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DMFPARA - baer

1. energy 1 to 32 register Xw value M em Tariff 1 Inp 1 48 Tariff 2 O Ywl Tariff 3 Tariff 4 1 1 1 max deman maxima 1 to 48 1 actual previous MP DU 2 1 Tariff 3 P an average demand values Tariff 4 P value timecode energy sum 1to8 Y IA 1 e m Ywa Tariff 1 i Tariff 2 CD z Tariff3 Import L Hys ws 4 1 e IA2 Xwsn hysteresis Tariff 1 _ Tariff 2 1 Kas Tariff3 Export 9 tot value 1 Tariff 4 register max demand Sum maxima 1to8 previous MP Tariff 1 1 Tariff 2 Xpsl dm Tariff3 Import 1 Tariff 4 a 5 e Xpsn Tariff 1 1 1 Tariff 2 a Tariff3 Export average demand value Tariff 4 value timecode Figure 59 Pulse processing 48 Caer DMFPara 8 4 1 Note Pulse duration Definition of input conditioning parameters debouncing for each input E DMFPara m File Parameters Commands Settings Info z e sals elelee 2 s MM ESNN gt DFw4 DLC32 DATAREG 48 32C Pulse duration input Ge
2. N f Inputs Pulse Input Output 32 M Pulse duration input Pulse adjustment Sums integration Terminal assignments o Pulse duration output o Hysteresis O Heat meters Cos Phi Control Inputs Outputs o General ports Tarif control inputs Scroll list Printer Tariff calendar Communication settings Buffer Number of Sums Sums difference Master sum Import Export Number of Energy tariff rates Number of Max demand tariff rates Read EI Write COMI Password inactive 07 09 2009 15 25 20 Figure 56 Inputs Sums Tariffs Number of Inputs For entering the total number of active inputs Number of Sums For entering the number of active sums registers This number must be between 1 and the number of ordered inputs or sums Sums difference To be selected if sum differences should be formed see also the menu Pulse Input Output Hysteresis page 60 Master sum Import Export To be selected if master sum should be formed power plant calculation for generation or non generation mode Sum 2 Reactive Energy Function Sum 1 Active Energy if Sum 1 Active Export 0 then Sum 2 Reactive Export if Sum 1 Active Export 2 0 then Sum 2 Reactive Export if Sum 1 Active Export 0 then Sum 2 Reactive Import with Sum Active Export Sum 1 Sum Active Import Su
3. Caen DMFPara DMFPara mij File Parameters Commands Settings Info o sale a s WERE DMFPara DFw4 DLC32 DATAREG 48 32C inputs O General Time input Mask Tariff control Meter registers Pulse Input Output Cos Phi Control Inputs Outputs TR2 TRI MRK Energy tariff Max demand tariff 9 Communication settings D 0 0 1 yj MT E Buffer 1 1 xj 1 0 1 0 ET2 x met p 1 ET2 2 y 1 o 0 zx ma xi 1 0 1 x ma x 80 0 4 z nd E 1 ET4 xj Wr4 zi X Cancel HZ Read El Write wv ok COMI Password inactive 19 06 2008 11 00 04 Example Note Example Figure 78 Tariff inputs Tariff control If the External tariff inputs is selected then the tariff rates will be assigned through four control inputs MRK TRF1 TRF2 and TRF3 These control inputs will be linked and secured in bit patterns with the basis marker byte OA OB by voltage interruption Signal weight 0 signal path is open signal ON 1 signal path is closed signal OFF The proper tariff control is dependent on the settings for the mode of operation tariff number and the activated masks if it was ordered and programmed Tariff control for two maximum demand tariff rates and four energy tariff rates with MRK TRF1 and TRF2 from the above graphic TRF3 will be assigned the v
4. sind 32 6 6 Restart system Factory settings 33 6 7 Head reset list billing Gala escarnio reia 35 6 8 Read device information rita epa 36 DMFPara OBE raptu GS A E 37 Tal Language abi ee ere er er 37 7 2 Communications interface 37 yg 2 o 38 FECE Soeur tm 38 8 Menu Device 39 CI eH O O O ere 40 6 2 TIMMS P cease 42 8 3 Meter tA Urs E int 45 8 3 1 Inputs Sums Tariffs ER t 45 8 3 2 Meter registers 46 MU i e e 48 8 4 1 Pulse duration Pe P E 49 8 4 2 Pulse adjusted iet rai dte e ie dba trai a e sat Prae date iudi ates 51 3 43 SUM IMM rr o S 54 8 4 4 Terminal assignments uisi rotor a 57 8 4 5 Pulse duration output miii na netten enini nn Eni tnis 59 8 4 6 Hysteresis salad dida 60 8 4 7 Heat meters IA PP 61 8 5 Power factor GOS Pluna 63 8 6 Control Inputs uni 64 8 6 1 General PONS dec PP eae 64 8 6 2 Tariff CONTO essa E 66 5 sd a 68 cR Somo IS sia 70 8 7 uu UEM 74 Ed Printer Oplone 1 iw En teenie eae 74 E o Y a y A noo A 75 8 7 3 Tariffs and meter tOXtS ecc rr n
5. Energy Reset 3 Accumulative energy Reset 4 Cos phi Reset 5 Reset 6 Device information Reset 7 es Number of Inputs 16 Reset 8 cas Number of Sums Pos 2 Reset S Number of Sums 2 Reset 10 Number of Energy tariffs 2 Reset 11 Number of Max demand tariffs 2 Reset 12 Number of Cos Phi 0 Cancel Y DK Figure 44 Read reset billing data Data from previous resettings of the connected registration device will be read out when requested here Save data in This field is for entry of the file name in which the read out data should be saved After the read out will be placed in the directory of the parameter setting program This is an ASCII type file TXT and can be read and processed with any editor e g Word or WordPad Print data then the data can be printed out on a printer that is connected Read values select the values for reading Reset x select the reset billing data OK read data save print 35 DMFPara 6 8 Read device information Read device information and show a message Informationen t3 i Device information DATA FW4 AREVA SA 48 179 V 2 21 compiled Jun 04 2008 1994 2008 BAER Industrie Elektronik GmbH D 90411 Nuernberg www baer gmbh com Typ A11357 Status 00000000 Kbd OKV1 2 02 11 95 DeviceID 0000000000000000 ROM DDFC Resets 0 Traps 0 Last Trap No 0 Adr 000000 Date 0
6. Buffer Which values should be printed iH SISISISISISISISISIS SISIS sI amp sIsIsIs sI 1 aisla Isis sa Is Is SIS S Read PE Write sisas lt a fs ss a s Password inactive 11 02 2009 14 25 04 Figure 84 Tariffs and meter texts Energy tariff Selection of the energy tariffs that should be printed out with the input or sum Max demand tariff Selection of the demand tariffs that should be printed out with the input or sum Identification text Edit of a text that should be included e g Energy in kWh when the corresponding input or sum selected in the List field is printed maximum of 25 characters Select the input for which you want to mark a click on the left site of the line Figure 85 Mark a line 77 DMFPara DP Select the column for which you want to mark by a click on the top of the line Which values should be printed pt aan Base Figure 86 mark a column 78 Caer DMFPara 8 8 Tariff calendar For setting the four internal tariff calendars Note You must select the item Internal tariff calendar in the dialog Control inputs outputs Tariff control to activate the internal tariff calendar see page 66 IV Apply tariff External tariff inputs Tariff combination Figure 87 Tariff control 8 8 1 Tariff calendar 1 You can us
7. Active when Active when 64336 Active when 64337 Active when 64338 Active when Active when 64340 Active when Active when 64342 Active when 64343 Active when 64344 Active when 64345 Active when 3 and MRK TRF3 0 TRF2 0 TRF1 0 MRK 0 TRF3 0 TRF2 0 TRF1 0 MRK 1 TRF3 0 TRF2 0 TRF1 1 MRK 0 TRF3 0 TRF2 0 TRF1 1 MRK 1 TRF3 0 TRF2 1 TRF1 0 MRK 0 TRF3 0 TRF2 1 TRF1 0 MRK 1 TRF3 0 TRF2 1 TRF1 1 MRK 0 TRF3 0 TRF2 1 TRF1 1 MRK 1 TRF3 1 TRF2 0 TRF1 0 MRK 0 TRF3 1 TRF2 0 TRF1 0 MRK 1 TRF3 1 TRF2 0 TRF1 1 MRK 0 TRF3 1 TRF2 0 TRF1 1 MRK 1 TRF3 1 TRF2 1 TRF1 0 MRK 0 TRF3 1 TRF2 1 TRF1 0 MRK 1 TRF3 1 TRF2 1 TRF1 1 MRK 0 TRF3 1 TRF2 1 TRF1 1 MRK 1 643 46 Input terminal number of TRF1 version 1 36 and above 643 47 Input terminal number of TRF2 version 1 36 and above 643 48 Input terminal number of TRF3 version 1 36 and above 643 49 Input terminal number of MRK version 1 36 and above 644 00 MPA active 644 01 Active MPA time in units of 200 ms 645 00 Logical inputs active 645 01 Condition of the logical inputs bit pattern highest bit links xS 02 645 05 Input terminal numbers of logical inputs 1 to 4 version 1 36 and above 647 00 Tariff outputs active 01 B 64 Bit patterns for the tariff outputs version 1 36 and above 648xx o Text for scroll displa
8. If the device is equipped with bi current input modules IED then for these inputs you must set the minimal HIGH Phase and the minimal LOW Phase value to 1 to prevent loss of incoming pulses Maximal HIGH Phase If an incoming pulse has duration longer than this value the device will not register it pulse length monitoring This function is deactivated by entering the value 0 49 DMFPara OBE Note The pulse input output from the registration device is in steps of 10ms so it is important to allow a tolerance of 10ms when setting these parameters Example For 80ms enter a 7 For 120ms enter an 11 9 Set all like first Set the values for all inputs like the first input Select the input for which you want to adjust the pulse length by a click on the left site of the line Figure 61 Select an input Seien Set the values like the first input We Write the values for one input 50 OOBE DMFPara 8 4 2 Pulse adjustment Definition of the numerator and denominator of individual inputs depending on meter constants transformer ratios and reading constants E DMFPara Jo File Parameters Commands Settings Info o sme ojejole a P 2 mstl DMFPara m DFw4 DLC32 DATAREG 48 32C General 8 Time input Meter registers Pulse adjustment Pulse adjustment of meter inputs o Inputs Sums T ariffs e Meter registers values P
9. Time by radio clock GPS If the registration device is equipped with a radio controlled clock internal or external or GPS this will activate the reception Radio clock GPS dU Internal radio clock GPS Summer time by radio clock GPS External DCF Modul Figure 54 Radio clock Summer time by radio clock GPS This activates deactivates the summertime wintertime switching over the radio clock or GPS Notice If this and the Toggle summer time are both selected then the Summertime begin and Wintertime begin fields will have no function as this would be done automatically over the radio clock Internal radio clock GPS this activates the internal radio clock possible in Germany only or GPS External DCF77 Modul this activates the external radio clock possible in Germany only Enable the input SYN menu Control Inputs Outputs General ports see page 64 43 DMFPara OZBE Settings for the start of summertime for the next 5 years These can be set for any date and time as is required The unit time clock will be pushed forward one hour e g from 02 00 o clock to 03 00 o clock when the set summertime is reached Standard Summer time daylight saving time for Germany European Union 95 DMFPara Bok File Parameters Commands Settings Info al oleae a s MEE DMFPara ARA SO AS Mete eaei Set time Days for summer time change Pulse Input Output Puls
10. A List 1 bit pattern for the print out of the energy flow values since the last reset Sums 1 8 export s RI List 2 bit pattern for the print out of the energy flow values since the last reset input 1 8 perpe List 2 bit pattern for the print out of the energy flow values since the last reset input 9 16 Eua List 2 bit pattern for the print out of the energy flow values since the last reset input 17 24 List 2 bit pattern for the print out of the energy flow values since the last reset input 25 32 dl List 2 bit pattern for the print out of the energy flow values since the last reset input 33 40 LARA List 2 bit pattern for the print out of the energy flow values since the last reset input 41 48 List 2 bit pattern for the print out of the energy flow values since the last reset input 49 56 eae ome List 2 bit pattern for the print out of the energy flow values since the last reset input 57 64 List 2 bit pattern for the print out of the energy flow values since the last reset input 1 8 import List 2 bit pattern for the print out of the energy flow values since the last reset input 1 8 export Reset list bit pattern for the print out of the energy flow values since the last reset input 1 8 HARA Reset list bit pattern for the print out of the energy flow values since the last reset input 9 16 cd a Reset list bit pattern for the print out of the energy f
11. Dalytaif3 Holiday2 Daptofz Holiday 3 Dalytaif3 Max demand tariff rates Energy tariff rates W1 Ma M2 Ma Figure 97 Season 1 84 DMFPara Repeat the steps described above except in that the Season 2 is to selected 01 10 to 01 04 Set Daily tariff 2 for Monday through Friday Tariff calendar 1 Seasons Daily tariffs table Saison Anfang Ende _ Season 01 04 00 00h 01 10 00 00h Period Season 2 00 Hh 01 Oktober 01 April Edit period Week tariff Season 2 Oh 6h 12h 18h 24h Monday Daily tariff 2 if Tue Thu Dail tariff 2 Friday Daily tariff 2 Saturday Daily tariff 4 A Sunday Daily tariff 3 Holiday 1 Daily tariff 3 Y Holiday 2 Daily tariff 4 _ Holiday 3 Daily tariff 3 HA Energy tariff rates m m4 demandtailf m my Figure 98 Season 2 Our example for Tariff calendar 1 is now complete be 85 DMFPara m y 8 8 2 Tariff calendar allocation Assignment of inputs and sums registers to tariff calendars Eh DMFPara ale File Parameters Commands Settings Info DFW4 DLC32 19 DATAREG 48 32C Tariff calendar allocation General O Time input Meter registers Inputs Sums Pos Pulse Input Output Q Cos Phi Input 1 Tariff
12. 90301 Password formaximum reset 903 02 Password for media change 903 03 Password for restart system Factory settings 17 DMFPara OZBE SUBJECT TO CHANGE WITHOUT NOTICE
13. Appendix A 73 DMFPara Caer 8 7 8 7 1 Printer Setting the internal or external printer option Printer options Setting the various printer options 15 DMFPara ly File Parameters Commands Settings Info E E J 0181010 s a AE D dads Printer options o Time input Meter registers Printer Pulse Input Output C Off On Print infotext at measuring start Pulse duration input Pulse adjustment 9 Sums integration List for Registration period o Terminal assignments 5 9 Pulse duration output SERIES Hysteresis 0 Print meter numbers Heat meters Cos Phi Control Inputs Outputs List 1 General ports Print Title Tariff control at end of day List 1 daily Print meter numbers Tariff inputs Scroll list Printer List 2 Printer options Lists to print Print Tite Tariffs and meter texts at end of month Fus List 2 monthly Print meter numbers 9 Communication settings Buffer Reset list Print after every reset Read CI Write COMI Password inactive 11 02 2009 13 03 23 Figure 80 Printer options Printer On Off Switching the printer on or off Print info text at measuring start Prints an information text about parameter settings meter ratios etc at the start of measuring Print
14. 64 od List 2 bit pattern for the demand register that is to be printed out Sums 1 8 import PRE List 2 bit pattern for the demand register that is to be printed out Sums 1 8 export pun List 2 bit pattern for cos q value from the last MP bits 0 3 occupied pM ees Print out of the MP1 values bit pattern for the demand register input 1 8 Print out of MP1 values bit pattern for the demand register input 9 16 Print out of the MP1 values bit pattern for the demand register input 17 24 0 Print out of MP1 values bit pattern for the demand register input 25 32 a ws Print out of the MP1 values bit pattern for the demand register input 33 40 Print out of MP1 values bit pattern for the demand register input 41 48 a Print out of the MP1 values bit pattern for the demand register input 49 56 5 Print out of the MP1 values bit pattern for the demand register input 57 64 ei Print out of the MP1 values bit pattern for the demand register Sums 1 8 import Ead Print out of the MP1 values bit pattern for the demand register Sums 1 9 export pes Print out of the MP2 values bit pattern for the demand register input 1 8 pesos Print out of the MP2 values bit pattern for the demand register input 9 16 876 02 Print out of the MP2 values bit pattern for the demand register input 17 24 876 03 Print out of the MP2 values bit patte
15. 8 Baud Rate SCTM 9600 DIN IEC 2400 SERVICE 9600 Printer OFF Measurement Status 1 17 06 2008 13 11 37 Cancel Read all parameters Write all parameters Y OK COMI Password inactive 17 06 2008 13 12 04 Figure 46 Main menu device information 36 Caer DMFPara 7 Note Menu Settings T DMFPara File Parameters Commands Settings Info o sae s mmm DMFPara Communications interface Strg Alt C P Protocol Enable heat meters Enable printer Enable tariff calendar Figure 47 Menu Settings Language Select a language for the programming software DMFPara German English French After a change of language exit please the programming software DMFPara and start it again Communications interface PC Defines the PC COM port used to connect to a device via programming cable Select the desired COM port Com1 to Com255 and click on the button OK Communications interface Interface COm1 Timeout 000 ms default 1000ms Show communication Cancel Figure 48 Communications interface Timeout is depended on the PC interface Show communication additional window with data flow by active communication window the data transmission is slower 37 DMFPara OBE 7 3 Protocol Select the protocol between PC and device Standard DFW4 DLC32 19 DATA
16. 86203 s Printout time scheduleforlist2 86204 s Printout time schedule forthe Resets 862 05 Print out the values from List 1 with without counter numbers 862 07 Print out of demand values in List 1 with without counter numbers 862 08 Print out of demand values in List 2 with without counter numbers 863 xx Identification text for beginning end lists List 1 List 2 and Reset lists to be printed out along with the energy and sums values The same values for the sub addresses xx are to be used here as in the Address 100 xx version 1 33 and above 87000 2 _ Printer On Off 871 00 List 1 bit pattern for the energy register that is to be printed out input 1 8 871 01 List 1 bit pattern for the energy register that is to be printed out input 9 16 871 02 List 1 bit pattern for the energy register that is to be printed out input 17 24 871 03 List 1 bit pattern for the energy register that is to be printed out input 25 32 871 04 List 1 bit pattern for the energy register that is to be printed out input 33 40 871 05 List 1 bit pattern for the energy register that is to be printed out input 41 48 871 06 List 1 bit pattern for the energy register that is to be printed out input 49 56 871 07 List 1 bit pattern for the energy register that is to be printed out input 57 64 871 08 List 1 bit pattern for the energy register that is to be printed out Sums 1
17. Channel 3 00015529 mp aa Channel 4 00003062 Channel 5 00081829 Set alto zero Channel 6 00059022 89 Set all like first Read EI Write comi 7FMS1 Test Password active _ 1 11 02 2008 15 49 42 Figure 113 Inputs A meter register reading of 00000000 is also allowed Note If the menu item Read was selected and the Counter value was activated then the value at the time of the last meter reading will appear here after the selection of the counter d seaozeo Sett all inputs channels to 00000000 S9 Setalikefist seran inputs channels to value like first input Select the counter for which you want to adjust the energy value by a click on the left site of the line 9 00000000 Figure 114 Select an input PiE Write one channel Write the values for one input 98 Caer DMFPara 9 4 Pulse adjustment Definition of the numerator and denominator of individual inputs depending on meter constants transformer ratios and reading constants E DMFPara Parameters Settings Info e sms 0909034 s NS DMFPara Am YFMS1 Data Logger DATAREG 8 Pulse adjustment 8 General Time input Pulse adjustment of meter inputs 7 Meter registers Pulse Input Output 7 T E Pulse adusiment Energy Num Energy Den demand Num demand Den Heat meters 2 1 8 1 1 1 4 1 1 1 10 1 1
18. Information 1 Measurement ended Figure 37 End measurement The inputs on the device will have to be re programmed before new measurements can be started see the menu item Meter registers values 31 DMFPara Qaer 6 5 Format Memcard With this function a memory card in the MSCO1 compartment can be formatted to allow for its reprogramming To format a memory card make sure that the proper Memcard is installed in the MSCO1 unit and that it is not over write protected Activate the registration device Select this menu item and enter the password for Media change Password Media change Please enter the password X Cancel J OK Figure 38 Format for media change Information 1 Memcard has been Formatted Figure 39 Format memory card 32 OBE DMFPara 6 6 Important Restart system Factory settings A system restart means that all of the data in the device that is currently connected will be erased or reset All of the previously set parameters and all of the current values will be reset back to the standard settings factory settings Restart system can only be activated when no measurements are being made on the registration device To initiate a registration device system restart do the following Select this menu item enter the proper Restart system password when requested to do so and select the OK field or
19. MinSP 43FC24 MainCallCnt 130 Power Fail 2004 01 01 00 00 00 5 0 Typ MSCO1 IEC Version 6 11 Memory 512 kByte MP 0 Start 2008 06 12 14 11 00 Lenght 1 min Tariff ON Internal Act Tariff 0000 MD 0000 0000 Radio Clock not installed OFF Log Inputs not active Inp 60 Out 8 Cnt 16 48 Reg 20 64 Sum 2 8 Hyst 2 8 Baud Rate SCTM 9600 DIN IEC 2400 SERVICE 9600 Printer OFF Measurement Status 1 17 06 2008 13 06 05 Figure 45 Device information For access click the title bar in main menu DMFPara File Parameters Commands Settings Info o ae Pu SHE DMFPara Q Time input Meter registers Pulse Input Output Cos Phi Control Inputs Outputs Device information Communication settings E Buffer DATA FW AREVA_SA_48 Typ 179 V 221 compiled Jun 04 2008 cJ1994 2008 BAER Industrie Elektronik GmbH D 90411 Nuemberg www baer gmbh com Typ 411357 Status 00000000 Kbd OKV1 2 02 11 95 DevicelD 0000000000000000 ROM DDFC HResets 0 HTraps 0 Last Trap No 0 Adr 000000 Date 0 MinSP 43FC24 MainCallCnt 185 Power fail 2004 01 01 00 00 00 FC MSC 0 Typ MSCOT IEC Version 6 11 Memory 512 kByte MPHO Start 2008 06 12 14 11 00 Lenght 1 min Tariff ON Internal Act Tariff E 0000 MD 0000 0000 Radio Clock not installed OFF Log Inputs not active Inp 60 Out 8 Cnt 16 48 Reg 20 64 Sum 2 8 2
20. Prints the meter and sum values that are specified in the corresponding menu item e g Current energy on list 1 on the built in printer or on an external printer at the specified time manual the values will only be printed out if activated in the CPU print menu at end of day at the end of each day at 24 00 hrs at end of month on the last day of each month at 24 00 hrs at end of period at the end of each measuring period after every reset at the time of each resetting Signs per line e g for external printer 80 signs Print meter numbers Prints the demand meter numbers of measuring period 1 the list 1 or 2 Title Text maximum length of 32 characters for list 1 or 2 notes instructions etc 74 Caer DMFPara Example 8 7 2 e Reset list Prints the meter and sum values that are specified in the corresponding menu item on the built in printer or on an external printer at the specified time daily monthly etc recommended value after every reset How to have daily and monthly lists of meter values and sums for cumulative energy printed out 1 Select the Printer field On 2 Select the field at end of day under the List 1 item 3 Select the field at end of month under the List 2 item 4 Select other desired options from this menu e g Title info text etc 5 Select Cumulative energy on list 1 from the List to print submenu and the value
21. an error message would appear on the telecounter s display when this function is active Text A programmable text of up to 8 characters can be entered here for each register address in the scroll list for devices with a software version of 1 37 and above In field 1 under Address the register address 04000 actually date time and in the corresponding Text field Date are entered After the programming and the use of the telecounter s scroll button the actually date and time and the text Date for the time period that was set under the General ports Time for scroll button menu item will appear on the display The display read out from the above example after using the scroll button FrTTA TT Actually date Format Year Month Day 2007 12 24 12 07 23 Date Text from the Text field If no text was given then the register address e g 00000 Actually time Format Hour Minute Second 71 DMFPara OBE Short list of registers addresses for the scroll list Time information 00000 01000 03000 03100 04000 actually date and time date and time at the end of the last registration period Tm date and time of the last voltage interruption date and time of the last voltage restoration date and time of the last resetting Counter value read out 100xx 10txx 11txx 120xx 130xx 180xx 181xx 182xx Maxima 40txx 4ntxx counter value readings for total
22. calendar 1 Sumi Tariff calendar 1 la Control Inputs Output di pa Lx Input 2 Tariff calendar 1 Sum 2 Tariff calendar 1 Tariff calendar Input 3 Tariff calendar 1 Sum 3 Tariff calendar 1 Tariff calendar 1 Inputs 1 5 Tariff calendar 3 Input 5 Tariff calendar 1 Sum5 Tariff calendar 1 A Tariff calendar 4 e e calendar allocation Input 6 Tariff calendar 1 Sum6 Tariff calendar 1 Holidays Input 7 Tariff calendar 1 icati tti Input 8 Tariff calendar 1 Input 9 Tariff calendar 1 Sums Neg Input 10 Tariff calendar 1 Sum 1 Tariff calendar 1 kad Input 11 Tariff calendar 1 Sum 2 Tariff calendar 1 Input 12 Tariff calendar 1 Sum 3 Tariff calendar 1 Input 13 Tariff calendar 1 Sum 4 Tariff calendar 1 Input 14 Tariff calendar 1 Sum5 Tariff calendar 1 Input 15 Tariff calendar 1 l Sum 6 Tariff calendar 1 Read wite Clear buffer com Password inactive 16 02 200915 32 57 Figure 99 Tariff calendar allocation Each of the four tariff calendars can have inputs and or sums registers assigned to it Unless changes are made they are all automatically assigned to tariff calendar 1 To make assignments to other tariff calendars select the input or sum and the Tariff calendar Tariff calendar allocation Tariff calendar 1 calendar 1 B Tariff calendar 2 Tari
23. either or both of the periodic buffers E DMFPara File Parameters Commands Settings Info 0980013 s MESE N DMFPara Pb General 9 Time input Meter registers Save 8 Inputs Sums Tarifts Number of saved decades 4 z 0 Meter registers values Pulse Input Output o Cos Phi Number of decades at sending 6 Y Control Inputs Outputs Tariff calendar demand values C Energy values Communication settings Compatibility factor 100 Buffer Buffer 1 Butter 2 Values into buffer PB1 Inputs Sums Pos Sums Neg ro fw re Y 01 M 01 ju O E DE iv 02 02 27 Iv 03 Iv 03 f 12 28 iv 04 04 2 3 IHE SEn D mo ri ra re X x x Cancel E Read CL Write Y COMI Password inactive 23 06 2008 13 37 31 Figure 107 Periodic Buffer 1 Note Up to 16 values inputs and sums registers can be saved in each of the two periodic buffers e Save Select the type of values to be stored and transmitted for periodic buffer 1 or 2 maximum demand values e g kW or energy values e g kWh Note Internal calculates the device for the maximum demand values with 4 digits only e Number of saved decades Select the length number of digits of values stored for periodic buffer one decade one digit For maximum demand values you can set 4 decades on
24. positive negative sums that should be printed in list 1 2 or reset list o Accumulative energy The amount of energy registered or measured by an input since its activation 75 DMFPara DE o Current energy The amount of energy registered or measured by an input or register since the start of measurement or the last reset billing list o Max demand Contains the average demand values per registration period in physical units e g MW kvar etc Select the column for which you want to mark by a click on the top of the line Which values should be printed on this list nia teta m me T Figure 82 mark a column Select the input for which you want to mark a click on the left site of the line E A Figure 83 Mark a line 76 DE DMFPara 8 7 3 Tariffs and meter texts File Parameters Commands Settings Info E DFW4 DLC32 19 DATAREG 48 32C o General 29 ol 2 Tariffs and meter tets Time input Meter registers Pulse Input Output Pulse duration input o Pulse adjustment Sums integration Terminal assignments Pulse duration output Hysteresis Heat meters Cos Phi E Control Inputs Dutputs General ports Tariff control Tariff inputs Scroll list Printer Printer options Lists to print Tariffs and meter texts 9 Communication settings
25. press the Enter key Password Restart system Factory settings Please enter the password T Figure 40 Password for restart system To prevent the accidental loss of data the program will automatically stop this function and the message Are you sure will appear Confirmation Restart system Factory settings Are you sure Nein Figure 41 Confirmation To continue with the restart either select the Yes field 33 DMFPara OBE If the error message Wrong password appears then check to make sure that the password is correct 7 E Error Wrong password Figure 42 Error message The system restart will be acknowledged through the Restart system executed message Information 1 Restart system executed Figure 43 Restart system executed With the telecounter s system restarted the device will under go a system test after which it will be in the basic status factory settings The registration device will have to be re programmed before it will again be ready for service 34 OBE DMFPara 6 7 Read reset list billing data Read out of the previous reset information billing data from the corresponding unit Read reset billing data tj V Save data in cADMFPARANRESET tsi Print data Brine Read values V Reset 1 01 06 2008 00 00 Max demand Reset 2
26. represented by whole numbers Then enter the result into the input fields for the relevant input The numerator and denominator values can only be entered in whole numbers without decimals maximum of 8 digits Because the maximum demand values are displayed and stored with 4 digits 0000 to 9999 it is necessary to define a suitable reading constant K It is determined by the following table Maximum demand kW m h Reading constant K 0 001 1 1000 Ho o0 1100 After multiplication of the displayed and stored demand value by the read constant you obtain the actual demand The reading constant for the energy values must be preferably set to maximum demand However user specific values are also permitted BO Set all lke first Set the values for all inputs like the first input Select the input for which you want to adjust the pulse adjustment by a click on the left site of the line Figure 116 Select an input Calculate Possible only if a line is marked Activate a wizard for calculation of numerator and denominator 100 Baer DMFPara amp Calculate Numerator Denominator Transformer ratio w Meter constant 1 Pulses kWwh Reading constant 1 y Registration period Tm 5 Min Energy Max demand Cancel Y Assign Figure 117 Calculate Calculate Numerator Denominator Calculate the numerator and denominator Energy
27. which for our example is 01 April Next select the End Season field and enter 01 October Season 1 for the first tariff calendar has now been defined to begin on the 1 of April at 00 00 and end on the 30 of September 1 of October at 00 00 Season 1 Start Season 01 April at 00 00 h Cancel End Season Oktober at 00 00 h Figure 93 Seasons table Note The season definitions are always on the basis of the calendar year 1 of January to 31 of December If the season definitions are not inclusive then the program automatically fills the gaps in the dates and sets a season change for the end of the year at 00 00 unless the six available seasons have already been set Confirmation Figure 94 New season Answer with Yes L and you get automatically the second season Tariff calendar 1 Seasons Saison Season 1 Br Season2 01 10 00 00 h Daily tariffs table Ende 01 10 00 00 h Period Season 1 01 04 00 00 h 01 April 01 Oktober 2 Edit period Figure 95 Two seasons 83 DMFPara Caer Coordination of season The default value is Daily tariff 1 for all days Week tariff Season 1 0 Monday Daily 1 ee ER Daily tariff 3 Daily tariff 4 Figure 96 Week tariff Continuing with our example select the Season 1 for 01 04 to 0
28. 00 06 00 13 00 Night tariff T2 all other times Holidays Holiday type 1 Night tariff plan T2 for all full holidays Holiday type 2 Saturday tariff plan Day tariff T1 from 06 00 13 00 Day tariff tables Up to 15 tariffs can be defined here Four different day tariff tables are to be set in this example e Day tariff 1 T2 T1 T2 e Day tariff 2 T2 T1 T2 e Day tariff 3 T2 e Day tariff 4 T2 T1 T2 Monday Friday Summer 00 00 06 00 06 00 21 00 21 00 00 00 Monday Friday Winter 00 00 06 00 06 00 18 00 18 00 00 00 Sunday and holyday type 1 00 00 00 00 Saturday and holiday type 2 00 00 06 00 06 00 13 00 13 00 00 00 80 DMFPara The first step is to open the Daily tariffs table window by selecting the button 2 DMFPara Bok File Parameters Commands Settings Info o sals 512 0800 2 s MEN DMFPara DFW DLC32 19 DATAREG 48 32 Tariff calendar 1 General o Time input Seasons Daily tariffs table Meter registers Pulse Input Output as Phi Daily tariff Star End Energy tariff Max dema T ron 5 pups Printer MT1 Tariff calendar Tani calendar 1 Tariff calendar 2 Tariff calendar 3 o Tariff calendar 4 o SS mum gessi settings Period 1 Start Energy tariff Max demand tariff Assign period Number of free entries 15 Y Assig
29. 000 00000000 Puffer a 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 12 00000000 00000000 00000000 00000000 00000000 48 Set all to zero Set all ike first Cancel Y OK 2 Read 1 write Password inactive Measurement is running 17 06 2008 15 57 56 Figure 57 Inputs A meter register reading of 00000000 is also allowed lf the menu item Read was selected and the Counter value was activated then the value at the time of the last meter reading will appear here after the selection of the counter and the tariff Ud Sealtozm Sett all inputs or sums to 00000000 BB Setatikertist Set all inputs or sums to value like first input or sum 46 Caer DMFPara i Set to zero Select the counter for which you want to adjust the energy value by a click on the left site of the line 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 Figure 58 Select an input Set the input to 00000000 lt Set ike fist Set the input to value like the first value __ Write the values for one input or sum 47 DMFPara Ger 8 4 Pulse Input Output All pulses at the inputs will be counted after debouncing and then processed according the menus below Pulse processing in the device example for DataFW4 DLC32 DLC19 DATAREG 48 and DATAREG 32C
30. 1 10 in the Season field Then select Monday in the Week tariff Season 1 field With the selection of the Daily tariff 1 in the Day tariff field the proper time and tariff assignments 00 00 to 06 00 Tariff 2 06 00 to 21 00 Tariff 1 18 00 to 00 00 Tariff 2 have now been made Since the day tables are the same for Monday through Friday the same procedure is to be followed after selecting the Tue Thu field and then again after selecting the Friday field Next comes the coordination for Saturday Select Saturday in the Week tariff Season 1 field and then select Daily tariff 4 00 00 to 06 00 Tariff 2 06 00 to 13 00 Tariff 1 13 00 to 00 00 Tariff 2 To coordinate for Sunday select Sunday and then the Daily tariff 3 00 00 to 00 00 Tariff 2 The tariff assignment for public holiday 1 Holiday 1 is the same as for Sunday Daily tariff 3 and for public holiday 2 Holiday 2 is the same as for Saturday Daily tariff 4 The coordination for the season 1 is now complete see the graphic line Tariff calendar 1 Seasons Daily tariffs table Ende p O Period Season 1 Saison Anfang 01 10 00 00 h Season 1 Season 2 01 April 01 Oktober zil EZ Edit period Bh 12h 18h 24h Week tariff Season 1 0 Monday Daily tariff 1 Tue Thu Daily tariff 1 Friday Daily tat Saturday Dalytaif4 Sunday apti Hoi
31. 1 10 1 1 1 1 100 1 1 1 100 Set all like first Read e Write COMI 7FMS1 Test Password inactive 12 02 2009 08 45 09 Figure 115 Pulse adjustment Priorities for the individual inputs will be determined dependent on meter constants transformer ratios and reading constants refer to the information for the individual registration device Energy value weighing W Meter with transformer RxK AN D Meter without transformer Yw K Volume xw np e g Heat meter Yw K Maximum demand value weighting Xp 60 x W E AA Meter with transformer Yp RxKxTm ap 60 1 Meter without transformer KxTm Flow AD e g Heat meter Yp KxTm Xw Yw Energy Work Volume Numerator X and denominator Y whole numbers 8 digits Xp Yp Maximum demand Power Flow Numerator X and denominator Y whole numbers 8 digits W Transformer ratio primary to secondary Ur x R Meter constant e g pulses kWh pulses m3 can be found on the front plate of the transmitting meter K Reading constant 99 DMFPara OBE Note Important Inp Impulse constant e g kKWh pulse can be found on the front plate of the transmitting meter VInp Impulse constant for volume e g m3 pulse can be found on the front plate of the transmitting meter Tm Registration period minutes Enter the correct values into the above formulas and reduce the result to the smallest value
32. 1 i 1 Max demand 4 1 Figure 118 Result Assign the numerator and denominator 18 Open MS Windows calculator 101 DMFPara Caer 9 5 Heat meters Define the parameters for the heat meters Pis DMFPara m Eile Parameters Settings Info e p ya 0 sals RE eleloo a P 5 MESE AE 7FMS1 Data Logger DATAREG 8 Heat meters General Time input Meter registers Pulse Input Output o Pulse adjustment Calec MB ST Multical 601 SensyCal ZwR5 Heat meters Register function Channel 1 Pulse input z Channel 2 Pulse input y Channel 3 Flow temperature Channel 4 Return temperature y Channel 5 High resolution flow rate difference y Channel 6 High resolution heat emission difference Hz Read write Password inactive 17 02 2009 13 23 24 Figure 119 Heat meters Possible register functions Pulse input Heat meter function disables e Flow temperature Heat meter function enables average value reading interval 10sec e Return temperature Heat meter function enables average value reading interval 10sec e Temperature difference Heat meter function enables average value reading interval 10sec e Instantaneous flow rate average Heat meter function enables average value reading interval 10sec e Instantaneous heat emission average Heat meter function enables average value re
33. 2 512 ca 5 MB for installation and gt 1 MB for parameterization files Mind CD ROM Mind one RS232 interface COM1 to COM255 Alternative USB interface with converter from USB to RS232 Microsoft Windows XP Vista or Microsoft Windows 2000 2003 Server and up Recommendation of the manufacturer Microsoft Windows XP This manual describes the complete functionality of the programming software Individual menu items may differ from this manual DMFPara OBE 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 directory DMFPARAS The following paragraphs explain how to install the programming software on a computer where it was previously not installed and no such directory exists Procedure for experienced system users only Insert the CD into the CD ROM drive Start the MS Windows Explorer and select the root folder of the drive on which the programming software shall be installed click on the drive symbol on the left hand side of the screen Create the program director e g C DMFPARA File New Folder Copy all files to the directory e g C DMFPARA The programming software is now installed on drive C in the directory C DMFPARA J DMFPara If you would like to be able to start the software without using the MS Windows Explorer you can create a s
34. 4 11 NN Periodic buffer 1 Read out compatibility factor 1 or 100 804 12 Periodic buffer 2 Read out compatibility factor 1 or 100 804 14 Le Recording of the unit time into the LSV1 telegram 804 15 Recording of the tariff ID byte into the SCTM measurement telegram version 1 52 and above 805 00 o Station address for load control 10 CGzaer DMFPara 805 01 NN Number of values transmitted during a load control 806 00 Reserve parameter for FC MSC This will be forwarded to unchanged on the FC MSC 806 31 version 1 52 and above A SN Receive block time only in Half duplex modulation from 3 to 255 in 10ms units 0 Full duplex Transmit delay time only in Half duplex modulation from 3 to 255 in 10ms units 0 Full duplex Sog Neder iraciviy time out 0015800 seconds 81200 2 Station address for loadprognosis version 1 52 and above 11 DMFPara 1 13 Periodic buffers Address Remarks Description 821 xx E Periodic buffer 1 assignments bit pattern for the demand register input terminal 1 48 sum 1 8 822 xx Periodic buffer 2 assignments bit pattern for the demand register input terminal 1 48 sum 1 8 1 14 Printer Address Remarks Description o c Pastor e Tileforist 86200 Primerno 36201 a Print info text atthe start of measuring 86202 s Printoutime
35. 7 24 873 03 List 2 bit pattern for the energy register that is to be printed out input 25 32 873 04 List 2 bit pattern for the energy register that is to be printed out input 33 40 873 05 List 2 bit pattern for the energy register that is to be printed out input 41 48 873 06 List 2 bit pattern for the energy register that is to be printed out input 49 56 873 07 List 2 bit pattern for the energy register that is to be printed out input 57 64 873 08 List 2 bit pattern for the energy register that is to be printed out Sums 1 8 import 873 09 List 2 bit pattern for the energy register that is to be printed out Sums1 8 export 874 00 List 2 bit pattern for the demand register that is to be printed out input 1 8 874 01 List 2 bit pattern for the demand register that is to be printed out input 9 16 874 02 List 2 bit pattern for the demand register that is to be printed out input 17 24 874 03 List 2 bit pattern for the demand register that is to be printed out input 25 32 874 04 List 2 bit pattern for the demand register that is to be printed out input 33 40 874 05 List 2 bit pattern for the demand register that is to be printed out input 41 48 13 DMFPara Address Remarks Description List 2 bit pattern for the demand register that is to be printed out input 49 56 A A List 2 bit pattern for the demand register that is to be printed out input 57
36. 8 310 01 Number of sums that will be formed DATAFWA DATAREG 48 0 8 and for DLC32 DATAREG 32C 0 2 or 0 4 CGzaer DMFPara 1 6 1 7 1 8 Address Remarks Description 310 02 Number of cos calculations 310 03 Sums difference formation on 21 or out 20 311 00 Polarity of MPA 0 2 not inverted 1 2 inverted version 1 52 and above 311 01 Apply energy meter register from heat meter jHetmeespe Load prognosis DIN19244 FCB FCV invert 311 04 Master sum for power generation only sum 2 reactive energy function of sum 1 active energy eros a Numberof characters for printing Maximum Address Remarks Description 40t xx Current maximum value and the time it occurred from demand counter xx for tariff t t 0 3 For more information s see address 100 00 Ant xx Maximum value and counter value of resets n number of reset 1 last t 0 3 maximum and the time for tariff t t 4 counter value and the energy since the last tariff reset total value t 5 8 counter value and the energy since the last tariff reset tariff 1 4 version 1 54 and above Register Address Remarks Description 600 00 Number of digits for each energy counter register 600 01 Number of digits for each demand register Control in and outputs Address Remarks Description O 64001 Display atresetimgs 64002 2
37. 8 import 871 09 List 1 bit pattern for the energy register that is to be printed out Sums 1 8 export 872 00 List 1 bit pattern for the demand register that is to be printed out input 1 8 12 CGzaer DMFPara Address Remarks Description SE A List 1 bit pattern for the demand register that is to be printed out input 9 16 90 List 1 bit pattern for the demand register that is to be printed out input 17 24 ETA List 1 bit pattern for the demand register that is to be printed out input 25 32 Pee List 1 bit pattern for the demand register that is to be printed out input 33 40 RA List 1 bit pattern for the demand register that is to be printed out input 41 48 List 1 bit pattern for the demand register that is to be printed out input 49 56 eal List 1 bit pattern for the demand register that is to be printed out input 57 64 List 1 bit pattern for the demand register that is to be printed out Sums 1 8 import EN List 1 bit pattern for the demand register that is to be printed out Sums 1 8 export pere List 1 bit pattern for value from the last MP bits 0 3 occupied 873 00 List 2 bit pattern for the energy register that is to be printed out input 1 8 873 01 List 2 bit pattern for the energy register that is to be printed out input 9 16 873 02 List 2 bit pattern for the energy register that is to be printed out input 1
38. C19 DATAREG 48 DATAREG 32C The data logger and the PC laptop in which the parameter setting program is installed are connected through a cable order number 6998 It has to be plugged into the data logger front panel and a Com Port on the computer Service RS232 25 pol Figure 3 Connection to the data logger The connection can be made between the PC and the data logger through any free PC laptop Com Port see the menu Settings Communications interface 25 pole SUB D plug in compliance with ISO 2110 standard cable Connector pin assignment V 24 RS232 DIN 66020 Parameterization and read out of the reset data through a PC The pin assignment of the V 24 socket on the CPU front panel is as follows 6 DSR Operational 7 SignaGround This table is not valid if the data logger has a special connection assignment 10 Ger DMFPara 2 1 2 Note Socket type Socket function 7FMS1 Data Logger DATAREG 8 2 lt gt 7 Service RS232 ae 5 pol Figure 4 Connection to the data logger 7FMS1 Data Logger The connection can be made between the PC and the data logger through any free PC laptop Com Port see the menu Settings Communications interface 9 pole SUB D plug in compliance with ISO 2110 cross over Connector pin assignment 24 RS232 DIN 66020 Parameterization and read out of the data through a PC The pin assignment of t
39. Channel 4 Control Inputs Outputs Iv channels BED 7 Pulse output denominator o General ports Tariff control Channel 6 zz e 3 V Channel 7 p Ej Sum Pos 0 Printer Channel 8 Tariff calendar v channel wa o Communication settings Buffer Channel 10 x Pulse output disabled A Calculate Common denominator Read C Wite COMI Password inactive 16 09 2009 10 33 09 Figure 66 Sums Calculations for all of the pulse inputs that are to be included in the sums are done here KWS iud Max demand Aps LL DON Yws RxKws Yps RxTmxKps Energy Xws Energy Numerator X and Yws common denominator Y whole numbers 8 digits Xps Maximum demand Power Numerator X and Yps common denominator Y whole numbers 8 digits W Transformer ratio primary to secondary Upri x R Meter constant e g pulses kWh can be found on the front plate of the transmitting meter K Reading constant Tm Registration period minutes S Sum between 1 and 8 Each summation unit in the device uses two registers a positive sum and a negative sum e g for import and export 54 OBE DMFPara Note Numerator For setting the energy value numerator of the selected input Common denominator For setting the energy value denominator of the selected input Pulse output denominator For settings the pulse output Defines the value for the weigh
40. Communication settings Define the parameters for transmissions between the registration device and the information relay interface e g modem 5 DMFPara X File Parameters Commands Settings Info o slae elsloo a P s DMFPara Bm DFw4 DLC32 DATAREG 48 320 Communication settings General Time input Protocol Meter registers Vu Pulse Input Output 5CTM C Lsv1 1 60870 Baud rate Interface 1 9600 Cos Phi 9 Control Inputs Outputs Baud rate Interface 2 9600 y Ta kalende Device ID 0000000000000000 Communication settings Buffer Loadprognosis Activate ID numbers for PB Off C On Modulation Ful Duplex Half Duplex Cancel Read i Write Y OK COMI Password inactive 23 06 2008 11 50 07 Figure 104 Communication settings Protocol For selection of the desired protocol SCTM Serial Coded Telemetering LSV1 or IEC60870 5 102 Parameters for SCTM and LSV1 o Device ID For setting the internal equipment identification number using the numeric keys The number may have up to 16 digits The first 5 digits are for the outstation number in the SCTM protocol The first 8 digits are for the outstation number in the LSV1 protocol Activate 10 numbers for PB Activation of the memory IDs periodic buffers o ID number for PB1 2 Enter an additional unit identifier for the periodic buffer 1 or 2 16 digits Param
41. D Parameters List Strg L Read parameters Strg R write parameters Strg W Meter registers Pulse Input Output Figure 18 Menu Parameters Device parameterization Parameter window on or off Parameter list Shows the parameter list Device designation Test Language 0 English Period 15 Min Slide measuring period 0 Measurement status 0 Measurement inactive Measurement start time 01 01 1980 Time input Radio clock OFF change to summer time OFF Number of Inputs 5 Number of Sums 2 Sums difference OFF Number of Energy tariffs 2 Number of Max demand tariffs 2 Meter registers Input 01 Total 00000000 T1 00000000 2 00000000 Input 02 Total 00000000 1 00000000 2 00000000 Input 03 Total 00000000 1 00000000 T2 00000000 Input 04 Total 00000000 1 00000000 T2 00000000 Input 05 Total 00000000 T1 00000000 2 00000000 Sun Pos 1 Total 00000000 T1 00000000 2 00000000 Sum 2 Total 00000000 1 00000000 2 00000000 Pulse duration input Input 01 Min HIGH 3 10 ms Min LOW 3 10 ms Max HIGH 0 10 ms Input 02 Min HIGH 3 10 ms Min LOW 3 10 ms Max HIGH 0 10 ms Input 03 Min HIGH 3 10 ms Min LOW 3 10 ms HIGH 0 10 ms Input 04 Min HIGH 3 10 ms Min LOW 3 10 ms HIGH 0 10 ms Input 05 Min HIGH 3 10 ms Min LOW 3 10 ms Max HIGH 0 10 ms Pulse adjustment Input 01 Energy Input 02 Ene
42. File Parameters Commands Settings Info oj sas 0800 2 P s DMFPara SR z DFW4 DLC32 DATAREG 493200 Meter registers Pulse Input Output Cos Phi Control Inputs Outputs Communication settings Puffer x Cancel Read all parameters Write all parameters Y DK COMI Password inactive 11 06 2008 10 39 37 Figure 6 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 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 with operating system commands Load Save Save as Print and Quit program Parameters settings and read write operation Commands for communication with the data logger Settings this menu can be used to define important system parameters Language Com Port Protocol Info information about the program DMFPara OBE 3 2 Felele lo oma I le I S Menu bar Menu bar ob DMFPara File Parameters Commands Settings Info o ojejoje a p s m S2 Figure 7 Menu 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 afte
43. Info oj slas al olejolel a P 2 DMFPara Lae E 0 4 DLC32 19 DATAREG 48 320 Holidays General Time input Meter registers New Yaar 01 01 1 Pulse Input Output Epiphany 06 01 1 requis Cos Phi Good Friday 10 04 2009 1 nS Control Inputs Outputs Good Friday 02 04 2010 1 Printer Good Friday 22 04 2011 1 Boxing Day C Tariff calendar Bood Friday 08012012 1 riday 103 9 n i 1 Good Friday 18042014 1 3 Good Friday 03 04 2015 1 Date 6 12 Tariff calendar 3 Good Friday 25 03 2016 1 Tariff calendar 4 Easter Monday 13 04 2009 1 O Tariff calendar allocation Easter Monday 05 04 2010 1 Holidays Easter Monday 25 04 2011 1 Type Holiday 1 Communication settings Easter Monday 09 04 2012 1 8 Buffer Easter Monday 01 04 2013 1 Ly Easter Monday 21 04 2014 1 Easter Monday 06 04 2015 1 Easter Monday 28 03 2016 1 May Day 01 05 1 Ascension Day 21 05 2009 1 Ascension Day 13 05 2010 1 Ascension Day 02 06 2011 1 Ascension Day 17 05 2012 1 Ascension Day 09 05 2013 1 Ascension Day 29 05 2014 1 Ascension Day 14 05 2015 1 Ascension Day 05 05 2016 1 Number of free entries 3 7i EI me if Des bulte Password inactive 16 02 2009 15 53 58 Figure 103 Holidays Note Up to 50 different holidays can be programmed For public holidays that come every year and have a set date e g New Years May Day you need only one entry 88 Caer DMFPara 8 9
44. List 1 List 2 and Reset lists One number will be transferred that will be interpreted as a bit pattern Bit O represents tariff register 1 bit 1 tariff register 2 etc The tariff register will be printed out when the corresponding bit is High 1 The same values for the sub addresses xx are to be used here as in the Address 100 xx 880 xx Print out of the maximum tariff register in the reset list see address 879 xx 881 00 List 1 bit pattern for the print out of the energy flow values since the last reset input 1 8 15 DMFPara OZBE Address Remarks Description List 1 bit pattern for the print out of the energy flow values since the last reset input 9 16 List 1 bit pattern for the print out of the energy flow values since the last reset input 17 24 List 1 bit pattern for the print out of the energy flow values since the last reset input 25 32 Ed I List 1 bit pattern for the print out of the energy flow values since the last reset input 33 40 LAE List 1 bit pattern for the print out of the energy flow values since the last reset input 41 48 List 1 bit pattern for the print out of the energy flow values since the last reset input 49 56 ee List 1 bit pattern for the print out of the energy flow values since the last reset input 57 64 List 1 bit pattern for the print out of the energy flow values since the last reset Sums 1 8 import
45. MFPara OBE General parameter for heat meters Apply energy meter register Heat meter function enables reading of the register value from heat meters active for flow rate and heat emission only Set the heat meter type Calec MB ST Multical 601 SensyCal 2WR5 or Autarkon Heat meter function enables M Bus Meter address Heat meter function enables set the heat meter address up to Firmware 2 18 0 1 and 3 from Firmware 2 19 0 to 250 62 OBE DMFPara 8 5 Power factor Cos Phi Define the parameters for the calculation of cosine phi Th m m File Parameters Commands Settings Info o sme al elsloo P 2 ESE DMFPara mhe General Time input Meter registers Inputs Sums T ariffs Number of Cos Phi 4 Meter registers values Pulse Input Output o Pulse duration input oe ee Pulse adjustment Active input Reactive input Sums integration Terminal assignments Cos Phi 1 Input mj Input zl Pulse duration output O Hysteresis 8 Cos Phi Control Inputs Cutputs Cos Phi2 input a Input EN m 9 Communication settings Buffer Cos Phi3 Input y Input zi je gt Cos Phi4 Input X Input zi je Hi Integration time 5 Min Cancel ned gt Wite v 0K Password inactive 19 06 2008 08 19 08 Figure 74 Cos Phi The registration d
46. Para Parameters for the sum registers The meaning of the value given for the sub address xx 00 07 energy positive sums xx 08 15 energy negative sums xx 16 23 demand positive sums xx 24 31 demand negative sums Address Remarks Description O Z O Z ooo O 210 xx Order of importance of the telecounter s sums register xx to 210 xx for input 1 273 xx for input 64 273 xx 280 xx Hysteresis for sums register xx available only for energy sums xx 00 07 Energy sums register output terminal number lt subadr gt to 28115 Output terminal number from tariff outputs 1 to 3 version to 1 36 and above 281 22 281 30 terminal number from measuring period output 1 to version 1 36 and above 281 31 rer terminal number from output RSTA version 1 55 and HIGH signal duration for output from sum xx xx 00 15 values from 1 to 200 in 10 ms units LOW signal duration for output from sum xx xx 00 15 values from 1 to 200 in 10 ms units Quantization energy counter numerator xx 00 79 see address 100 00 EI Quantization energy counter denominator values from 1 to 99999999 EN Quantization demand counter numerator 303 xx Quantization demand counter denominator must be gt 0 values 1 to 99999999 304xx Reading constant energy Reading constant demand 310 00 Number of pulse inputs that will be processed by the unit from 1 to 4
47. Printer Tariff calendar Intemal PC ti Device time zone o Communication settings me GMT 01 00 Amsterdam Berlin Bem Rom Stockholm Wien y Buffer Edit time with change to summer time Radio clock GPS Time by radio clock GPS HE Read P wite comi Password inactive 07 09 2009 15 15 46 Figure 52 Set time Internal PC time The device will be set to the current date and time of the PC where the programming software is installed Edit time The device will be set to the values entered into the fields Date and Time at the time of setting all parameters Time C PC time Time Date 14 51 08 17 06 2008 X with change to summer time Figure 53 Edit time Note If a start time has been set then be careful about changing the time or date because this might collide with the start time If the registration device is equipped with a radio controlled clock then the Edit time will be accepted only if the date entry is for the current date 42 Ger DMFPara With change to summer time This activates the adjustments that are set in the Summertime begin and Wintertime begin fields The wintertime is active when a comma appears in the field between the day of the week and the time and summertime is active when a period appears If there is no indication there then the summertime wintertime switching is turned off
48. REG 48 32C Optional 7FMS1 Data Logger DATAREG 8 7 4 Add on menus It is possible to activate some add on menus if needed In this case the reading writing of parameter will be slower Following add on menus are possible Parameter for heat meters reading via M Bus interface Parameter for internal or external printer Tariff calendar Enable heat meters v Enable printer Enable tariff calendar Figure 49 Add on menus For activation click the option 38 Ger DMFPara Note Important Menu Device parameterization You should perform a unit restart to factory default settings before programming a device Changes to some of the parameters will trigger automatic erasure of the load profile memory The relevant password must be entered correctly before changing any parameters in the registration device otherwise the unit will not change the parameters and will display a corresponding error message For information about 7FMS1 Data Logger DATAREG 8 see chapter 9 You should read the parameters and the stored data from the connected unit before you change the parameters The device can be programmed in the following ways Online programming individual parameters are sent directly from the relevant dialog windows to the data logger by using the action button Write after having been modified By using the menu item Write all parameters Please proceed as fo
49. Reset list bit pattern for print out of the energy flow since the last Reset Sums 1 8 import 877 09 Reset list bit pattern for print out of the energy flow since the last Reset Sums 1 8 export 878 00 Reset list bit pattern for print out of the maximum demand since the last Reset input 1 8 878 01 Reset list bit pattern for print out of the maximum demand since the last Reset input 9 16 878 02 Reset list bit pattern for print out of the maximum demand since the last Reset input 17 24 878 03 Reset list bit pattern for print out of the maximum demand since the last Reset input 25 32 878 04 Reset list bit pattern for print out of the maximum demand since the last Reset input 33 40 878 05 Reset list bit pattern for print out of the maximum demand since the last Reset input 41 48 878 06 Reset list bit pattern for print out of the maximum demand since the last Reset input 49 56 878 07 Reset list bit pattern for print out of the maximum demand since the last Reset input 57 64 878 08 Reset list bit pattern for print out of the maximum demand since the last Reset Sums 1 8 import 878 09 Reset list bit pattern for print out of the maximum demand since the last Reset Sums 1 8 export 878 10 Reset list bit pattern for print out of the smallest average value over the MP since the last reset bits 0 3 occupied 879 xx Print out of the energy tariff register in the beginning end lists
50. T pulse length This field will appear only when the Reset switch is not selected A reset pulse length of between O and 19 8 seconds 0 to 99 x 200ms can be set here The two tariff outputs TRF1 and TRF2 can be programmed so that a defined output status exists for each combination of energy and demand tariff rates Output 1 SUM 1 Output 3 MPA Output 5 TRF1 Output 7 RST Output 2 SUM 2 Output 4 MPA Output 6 TRF2 Output 8 RST 58 OZBE DMFPara 8 4 5 Pulse duration output Setting the output pulse duration T DMFPara Jo File Parameters Commands Settings Info 5 Sa o sae 0800 a P s WEISE DMFPara mr General Pulse duration output 8 Time input Meter registers Please select outputs pulse and pause length Inputs Sums T ore p atl Meter registers values ir Puce drs _ _ Hee o Pulse duration input LOS US Pulse adjustment Sum 1 9 10ms 11 0ms Sums integration e Terminal assignments Sum 2 3 l ms 11 l0 ms Pulse duration output Sum 3 10m 11 10m o Hysteresis Heat meters Sum 4 3 10 ms 11 10ms 9 Cos Phi Control Inputs Dutputs t Printer 4 Set all like first tw Tariff calendar 9 Communication settings Buffer Cancel ZZ Read PEZ wite Y OK comi Password inactive 18 06 2008 16 10 22 Figure 71 Pulse duration output e HIGH time Designates t
51. User Manual DMFPARA Version 2 Parameter Setting Program E120509109003 E DMFPara Wok File Parameters Commands Settings Info E DFW4 DLC32 DATAREG 48 32 General Time input Meter registers 9 Inputs Sums T aritfs Meter registers values Pulse Input Output 9 Pulse duration input 0 Pulse adjustment 9 Sums integration 9 Terminal assignments 9 Pulse duration output Hysteresis Q Cos Phi Control Inputs Outputs General ports 0 Tariff identification ports Scroll buttons list Communication settings Puffer Cancel o s ulaj elsloo 2 2 DMFPara a Device designation Test Language Deutsch Y Period 15 y Measurement start time noo Start measurement End measurement Slide measuring period o BIS O off A Read EE Write Password inactive Y OK 11 06 2008 08 31 42 B r Industrie Elektronik GmbH Rathsbergstr 23 D 90411 N rnberg Phone 49 0 911 970590 Fax 49 0 911 9705950 Internet www baer gmbh com DMFPara Caer COPYRIGHT Copyright 2009 Zoe 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 photogra
52. ading interval 10sec e High resolution flow rate difference Heat meter function enables difference e High resolution heat emission difference Heat meter function enables difference 102 Ger DMFPara General parameter for heat meters e Apply energy meter register Heat meter function enables reading of the register value from heat meters active for flow rate and heat emission only 103 DMFPara DE Read device information Read device information and show a message mate sti O CS 1 09021209000040000000000000123800050700324000273500 Version 3 11 1 12 02 09 09 00 Stat 0040 Figure 120 Device information For access click the title bar in main menu C1 0000 C2 0000 1238 C4 0507 CS 3240 C 2735 File Parameters Commands Settings Info o 80 2 ifFMS1 Logger General o Time input e Meter registers E Pulse Input Output Pulse adjustment Heat meters Version 3 11 1 12 02 09 03 00 Stat 0040 C1 0000 C2 0000 C3 1238 C4 0507 3240 C6 2735 G wmESEN DMFPara Dae Read all parameters Write all parameters i Clear buffer 7 51 Test Password inactive 12 02 2009 09 08 12 Figure 121 Main menu device information 104 DE DMFPara 10 Menu Info Information about the program F
53. alu x Figure 16 Print preview In the print preview you can adjust a further range of settings Print the current graph B Modify printer settings of the driver installed in the operating system 502 Zoom in or out Adjust the view to the display area A Portrait or landscape Increase or decrease the font size only possible for printing onto paper K 4 Move backwards through the pages Move forwards through the pages Adjust the page margins El Set the header and footer EA Select the page sequence X Cancel 20 OBE DMFPara 4 4 Quit program qg If you want to exit the programming software select the menu item Exit Note click on the button in the upper right hand corner of the main window the ey button or use the key combination ALT and F4 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 Confirmation A Parameters changed Do you want to save changes E No Cancel Figure 17 Save parameter file Yes Button for save for don t save Cancel Button for break back to the program The actually program settings interface timeout language will be automatically stored in the file DMFParaVer2 ini 21 DMFPara DE Menu Parameters File Parameters Commands Settings Info 9 Xx Device parameterization Strg
54. alue 0 because it is not activated The basic marker byte computation will use the following formula X MRK x 1 TRF1 x 2 TRF2 x 4 TRF3 x 8 in which the setting for MRK TRF1 TRF2 und TRF3 can be 0 or 1 If less than four tariff rates are programmed then the highest available tariff rate will be used Energy tariff number 2 lt ET3 follows ET2 and ET4 follows ET2 69 DMFPara Qaer 8 6 4 Note Scroll list For assignment of register addresses to the scroll button list These can be called up and displayed by pressing the telecounter s scroll button E DMFPara Param G1 91237 PAR c File Parameters Commands Settings Info E F 27 oj ojejole a P s WWSSNN DMFPara e E General Time input Meter registers Pulse Input Output Address Text Cos Phi f Control Inputs Outputs 1 gono Name 7 General ports 2 00000 Date Tariff control o Tariff inputs 3 10000 a Scroll list 4 10001 Input2 Communication settings Buffer 5 10002 Input3 6 10003 Input 10004 Input5 8 10005 Input amp 9 10006 Input 10 10007 Input 11 10008 InputS 12 10009 Input 0 13 10010 1 14 10011 Inputl2 15 10012 Inputl3 Cancel E Read PEZ wite v OK COMI Generator Password active Activating measurement 19 06 2008 11 20 36 Figure 79 Scroll list The telecounter s opti
55. ariff Activating or deactivating the tariff control External tariff inputs Activates external control Internal tariff calendar Activates the settings for the internal tariff calendar Tariff combination Activating or deactivating the bit pattern tariff combination Tariff combination computation procedure 1 Internal tariff 1 A 2 Conversion of A into a bit pattern 3 Find external tariff identification see menu Tariff inputs page 68 4 1 5 Conversion of C into a bit pattern 6 Combination of the bit patterns for A and C using OR logic D 7 8 Combined tariff after the computation D 1 Conversion of D into it s decimal value 66 Ger DMFPara Example Internal tariff 2 MT2 External tariff 3 ET3 MT3 example TRF1 0 TFR2 1 1 OO FW lt a 2 1 1 1 0000001 binary 3 3 1 2 2 00000010 binary 00000001 OR 00000010 00000011 00000011 3 decimal Tariff 3 1 4 Result ET4 MT4 67 DMFPara Caer 8 6 3 Note Tariff inputs Selecting inputs for the energy and demand tariff rates pu DMFPara E al File Parameters Commands Settings Info gt ES 7 n al 0181010 2 MESE DMFPara e Am DFw4 DLC32 DATAREG 48 32C Tariff inputs General Time Mask Tarif control Meter registers Pulse Input Output 9 Cos Phi Control Inputs Dutputs P
56. ars if the tariff calendars are active if not active then four times the tariff value of the tariff inputs 700 21 Current demand tariffs of the four tariff calendars if the tariff calendars are active if not active then four times the tariff value of the tariff inputs 700 22 Status of the measurements ponen 30 pL Information about FC MSC card ID a depending on the unit 700 31 mE Information about FC MSC card ID b depending on the unit 700 32 EN Information about FC MSC card ID c depending on the unit 1 10 Time parameters Address Remarks Description SSCS 701 00 E Length of time of MP1 in minutes 702 00 The next start time for MP1 format YYYY MM DD hh mm 00 unless requested at the very start of an MP1 703 00 o Length of time remaining in the current MP1 704 xx Table for the start of the summertime switch over xx 00 04 for the next 5 cycles The tables for summertime and wintertime should always be set at the same time 705 xx Table for the start of the wintertime switch over xx 00 04 for the next 5 cycles 1 11 Tariff control Address Remarks 707 xx Assignment of input of summation energy to one of the four tariff calendars see under register address 100 00 for the available specifications 708 xx 00 Assignment of input of summation demand to one of the four tariff calendars Values from O to 3 default 0 see under register addr
57. asurement dl ki Format Memcard Strg F G Restart system Factory settings Read reset billing data Strg B Read device information Strg I Figure 28 Password 6 2 1 Enter password Enter the correct password for parameterization Password parameterization Please enter the password X Cancel Jf OK Figure 29 Password for parameterization Checking password Wait please Checking password Figure 30 Password check 27 DMFPara OBE Note Note If you enter a wrong password you get a message 7 Error X Wrong password Figure 31 Error message In order to set the device s parameters values with the parameter setting program it is necessary to activate it through the entry of the proper parameter password Once the device accepts the password it will stay active for 15 minutes and will be automatically reset afterwards If you want to program the device after this time has elapsed you need to re enter the password Password reset With the selection of this menu item the password will be reset This means that the parameter password will have to be re entered for all functions which require this password entry e g setting parameters This option is in addition to the automatic reset after 15 minutes of inactivity 28 Caer DMFPara 6 2 3 Change password In order to change the passwords in the device you f
58. ckage contents A P 7 Installation ee 8 2 1 Connection to the data 0 10 2 1 1 DataFW4 DLC32 DLC19 DATAREG 48 DATAREG 320 10 2 1 2 7FMS1 Data Logger DATAREG 11 Starting the parameter settings program 12 A ccc ctm 13 SEE Ug cm 14 Ss HH EET 15 3 4 ODS 16 o AA 17 E e t 17 4 2 Save Save OS 18 E 19 4 3 1 PHDDBIGVIBW asia 20 4 4 Qut program EAER EE EE 21 Menu Parameters a 22 5 1 Device parameterizatlOn sisemeri en s E EE luke E EE 22 5 2 Parameter db inva aa SAC AE A AE ETE 22 5 3 Re d Oto il id 23 5 4 Write 25 Men Commander 26 SEES NM TRE E TEE 26 62 pi 27 6 2 1 EniBrpassWwONL ae oem cea sie lia 27 p 22 PRSSWOlOTOSOU dei dat 28 p 2 3 Change eae rn bita 29 31 6 4 End Measures 31 6 5 Format
59. d setting 10 or 10 seconds Note Each time that the registration device is restarted factory settings the receive block time the transmit delay time and the inactivity timeout are set to zero If either the receive block time or the transmit delay time are set to 90 Ger DMFPara zero then full duplex modulation RTS will be set once and remain set will be used For this however the modem must also be set for full duplex see the modem switch settings In the case that half duplex is desired then the values for both receive block time and transmit delay time must be larger than 0 The switches on the modem must be set to allow for half duplex modulation The other unit hardware must also be appropriately supplied and set For further information please see the modem manual e Baud rate Interface 1 and 2 Transmission speed for Com1 and Come at the data logger Load prognosis For setting the load prognosis parameter Station address The addresses from 1 to 254 are acceptable Baud rate Transmission speed Number of values Number of sums registers to be used for the transmission of values FCB FCV Bit invert DIN19244 FCB FCV Bit is DIN19244 conform first version 91 DMFPara OBE 8 10 Periodic Buffers All data can be stored in two periodic buffers PB1 and PB2 8 10 1 Buffer 1 and 2 For assignment of Input positive Sums and negative Sums data that should be stored in
60. e duration input Pulse adjustment Sums integration Tetminal assignments Start summer time End summer time O Pulse duration output O Hysteresis 30 03 2008 x 020000 h 26 10 2008 1030000 h Cos Phi Control Inputs Outputs 29 03 2009 y 02 00 00 h 25 10 2009 y 03 00 00 h General ports Tariff identification z Tariff ports 28 03 2010 y 020000 h 31 10 2010 X 03 00 00 h Scroll buttons list 9 Communication settings 27 03 2011 02 00 00 m h 30 10 2011 X 03 00 00 h Puffer 25 03 2012 E 02 00 00 h 28 10 2012 bd 03 00 00 h 3 Refresh X Cancel Y OK Password inactive Measurement is running 17 06 2008 15 23 59 Read AL Write Figure 55 Days for summer time change Refresh i i ler The summertime changes for the next 5 years will be recalculated with selection of this item The PC time not the edit time with the current year as the determining factor will be used as the basis for these recalculations 44 OOBE DMFPara 8 3 8 3 1 Note Meter Registers Inputs Sums Tariffs Definition of the number of inputs number of sums and number of tariff rates 15 DMFPara y Eile Parameters Commands Settings Info oj sas a P s wESE NS gt DFW4 DLC32 19 DATAREG 48 320 General Inputs Sums Tariffs y 8 Time input Meter registers
61. e 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 DMFPara Param G1 91237 PAR lalo File Parameters Commands Settings Info o mal elsloo P mm ESNEN DMFPara Em DFw4 DLC32 DATAREG 48 32C Tariff calendar 1 o General Time input Meter registers Pulse Input Output Cos Phi Daily tariff Start End Energy tariff dema Control Inputs Outputs Printer Tariff calendar Seasons Daily tariffs table Tariff calendar 3 O calendar 4 calendar allocation o Holidays o Communication settings Buffer Number of free entries 15 Cancel X Read w e v 0K Generator Password active Activating measurement 19 06 2008 14 00 35 Figure 88 Tariff calendar 79 DMFPara _ The following example will be used make these settings For two time periods summer and winter each with different switching schedules for two energy and two demand tariffs Day tariff T1 and Night tariff Day tariff T1 Season Summer Winter Time period 01 April 30 Sep 01 Oct 31 March Mo Fr T1 06 00 21 00 06 00 18 00 Sa T1 06 00 13
62. egister address 10104 Figure 25 Progress of data transmit When these settings are complete the measurement can be set to start through the selection of the menu Commands Start measurement 25 DMFPara OZBE 6 Menu Commands Some commands important for maintenance 7h DMFPara File Parameters Commands Settings Info Set time Strg T ej amp Password O Start measurement Strg M D End measurement bet Format Memcard Strg F Gj Restart system Factory settings Read reset billing data Strg B Read device information Strg I Figure 26 Menu Commands For some commands you need enter a password 6 1 Set time Set the time parameters for summertime switching and internal radio clock Set time Uhrzeit 11 06 2008 14 55 23 PC time Device time zone GMT 01 00 Amsterdam Berlin Bern Rom Stockholm Wien v Edit time Radio clock Time by radio clock Este X Corci mme Figure 27 Set time 26 OZBE DMFPara 6 2 Password Connect the service interface of the device to the PC laptop by means of a programming cable Enter the password DMFPara File Parameters Commands Settings Info Set time Strg T k rani EE pn o 218 9 zB 56 Password 4 Write password B E Q Start measurement Strg M ee Ch d D End me
63. energy xx 00 79 and meter status xx 00 48 counter value 00 input 1 01 input 2 etc xx 64 71 sums registers imported 64 sum 1 65 sum 2 etc xx 72 79 sums exported counter value reading for tariff t t 1 4 xx 00 79 and meter status energy since the last tariff reset t current value total demand value at the end of the last measuring period xx 00 79 and meter status total demand value current value xx 00 79 and meter status cos q average value for the last minute 00 03 cos q average value for the last measuring period xx 00 03 lowest cos q average measuring period value since the last resetting maximum value and the time of its reading from demand meter xx 00 input 1 at tariff t t 0 tariff 1 maximum value and the time of its reading from demand meter for the last Reset t 0 3 maximum value and the time for tariff t t 4 energy since the last tariff reset Total t 5 8 energy since the last tariff reset Tariff 1 4 72 Ger DMFPara Control inputs and outputs 64004 64010 64500 69000 reading of the reset counter and time of the last resetting number of resettings since the start of the measurement status of the LOG O 7 inputs current status of the RSTX1 2 SYN MRK ABL ROLL and TRF 1 2 3 32 Bit binary inputs Device information 70010 Device designation For more addresses see the
64. er in DMFPARA t Ed T 2 DMFPara exe Recent Param G1 91237 PAR E Param G2 91238 PAR 2 E Param OHL 91236 PAR E Param TR 91235 PAR Desktop Eigene Dateien 48 Arbeitsplatz Netzwerkumgeb Dateiname DMF PAR m ung Dateityp Configuration file Abbrechen Figure 14 Save a parameter file 18 DE DMFPara 4 3 Print Prints the currently open parameter file in clear text to the selected printer DFW4 DLC32 19 DATAREG 48 32 General Time input Meter registers v Inputs Sums T ariffs lt m ulse Input Output Pulse duration input Pulse adjustment Sums integration Terminal assignments Pulse duration output Hysteresis Heat meters s Phi ontrol Inputs Outputs General ports Tariff control Tariff inputs Scroll list ommunication settings ffer Buffer 1 Buffer 2 aaa o 2 2 daa lt lt Meter registers values 7FMS1 Data Logger DATAREG 8 Cancel Figure 15 Print wizard 19 DMFPara boe 4 3 1 Print preview Shows the currently open parameter file page by page in the way it would be printed 1509 a 2 ool 600 gie ddin BIB
65. ess 100 00 for the available specifications 709 xx Holiday assignments xx 00 99 2 X 50 even subaddress Holiday type odd subaddresse date The Holiday assignments are the same for all of the tariff calendars 710 xx Q 6 Starting dates of the six seasons xx 01 06 from tariff calendar 1 format MM DD hh mm 1 Definitions of the 8 week tariffs within each season xx 01 06 from tariff calendar 1 m XX Day tables xx 00 14 for the 15 time settings for each das from Tariff calendar 1 xs XX lt For the 15 day settings along with the corresponding tariffs Definitions of the seasons xx 01 06 from tariff calendar 2 731 Xx 9 6 Definitions of the 8 week tariffs within each season xx 01 06 from tariff calendar 2 732 xx Q 6 Day tables xx 00 14 for the 15 time settings for each das to from Tariff calendar 2 746 xx lt For the 15 day settings along with the corresponding tariffs Definitions of the seasons xx 01 06 from tariff calendar 3 751 xx Definitions of the 8 week tariffs within each season xx 01 06 from tariff calendar 3 752 xx Q 6 Day tables xx 00 14 for the 15 time settings for each das to from Tariff calendar 3 766 xx lt For the 15 day settings along with the corresponding tariffs Definitions of the seasons xx 01 06 from tariff calendar 4 DMFPara OZBE Address Remarks Description O Z o O i O 771 Xx Definitions of the 8 week tariffs wit
66. eter for IEC60870 5 102 o Address Device address Link address length 2 bytes Link address ASDU address Parameters for data retrieval all values in decimal notation 0 to 65535 or hexadecimal notation 0000 to FFFF ye Each registration device must have a clear and individual link and ASDU address for proper data transfer 89 DMFPara OBE IEC60870 Address Link amp SDL Decimal 1234 Hexadecimal Protocol C SCTM C LSV1 Figure 105 Communication parameters Protocol IEC 60870 5 102 e Modulation For setting the modem for Full Duplex or Half Duplex Modulation C Full Duplex Receive block time 30 10 ms Transmit delay time 40 10 ms Inactivity timeout 10 sec Figure 106 Communication parameters Modulation Half Duplex Parameters for Half Duplex o Receive block time For setting the time which must elapse after transmission of the last character and before the RTS line can be switched off Value range 3 255 in 10ms units Recommended setting 30 or 300ms o Transmit delay time For setting the time which must elapse between switching of the RTS line from OFF to ON and the CTS line from OFF to ON Value range 3 255 in 10ms units Recommended setting 40 or 400ms o Inactivity timeout For setting the length of time that can pass without signals being sent or received after which the modem will disconnect itself Value range 10 15300 in seconds Recommende
67. eters um Pos Cos Phi Output 4 Sum Pos 4 inver Control Inputs Dutputs Printer Output 5 TRF1 Tariff output 1 zi Tariff calendar y RST Reset output Communication settings Output 6 MPA Meas period output zi Buffer Output 7 RST Reset output 2 Pulse Switch Output 8 xi Pulse length 25 200ms tite Cancel ZZ Read ZI wii OK Comi Password inactive 18 06 2008 15 48 01 Figure 70 Terminal assignments Each of the data logger s available sums pulse output terminals will be assigned a function every time it is started The following assignments are available for each output terminal Positive sums pulse output 1 to 8 Negative sums pulse output 1 to 8 available only when the Sums difference is activated Registration period output MPA Tariff output 1 and 2 TRF1 and TRF2 Reset output RST none It is also possible to assign the same function to several outputs for example output 3 and output 4 as MPA TRF invert Inverts the tariff signal TRF MPA time For setting the length of time in 200ms intervals that the measuring period output should remain active after the end of a measuring period The maximum setting here is 45 45 x 200ms or 9 seconds MPA invert Inverts the measuring period output signal MPA RST pulse or switch Defines the mode for output RST 57 DMFPara Ger Tariff output Example RS
68. evice can automatically calculate the power factor cosine for inputs and sums There are two algorithms for this calculation differing in their time basis Periodic value The measuring period duration serves as basis for this calculation Average value The Integrate time serves as the basis for this calculation 2 Cos phi L0 active reactive Number of Cos Phi Up to 4 Cos Phi q are possible Reactive Active Active input Define the source for the active energy This can be either a pulse input or a summation unit Reactive input The correlated source for reactive energy Integration time Period of time in minutes over which Cos Phi q is determined Cos Phi will be updated once during each integration time independent of the period of time set Value range 1 min to 60 min 63 DMFPara OBE 8 6 8 6 1 Control Inputs Outputs Setting the parameters for control inputs General ports Setting the parameters for general ports RSTX reset billing data ABL SYN MRK logical inputs and scroll button pol DMFPara EJ E3 File Parameters Commands Settings Info Eh m yea 9 8 0800 a P s EE NS Am ed General ports e Time input Meter registers A AS V Pulse Input Output V Report resets in display Reset time controlled Cos Phi Control Inputs Outputs General ports Reset via keyboard h
69. ff calendar 3 Tariff calendar 4 Figure 100 Tariff calendar allocation 86 boer DMFPara 8 8 3 Holidays Defining the public holidays DMFPara al Parameters Commands Settings Info oj sas 0181010 a P s a General e 2 Time input Meter registers Pulse Input Output Cos Phi Control Inputs Outputs amp Printer Tariff calendar Tariff calendar 1 Tariff calendar 2 Tariff calendar 3 calendar 4 Day Date Type 9 Communication settings Buffer Number of free entries 50 z i HZ Read El Write amp Clear buffer Password inactive il 16 02 200915 39 39 Figure 101 Holidays gt kd Click on the button Add holidays and enter the date or use the program wizard x x x Add holiday Add holiday Good Friday Ascension Day Edit holiday Date 01 0 Date 0 04 21 Date 10 109 Type Holiday 1 y A yeas Y nex T year Type Holiday 1 x Type Holiday 1 x X Cancel Cancel Cancel Figure 102 Holidays example Then select the holiday tariff type for every holiday in the Type field in our example Holiday 1 Click the Assign fiel 87 DMFPara DP 5 DMFPara File Parameters Commands Settings
70. full minute is only possible in this time window around the end of registration period Tm Enable scroll button This is for activating the scroll button optional see the menu Scroll list page 70 Time for scroll button Defines the period of time between automatic scrolls to the next register address in the scroll list after pressing the 0 key on the device DataFW4 DATAREG 48 or Enter key on DLC32 DLC19 DATAREG 32C If you set this value to 0 then automatic scrolling is disabled and the next entry in the scroll list is only displayed on the next press of the 0 key The time is measured in seconds The maximum time that can be defined is 240 seconds 65 DMFPara Caer 8 6 2 Tariff control Activating or deactivating the tariff control the external tariff identification the internal tariff calendars and the tariff combination DMFPara File Parameters Commands Settings Info elsloo P s MESE DMFPara AE C RS Time input Meter registers Pulse Input Output Cos Phi Apply tariff Control Inputs Outputs o General ports Tariff control o Tariff inputs Scroll list Communication settings Buffer Internal tariff calendar C Tariff combination Cancel E Read Y Password inactive 19 06 2008 10 34 22 Figure 76 Tariff control Select the control mode Apply t
71. g table Tariff calendar 1 Daily tariffs table Seasons Daily tariff Energy tariff dema Daily tariff 1 00 00 06 00 2 2 06 00 21 00 1 1 21 00 00 00 2 2 Daily tariff 2 00 00 06 00 2 2 06 00 18 00 1 1 18 00 00 00 2 2 Daily tariff 3 00 00 00 00 2 2 Daily tariff 4 00 00 06 00 2 2 06 00 13 00 1 1 13 00 00 00 2 2 Figure 91 Daily tariffs table Seasons For setting the seasons and other time periods with special tariffs or other special requirements select the Seasons field bu DMFPara y E File Parameters Commands Settings Info E DFw4 DLC32 19 DATAREG 48 32 9 ame 9 oleole a 21 DMFPara ceca o Time input Meter registers Pulse Input Output Cos Phi Control Inputs Dutputs Printer Tariff calendar Tariff calendar 1 o Tariff calendar 2 Tariff calendar 3 Tariff calendar 4 Tariff calendar allocation Seasons Saison Anfang Daily tariffs table Holidays o Communication settings Buffer No season Read PY Write amp Clear buffer Password inactive 16 02 2009 13 30 49 Figure 92 Seasons table 82 DMFPara j Edit period Open the season definition window To define the first time period select the Edit period field Then select the Start Season field and enter the desired date
72. he connection cable order number 4306 7FMS1 Data Logger 9 pole PC 9 pole Input Output Pin Nr Pin Nr Input Output Input 2 Output TxD Senddata GND Signa Ground 3 __ 2 _5 8 Output 7 8 8 7 CGaer DMFPara 00600 Starting the parameter settings program The parameter setting program will be activated from MS Windows Explorer or via icon on the desktop After the correct installation and starting of the parameter setting program the dialog screen of the program will appear 2 DMFPara wok File Parameters Commands Settings Info oj slale 9 8 elsloo 2 P s SEEN DMFPara DFWA DLC32 DATAREG 48 32C Time input Meter registers Pulse Input Output Cos Phi Control Inputs Outputs Communication settings Buffer x Cancel Read all parameters Write all parameters Y OK com Password inactive 04 06 2008 10 06 32 Figure 5 Starting the program DMFPara On the upper edge of the screen is the menu bar and on the lower edge the status bar Information about parameters on the left site node Parameters conform to factory settings Activated parameter window Changed parameter Transmitted parameter or readout from the device 12 OBE DMFPara 3 1 Main window The main window contains the menu bar the task bar and the status bar pu DMFPara m B
73. he length of the output pulses The settings are in units of 10ms Values between 1 10ms and 200 2000ms can be entered In the example the value 9 9 x 10ms 90ms is used e LOW time Designates the minimum length of the interval between pulses The settings are in 10ms units and can be set for between 10ms 1 and 2000ms 200 In the example the value 11 x 10ms 110ms is used Set all ike fist Set the values for all sums like the first sum _ O Ewe Write the values for sum 59 DMFPara OBE 8 4 6 Hysteresis For setting the hysteresis parameters TH DMFPara Y gt File Parameters Commands Settings Info 5 sme olejojel t p 2 WERE Nn DMFPara bz General 8 Time input Meter registers o Inputs Sums T e Meter registers values Hysteresis Pulse Input Output Pulse duration input Sum1 Pulse adjustment Sums integration Sum 2 0 e Terminal assignments O Pulse duration output Sun3 0 Susa Sum 4 0 9 Cos Phi Control Inputs Outputs Communication settings Puffer Cancel pH Read E wite Y Password inactive 18 06 2008 16 19 55 Figure 72 Hysteresis Defines the capacity of the slack register Hysteresis for pulses For the calculation of balanced sums the device can use a programmable slack or hysteresis This is a temporary storage for incoming pulses With each pulse of positive sign the con
74. hin each season xx 01 06 from tariff calendar 4 772 XX 20 Day tables xx 00 14 for the 15 time settings for each das to from Tariff calendar 4 786 xx lt For the 15 day settings along with the corresponding tariffs 1 12 Communications parameter Address Remarks Description ooo O 800 00 Communication on off 800 01 Protocol version 1 33 and above 802 00 Number of digits in the outstation number EUER Unit ID the first 5 digits are the SCTM outstation number the first 8 digits are the LSV1 outstation number Unit ID for read out of 1 inactive 802 03 Unit ID for read out of PM 2 inactive 802 09 Length of the data block with TABSET 803 01 Data transfer baud rate using the SCTM or LSV1 protocol With MSCO 1 only for the first interface 803 02 Baud rate for the service interface 9600 baud 803 03 o Baud rate for load control interface 30 second data uil Data transfer baud rate using the SCTM or LSV1 protocol With MSC01 for the second interface versiot 1 49 and above o Masimum data book Po Ea over the SCTM LSV1 protocol NE NI Periodic buffer 1 d or demand values storage 0 gemang 1 energy bl ee demand 1 energy or or BES from 4 to 8 804 09 Periodic buffer 2 number of digits in the transmitted values from 4 to 8 80
75. hortcut on the so called desktop of your computer the desktop is what you see on the screen when no applications are running or when all applications are minimized Move the mouse pointer to an empty area of the desktop 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 complete path to the DMFPARA 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 DMFPARA 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 Figure 1 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 moving the icon while keeping the button pressed When you release the mouse button the icon will be dropped onto the desktop qu w My Computer MS Word 2003 z a Windows Explorer DMFPara Figure 2 Icon on Desktop DMFPara DMFPara OBE 2 1 2 1 1 Note Socket type Socket function Note Connection to the data logger DataFW4 DLC32 DL
76. igure 122 Info DS DMFPara Version 2 05 Copyright 2009 Baer GmbH Baer Industrie Elektronik GmbH Rathsbergstr 23 0 90411 N rnberg 49 911 97059 0 waw baergmbh com 105 DMFPara Ger 106 Appendix A Register Addresses DMFPara OZBE 1 1 1 2 1 3 Notes Remarks Parameter for the Service Interface 9600 baud 8 data bits 1 stop bit no parity Some of the register addresses listed here may not be available to the software and or hardware that is in use because of possible differences from one unit to another If an attempt is made to access such an address an error message will appear Meaning of remarks none Value cannot be changed O Value is settable if the password is activated O Value is programmable only if the program protection switch is not active red LED is off Value is programmable but while measurements are being performed NOT possible with DLC 32 or DATAREG 32C only restricted possible with DLC 32 DATAREG 32C Time Address Remarks Description 00000 s Current date ime format VWYY MM DDAhmmsss Fo1000 Daterime of the last measuring period 1 090 00 Datetime of the ast voltage interruption 031 00 Date time of the last voltage return 040 00 Date time of the last reset 040 01 Date time of the earlier resets version 1 54 and above to 040 12 CGzaer DMFPara 1 4 1 5 Example Counte
77. irst need to enter the correct active password for parameterization factory setting for this password 12345 Change password Old password New password Password parameterization 4F EE y C Max Reset 234 y C Media change 12345 gt Restart system Factory settings 4 Figure 32 Change password Select the category for which a new password shall be defined Password parameterization Max Reset Billing data Media change or Restart system and enter the new password Then enter the new password in the field New password click the button and repeat the password after request Change password Old password New password Password parameterization 2345 54321 v C Max Reset 345 v Media change 345 v Restart system Factory settings E 345 v X Quit Figure 33 Change password for parameterization 2g DMFPara OBE Note Important Repeat the new password for parameterization only Password parameterization Please enter the new password again Cancel J OK Figure 34 Repeat the new password for parameterization If both passwords are identical the device 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 Information Error 1 Password changed eo Pas
78. lease select the needed inputs o General ports Tariff control Energy tariff Max demand tariff e Tariff inputs Scroll list Communication settings Measurement mark input Buffer TRI Tariff control input 1 TR1 Tariff control input 1 TR2 Tariff control input 2 TRZ Tariff control input 2 Tariff control input 3 Tariff control input 3 x Cancel HL Read C write Y OK Password inactive 19 06 2008 10 45 31 Figure 77 Tariff inputs In this menu item the external tariff identification will be defined only in its relationship to the external control inputs this is only useful if the tariff rates are to be delivered over the input terminals Mask For selecting the inputs needed to control the energy tariff Tariff control Each tariff identification up to a maximum of 16 tariff identifications can be assigned a tariff If there are no assignments for a Mask Energy tariff or Mask Max demand tariff in the above graphic at TRF3 then they will be assigned a 0 Multiple port combinations are allowed for the same tariff in the above graphic ET and MT above left in the first and second line and all lines on the right are assigned the value 1 The instructions entered here are only active when the External tariff sign or the Tariff combination in the menu item Tariff control is selected 68
79. llows e Connect the service interface of the device with a free COM port of your PC using a programming cable Put the program protection switch of the device behind the display keyboard unit into the position down enable red LED is off see the DataFW4 DATAREG User Manual e Create or open a parameter file extension PAR e Enter the valid password menu item Write password e Program the device menu item or button Write all parameters Figure 50 Protection switch 39 DMFPara OZBE 8 1 General Show and set the general parameter DMFPara y a Parameters Commands Settings Info 5 6 y EL oj sals mal elelee 2 mm ESEN DMFPara AA a General Time input Meter registers Pulse Input Output Revie tengahan Measurement status Cos Phi Test Control Inputs Outputs Measurement is running Communication settings Language Puffer English Ie Measurement start time Registration period 15 v Min Slide registration period 0 se 15 End measurement 0 off Cancel HE Read 1 PEZ write J Password inactive Measurement is running 17 06 2008 13 36 59 Figure 51 General e Device designation label for the registration device can be assigned here that will be displayed over the use of the scroll button address 70010 e Language Select the language for the device display Cur
80. low values since the last reset input 17 24 ee Reset list bit pattern for the print out of the energy flow values since the last reset input 25 32 8 Reset list bit pattern for the print out of the energy flow values since the last reset input 33 40 Reset list bit pattern for the print out of the energy flow values since the last reset input 41 48 pues 5 Reset list bit pattern for the print out of the energy flow values since the last reset input 49 56 16 CGzaer DMFPara Address Remarks Description 883 07 Reset list bit pattern for the print out of the energy flow values since the last reset input 57 64 883 08 Reset list bit pattern for the print out of the energy flow values since the last reset Sums 1 8 import 883 09 Reset list bit pattern for the print out of the energy flow values since the last reset input 1 8 export 1 15 Miscellaneous Address Remarks Description 900 00 Whether the last password entry was correct or incorrect 900 01 The last incorrect FC MSC message for diagnostic purposes 900 04 Date time of the last NAK time out from FC MSC for diagnostic purposes 901 00 Radio clock reception off 901 02 Summertime switching on off 90104 __ Radio clock receiver evaluation on the SYN input 920 eo Password for parametering and program end only readable when parameters are being set
81. ly e Number of decades at sending Select the length number of digits of values transmitted for periodic buffer one decade one digit 92 Ger DMFPara Example Note Compatibility factor The read out compatibility factor multiplier is provided to facilitate measurement reading from older units that have software versions smaller than V5 00 when equipped with a FCO1 VU25 or VU26 card or smaller than V6 00 when the MSC01 card is used If the factor is set at 1 then the simple values will be right justified and then displayed If the factor of 100 is selected then the values will first be multiplied by 100 before they are right justified and displayed Compatibility factor 1 Compatibility factor 100 1234 6 001234 123400 8 90001234 00123400 s 18345600 Inputs Select the inputs that must be stored in the selected periodic buffer For reasons of compatibility only data from Inputs 1 through 32 can be transferred to the periodic buffers Sums Select the summation units that must be stored in the selected periodic buffer For reasons of compatibility only data from the first four sums registers can be transferred to the periodic buffers if the Sums difference field in the Input Sums Tariffs item under the Meter registers menu item is selected Otherwise the data from all eight sums registers is available to the periodic buffers The masks and the function
82. m 1 Sum Reactive Export Sum 2 Sum Reactive Import Sum 2 Results see the register address 190 xx of DataFW4 DATAREG Number of Energy tariff rates For entering the number of active energy tariff rates Number of Max demand tariff rates For entering the number of active maximum demand tariff rates 45 DMFPara 8 3 2 Note Meter registers values For setting the initial value in the selected tariff for the input or sum 8 digits 3 15 DMFPara o File Parameters Commands Settings Info oj sms olele a 2 MEN m E DFw4 DLC32 DATAREG 48 32 Meter registers values General sd abate Time input Meter registers O Inputs Sums T ariffs Inputs Sums Pos 4 Neg Pulse Input Output 1 E 9 Pulse duration input 00000000 00000000 00000000 00000000 00000000 Pulse adjustment T 00000000 00000000 00000000 00000000 00000000 Terminal assignments 00000000 00000000 00000000 00000000 00000000 Pulse duration output O Hysteresis a 00000000 00000000 00000000 00000000 00000000 s m Tee 5 00000000 00000000 00000000 00000000 00000000 Control Inputs Outputs General ports 6 00000000 00000000 00000000 00000000 00000000 ds 00000000 00000000 00000000 00000000 00000000 Scroll buttons list 8 00000000 00000000 00000000 00000000 00000000 a 00000000 00000000 00000000 00000
83. n daily tariff HZ Read AC Write COMI Password inactive 16 02 2009 10 40 52 Figure 89 Daily tariffs table Entry of the first day tariff Note All of the time entries within one day begin and end with 00 00 Gaps e g start end will be automatically filled by the program but this can lead to errors It is best when the complete control that is available to the customer is planned and defined here Select the end time field and enter 06 00 Set both tariffs to 2 wf Assign period The next step is to click Assign period The first time period for the first day has now been set There are two more time periods to be set for this first day classification Select the corresponding end field and enter 21 00 for the next time period tariff 1 Click Assign period The second time period for the first day has now been set Go to the third period and set the tariffs to 2 end time field 00 00 Click Assign period 21 00 00 00h 2 MT2 Figure 90 Daily tariffs table Assign The next step is to click Assign daily tariff The first day has now been set 81 DMFPara Repeat the process from the first day tariff entries making sure that the entry in the Daily tariff field corresponds to the new information that is to be entered Use the button for selection of the next daily tariff When all of these entries are complete you see the followin
84. ne input Possible only if a line is marked Activate a wizard for calculation of numerator and denominator ah Calculate Numerator Denominator Transformer ratio Meter constant 1 Pulses kWwh Reading constant v 1 Y Registration period Tm 5 Min Max demand Cancel Y Assign Figure 64 Calculate Calculate Numerator Denominator Calculate the numerator and denominator Energy 1 1 Max demand 4 1 Figure 65 Result Assign the numerator and denominator 18 Open MS Windows calculator 53 DMFPara Caer 8 4 3 Note Sum integration Allocation of inputs to the desired summation unit For assignment of input values for energy and demand factors which are to be available to the various sum registers DMFPara hex File Parameters Commands Settings Info Es ETA ol sme eleloo a s W EISE DMFPara m DFw4 DLC32 19 DATAREG 48 32C Sums integration General Time input Meter registers Sum 1 Sum 2 Sum 3 Sum 4 o Inputs Sums T ariffs e Meter registers values 22 Pulse Input Output Numerator Common denominator Pulse duration input Pulse adjustment Energy Max demand E a nergy Su Channel 1 7 e erminal assignments Pulse duration output Channel2 Max demand 1 O hea oo _ 9 Cos Phi
85. neral Time input Pulse duration input of meter inputs 0 off Meter registers at Minimal HIGH Phase Minimal LOW Phase MaximalHIGH Phase Pulse Input Output i 3 0m 00m 8 Pulse duration input SEU 7 Pulse adjustment 3 3 10 ms 0 10 Sums integration 3 10 3 10ms D 10 Terminal assignments Pulse duration output 3 10ms 3 10 ms 0 10 ms O Hysteresis 3 10 ms 3 10ms 0 10 Cos Phi Control Inputs Outputs 3 0 ms 3 10 ms 0 210 ms General ports 3 10 ms 3 10 ms 0 10ms Tariff identification ports 3 10 3 10ms 0 10 Scroll buttons list a 9 Communication settings Dome Puffer 3 10ms 3 210 0 10 3 210 ms 3 10ms 0 10 3 10ms 3 90 0 210 3 910 ms 3 10 0 10ms m 3 Set all like first X Cancel A Read wite Y DK COMI Password inactive Measurement is running 17 06 2008 16 21 59 Figure 60 Pulse duration Minimal HIGH Phase Defines the minimum length of incoming pulses Pulses shorter than this duration are not accepted by the device and will not be registered The default setting is 30ms 3x10ms 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 device and as a consequence the pulses will not be counted separately The default setting is 30ms 3x10ms
86. nu items Set one register In some menus you can set single register Select one line by a click with the mouse on the left site of the line 00000000 00000000 00000000 00000000 00000000 l 00000000 00000000 00000000 00000000 00000000 Figure 11 Select one line We Write send the values to the device 16 DP DMFPara 4 Menu File PAR Parameter file A DMFPara File Parameters Commands Settings Info z Load Strg 0 e Save Strg 5 48 32C LEE Save as Print Strg P 0 Quit programm Cos Phi Control Inputs Outputs Communication settings Buffer Strg Q Figure 12 Menu File Load Opens an existing parameter file PAR Load configuration Suchen in DMFPARA ene E CJ DMFPara exe Recent Param G1 91237 PAR Param G2 91238 PAR 3 Param OHL 91236 PAR E Param TR 91235 PAR Desktop Eigene Dateien Arbeitsplatz Netzwerkumgeb Dateiname m ung Dateityp Configuration file PAR y Abbrechen A Figure 13 Load a parameter file 17 DMFPara Baer 4 2 Save Save as a Saves the parameters in the open parameter file With this menu item you can save any modified parameter settings in the currently open file If no parameter file is currently open the menu item Save as will be activated Save configuration Speich
87. onal scroll button list can be programmed with up to 50 register addresses These register addresses can be displayed by pressing the scroll button or by closing the scroll button contact The mask for the scroll button list is arranged in three double columns Make sure that entries are made in the fields in the order that the fields are numbered field 1 field 2 field 3 etc If an entry was not properly programmed an error message with the register address and if there is enough room the text will appear on the bottom right of the display The scroll list can only display values for information purposes Spaces that appear at the beginning of a text will be ignored by the program 70 Ger DMFPara Note Example For telecounter s with a software version under 1 48 the Enable scroll button field in the General ports menu item must be selected in order for this item to function For devices with software versions of 1 48 and above the scroll button list can be called up from the standard display of the CPU through the use of the 0 key Address For entry of the register address whose parameters are to appear on the display when the scroll button is pressed A list of the most useful register addresses appears on the next page A complete list appears in Appendix A in the back of these operating instructions Only 5 digit register addresses will be accepted If for example 1234 were to be entered
88. pecification 643 05 Q Mask for the energy tariff bit pattern bit 3 TRF3 2 TRF2 1 TRF1 0 MRK 06 EA for the demand tariff EA pattern bit 3 TRF3 2 TRF2 1 TRF1 0 MRk lud 10 Bit pattern tables for the assignment of current energy tariff calculation 643 25 for TRF1 3 and MRK 64310 Active when TRF3 0 TRF2 0 TRF1 0 MRK 0 64311 Active when Active when 64313 Active when 64314 Active when esj e _ Active when Active when TRF3 0 TRF2 0 TRF1 0 MRK 1 TRF3 0 TRF2 0 TRF1 1 MRK 0 TRF3 0 TRF2 0 TRF1 1 MRK 1 TRF3 0 TRF2 1 TRF1 0 MRK 0 TRF3 0 TRF2 1 TRF1 0 MRK 1 TRF3 0 TRF2 1 TRF1 1 MRK 0 Active when TRF3 0 TRF2 1 TRF1 1 MRK 1 Active when CORS Active when 64320 Active when 64321 Active when 64322 Active when Active when 64324 Active when 64325 Active when TRF3 1 TRF2 0 TRF1 0 MRK 0 TRF3 1 TRF2 0 TRF1 0 MRK 1 TRF3 1 TRF2 0 TRF1 1 MRK 0 TRF3 1 TRF2 0 TRF1 1 MRK 1 TRF3 1 TRF2 1 TRF1 0 MRK 0 TRF3 1 TRF2 1 TRF1 0 MRK 1 TRF3 1 TRF2 1 TRF1 1 MRK 0 TRF3 1 TRF2 1 TRF1 1 MRK 1 DMFPara Address Remarks Descripion Bit pattern tables for the assignment of current demand tariff calculation for TRF1 643 30 30 64330 Active when 64331 Active when 64332 Active when 64333 Active when 64334
89. phic or indeed any other means without prior written consent of Loar 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 7 BAR Industrie Elektronik GmbH develops and improves their products on an ongoing basis In consequence Ze BAR Industrie Elektronik GmbH preserve the right to modify and improve the software product described in this document Specifications and other information 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 Ze 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 BAR Industrie Elektronik GmbH preserves the right to modify or withdraw this document at any time without prior announcement Ze BAR Industrie Elektronik GmbH does not accept any responsibility or liability for the installation usage maintenance or support of third party products Printed in Germany Ger DMFPara Table of Contents Introductio cc ne 7 1 1 The parameter setting nenene 7 1 2 Pa
90. r a short period of time ajaj Ol9 6le Petron Set time Figure 8 Brief description Quit program Load the parameter file Save the parameter file Print the parameter file Show parameters Parameter list TXT File Set time Set reset password Start measurement Stop measurement Read device information Settings for communications interface Change protocol between DataFW4 DLC32 DLC19 DATAREG 48 DATAREG 32C and 7FMS1 Data Logger DATAREG 8 Start calculator Change language 14 Caer DMFPara 3 3 Status bar Status bar X Cancel HZ Read p Write Y OK comi Password active 11 06 2008 11 18 54 Figure 9 Status bar Information in the status bar Com Port Device designation Status of password Status of measurement Actually time Progress of data reading ore writing com NENNEN Reading register address 80203 Figure 10 Progress of data reading 15 DMFPara OBE 3 4 Operation gt As alternative to the mouse you can also use key combinations corresponding to the MS Windows standard Some examples STRG C Copy STRG X Cut STRG V Paste TAB Jump to next control Note The above key combinations are only active in those menu items where they find meaningful application Select the menus 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 me
91. r ense 77 8 8 calendas osa ld cid 79 2 01 calendar Pert rr 79 8 8 2 calendar alo Nini 86 ON E ECC p T 87 8 9 Communication 8 89 8 10 Periodic Buffers sio 92 Buffer Ep 92 9 Menu Device Parameterization 7FMS1 Data 94 General aspas rom 95 9 1 1 Ghangs D m 96 9 2 TM Aem A 97 9 3 Meter TI utiles 98 9 4 Pulse adjustment aaa 99 AP a tees 102 DLM6Para Ger 9 6 Head device information ais 104 TOMEN 105 Appendix A Register Addresses ceres from A2 DMFPara Ger Ger DMFPara 1 2 Computer Main memory Hard disk Disk drives Interfaces A ag Operating system Note Introduction The parameter setting program The DMFPara parameter setting program can parameterize data loggers telecounter s DataFW4 DLC32 DLC19 DATAREG 48 DATAREG 32C This is done over the series service interface RS232 located on the front panel of the CPU The second data logger type is 7FMS1 Data Logger DATAREG 8 Package contents The programming package includes one CD ROM and this user manual PC min Intel Pentium 1500MHz or comparable PC
92. r value read out Address Remarks Description 100 xx Counter value for total energy xx 00 79 and meter status status provided only upon request xx 00 63 counter value inputs xx 64 71 sums registers imported xx 72 79 sums registers exported E XX KR value reading for tariff 1 4 t 0 3 xx 00 79 EAR meter status Energy since the last tariff reset lt t gt current value 120 xx Total demand value at the end of the last measuring period xx 00 79 and meter status 130xx a total demand value xx 00 79 and meter status 14t xx Total energy reading at the end of the last measuring period t 0 and values for tariff 1 4 Average value for the last minute xx 00 03 181 xx Average value for the last measuring period xx 00 03 182 xx Lowest average value for one measuring period since the last reset 1x o S Pulse conditioning Parameter for the pulse inputs for the sub addresses xx 00 63 Input 01 64 00 Input 01 Address Remarks Description 200 xx 6 Pulse debouncing for input xx minimum HIGH phase in values from 2 to 200 in 10ms units 201 xx 6 Pulse debouncing for input xx minimum LOW phase in values from 2 to 200 in 10ms units 202 xx Maximum pulse HIGH phase in values from 2 to 200 10ms units 0 monitoring is turned off Activation of input xx CALEC parameters for input xx DMF
93. ra DP Readout parameter DMFPara 1 File Parameters Commands Settings Info a El General O Time input Meter registers Inputs Sums T ariffs Meter registers values Pulse Input Output Cos Phi Control Inputs Outputs General ports 8 Tariff identification Tariff ports 8 Scroll buttons list Communication settings Buffer Figure 22 Readout parameter 24 OBE DMFPara 5 4 Note Important Write 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 system factory settings in the device before programming it to new parameters Write parameters tj eneral Time input Meter registers v Inputs Sums T ariffs Meter registers values Pulse Input Output Cos Phi Control Inputs Outputs Communication settings Buffer 116 lt Cancel gt Write Figure 23 Write parameters Without input of the correct password for parameterization no parameters can be transmitted to the device Enter the password Password parameterization Please enter the password X Cancel Jf OK Figure 24 Password Cancel COMI Writing r
94. rently four languages are available English German French and Nederland This dialog does not change the language used in the programming software DMFPara see the menu Settings Language page 37 e Registration period Definition of the length of registration period 1 60 Minutes 40 Ger DMFPara e Slide registration period For setting the length of time a multiple of the fixed measuring period of the flexible measuring period Example Slide measuring period 3 x Tm 3 x15 min 45 min Im pulses Stored values 8 6 6 e Measurement status Shows the status information e Measurement start time Shows the start time e Start measurement If nothing is changed in this field the measurement will start at the beginning of the next full hour after calling up the program As indicated in this field see the menu Commands Start measurement page 31 e End measurement Stops measurement see the menu Commands End measurement page 31 41 DMFPara OBE 8 2 Time input Set the time parameters for the synchronization and summertime switching including the date and time of the switching lu File Parameters Commands Settings Info 0 sals elsloo a P 2 MESE A pa DFW4 DLC32 19 DATAREG 48 32C Time input Set time Y Pulse Input Output 9 Cos Phi Control Inputs Outputs Time
95. rgy Input 03 Energy Input 04 Energy Input 05 Energy Max demand Max demand Max demand Max demand Max demand rrerrr NNN E RrerrRRE Er Seu Figure 19 Parameters list The currently open parameter file can be saved in a TXT File 22 Caer DMFPara 5 3 Read parameters Read all parameters from a connected device Click on the button Read parameters to read all active parameters from the connected device and to upload them into the programming software Existing settings will be overwritten Read parameters E 1 lt gt O e z e o gt gt D m c2 gt nelli General Time input Meter registers Inputs Sums T ariffs v Meter registers values Pulse Input Output Cos Phi Control Inputs Outputs Y General ports Tariff control Y Tariff inputs Scroll list Communication settings Buffer Buffer 1 v 1 lt lt Cancel Figure 20 Read parameters Read Parameters related to marked check boxes will be read from the device via the service interface Cancel COMI EBEN o Reading register address 10112 Figure 21 Progress of data reading 23 DMFPa
96. rn for the demand register input 25 32 876 04 Print out of the MP2 values bit pattern for the demand register input 33 40 876 05 Print out of the MP2 values bit pattern for the demand register input 41 48 876 06 Print out of the MP2 values bit pattern for the demand register input 49 56 876 07 Print out of the MP2 values bit pattern for the demand register input 57 64 876 08 Print out of the MP2 values bit pattern for the demand register Sums 1 8 import 876 09 Print out of the MP2 values bit pattern for the demand register Sums 1 8 export 877 00 Reset list bit pattern for print out of the energy flow since the last Reset input 1 8 14 CGzaer DMFPara Address Remarks Description 877 01 Reset list bit pattern for print out of the energy flow since the last Reset input 9 16 877 02 Reset list bit pattern for print out of the energy flow since the last Reset input 17 24 877 03 Reset list bit pattern for print out of the energy flow since the last Reset input 25 32 877 04 Reset list bit pattern for print out of the energy flow since the last Reset input 33 40 877 05 Reset list bit pattern for print out of the energy flow since the last Reset input 41 48 877 06 Reset list bit pattern for print out of the energy flow since the last Reset input 49 56 877 07 Reset list bit pattern for print out of the energy flow since the last Reset input 57 64 877 08
97. s of periodic buffer 1 and buffer 2 are the same 93 DMFPara OBE Important Menu Device Parameterization 7FMS1 Data Logger You should perform a unit restart to factory default settings before programming a device Changes to some of the parameters will trigger automatic erasure of the load profile memory The relevant unit ID must be entered correctly before changing any parameters in the registration device otherwise the unit will not change the parameters and will display a corresponding error message factory default setting 00000 Read parameters tj TFMS1 Data Logger DATAREG 8 Unit ID 00000 1 Cancel Figure 108 Set Unit ID You should read the parameters and the stored data from the connected unit before you change the parameters The device can be programmed in the following ways Online programming individual parameters are sent directly from the relevant dialog windows to the data logger by using the action button Write after having been modified By using the menu item Write all parameters Please proceed as follows e Connect the service interface of the device with a free COM port of your PC using a programming cable e Create or open a parameter file extension PAR e Enter the valid unit ID SCTM protocol e Program the device menu item or button Write all parameters 94 Caer DMFPara 9 1 General Sho
98. s that are to be printed 6 Select Cumulative energy on list 2 from the List to print submenu and the values that are to be printed 7 Make sure that the printer is turned on List to print T DMFPara o File Parameters Commands Settings Info 7 y 7 o slale 5 al eleloo P s WERE DMFPara DFw4 DLC32 19 DATAREG 48 32C Lists to print General Time input E 3 Meter registers Registration period List 1 List 2 Resets Pulse Input Output o Pulse duration input Pulse adjustment Which values should be printed on this list Sums integration Terminal assignments Max demand la Pulse duration output O Hysteresis e Heat meters Channel 2 m Cos Phi 4 Control Inputs Outputs Channel 3 Y General ports Tariff control Lom ve Tariff inputs Channel 5 Y Scroll list Sa Printer _ 1 e Printer options Channel 7 Y Lists to print Tariffs and meter texts Channel 8 Y o Communication settings Channel 9 v Buffer TJ Channel 10 Y Channel 11 Y Read PLI Write com Password inactive 11 02 2009 13 13 52 Figure 81 List to print e List for registration period Selection of the demand values and the positive and or negative sums that should be printed at the end of Measuring period 1 Tm1 MP1 e List 1 List 2 Reset list Selection of the energy values and
99. setting 00000 It isn t possible to read the unit ID from the device 96 Caer DMFPara 9 2 Time input Set the time 5 DMFPara m o File Parameters ds Settings Info 5 sjaja RE Clalole 2 21 MESH DMFPara General Time input Time input Time Meter registers Pulse Input Output Pulse adjustment f PC time Heat meters Edit time E Delete device status Read C write COM1 7FMS1 Test Password inactive 11 02 2009 15 43 34 Figure 111 Set time e Internal PC time The device will be set to the current date and time of the PC where the programming software is installed possible only when second 0 Wait please 39 60 Figure 112 Set time by second 0 e Edit time The device will be set to the values entered into the fields Date and Time at the time of setting second 0 e Delete device status The device status will be deleted address 70011 or 051xx 97 DMFPara OZBE 9 3 Meter registers For setting the initial value for the input channel 8 digits 2 DMFPara Jc File Parameters Settings Info wem ojejojel P s MEN m General Meter registers Q Time input Meter registers Pulse Input Output Total 8 Pulse adjustment d Heat meters prenne 00001000 Channel 2 00000000
100. sword could not be changed Figure 35 Messages You can change only one password at once If you forgot the password you need to perform a unit restart factory settings Please note that during a unit restart all currently stored data will be lost Therefore the device should be read prior to this 30 OBE DMFPara 6 3 Important Start measurement Measurements can only be started if the parameter password has been entered Start measurement Date Time 12 06 2008 v 11 45 00 Cancel Figure 36 Start measurement The upper starting time which appears is from the menu item Parameters General It is possible that the starting time that appears here has already passed error message Start time is over In this case select the lower starting time or change the starting time in the menu item Registration period The lower position starting time is the next possible starting time for the registration device determined on the basis of the Integration period settings and the current time End measurement With the selection of this menu item and the subsequent entry of the password for parameterization the measurements being carried out by the corresponding device will be ended The registration device will then label the measurement s end point and its program will be ended All of the telecounter s inputs will also be deactivated 7
101. t O Hysteresis Channel 1 Pulse input a Heat meters Channel 2 Flow temperature yj Cos Phi Control Inputs Outputs Channel 3 Retum temperature f E Communication settings Channel 4 High resolution heat emission difference 1 x Buffer Channel 5 High resolution flow rate difference f E Channel 6 Flow temperature X 4 Channel 7 Retum temperature fa E Channel 8 High resolution heat emission difference y 4 Channel 9 High resolution flow rate difference x fa Channel 10 High resolution heat emission difference 12 3 v HZ Read pE Write Password inactive 16 02 2009 08 43 22 Figure 73 meters Possible register functions Pulse input Heat meter function disables Flow temperature Heat meter function enables average value reading interval 10sec Return temperature Heat meter function enables average value reading interval 10sec Temperature difference Heat meter function enables average value reading interval 10sec Instantaneous flow rate average Heat meter function enables average value reading interval 10sec Instantaneous heat emission average Heat meter function enables average value reading interval 10sec High resolution flow rate difference Heat meter function enables difference High resolution heat emission difference Heat meter function enables difference 61 D
102. t plate of the transmitting meter K Reading constant Inp Impulse constant e g kKWh pulse can be found on the front plate of the transmitting meter Vinp Impulse constant for volume e g m3 pulse can be found on the front plate of the transmitting meter Tm Registration period minutes Enter the correct values into the above formulas and reduce the result to the smallest value represented by whole numbers Then enter the result into the input fields for the relevant input The numerator and denominator values can only be entered in whole numbers without decimals maximum of 8 digits Because the maximum demand values are displayed and stored with 4 digits 0000 to 9999 it is necessary to define a suitable reading constant K It is determined by the following table Maximum demand kW m h Reading constant K 0 001 1 1000 001 1 100 After multiplication of the displayed and stored demand value by the read constant you obtain the actual demand The reading constant for the energy values must be preferably set to maximum demand However user specific values are also permitted Set all lke first Set the values for all inputs like the first input Select the input for which you want to adjust the pulse adjustment by a click on the left site of the line Figure 63 Select an input 52 OZBE DMFPara Seta Set the values like the first input OOo Vie gt Write Write the values for o
103. tent 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 capacity of the hysteresis has been exceeded either in positive or negative direction An integrated energy direction switch directs the pulses in the first case to the positive output and in the second case to the negative output 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 Formula for calculation of hysteresis Hys 2 2x EXws Xws Energy numerator see the menu Sum integration 54 60 Caen DMFPara 8 4 7 Heat meters Define the parameters for the heat meters H DMFPara B File Parameters Commands Settings Info Ex ETA 5 2188 1981 olelole a P 5 mr DFW4 DLC32 19 DATAREG 48 32C Heat meters General o Time input Meter registers 9 Inputs Sums T ariffs Calec MB ST Multical 601 SensyCal 2wR5 Meter registers values Apply energy meter registers Pulse Input Output C Autarkon Pulse duration input Pulse adjustment Sums integration Terminal assignments Register function M Bus Meter address o Pulse duration outpu
104. tfresetoverthe keyboard and or SERVICE is possible User programmable reset counter from 1 12 640 06 Reset locking from 1 to 100 measuring periods only for measuring period 1 64007 RSTX1 2actve 64008 2 ABL active version t35andabove 64009 __ Number of measuring periods since the last reset 64010 __ Number of resets since the start of the measurement 64011 __ Reset counter 0 99 version 1 33 and above DMFPara Address Remarks Description Pulse length for RSTA output steps of 200 ms version 1 53 and above eno SYNinputacive o eno SYNimtisecnds enc o 64103 _ Input terminal number of SYN version 1 36 and above eoj e Scroll button active 0 off 1 on ds 01 Current address list for the scroll button m 50 642 51 Time setting for the scroll button list auto advance from 0 to 240 seconds 642 52 Input terminal number of the scroll list version 1 36 and above 64300 Tariff control on 1 off 0 643 01 Tariff control through TRF 1 2 3 MRK 0 through internal tariff calendar 1 or through external and internal OR logic bit pattern tariff combinations 2 64302 MRK active version 1 35 and above CS Number of energy tariffs values from 0 to 4 or from 0 to 7 dependant on the unit specification 643 04 Number of demand tariffs values from 0 to 4 or from 0 to 7 dependant on the unit s
105. ting of output pulses If there are sum that should not be display to the output then a 0 must be entered for those sum These values are active only if the sums are assigned to an output see the menu Terminal assignments To calculate the pulse ratio of the pulse outputs use the formula 8 digits Yws Xoutput Rout xKws Yws Common denominator for energy Rout Meter constant for the sum e g pulses kWh Kws Reading constant Selection of the input that is to be assigned You can toggle between and inactive by clicking on the buttons with the mouse Numerator Max demand Y Channel 1 mE Channel 2 V Channel 3 1 1 4 Channel 4 8 Channel 5 m Channel Channel 7 x a Channel 8 o o Channel 9 a RN Channel 10 m MM BK Figure 67 Sum numerator 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 55 DMFPara OBE For assignment of input values and energy and demand factors which are to be available to the various sum registers you can use this wizard Note If there are inputs that should not be added in the sums register then a 0 must be entered for those inputs Y Calculate Common denominator For calculation of the common denominator Given values see the menu P
106. ulse Input Output Max demand Num Energy Num Terminal assignments Pulse duration output Hysteresis o Heat meters 9 Cos Phi Control Inputs Outputs General ports Tariff identification Tarif ports 9 Scroll buttons list Printer Tariff calendar Communication settings Buffer Set all like first E Max demand Den X Cancel Read Write Password inactive Y 18 06 2008 11 48 03 Figure 62 Pulse adjustment Priorities for the individual inputs will be determined dependent on meter constants transformer ratios and reading constants refer to the information for the individual registration device Energy value weighing ZW Meter with transformer Yw RxK Xw Meter without transformer K Vinp Volume e g Heat meter Yw K 9 Maximum demand value weighting Xp __ 60x W Meter with transformer Yp RxKxTm Xp _ 60x Inp Meter without transformer KxTm Flow AD e g Heat meter Yp KxTm Xw Yw Energy Work Volume Numerator X and denominator Y whole numbers 8 digits Xp Yp Maximum demand Power Flow Numerator X and denominator Y whole numbers 8 digits 51 DMFPara Ger Note Important Upri lor x Usec W Transformer ratio primary to secondary R Meter constant e g pulses kWh pulses m3 can be found on the fron
107. ulse adjustment page 50 Summe 1 Calculate Common denominator Channels in sum 1 Given values 171 4 1 4 1 4 1 471 Al 4 1 VW Calculate Menu item Pulse adjustment Figure 68 Sum calculate Calculate __ e Calculation of common denominator Summe 1 Calculate Common denominator Channels in sum 1 1 1 4 1 1 1 4 1 1 1 1 1 4 1 1 1 1 1 4 1 171 1 71 4 1 Wey Common denominator 1 Menu item Pulse adjustment Given values Calculated values 4 1 4 1 4 1 4 1 4 1 Cancel Y Assign Figure 69 Sum calculate and assign Assign the numerator and denominator 56 OBE DMFPara 8 4 4 Terminal assignments Setting the parameters for control inputs DMFPara m File Parameters Commands Settings Info 1 0800 s DMFPara ue E qb bcn DATAREG 48 32C Terminal assignments eneral e Time input Meter registers Inputs Sums Taiiffs Which function to which ouput terminal e Meter registers values Pulse Input Output TRE Tariff output Pulse duration input Pulse adjustment invert Sums integration Output 1 Sum Pos 1 7 Terminal assignments Pulso Ein output Output 2 Sum Pos 2 Se o Hysteresis 0 x 3 Sum Pt 3 d 1 vj 200ms Heat m
108. un Y Tariff control Reset every month y o Tariff ports D Scroll list Reset via input RSTX S Communication settings o zl El El Buffer Reset lock time 3 _ periods Hour Min at o Sao Reset counter 6 B Enable input SYN Enable input ABL Time for SYN window always xj Enable logic inputs Enable input Time for scroll button 0 Xj sec X Cancel Read CZ write Y DK COMI Password inactive 19 06 2008 10 12 31 Figure 75 General ports As an option the device can be fitted with several control inputs Depending on the hardware version the following functions can be activated Report resets in display If this menu item is switched on a resetting through a terminal switch or after time elapse not with the keyboard will be confirmed by a short message e g Maximum reset 01 on the telecounter s display If this menu item is switched off a reset will not be confirmed Reset via keyboard this menu item is switched on a reset using the keyboard is possible If this menu item is switched off a reset via the keyboard is blocked Reset input RSTX When this menu item is activated an external reset signal can be sent over the RSTX input see the Pin assignment Reset lock time Defines the period of time during which no reset can be initiated The value can be set between 1 and 100 registration periods value 0 is not permitted Reset co
109. unter 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 64 Ger DMFPara Example Reset time controlled Defines the time for automatic resets Daily reset Enter hour and minute Weekly reset Enter hour minute and weekday Monthly reset Enter hour minute and day Yearly reset Enter hour minute day and month Once Enter hour minute day month and year Enable input ABL If this menu item is active and a signal is present at the optional ABL input terminal maximum values will not be formed Enable logic inputs Activates the logical inputs optional Enable input MRK For activation of the measurement value marking Enable input SYN Activating this menu item activates the synchronization input terminal If this menu item is switched off the synchronization input does not have a function In that case it is recommended to synchronize using a radio clock or through remote control Time for SYN window This will only appear when Enable input SYN has been selected Here you can determine the time max 29 seconds always before and after 0 seconds of the measuring period for the duration of the active synchronization input If you enter a value between 1 and 28 in seconds then synchronization to the closest
110. w and set the general parameter 15 DMFPara m Ele Parameters Settings Info 5 m ELA o TE olojoje P s MM ESNN DMFPara Am p E YFMS1 Data Logger DATAREG 8 General General pl Time input O Meter registers Unit ID Pulse Input Output Pulse adjustment 2345 P Change unit ID Heat meters Device designation 7FMS1 Test Registration period 15 zl Min Number of Inputs 6 z Warning not adjustable Read Write COMI 7FMS1 Test Password inactive 11 02 2009 15 27 47 Figure 109 General e Unit ID Edit the correct unit ID for communication wit the device e Device designation A label for the registration device can be assigned here that will be displayed over the use of the scroll button address 70010 e Registration period Definition of the length of registration period 2 60 Minutes e Number of Inputs Definition of the total number of active inputs channels needed for following parameterization In the device is the number of inputs fix and not adjustable Firmware E Changent Change unit ID Edit five 5 digits unit identification SCTM Address 95 DMFPara Caer 9 1 1 Change unit ID Edit the new unit ID D Change unit ID New unit ID 98765 Cancel P Change Figure 110 Change unit ID Note The new unit ID will be automatically updated in all menus Factory default
111. y xx 00 49 649 00 Current tariff identification byte version 1 52 and above Table for the tariff identification byte for active tariff calendar version 1 52 and above Momentary conditions of the inputs RSTX1 2 SYN MRK ABL scroll TRF1 2 3 32 bit binary DMFPara 1 9 Unit information Address Remarks Description SSCS 700 00 Unit designation 70001 JVesin 00000 70002 Versiondate S 70003 Manufacturer OE 70004 ROM entification 70009 Unit accessories read out only programmable at 930 00 700 10 Unit label 16 ASCII character programmable 70011 Unitstatus 70012 Status of the first FC MSC identification a in the unit 700 13 Status of the second FC MSC identification b in the unit if so equipped if not so equipped the 0 will appear in the display 700 14 Status of the third FC MSC identification c in the unit if so equipped if not so equipped the 0 will appear in the display 15 SCTM status of the first FC MSC identification a in the unit SCTM status of the second FC MSC identification b in the unit if so equipped if not so equipped the 0 will appear in the display d EN SCTM status of the third FC MSC identification c in the unit if so equipped if not so equipped the 0 will appear in the display 70019 Printerstatus 700 20 Current energy tariffs of the four tariff calend

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