output Summation outputs sum Output pulse duration HIGH time g 10 ms Sum 2 Sum 3 E E Sum 4 LOW time 11 10 ms Hysteresis 0 1 kWh Pulse output 2 1 kwh pulse Cancel Figure 23 Summation outputs Sum Select the summation unit for which the output pulse length the hysteresis and the nominator shall be defined HIGH time Defines the length of the outgoing pulses The resolution for the values is 10ms in this example 9 x 10ms 90 ms You can enter values between 1 10ms and 200 2000ms LOW time Defines the minimum length of the interval between two outgoing pulses in this ex ample 11 x 10ms 110 ms You can enter values between 1 10ms and 200 2000ms Hysteresis Defines the capacity of the slack register Hysteresis kWh or kvarh For the calculation of balanced sums the DLX can use a programmable slack or hysteresis This is a temporary storage for incoming pulses With each pulse of pos itive sign the content of the hysteresis register is increased by the value of that pulse with each pulse of negative sign it is decreased accordingly Pulses only appear at the output of the summation unit once the programmable ca pacity of the hysteresis has been exceeded either in positive or negative direction
74. parameters Time Internal PC time The DLX will be set to the current date and time of the PC where the programming software is installed Edit time The DLX will be set to the values entered into the fields Date and Time at the time of setting all parameters Time Date Input fields for the date and time to be programmed into the DLX DIE Allow summertime Automatically adjust clock for Daylight Saving Time Activates summertime wintertime switching The switching from summertime to wintertime and vice versa happens at the date and time as defined under Summertime begins Wintertime begins and Day of switch over Summertime begins Defines the month weekday and hour of the summertime start Wintertime begins Defines the month weekday and hour of the wintertime start For the start of the wintertime you must define the time to which the hour will be set i e for a switch over from 03 00 to 02 00 you must define the value 2 for the hour Day of switchover Defines the day for the summertime wintertime switching In our example see Figure 15 Setting the time parameters the following switch overs will happen Wintertime to summertime last Sunday in March from 02 00 to 03 00 Summertime to wintertime last Sunday in October from 03 00 to 02 00 Synchronization window Defines the period of time time window during which synchronization via the SYN input is possible If you enter a value betw
75. r the maximum demand of the most recent rest for tariff rate t and input cc see address 43tcc Timestamp for the maximum demand of the most recent rest for tariff rate t and posi tive sum pp see address 44tpp Timestamp for the maximum demand of the most recent rest for tariff rate t and neg ative sum nn see address 45tnn Cumulative energy values at most recent reset Cumulative energy value at most recent reset for tariff rate t and input cc Cumulative energy value at most recent reset for tariff rate t and positive sum pp Cumulative energy value at most recent reset for tariff rate t and negative sum nn Current energy values at most recent reset Current energy value at most recent reset for tariff rate t and input cc Current energy value at most recent reset for tariff rate t and positive sum pp Current energy value at most recent reset for tariff rate t and negative sum nn 53 434 P tI be KS Fer 54 Other register addresses 70001 from version 1 05 06 and up 83200 Unit identification 16 digits 83201 Serial number 6 digits from version 1 05 06 and up 84000 Number and timestamp of the most recent reset For these items the display will not show physical units ee D GY JP A Baer CH 4 Ge 6 9 Registration period Definition of the length of registration periods MP1 Tm1 and MP2 Tm2 Registration period x Period 1 Period 2 C 1min C off C 2min C 1
76. rst check the setting of the program pro tection switch located on the backside of the display see DLX User Manual If programming of the unit is disabled e g after the unit has been certified only set table parameters can be modified Write access to programmable parameters is on ly possible after the certification seal has been removed The device must then be re certified if relevant regulations exist Once programming of the unit has been enabled all parameters can be changed You should perform a unit restart to factory default settings before pro gramming a DLX Changes to some of the parameters will trigger automatic erasure of the load profile memory During the transfer of new parameters into the DLX no data retrieval is possi ble due to data integrity considerations III Set Set parameter Note The following two action buttons can only be used when a DLX is connected to the PC online programming If you click on this button or press Enter while this button is selected settable pa rameters in the DLX will be changed to the settings in the programming software the setting of the program protection switch will not be checked Set Figure 9 Action button Set If you click on this button or press Enter while this button is selected program mable parameters in the DLX will be changed to the settings in the programming software The program protection switch must be in
77. se button twice in quick suc cession without having to delete it first you can recognize this by the change of the background color If you only want to edit particular digits of a value you can place the cursor with a single click of the left mouse button at the desired position in the field but you still need to delete undesired digits by using the key Del Selection with the keyboard Press the function button F10 to open the menu bar and now use the arrow keys to select the desired dropdown menu Once the dropdown menu is open move the selection bar with the arrow keys to the desired menu item and press the Enter key Within a menu item i e a dialog window you can jump from one item to the next with the Tab key you can recognize the currently selected item by the either a change in the background color or by a surrounding rectangle of dashes You can also jump backwards by pressing the Shift and the Tab key together After selecting an item the complete value in that item if it is an input field is au tomatically selected you can recognize this by the different background color and you enter a new value without having to delete the old one If you only want to modi fy a particular digit of the value you can use the arrow keys Left and Right to move the cursor to the desired position but you still need to delete undesired digits by using the Del key Selection with Hot ke
78. t Defines the time for automatic resets billing list No automatic reset Daily reset billing list Enter hour minute Weekly reset billing list Enter hour minute and weekday Monthly reset billing list Enter hour minute and day Yearly reset billing list Enter hour minute day and month S NY III 6 7 2 Output assignments Output assignments Ss Out 1 Out 2 Out 3 Out 4 Sum 1 Sum2 ei Sum3 ei Sum4 v Rel1 Rel 2 THE IMPAT Time MPA a5 200 ms Alarm 2 Pulse H e Switch Set parameter Cancel Figure 27 Assignment of signals to outputs Out 1 4 Assignments for pulse outputs of type wipe solid state The following functions can be assigned to these outputs Sum1 to Sum4 positive output of summation unit 1 to 4 Sum1 to Sum4 negative output of summation unit1 to 4 MPA1 and MPA2 registration period output for MP1 Tm1 and MP2 Tm2 RSTA reset output time for billing list e Alarm 1 and 2 alarm outputs e TRA1 to TRA4 tariff rate outputs 1 to 4 Log1 to Log4 logic outputs In1 to In16 input pulses can be forwarded directly to outputs 1 to 1 none no function Default settings Out 1 to Out 4 unassigned 45 N NA Ww III 46 Rel 1 and Rel 2 Assignments for mechanical relay outputs The following functions can be assigned to each relay output MPA1 and MPA2 registration period output MP1 Tm1 and MP
79. table Day table Day table 2 Day table 3 Day table 4 Hour 06 13 Day table 1 Day table 2 Day table 3 Hour 0 e Minute 00 v Energy PT NT Minute oo Demand DPT ONT Minute 00 v Hour oo Energy NT e v v v v v v 18 el 00 v e End sel 00 DI e e Se End si 00 PT DPT End 00 DPT End v DPT End 00 DPT End DPT End 00 DPT 00 DPT End 00 DPT End 00 DPT 00 End DPT End oo DPT nd nd nd 00 DPT 00 DPT End 00 o IN Im im ie ka N Fa o Im Im im Im Ww N ie m m m m 00 End 00 DPT 00 DPT A Cancel a Cancel Si Cancel Figure 36 Daily rate table 2 4 59 WAN N Ww P FIN 60 6 10 2 2 Definition of seasons gt If like in our example more than one season is used then you must make sure that the season spanning beyond the end of a calendar year is pro grammed as the last season Entering the first season Definition of season 1 summertime Start April 01 00 00 00 Stop November 01 00 00 00 Tariff calendar Xn Season 1 Season 2 Beginning of season 1 zi Ap zi Endofseason 1 D November v Figure 37 Season definition Season 1 Set the value for the first day of the season day and month in the fie
80. tart value 31 444 WG tI be KS Gaer 6 5 Pulse in outputs All impulses at the inputs will be counted after debouncing and then processed ac cording the table below The following registers REG are used for results see Appendix B Energy For register addresses the following sub addresses are possible Pulse inputs Inl to In16 Input 1 16 Energy registers cumulative ee 01 16 Inputs 1 16 L total pp 01 04 Total forwards 1 4 positive O Palses_ nn 01 04 Total backwards 1 4 negative Momentary last MP1 REG 100 ee IE x REG 30000 ee REG 30100 ee AT value Energy registers for current total Ley rate REG 250 ce IE x REG 30000 ce REG 30100 c ee rate 4 current last MP1 REG 110 pp Z REG 100 ee cumulative REG 260 pp L REG 100 ee current current last MP1 TAp rate 1 Momentary Energy total rate 2 value 1 4 rate 3 8 rate 4 Es current bet MPI Forward 3 x 261 pp 231 pp rate 1 2 262 232 pp rate 2 5 S y 233 pp rate 3 amp Hysteresis 29300 pp AT 264 pp 234 pp rate 4 nn current last MP1 Ars lAn 121 nn 211 nn rate 1 Um 212 nn rate2 Momentary 123 nn 213 nn rate 3 a Lat MPI AT 124 nn 214 nn rate 4 IEMET Backward rate 1 rate 2 ae current Jast MPI AT Sech
81. the position Set Enable Set parameter Figure 10 Action button Set parameter The relevant password must be entered correctly before changing any param eters settable or programmable in the DLX otherwise the unit will not change the parameters and will display a corresponding error message During the changing of parameters the DLX automatically switches to the standard display For more information see chapter Password on page 83 19 III 20 4 5 3 Selection controls Radio buttons Out of a number of radio buttons surrounded by a group rectangle only one can be active at any one time radio button is active the related item will be activated during parameter changes radio button is inactive the related item will be deactivated during parameter changes Check boxes Out of a number of check boxes one or more can be active checked at the same time check box is active the related item will be activated during parameter changes check box is inactive the related item will be deactivated during parameter chang es You can activate or deactivate these controls by clicking on them with the mouse by selecting them via the keyboard or by using the hot key for the control If you use the keyboard to operate the software then you need to select each check box by using the arrow keys and then select the desired state by using the space bar each time you press the space bar the state
82. the scroll list with the key the 11 position in the scroll list will show the following display 1 Line 2 Line 3 Line 4 Line standard display standard display text of scroll list value and possible unit of the value nn nan 49 NN N ST as III 50 Button More gt gt By clicking on the button More gt gt you can open a dialog for the definition of the remaining addresses up to 40 Scroll list H Address Text Unit 21 mm Marmuminputt HT kw Figure 31 Button More gt gt Address 21 40 Click on the scroll bar to the right of the field Unit to show each of these ad dresses Use the scroll bar as follows Ee Go to the previous 1 address also with cursor up key A _ cc pp nn m Go to the next 1 address also with cursor down key Register addresses for the scroll list Explanation of the register address abbreviations and placeholders input counter 01 input 1 02 input 2 16 input 16 tariff rate 0 total no rate sum of all energy tariff values gt From DLX version 1 04 00 up you can also display maxi mum demand values without tariff rate totals t 0 to 4 for addresses 3xtxx 4xtxx and 5xtxx For cumulated maximum demand t 1 to 4 1 rate 1 2 rate 2 3 rate 3 4 rate 4 positive sum 01 sum 1 negative sum 02 sum 2
83. transmitted for periodic buffer MP2 Tm2 see options for registration period 1 76 III Decades of buffer 1 Select the length number of digits of values stored and transmitted for registration period MP1 one decade one digit During roll overs the most significant digits will be erased and the corresponding error bit will be set in the data status The following table shows some examples of storage and transmission of registered values depending on the number of selected decades Registered Stored and trans Value shown in the lz BEX Dispiey 1234 1234 00001234 1234 6 001234 00001234 1234 8 00001234 00001234 123456 3456 FFFF3456 123456 6 123456 ooreaa56 aas 8 00120456 oor23456 t2sase7s 6 345678 Fressere freaaserel 8 12845678 Y 12345678 F Error some digits of value are deleted Decades of buffer 2 Select the length number of digits of values stored and transmitted for registration period MP2 see decades for buffer 1 77 III 6 12 2 Periodic buffer 1 P 78 Definition of the values inputs sums apparent demand and cosine phi ol stored in periodic buffer load profile 1 As the dialog windows for Periodic buffer 1 and Periodic buffer 2 are identical in design only the dialog window for Periodic buffer 1 is described Periodic buffer 1 Input Vai wg v2 v 10 v3 M1 v4 v 12 v5 Iw 13 VE M14 V7 W415 vs M16 Sums Lids
84. ts for the external tariff control inputs Tariff control by inputs Exa Demand tariff input mask Energy tariff input mask M TREM TR2 M TR3W TR4 V TRIW TR2 TR3W TR4 Tanoa DE Me raren D Te ate ate ie ote MTI sllan sl une MT v fami sl eege gege MT2 v AT2 z masesa MT2 e AT2 gt gess gege MT3 v AT3 z samsam MT3 z ATI gt ess gege MT4 v as z m MT4 l ATA x e e en ie vn v aT sl m MT lan el u MTZ v AT2 z es gess ss MTZ AT2 gt we en en sie mT3 ara m M13 v AT3 Ma r I sl oe MTA ars gt Set Cancel Figure 29 Tariff control by inputs This dialog defines the setting of tariff rates in correlation to external control signals this is only useful if external tariff control is activated Demand tariff input mask Defines the active control inputs for the definition of demand tariff rate settings TR1 to TR4 Energy tariff input mask Defines the active control inputs for the definition of energy tariff rate settings TR1 to TR4 You can assign one energy rate and one demand rate to each of the max 16 com binations of rate control inputs If a control input is not activated in the input masks for demand rates or energy rates in the example above TR2 to TR4 then it as sumes a default setting of _ _ More than one input combination e g MT1 and can be possible for one combination of demand rate and energy rate e g in the picture above lines 1 and 5 in both the right and left column
85. ys You can select menu items by pressing a combination of keys Press and hold down the Alt key and then press the key with the underlined letter in the desired menu item To edit any values use the methods as described under Selection with the key board 17 N NA Ww FIN 18 4 5 1 Cancel Controls Action buttons You will find the following action buttons in many dialogs If you click on this button or press Enter while this button is selected all changes to values will be discarded and the dialog window closes Cancel Figure 7 Action button Cancel If you click on this button or press Enter while this button is selected all changes to values or settings will be saved in internal memory of your PC and the dialog window closes OF Figure 8 Action button OK If you want to save the currently set values to the hard disk you need to se lect the menu item Save or Save as before exiting the programming soft ware Parameters in the DLX can be changed either via the programming software DLXPara or via the keypad of the DLX only certain registers however any chang es to parameters are only possible after input of a valid password All modifiable pa rameters are divided into two groups settable and programmable a complete list of all parameters can be found in appendix B of the DLX User Manual On each change of a parameter the DLX unit will fi
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