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Datalogger User Manual - baer
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1. EXIT V Press twice Main menu ENTER gt INFO Display alarms Current values 4 Info 4 Energy values Set Parameters EXIT Load profile Y Press three times 2 INFO ENTER BILLING DATA ENTER BD CURRENT ENERGY 1 EXIT Energy values bEnergy current 4 R gt DDMMMYYYY hh mm Load profile Energy cumulat Ser RR ris Billinq data EXIT Maximum demand EXT WWWWWWWW EEEEE vj 1 ENTER 1 pe M H M EE E BD CURRENT ENERGY CT PDDMMYYYY hh mm B Ser CH AT a gt YYYYy hhli m WWWWWWWW EBEEE vj 1 R ATO Z Vo ENTER WWW E E E EE mn
2. B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Y Main menu Le EXIT Haintenance Le EXIT Set Time Info gt Set Time lt Set Parameters Activate PC Card DD MMM YYYY hh mm bMaintenance a ENTER gt Deactivate PC Card ENTER SI A A o S amp Use the vland t keys to adjust the digits Use the ENrER key to confirm a digit and move to the next digit spontaneous events E Pressing the Enter key on the last digit will set the time in the unit Activate PC Card B S PC Card is being x Eu PINE esc E activated EXIT EXIT i 3 ENTER amp PActivate PC Card 4 n ee rar Deactivate PC Card Ee eesvate en PC Card is already activated Fo EXIT lv S A S wu wn e oO Deactivate
3. Info XXXXXXXXXXXXXXXXXXXX Set Parameters lt EXIT XXXXXXXXXXXXXXXXXXXX or V Next alarm 4 until all alarms were displayed y IN EXIT Display Alarms ENTER no further alarms Figure 27 Flow diagram for alarm display How to get there Press the key once and then press the ENTER key Display of alarms All occurred and undeleted alarms will be displayed The displays and their meaning are described in further detail in the section Fault displays see page 67 Exit the menu item Press the EXIT key to return to the main menu User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 7 Main menu item Info How to get there Press the key twice when in the standard display and then press the ENTER key What does the display show The display will show the current values cumulative and current energy demand and pulses the measure ment values from the registration period MP1 or MP2 energy values increments or demand values as well as resets billing data spontaneous events table addresses and information about the current firmware ver sion It is possible to show all values stored in internal memory load profiles and billing data in the display All values are displayed with 4 6 or 8 digits and
4. EXIT Use the arrow keys to CURRENT VALUES CURRENT VALUES select the desired EE rel comm vonooooo xis Hl counter LAST 00000000 kWh v LAST 00000000 kWh To select the counter ENTER I Use the arrow keys to CURRENT VALUES CURRENT VALUES select the desired rate EN CUM MP1 Rei z0i EN CUM MP1 Fl zoi CURR 00000000 kWh Sp CURR 00000000 kWh Y LAST 00000000 kWh LAST 00000000 kWh Standard display EXIT To select the rate ENTER Press ENTER to proceed I CURRENT VALUES CURRENT VALUES A EN CUM D Tor z01 EN CUM TE ToT z01 CURR 00000000 kWh CURR 00000000 kWh P LAST 00000000 kWh v LAST 00000000 kWh EXIT v Press twice To select the registration period ENTER EXIT I Ges Main menu INFO CURRENT VALUES CURRENT VALUES ENTER gt ENTER Display alarms Current values 4 Saar MP1 Tor zol MP1 TOT Z01 Info lt EXIT Energy values EXIT CURR 00000000 kWh E CURR 00000000 kWh Set Parameters re Load profile lt LAST 00000000 kWh LAST 00000000 kWh Choose between EXIT EXIT energy and demand j v y CURRENT VALUES CURRENT VALUES Lr rg 000dd o L a 0000000 vw URR URR W v LAST 00000000 kW EXIT Press ENTER to proceed Press ENTER to proceed EXIT Figure 28 Flow diagram for
5. Figure 17 Connector X3 When IED bi current bi polar Modules are used then the signal conditioning must be adjusted by means of the programming software DLXPARA When using mixed types of pulse inputs the IES type modules are located at the left hand side DLX Page 33 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5 4 5 Connector X4 pulse inputs 7 16 Terminal type Combicon MSTB2 5 10 ST 5 08 Phoenix 2 per input output card Function Pulse inputs In7 to In16 terminal to 20 Input types 10 input modules IEW IES IED 1 10 20 OOO oO QOO Qu NU Deg Pulse input In7 I o Ex 0 0 0 E GARS AME DANI eg 1 N7 5 s e 7 s 9 Pulse input In11 IN11 i T E 13 Pulse input In13 IN13 14 Pulse input In13 15 Pulse input In14 IN14 16 Pulse input Inl4 17 Pulse input In15 18 Pulse input In15 19 Pulse input In16 IN16 20 Pulse input In16 Electronics IE7 ES IET1 IE13 Eis E IE10 Es IE14 Eis tht titt it it 1 1 1 p x3 i1 l2 3 4 5 6 7 8 9 10 11 12
6. EXIT Y on Main menu Erase alarms Set Parameters LENTER J Maintenance Erase alarms bErase alarms EXIT EE All alarms will be cleared Figure 37 Flow diagram for menu item Erase alarms How to get there Press the key five times when in standard display and the press the ENTER key Erasing alarms The user can erase all alarms that have occurred Possibly active alarm indication relays will be reset and the light emitting diodes for alarm indication will stop blinking DLX Page 57 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 8 Interfaces 8 1 General Three interfaces are available in the DLX unit e Service interface for programming purposes and data retrieval e Data interface for data retrieval on site optional e Modem interface for remote data retrieval optional 8 1 1 Automatic protocol recognition The DLX unit automatically recognizes the retrieval protocol currently SCTM IEC60870 or the program ming software DLXPARA On both direct interfaces service interface and data interface the first query telegram will be lost in the case of a protocol change the modem interface can change the protocol without losing a telegram Therefore DLXPARA can be used to define the default protocol for the data interface the default
7. Figure 29 Flow diagram for menu item Info energy values How to get there Press the key once when in menu Info and then press the ENTER key The DLX enters the menu item selected Changing the parameters The or V keys can be used to select the registration period MP1 or MP2 the counter the date and time and to select apparent energy or cos P What will be shown After entering the menu item the DLX will display the energy values of the last registration period MP1 or MP2 if present for all counters Z01 to Z16 totals S01 to S04 apparent demand X01 or X02 and cos that have been stored It will also show the device status Gs see appendix A SCTM Addresses Use the key or the key to switch between registration periods Use the ENTER key to move the cursor to the next parameter then use the or the 4 key to change the parameter value B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 7 3 Load profiles Standard display A EXIT Y Y d Main mem ENTER EE Display alarms Current values a Info 4 EXT Energy values Set Parameters Load profile A A LOAD PROFILES EXIT No parameters are set for regis
8. eerte re nes 62 RR E EA 63 11 1 Permitted PC C rd s u a ee EE USER a se deed ie 63 11 2 Treatment advice e 5 rette treten tn nest tote eese eae ene sonas nere a Seno aaea 63 11 3 Inserting a PC Card e e eee te tede a Ha Dale 63 114 Activating a PC Cartd nose irte pe nde e a PT Erde apa 64 11 5 Deactivating a PC Card M 64 11 6 Removing a PC Card E 64 11 7 Datastorage on a PC Card ee csssctiessasseniscessceubeoudesuetesiesunsssceutehesbevapestecsaploaieienentestevoneddnubeonse 64 12 Registration of measurementS scussosssssonssonssnnsnnnennnenonsnonsnnssnnssnnsnnnssnssnnnsnnssnnssnnsnnnssnnssnnsnnssnnssnsssnssnnn 65 12 D Sri ee EE 66 13 Fault display 67 IKNBEeTur 67 13 2 Laght Enut ng Diodes rere nee ee ke ee Diehl 69 13 2 1 LED AL ET UE 69 13 22 LED AL2 Device UE 69 13 3 Message DUtfers iie ane eie EO Ce en Einlesen 69 13 4 Fault indication output 4 idein EEN dose neo e RR da eed sn 69 14 Technical data SEs 70 IET OA T T O NARE E E TE E AEE E E EA N EAE AT 74 Appendix A Data retrieval protocols Le erroe eek nein from A2 BEIM es een from A2 IEC 60870 3 102 EE from A21 Appendix B Table aleng eener from B2 Appendix C List of parameters and constants sess enne re
9. Current reset indices Cnt12 and Cnt99 Table value I I T fola D D bL les es ct 2Ct 2 external reset index 1 to 12 can be set using DLXPARA Cto9Cto9 internal reset index modulo 100 0 to 99 Example L 1 0 ECH IESSE E Expl 01 current month e g January 12 resets have occurred since the last unit restart Table value KEE EI f Flag 0 Programming is disabled 1 Programming is enabled Example LZ Radio clock signal Table value I LIE f State of the radio clock signal interpretation 0 Radio clock is not active 1 No minute signal received yet 2 First minute signal received 3 Synchronization is active Example I 3 Number of decimal places for energy registers xx register input or counter 01 Register 1 02 Register 2 etc Register 16 15 Table value A ee ee ee NIE EC E n Number of decimal places Example L II LI 11 1 Ts Number of decimal places for totaling units for energy xx totaling unit 00 totaling unit 1 01 totaling unit 2 02 totaling unit 3 03 totaling unit 4 Table value ee lee p eben n Number of decimal places Example Le X pg ogg dep Expl The totaling units for energy have 1 decimal place DLX Appendix A page 28 of 34 BP ds User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 912 xx Number of de
10. IDDIE Input 15 w Yw Numerator and divisor no decimal 8 digits Transformer ratio Uprim Usec X Iprim Isec Meter constant pulses k Wh Reading constant Energy work Maximum of demand value Meter amp transformer ratio Energy R puls kWh O Input O Sum O Sum O Input O Sum O Sum W Xw Yw Output kWh puls Reading constant Sum maximum of demand value maximum puls frequency for output O Input O Sum O Sum O Input O Sum O Sum E DLX A dix C Seite 4 of 6 EE Bar Industrie Elektronik GmbH Lange StraBe 87 D 90762 Fiirth Phone 49 911 970590 Fax 49 911 9705950 Installation location Author Scroll list Address Text Unit Comment 27 3 1 Gl DU PS LER ii 28 3 5 EE EES Pit G 29 BLESSES EESE j SEENEN 31 213 a ee Pe ee 113 t3 32 2 4 14 13 EE EE a 170214 GE aa E EE EESE 34 i1 i10 ZIRBEIZ EESE 3 3 t 5 5121 E 103013413 36 32 131 2123 7171131133721 BB ZB BSR eee ei 1377 393 al en BENEBHEN TIRERENBERZERZEEEN LI pee aL o T o oo 1 ON uM AI wN re o pa N LA Seck gt Nn jan lon SI oo No N oO N N N N LA N ER N Nn N ion Tariff Tl
11. MA 57 8 2 1 Pin allocation of the SUB D female service interface RS23 57 8 2 2 Connection PC Laptop lt gt Service interface sess 57 8 5 Data nterface Optional X6 tee ee eee ter aite ite SEENEN deed 58 8 3 1 Pin allocation of the data interface RS232 SUB D female c cc cccssceseseeeeeeseeeessneeees 58 8 3 2 Pin allocation of the data interface RS232 SUB D male seen 58 8 3 3 Pin allocation of the data interface RS232 OGCpatl O rock 58 8 3 4 Pin allocation of the M Bus data interface ususensssensennnensnnnnnennnnnennnennnnennnnennennnennennennenn 59 8 3 5 Pin allocation of the fiber optic copnmnectot emnes 60 9 Modem Optional RR 61 Page 4 of 76 DLX User Manual 9 1 Default settings for the integrated modem none 61 9 2 Modem interface XD au ee Ace seien 61 9 2 1 Pin allocation of the modem interface cc ccccccccccccccccccecececececccecececececececececececesecesereseress 61 10 DCF77 receiver Option eere eee eene eese eese tenete seen states stas teas tta stas toss essen setas etas taste sense tastes senos 62 LOE Greter Te BEE 62 10 2 Setting the parameters for the receiver module 22402200022000ssnnesnanensnnennnnennnnennenennnnnnnanennnnennann 62 10 3 Commissioning snena ninna astra ca ieabuve aeeeveavaded oabatas A sanbekavotve decal aveyectutayesaceluee 62 10 3 T CONNES Te RE 62 10 3 2 Alignment of the receiver module
12. BD CURRENT ENERGY T1 S EXIT R DDMMMYYYY hh mm Value Reset Counter Energy rate Unit RST D ATO ZEE V 1 WWWWWWWW EEEEE x Reset Counter internal 0 99 Counter settable 1 12 BILLING DATA ENTER BD CUMULAT ENERGY 4 1 M EXIT Energy current R gt DDMMMYYYY hh mm gt Energy cumulat a RST 0 8 ATO zm Maximum demand EXIT WWWWWWWW _EEEEE v 1 BD ULAT ENERGY ENTER gt Yyyy hh mm Y BD CUMULAT ENERGY 1 R DDMMMYYYY hh mm R AT 7 Z EX RST CO O AT a IW IW E E E E WWWWWWWW EEEEE EN 1 LI Tt ENTER Value Reset Counter Energy rate Unit d Reset Counter internal 0 99 Counter EBD era i IM m 1 R gt DDMMMYYYY mm settable 1 12 EXIT RST CD T ATO ZEN WWWWWWWW EEEEE v 1 BILLING DATA ENTER BD MAXIMUM DEMAND 1 N EXIT Energy current M gt DDMMMYYYY hh mm Energy cumulat RST ID EE MIO a Maximum demand 4 EXIT WWWWWWWW EEEEE v A ENTER BD M XJI U DEM ND BD MAXIMUM DEMAND 1 D M gt DDMMMYYYY hh gt D DM GC hh m EXIT Ser CA wf zn Vl 4 WWWWWWWW EEEEE RIST MT 1 VA W WWW EEEEE ENTER M bas em Y BD MAXIMUM DEMAND 1 Value Reset Counter Energy rate Unit Ex MeDDMMMYYYY hh nm Reset Counter internal 0 99 Counter RST CO CO wei ZEN CC WWWWWWWW EEEEE 1 settable 1 12 Figure 31 Flow diagram for menu item Info billing data How to get there Press the v key three times when in menu Info
13. LX Z2 MN 3 N 27 Datalogger User Manual B r Industrie Elektronik GmbH Lange StraBe 87 D 90762 F rth Deutschland Germany Phone 49 911 970590 Fax 449 911 9705950 Internet www baer gmbh com E114005204052 Page 2 of 76 DLX User Manual 1 2 3 B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Table of contents Scope of application E 6 1 1 Graphical representation of the application environment seen 6 1 11 Shortdescription so Irene trees ee Pe tet ro ente aan 6 Dagiean t iuvit 7 21 Featur m 7 2 2 Block circuit diagram of modules 9 2 2 1 Description of the block circuit diagram of modules seen 10 Functional description corsoossnssonssonssonsnnssnnnsnnssnnssnnennnsnnnsnonsnnnsnnssnnssnsssnssnnssnnssnnssnnssnnennnsnnnsnonsnonsnnne 11 3 1 Functional circuit CA STAT E 11 3 2 Data protection and Safety aseene eS ae cetera 12 DEN TEE 12 3 4 Setting of parameters programming the DK 12 3 4 1 Program protection gwitch ener rennee tnnt anr RE RESE 13 3 2 Pulse processing conu aci eid tases echt ee Eege 14 KBL 15 3 5 2 Sigmal CurrentMput E 16 3 2 3 Sut miatiOn TE RISLSLS ere teg runs EE RRE 16 3 954 Pulse oUtputs EE 17 3 5 5 Apparent demand and COS Q eesssesees
14. galvanically isolated Types costauteerinen etude SO or Wipe Numb EE 7 programmable to be SYN TR1 TR2 TR3 TRA RSTX LOG1 LOG2 LOG3 LOG4 ANZ KIELEN acc to DIN 43864 Pulse transmitter supply min 10mA to 8002 U 12V Switching current threshold 2 2mA lt I lt 9mA Contact impedance lt 8000 Cable length ss max 0 5m Wipe pulse input IEW 24 264V Pulse definition 1 pulse pulse length plus pulse interval Pulse frequency max 10 pulses second Pulse length min 40milisecond Bi current pulse input IED Pulse definition 1 pulse 1 change of polarity Pulse frequency max 25 pulses second Signal current input 0 20mA Current usse min OmA OHz max 20mA 20Hz LN UE max 20 pulses second Signal current input 4 20mA Current 00 arae raa E EE ON ES min 4mA 0Hz max 20mA 20Hz Frequency utet max 20 pulses second Outputs Wipe outputs electronic contacts solid state Pulse outputs or control outputs Number 4 max permitted voltage U 265V max permitted current Le 100mA Relay outputs mech contacts Control outputs Number 2 with idle contact and active contact max switching voltage
15. DLX Page 21 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Example from 01 03 00 00 to 01 10 00 00 from 01 10 00 00 to 01 03 00 00 default value in DLXPARA 1 Each active season requires the definition of a weekly program which assigns the relevant daily rate switch ing tables 1 15 to weekdays This can be shown in a table as follows Season 1 Season 2 Season Weekdays Mo Tu Th Fr Sa Su PHI 1 1 1 1 1 1 1 2 2 2 2 2 2 3 4 5 6 In the table weekdays are abbreviated as follows Mo Monday Tu Th Tuesday Wednesday Thursday Fr Friday Sa Saturday So Sunday PH1 2 3 Public Holiday Type 1 2 3 The three types of public holidays PH1 2 or 3 allow you to define single weekdays to have special rates that are set in a separate definition table These public holidays have higher priority than normal weekdays and allow one to consider holidays such as Easter Christmas or other country specific holidays The sample entries in the above shown weekly program mean that in season the daily rate table 1 shall be used all the time and in season 2 the daily rate table 2 is valid Of course different daily rate tables can be used for each weekday within a season however only a maximum of 15 daily rate tables are available These daily rate tables define which energy rate and maximum demand rate shall be active at
16. 165 4 e Single characters E5yex Link address address field of the link layer 2 Octets not structured Link address Maximum length L number of octets Service functions of the link layer Query for data class 2 is present meter readings or data of the most recent registration period Query for data class 1 is present data of previous registration periods and other data Reset of the application process is not present Send No Reply is not present Request status of link is present FC9 Respond status of link FC11 Reset of remote link is present FCO Confirm ACK FCO the next FCB bit must be set e Application layer Transmission mode for application data Mode is used exclusively least significant octet first according to IEC 60870 5 4 section 4 10 baer en B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 ASDU address 2 Octets ASDU address Signature L1 with signature default for billing data L1 without signature for operational data List address list number 0 basic data Single events default if no other value was defined L1 1l Reg Period 1 MPI default 15min L1 lt 12 gt Reg Period2 MP2 default off Rate information programmable L1 with rate information L1 without rate information default Selection of standardized ASDU Process information in monitoring direction reply fr
17. A PC Card needs to be deactivated before it may be removed from the DLX The deactivation updates the administration information on the PC Card Use the menu item Deactivate PC Card see page 54 to deac wow tivate a PC Card Once this is done the symbol z disappears from the first line of the LC display 11 6 Removing a PC Card Press the eject button O see Figure 42 Inserting a PC Card on the right hand side of the PC Card to re move the card Only after deactivation via the keypad see menu item Deactivate PC Card page 54 the PC Card may be removed from the PC Card slot If the PC Card is removed from the DLX without prior deactivation it cannot be read by other proc wow essing software The Tv symbol starts to blink and a corresponding alarm message will be created 11 7 Data storage on a PC Card The following information will always automatically be stored on a PC Card independent from the program parameters of the unit Spontaneous events the PC Card will always contain at least the last 100 events Billing data the PC Card will always contain at least cumulative rateless counter values of the last 4 reset instances By default if nothing else was programmed with DLXPARA the demand values of counters through to 16 for registration period MP1 will be stored for the last 35 days The PC Card will be used as a circular buffer i e once the buffer is full the newest incoming value overwrites the olde
18. Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 64006 01 Mode of automatic time controlled reset 0 Off 1 Daily 2 Weekly 3 Monthly 4 Yearly 02 Time controlled reset month Month 1 to 12 03 Time controlled reset day Day 1 to31 04 Time controlled reset hour Hour 0 to 23 05 Time controlled reset minute Minute 0 to 59 06 Time controlled reset weekday 0 Monday 5 Saturday 6 Sunday 64100 01 Input assignment for SYN signal Hexadecimal bit mask 0 function disabled 1 Ctl1 2 Ctl2 4 Ctl3 8 Ctl4 16 2Ctl5 32 Ctl6 64 Ctl7 64101 tt Input assignments for rate control inputs tt from 01 to 04 tt 01 for rate input TRI see 64100 64102 01 Input assignment for RSTX input see 64100 64103 ll Input assignments for logic inputs ll from 01 to 04 1l 01 for logic input Logl see 64100 64104 01 Assignment for ANZ input see 64100 64202 Scroll list address Display list of addresses 0 end of scroll list rr from 01 to 40 rr 01 first entry 64300 tt Rate control inputs demand rate mask Display 0 Input disabled 1 Input enabled tt from 01 to 04 tt 01 for rate control input TR1 64301 tt Rate control inputs energy rate mask see 64300 64310 Rate contr
19. wm Read this user manual carefully before starting the commissioning Prepare all electrical connections according to the section Terminals starting from page 30 or accord ing to the accompanying special terminal connection plan If a special terminal connection plan is present the section Terminals is invalid 5 6 Install the DLX at the designated measurement location wm Connect the DLX to the mains supply voltage The DLX will start immediately with its operation based on the factory settings as per section Factory settings see page 66 7 Modify the measurement parameters and device parameters with the software application DLXPARA if required 5 3 Supply voltage selection The supply voltage of the DLX can be changed from 110 115 VAC to 200 230V AC inside the device by means of a sliding switch t The supply voltage must only be changed when the DLX is without power e Enclosure top Proceed as follows Remove the four screws at the backside of the DLX and lift the back plate off The switch for changing the supply voltage is located on the PC board mounted to the back plate see diagram to the left H Toothed washer 4x H Screw 4x Figure 11 Location of the switch 230V L Move the selector switch to the desired position al 15V The selected voltage will be displayed on the Switch Figure 12 Voltage selection switch Page 30 of 76
20. Counter values Totaling units Usage of control inputs Usage of control outputs Usage of relays Number of resets Registration periods Start of measurement Baud rates for data retrieval Periodic buffers Pulse conditioning Output pulses PC Card Summer time switching Rate control Rate calendar Radio clock Language Passwords after restart Thursday 1 January 1998 00 00 00 0000000000000000 6 or 16 according to order all activated 0 Off 0 2 energy rates 2 demand rates 1 1 for all counters energy and demand 0 Inactive Ctl1 SYN Clt2 RSTX Cit3 ANZ Clt4 TRI Clt5 TR2 Clt6 TR3 CIt7 TRA Outl unused Out2 unused Out3 unused Out4 unused Rell Alarm 2 device fault Rel2 MPAI MP1 0 Registration period MP1 15 minutes Registration period MP2 inactive Immediately after switching on 9600 Baud modem interface 9600 Baud data interface 9600 Baud fixed service interface Registration period MP1 max number of inputs activated demand values 4 digits 30ms min pulse duration 30ms min pulse interval 90 ms pulse duration 110 ms pulse interval Not registered On switching from 02 00 to 03 00 on the last Sunday in March and from 03 00 to 02 00 on the last Sunday in October External Inactive Off English PARAMETERS 00000001 in DLXPARA also possible 1 SET 00000002 in DLXPARA also possible 2 PC Card 00000003
21. B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 8 3 Data interface optional X6 The optional data interface can be used for data retrieval on site with data retrieval software e g SIGLON or to connect to an external modem The baud rate can be set with DLXPARA to a value between 300 and 9600 baud It is implemented as a 25 pin SUB D connector female according to ISO2110 the pin allocation is according to V 24 RS232C DIN 66020 Alternatively a 25 pin SUB D male connector a bus interface M Bus or RS485 or aLWL connector fiber optic transmission connection can be used 8 3 1 Pin allocation of the data interface RS232 SUB D female The standard pin allocation of the data interface is identical with the service interface For the connection between the DLX and a PC a modem cable is required For the connection between aDLX and an external modem a so called null modem cable crossed wires is required 8 3 2 Pin allocation of the data interface RS232 SUB D male For the connection between the DLX and a PC a null modem cable crossed wires is required For the con nection between a DLX and an external modem a modem cable is required DLX 25 pins male cable PC 25 pins male Input Output jPBinNo Pin No Input Output Standard usage 20 2 Output TxD transmit data CU E Input RxD Output RTS Ipa ee el Input CTS eee a pe GND Input DSR O
22. C2 Parameter or value changed via remote connection D1 Time was set on site D2 Time was set via remote connection D3 Change from wintertime to summertime D4 Change from summertime to wintertime ETIME Timestamp of the event YY MM DD hh mm Year Month Day Hour Minute EADR Address of the information affected by the event not applicable for messages such as Time was set or Power failure 051xx xx number of the entry in the spontaneous event buffer modulo 100 OSTATE Old state of the information affected by the event not applicable for messages such as Time was set or Power failure see the table in section 13 Fault displays NSTATE New state of the information affected by the event see the table in section 13 Fault dis plays baer iiss B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 List of addresses for SCTM 000 00 Current date and time resolution of minutes Table value y y m mM p p Iwinln YYMMDD Year Month Day W Weekday 1 Monday 7 Sunday hhmm Hour Minute Example os s o 2 o 1 vz ojslo 2 Expl Date 01 February 1998 Weekday Sunday Time 03 02 000 01 Settings for change from wintertime to summertime Table value L I mim Iw Ir MM Month W Weekday 1 Monday 7 2 Sunday P Position of the weekday in the month 1 first 2 second 3 third 4 fourth 5 last hh
23. INFO ENTER VERSION EXIT Spontaneous events Ver X XX XX Table addresses Date MON DD YYYY Version a mt EXIT rn Checksum XXXXXXXX N ENTER Figure 34 Flow diagram for menu item Info version How to get there Press the key six times when in menu Info and then press the ENTER key The DLX enters the menu item selected What will be shown The DLX will show the firmware version the release date and the checksum of the firmware 7 8 Main menu item Set Parameters Standard display gt N A SYSTEM RESTART System restart is EXIT Jl Press three times being executed EXIT Y ENTER L Main menu ENTER gt SET PARAMETERS SYSTEM RESTART SYSTEM RESTART Display alarms Factory settings 4 lTenvepl PASSWORD Reset all parameters Info Erase memory ENTER f gt 00000000 ENTER gt to factory values gt Set Parameters 4 EXT YES Enter A EXIT Use the and keys to adjust the ES digits Use the ENrER key to confirm a Bat eee T digit and move to the next digit ory
24. LED Display OW o o CUu CHS om om po pop D GI 1 In DE n mem m Im Im on op on Out A oo C 0 t 0 D 0 EH Iw In8 og Processor module Gold capacitor Real time clock Power supply module Microcontroller SERVICE M 2020000000000 000090060000 x Voltage monitoring Connection module Interfaces Output pu modules Output modules modules T V Relays IAW IX of 999999955209 9900000000069 Control Input modules IES X1 Mains Figure 2 Block circuit diagram of modules Page 10 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 2 2 1 Description of the block circuit diagram of modules The DLX has a modular design It consists of the following modules Power supply module Converts the external auxiliary voltage 110VAC or 230V AC into the internal device voltages 5VDC and 12VDC Connection module Input pulse signals and control signals are galvanically isolated from the process via input modules and connected to the processor module Pulse output signals and control output signals are serviced via the relay module and an output module Processor module The processor module controls all functions of the DLX Apart from the micro controller it contains the internal program and data memory a real time clock and capacitors to bridge power failu
25. Registration period MP2 xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value 1 lalalalalalalala dddddddd demand Example I Jofofofofofofif2 Expl Current demand is 12 20m xx Apparent demand of current registration period m 3 m Registration period m 3 4 3 Registration period MP1 m 4 4 Registration period MP2 xx Apparent demand value xx 0 1 00 Apparent demand 1 01 Apparent demand 2 Table value L4 t RE BR RES BETRETEN dddddddd Apparent demand Example Po oe ho EBENE ERBEN Expl The apparent demand is 12 20m xx cos of current registration period m 6 m Registration period m 6 7 to 6 Registration period MP1 m 7 7 Registration period MP2 xx cos Q xx 0 1 00 cos o 1 01 cos 2 Table value s I lJalalalalalalala dddddddd Costa S space for positive values for negative values Example lolololol lololo Expl The cos g is 1 baer men B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 2lm xx Demand of the last registration period m Registration period m 0 1 0 Registration period MP1 1 Registration period MP2 xx desired value Counter
26. Supply voltage eene eene nrem nennen nnns 30 Figure 16 Connector gege eelere Egeter 31 Figure E Connector KI p 32 Figure 13 Connector RA ERE 33 Figure 19 Layout of operation controls and indicators sese 36 Figure 20 Standard display mode u enter nes na 37 Figure 21 Flow d agram of mens oret Leere nenne aan nella une 38 Figure 22 Legend of flow diagrams cete sense 39 Figure 23 Flow diagram for password mput sess rennen nnne rennen eene nnren rens 39 Figure 24 Entering a passwords iore Dee Ee tire eel RE EE E e Ee eel rede rais 40 Figure 25 Flow diagram for menu item Select Language eene 41 Figure 26 Flow diagram for the scroll list rennen emeret nennen 42 Figure 27 Flow diagram for alarm displan eese eee nennen nennen rennen ens 43 Figure 28 Flow diagram for menu item Info current values eese 45 Figure 29 Flow diagram for menu item Info energy values nenn 46 Figure 30 Flow diagram for menu item Info load profile values esee 47 Figure 31 Flow diagram for menu item Info billing data seen 48 Figure 32 Flow diagram for the menu item Info spontaneous events 50 Figure 33 Flow diagram for menu item Info table addresses eene 50 Figure 34 Flow diagram for menu item Info version ene 51 Figure 35 Flow diagram for menu Set Parameters ssessesssssssseseeeeneeee nennen em eene 51 Figure 36
27. Totaling unit 3 m 84 54yex Totaling unit 4 m 84 54g Totaling unit 4 m 97 6lyex Apparent demand 1 O 97 Olyex Apparent demand 1 L1 99 62Hex Apparent demand 2 L1 99 Ginen Apparent demand 2 O 105 69 Cos 1 m 105 69x Cos 1 O 106 6Ayex Cos 2 m 106 6Ayiex Cos 2 O 113 71pex Cos 1 m 113 71Hex Cos 1 O 114 72ge Cos 2 m 114 72g Cos 2 Subject to change without notice Appendix B page of 6 Appendix B Table addresses E114005204052 DLX Appendix B page 2 of 6 PP pus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Service interface The service interface underneath the keypad can be used to read or modify register contents via the program ming software DLXPARA after input of a password This is a serial connection 8 e 1 with fixed baud rate 9600 baud using a standard serial cable e g modem cable All register addresses have 5 digits plus a 2 digit index The following table lists all of the registers Use the keypad to query these values directly Meaning of special symbols in the table The column Stat Shows whether this register can be set or programmed in a certified and sealed unit S X Value can be set i e it can be modified at any time after entering a password P Value can be programmed i e it can only be modified if the program protection swit
28. and then press the ENTER key The DLX enters the menu item selected the one surrounded by two arrows There will be three submenu items current energy e cumulative energy e Maximum demand 7 7 4 1 Energy current How to select energy current Press the ENTER key when in menu item Info Billing data The submenu item will be activated Changing the Parameters DLX Page 49 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 The or keys can be used to select values for the internal reset counter the energy rate the counter or the total register The date shown the date and time of the reset will be adjusted automatically What will be shown The display will show the current energy values for all counters and totals as of the date and time of the maximum demand reset You can use the t or the v key to select the desired reset index 7 7 4 2 Energy Cumulative How to get there Press the key once when in menu item Info Billing data and then the ENTER key The submenu item will be activated Changing the parameters The or keys can be used to select values for the internal reset counter the energy rate the counter or the total register The date shown the date and time of the reset will be adjusted aut
29. hour Example L I Tolsl 7 Is Tol2 Expl The change from wintertime to summertime will take place on the last Sunday in March at 02 00 hours 000 02 Settings for change from summertime to wintertime Table value L I mim Iw Ir see table value 000 01 Example L pr See ees Expl The change from wintertime to summertime will take place on the last Sunday in October at 02 00 hours 000 03 Wintertime summertime flag Table value LII 1 1 1 Ts S Flag 1 Summertime active 2 Wintertime active Example E 1 Expl Summertime 000 04 Summertime switching active Table value Lx pono one d op oe A l active 0 inactive the device always works in wintertime Example LIILIILLLLIITIIr Expl Summertime switching is active 000 05 Receive time from radio clock Table value LI1IILILLLLILIR R Radio clock flag 0 Do not receive time from radio clock l Receive time from radio clock Example ee ee ae ee ee Expl Time will be received from radio clock DLX Appendix A page 6 of 34 PP Pre User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 000 06 Reserved for future use Table value l T jul U Flag Example L ILI LI LI Ll To Expl Reserve 000 07 Synchronization mode uu Table value S S Synchronization flag 0 Synchronization not possible 1 SYNC input active 2 Synch
30. l2 J lol ls Expl A maximum demand of 123 was recorded on the 12th day of the month baer EE B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Reset counter value at the time of the reset for t 5 to t 9 modified from version 1 04 00 up Table value BEE EEE qu BE DR DE RE d dddddddd The counter value at the time of the reset Example FE DE RD DE BD ER EZ Expl At the time of the reset the counter value was 12345678 r XX desired reset index r 0 or r 1 to 9 0 current counter values 1 last reset 2 second last reset etc energy rate t 4 for total and t 5 to 8 for rate 1 to 4 up to version 1 03 08 4 Total Sum of all rate values 5 energy rate 1 6 energy rate 2 etc energy rate t 5 for total and t 6 to 9 for rate 1 to 4 from version 1 04 00 5 Total sum of all rate values 6 energy rate 1 7 energy rate 2 etc desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 DLX Appendix A page 16 of 34 BP ds User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5rt xx Reset cumulated maximum t 1 r desired res
31. or 19 rack Material 4 ette iere Steel sheet metal Sealing options eee eee eee eeeereeeees Keypad Protection against parameter changes Covers for PC Card and service interface Terminal cover Protection level esses IP52 Dimensions Height x Width x Depth Housing for panel mounting 175mm x 300mm x 150mm 19 rack 215mm x 130mm x 265mm Colour m re Housing for panel mounting RAL 7035 light grey 19 rack RAL 7330 grey Page 74 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 15 Glossary Active demand Alarm Alarm class Alarm group Apparent demand Billing period Cold start Configuration Costa Counter input DCF77 Demand register Digit Energy register Energy value cumulative Energy value current Input Jumping registration period That part of the demand used to perform work at the load see also reactive demand Unusual event during operation of the device e g power failure register overflow etc Differentiation of alarms by importance The DLX knows the alarm classes warning for non critical or operational disturbances and device fault for grave errors Division of alarms into functional groups e g the alarm group en ergy register overflow has alarms for each individual register Is the hypotenuse of the right angled
32. this data contains general informa tion about the unit for that period It consists of 4 ASCII characters representing 2 bytes 2 characters per byte Each character is coded in the hexadecimal system and contains 4 bits The following table describes the relations between the hexadecimal notation and the binary notation Hex Binary Binary 0 0100 1100 1 0101 1101 2 000 Lo 0110 1110 3 oli n Meaning of individual bits Byte Nr Explanation Byte 1 Summertime switching setting the time Shortened registration period due to power failure or time change Parameter change Alarm or error message collective message Transmitted during summertime MESZ Bit2 Ju Unused Power failure during the whole registration period Bit 0 L Bit Unused by default if enabled via DLXPARA change of state of LOG control inputs Byte 2 0100 0000 Default value 40 hexadecimal notation aaaa mmmm only if enabled via DLXPARA rate status AT MT however only the energy rate if energy values are transmitted or the demand rate if de mand values or energy increments are transmitted will be set Note S Bit not marked 0 Wintertime ZMEZ Examples for the device status in the registration period Device status Bit pattern Explanation 00 40 0000 0000 0100 0000 No events wintertime 02 40 0000 0010 0100 0000 Power failure during whole period NP Bit 1 wintertime 08 40 0000 1000 0100 0000 No events summertime S Bit 1
33. 02 for totaling unit 2 negative 11203 Current Energy Rate 3 11204 Current Energy Rate 4 P 20000 ee Min pulse length at input ee Length Display 10 ms see also 10000 P 20100 Ee Min pulse interval at input ee Length Display 10 ms see also 10000 P 20200 Ee Max pulse length at input ee Length Display 10 ms pulse length monitoring 0 pulse length monitor deactivated see also 10000 P 20300 Ee Input signal inversion 0 not inverted 1 inverted see also10000 S 21000 Ee Assignment to Total 1 ee 01 for input 1 21001 Total 2 Value needs to contain the actual 21002 Total 3 assignment ratio 21003 Total 4 see also 21100 S 21100 Pp Assignment to totals common divisor of pp from 01 to 04 the total see also 10100 and 21000 P 28100 Pp Output for positive part of the total Hexadecimal bit mask 0 2 no output 1 Outl 2 Out2 4 Out3 8 Out4 16 Rell 32 Rel2 pp from 01 to 04 see also 10100 P 28101 Nn Output for negative part of the total nn from 01 to 04 see 28100 P 28102 Mm Output for registration period mm 01 for MP1 MPA1 mm 02 for MP2 MPA2 see also 28100 P 28103 01 Output for maximum demand reset see also 28100 P 28104 Aa Output for alarms aa 01 for alarml aa 02 for alarm2 see also 28100 P 28105 Tt Output for rates tt from 01 to 04 tt 01 for rate output TRAIT P 28106 01 Length of the registration period output length display 20
34. 04 for Sum1 Sum4 8E xx XX 01 to 10hex 16 xx 41 44 for pos totals xx 51 54 for neg totals xx 61 62 for apparent demand 1 or 2 8F xx XX 01 0A hex Explanation 03 01 Alarm number Description of the alarm PC Card faulty Wrong type of PC Card inserted PC Card capacity insuff Pulse error Pulse output overflow Energy register overflow Program change Table address changed Counter value changed Logic input changed CPU RAM faulty CPU Flash Memory Faulty CPU EPROM Faulty CPU real time clock Faulty Card is write protected PC Card changed Please insert Previous card PC Card de activated Summation Overflow Demand register Overflow Internal program Error Description PC Card is faulty Action Insert another PC Card Cannot recognize the type of PC Card Action only use authorized PC Card types The programmed number of days and or counter values does not fit onto the PC Card Action use PC Card with higher capacity or reduce the num ber of days or counter values Input pulse was too long or too short xx pulse input 16 Action adjust pulse conditioning check pulse transmitter Overflow of an output buffer xx indicates the corresponding totaling unit Action Adjust pulse output parameters for the totaling unit Overflow of the input energy register xx 1 16 or a totaling unit The register continues to count from zero Th
35. 1 output is active closed output LED is lit e Log to 4 logic outputs used to forward signals to externally connected devices Control of the logic outputs is performed via remote data retrieval e Inl to 16 pulse inputs can be redirected 1 to 1 to outputs Version 1 04 00 and higher No conditioning of pulse lengths or signal type is performed These functions can allocated to more than one output at the same time pulse multiplication 3 11 Communication The Data logger can communicate for programming and for data retrieval via three serial interfaces e Service interface e Data interface e Modem The DLX currently supports two different protocols SCTM and IEC60870 see appendix A An exact de scription of all interfaces is contained in section 8 Interfaces and section 9 Modem Optional DLX Page 27 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 4 Design 4 1 Sealing arrangements 4 1 1 Housing for panel mounting The keypad can be sealed by two sealing screws in the upper left and lower right corner of the keypad The sealing wire needs to be fed through the whole in the enclosure and through the sealing screw and a seal needs to be attached to the wire Sealing of the PC Card cover or the terminal cover is done by means of a sealing screw and the splicing plate of the PC Card cover or the terminal cover After placing and fi
36. 2 rn 41 RE SSCHOM TI EE 42 7 6 Main menuitem Display alar ns iiie terree te et err pL kan 43 7 7 Main menu item Infor 44 TT e te 45 1 1 2 Eneigy EE 46 K N E Mad Kee 47 7 74 PIECE PER 48 p XE MCCGY CUNCEIE 13255 E 48 7 1 4 2 Energy Cumulative u uk 49 7 7 4 3 Maximum demand 49 1 1 3 Spontaneous events 1c e aee eite LEER cep ae asian 50 1 7 6 Table address EE 50 RS E e cd HP 51 7 8 Main menu item Set Parameters nnne n nnne enhn nnn nnn nn n nnn nnns as nana nana aas nas 5 7 8 1 Factory settings unit restart or system restart rennen nemen 51 1 8 2 TAPAS Eum E NT 52 7 9 Main men Item M intenance 0uu 22lska kenn kai EE aE aAa EO Haa EA iaei 53 LO SELUMAN E E a 54 19 2 Register PC Card ee nee ea Ra EO E DRE EE 54 29 3 Deac vate PC Catd E 54 1794 Enter counter val es ss Ree ee E N E R a 55 7 9 5 Initi te maxtiutm Teset uoo tete erre ede eae Ue ees geseet zebegesegt 55 1 9 6 Display tegt Me 55 7 10 Main menu item Erase Alamms nennen nennen eene ernnnnns sse e nennen nasse enne nnns nns 56 8 Ke ET 57 8 1 Geeta EE 57 8 1 1 Automatic protocol recognition ueessersnersensnenneennernnennnennnennnnsnensnennnennnennnennnnnnennnennnennne ens 57 8 2 SELVICE INCE ACE c
37. 49 911 970590 Fax 49 911 9705950 Retrieval of messages spontaneous event buffer The section Fault displays contains a table with all event types supported including the corresponding explanations Events and alarms can only be cleared on site It is not possible to acknowledge errors After switching from one protocol to another the complete spontaneous event buffer will be transmit e ted from start up to firmware version 1 03 08 Compatibility list The following section lists all parameter selections and functions supported by the DLX that are defined in the user standard DIN EN 60870 5 102 international standard IEC 60870 5 102 from September 1997 The implementation in the DLX however does not include the full functionality but only a subset Empty fields boxes are for your choices you need to make your own selections in these fields e Network configuration Point to point connection Point to point dial up connection Multiple drop line configuration DLX with RS485 module e Physical layer Transmission speed control and monitoring direction Asymmetric interface Asymmetric interface V 24 V 28 Standard V 24 V 28 recommended for more than 1200 bit s L1 300 bit s Ll 2400 bit s L1 600 bit s Ll 4800 bit s O 1200 bit s Ll 9600 bit s e Link layer Only telegrams according to FT 1 2 IEC 60870 5 1 are permitted e Telegram with variable length 68g 165 4 e Telegram with fixed length 10 ex
38. DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5 4 Terminals 5 4 1 Location of the terminals Control inputs 1 to 7 X2 Control outputs mech Relays Pulse inputs 1 to 6 Pulse and control outputs 1 to 4 X3 X6 Data interface Pulse inputs 7 to 16 XA X5 Modem interface Option X1 Supply voltage 115V 230V Figure 13 Location of the terminals Housing for panel mounting Control inputs 1 to 7 Control outputs mech Relays X2 Pulse inputs 1 to 6 X3 Modem interface Pulse and control outputs 1 to 4 alternative X5 Pulse inputs 7 to 16 Option X4 Supply voltage 115V 230V X1 X6 Data interface Fuse T 500 mA 250 Voltage selection Figure 14 Location of the terminals 19 rack 5 4 2 Connector X1 Supply voltage Type of connector Combicon MSTB2 5 3 ST 5 08 Phoenix Function DLX mains power supply connector Supply voltage 100 115VAC or 200 230V AC ca 20VA Supply voltage selection see page 29 pM Electronics Figure 15 Connector X1 Supply voltage DLX Page 31 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5 4 3 Connector X2 control inputs relay outputs Terminal type Combicon MSTB2 5 10 ST 5 08 Phoenix 2
39. Example Number of rates 2 e ATI theoretical ATI in the unit e AT2 theoretical AT2 in the unit e AT3 theoretical gt AT2 in the unit Limited to the highest programmed rate e AT4 theoretical gt AT2 in the unit Limited to the highest programmed rate 3 7 1 Rate control The currently active rate can be determined either via the rate control inputs e g radio clock or ripple con trol receiver or via the internal rate calendar Both are queried all the time e AT Changes have an immediate effect on the energy rate e MT The current maximum demand rate is always determined 5 seconds before the end of the current registration period and is then valid for this registration period only one demand rate is possible per registration period 3 7 2 Rate calendar The device has a rate calendar with a table for up to 100 public holidays The internal rates can be transmitted to external devices using the control outputs Out to Out4 or Rell and Rel2 e g to control other devices The rate program settable is stored in the form of an internal rate calendar which is hierarchically struc tured in three levels The highest level defines the seasons the second level defines the weekly programs and the lowest level defines the daily rate tables with the switching times for rates The definition of seasons allows up to six periods within one year e g summertime or wintertime that can have different rate structures
40. Incoming signals are stored in the spontaneous events buffer together with date and time They can addition ally be stored this needs to be enabled by DLXPARA in the device status data of the registration period area L bit see appendix A Control inputs are subject to a signal detection in software similar to the one used for pulse inputs i e pulses that fall short of a minimum length are not considered For control inputs the minimum pulse length and the minimum pulse interval is set to 30ms Page 26 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 10 Outputs The DLX data logger remote metering device can have up to 6 freely programmable outputs which are available in wipe technology Out to Out4 type IAW and as mechanical relays Rel and Rel2 Corre sponding light emitting diodes LED in the display show the state of each output output closed or active LED is lit The following functions are possible e Total to 4 pulse output for total registers only with Out to Out4 e MPAI and 2 output indicating the end of registration period MP1 or MP2 e RSTA reset output e Alarm and 2 output for warning messages Alarm1 and device faults Alarm2 e TRAI to 4 Rate control outputs After a unit restart the following factory settings are active Energy rate TRA2 Demand rate ATI 0 MTI AT2 0 MT2 AT3 1 MT3 AT4 1 MT4 where state
41. OA 40 0000 1010 0100 0000 Summertime S Bit 1 power failure during whole period NP 1 10 40 0001 0000 0100 0000 Alarm A Bit 1 wintertime 20 40 0010 0000 0100 0000 Parameter was changed M Bit 1 wintertime 50 40 0101 0000 0100 0000 Shortened period U Bit 1 Alarm A Bit 1 wintertime 01 40 0000 0001 0100 0000 Logic input has changed wintertime 00 00 0000 0000 0000 0000 No events ATI or MT1 00 10 0000 0000 0001 0000 No events AT2 00 02 0000 0000 0000 0010 No events MT3 DLX Appendix A page 4 of 34 BP dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Register status in the registration period data block In each registration period the DLX stores a register status of 1 byte 2 characters for each entry in the peri odic buffer This status is stored in the same format as the device status hexadecimal notation Character 1 Character 2 Meaning of individual bits Byte Nr Byte 1 The measurement value was set by the user Bit 6 Power failure Overflow of this register Retrieval of events spontaneous event buffer 051 xx The messages have the following format PL ETYPE ETIME EADR OSTATE NSTATE PL Packet length 24 or 43 bytes ETYPE Type of event The following event types are possible Al Alarm has occurred A3 Power outage C1 Parameter or value changed on site
42. SO inputs are well suited for simple potential free contacts and passive transmitters using optical couplers or transistors and they are frequently used for control signals synchronization rate control resets etc Pulse inputs of type wipe These inputs are passive inputs i e they are supplied by the transmitter A metering pulse is transmitted directly as a voltage signal In practice many different voltages and currents are used The input modules used can be operated with DC or AC signals from 24 to 265V The maximum pulse frequency is at 10Hz current consumption is less than 10mA Indefinite pulses permanent contact are permitted This makes IEW modules basically suitable for control signals Pulse inputs of type bi current bi polar Bi current inputs are passive inputs i e they are supplied by the pulse transmitter As such they are not linked to any voltage Bi current pulses are DC voltage pulses of alternating polarity A pulse is recognized by the transgression of the OV level Instead of DC voltage pulses a permanent DC voltage that changes its polarity for each pulse can also be used The standard voltage is 24V but it can vary from 19V to 60V Our bi current pulse inputs have an input current of less than 2mA at 24V As each input pulse is represented by a change of polarity of the input voltage our IED modules internally produce a complete pulse of typically 20msec duration for each change of polarity This n
43. Set Time Activate PC Card Deactivate PC Card Set Counters Initiate Reset require a password for their activation The following passwords are supported e PARAMETERS for the protection of parameters when programming via DLXPARA and for activa tion of other menu items in the menus Maintenance and Set Parameters except for a unit restart The default password is 00000001 e SET Menu Maintenance to protect the unit against unauthorized alterations of time and counter settings the default password is 00000002 e PC CARD Menu Maintenance in order to activate and deactivate a PC Card the default password is 00000003 e FACT SETTINGS unit restart Menu Set Parameters to clear the entire memory and load the fac tory default settings the default password is 00000004 e RESET Menu Maintenance to initiate a maximum demand reset via the keypad the default pass word is 00000005 Leading zeros can be ignored when using DLXPARA The default passwords can only be modified using DLXPARA Page 40 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 How to enter a password Proceed as follows to enter a password 1 Use the keys or until the display shows the correct first digit a number between 0 and 9 of the password 2 Press the ENTER key to confirm the digit It will be replaced by an asterisk and the next
44. T Y Y R CHANGE LANGUAGE v CHANGER LANGUE Ei ENTER ENTER english francais EXIT EXIT A A Figure 25 Flow diagram for menu item Select Language How to get there Press the key once when in the standard display Scrolling the languages Each press of the key or the W key scrolls to the next language Which languages are available The DLX currently supports the languages German English French and Dutch Selecting a language Press the ENTER key to select the language Afterwards the standard display is shown in the selected lan guage Exit the menu without changing the language back to standard display Press the EXIT key to exit the menu No new language will be selected The standard display will be shown in the original language Page 42 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 7 5 Scroll list Standard display Until end of scroll list ENTER xxxxxXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX last scroll list entry ENTER 1 scroll list entry 5 scroll list entry Standard display Standard display XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX A ENTER EN
45. Umax 250V max permitted current Lu 2A Switching cycles 10 Central processing unit VE N E Motorola processor 68000 Clock E 14 7456MHz Program memory nessersnersnensnennee nenn Flash EPROM 1MByte Internal CPU memory RAM 256kByte Data memory errre ia Flash EPROM 1MB yte Control elements Keypad s tete e ette 4 keys Enter Exit Cursor Up Cursor Down LC display item 4 lines of 20 characters character height 4 15mm LED display cc etre treten 2 LED s for alarms red 1 LED for PC Card green 31 LED s for signal state indications yellow 3 LED s for interface state indications yellow LA EE max 4MByte Standard JEIDA PCMCIA DND tee eege Ee SRAM battery backed or Flash Memory Card AMD D Series Internal real time clock Basic clock rate nn 32 768kHz Calendar features 0 0 eee eee nn Leap years summer wintertime day month year hour minute second Accuracy deviation esee max 30sec month Power failure reserve eeeeeseeeeeeeeeeeeeeee min 7 days GoldCap External radio clock optional EES DC eus tite eo Re iere DCF77 receiver module AWSO M n fact rer erret e Fa Meinberg Bad Pyrmont Germany Display ia iei ee en Modulation LED C OnnhectlOTE iet etate es tei beats to SYN control input SO User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90
46. biling E SCTM 5 IEC870 9 E I H Gold Cap Se Sync ML LCD LED Aerial Y eu SE Alarms Outputs isch Hate control ctl Tariffs PC Card Loge 7 or inputs d1 Voltage Power monitor suppl e L 3 programmable control inputs Ctl1 to Ctl7 A Auxiliary voltage Us Figure 3 Functional circuit diagram Page 12 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 2 Data protection and safety All individual storage cells ofthe DLX are checked continually RAM memory All storage cells are tested at least once in every 24 hours The memory contents are first written to a safe place then a number of different bit patterns A5 5A 00 FF are written and read back into each memory cell Finally the original memory content is written back If a defective memory cell is detected bit patterns from read and write operations are not identical an error message is shown at the display and the error notification relay is activated The error message is available for remote data re trieval Firmware memory The content of the firmware memory is tested on an ongoing basis a checksum is calculated over the whole memory content If a difference is detected between the calculated checksum and the stored checksum an error message is shown on the display and the error notification relay is acti vated The
47. double the value of the above mentioned distance can be achieved Pin allocation at housing for panel mounting DLX Spins male 1 Function Pin No 2 M Bus 1 M Bus 2 3 3 Bridge to 1 4 4 Bridge to 2 5 5 Baud rate 300 to 2400 Baud with good lines up to 4800 Bud Note the two M Bus terminals 1 and 2 present twice and bridged internally with 4 and 5 Pin allocation at 19 rack X6 DLX Spins male 1 Function Pin No 2 pe A M Bus 2 3 M Bus 3 4 4 5 5 Baud rate 300 to 9600 Baud ois erie User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 8 3 5 Pin allocation of the fiber optic connector Using the fiber optic connector for fiber optic transmission the unit can be read via 820nm optical fiber TD Tei RD fI N Hi N jess C Figure 39 Fiber optic connector e Wave length 820nm fiber optic interface from Hewlett Packard e Transmitter TD transmits light e Receiver RD receives light e Cable code A 100 140um e Connection code W SMA connector e Baud rate 300 to 9600 Baud e Communication protocol SCTM or IEC60870 e Note The idle condition of the fiber optic transmission line has to be configured with the jumpers between the two connector elements e Idle condition Light off the jumper must be placed on pins 1 2 delivery condition e Idle condition Light o
48. error message is available for remote data retrieval e Data memory Data for parameters spontaneous events reset events and for each registration period are stored in physically separate areas sectors When data is written the correctness of the write cycle is con firmed for each individual byte of data by an additional read cycle Additionally a checksum is calculated for each data set When data sets are read another checksum is calculated and compared with the stored checksum The data set will only be processed if both checksums are identical 3 3 Program code The program code firmware is stored in the firmware memory Flash memory Program code can be loaded with a special software application via the service interface Therefore no change of EPROM is re quired for firmware updates Loading of a new firmware is only permitted in non secured certification mode in this mode the unit is not certified and the program protection switch is set to Disable All internal memory will be cleared and the factory settings see page 66 will be activated 3 4 Setting of parameters programming the DLX Parameter settings in the DLX can be altered via the programming software DLXPARA or via the keypad only certain registers however only after entering a valid password All modifiable values are differentiated into two groups programmable and settable the list of all registers is contained in Appendix B On each change of a parameter of th
49. in a value range from 0 to 99999999 Contains measured energy values in physical units e g kWh varh C etc The amount of energy registered or measured by an input since its activation The amount of energy registered or measured by an input or regis ter since the start of measurement or the last reset Receives signals from the outside into the data logger unit These can be pulses from meters control signals e g for maximum de mand reset or events In the case of internal counter inputs the val ues can also be numeric values In this operational mode each registration period starts at the end of the previous one In difference to the rolling registration period in dividual registration periods are strictly separated from each other DLX Page 75 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Logic input alarm input Logic output alarm output Main memory module Maximum demand Meter Output Power dip voltage dip Pulse weighting Pulse input Radio clock Radio clock receiver Receiver module Reactive demand Register counter Registration period Registration Measurement Registration period buffer Reset maximum demand reset Input that is monitored permanently Changes of the input signal are stored in memory Output the status of which can be altered by the remote metering cent
50. is being spontaneous events erased EXIT ENTER I SET PARAMETERS CLEAR MEMORY CLEAR MEMORY Factory settings arena zz PASSWORD Erase all data in EXIT Clear memory 4 ENTER 00000000 ENTER Internal memory YES Enter Ki EXIT Figure 35 Flow diagram for menu Set Parameters How to get there Press the key three times when in standard display and then press the ENTER key You can now select between submenu items e Factory settings e Clear memory 7 8 1 Factory settings unit restart or system restart How to get there Press the ENTER key when in menu item Set Parameters The function Factory settings is protected by a password and can only be selected when programming is enabled program protection switch is in position Set Enable see page 13 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Password protection The function System Restart can be activated with the password for FACT SETTINGS After entering the correct password see Password input on page 39 the function will be executed What is going to happen The function Unit restart System restart will set all parameters to the factory settings see page 66 clear the internal memory and erase the internal clock Execution of a
51. per In Output card Function Control inputs Ctl1 to Ctl7 terminal 1 to 14 Relay outputs Rell and Rel2 terminal 15 to 20 Input output types 7 input modules IES or IEW 2 mech relays IAW me max 250V 2A 10 14 Control input Ctl7 15 Relay output Rell idle contact off rk Alarm 2 16 Relay output Rell feeder uk 17 Relay output Rell active contact on ak 18 Relay output Rel2 idle contact off rk Registration period output MPAI Terminal Description 1 Control input Ctl1 SYN 2 Control input Ctl1 MEN 3 Control input Ctl2 RSTX 4 Control input Ctl2 MEN 5 Control input Ctl3 ANZ 6 Control input Ctl3 MEN 7 Control input Ctl4 TRI 8 Control input Ctl4 De 9 Control input Ctl5 TR2 10 Control input Ctl54 Po 11 Control input Ctl6 TR3 12 Control input Ctl6 PO 13 Control input Ctl7 TR4 fo CD fAlam2 T PO Registration period output MPAI UU 19 Relay output Rel2 feeder uk 20 Relay output Rel2 active contact on ak BEEN Electronics Alarm 2 MPA 1 SYN ANZ TR2 TR4 15 16 17 18 19 20 rk uk ak rk uk ak v sT2TsT 4TeTeT7TeTeo Tio Tu 22 55 14 Figure 16 Connector X2 Page 32 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5 4 4 Connector X3 p
52. processing Weighting to the correct physical measurement values is done with pulse multiplication factors these express the meter and transformer constants The formula used is as follows Bann X W Energy value weighting Ser X Y Numerator and Divisor no decimal places 8 digits W Transformer ratio R Meter constant e g Impulses KWh K Reading constant for optimized reading The transformer ratio is calculated as the ratio between primary and secondary voltages and currents Transformer ratio W Unrim Usec X Iprim Isee The reading constant usually has a value of 1 reading in KWh or kvarh Example Voltage transformer Upin Usee 110kV 100V 1100 Current transformer Iprim Isc 300A 5A 60 Meter constant R 96000 Impulses kWh Reading constant K 1 Transformer ratio W 1100x60 66000 x 66000 66 _ ll Energy value weighting a PUT Y 96000 96 16 The number of digits for energy register is set to 9 Version 1 04 00 and higher This includes digits to the left and to the right of the decimal point e g with one decimal place 12345678 9 If an energy register exceeds the value 999999999 it continues at the value 000000000 and a flag will be set in the device status register of that registra tion period All pulse inputs arrive in two separate energy registers and one pulse register e Cumulative register settable in which the meter reading of the supplying meter can be adjuste
53. protocol for the service interface is always the IE60870 protocol The DLX unit will switch to the default protocol after each programming activity and after 5 minutes with no communication on the relevant interface Due to safety reasons the programming software can only communicate with the service interface e 8 2 Service interface The service interface is used to program the DLX unit and to retrieve data with a fixed baud rate 9600 baud It is implemented as a 25 pin SUB D connector female according to ISO2110 the pin allocation is accord ing to V 24 RS232C DIN 66020 Programming of the DLX is done using the programming software DLXPARA Please read the user manual of the programming software DLXPARA for instructions on programming Figure 38 Service interface 8 2 1 Pin allocation of the SUB D female service interface RS232 DLX 25 pins female cable PC 25 pins male Input Output _ Pin No Pin No Input 2 2 Output 3 3 Input E 14 5 5 6 6 7 7 Output Output GND protective earth Input 20 20 8 2 2 Connection PC Laptop Service interface For the connection between a DLX and a PC a programming cable or modem cable 6998 is required Plug the programming cable into a free COM port of the PC Laptop and into the service interface of the DLX Now you can start the required software programming or data retrieval DLX User Manual Page 58 of 76
54. sich auf der letzten Seite der Anlage Characteristics of the instrument type approved restrictions as to the contents special conditions and approval conditions if any are set out in the Annex which forms an integral part of the type approval certificate under German law For notes and information on legal remedies see last page of the Annex Subject to change without notice
55. system restart After entering the password the display will show the safety question Reset all parameters to factory settings Press the ENTER key to confirm The DLX unit will now check the state of the program protection switch see page 13 Only if the switch is in position Set Enable will a system restart be executed If you press the EXIT key no system restart will be executed If the program protection switch is in position Set Disable programming blocked secured certification mode the message programming disabled will be displayed The DLX will exit the menu item without executing a system restart Once a system restart has been activated correctly the display will show the message System restart is being executed When the system restart is complete the LCD will show the standard display Once a system restart has been activated it cannot be cancelled 7 8 2 Erase memory How to get there Press the key when in menu item Set Parameters and then the ENTER key The function Erase memory is protected by a password and can only be selected when programming is enabled program protection switch is in position Set Enable see page 13 Password protection The function Erase memory can be activated with the password for PARAMETERS After entering the correct password see Password input on page 39 the function will be executed What i
56. to this rule are the warnings 03 01 power failure 03 02 power dip 06 xx Data memory data erased and 8E xx Energy register overflow where the LED AL1 will be automatically cleared after the end of a registration period MP1 13 2 2 LED AL2 Device fault The LED AL2 blinks after a fault of class F device fault has occurred 13 3 Message buffers All internal messages are stored in two different message buffers e Alarm buffer in addition to the LED display all alarms faults that have occurred and that are not cleared are stored permanently in the internal alarm buffer The contents of this buffer can be shown via the Main menu Display alarms The buffer can be cleared via Main menu Erase alarms e Spontaneous event buffer all alarms faults and information messages at least the last 780 are stored permanently in the internal buffer for spontaneous events The contents of this buffer can be displayed via Main menu Info Spontaneous events 13 4 Fault indication output Apart from the optical display you have the possibility to forward error messages to the outside via the freely programmable outputs mech relays or solid state outputs The assignment of faults to outputs is done in DLXPARA Faults of class W warnings correspond to alarm 1 AL1 and faults of class F device faults correspond to alarm 2 AL2 The fault indications are acti
57. triangle constructed from active demand and reactive demand The calculation of apparent demand in the data logger requires the definition of at least one input each for active demand and reactive demand Period of time covered by an invoice from the energy supplier Usu ally one month corresponds to one reset When the unit performs a cold start parameters and register contents are retained However the device time will be set to time of the last stored registration period plus 59 minutes and 10 seconds see also unit restart and warm start Definition of basic properties of the data logger e g number of inputs totaling units etc Configuration is done by the manufac turer and cannot be modified by the user Configuration data is stored in a non volatile memory such as EEPROM or FLASH EPROM The cosine of the arc between the apparent demand pointer and the active demand pointer A cos of 1 0 indicates flow of active en ergy only a value of 0 0 indicates flow of reactive energy only Receives energy and demand values from a meter in numerical form e g via a serial interface of type RS485 Long wave transmitter for the official time of Germany Carrier frequency 77 5 kHz Contains the average demand values per registration period in physi cal units e g MW kvar etc A number representing a value from 0 9 in a decimal numbering system Energy values are often processed with 8 digits i e result ing
58. ured values is cleared on restart see also cold start and Warm start Operational mode in which the registration periods overlap each other Example the average maximum demand value of the last 15 minutes is calculated every 5 minutes This is meaningful for more accurate maximum demand calculations Interface definition according to ELA USA Norm corresponds to V 24 Operational mode of the display where either automatically or trig gered by the ANZ control input a predetermined list of parameters and measured values is scrolled over the display Storage area for unusual events e g alarms parameter changes This is organized as a circular buffer This is shown on the LC display when no keys are pressed It shows amongst other things date time active rate and registration period length Adjusts the device time synchronously to an external time standard Synchronization only affects the seconds If the second value is smaller than 30 it will be reset to zero if not the minute value will be incremented in addition Synchronization can be done using the SYN control input or via command from the remote metering cen tral Limits synchronization of the unit to a time window surrounding the end of a registration period Any attempt to synchronize the unit out side of this window results in an alarm Adds up totals the energy amounts of a number of pulse or counter inputs then calculates the average dem
59. 0 Bi current Wipe V He R Pulse R Pulse No CO V A C Pulse input x___ S0 Bi curren Pulse input 15x___ S0 Bi current Wipe V Hz R Pulse No CO V A C Pulse input 16x S0 Bi current Wipe V Hz R Pulse CO V Pulse E R Pulse NV Hz Pulse E Pulse Identification Appendix C Page 6 of 6 DLX User Manual Bar Industrie Elektronik GmbH Lange StraBe 87 D 90762 Fiirth Phone 49 911 970590 Fax 49 911 9705950 394 00 c PIB Physikalisch Technische Bundesanstalt Braunschweig und Berlin Innerstaatliche Bauartzulassung Type approval certificate under German law Zulassungsinhaber B r Industrie Elektronik GmbH Issued to Lange Str 87 90762 Furth Deutschland Rechtsbezug In accordance with Bauart In respect of Zulassungszeichen Approval mark G ltig bis Valid until Anzahl der Seiten Number of pages Gesch ftszeichen Reference No Se Im A ftrag By order NY Dr Ke mann 13 des Gesetzes ber das Mess und Eichwesen Eichgesetz vom 23 Marz 1992 BGBI S 711 Elektronische Zusatzeinrichtung DLX DATAREG 16 00 23 99 13 unbefristet 13 2 33 99010898 3785 2 Braunschweig 23 03 2000 Merkmale zur Bauart sowie ggf inhaltliche Beschr nkungen Auflagen und Bedingungen sind in der Anlage festgelegt die Bestandteil der innerstaatlichen Bauartzulassung ist Hinweise und eine Rechtsbehelfsbelehrung befinden
60. 0 ms pulse value from 1 to 100 P 28107 01 Length of the reset output pulse length display 200 ms value from 1 to 100 P 28108 01 Mode of RSTA reset output 0 pulse 1 switch P 28109 aa Length of alarm output pulse aa 01 for alarm aa 02 for alarm2 Display in seconds from 1 to 254 Appendix B page 4 of 6 B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 DLX User Manual P 28110 aa Mode of alarm outputs 0 pulse 1 switch aa 01 for alarml aa 02 for alarm P 28111 ll Output assignment for logic outputs 1l from 01 to 04 ll 01 for logic output Logl see also 28100 P 28112 ee Output assignment for pulse inputs ee from Ol to 16 ee 01 for input 1 eez02 for input 2 see also 28100 S 28700 cc Active input for calculation of apparent Display Z1 to Z16 input 1 to 16 demand and cos S1 to S44 pos total 1 to 4 S1 to S4 neg total 1 to 4 cc 01 for cos Q cc 02 for cos S 28701 cc Reactive input for calculation of apparent see 28700 demand and cos op P 29000 pp Output pulse for totaling unit HIGH Length display 10 ms time pp from 01 to 04 see also 10100 P 29100 pp Output pulse for totaling unit LOW time Length display 10 ms see 29000 P 29200 pp Di
61. 0 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value Pal b3 b0 b7b6b5b4b3b2b1b0 Status b0 to b7 usually have the value 0 Exceptions b0 1 on over flow of the energy register b1 1 on over flow of the demand register b2 1 when the signal condition monitoring has been triggered b3 1 on parameter change for the energy register b4 1 if the register is currently in test mode Example I I le e olo o o o rtgj Expl Energy register has flown over DLX Appendix A page 12 of 34 BP ds User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 24m xx Total cumulated apparent demand for the current registration period m 0 m Registration period m 0 1 to 0 Registration period MP1 m 1 Registration period MP2 xx Apparent demand xx 0 1 00 Apparent demand 1 01 Apparent demand 2 Table value I lalalalalalalala dddddddd Total cumulated apparent demand Example I T lolololololol la Expl The total cumulated apparent demand is 12 24m xx Cumulated cos p Forward m 3 m Registration period m 3 4 to 3 Registration period MP1 m 4 4 Registration period MP2 xx cos Q xx 0 1 00 cos 1 01 cos 2 Table value 1 lalalalalalalala dddddddd Cumulated cos Forward Example Kee Eelere Ex
62. 0000000 Rel2 mech o Ctl7 aeso Ew EIDIEIEIBDIDIBDIEIDI DIETE CETTE nant Measurig period dddddceeeeee 3 a 588 MD reset FER ER Founeoe essa Rst counter auto gt Ddaily MP1 Tml 00000000000 Rst disabl ORSTX weekly MP2 Tm2 POOOOoooosoo00o000o keyboard E monthly Dyearly Communications San parameter Q SERRE E OO cio s Service RS232 E 2 Data RS232 33 D 000000 Modem S g 3 or directly S amp pmo SCTM Protocol IEC Protocol Unit identification Link address im Identification for MP O gt MPI Unit address LE 1 1 E iex decimal MP2 _ Number of bytes 20 30 40 Transmit tariff LI Typ of meter value MP1 billing O operating O Mark change of LOG input L1 MP2 billing O operating O Periodic buffer ET Ee oe ea 2 Cleo xu NO r ODS A C E AN MP1 Tm1 2 0000000000000000 5 O0 2 0000 MP2 Tm2 OOODODOOOOOOOOODODIE DU GUDD B Buffer options E z SS lees 8 ka 0 CH MO 00 MPI TmI 3000 000 Mp2 Tm2 OOO 4000 baer Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Installation location Author Pulse rates quantization Pulse inputs Reading constant Prax Maximum pulse frequecy for output Lass Hz Pmax kW IA kWh puls x 1 3600 III Input 1 IDDIE Input 5 IDDIE Input 8 Apparent demand and cosine phi Active demand Reactive demand
63. 01 to 02 P 82104 cc Load profile MP1 for posistive Cosine 0 not used 1 used cc from 01 to 02 P 82105 cc Load profile MP1 for negative cosine 0 not used 1 used cc from 01 to 02 P 82200 ee Load profile MP for inputs see 82100 P 82201 pp Load profile MP2 for positive totals see 82101 P 82202 nn Load profile MP2 for negative totals see 82102 P 82203 cc Load profile MP2 for apparent demand see 82103 P 82204 cc Load profile MP for positive cosine see 82104 P 82205 cc Load profile MP2 for negative cosine see 82105 Subject to change without notice Appendix C Page 1 of 6 Appendix C List of parameters and constants E114005204052 Appendix C Page 2 of 6 DLX User Manual Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Installation location Author Equipment identification Number of inputs Typ IESOO JEWO JEDO Energy rates 10 20 30 40 Number of sums Balance YO NO 10 20 30 40 Number of cosine phi Outputs Controls Ctll IESO IEW Outl IAW LICICIBEIEIEIEIEIEIEIEIETEIEIEIETETETETEI CU en 00000000000 Out2 dAW OD Ct13 IESU IEW 00000000000 Out3 daw QOOOOOOOOOOOOOOO0o000000 Ctl4 IESO IEW 00000000000 Out4 Aw OO OOOSOOOOOOOOOOOOOOOOD Ctl5 IESO IEW 00000000000 Rell mech Ctl6 desomew 00000
64. 11 Z12 Z13 Z14 Z15 Z16 Table value for yy 01 Totaling units S1 S2 S3 S4 S5 S6 S7 S8 S1 S2 S3 S4 S5 S8 Table value for yy 02 Apparent demand SL1 SL2 SL3 SL4 SL5 SL6 SL7 SL8 Table value for yy 03 cos I s6 s7 geg ole Let e2 cas ese 65 06 67s cee c1 c2 c3 c4 cs C8 Example Query to table address 824 00 Counters in load profile MP1 Ka Lasizikazteiaekeketskaiketetskateits Expl The counters Z1 Z3 Z4 and Z10 will be stored in load profile MP1 830 00 Number of stored values per registration period from version 1 03 08 up Table value 212121 12212 l2 ZIZ Z Z Z for load profile MP1 Z2727 for load profile MP2 7257275 for load profile MP3 not supported by DLX Example Lo s oe ojo o Expl 018 load profile MP1 stores 18 values 008 load profile MP2 stores 8 values 000 load profile MP3 stores no values 830 01 Number of transmitted values per registration period Table value LS lala 121272 Z Z Z for load profile MP1 Z Z Z for load profile MP2 737373 for load profile MP3 not supported by DLX Example ol ls o oj as Tololo Expl 016 load profile MP1 transmits 16 values 008 load profile MP2 transmits 8 values 000 load profile MP3 transmits no values 832 00 Device identifier Table value ZZZ Z IZ IZ
65. 12 gt Request for operational data of the oldest registration period L1 lt 114 gt Request for operational data of a particular registration period in the past m lt 116 gt Request for periodically reset operational data of the oldest registration period L1 lt 118 gt Request for periodically reset operational data of a particular registration period in the past m lt 120 gt Request for billing data of a selected time period and a selected address range default from version 1 03 08 and up L1 lt 121 gt Request for periodically reset billing data of a selected time period and a selected address range default from version 1 03 08 and up L1 lt 122 gt Request for operational data of a selected time period and a selected address range de fault from version 1 03 08 and up L1 lt 123 gt Request for periodically reset operational data of a selected time period and a selected address range default from version 1 03 08 and up DLX Appendix A page 34 of 34 BP dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Basic application functions Transmission of meter readings programmable number max 30 No MPI MP2 Signature L1 L1 Number of billing data values L1 L1 Number of periodically reset billing data values L1 L1 Number of operational data values L1 L1 Number of periodically reset ope
66. 13 14 15 16 17 18 19 20 i Figure 18 Connector X4 When IED bi current bi polar modules are used then the signal conditioning must be adjusted by means of the programming software DLXPARA 9 When using mixed types of pulse inputs the IES type modules are located at the left hand side 5 4 6 Connectors X5 and X6 X5 modem interface from page 61 X6 data interface from page 58 Page 34 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5 4 7 Input and output modules Input and output modules convert the pulse types and voltage levels of commonly used signals in metering technology into TTL signals used by the micro controller and vice versa At the same time these signals are galvanically isolated from the process These types of input modules are available IES IEW IED Pulse input SO SO inputs are active inputs i e they not only supply the transmitter with a signal voltage but also with an auxiliary voltage SO transmitters can contain their own electronic circuitry without the need to have their own power supply The relevant current and voltage limits are defined in DIN 43864 SO inputs are capable to deliver 10mA to an 8009 transmitter to supply the transmitter and they still recognize a maximum current flow of 2 2mA as an Off signal They are limited to supplying a maximum voltage of 27V Therefore
67. 762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Internal modem optional Types acest ale semet ete s LGO 834 or UniMod Display een LED on front panel Connection to telephone network RJ11 12 max transmission speed 9600 baud M Bus interface optional Standard ena eei TC 176 N17 Part 3 Typ M Bus voltage 24 to 42V Max M Bus voltage sese 50V Idle current 2mA Active cUe trenn E nn 10 to 20mA Baud rate icici eat ar 300 to 9600 baud Max M Bus distance 5km CoOrlflectlon nc dehnen nat via terminals Optical fiber connection optional Wavelength EE 820nm Cable Code susie ed chai heen A 100 140um optical fiber Connection Terminal Code W SMA connector Environmental conditions Permissible environment temperature During operation 0 C to 40 C During transport and storage 10 C to 50 C Humidity During operatton max 95 relative humidity During transport and storage max 95 relative humidity Condensing sss not permitted DLX Page 73 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Protection against voltage and other disturbances Protective measures according to VDE 0701 Protective earth impedance 300mO Insulation measurements protecti
68. AN As IR ne A EXIT ENTER M Key EXIT n On oe OG I Key Cursor down a o L1 I I oO D o OD i See LL mw i 5 Gi i5 u Ko ous Out4 BEERS eee eee m LED Modem m Ing mg on inii Ini2 n nd In15 ne ESS eee ly SS ES LED Data LED Service 3 rows of LEDs Ctl1 to Ctl7 Reli and Rel2 Out1 to Out4 In1 to In16 Figure 19 Layout of operation controls and indicators 6 1 1 Keys ENTER Moves the scroll list to the next value in the standard display mode Activates the selected menu item in menu mode Stores the previously set parameter values in individual menus Moves the cursor one position to the right in individual menus e EXIT Exits from the current menu item without storing any parameter values Up Changes from the standard display mode into the menu item Select language Moves one menu item up or increases a value by one 1 e Down y Activates the main menu in standard display mode Moves one menu item down or decreases a value by one 1 After pressing any key the background illumination of the LC displays is activated for approx 15 minutes 6 1 2 Light emitting diodes LED The LED s show whether the DLX is receiving or transmitting pulses whether faults have occurred and whether the unit is currently using the PC Card The light emitting diode
69. Day Date display Month Date display Year No switching between summertime and wintertime Summertime Wintertime Hour display Minute display Second display Reset not permitted No PC Card inserted or activated PC Card inserted and activated PC Card registered but not activated Synchronization not programmed Manual Synchronization via terminal Synchronization via DCF77 receiver DCF77 signal valid No synchronization DCF77 signal disturbed Programming not permitted Set Disable Programming permitted Set Enable Weekday or public holiday F1 to F3 from the rate calen dar Name of the active energy rate Name of the active demand rate Registration period identifier Length of registration period MP1 or MP2 in minutes or in hours if a lowercase h is shown in position 18 Length of registration period MP1 or MP2 in minutes gt or in hours h Time remaining to the end of the registration period in minutes or in hours is a lowercase h is shown in position 18 Scroll list text display if programmed via programming software DLXPARA Scroll list text display if programmed via programming software DLXPARA During programming line 4 shows the text Password is active only for registration period MP2 Page 38 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 7 Menus 7 1 Flow diagram Stan
70. E Value Time Demand Increment REG 141 pp Z REG 131 ee Total Total 1 4 rate 1 rate 2 Forward rate 3 rate 4 Value Time Maxima Total rate 1 rate2 Backward rate 3 rate 4 Registration period MP2 REG 151 nn L REG 131 ee Value Time 60 L_e i32 c i62 cc_ REG 132 ee DIFF mp2 REG 100 ee x 60 MP2 for demand MP2 132 ee 1162 66 REG 132 ee DIFFmp REG 100 ee for increment REG 142 pp L REG 132 ee ET iS EES current last MP2 REG 152 nn L REG 132 ee Figure 5 Block circuit diagram of impulse processing A calculation of values for registration period 2 only takes place if the parameter is set under the menu e item Registration period in DLXPARA DLX Page 15 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 5 1 Pulse inputs Pulse inputs and control inputs are subject to signal verification implemented in the software i e pulses that fall short of a minimum period of time are not processed This period can be programmed separately for pulse length and pulse interval length in the range from 10ms to 2000ms in steps of 10 ms for all pulse in puts Incoming pulses are counted multiplied with a programmable value between 1 1 and 99999999 99999999 only positive values possible and added to the energy registers separated by rate see figure 5 block circuit diagram of pulse
71. Flow diagram for menu item Maintenance uuueessessnessnesnnsnnnsnennnnnnnnnnnnnnnennnnnnennennnennnn nn 53 Figure 37 Flow diagram for menu item Erase alarms eesessesseeeeeeee eene 56 PIS Ure 38 Service MLCTIACE cositas pes tarte aR T HE ET ISSUE ees INE EUN 57 Figure 39 Fiber Optic COMME CtOL M 60 Figure 40 Pin allocation of the telephone Cable 2u222404000404snnsnnesnnnnnnnnnnnnnnnnnnnnnnnnnnnnennennnennnn nennen 61 Figure 41 DCF77 receiver module A WS 62 Figure 42 Inserung amp PC Catd aniio HERR her RERO EHE ee EE tute ee 63 Page 6 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 1 Scope of application 1 1 Graphical representation of the application environment Modem Sys Auxiliary voltage 115VAC 230VAC Inputs amp coe Figure 1 Application environment 1 1 1 Short description The DLX was designed as a powerful device for the registration and processing of electrical impulses from energy meters flow meters heat flow processors and similar devices It is meant for installation in bulk en ergy supply points power station injection points at special contract customers and industrial premises Load profiles calculated values and spontaneous events are processed and stored on the site This data can be in terrogated by
72. P2 ENERGY VALUES A No parameters are __ set for registration V period MP1 LS INFO Al ENERGY VALUES 1 Current values DDMONYYYY hh mm EXIT Energy values a ENTER DH Gsxx ATx 201 Load profile WWWWWWWW EEEEE vj 1 EXIT S ENTER Y N ENERGY VALUES 4 1 Exit DDMONYYYY hh mm MP1 Gsxx ATx WWWWWWWW EEEEE v 1 Day Month Year Hour Minute ENTER y MP1 Gsxx ATx Z01 WWWWWWWW EEEEE v 1 SCENENERGY PALDES F DD IP 7 Y YYYY hh mm Y x T W N ENERGY VALUES 1 x Z EXIT DDISNYvvv hh mm MP1 Gsxx ATx Z01 E E E E WWWWWWWW EEEEE vj 1 ENTER Y K ENERGY VALUES 1 EXIT DDMONSS44 hh mm MP1 Gsxx ATx 201 WWWWWWWW EEEEE v 1 Registration period Value Unit Counter ENTER Y N ENERGY VALUES 4 1 EXIT DDMONYYYY B wm MP1 Gsxx ATx 201 WWWWWWWW EEEEE v 1 ENTER Y VW ENERGY VALUES 1 EXIT DDMONYYYY hh Tff MP1 Gsxx ATx 201 WWWWWWWW EEEEE v 1
73. PC Card ae an PC Card is being k Se mae n S deactivated EXIT EXIT Activate PC Card ENTER d 2 PDeactivate PC Card E Deactivate PC Card PC Card was not activated EXIT Y v v d Maintenance g Set Counters Set Counters Set Counters Activate PC Card Counter ZNN Counter SI Counter SI EXIT Deactivate PC Card ENTER a Rate TOT ENTER Rate ih ENTER Rate om gt Set Counters E De Value 00000000 Wh Value 00000000 Wh Value 80000000 wh EXT Use thelv and keys to adjust the digits Use thefenter key to Initiate Reset confirm a digit and move to the F next digit Maximum reset is g Maintenance 5 still blocked Pressing the ENTER key on the IN mx Deactivate Pc Card ENTER last digit will set the value in the et Counters PA it gt Initiate Reset lt amp Initiate Reset unit Maximum reset has x J been initiated R Automatically back to standard display Maintenance L Set Counters EXIT Initiate Reset gt Display Test E ENTER Automatical main menu Figure 36 Flow diagram for menu item Maintenance How to get there Press the v six additional sub menu items Display test e Set Time e Activate PC Card e Deactivate PC Card e Enter counter values e nitiate maximum reset e y back to P key four times when in standard display
74. RESTART 00000004 in DLXPARA also possible 4 RESET 00000005 DLX Page 67 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 13 Fault displays Should the DLX notice an internal fault then these are stored as alarm messages and shown on the display Two fault classes and one information class are differentiated e Warnings operational faults are non critical faults that can be removed on site and cleared using the main menu item Main menu Erase alarms Warnings are indicated by a blinking LED ALT on the front panel e Device faults hardware faults are critical faults that can only be removed by the manufacturer This requires opening of the certification seal and afterwards the device needs to be re certified if relevant regulations exist These error messages can only be cleared when programming of the unit is enabled Device faults are indicated by a blinking LED AL2 on the front panel e Information messages are used to indicate changes of conditions to the user that happen during normal operation These are not alarms The information message will be stored as a spontaneous event but does not cause a fault display The light emitting diodes AL1 and AL2 are not influenced 13 1 LC display Use the menu item Main menu item Display alarms see page 43 to display all warnings and device faults that have occ
75. T2 T3 T4 Public holydays DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Appendix C Page 5 of 6 Installation location Device up to 6 inputs Pulse input 1x SO Bi current Wipe V Pulse input 4x SO Bi current Wipe V Hz CL J R Pulse R Pulse OO v A No CO V A C Pulse input 2x S0 Bi current Wipe V Pulse input 5x SO Bi current Wipe V Hz CL J R Pulse R Pulse OO v No CO V A Gs Pulse input 3x SO Bi currentWipe V Pulse input 6x SO Bi current Wipe V Hz CL R Pulse R Pulse OO v OO V A Pulse E C R Pulse VH Pulse E Pulse Pulseinputix S0 BicurentWipe Pulseinput9x SOfBcuren Wipe V Hz Je D R Pul eo n ulse amp Pulse input 2x___ S0 Bi current Wipe Pulse input 10x___ SOfBicuren Wipe V Hz D R Pul e co 5 ulse js Pulseinput3x S0 BicurentWipe Pulse input 11x__ SOfBicuren Wipe V Hz R Pulse R Pulse No CO V A c Pulseinput4x S0 Bi curren Pulse input 12x___ S0 Bi current Wipe V Hz R Pulse R Pulse No CO V A Ce Pulseinput5x S0 Bi curren Pulse input 13x___ S0 Bi current Wipe V Hz R Pu R Pulse No CO V A Ce Pulseinput6x___ S0 Bi curren Pulse input 14 S
76. TER 2 4 scroll list entry 3 scroll list entry 4 scroll list entry Standard display Standard display Standard display XXXXXXXXXXXXxxxxxxxx ENTER O xxx xxxxxxxxxXxxxxxxx ENTERS P xxxxxxxxxxxXxXXXXXXXXX XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX Figure 26 Flow diagram for the scroll list Selecting the scroll list if programmed The first entry of the scroll list is always shown in line 3 and 4 of the standard display Press the ENTER key to show the second entry of the scroll list in the display Scrolling the list There are three ways to scroll through the list 1 Manual scrolling by pressing the ENTER key Each press on the ENTER key shows the next entry of the scroll list in the display When there are no further entries in the list the display returns to the first entry 2 Automatic scrolling of the list based on a time delay In order to activate automatic scrolling of the scroll list the delay in seconds determining the time pe riod for which each entry is displayed must be stipulated in the programming software Once this time is set the display will scroll automatically from the time the parameters are programmed into the unit Each press of the ENTER key interrupts and resets the time delay and moves the display to the next en try After the delay time has elapsed automatic scrolling will be resumed 3 Scrolling
77. Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value I lalalalalalalala dddddddd Demand Example EEEE Expl The demand in the last registration period was 12 Appendix A page 10 of 34 B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 DLX User Manual Current counter status this table address exists for version 1 04 00 and higher m Registration period m 0 1 0 Registration period MPI 1 Registration period MP2 xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value CIT b3 b0 b7b6b5b4b3b2b1b0 Status bO bis b7 usually have the value 0 Exceptions b0 1 on over flow of the energy register b1 1 on over flow of the demand register b2 1 when the signal condition monitoring has been triggered b3 1 on parameter change for the energy register b4 1 if the register is currently in test mode Example I T lololololololol Expl Energy register has flown over Current status for apparent
78. YY hh Tt MP1 Gsxx MTx 201 WWWWWWWW EEEEE vj 41 Figure 30 Flow diagram for menu item Info load profile values How to get there Press the key twice when in menu Info and then press the ENTER key The DLX enters the menu item selected Changing the parameters The or V keys can be used to select the registration period MP1 or MP2 the counter the date and time and to select apparent energy or cos P What will be shown After entering the menu item the DLX will display the load profile values demand values or increments of the last registration period MP1 or MP if present for all counters Z01 to Z16 totals S01 to S04 appar ent demand X01 or X02 and cos PO1 or P02 that have been stored Load profile values that have rolled over exceeded the maximum value of the register are indicated by a leading FF e g a value of 18000 is shown as FFFF8000 if 4 digits have been programmed for this value see buffer options in DLXPARA manual Values for periods of a power failure are shown as ge Use the key or the key to switch between registration periods Use the ENTER key to move the cursor to the next parameter then use the or the key to change the parameter value DLX User Manual Page 48 of 76
79. ZZZ ZA Z Example 0 0 0 0 0 0 0 0 4 0 0 IO 1 Expl The device identifier is 0000000000000001 832 01 Serial number Table value ZIZ ZilZ2zZ2iZ2izZ z2iz2i14lz1i2Zz Z Example 0 0 0 0 0 0 04 0 4 0 1 2 3 Expl The serial number is 0000000000000123 901 01 Enable time changes via SCTM Table value owe sse pope Z Flag 0 time changes via SCTM are disabled 1 time changes via SCTM are enabled Example LII Ill JT Jo Expl time changes via SCTM are disabled DLX Appendix A page 26 of 34 BP dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 901 02 Reset blockage in number of registration periods MP1 Table value ee DB qp mpm RR Reset blockage in number of registration periods MP1 Example Ee Expl At least 3 registration periods MP1 need to pass between two resets 901 03 Automatic Reset yes no Table value pps dq EES pps A Flag 0 automatic resets are disabled automatic resets are enabled Example Re eee p gno Expl Automatic reset is disabled Resets are initiated via the keypad on the front panel or via the RST input 901 04 Frequency of automatic resets Table value SEET F Frequency 0 daily l weekly 2 monthly annually Example SSES SE eer Expl One reset per month will be initiated automatically 901 05 Date and time of automatic resets Table value M M T
80. able for Monday bb rate table for Tuesday to Thursday cc rate table for Friday dd rate table for Saturday ee rate table for Sunday ff T T for public holiday type 1 gg T T for public holiday type 2 hh T T for public holiday type 3 xx 01 for season 1 to xx 06 S 71002 xx Rate calendar daily rate tables Display SS MM AM to 71002 1st daily rate table hour minute energy rate demand rate 71016 71003 2nd daily rate table xx 01 for the 1st entry to Jes xx 16 for the 16th entry 71016 15th daily rate tables S 72000 xx Rate calendar public holidays Display Y Y Y Y MM DD Type T Year Month Day Type 1 to 3 xx 01 for the Ist public holiday xx 02 for the 2nd public holiday bis xx 00 for the 100th holiday P 80400 mm Buffer options Function of stored values 0 Demand 1 Energy in a registration period buffer load pro 2 Energy increment file values mm 01 for MP1 MPAI mm 02 for MP2 MPA2 S 80404 01 Store changes in logical inputs in device 0 don t store status 1 store P 82100 ee Load profile MP1 for inputs 0 not used 1 used ee from 01 to 16 see also 10000 P 82101 pp Load profile MP1 for positive totals 0 not used 1 used ee from 01 to 16 see also 10100 P 82102 nn Load profile MP1 for negative totals 0 not used 1 used ee from 01 to 16 see also 10200 P 82103 cc Load profile MP1 for apparent demand 0 not used 1 used cc from
81. al memory device pa rameters spontaneous events resets and registration period data is erased and the standard parameters will be loaded see menu item Factory settings page 66 A unit restart can be executed in the following ways e Via the keypad menu item SET PARAMETERS Factory settings This is password protected e Via the programming software DLXPARA using the service interface This is password protected e Via hardware reset switch off the unit and place a jumper onto the pins labeled Test located on the CPU board under the display then power up the unit and wait until the display shows Parameter Re set then remove the jumper This is protected by seals If parameters defining the buffer usage number of counters totals digits measurement types or stor age allocation are altered the registration period buffer and the reset memory are erased automati cally 3 8 1 2 Unit warm start The DLX unit performs a warm start message in the display System warm start under the following conditions e On return of power supply after a power failure e When placing the Reset jumper on the CPU board Data device parameters and data remain intact No data will be stored for registration periods during which the power supply was absent An event will be stored in the spontaneous event buffer for a unit warm start 3 8 1 3 Unit cold start The DLX unit performs a cold start message in the di
82. an alignment roughly at the center of the area with good signal reception If you have good reception the DLX display will show a static symbol F latest after 3 minutes A blinking symbol F indicates disrupted radio clock signal reception DLX Page 63 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 11 PC Card 11 1 Permitted PC Card s e Standard JEIDA PCMCIA e Type SRAM battery backed Flash Memory Card AMD D Series e Capacity upto 4MByte 11 2 Treatment advice for PC Cards Noncompliance with the following advice can lead to destruction of the PC Card e Do not bend or fold the PC Card or subject it to similar conditions e Do not drop the PC Card e Always keep the PC Card dry and free of dust e Do not expose the PC Card to high temperature or high humidity e To avoid static charges always store the PC Card in its original packing when it is not in use e Do not touch the connections of the PC Card e Never use force when inserting a PC Card Only insert the card into slots designed for them e Do not remove the PC Card from the unit until it has been deactivated 11 3 Inserting a PC Card Figure 42 Inserting a PC Card Please ensure that you always insert the side of the PC Card with the connector into the PC Card slot Also ensure that the guiding grooves on the card match those of the slot as shown in the ab
83. and value over the registra tion period Interface definition according to CCITT European standard A warm start is performed after a short period of power failure less than 7 days All data stored in the unit will be retained The internal real time clock is not affected Subject to change without notice Appendix A page 1 of 34 Appendix A Data Retrieval Protocols E114005204052 DLX Appendix A page 2 of 34 dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Data stored in the unit device parameters counter values alarms parameter changes etc can be retrieved using either the SCTM protocol or the IEC 60870 5 102 protocol The communication uses a serial link via RS232 modem RS485 optic fiber or M Bus with adjustable baud rate 300 600 1200 2400 4800 or 9600 baud and following transmission settings e 7 e lfor SCTM protocol e 8 e 1 for IEC 60870 5 102 protocol The DLX unit automatically detects the retrieval protocol When using the direct interfaces service interface or data interface the first telegram will be lost in the case of a protocol change the modem interface can change the protocol without losing a telegram For this reason you can use DLXPARA to define the default protocol for the data interface the service interface always uses the IEC protocol as the default After each parameter change or after 5 minut
84. ble 2 1 2 3 4 5 6 10 12 15 20 30 60 minutes programmable in addition 2 3 6 12 24 hours Register reading register increment or demand standard optional up to 4 standard optional 2 Yes 4 4 Yes with storage of date and time Min 20 automatic optional external DCF77 Receiver min 780 events Page 8 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 SCTM IEC 60870 5 102 automatic protocol recognition Internal modem Housing for panel mounting LGO 834 9600 Baud optional 19 rack UniMod 9600 Baud optional Transmission speed Service 9600 Baud Data 300 600 1200 2400 4800 9600 Baud programmable Modem 300 1200 2400 Baud 9600 Baud Number of terminals 60 inputs and outputs 3 auxiliary voltage Dimensions Housing for panel mounting ca 175mm x 300mm x 150mm 19 rack ca 215mm x 130mm x 265mm W x H x D Ancillary equipment Programming software programming cable PC Card memory card DLX Page 9 of 76 User Manual Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 2 2 Block circuit diagram of modules The block circuit diagram below gives an overview of the individual modules of the DLX Display module LC Display 12345678901234567890 12345678901234567890 12345678901234567890 12345678901234567890
85. by means of the ANZ control input Each activation of the ANZ control input activates the next entry of the scroll list in the display Once the list is exhausted the display returns to the first entry Other key functions ENTER key if no scroll list was programmed pressing the ENTER key has no function other than activating the display illumination and V keys these keys have their usual function during the display of the scroll list i e the key displays the Select Language menu and the v key enters the main menu Content of the scroll list Programming of the scroll list can only be done with the programming software DLXPARA An entry into the scroll list consists of the scroll list entry text the related value and a physical unit e Line 3 shows the freely programmable text max 20 characters e Line 4 shows the related value selected by address and the programmable unit 5 characters Example Standard display Input in DLXPARA ERREECHEN ES Unit kWh B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 6 Main menu item Display alarms Standard display either EXIT Display Alarms De No alarms Main menu ENTER Display Alarms PDisplay alarms a
86. ch is set to Set Enable these values cannot be modified in a certified and sealed unit Important Alllocations marked with gray background indicate registers that cannot be modified from outside in a certified and sealed unit Table addresses for menu item Info Table addresses The table address consists of a 5 digit address and a 2 digit index When querying an invalid address the value will be displayed as 2 Stat Address Index Meaning z Value Explanation Note S 00000 01 Summer time switching 0 Off 1 On S 02 Summertime start month 0 Jan 1 Feb 11 Dec S 03 Summertime start weekday 0 Monday 6 Sunday S 04 Summertime start hour 0 to 23 S 05 Wintertime start month 0 Jan 1 Feb 11 Dec S 06 Wintertime start weekday 0 Monday 6 Sunday S 07 Wintertime start hour 0 to 23 S 08 Day to switch to wintertime 0 last 1 first 2 second S 09 Day to switch to summertime O last 1 first 2 second S 10 Current date and time Display YYY Y MM DD HH MM SS S 00002 01 Synchronization 0 no synchronization 1 via SYN input 2 via external radio clock S 00004 01 Interpret radio clock telegram 0 Off 1 On S 00005 01 Set time via remote communication 0 Off 1 On S 10000 ee Cumulative Energy Total current ee from 01 to 6 10001 Cumulative Energy Rate 1 ee 01 for input 10002 C
87. cimal places for demand registers xx Register 01 Register 1 02 Register 2 s etc 15 Register 16 Table value Number of decimal places Example FX TUI T a Ka a Expl Demand registers have 1 decimal place 913 xx Number of decimal places for totaling units for demand xx totaling unit 00 totaling unit 1 01 totaling unit 2 02 totaling unit 3 03 totaling unit 4 Table value Number of decimal places Example a een Expl The totaling units for demand have 1 decimal place 914 xx Number of decimal places for apparent demand registers xx Apparent demand register 00 Apparent demand register 1 01 Apparent demand register 2 Table value Number of decimal places Example Iii o Expl The apparent demand registers have 1 decimal place baer an B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 The DLX supports the following SCTM telegrams BUFENQI E4 NEXTi E5 BUFENQ E6 NEXTBLOCK HEADER TABENQI El TABENQ3 E3 SETTIME T1 SSYNC T2 MSYNC T4 TABSETI S1 Retrieval of individual buffer entries Retrieval of the following buffer entry Retrieval of a continuous block of data from a load profile buffer Retrieval of the following data block Retrieval of listed table addresses Retrieval of date and time resolution in seconds Sets the time to be programmed into the DLX Thi
88. d see Password input on page 39 the function will be executed Executing a reset The function will store the maximum demand values together with the date and time of occurrence as well as the cumulative and the current counter values The display will show the message Reset is being exe cuted for a couple of seconds Afterwards the display returns to showing the standard display The first line will now show the symbol for the duration of the reset blocking time 7 9 6 Display test How to get there Press the v key five times when in menu item Maintenance and then press the ENTER key What will be tested The test includes all segments of the LC display the background illumination and all light emitting diodes of the DLX First the illumination of the display will be switched off and all LEDs will be lit Then the display illumination is switched back on and all segments are switched to black Finally all light emitting diodes are lit for a short time one after another The display test will take approximately 10 seconds Once it is complete the DLX returns to the menu item Maintenance The display test has no effect on the measurement or the state of the outputs Page 56 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 10 Main menu item Erase Alarms Standard display
89. d for control and check purposes e Current cannot be modified externally which registers the flow of energy since the last reset e Pulse register control register cannot be modified externally counts all incoming pulses from the related input without weighting Furthermore the energy increment since the end of the last registration period is calculated for both registra tion periods MP1 and MP2 By multiplication with the time factor these values are converted into demand values Demand value weighting ZF a Tm ZF Time factor Tm Registration period in minutes The energy increment registers and therefore also the demand registers are reset to 0 at the beginning of each new registration period Example Registration period MPI 15 min Time factor ZF 60 15 4 Energy increment AE 25kWh Demand P AExZF 100kW Page 16 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 5 2 Signal current input A continuous signal current flow is applied to the signal current inputs e g 0 20mA or 4 20mA This current is proportional to the actual demand By integration of the current over time i e the measuring pe riod it is possible to calculate the energy consumed from which the average demand is then calculated The signal current input analogue input measures power in order to establish energy consumption Th
90. d profile MP2 3 9 3 nmn Number of programmed days on PC Card for load profile MP3 Example o s s lo ojo Jololo Expl The following number of days of storage on the PC Card have been pro grammed For MP1 35 days For MP2 0 days For MP3 0 days Note this table address only exists from Version 1 03 08 up y 2 for load profile MP1 y 3 for load profile MP2 y 4 for load profile MP3 always 0 the DLX does not have a third load profile Table value BEE ER EES EES Example BS WER po p pops Buffer capacity of internal memory in sectors including clearing sector Note from Version 1 03 08 up Table value oem h n n n Number of sectors for MP1 nnm Number of sectors for MP2 n n n Number of sectors for MP3 Appendix A page 24 of 34 B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Assignment of load profile storage areas Table value Example Expl X yy tt d Query to table address 821 00 the first three codes for load profile MP1 00 208 104 DLX User Manual 1 Load profile MP1 2 Load profile MP2 3 Load profile MP3 not implemented in DLX 00 forthe first three codes 0 1 2 01 for the next three codes 3 4 5 K 3 for codes K K 1 K 2 Code 0 stands for Counter 1 yy 00 1 1 Counter2 yy 00 2 2 Counter 3 yy 00 3 3 Counter 4 yy 01 1 15 Counte
91. dard displa Select language Scrolllist Main menu Information Pp Curentvalues Pp Energy values rp Reg period values T Energy values curr H Energy values cum N Spont Events Table addresses Set Parameters Factory settings m Password fact settings Clear all registers Load factory settings Password Parameters JAF Ckarmemoy Maintenance Settine Password Sef e semean Activate PC Card Password PC Card PC Card will be activated Deactivate PC Card Password PC Card OK PC Card will be deactivated u Set Counters m Password Set ok Counters can be set E Initiate Reset Password Reset OK Reset is executed Display test Wu Run Display and LED test EaseAams HI AT alarms are cleared Figure 21 Flow diagram of menus The menus After powering up the DLX shows the standard display see page 37 Press to go to the menu item Se lect language see page 41 Press j to go to the main menu from page 43 Press ENTER to start the scroll list if a scroll list has been programmed via DLXPARA see page 42 DLX Page 39 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 7 2 Legend of flow diagrams The following symbols will be used in the next section Key on Symbol Explanation gw EXIT key Exit current menu item
92. demand this table address exists for version 1 04 00 and higher m Registration period m 3 4 3 Registration period MP1 4 Registration period MP2 xx desired apparent demand value 00 Apparent demand 1 01 Apparent demand 2 Table value EEE b3 b0 b7b6b5b4b3b2b1b0 Status b0 to b7 usually have the value 0 Exception b1 1 on over flow of the demand register Example Jofofofofofofifo Expl Demand register has flown over DLX Appendix A page 11 of 34 EDE User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Current status for cos this table address exists for version 1 04 00 and higher m Registration period m 6 7 6 Registration period MP1 7 Registration period MP2 xx desired Costa 00 cos g 1 01 cos 2 Table value fae ead b3 b0 b7b6b5b4b3b2b1b0 Status b0 to b7 usually have the value 0 Exception b1 1 on over flow of the demand register Example I 1 Jofofofofofofifo Expl Demand register has flown over Counter status for the previous registration period this table address exists for version 1 04 00 and higher m Registration period m 0 1 0 Registration period MP1 Registration period MP2 xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 8
93. dependent registration periods can be de fined e Registration period MP1 Billing registration period programmable in steps of 1 2 3 4 5 6 10 12 15 20 30 and 60 minutes e Registration period MP2 programmable in steps of 1 2 3 4 5 6 10 12 15 20 30 and 60 minutes as well as 2 3 6 12 and 24 hours if not required this registration period can be disabled registration period MP2 can be programmed to the same value as MP1 Calculation of maximum demand values and billing data see page 17 only takes place for registration pe riod MP1 3 7 Rate dependent processing The DLX can process up to 4 energy and maximum demand rates Please note that there is a differentiation between number of rates programmable and rate control settable With rate control one can select the method of switching between different rates There are two alterna tives 1 The rate is determined by control inputs TR1 TR2 TR3 and TR4 external rate control 2 The rate is determined by the internal rate calendar The number of rates determines how many different rates the unit will differentiate and use If the unit is programmed to use less than 4 rates then the limit used is the highest programmed rate If for example the number of energy rates is programmed to 2 then the energy registration will only allow rates 1 and 2 even if the rate calendar stipulates rate 4 In this case rate 2 would be used instead of rate 4
94. digit will be selected 3 For the remaining digits proceed as described under 1 and 2 4 Once the last digit has been selected and the ENTER key has been pressed the DLX checks the entered password 5 Ifthe password was entered correctly the DLX will activate the relevant menu item 6 Ifthe password was incorrect input returns to the first digit of the password 7 Press the EXIT key to cancel password input Example Password 00000001 you can enter 1 only if using DLXPARA Input 7 X ENTER X ENTER Input Key Display Starting point 00000000 ENTER 0000000 ENTER 3000000 ENTER x 00000 ENTER 0000 ENTER xoc 000 ENTER aK KOO ENTER kk oper 1 ENTER Relevant menu Figure 24 Entering a password Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 7 4 Select language Standard display A ke x EXIT EXIT Y L i SPRACHE AENDERN TAAL VERANDEREN A ENTER ENTER Deutsch Nederlands A A T v v
95. displayed settings are not stored in the DLX ENTER key Enter the selected menu item or store the displayed value in the DLX ARROW DOWNWARDS key Move down by one menu item or decrease the selected value bye 1 1 ARROW UPWARDS key Move up by one menu item or increase the selected value bye 1 4 1 Arrow keys Indicate the selected menu item and the direction to more menu items Figure 22 Legend of flow diagrams 7 3 Password input Menu items XXXXXXXXXXXXXXXXXXXX Parameters Factory settings Clear memory Maintenance Set time activate and deactivate PC Card Set counters Reset A Back to first digit 00000000 Increase value Decrease value ENTER Move to next digit y XXXXXXXXXXXXXXXXXXXX TER Password EXIT 00000000 Password wrong Increase value Wale Decrease value ENTER Move to next digit y XXXXXXXXXXXXXXXXXXXX N umero d wmeescm Password EXIT ok ek ee XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXX Enter the menu item Password correct Figure 23 Flow diagram for password input Several menu items Set Parameters Factory Settings unit restart and Clear Memory as well as Mainte nance
96. e load but cannot be used Reactive demand is caused by inductive or capacitive loads and is usually undesired Is connected to a pulse input or a counter input and measures reg isters the flow of energy In addition the average demand over the registration period will be calculated The time span used to calculate the average demand value A data logger has several registration periods that can be active simultane ously State of the data logger where it measures and stores demand values and calculates maximum demand values During registration a num ber of parameters of the unit must not be altered Storage area for the measured values of a registration period which is used as a circular buffer i e the newest entry overwrites the oldest entry once the storage area is full Maximum demand values and other energy values are stored to gether with timestamps The maximum demand register is reset to the value zero and hence prepared for a new maximum demand measurement Seite 76 von 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Restart unit restart Rolling registration period RS232 Scroll display scroll list Spontaneous event buffer Standard display Synchronization Synchronization window Totaling unit summation unit V 24 Warm start Resets all parameters to factory settings The storage area for meas
97. e power is measured over short intervals multiplied by the time and the result is summated This sum is equivalent to the energy consumed If the sum exceeds a fixed limit value W a 25msec internal output pulse is triggered and W is subtracted from the sum W is designated the pulse weighting and is set such that at maximum demand a pulse frequency of 20Hz pulse length 25msec is reached The demand is meas ured via an external transducer that converts the measured demand to an injected current selectable ranges 0 to 20mA or 4 to 20mA Maximum current 20mA gt 72000 pulses per hour 23600sec x 20 Energy value weighting S LE SEME Y 72000xK X Y Numerator and Divisor no decimal places 8 digits K Reading constant for optimized reading DIF Transducer range max value ncoder min VAlUCencoder 20Hz The reading constant usually has a value of 1 reading in kWh or kvarh Example min value UKW corresponds to 0mA OHz max value 3500kW corresponds to 20mA 20Hz Transducer range DIF 3500 0 3500kWh Reading constant K 1 X 3500 35 _ 7 Energy value weighting Y 72000 720 144 3 5 3 Summation registers The weighted pulses of all inputs can be totaled in up to 4 total registers with positive or negative sign Total X k x E k sign for input n where k 1 ork 0 or k 1 E Energy value at input n where n 1 16 Depending on
98. e content of a table address has changed This can happen during a SCTM remote communication session if a logic output is set via SCTM protocol The value of a counter Input Total was modified set The state of a logic input has changed Error in internal CPU RAM Action The DLX must be sent to the manufacturer for service Error in CPU Flash memory Action The DLX must be sent to the manufacturer for service Error in CPU EPROM memory program memory Action The DLX must be sent to the manufacturer for service Action The DLX must be sent to the manufacturer for service Action Remove write protection PC Card was changed during a power failure Action Insert previous PC Card PC Card was registered or deregistered Internal overflow of a summation unit totaling unit xx 1 4 Action adjust the pulse ratios for this totaling unit Demand register for an input xx 1 16 a total or for apparent demand has over flown the highest digits are not stored anymore the measurement values are falsified and cannot be used for further processing Action adjust parameters Error in internal firmware Action firmware update DLX Page 69 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 13 2 Light Emitting Diodes LED s 13 2 1 LED AL1 Warning The LED AL1 blinks after a fault of class W warning has occurred Exceptions
99. e device the state of the program protection switch on the backside of the display will be checked If programming is protected e g after certification then only settable values can be al tered Modification of programmable values is only possible after removing the certification seal If relevant regulations exist the device must then be re certified afterwards Once the program protection switch is de activated all variable values can be modified For programming of the DLX a PC needs to be connected to the V 24 service interface of the DLX Pro gramming of the DLX is only possible with the programming software DLXPARA For details of the pro gramming software please read the user manual shipped with the software Before setting or changing any parameters of the DLX a reset to factory settings should be exe cuted Modification of some parameters see menu item Internal memory page 23 will cause the unit to automatically erase the registration period buffers During the setting of parameters of a DLX the data retrieval is disabled due to reasons of data secu rity DLX Page 13 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 4 1 Program protection switch Figure 4 Program protection switch Before transferring any parameters to the DLX unit the program protection switch must be set to Enable The program protection sw
100. e than minute S7 Test mode S8 Change of state of a logic input S9 Summer Wintertime switching Example o o o o o o o oj o o o 1 i o o rt Expl In this registration period a power failure of more than 200 ms has occurred The bits SO Restart S3 Power failure and S4 Warning are marked set Required memory capacity for SRAM cards Table value s E Example 2 5 4 2 0 8 Expl When a SRAM card is used 254208 byte will be written to the card gt the card must have a minimum capacity of 256 kByte Required memory capacity for FLASH cards Table value isisIsIsIsIsIsIsIsIsIsIs Example EEE ee a Ee Expl When a FLASH card is used 1179648 byte will be written to the card gt the card must have a minimum capacity of 2 MByte DLX Appendix A page 22 of 34 BP dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 700 82 Type and capacity of the successfully activated PC Card Table value ESSER ESE ee GER EE ttttt card type SRAM or FLASH kkk Capacity k k for kilobyte m for Megabyte Example 1 s r a m 2 s e6 xis Expl The currently inserted and successfully activated card in the DLX is of type SRAM and has a capacity of 256 kByte Example 2 s R AIM Tolola l M B Expl The last card that was successfully activated in the DLX was of type SRAM and had a capacity of 4 MByte If no card has been succe
101. e to the composition of FLASH memory devices a minimum of sectors of 65536 Bytes each is allocated to each area the exception being the device parameters with 1 sector DLX Page 25 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 8 5 Capacity of backup memory PC Card Due to technological and administrational reasons the whole memory of a PC Card is divided into sectors Data is always written or erased by complete sectors Depending on the card type the following sector sizes are available e SRAM cards 256Byte e FLASH cards 128kByte 131072Byte The memory is divided into the following areas Memory area SRAM FLASH Administration information Number of Bytes Sectors 768 3 131072 1 Spontaneous events Number of Bytes Sectors 1536 6 262144 2 Number bytes per event 11 11 Number of events 114 to 139 11914 to 23831 Reset buffer Number of Bytes Sectors 9472 37 262144 2 cumulative counters 1538 1538 without rates 4 to 6 83 to 170 Registration period MP1 Number of days Programmed via DLXPARA Registration period MP2 Number of days Programmed via DLXPARA Intermediate buffer Number of Bytes Sectors 0 131072 1 The number of stored entries per memory area varies depending on the level of usage in individual sectors DLXPARA can determine the required memory capacity of a PC Card and this information can retriev
102. e total value not rate related together with the active energy and demand rate valid at the end of the registration period you cannot edit the rate When displaying billing data the values are shown depending on the rate which can be selected Each entry can only be selected by the secondary reset index 0 99 the primary reset index 1 12 settable will be displayed automatically The unit differentiates between counters Z01 to Z06 totals S01 to S04 apparent demand X01 and X02 and cos PO1 to PO2 only the values programmed for the corresponding registration period will be displayed The physical unit displayed must be programmed with DLXPARA Display on entry When entering the menu item the display first shows the newest complete registration period or the last set of billing data The cursor blinking points to the first character of the first parameter If the memory is empty the display will show No data available DLX Page 45 of 76 7 7 1 Current values B r Industrie Elektronik GmbH User Manual Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950
103. ed from the unit via SCTM protocol see appendix A table addresses 700 80 and 700 81 Checksums are created for each block of data to protect against corruption The checksum is the arithmetic sum total of a block of data and it uses one byte of memory The amounts carried over from the summation are discarded Each block of data can vary in length For buffers one block of data is equivalent to one buffer entry Ad ministration information is also divided into blocks of data 3 9 Control inputs The DLX unit can have up to 7 control inputs Ctl1 Ctl7 These inputs are by default of the SO type also called IES but optionally they are available in wipe technology IEW Control inputs are programmed and activated by the software application DLXPARA The following functions are available e SYN input Synchronization of the internal real time clock via external transmitters or external DCF77 receiver see page 62 e RSTX input External maximum demand reset e ANZ input External control for scrolling of the display e TRI to TR4 Rate control via external transmitters e g ripple control receivers LogltoLog4 Logic inputs that allow connection of the DLX with signal outputs of external devices With these inputs the user can create and log events that are relevant to the processing of meter readings e g defective transformers or external fault messages The logic in puts are scanned every 10 seconds second 5 15 25 35 45 55
104. eeds to be taken into consideration for the maximum pulse frequency max 20Hz If desired IED modules with 90msec are available which can be used up to 6Hz pulse frequency Bi current transmission lines are highly immune to disturbances and should be used for long dis tance transmissions Depending on the environment neighboring lines transmission distance a shielded cable of sufficient diameter should be used Note As each pulse is represented by a change of polarity the signal condition must be deactivated in DLXPARA Analogue Signal current input analogue input A continuous signal current flow is applied to the signal current inputs e g 0 20mA or 4 20mA This current is proportional to the actual demand By integration of the current over time i e the measuring period it is possible to calculate the energy consumed from which the average demand is then calculated The signal current input analogue input measures power in order to establish energy consumption The power is measured over short intervals multiplied by the time and the result is summated This sum is equivalent to the energy consumed If the sum exceeds a fixed limit value W a 25msec output pulse is triggered and W is subtracted from the sum W is designated the pulse weighting and is set such that at maximum demand a pulse frequency of 20Hz pulse length 25msec is reached The demand is measured via an external transducer that converts the measured de
105. eeseeeseeeennee nenne een een entente rennen 17 3 5 6 Maximum demand calculaton sess nennen 17 3 5 7 Maximum demand reset eeepc een 18 3 5 8 Periodical buffer billing data eee eeeeessceesneeseneeeeaeessaeeeeaeeseaeeesaeeesaeeseaeessaeeeeaeersteeeeaeers 18 S Se ENEE 19 3 6 1 Setting the real time clock scree ne ae en aa ua un 19 3 6 2 Automatic summertime gwitchmg nennen 19 K Neel 19 3 64 Registration period rne prete eit teet e epe eto a E nee Exe ded ERa 20 3 7 Rate dependent processing ue e Uere ech 20 LANE CIN R 20 3 7 2 Rate calendat site ies ete e ca to eee p oe EE SEE E Y E RR Ec re AERE Ee a 20 3 1 3 Rate control inputs ee eee Peter tee rn eH P RH E TREES te eed 22 3 8 Storage of measurements EE 23 3 6 1 Internal memoty eee erm RE e EH e ann 23 3 8 1 1 Unit restart loading of factory default settings esee 23 3 8 12 Unit warn start cicero rere e re r o engine 23 3 8 1 3 Umt cold start EE 23 3 8 1 4 Erase E 23 3 8 2 Security mechanisms for data storage sess ener 23 3 8 3 Block diagram of internal memorg sese een enne 24 3 8 4 Capacity of internal memory 24 3 8 5 Capacity of backup memory DC Card 25 3 9 Controlinp ts u reet Ed sn e a EE 25 3 10 e ir UE 26 3 11 Communication m 26 UE 27 4 1 Sealing arrangements ed oo dte iret I ERU te e eer eve e dree EE 27 4 1 1 Housing
106. er Used for storage of measured and registered values and for data transmission to the remote metering central Optionally data can be stored on a PC Card The highest average demand value during a billing period The data logger not only stores the value as such but also the timestamp of its occurrence Electro mechanic or electronic device for the measurement of en ergy in an electricity gas or heat distribution network Transmits signals of the data logger unit to the outside e g pulses or rate signals Event created after a very short failure of supply power max 200ms Internal power supply is bridged secured by means of in tegrated buffer capacitors All data stored in the unit is retained Data processing and the internal real time clock are not affected Converts pulses into physical units e g by using transformer ratios and meter constants Receives pulses transmitted by meters Different pulse types are possible e g SO wipe or bi current Component of the data logger unit that receives the current time via radio from an official transmitter and adjusts the device time ac cordingly Contains only the receiver of the radio clock The interpretation of the time telegrams is done by the central unit of the data logger The current implementation can only synchronize the device but cannot receive the full time telegram form the transmitter That part of the demand that is transmitted from the generator to th
107. eresis O kWh Hysteresis 4 kWh Forward 100 kWh 100 kWh 98 kWh Backward 2 kWh 2 kWh 0 kWh DLX Page 17 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 In addition the energy increment since the end of the last registration period is calculated for both the posi tive and negative registers of each sum and for each registration period MP1 and MP2 If the function bal ance calculation is activated possible only for demand or energy increment then the difference between the positive and negative total registers is calculated at the end of the registration period and only the result is stored in the relevant register This value is then multiplied with the time factor ZF 60 registration period length which results in the demand value At the beginning of each new registration period the energy increment register and therefore also the demand register will be set to 0 Example Demand Result Without With balance calculation balance calculation Forward 100 kW 100 kW 98 kW Backward 2 kW 2 kW 0 kW 3 5 4 Pulse outputs The individual energy totals can be weighted with a separate divisor defined in kWh impulse and forwarded to pulse outputs Similar to the pulse inputs the duration of pulse length and pulse interval can be pro grammed in the range from 10ms to 1000ms in steps of 10ms A pulse outpu
108. eriod the unit compares the current demand value with the highest value registered so far If the new value is higher then it will be stored together with date and time separate for each rate This calculation only takes place for registration period MP1 Current maximum demand values and register contents can be retrieved via remote data retrieval currently only possible with SCTM protocol Starting from version 1 04 00 a maximum demand is also calculated without regard to rates in addition to the rate related values and considering all days from 00 00 to 24 00 Page 18 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 5 7 Maximum demand reset With a maximum demand reset the values for maximum demand of registration period MP1 and the current energy register values are transferred into the periodical buffer and then set to zero to enable a new maxi mum demand calculation In addition the values of the cumulative energy registers will be stored The reset can be activated in three ways 1 Via control input RSTX The unit will execute the reset approx 200ms after the change of the voltage level at RSTX 2 Via internal clock automatically once per day week month or year The time can be selected without limita tion 3 Manually via the keypad password protected All three methods can be enabled or disabled separately by means of setting t
109. es with no communication the concerned interface returns to its default protocol This appendix describes all the addresses available for the data retrieval protocols Due to varying configurations of units it is possible that some of them are not supported in your unit SCTM protocol The following sections describe the data format of telegrams during communication using the SCTM protocol Serial Coded Telemetering The following conditions have to be observed e transmission settings 7 bits e even parity 1 stop bit e the sub device number US Number has 5 digits can be programmed using DLXPARA e no point to point connection is possible without US Number e the length of the header is constant 14 bytes e broadcast commands and priority telegrams are not supported e amaximum of two registration periods MP1 and MP2 is supported The following data can be retrieved e load profile data from registration period buffers PP 01 for MP1 and PP 02 for MP2 with a maxi mum of 16 channels demand increments or energy values per buffer and registration period e spontaneous event data including alarm messages status messages and parameter changes e table data between 000 00 and 999 99 baer me B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Device status in the registration period data block The DLX stores the device status for each completed registration period
110. et index r 0 or r 1 to 9 O current counter values t 4 lastreset 2 second last reset etc t demand rate t 1 to 4 1 demand rate 1 2 demand rate 2 efc xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value EN GER BE ee GE ED FE eee dddddddd cumulated maximum demand Example LI TI 11 lofolol l2lslals Expl The cumulated maximum demand value is 12345 DLX Appendix A page 17 of 34 EDE User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5rt xx Reset current register values r desired reset index r 0 or r 1 to 9 0 actual current register value atlast reset 2 atsecond last reset etc t Demand rate t 5 to t 9 5 Total 6 Demand rate 1 7 Demand rate 2 etc xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value II LI LI Jalalalalalalala dddddddd current register value Example LI 111 1 11 TololoJ l2lalals Expl The current register value is was 12345 600 00 Number of counters
111. for panel mounting nennen nanii a enne enne tenens 27 4 12 19 TICK csi eite utut te d Tei E eset Leser E 27 4 2 Installation diagram EE PRESE URBE ERE EP oo e epe eai reser e oben 28 nnn 29 3 1 Delivery States s scess sitssiss nee Eee Ik 29 5 2 Preparation for COMMISSIONING e rete tib er t npn e HR FERE ERE e ipa deo aede PEE essen Pep eed 29 5 3 Supply voltage selection eee tite nen a ee sn ee en 29 DLX Page 3 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3A EE 30 54 1 Eocatiomot the terminals utr Rss 30 5 4 2 Connector X Supply voltage rrt tren nen 30 5 4 3 Connector X2 control inputs relay outputs esses rennen een eene 31 5 4 4 Connector X3 pulse inputs 1 6 outputs TA 32 5 4 5 Connector X4 pulse inputs l t 33 5 4 6 Connectors X5 and Kn 33 5 4 7 Input and output modules 34 scito 36 SNE KE OT 36 GLL EE 36 6 1 2 Light emitting diodes BD 36 6 1 3 Standard display mode is ccsccce csscssescsscceeescsesscesacavvencasesdeess cdsenousscdavacatusceasdecdvencscabesssseesaeavants 37 7 MGNUS mE 38 FA dvirrucuum E m 38 7 2 Legend of Tow diagrams oc erit e EUR a I E I EXEAT UTR una 39 7 3 Password imputat e e tee RISSE IR 39 TA Select lan Suage ss
112. he relevant parameters Only one reset is allowed for each registration period MP1 After a reset the next reset can be suppressed for a maximum of 99 registration periods MP1 so called reset blockage 3 5 8 Periodical buffer billing data Upon each reset the DLX unit stores the maximum demand values the energy increment since the last reset from the current energy registers and the value of the cumulative energy registers at the time of the last completed registration period MP1 These values are available on the display of the unit The DLX will store at least the values of the last 20 resets Using remote data retrieval currently only available for SCTM proto col maximum demand values and register readings for the last 9 reset actions can be retrieved DLX Page 19 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 6 Time basis The registration and calculation of demand values has to happen in a defined time frame In order to calculate the correct tariff related values the internal real time clock must be programmed to the valid official time e g CET Central European Time or CEST Central European Summer Time 3 6 1 Setting the real time clock The integrated real time clock is buffered by a GoldCap capacitor which provides power for a minimum of 7 days in the event of a power failure Should the power failure last longer than the capac
113. hierarchically higher processing devices via a number of interfaces e The direct serial service interface RS232 can be used to read and program the DLX via the program ming software DLXPARA Compatible data retrieval software e g SIGLON can be used to read data on site e The data interface RS232 M Bus or RS485 can be used to retrieve data on site via data retrieval soft ware Alternatively an external modem can be connected via RS232 e The modem interface can be used to connect via the internal modem optional to the public switched telephone network PSTN and data can be uploaded to aPC An optional PC Card backup memory can be used to store the content of the periodical buffers and the spontaneous event buffer as well as part of the device parameters This PC Card can be read by compatible data retrieval software via standard card readers and a PC Load management switching off and on of loads can be realized on site via external load management soft ware using the control outputs of the DLX DLX Page 7 of 76 User Manual Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 2 Device description 2 1 Features Display Light emitting diodes Number Usage Keypad Interfaces Data memory Clock Synchronization Pulse inputs Input types Control inputs Control input types Outputs Digits of energy registers Digits of demand registers Regist
114. hting for energy divisor xx 00 for pulse input 1 xx 01 for pulse input 2 xx 15 for pulse input 16 Table value NINI NININ N Example 3 606 xx Pulse weighting for totaling units common divisor of the positive register xx 00 for totaling unit 1 xx 01 for totaling unit 2 SE 03 for totaling unit 4 Table value ziziziziziziziziz Example SS cy ee go rp 607 xx Pulse weighting for totaling units common divisor of the negative register xx 00 for totaling unit 1 xx 01 for totaling unit 2 nc 03 for totaling unit 4 Table value ziziziziziziziziz Example L IL LI LI T Ta 608 xx Pulse weighting for totaling units common divisor of the positive pulse output xx 00 for totaling unit 1 xx 01 for totaling unit 2 xx 03 for totaling unit 4 Table value NIN NININININININI NININ Example LI I I 7 71 7 I 11 Is Note value 0 the pulse output is disabled 609 650 660 baer nn B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 XX XX nn Pulse weighting for totaling units common divisor of the negative pulse output Pulse weighting for totaling units numerator for inputs Terminal assignment this table address exists only from Version 1 03 08 and up xx 00 for totaling unit 1 xx 01 for totaling unit 2 uc 03 for totaling unit 4 Table value N N Example L I II 11 1 Ts No
115. ime 02 30 0 Summertime e Switching from summertime to wintertime Example Data registered on 31 10 99 is being retrieved registration period length is 15 minutes CET CEST Central European Central European i T Bit Explanation Time Summertime 00 30 0 Summertime 00 45 0 Summertime 01 00 0 Summertime 01 15 0 Summertime 01 30 0 Summertime 01 45 0 Summertime 02 00 1 Wintertime gt S Bit is 0 the change from summertime to winter time has taken place gt T Bit is 1 02 15 0 Wintertime 02 30 0 Wintertime The T Bit will be set in each registration period where the time was modified baer EE B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 IEC 60870 protocol Apart from the SCTM protocol the protocol according to IEC 60870 5 102 can also be used for data re trieval Telegram processing e Transmission settings 8 E 1 1 start bit 8 data bits even parity 1 stop bit e Only telegrams according to IEC 60870 5 1 format FT 1 2 are supported e Only asymmetrical transmission procedures according to section 5 of IEC 60870 5 2 are applied The basic polling procedure uses the request respond service with function code 11 for data retrieval of class 2 Data of class 1 is indicated by the ACD bit Values of the most recent registration period are assigned to class 2 whereas values from previous registration periods and all information re ques
116. itch is located on the underside of the display board of the DLX Disconnect the supply voltage to the DLX before opening the enclosure Otherwise an accidental pull on the flat band cable can destroy the memory content of the unit Always touch first the grounded earthed metal frame of the unit with one hand to force equalization of voltage potentials Avoid any contact with other possibly charged parts of the data logger unit when changing the setting of the program protection switch Housing for panel mounting to achieve access to this switch the front panel of the unit must be unscrewed and flipped upwards Please note that the front panel is connected to the CPU board with a flat band cable The program protection switch is located in the lower right hand corner of the DLX and can be operated by hand 19 rack see Figure 4 The meaning of the inscriptions are Set Enable Setting of parameters is permitted the symbol a blinks in the display non Set Disable Setting of parameters is disabled the symbol g is shown in the display To refuse access to parameter settings to unauthorized persons the front panel should be sealed Page 14 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 5 Pulse processing The following registers REG are used for results see Appendix B Pulse inputs Energy For register addresses the foll
117. ity of the GoldCap then the clock the system time will be set 59 minutes and 10 seconds after the date and time of the last stored value of the main registration period MP1 once the power supply returns The time can be set via the keypad via the service interface or by means of the SCTM message in the case of remote data retrieval if this feature was enabled during the setting of parameters Please note that if sum mertime switching is activated the clock cannot be set or synchronized during the time period of the dou ble hour due to the ambiguity of that period During this period the unit will ignore the command In order to not affect time management the clock should not be set via more than one interface at the same time 3 6 2 Automatic summertime switching The DLX unit can perform automatic summertime switching if so desired The switching times month weekday hour can be programmed set in advance into a table Example Start of summertime last Sunday in March switch from 2 00 to 3 00 Start of wintertime last Sunday in October switch from 3 00 to 2 00 Please note that when using the table both times must be programmed as standard time CET wintertime i e if the reverse switching from summer to winter shall take place at 03 00 summertime the value must be set as 02 00 in DLXPARA After a unit reset summertime switching is activated factory setting 3 6 3 Synchronization The internal real time clock can be s
118. le memory The modem will respond after the first detected ring SO 1 The transmission speed between the modems will be adjusted automatically N3 or NO These settings are stipulated in DLXPARA as the modem ini tialization string and can be adjusted at any time For more detailed information please consult the manual shipped with the modem 9 2 Modem interface X5 9 2 1 Pin allocation of the modem interface The connection between the modem interface and a telephone line uses a telephone cable of type RJ12 with a connector of type TAEON Coding N 4 3 RJ11 12 RJ11 12 NU d 5 Dan Housing for panel 19 rack 6 T 1 mounting Angled socket Connector TAE 6N 2 Telephone jack RJ12 Shield 1 6 2 5 3 4 Figure 40 Pin allocation of the telephone cable In areas with high probability of lightning additional protection needs to be installed For more information please consult the manual shipped with the modem User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 10 DCF77 receiver Option The DLX can be optionally equipped with a receiver for the signals transmitted by the long wave transmitter DCF77 time codes The type used must the DCF77 aerial receiver unit AWSO from the company Meinberg Funkuhren Germany The receiver module requires a 12VDC auxiliary voltage and it can be connected to a SO control i
119. m ren rennen eren rennen from C2 DLX Page 5 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Table of figures Figure 1 Application envtronment nennen een rennen nne rennen nenne enre treni teeenn enne 6 Figure 2 Block circuit diagram of modules 9 Figure 3 Functional circuit diagram esee ertet tetti ettet entere ia Inti iiias 11 Figure d Program protection switch eI tete HERI EET eo E RE S 13 Figure 5 Block circuit diagram of impulse processing esesesseeeseeeeeeeeennen eene e eee 14 Figure 6 Block diagram of internal memory sees nennen nne ren rem rennen trenes 24 Figure 7 Dimensions and sealing arrangements for Coverg nennen nnne nennen en 27 Figure 8 Sealing arrangements for 19 rack oo eile eee eesecesececececeeseceseceaecaecsaecaeceeeseseseseaeseaeeeesaeeeseeegs 27 Figure 9 Dimensions of 19 fack arenesime annene oe aa EE AEE RNE irae ia 28 Figure 10 Dimensions of mounting pDointg ee eee eee e eee rennen een een rennen nennen eren nennen nre 28 Figure 11 Location of the switch au nee ee en Besen sahne an 29 Figure 12 Voltage selection SWItch reete titer erre pe RC Pet en ee 20 Figure 13 Location of the terminals Housing for panel mounting esee 30 Figure 14 Location of the terminals 19 ockt nennen nennen entrent nente eennne en 30 Figure 15 Connector X1
120. mand to an injected current selectable ranges 0 to 20mA or 4 to 20mA Note The signal condition must be deactivated in DLXPARA minimal high phase 0 10msec DLX Page 35 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 The following types are used as output modules IAW el Pulse output type wipe solid state Out1 to Out4 Electronic outputs of type wipe behave the same as relay contacts i e they can carry a burden of up to 265V and 100mA for AC or DC They combine wear free switching with high switching fre quency and are therefore ideal for high pulse frequencies They can drive SO inputs directly IAW me Pulse output type wipe relay contacts Rell and Rel2 Mechanical relays are currently the only practical solution for the implementation of transmission lines without auxiliary voltage Similarly only mechanical components are available for outputs with change over contacts idle contact and active contact Due to a life span of approx 5 x 10 they are not suitable for the transmission of pulses Electronic outputs IAW el are generally less problematic Page 36 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 6 Operation 6 1 Display LC Display I Key Cursor up LED Alarm 1 Key ENTER mm vU O E 9 3 Qa m dl p N
121. menu item Info current values How to get there Press the ENTER each side Changing the parameters The or v rate the counter or to select a total value What will be shown key while in menu Info The DLX enters the menu item selected displays and arrow on keys can be used to select energy demand or pulse values to select the registration period the The display will show the cumulative settable and the current not settable energy values as well as the demand values of the DLX for the current and the previous last registration period MP1 or MP2 if present for all counters Z and totals S stored in that registration period For the pulse values all pulses recorded since the start of measurement unweighted will be shown for all counters Z01 to Z16 as well as all pulses forwarded to outputs from totals S01 to S04 Page 46 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 7 2 Energy values Standard display A EXIT Y 3 Main mem ENTER 1NFo Display alarms Current values a Info 4 Energy values EXIT Set Parameters Load profile ENERGY VALUES EXIT No parameters are set for registration i V EXIT period M
122. n the jumper must be placed on pins 2 3 The upper row of pins determines the condition of the receiver the lower row of pins sets the condition for the transmitter Jumpers must be placed in both rows DLX Page 61 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 9 Modem Optional The DLX can be optionally equipped with an internal modem e Type L834 PSTN modem LGO 834 at housing for panel mounting MOD PSTN modem UniMod at 19 rack The modem works according to CCITT recommendations and supports the following modes e V2 Full duplex 300 Baud V 22 Full duplex 1200 Baud V 22bis Full duplex 1200 and 2400 Baud V32 Full duplex 4800 7200 and 9600 Baud V32bis Full duplex 4800 7200 9600 and 14400 Baud 9 1 Default settings for the integrated modem On delivery of the DLX the following settings are active for the modem LGM832 e amp F0 Load factory setting 0 e S0 1 Respond after one ring e amp DO Ignore DTR e N3 Auto Reliable Mode with error correction according to V 42 MNP4 and data compression according to V 42bis MNP5S Note If you use an older modem without error correction at your PC then it is recom mended to use the setting NO normal mode no error correction as this will shorten the time required to establish a connection e QI No feedback messages amp WO amp WI Save user settings in non volati
123. n The DLX must be sent to the manufacturer for service Data error on PC Card Action exchange PC Card only use authorized PC Card s Power supply had no voltage for at least 200ms Power supply had no voltage for max 200ms Battery of the PC Card is almost flat Action Insert a new battery into the PC Card During restart after changes in memory allocation or after activation of menu item Parameters Erase memory The relevant memory areas are being erased Attempt to synchronize the unit outside of the programmed window Action Synchronize inside of the programmed window The internal clock is switching from wintertime to summertime The internal clock is switching from summertime to wintertime The device time was modified The radio clock is not synchronizing the internal clock for at least 24 hours Action check the radio module and the internal time PC Card registered but not inserted Action Insert PC Card Page 68 of 76 DLX User Manual Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Alarm number Hex 08 13 08 14 08 15 09 xx xx 01 to 10hex 16 0C xx xx 41 44 for pos totals Xx 51 54 for neg totals OE xx Xx 01 to 10hex 16 Xx 41 44 for pos totals Xx 51 54 for neg totals 0F 00 0F 01 11 00 11 xx xx 01 04 for Log1 Log4 82 02 82 03 82 04 82 05 88 01 88 02 88 12 8C xx xx 01
124. nance and then press the ENTER key The function De activate PC Card is password protected Password protection The function Deactivate PC Card can be activated with either the password for PARAMETERS or the password for PC CARD After entering the correct password see Password input on page 39 the function will be executed DLX Page 55 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 Why do you have to deactivate a PC Card When deactivating a PC Card the recording of information on the card will be terminated the administration information will be updated and the virtual interface between the DLX unit and the PC Card will be deacti vated If the PC Card is removed from the DLX unit without deactivating it then the administration informa tion is incomplete and the PC Card cannot be read by other software During the deactivation of a PC Card The LED labeled M will be lit and the display will show the message Updating admin Information DO NOT REMOVEI Once this action is complete the LED labeled M will go out and the display will show the message Card has been deactivated Please remove NOW 7 9 4 Enter counter values How to get there Press the W key three times when in menu item Maintenance and then press the ENTER key The function Enter counter values is pas
125. nology used this affects at least one sector 64kByte in the buffer Power failures Should a power failure include the end of a registration period then all registered measurements up that point in time will be stored at the end of the first incomplete registration period This period will then be marked as incomplete Registration periods without power Should the device not have been supplied with power for one or more complete registration periods then these are called power down These registration periods do not use memory If values are requested from ce these periods for display purposes they are shown as Storage during programming The device continues to register measurements during the period of programming without interruption Once programming is terminated it checks which parameters have been modified If the storage allocation or the registration period length was altered all of the registration period storage area will be cleared Page 66 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 12 1 Factory settings List of the most important factory settings basic settings and software settings on delivery or after a unit restart Date Time Device identifier Number of input channels Number of totaling units Differential totals Apparent demand reg cos Operation mode Pulse ratios
126. nput of the DLX Figure 41 DCF77 receiver module AWSO 10 1 Function Synchronization of the time to full minutes seconds 0 no setting of the time Prior to using the unit the time must have been set to within 30 seconds via the main menu item Maintenance Set time or by means of the programming software DLXPARA 10 2 Setting the parameters for the receiver module Activate the item Synchronization via external radio clock in the menu item Parameters Time in DLXPARA and allocate the used control input in the menu item Control Inputs to the SYN function You must not allocate more than one control input to the SYN function e The display of the data logger will show the corresponding symbol when the receiver module is active F 10 3 Commissioning 10 3 1 Connection Co ax cable Shield to SYN Ctl terminal Wire to SYN Ctl terminal 10 3 2 Alignment of the receiver module The receiver module must be aligned to show its long side to the transmitter which is located in Frank furt Main in central Germany Minimum distances min 1m to computers and monitors min 30cm to steel girders metal plates and other metallic devices Checking the alignment The modulation LED in the aerial enclosure of the AWSO needs to blink once per second The corresponding LED on the DLX for the control input SYN needs to blink in the same rhythm Rotate the receiver module slowly and select
127. nu item Parameters memory Data for registration period 2 Figure 6 Block diagram of internal memory The internal registration period memory can be divided into two areas for registration periods MP1 and MP2 if active using DLXPARA Each area can contain counter readings energy increments or demand values with 4 6 or 8 digits Data stored in internal memory can additionally be stored on a PC Card backup memory see page 63 3 8 4 Capacity of internal memory Depending on parameter settings DLXPARA the individual areas of internal memory have the following capacity 1 set of parameters Min 780 Resets billing data Min 20 depends on the number of defined input channels and totals Registration period MP1 No of sectors in MP1x 65522 12 No of bytes in MP1x No of entries in MP1 Device parameters Spontaneous events Registration period MP2 No of sectors in MP2 x 65522 Bn No of bytes in MP2x No of entries in MP2 where No of bytesin MPx 4 for values with 4 stored digits 6 for values with 6 or 8 stored digits No of sectors in Round memory share for MPx x 9 MPx depends on the parameters for internal memory shares in DLXPARA e g memory share for MP1 56 No of sectors in MP1 5 No of entries in MPx 1 32 depends on the parameters for storage allocation number of inputs totals apparent demand and cos in registration period MP1 or MP2 Note Du
128. number of pulse inputs defined in the DLX Table value I T En BE BEE EEE nn Number of counters Example Ta E ee eS Expl The DLX is currently programmed to use 16 pulse inputs 600 01 Number of totals number of totaling units defined in the DLX Table value G age s Number of totals Example 1a Expl The DLX is currently programmed to use 4 totaling units i 600 02 Number of rates energy and demand Table value a Number of energy rates 1 Number of demand rates Example Expl The DLX is currently programmed to use 2 energy rates and 2 demand rates I i ill in i 600 03 Number of apparent demand calculations Table value s Number of apparent demand calculations Example Expl The DLX is currently programmed to calculate 2 apparent demand values I I I DLX Appendix A page 18 of 34 BP du User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 600 04 Balance calculation yes no Table value DEN EN DEE a a ER E a a S 0 without balance calculation 1 with balance calculation Example LI ILI II Il lr Expl with balance calculation 602 xx Pulse weighting for energy numerator xx 00 for pulse input 1 xx 01 for pulse input 2 xs 15 for pulse input 16 Table value z ziziziziziziziziz Example Ep uuu 603 xx Pulse weig
129. ol combinations for demand Display rate 1 to 4 kk from 01 to 16 kk 01 TR1 4 no rate active kk 02 TRI rate 1 active kk 03 TR2 rate 2 active kk 04 TR1 TR2 rate 1 amp 2 active kk 16 TR1 4 all rates active 64311 Rate control combinations for energy see 64310 64400 Rate control via 0 external rate control inputs 1 internal rate calendar 64401 tt Text for demand rate tt from 01 to 04 64402 tt Text for energy rate see 64310 70100 Registration period length Display 0 Off 1 1min 2 2min 3 3min 4 4min 5 5min 6 6min 7 10min 8 12min 9 15min 10 20min 11 30min 12 60min 13 2hrs 14 3 hrs 15 6 hrs 16 12 hrs 17 24 hrs mm 01 for MP1 mm 02 for MP2 70101 01 Starting hour for MP2 if MP2 24 hrs Display hour 0 to 23 71000 XX Rate calendar start of season Display DD MON Day Month xx 01 for season 1 to xx 06 Appendix B page 6 of 6 Bar Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 DLX User Manual S 71001 xx Rate calendar Assignment of weekdays Display aabbccddeeffgghh to daily rate tables for all seasons 8 values of two digits for the rate Description of rate tables see 71002 to table used 71016 aa rate t
130. om the DLX to the central unit lt l gt Single event with timestamp L1 2 Billing data 4 octets each default L1 3 Billing data 3 octets each L1 4 Billing data 2 octets each m 5 Periodically reset billing data 4 octets each L1 6 Periodically reset billing data 3 octets each L1 lt 7 gt Periodically reset billing data 2 octets each m lt 8 gt Operational data 4 octets each m lt 9 gt Operational data 3 octets each L1 10 Operational data 2 octets each L1 l Periodically reset operational data 4 octets each L1 12 Periodically reset operational data 3 octets each LI 13 Periodically reset operational data 2 octets each System information in monitoring direction reply from the DLX to the central unit 70 End of initialization lt 71 gt Manufacturer and product codes 41 yex 42Hex 1 Lex OOHex OOHex OO Hex System information in control direction Request from the central unit to the DLX lt 100 gt Request of manufacturer and product codes E lt 104 gt Request for billing data of the oldest registration period default L1 lt 106 gt Request for billing data of a particular registration period in the past default E lt 108 gt Request for periodically reset billing data of the oldest registration period L1 lt 110 gt Request for periodically reset billing data of a particular registration period in the past L1 lt 1
131. omatically What will be shown The display will show the cumulative energy values also called meter readings for all counters and totals as of the date and time of the maximum demand reset You can use the or the V key to select the desired reset index 7 7 4 5 Maximum demand How to get there Press the key twice when in menu item Info Billing data and then the ENTER key The submenu item will be activated Changing the parameters The or keys can be used to select values for the internal reset counter the energy rate the counter or the total register The date shown the date and time of the maximum will be adjusted automatically What will be shown The display will show the maximum demand values for all counters and totals as of the date and time of the maximum demand reset You can use the t or the V key to select the desired reset index Page 50 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 7 5 Spontaneous events Standard display A y Press twice EXIT Y Main menu ENTER gt 7 INFO Display alarms gt Current
132. ote The state of deactivated control inputs in our example TR2 TR3 and TR4 has no influence on the rate control no matter whether the state is 0 open or 1 closed If other combinations are desired they can be programmed see user manual of DLXPARA Example rate control for 4 energy rates and 2 demand rates controlled by TR1 TR2 and TR3 TR3 m io joioio DLX Page 23 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 8 Storage of measurements 3 8 1 Internal memory All data that needs to be retained during a power failure is stored in internal memory Flash technology non volatile without backup battery size of internal memory 1MByte These are all device parameters regis tration period data load profile data spontaneous events and resets billing data Each type of data uses a separate area of memory which is administered separately Memory is organized as a circular buffer i e once a particular storage area is full the oldest information will be overwritten The registration period memory area can alternatively contain demand values energy increments or cumula tive counter values positive and negative totals apparent energy and cos Q 3 8 1 1 Unit restart loading of factory default settings After a unit restart message in the display Parameter Reset the complete intern
133. oto n n m m MM Month unused for daily weekly and monthly resets DD Day unused for daily resets for weekly resets weekday for monthly resets day of the month hh mm hour minute Example A E BES Expl The reset will take place on the first day of each month at 00 00 901 08 Use device status of a registration period to mark status changes of logic inputs Table value 3p qs Ep az Z Flag 0 BitO in the device status of a registration period is always 0 1 BitO in the device status of a registration period is set to 1 if the state of a logic input has changed during that registration period Example 0 Expl BitO in the device status of a registration period is always 0 901 09 Device identifier Table value G G G G G c c o c c o co o c G G Device identifier Example 1 l213 4 15 617 s s Jo I2 D314 5 T6 Expl The device identifier is 1234567890123456 902 902 902 902 910 DLX Appendix A page 27 of 34 EDE User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 XX Currently active rate demand energy Expl Energy rate 1 demand rate 3 Position of the program protection switch Expl Programming is enabled Expl Synchronization is active Expl The register has 3 decimal places Table value er lI LJ dr er energy rate dr demand rate Example l ERES
134. ove picture The PC Card is guided in the slot by two guide rails that prevent the card from twisting Slide the card into the slot and press carefully until the PC Card reaches the final position PC Card and ejection button are aligned see arrow Q After inserting the PC Card it needs to be activated by the DLX in order to use it for storage purposes e wow The display will show the symbol z in position 18 of line 1 after the card has been inserted and successfully activated by the DLX unit If the card is not activated by the unit the symbol will blink and the display will show the message PC Card is not activated User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 11 4 Activating a PC Card Use the menu item Activate PC Card see page 54 to activate a PC Card After activation the symbol ei will appear in the first line of the LC display Activation includes the following actions 1 The DLX determines type and capacity of the PC Card 2 The DLX checks whether the capacity of the card is sufficient for the programmed number of counters and days for the registration period buffer 3 Once the PC Card has been found to be suitable it will be formatted to ensure that recording always takes place on an empty PC Card 4 Afterwards the administration information will be stored on the PC Card 11 5 Deactivating a PC Card
135. owing sub addresses are possible Inl to In16 Input 1 16 Energy registers cumulative ee 01 16 Inputs 1 16 L total pp 01 04 Total forwards 1 4 positive Oy Palses_ rate 1 nn 01 04 Total backwards 1 4 negative rate 2 Momentary rate3 REG 100 ee IE x REG 30000 ee REG 30100 ee value rate 4 current last MP1 Energy registers for current total Gem REG 250 ee IE x REG 30000 ee REG 30100 ee 253 ee rate 3 254 ee 224 ee rate 4 current last MP1 REG 110 pp LEREG 100 ee cumulative REG 260 pp ZXREG 100 ee current current last MP1 AT TAp rate 1 Momentary Energy total rate2 value 1 4 rate 3 8 rate 4 B current bet MP1 Forward 3 261 pp 1231 pp rate 1 2 232 pp rate 2 E 233 pp rate 3 AT 234 pp rate 4 current last MP1 lAn 211 nn rate 1 212 nn rate 2 CN 213 nn rate 3 Parent last MPI AT 124 nn 214 nn rate 4 jure Backward rate 1 te 2 x current last MP1 AT ated Demands REG 120 nn Z REG 100 ee cum een last MPI Increment REG 270 nn ZEREG 100 ee curr Input 1 16 gt Maximum demand Registration period MP1 Total 60 rate 1 MPI rate 2 REG 131 ee DIFF pi REG 100 ee x 60 MP1 for demand current last MP1 rate 3 REG 131 ee DIFF p REG 100 ee for increment D MT rate 4
136. parent demand cos p 00 Apparent demand 1 01 Apparent demand 2 08 cos 1 Forward 09 cos 2 Forward 16 cos 1 Backward 17 cos 2 Backward d d dl Tool n h m m Example dddddddd cumulated maximum value DD Day hhmm hour minute 0 0 0 9 0 EES iloi Expl A cumulated maximum of 12 was recorded for apparent demand on the 25 day of the month at 10 15 Appendix A page 14 of 34 B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 DLX User Manual Reset Maximum and timestamp for t 0 to t 4 modified from Version 1 04 00 up r desired reset index r 0 or r 1 to 9 0 current maximum lastreset 2 second last reset etc t demand rate t 0 to 3 for rate 1 to 4 up to version 1 03 08 0 demand rate MP1 1 demand rate MP2 i ete t demand rate t 1 to 4 for rate 1 to 4 from version 1 04 00 up O total maximum without rate 1 demand rate MP1 2 demand rate MP2 etc xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value alalalaJalaJala p p n h m m dddddddd maximum demand value DD Day hhmm hour minute Example ololoJoJoJ 2 3 T
137. pl The cumulated cos Forward is 1 24m xx Cumulated cos q Backward m 6 m Registration period m 6 7 to 6 Registration period MP1 m 7 7 Registration period MP2 xx cos Q xx 0 1 00 cos 1 01 cos 2 Table value Er E ra ape aja al ara dddddddd Cumulated cos Backward Example I 1 Iolololol lololo Expl The cumulated cos Backward is 1 Table value T XX Reset Maximum of apparent demand Minimum of cos p Reset index r 0 to r 9 0 current maximum current minimum 1 last reset 2 second last reset etc Demand rate t 21 to t 4 1 Demand rate MP1 2 Demand rate MP 2 etc desired value apparent demand cos q 00 Apparent demand 1 01 Apparent demand 2 08 cos 1 Forward 09 cos 2 Forward 16 cos 1 Backward 17 cos 2 Backward Table value mo T XX eja a ajaj a p a p p n n m m dddddddd value of the maximum minimum DD Day hh mm hour minute Example olololololoeJ l2 2 s Jifofits Expl A maximum value of 12 was recorded for apparent demand on the 25 of the nth at 10 15 Reset cumulated maximum for apparent demand cumulated minimum for cos Reset index r 0 to r 9 0 current maximum current minimum 1 last reset 2 second last reset etc Demand rate t 26 to t 9 6 Demand rate MP1 7 Demand rate MP 2 etc desired value ap
138. r 16 yy 05 1 64 positive total 1 yyz21 2 65 positive total 2 yy 21 3 66 positive total3 yyz22 1 67 positive total4 yy 22 2 80 negative total 1 yy 26 3 81 negative total2 yy 27 1 82 negative total3 yy 27 2 83 negative total4 yy 27 3 96 apparent demand 1 yy 32 1 97 apparent demand 2 yy232 2 104 Cos 1l yy 34 3 105 Cos 2 yy 35 1 112 CosQl yy 37 2 113 Cos 9 2 yy 37_ 3 TTT CTT TT 00 if no value is stored 10 for storage of the demand value 20 for storage of the total energy value 21 for storage of the energy value for rate 1 22 for storage of the energy value for rate 2 23 for storage of the energy value for rate 3 24 for storage of the energy value for rate 4 number of digits for storage and transmission for this value If tt 00 this position contains a blank Eo wi Talea T3 9 4 The value of code 0 will not be stored in load profile MP1 The value of code 1 will be stored as a total energy value with 8 digits in load profile MP1 The value of code 2 will be stored as a demand value with 4 digits in load profile MP1 baer EE B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 82x yy Assignment of load profile storage fast access x 4 for load profile MP1 5 for load profile MP2 6 for load profile MP3 Table value for yy 00 Counter Zl z2 z3 Z4 Z5 Z6 Z7 Z8 Z9 Z10 Z
139. ration periods Period lengths MPI MP2 Load profile types Totals Cos registers alternatively apparent energy Internal tariff calendar Max number of energy and demand rates Demand registration Number of stored previous de mand values Switching between summer and winter time Radio clock Event buffer LCD illuminated supertwist 4 lines of 20 characters controlled by keypad or control input ANZ 16 pulse inputs 7 control inputs 6 outputs 2 alarms PC Card memory card 3 interfaces 4 keys Enter Exit Cursor Up Cursor Down Service interface programming data retrieval RS232 Data interface optional RS232 Fiber optic RS485 or M Bus Internal modem optional Internal memory 1MByte Flash Memory Backup memory PC Card memory card acc to JEIDA Standard max 4MByte SRAM or Flash Real time clock buffered by GoldCap max deviation 30 sec month at 25 C 10ppm reserve min 7 days without auxiliary voltage Via SYN input or external DCF77 receiver optional 6 standard optional up to16 S0 IES wipe IEW bi current bi polar IED analogue signal current 0 20mA or 4 20mA 1 standard SYN optional up to 7 SYN TR1 4 RSTX ANZ LOG1 4 SO standard wipe 2 mech relays change over for Alarm1 2 MPA1 2 RSTA tariff rates1 4 LOG1 4 max 250V 2A 4 wipe IAW pulse max 250V 100mA optional 4 6 8 programmable 4 6 8 programma
140. rational data values Data addresses in ascending order starting from input 1 Registration period MP1 Registration period MP2 m 1 Olne Input 1 m 1 Olpex Input 1 m 2 024ex Input 2 O 2 025ex Input 2 m 3 O3xHex Input 3 O 3 03g Input 3 m 4 04g4 Input 4 O 4 04g Input 4 m 5 O5pex Input 5 O 5 O5pex Input5 m 6 064 Input 6 O 6 D n Input 6 m 7 07g Input 7 m 7 One Input 7 m 8 D n Input 8 O 8 D n Input 8 m 9 Ou Input 9 m 9 09x Input 9 O 10 OAyrex Input 10 O 10 OAyex Input 10 m 11 OByex Input 11 m 11 OBiex Input 11 m 12 OCyex Input 12 O 12 Done Input 12 m 13 ODyex Input 13 O 13 ODyex Input 13 m 14 Dn Input 14 O 14 OEpex Input 14 m 15 OFyex Input 15 m 15 OF Hex Input 15 m 16 10g Input 16 O 16 1Opex Input 16 O 65 41pex Totaling unit 1 L1 65 Alyiex Totaling unit 1 O 66 4244 Totaling unit 2 O 66 Aus Totaling unit 2 O 67 4344 Totaling unit 3 O 67 43xex Totaling unit 3 O68 Anen Totaling unit 4 m 68 44g Totaling unit 4 m 81 51pex Totaling unit 1 O 81 51pex Totaling unit 1 m 82 Sins Totaling unit 2 m 82 52uex Totaling unit 2 m 83 53 ex Totaling unit 3 O 83 53xex
141. res The displays and the keypad are also connected to the processor module Display module Stored data can be displayed via the LC Display The LED display shows the status of individual process signals Commands to the micro controller are entered via the keypad The program protection switch which is used to protect the parameters of the DLX from alterations is located on the inside of the display module 3 Functional description 3 1 Functional circuit diagram The functional circuit diagram below shows and overview of the individual functions of a DLX device DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Page 11 of 76 Input pulse Keypad M Input conditioning In7 to In16 Totalling Cos 9 Registers Input modules Apparent Alarms Inputs demand LCD JL In1 to In6 Parameters Scroll List Firmware Output modules Outputs Out to Out4 H Program memory alie E Process memory Parameter Data 8 retrieval Registration period Load profile lr ae registers MP1 MP2 5 870 MP1 MP2 CPU E Data Max demand 5 8 gt retrieval for
142. ronization via radio clock receiver Example 1 Expl Synchronization is done via SYNC input 000 08 Synchronization window surrounding the end of a registration period Table value F F FF Length of the synchronization window in seconds Exception if the value is 0 synchronization can happen at any time Example ERE 0 5 Expl Synchronization is possible in a window of 5 seconds at the end of the regis tration period 000 09 Synchronization tolerance if the synchronization changes the system time by more than this number of seconds it will be marked in the device status Table value E TT Synchronization tolerance Note If the value is 0 synchronization is never marked in the device status Example ILI Toi Expl If synchronization changes the system more than 2 seconds the event will be marked in the device status 000 10 Rate control mode Table value bx psp en T 0 Rates are controlled by control inputs 1 Rates are controlled by the tariff calendar Example L ILI LI llle Expl Rates are controlled by control inputs 109 rr Reset index and corresponding timestamp rr requested reset rr 00 to 99 00 last reset 01 second last reset and so on E value TIS EET M M DI h n m m internal reset index nn 01 to 12 MM DD Month Day hh mm hour minute Example LI Tol l Tols J ls Cla Expl The reset with inde
143. s e Inl to In16 represent the state of the corresponding pulse input e Ali blinks when an alarm of class warning has occurred see Fault displays page 67 e AD blinks when an alarm of class 2 device fault has occurred see Fault displays page 67 e M is active during access to the PC Card memory card e Outl to Out4 are lit when the corresponding output is closed active e Rell and Rel2 show the current status of the corresponding relay e Ct to Ctl7 show the current status of the corresponding control input e Modem Data and Service are lit during communication on these interfaces DDMONYY Wt gt ATXx HIH MTX Figure 20 Standard display mode Interpretation of the standard display mode 1 8 Summertime Switching Format 01 to 31 JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC 00 to 99 no symbol 00 to 23 00 to 59 00 to 59 r blinking no symbol 12 to 14 f blinking no symbol F blinking a g blinking 1 to3 Weekday Mo to Su F1 to F3 ATI to AT4 MTI to MT4 MP1 or MP2 1 2 3 4 5 6 10 12 15 20 30 60 2 3 6 12 24 Registr Period length 18 Unit of registr period 19to20 Time remaining in registr period 4 1 to 20 lt Line 1 lt Line 2 lt Line 3 lt Line 4 Explanation Date display
144. s command only works if it was previously enabled by using DLXPARA Change the time in the DLX to the previously set time Year month day hour and minute will be changed to the values set with the SETTIME command seconds will be set to 0 This command only works if it was previously enabled using DLXPARA Synchronize The seconds will be set to O If the second value was between 30 and 59 the mi nute value will be increased This command only works if it was previously en abled using DLXPARA Remote program change set table addresses Currently only the logic outputs can be set address 661 nn DLX Appendix A page 30 of 34 er dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Changing between summertime and wintertime The following paragraphs illustrate the changes in system time and device status of a registration period when switching from wintertime to summertime and vice versa and subsequently retrieving data using the SCTM protocol e Switching from wintertime to summertime Example Data registered on 28 03 99 is being retrieved registration period length is 15 minutes CET CEST Central European Central European T Bit Explanation Time Summertime 01 30 0 Wintertime 01 45 0 Wintertime 02 00 1 Summertime gt S Bit is 1 the change from wintertime to summer time has taken place gt T Bit is 1 02 15 0 Summert
145. s going to happen The function Erase memory clears all of the internal memory e Registration period memory for MP1 and MP load profiles e Spontaneous event buffer e Resets and billing data If the values stored so far in memory need to be processed further elsewhere then they need to be retrieved by adequate means from the data logger Execution of the function Clear memory After entering the password the display will show the safety question Clear all data in internal memory Press the ENTER key to confirm The DLX unit will now check the state of the program protection switch see page 13 Only if the switch is in position Set Enable will the memory be erased If you press the EXIT key the memory will not be erased If the program protection switch is in position Set Disable programming blocked secured certification mode the message programming disabled will be displayed The DLX will exit the menu item without erasing the memory Once the function has been activated correctly the display will show the message All data in internal mem ory is being erased When all data has been erased the LCD will show the standard display U Once the function Clear memory has been activated it cannot be cancelled e 7 9 Main menu item Maintenance Standard display DLX User Manual
146. splay System cold start under the same conditions as above if the internal RAM memory could not be buffered by the GoldCap minimum of 7 days without power supply voltage In this case all device parameters and the device internal system time need to be re configured All data in the registration period buffer is retained and the system time is set to 59 minutes and 10 seconds after the timestamp of the last stored entry in the main registration period buffer An event will be stored in the spontaneous event buffer 3 8 1 4 Erase memory All internal memory spontaneous events resets and registration period data can be erased using the menu item SET PARAMETERS Erase memory The device parameters are retained An event is stored in the spontaneous event buffer 3 8 2 Security mechanisms for data storage All data is secured in a number of ways when data is stored each byte written is checked by an additional read cycle for each block of data a checksum is stored which is checked for correctness when the block is read Data is only used and forwarded when the checksums match Page 24 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 8 3 Block diagram of internal memory Device parameters Spontaneous events Resets billing data Data for registration period 1 Registration period storage gt memory allocation via DLXPARA me
147. ssfully activated the DLX will send 700 83 State of the PC Card in the DLX Table value LI LI IT I alha nn 70 No card activated 71 Card activated but not present 72 Card activated but write protected 73 Card activated unit busy determining type and capacity 74 Unit is busy calculating the number of sectors that need to be buffered during an update of the administration information 75 Unit is busy writing administration information to the card 76 Unit is busy determining the number of the last DEF file 77 Unit is busy formatting the card 78 Card is of the wrong type neither SRAM nor FLASH from AMD 79 Capacity of the card is not sufficient 7A The currently inserted card was activated successfully All is in order 7B Unit is busy updating the administration information 7C Unit is busy deactivating the card 7D The currently inserted card is not the one that was last activated 700 84 Date and time of PC Card activation from Version 1 03 08 up Table value Y v M M p p z w n n m m YYMMDD Year Month Day Z W for CET S for CEST summertime W Weekday 1 Monday 7 Sunday hhmm hour minute Example EREUEREREBEIEZERERERERE Expl The PC Card was activated on Wednesday 6 of December 2000 at 15 38 hours CET 701 00 Registration period length in minutes Table value n p gt gt D D Registration period MP1 D D2 D2 D Registration period MP2 D D D D3 Regis
148. st value You can use the programming software to activate storage of data for registration period MP2 In addition you can select which values shall be stored and what the storage depth in days will be For more information see page 25 The PC Card will only ever store values that have been registered or calculated after the time when the card was insert and activated DLX Page 65 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 12 Registration of measurements The device starts to register measurements immediately after the power supply is switched on This data will be stored together with timestamps and device status in the registration period buffer according to the se lected parameters the factory settings will be used when the unit starts for the first time Setting the time during measurement If the time is set backwards during measurement all registration period buffer entries with a timestamp after the newly set time are marked as invalid and they are then no longer accessible via data retrieval If the time is set forwards all registration periods in the skipped period are treated like entries during power down condition and are displayed as T Memory overflow Once the memory capacity of the registration period storage has been exhausted the oldest entries will be automatically overwritten due to the storage tech
149. sword protected Password protection The function Enter counter values can be activated with either the password for PARAMETERS or the password for SET After entering the correct password see Password input on page 39 the function will be executed What can be done You can modify the cumulative initial counter value for all counters Z and for all total registers S How to do it Use the and keys to select the counter Z01 to Z16 or the summation unit S01 to S04 Then press the ENTER key to move the cursor to the rate selection Use the and Y keys to select the desired rate rate 1 to 4 or the rateless register Now press the ENTER key to move the cursor to the register value Use the and Y keys to modify the individual digits 9 digits for version 1 04 00 and higher and the ENTER key to confirm your input and to move to the next digit Use the EXIT key to abort the function at any stage 7 9 5 Initiate maximum reset How to get there Press the key four times when in menu item Maintenance and then press the ENTER key The function Initiate maximum reset is password protected Password protection The function Initiate maximum reset can be activated with either the password for PARAMETERS or the password for RESET After entering the correct passwor
150. t 01 forthe 2 logic output 02 forthe 3 logic output 03 forthe 4 logic output Eee Z State of the logic output 0 off or 1 on RE E ee The state of the logic output is 0 the output is inactive or switched off Use the command TABSETI S1 to set the state of a logic output during remote data retrieval or remote programming 700 700 700 700 700 700 700 DLX Appendix A page 21 of 34 EDE User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 01 80 81 Protocol name of the DLX Table value sleitim Ipl lx I Expl The protocol name of the DLX is SCTM DLX Version of the DLX Table value GEHE PERLE UK z Example vlelr I lil Toi lolo Expl The version of the DLX is Ver 1 00 00 Version date Table value m m m bfo v Y MMM Month DD Day YYYY Year Example ila la oj ilhojo s Expl The version date of the DLX is the 9th of January 1998 Manufacturer name Table value IeJaJeir I G lm n Device status of the registration period from Version 1 03 08 and up y desired registration period 1 MPI 2 MP2 Table value sis sia sis si sii solo se s7 se ss s4 ss so si so S0 Restart S1 Parameter change S2 Manual change of register counter values S3 Power failure S4 Warning S5 Fault S6 Manual Change of time or corrected by radio clock by mor
151. t can buffer up to 255 pulses As soon as this value is exceeded the unit sets the correlated error bit in the unit status This error bit can only be reset manually by the user It is possible to link an output Out to Out 4 on a software level to a particular totaling unit When this link for a pulse output is modified the pulse buffer of that output is cleared Please note that when the function Differential Total calculation is activated Hysteresis gt 0 the relation between current demand and correlated pulses at the output can temporarily run out of synchronization be cause of buffered pulses 3 5 5 Apparent demand and cos The DLX can calculate the apparent demand and the demand factor cos of any input and total registers One register each can be defined to hold the active or reactive demand respectively Apparent demand y reactive demand active demand Active demand cos p Apparent demand Up to two calculations of apparent demand and cos are possible The results are available on the display and can be stored in the periodic buffer load profile memory For the cos the display and the stored value will always contain the first three decimals Example Active demand 900 kW Reactive demand 120 kvar Apparent demand 907 965 KVA Display of app demand 908 kVA cos Q 0 99123 Display of cos 991 3 5 6 Maximum demand calculation At the end of each registration p
152. te value 0 the pulse output is disabled y Index of the totaling unit y 00 for totaling unit 1 y 01 for totaling unit 2 y 03 for totaling unit 4 xx Index of the input xx 00 for input 1 xx 01 for input 2 xx 15 for input 16 Table value z z z z z z z z z Note The numerator can have a negative value xx 00 Outl xx 01 Out 2 xx 02 Out 3 xx 03 Out 4 xx 04 Rel 1 xx 05 Rel 2 Table value NIN NININININININI NININ Example R E UI2 I vllt Note The following values are possible S1 S24 S3 S4 positive pulse output for totaling unit 1 to 4 S1 S2 S3 S4 negative pulse output for totaling unit 1 to 4 MPAI MPA2 outputs for registration periods MP1 and MP2 RSTA reset output ALI AL2 alarm output 1 2 TRAI TRA2 TRA3 TRA4 rate control output 1 to 4 Logl Log2 Log3 Log4 logic outputs Inl In2 to In16 pulse input forwarded directly to output DO function State of logic inputs nn logic input 00 logic input 1 01 logic input 2 etc ee EE a b state of the logic input 0 or 1 Example LE qr y qq rog E Expl The state of the logic input is 0 Appendix A page 20 of 34 B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 DLX User Manual State of logic outputs Condition the logic output is assigned to a terminal Table value Example Expl Note nn 00 forthe 1 logic outpu
153. ted by the polling ASDU are assigned to class 1 e The link address address field of the link or connection layer must have 2 bytes fixed system pa rameter e The counter address the common ASDU address must have 2 bytes and can be identical to the link address e The maximum telegram length is 256 byte e Telegrams with wrong link address wrong checksum or wrong format are discarded Date retrieval Periodic buffers MP1 amp MP2 You can retrieve current data from the most recent registration period class 2 data from the oldest regis tration period and any complete registration period data from a selected time period as well as the manufac turer information The following selection was made from the user standard IEC 60870 5 3 4 e All values are transferred per buffer either as Billing data or as operational data You can pro gram this using DLXPARA e A maximum of two registration periods MP1 and MP2 are supported e The register addresses are entered in ascending numerical order the sequence is defined by the de vice parameters set using DLXPARA inputs are entered before totals e Under the heading periodically reset readings either energy increments e g kWh or demand val ues e g kW will be transferred depending on the parameters set with DLXPARA DLX Appendix A page 32 of 34 BP dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone
154. the sign the incoming pulses are totaled in a positive or a negative register In the case of a simple sum only positive inputs the positive register contains the sum and the negative register contains the value 0 In the case of frequent changes of the direction of energy flow e g between forward and backward the hysteresis slack can be used to activate the function Differential total calculation for energy registers only Here pulses will only be added to the positive or negative energy registers once they have exceeded a minimum amount of energy after a change of energy flow direction The function of the hysteresis is one of an intermediate storage register Each pulse in positive direction will increase the value of that register whereas each pulse in negative direction will decrease its value Pulses only appear at the output of the hys teresis register once its programmable maximum content is exceeded in either direction An integrated energy direction pointer ensures correct output to either positive or negative target registers The purpose of the hysteresis register is to prevent unnecessary totaling of pulses in the positive and negative registers when the flow of energy in both directions is almost in balance A meaningful guideline for the content of the hysteresis is double the sum of the absolute value of all weighted inputs of the related total register Example Total Energy Result with Hyst
155. their correct physical units depending on the parameters set with DLXPARA Starting from Version 1 04 00 one or two decimal places are possible Item selection Use the keys on the front panel to select the required value from the internal memory via its parameters ENTER key moves to the next parameter after the last parameter moves to the first parameters this corresponds to al key EXIT key returns to the original menu key increases the selected parameter to the next higher possible value Vi key decreases the selected parameter to the next lower possible value One digit of the selected parameter blinks in the display On each change of the parameters the measurement display will be updated If no value is available for the selected parameters then automatically the next valid entry from the registra tion period buffer will be displayed This is an easy method to request the oldest or newest load profile entry modify the input field for the year with the or the V key until there are no further changes of the display the display now shows the oldest load profile entry after using the key or the newest load profile entry after using the key Invalid values or values incompatible with memory entries cannot be requested When displaying energy or demand values from the load profile memory the unit always shows th
156. then press the Inclusive of all LEDs ENTER key Now you can choose one of Page 53 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 9 1 Set time How to get there Press the ENTER key when in menu item Maintenance The function Set time is password protected Password protection The function Set time can be activated with either the password for PARAMETERS or the password for SET After entering the correct password see Password input on page 39 the function will be executed What can be done You can set the date and time of the internal real time clock of the DLX unit Setting the time You can set the day DD the month MMM the year YYYY the hour hh and the minute mm one after the other Use the and keys to change the selected value increase or decrease Use the ENTER key to confirm your input and to move to the next value Press ENTER key after setting the minute value to set the time into the DLC unit The value for the seconds will be set to zero Press the EXIT key to exit the function and to return to the menu item Maintenance without altering the date and time of the unit 7 9 2 Register PC Card How to get there Press the 4 key once when in menu item Maintenance and then press the key The f
157. tration d EXIT period MP2 LOAD PROFILES No parameters are __ set for registration d period MP1 VW 1NFo S LOAD PROFILES 7 1 Current values DDMONYYYY hh mm EXIT Energy values ENTER TE Gsxx MTx 201 Load profile lt WWWWWWWW EEEEE EXIT S ENTER y N LOAD PROFILES 1 EXIT DDMONYYYY hh mm MP1 Gsxx MTx WWWWWWWH EESER v 1 EN Day Month Year Hour Minute ENTER LOAD PROFILES 1 wy EXIT BBMONYYYY hh mm MP1 Gsxx MTx Z01 D M WWWWWWWW EEEEE v 1 A ALOAD PROFILE rk 1 ENTER MP Gsxx Tx Zz K LOAD Or 1 DDYQNYYYY hh mm WWWWWW 333 E E ee WWWWWWWW EEEEE ENTER LOAD PROFILES 1 Registration period Value Unit Counter S EXIT DDMONMERi hh mm MP1 Gsxx MTx Z01 WWWWWWWW EEEEE v 1 ENTER Y K LOAD PROFILES 4 1 DDMONYYYY AJ mm EX MP1 Gsxx MTx Z01 WWWWWWWH EEEEE vj 1 ENTER Y X LOAD PROFILES 4 1 EXIT DDMONYY
158. tration period MP3 not implemented in DLX Example Lae oreo Tui Expl Registration period MP1 15 minutes Registration period MP2 30 minutes 804 804 805 805 805 baer EE B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Type of load profile values demand energy energy increment Example twoi T B cel o Expl Load profile MP1 stores demand values load profile MP2 stores energy values Load profile storage depth in internal memory Expl The load profile storage depth in internal memory is at least 89 days Number of stored and transmitted digits per value Table value s a d eere Te d d d for load profile buffer MP1 d d d for load profile buffer MP2 d d d for load profile buffer MP2 not implemented in DLX Example aee telele oe Expl The following number of digits were programmed for the load profiles For MP1 4 digits For MP2 8 digits For MP3 4 digits not supported by DLX Table value EE cp peque t t value type for load profile buffer MP1 Ct value type for load profile buffer MP2 CC value type for load profile buffer MP3 not supported by DLX The following types are possible 10 demand 20 energy 30 increments Load profile storage depth on the PC Card Table value w To i n n n Number of programmed days on PC Card for load profile MP1 2 2 2 nnn Number of programmed days on PC Card for loa
159. ulse inputs 1 6 outputs 1 4 Terminal type Combicon MSTB2 5 10 ST 5 08 Phoenix 2 per input output card Function Pulse inputs Inl to In6 terminal 1 to 12 Electronic outputs Out to Out4 terminal 13 to 20 Types of inputs outputs 6 Input modules IES IEW IED 4 Output modules solid state IAW el max 265V 100mA 1 10 20 LI LEE o TO O OY Or E QUO OD UO O0 O0 9 Q E o AAA AT S Tr Tr VEA uA a NINININ Terminal Description 1 Pulse input Inl IN1 2 Pulse input Inl 3 Pulse input In2 IN2 4 Pulse input In2 2 Pulse input In3 IN3 6 Pulse input In3 7 Pulse input In4 IN4 8 Pulse input In4 9 Pulse input In5 INS 10 Pulse input In5 11 Pulse input In6 IN6 12 Pulse input In6 Freely programmable outputs 13 Electronic output Outl OUTI 14 Electronic output Outl 15 Electronic output Out2 OUT2 16 Electronic output Out2 17 Electronic output Out3 OUT3 18 Electronic output Out3 19 Electronic output Out4 OUT4 20 Electronic output Out4 Electronics Out Out2 Out3 Out4 EI IE3 Es R R R R E IE4 IEG a x as TUTE EE E P ov M 5 i t t t t t t t xs 1 2 3 4 5 6 7 8 9 10 11 12 13 14 fei 17 18 19 al
160. umulative Energy Rate 2 ee 02 for input 2 10003 Cumulative Energy Rate 3 10004 Cumulative Energy Rate 4 S 10100 pp Cumulative Energy Total current pp from 01 to 04 10101 Cumulative Energy Rate 1 pp 01 for totaling unit 1 positive 10102 Cumulative Energy Rate 2 pp 02 for totaling unit 2 positive 10103 Cumulative Energy Rate 3 10104 Cumulative Energy Rate 4 S 10200 nn Cumulative Energy Total current nn from 01 to 04 10201 Cumulative Energy Rate 1 nn 01 for totaling unit 1 negative 10202 Cumulative Energy Rate 2 nn 02 for totaling unit 2 negative 10203 Cumulative Energy Rate 3 10204 Cumulative Energy Rate 4 baer pA B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 11000 Ee Current Energy Total current ee from 01 to 6 11001 Current Energy Rate 1 ee 01 for input 11002 Current Energy Rate 2 cee 02 for input 2 11003 Current Energy Rate 3 11004 Current Energy Rate 4 11100 Pp Current Energy Total current pp from 01 to 04 11101 Current Energy Rate 1 pp 01 for totaling unit 1 positive 11102 Current Energy Rate 2 pp 02 for totaling unit 2 positive 11103 Current Energy Rate 3 11104 Current Energy Rate 4 11200 nn Current Energy Total current nn from 01 to 04 11201 Current Energy Rate 1 nn 01 for totaling unit 1 negative 11202 Current Energy Rate 2 nn
161. unction Reg ister PC Card is password protected Password protection The function Register PC Card can be activated with either the password for PARAMETERS or the pass word for PC CARD After entering the correct password see Password input on page 39 the function will be executed Why do you have to activate a PC Card If you do not activate the PC Card the DLX unit cannot write to the PC Card By activating the PC Card the virtual interface between the DLX unit and the PC Card will be activated and the PC Card will be prepared for data storage During the activation of a PC Card The display will first show the message Card will be erased on first activation Continue ENTER Press the ENTER key to confirm the formatting of the PC Card The LED labeled M will be lit and the display will show the message PC Card is being activated DO NOT REMOVE Once the formatting is com plete the display will show the message Card is ready for recording DO NOT REMOVE and the LED labeled M will go out If the PC Card cannot be activated a corresponding message will be show such as e Card is not present Please insert again AT ONCE e Card is write protected Please UNLOCK e Wrong card type Try ANOTHER card In this state the LC display will blink with a one second frequency 7 9 3 Deactivate PC Card How to get there Press the 4 key twice when in menu item Mainte
162. urred The DLX uses line 3 and 4 to display relevant information DI S P L A Y AL ARMIS lt Line 1 lt Line 2 lt Line 3 lt Line 4 The unit recognizes and displays the following alarms and information events W warning AL1 F device faults AL2 I information Alarm number Hex 01 01 02 01 02 02 02 03 02 93 03 01 03 02 04 91 06 xx xx 7 01 02 Buffer MP1 2 xx 04 Billing data XX 9Anex Spontan events 07 02 07 03 07 04 07 05 07 08 08 12 Class Message on the displa System cold start CPU EPROM Checksum wrong Parameter memory Checksum error Data memory Checksum error PC Card Checksum error Power failure Voltage dip PC Card Battery low Data memory Data erased Sync attempt out side of prog window Switching from winter summer Switching from winter summer Setting the time Radio clock not synchronizing PC Card removed Description The capacitor used to buffer the contents of RAM memory was discharged due to a long power failure The device time will be set to the time of the last complete registration period plus 59 minutes and 10 seconds Parameters and measurement values are retained Program memory faulty Action The DLX must be sent to the manufacturer for service Data error in the parameter memory Action The DLX must be sent to the manufacturer for service Data error in the measurement memory data memory Actio
163. utput DTR receive data request to send clear to send protective earth data set ready data terminal ready Oupt 20 TS 20 8 3 3 Pin allocation of the data interface RS232 X6 at 19 rack For the connection between the DLX and a PC a special cable 5 wires is required Identification Phoenix 5 pins PSC 1 5 5 M DLX 5 pins male cable PC 25 pins male l Pin No Input Output Standard usage Input 4 Output RTS 2 Output TxD 3 Input RxD 5 Input CTS essi ell GND Baud rate 300 to 9600 Baud DLX Page 59 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 8 3 4 Pin allocation of the M Bus data interface With a passive M Bus interface module the unit can be used in aM Bus system as described in the standard TC 176 N17 Part 3 e Typ M Bus voltage 24V to 42V e Max M Bus voltage 50V e Idle current 2mA e Working current 10 to 20mA e Baud rate 300 to 2400 Baud with good lines up to 4800 Bud Note up to 9600 Baud at 19 rack connector X6 Communication protocol SCTM or IEC60870 Connection via terminals The distance between the DLX and the next M Bus repeater unit can exceed 5 km The maximum distance depends on the line conditions and the current burden on the M Bus With sufficient line diameter twisted lines and limitations on the baud rate up to
164. values lt 4 Info lt Energy values Set Parameters ri EXIT Load profile A Press five times Y ME INFO ENTER 3 TABLE ADDRESSES Use the v and keys to adjust the EXIT Billing Data ER digits Use the ENrER key to confirm a mm Spontaneous events L EXIT 00000 digit and move to the next digit Figure 33 Flow diagram for menu item Info table addresses How to get there Press the v key five times when in menu Info and then press the ENTER key The DLX enters the menu item selected Changing the parameters The t or V keys can be used to select values for address and the index What will be shown DLX will show the selected table addresses on the display For more information see appendix B z Explanation Adr desired table address see appendix B 1432 value in DLX memory DLX Page 51 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 7 7 7 Version Standard display Press twice EXIT 1 Main menu ENTER gt INFO Display alarms Current values 4 Info 4 Energy values Set Parameters EXT Load profile Press six times v
165. values a Info 4 Energy values Set Parameters e EXIT Load profile Press four times Y Mi eee Toe ENTER gt car E EVENTS Use the v and keys as well as the EXIT Load profile Sa eg nam ENTER key to display all the different Billing Data EXIT Event 00 00 spontaneous events gt Spontaneous events 24 Figure 32 Flow diagram for the menu item Info spontaneous events How to get there Press the ki key four times when in menu Info and then press the ENTER key The DLX enters the menu item selected What will be shown The DLX will show the spontaneous events on the display For more information see Fault displays on page 67 Example Explanation S P O N T A NIE Oo U No sequential number gel ESCH Date date and time of occurrence ID a It e Message see page 67 els s la glel e g 03 01 power failure The sign behind the event identifier shows whether the fault or error has occurred event oc curred activated or was erased event was erased or fault was removed 7 7 6 Table address Standard display A Press twice EXIT Y l Main menu ENTER INEO Display alarms Current
166. ve class II 2 2MQ Earth leakage current with protection capacitor lt 7mA Insulation strength according to DIN 43863 Electro static discharge according to EN 61000 4 2 Discharge with contact 4kV Discharge through air 8kV Electro magnetic HF protection according to EN 61000 4 3 and ENV 50204 Frequency range 80MHz to 1000MHz Severity level 3 Test field strength 10V m Fast transient protection according to EN 61000 4 4 Power supply 2kV Inputs amp outputs 2kV Serial interfaces amp modem 2kV Voltage peaks according to EN 61000 4 5 Live to Neutral 2kV Live and Neutral to PE 4kV Asymmetric high frequency modulated amplitudes according to EN 61000 4 6 Severity level 3 Inject currents 0 15MHz to 80MHz 80 AM 1kHz Magnetic field with energy frequency according to EN 61000 4 8 Severity level 4 Magnetic field strength 30A m Supply outages dips and variations according to EN 61000 4 11 Modulation of supply current according to EN 61000 3 2 Threshold value acc to class A Voltage range according to EN 61000 3 3 Mechanical properties Enclosure type mounting ne Housing for panel mounting
167. ve until the corresponding fault has been cleared Exceptions to this rule are the warnings 03 01 power failure 03 02 power dip 06 xx Data memory data erased and 8E xx Energy register overflow where the LED AL1 will be automatically cleared after the end of a registration period MP1 These messages are stored in the alarm buffer and in the spontaneous event buffer During power failures the solid state outputs are inactive and the relay outputs return to their default idle state User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Telefon 0911 97059 0 Telefax 49 911 9705950 14 Technical data Connections In Outp ts e tete ees 3 pluggable terminal groups of 20 poles each Power supply ene eR pluggable terminal group of 3 poles Interfaces Itn o em ree le service interface V 24 RS232 SUB D 25 poles data interface V 24 RS232 SUB D 25 poles or M Bus or fiber optic terminal or RS485 optional Modem eid e edet peine RJ11 12 Power supply Nominal voltage Un 115 or 230V internally selectable Nominal frequency fu 50 60Hz Voltage range e eges 90 132V or 180 264V Power consumption eee max 20VA FUSE sete ederet Reed etes T 500mA 250V slow fuse Inputs Pulse inp ts u galvanically isolated Typeiissweute pee nervt SO Wipe or bi current 24V Nui ber xta see max 16 Control inputs logic inputs
168. visor for totaling unit pulse output pp from 01 to 04 see also 10100 P 29300 pp Hysteresis for outputs of totaling units see 29200 P 29400 pp Totaling unit output inversion see 29200 S 30000 ee Input pulse weighting Numerator see 10000 S 30100 ee Input pulse weighting Divisor see 10000 P 30200 ee Decimals for energy counters Display 0 no decimals 1 one decimal 2 two decimals see also 10000 P 30201 pp Decimals for energy totals see 30200 and 10100 P 30202 ee Decimals for demand counters see 30200 P 30203 pp Decimals for demand totals see 30201 P 30204 cc Decimals for apparent demand cc 01 for Cos cc 02 for Cos2 see 30200 P 31000 01 Number of counters Number 1 to 16 P 02 Number of totaling units Number 0 to 4 P 03 Separate totals differential totals 1 always active P 04 Saldo calculation 0 Off 1 On P 05 Number of energy rates Number 1 to 4 P 06 Number of demand rates Number 1 to 4 P 31001 01 Number of apparent demand calcs Number 0 to 2 S 64001 01 Reset blockage in registration periods Number 1 to 99 S 64002 01 Time for automatic scolling of the scroll Time seconds for automatic scrolling list in seconds 0 manual scrolling S 64003 01 Time window for SYN input Time seconds S 64004 01 Polarity of SYN input signal 0 positive rising edge 1 negative falling edge S 64005 01 Internal settable reset index value 1 to 12 baer m
169. what time and also which control outputs must be used to signal the rates to subsequent external devices Each daily rate table can have up to 16 rate switching times Example rate control for 4 energy rates and 2 maximum demand rates Switching times Rates from To Energy AT Demand MT 06 00 10 00 AT2 MT2 10 00 12 00 AT3 MT2 12 00 13 00 AT4 MT2 13 00 16 00 AT3 MT2 16 00 22 00 AT2 MT2 22 00 06 00 ATI MTI This rate table relates to the following energy and demand rate curves Energy rate AT 4 ll 3 res 1 00 02 04 06 O8 10 12 14 6 8 20 22 00 Demand rate MT 4 3 eee 2 EN L 00 02 04 06 08 10 12 14 16 18 20 22 00 The daily rate tables determine the rate curves that are used for different days within a year These tables are linked to seasons by means of the weekly programs Page 22 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 7 3 Rate control inputs The rate control inputs TR1 to TR4 determine if desired and if present in the customer specific hardware configuration the currently active energy rate and maximum demand rate The usage of inputs and the cor relation of input states to rates can be programmed freely settable The factory default settings use TR1 to switch between two energy and demand rates TRI TR2 TR3 Energy rate mask Ii m m Demand rate mask Mm O m TRI TR2 TR3 0 1 N
170. x 01 took place on 15 March at 10 00 DLX Appendix A page 7 of 34 baer SE B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 Imt xx Cumulative energy counter reading at the end of the last registration period MP1 or MP2 m Registration period m 0 1 0 Registration period MP1 1 Registration period MP2 t Energy rate t 0 1 2 3 4 0 Total Energy rate 1 2 Energy rate 2 etc xx desired value Counter Total 00 Counter 1 01 Counter 2 etc 15 Counter 16 64 positive Total 1 65 positive Total 2 66 positive Total 3 67 positive Total 4 80 negative Total 1 81 negative Total 2 82 negative Total 3 83 negative Total 4 Table value lalalalplalalala dddddddd Counter reading Example I loefopo o o o 2 o Expl Counter reading at the end of the last registration period 20 130 xx Pulse count for an input xx pulse input xx 0 to 15 00 Inl 01 In2 etc Table value lalalalalalalplalalala ddddddddddd Pulse count Example l o op oj o oj o o o o o 4 Expl The input has counted 4 pulses DLX Appendix A page 8 of 34 BP dus User Manual Bar Industrie Elektronik GmbH Lange Strafe 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 20m xx Demand values of the current registration period m 0 m Registration period m 0 1 0 Registration period MP1 m 1
171. xing the cover the sealing screw is fixed through the whole in the splicing plate and then sealing wire needs to be fed through the holes in both the splicing plate and the sealing screw and finally a seal is attached to the wire Alternatively the PC Card cover can also be secured with a padlock according to the VDEW requirement definition for electronic watt hour meters Version 2 0 DS gt on 5 L5 A Ge d Ra bw ee I a TEE FA Figure 7 Dimensions and sealing arrangements for covers 4 1 2 19 rack Figure 8 Sealing arrangements for 19 rack Page 28 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 i A 2 d EN A A O7 cal Figure 9 Dimensions of 19 rack 4 2 Installation diagram 230 Figure 10 Dimensions of mounting points DLX Page 29 of 76 User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 5 Commissioning 5 1 Delivery state PC Card slot no PC Card inserted Program protection switch Programming enabled switch position Set Enable Supply voltage as per order 5 2 Preparation for commissioning 1 Check the DLX unit for transport damages Should there be any damages caused by transport please contact us 2 3 4 Check that your DLX unit was delivered as per your order
172. ynchronized to the closest full minute via a freely programmable SYN control input any of Ctl1 to Ctl7 Currently two methods of synchronization are available e Via external contact e g external radio clock e Via DCF77 receiver module type AWSO from the company Meinberg Germany In both cases the unit is synchronized to a full minute seconds 0 The permitted synchronization window depends on a setting in DLXPARA e SYN window 20 Synchronization in a window of 30 seconds around each full minute synchronization is always possible e SYN window gt 0 Synchronization in a window of x seconds max 29 seconds around the end of registration period MP1 any attempt to synchronize outside of the permitted time window results in the generation and storage of an error event Example SYN window 10 seconds Registration period MPI 15 minutes Synchronization only permitted in a window of 10 seconds around each full 15 minutes where minutes 0 or 15 or 30 or 45 Page 20 of 76 DLX User Manual B r Industrie Elektronik GmbH Lange Stra e 87 D 90762 F rth Phone 49 911 970590 Fax 49 911 9705950 3 6 4 Registration period The registration period is the period of time used to calculate demand values and energy increment values At the end of a registration period the current value of the maximum demand registers will be stored Subse quently the maximum demand registers will be set to zero Two in
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