RECORDER DAS30- DAS50 USER`S MANUAL - HIK
Contents
1. This function includes the same commands as the Direct display function The Read block or file command allows you to select the memory block zone inside the internal memory or the file to display When pressing this key the following window pops up ow P Dead block Block number 1 A Read file Write data lt to file e Block number number of the memory block to display e Read file selection of the file to display e Write data to file save the current display into a file When the size of the data acquisition to display is big it may take time to recover and display the dots Page 5 13 Use The display is made in 2 phases e A quick phase to display the frame of the data acquisition some dots may not appear e A slower phase where all data acquisition dots are displayed the advancement percentage is displayed at the bottom of the screen 5 8 Record key e This key has various effects according to the current mode of the appliance 1 Direct mode launches the paper printing if the trigger is in manual Start else the appliance waits for the start condition 2 Memory mode launches the data acquisition into internal memory the appliance waits for the start condition 3 Template mode launches the data acquisition into internal memory the appliance waits for the start condition 4 File mode launches the data acquisition into2. ESE INTERROGATION OF THE CONTENT OF THE VALIDATION LOG OF THE STANDARD EVENTS OF AN APPLIANCE answer by the appliance NR1 number between 0 and 255 see following paragraph ESR INTERROGATION OF THE CONTENT OF THE STATUS LOG OF THE STANDARD EVENTS OF AN APPLIANCE answer by the appliance NR1 number between 0 and 255 All events are erased and the log is reset to zero see following paragraph SRE VALIDATION OF THE SERVICE REQUESTS OF AN APPLIANCE SRE is followed by a number between 0 and 63 or between 128 and 191 action the appliance changes the validation log of the service request see following paragraph SRE INTERROGATION OF THE VALIDATION LOG OF THE SERVICE REQUESTS OF AN APPLIANCE answer by the appliance NR1 number between O and 63 or between 128 and 191 see following paragraph STB READING OF THE SERVICE REQUEST LOG OF AN APPLIANCE answer by the appliance NR1 number between 0 and 255 status word with bit 6 MSS Master Summary Statut see following paragraph Page 15 6 Ethernet Interface 15 4 Indication of the status of the appliance 15 4 1 Structure of the status data Here is the pattern of the structure of status data they keep you informed about the changes of status in the appliance reconnection printing start Overview of the structures of status data of the recorder ope Esi pg i cee js 5 y EE o D OUTPUT QUEUE 2 2 o seh ut
3. P rae Erene SE Voie Al D voies analogiques hta Voie logique l Parasite u g 1 mm min 10 min cm v A Configuration BS trac Page 6 4 Triggers 6 1 4 Trigger on Logic Channels After selection of the trigger on Logic Channels the window allows you to set the trigger condition D clencheur N j Attente RE a a zE Voie analogique i daii ee s 1 mm min CADERAS 10 min cm v A A voies analogiques lt A L x J Configuration ene j Et logique a trac Parasite oe Sy Ou logique Sur niveau e either active at status O less than 1 6 volt e or active at status 1 more than 4 0 volts e ornon used X e AND OR the logic function AND OR is applied to each channel e Type edge or level the trigger is applied on an edge change of value or a level Page 6 5 Mathematical calculations 7 MATHEMATICAL CALCULATIONS You can apply mathematical calculations on your data acquisitions You can access them with the Direct display function 7 1 Definitions Press the Mathematical calculations key Channel A1 Min value Channel A2 Max value Channel A3 Min value Amplitude o Rising edge w Duty cycle wy Max value Overshoot J Falling edge wy Mea
4. Switching of bit 6 MSS to 1 shows that an authorized event happened Reading the status word makes it possible to discover the type of event that happened In the case of a standard or specific event you have to read the associated status log with the instructions ESR or SRQ_ TYPE to precisely identify the event A standard event appeared The instruction ESR is sent Answer by the recorder 160 bit 7 and 5 to 1 Two events are shown power up and instruction error but the request of service has been caused by the instruction error only the only authorized event in the validation log Page 15 11 Ethernet Interface 15 5 Dictionary of programming In the following table it is not compulsory to send the lower case characters of the headers and parameters As a rule digital parameters are integers NR1 parameters specified decimal may be NR1 NR2 or NR3 15 5 1 Configuration ALArm P1 ALARM VAL A TR TR CH Definition of the alarm to change A1 8S1 EDGEP the trigger is then set by the command TRig see chapter 16 5 8 P2 NO Trigger RECtr or ERRor DAT 11 12 10 changes the current date December 11th 2010 P1 day from 1 to 31 P2 month from 1 to 12 P3 year from 0 to 99 P1 P2 P3 HOURS 10 6 0 Changes the current time 10 hours and 6 minutes P1 hour from 0 to 23 P2 minute from 0 to 59 P3 second from 0 to 59 Returns the time READSETup Recovery of the current set up under bi
5. SEFRAM Instruments amp Syst mes After Sales Service 32 rue Edouard MARTEL BP 55 42009 SAINT ETIENNE CEDEX 2 Standard accessories provided with the appliance cords plugs and optional accessories handbag suitcase are covered 3 months against any manufacturing hazard The factory options integrated in the appliance are guaranteed for the same duration as the appliance itself What to do in case of malfunction In case of malfunction or for any problem of use please contact the SEFRAM Instruments amp Systemes after sales service A technician will take your call in charge and will provide you any required information to solve your problem What to do in case of machine failure In case of failure please contact the SEFRAM Instruments amp Systemes after sales service Need advice Need technical assistance SEFRAM Instruments amp Syst mes commits itself to help you by phone for the use of your appliance Please phone 04 77 59 01 01 Or send an e mail to support sefram fr Table of Content 1 TABLE OF CONTENT 2 IMPORTANT INFORMA TION ion ctetssavevadveinavesosawuvedelonstelseavsvelveteavedsdiueeteiesieiranceeaue 22 De PRESENTATION eenia 3 1 Jaks C Ona 0 8 e a re E 3 2 Iks DESPO AS UE Da e a a Renencn adam emia tse at atseuncanenc 3 3 3 3 2 Description of the channel validation WIndOW cccccccssssseeseeeeeeeeeeeeeeeseeeeeeeeeeaaas 3 4 3 3 3 Description of the network analys
6. The file 1s made of e aheader including the information later required to recover the file the set up of each channel the sampling rate etc e the N samples 1 sample 2 octets per channel 13 2 4 Recovery of the data acquisition files gt Sortie m moire l liee ae Press from the main menu then SM TF The following window pops up A Katt Lire bloc Num ro de bloc 1 Yy A Lire fichier lt Ecrire donn es dans fichier Ba Lire fichier Sr Select The following window pops up Page 13 5 File Management SD card pao Pile _ Record_0002 rec FolderREC AN 00 Mo 23 10 2014 10 11 38 FolderBMP tag File_Record_0003 rec ON 00 Mo 23 10 2014 10 13 38 tile_Record_0004 rec ON 16 Mo 23 10 2014 10 50 24 7 4file_Record_0005 rec atk 3123 90 ko 24 10 2014 11 33 44 File_Record_0006 rec 43127 17 ko 24 10 2014 12 01 4 File_Record_0007 rec 43319 40 ko 24 10 2014 15 25 02 AFile_ Record_0008 rec ESN 62 63 ko 28 10 2014 11 37 18 oe le_ Record_0001 rec ON 00 Mo 29 08 2014 14 49 06 ne we Record_0010 rec ies 29 Lan DO NLQ INIA 164 NO 1 29 38 Go libres sur 29 71 Go a ASA Select the place and the name of the file to load and display on screen then press a Page 13 6 File Management 13 3 Operating software Data acquisition files may be transferred to a PC computer The Sefram Viewer software is p
7. 0 000 Q Stop Rearm Taau sN A1 A2 a l 262 k samples channel A uistion time 52 400 5 Trigger 5 240 s l Blocks parting of the internal memory in blocks e 1 2 4 8 16 32 64 or 128 e Frase blocks erasing of all blocks the current block is 1 2 Acquisition period sampling rate of the channels e internally paced from lus to 10min e externally paced by the logic channel 16 Page 9 1 3 Fr Start Memory Mode Start start condition of the data acquisition Manual with the v key Trigger with a channel with a combination of analogic and logic channels see chapter 5 Stand by after a delay or at a precise date and time Automatic immediate automatic stop when the block is full Stop stop condition of the data acquisition e Automatic when the block is full e Trigger with a channel with a combination of analogic and logic channels see chapter 5 e Trigger mode Double Trigger see the following chapter Real time save simultaneous record of the data acquisition into a file e directory and name of the saving file e maximum length of the file After acquisition action after the end of the print only possible if the start and stop triggers are not Manual e Stop no action e Relaunch waiting for the start trigger e Save to a file Saving or not the data acquisition into a file View of the active channels of the recording time of the pre trigger Pre trigger definition of t
8. 6 J g 9 10 11 12 13 1 1234567890123456 gt Replay memory pa 09 52 21 e mo Presentation z J I oH Channels Channels arid fu On Off P Logic channels Functions s Memory mode gA mm Lae mode Power et Ds XY analysis pe MES recora As Logic channels v a ld in ges es Af F t Direct mode key direct printing of the curve Memory mode key File mode key Template mode key Network mode key Start screen to display the serial number the software version Recording Replay of the memory Digital display of the values of the various inputs Display of the F t curve Display of the XY curve Configuration of the logic channels Adjustment of the triggers ga 14 Set up of the appliance language date and time alarm outputs update of the internal 15 software network connection recovery of the configuration Access to the table of channel configuration Page 3 7 Presentation A3 A4 PT1 PT2 O O lt O O Name Channel 1 Channel 2 Channel 4 PT2 T Voltage Voltage Voltage Voltage PT100 2 PT100 2 nni direct direct direct direct wires 0 00 Q wires 0 00 Q gt N JEN hreshold T2 0 5 V 0 5 C 0 5 C Note By pressing various parameters you can change them In addition by pressing the name o
9. A Additional option VK sy te ise i _ 456 gt Software L Network 000 0 Ds E 135 150 005 056 0 update Alarm a Alam A Kenn deaa arm rm disa ale a Spr Alarm B Alarm disabled 1 Language selection of the language of the appliance 2 Screen intensity increase diminution of the backlighting of the LCD screen adjustment of v A the delay with the keys decrease and increase 3 Default set up initialization of the appliance in default configuration 4 Load on disk loading a configuration recorded on the internal storage means or on an USB stick 5 Save on disk saving the configuration on the internal storage or on an USB stick ATTENTION the current configuration shall be lost 6 Network Change of the IP parameters and of the network options 7 Alarm A or B use of the alarm outputs A or B 0 5V outputs e None no condition monitors the contact it remains always open e Trigger control by a combination of analogic or logic channels on several thresholds see chapter Triggers e Paper error control by paper shortage or opening of the door of the printing block Option 8 Software update update of the internal software see chapter Presentation 9 Additional option change of various parameters e Bip keyboard activation or deactivation of the Bip keyboard e Electric calibration calibration of the channel offsets reset to f
10. At each error matches a line that specifies an error number the received message When the window is full error are displayed from the first line The last error line is followed with a blank line Page 15 24 Technical Specifications 16 TECHNICAL SPECIFICATIONS 16 1 Isolated inputs 16 1 1 General characteristics Number of inputs 2 or 4 according to the appliance Impedance Impedance gt 25 MQ for calibers lt 1V Impedance MQ for the other calibers Max acceptable tensions between the 2 terminals of a channel 500 Vpc or 500 Vac 50Hz Installation category overvoltage category III 600V Insulation double insulation between the mechanical ground and the measurement channel gt 100 MQ 500V DC Common mode parasites test according to EN 61143 Accessible current lt 0 75mA Type of measurements Tension intensity through external shunt Frequency Thermocouple J K T S B N E C L 16 1 2 Tension recording max caliber 1000V 500V to 500V min caliber ImV 0 5mV to 0 5mV offset adjustment of the center by 1 5000 of full scale or 1 caliber max offset 5 calibers up to 500V accuracy 0 1 of full scale 1OuV 0 1 of the offset offset drift 100ppm C 1u V C Class C index see annexes Page 16 1 Technical Specifications 16 1 3 RMS recording Software RMS calculation sampling 200us max frequency SOOHz peak factor 2 2 and 600V max instant accuracy
11. RECORDER DAS30 DASS0 USER S MANUAL Revue July 2014 M003 Thank you for buying a SEFRAM recorder and for your trust in our company The main goal of our various teams research department production commercial after sales is to meet your requirements as much as possible by designing or updating high tech products With your recorder you will find a CD ROM including The user s manual of the DAS30 amp DAS50 recorders The SeframViewer software that makes it possible to print and treat your recording files under Windows The Sefram Pilot pilot that makes it possible to program the appliance though an Ethernet link Please read cautiously this user s manual for an optimal use of your recorder Our teams are available to provide you any additional information 04 77 59 01 01 Commercial service e mail sales sefram fr After sales service e mail sav sefram fr Technical support e mail support sefram fr Fax 33 0 4 77 57 23 23 Web www sefram fr WARRANTY Your instrument is guaranteed for one year for parts and workmanship against any default of manufacturing and or functioning hazards This guarantee starts from the delivery date and ends 365 calendar days later In case of guarantee contract this will cancel and replace the warranty conditions above This guarantee does not cover errors of use and or manipulation To apply the warranty the user shall return the appliance to our production unit
12. 1 sine signal answering time typical 100ms 40ms 50Hz max measurable tension 424 V AC 16 1 4 Temperature recording pK 250 C to 1370 C pS 50 C 10 1760 C po B 200 C to 1820 C po UN 250 C 10 1300 C po CPC 2320 C pL 200 C 10 900 C The accuracy of the thermocouples is specified in append Compensation of the cold welding of the thermocouples J K T S N E C L 1 25 C Calculation every ca 5ms 16 1 5 Frequency recording sensitivity min 100mV RMS decision threshold variable from 99V and 99V with 0 1 V increment valid for frequencies lt 10Hz min cyclic ratio 10 frequency between 0 1Hz and 100kHz accuracy 0 02 of full scale 16 1 6 Enregistrement en Comptage decision threshold variable from 99V and 99V with 0 1V increment min sensitivity 100mV 1 of the decision threshold max count while recording 65536 beyond this limit the counter is reset max digital count 4P Page 16 2 16 1 7 Sampling definition max sampling period memory and file modes direct mode max sampling period 16 1 8 Bandwidth Bandwidth 3 dB Caliber gt l V gt 50 mV 20 mV 10 mV 5 mV Internal analogic filters Slope Software filters Slope Technical Specifications 14 bits lus G e IMHz 200us 1 e SkHz 10min Bandwidth 100 kHz 50 kHz 30 kHz 30 kHz 20 kHz 10 kHz 1 kHz 100 Hz 10 Hz 20 dB decade 10 Hz 1 Hz 0 1 Hz 0 01 Hz 0 001 Hz 4
13. Cirene Q Direct Current clamp Shunt Transformer Current transformer Nominal voltage 240 V _ Primary secondary 1A 1V Nominal current I1 102 9 A Fr 55 Hz 1111111 1234567890123456 Select the basis configuration of the network The P initialization e single phase e three phase mode Aaron Only 2U and 2I are used The 3 phase is re calculated for DAS50 only method of the double wattmeters key allows you to set up the channels in a basis configuration Tension measurement Direct or Transformer If the network tension is measured through a transformer select this set up and enter the transformation ratio The appliance automatically selects the right caliber you only have to specify the nominal tension of the networks Beware if this value is too different from the real tension this may lead to uncertainty and measurements over the caliber Current measurement The same is worth as for tension measurement you select the current type of input clamp shunt transformer In each configuration you have to enter the associated parameters For clamp primary current secondary tension these are current tension clamps For transformer transformer shunt primary and secondary currents and value of the shunt For shunt value of the shunt in ohms You also have to set the nominal current and tension Data acquisitions are synchronized with the calculation of frequency of channel
14. P1 FT TEXT or XY P1 P2 P3 Set up of a function P1 Number of the function P2 Selected channel P3 function MIN MAX PK_PK LOW HIGH AMPL MATHDEF P_OVERSH N_OVERSH FREQ PERIOD R_EDGE F_EDGE P_WIDHT N_WIDTH P_ DUTTY CYCLE N_DUTTY_ CYCLE MEAN MEAN_CYC RMS RMS_CYC MATH Reading the values of functions You need the f t mode to get the values SCREEN FT PAGE SCOPE SCREEN FT SCREEN VER BOUNON FULLON vertical full screen display SCREEN XY A3 A2 DOT SCOPE TIMEBASE 500 MS SCREEN FT PAGE SCOPE SCOPE RESTART You change the time basis then you position yourself in the scope screen f t MATHDEF 1 A1 MIN Page 15 22 Ethernet Interface 15 5 13 Memory output P1 P2 P3 OUTBLOC 1 25 2 80 Set up of the block and of the output window block 1 start at 25 2 stop at 80 P1 1to128 number of block P2 from 0 to 100 real percent of start P3 from 0 to 100 real percent of end P1 P2 OUT REC XY 200 Set up of the type of paper output 200x200 paper XY diagram P1 FT or XY paper output P2 Defines the output reduction rate in FT mode from 1 to JOUT REC FT 100 10000 increments 1 2 5 or the reticule width in XY mode __ F t mode 100 samples mm 100 200 or 250 OUT REC PLOTRec P1 Starts or stop the plot on screen P1 ON or OFF LOTRec DEFPACQ P1 P2 OUTBLOC P1 number of the packet to send 2 0 100 DEFPACQ P2 number of octets in the packet Recovery of the 1st packet in bloc
15. P3 NO VALue RANge SCAle MINmax Set up of the type of annotation to write ANNOte TYpe Page 15 16 15 5 5 Triggerings EN TETE PARAMETRES START MANual Manual trigger start or stop START TRIG Trigger on a combination of thresholds see chapter 8 3 START P1 P2 P3 Trigger on a waiting time P1 number of hours waiting 0 to 23 P2 P3 minutes seconds 0 to 59 P1 P2 P3 P4 P5 P6 Trigger at a date P1 day from 1 to 31 P2 month from 1 to 12 P3 year from 0 to 99 P4 hour frm 0 to 23 P5 P6 minute second from 0 to 59 P1 P2 P3 Trigger on a waiting time see START WAIT onlyin DIRECT mode P1 P2 P3 P4 P5 P6 Trigger at a date onlyin DIRECT mode STOP LENGth P1 End of trigger ata given length of plot only in DIRECT mode P1 length of plot x 10cm STOP AUTO Automatic stop memory or file mode STOP Returns the command of end of acquisition Ethernet Interface EXEMPLES A1 S1 POS START WAIT 0 2 10 waiting 2min 10sec SEQ START SEQ DATE 3 10 06 15 30 10 Starting on 3 10 06 at 15 30 10 Page 15 17 15 5 6 Triggers TRIG LOG P1 P1 P2 Selection of trigger on logic channels P1 sets the 16 values of the triggers add a message delimiter brackets P2 AND or OR P1 Number of the channel A1 A2 etc P2 Threshold S1 or S2 P3 POS or NEG TRIG CHan P1 P2 P3 for rising edge or falling edge TRIG COm P1 Selection of the type of complex trigger P1 OR A
16. Page 15 9 Ethernet Interface You can write in this log with the command ESE lt NRF gt where lt NRF gt is the sum of the binary values of the validation log You can read its content with the command ESE 15 4 4 Log of alarms Refer to the overview of the structures of status data The structure of the log of alarms is appended to the bit 0 of the log of service requests Log of status This log contains some messages specific to the recorder whose meaning is exposed hereafter You can read its content with the command SRQ_ TYPE Reading the log erases it The bits of the status log of alarms are appended to specific events bit 7 TRIGGER DATA ACQUISITION MEMORY value 128 This bit shows that the trigger condition of a data acquisition into memory has been achieved bit 6 END OF DATA ACQUISITION MEMORY value 64 This bit shows that a data acquisition into memory has been achieved bit 5 START OF DATA ACQUISITION MEMORY value 32 This bit shows that a data acquisition into memory has been launched bit 4 Not used value 16 bit 3 END OF PAPER value 8 This bit shows that there is no more paper in the printer bit 2 END OF WRITING value 4 This bit shows that a text writing is achieved cartridge text programmed with the instruction WRIte see dictionary of programming bit 1 END OF PLOTTING value 2 This bit shows that a printing is achieved bit 0 START OF PRINTING va
17. You can create your own software under Visual Basic Visual C etc by using for example the Winsock dll driver by Microsoft Then you only have to send the commands as per the following paragraphs to the recorder 15 2 Programming language 15 2 1 Format of the reception messages al tg In all the following examples the space character is pictured as a blank space Exchanges from a controller to the recorder are made as messages made of a chain of ASCII characters and possibly of binary octets with a message termination at the end Syntax of a receipt message Message unit Message terminator Message unit if the message includes several message units they are separated with a semicolon and possibly preceded and or followed by one or several filling characters in ASCII code 0 to 32 in decimal format except 10 and 13 The message termination TERM for the Ethernet link 1s LF Line Feed 10 in decimal The message termination may be preceded with one or several filling characters under ASCII code 0 to 32 in decimal format except 10 and 13 Example of messages made with 3 message units MESSAGE 1 MESSAGE 2 MESSAGE 3 TERM CHANNEL 1 TYPE VOLTAGE DC CALDEC TERM Page 15 3 Ethernet Interface Syntax of a message unit A message unit ex REAR SETUP 1 is made of several fields Header For the command messages ex REAR SETUP 1 or query messages ex REAR it is made of a c
18. You should take ta great care when putting 1t in place The recorder shall always receive paper because the thermal head may be damaged in case of extended direct contact with the roller 4 1 1 Precautions for storage of the recordings In order to maintain the quality of the paper recordings it is advisable to abide by precautions of handling e never use laminated sleeves e store away from light in a dry and cool place Cardboard sleeves are advisable Page 4 1 Set up and Precautions of Use 4 2 Set up You turn on the recorder by pressing the button at the top of the appliance When the appliance is on the ON OFF button is lit blue After launching the software the recorder displays a homepage that specifies the hardware version then switches automatically to the Direct display mode oscilloscope SOO Afro You can display this homepage any time in the main menu by pressing Edi To turn off the appliance you only have to press the ON OFF button twice If the appliance does not stop correctly you must press the ON OFF button 5 seconds in this case the configuration won t be saved 4 3 Configuration at power up At power up the appliances start with the latest configuration when they were shut down If the configuration has changed at power up contact the after sales service y If the initial set up is wrong you can reload the default configuration IP Default set Go to the main m
19. forcing the trigger trigger with RECORD OFF TRIGREC forcing the mix data acquisition trigger RECord Returns the command status and the percentage of data acquisition into memory P1 WRITE RECORDER Printing a message on paper for appliances with a printer Allows you to write an annotation while recording to disk P1 message max 50 characters between brackets or apostrophes LINE drawsaverticaline CC TEXT P1 P2 TEXT 252 high position Writing an horizontal text max 50 characters P1 posiiton between 0 and 252mm Page 15 20 Ethernet Interface 15 5 10 Diagrams P1 P2 GRID LOG 50 5 UP GRID 2 SEPLOGON Set up of the diagrams P1 Number of the diagram The logic channels are at the P2 SEPLOGON or SEPLOGOFF separate logic channels top and are 50mm tall on 2 100mm screens GRID Returns the set up of all diagrams GRID LOG PiP2 P3 Set up of the diagrams for logic channels P1 Number of logic channels P2 Heigth of the logic channels P3 UP or DOWN position of the logic channels GRID LOG Returns the set up of all diagrams GRID LENGth P1 P2 P3 GRID LENG 1 0 100 Set up of each diagram Diagram 1 from 0 to 100mm P1 number of the diagram P2 min value 0 to max max 250 or 200 according to the appliance P3 valeur max 0 to max GRID LENGth Returns the set up of all diagrams GRID CHAnnel P1 P2 P3 GRID CHA A4 3 2 Set up of the posi
20. you have access to time cursors and zooms TF You cannot visualize a block else than the current one draw a plot or save the data acquisition into a file as long as the current data acquisition is not finished Page 9 6 9 7 Memory Mode Memory output You can access the memory output mode by pressing gt Display of the data acquisitions available in the internal memory or in files Possibility to start the paper printing of the data acquisitions l pA 2 4 5 6 7 Q 9 1 64 200s Trigger 09 44 46 28 jan 2015 F 09 45 53 aaran an a C CO ES P A E D SLR t gt 1 1 832s 2 1 807 s T 25 25ms Fr 39 61 Hz 51 1 v 231231 2 9281 49 Read bl ee ee a a a 3 aioe ee O Gee ee ee h AT h E E i enna i EAE i TAERE 2 AEREE 4 OEN AON aed Screen ae i set ee ee ee EE ESA EN GER E bee E EAA E te eee bole doe Gases ons ies Vilas Vicia Goad ieee a ee eerie ees set a E eve a ee ny Qa a Goes ea f N F Bes em EEE AEN EE Wes EEDI Peg renee ON TE pa ec A ee ne Pe A ae ee J P E Pilotti B3 nhre a 01 15 28 01 15 28 01 15 28 01 15 44 48 9 44 48 9 44 48 09 44 48 4 p laf 9 Read blocks or file selection of the memory block or of the file to display if there 1s no valid block the only menu key available will be Load file Screen set up type of display diagrams see chapter Use Time cursors vertical cursors zoom
21. 16 11 1 Weather conditions Working temperature 0 C to 40 C max relative humidity 80 non condensing Storage temperature 20 C to 60 C 16 12 Power supply battery External power supply mains block 100 240 VAC jack 5 5 mm hole 2 1 mm output 15 V 4 A max Non removable battery lithium ion 10 8 V 6 5 Ah 9 V at end of discharge 200 cycles charge discharge Battery life pending 16 12 1 Dimensions and weight Height 210 mm Width 295 mm Depth 105 mm Weight 2 5 kg 4 channels PT100 without printer 250 g with printer and paper roll Page 16 8 Technical Specifications 16 13 Electromagnetic compatibility Security 16 13 1 Electromagnetic compatibility according to EN 61326 1 and 61326 1 2 EN 61326 1 2013 et EN 61326 2 1 2013 EN 55011 2009 Ai 2010 amp Emission pour les environnements industnels Classe A ESSAI D EMISSION LIMITES RESULTATS Commentaires Valeur Quasi cr te Valeur moy oD dBu 0530MHz 7B Mesure a 10m Quasi cr te S0MHz 230MHz 40 dBuVvim Hormes Fr guente Emissions conduites sur le secteur dBu 150kHz 30MHz Emissions rayonn es NEE EE 230MHz 1GHz 47 dBuv m ESSAI D IMMUNITE NIVEAU D ESSAI Critere RESULTATS d aptitude Commentaires exic D charges lectrostatique ESD EN 61000 4 2 2009 Immunit rayonn e aux champs RF EN 61000 4 3 2006 A1 2005 A2 2010 amp Transitoires rapides en salve TRS EN 61000 4 4
22. P Lire bloc T Num ro de bloc 1 y AA a Lire fichier r i 4 ie 5 1 Read block lire un bloc m moire 2 Selection of the block to read 3 Read a recorded file 4 Write data into a file Record the data displayed on screen into another file 5 Close the window gt Real time Available in Direct Memory and Template modes after validation of Real Time Save in the triggers page CA er za EA mar Se se FolderREC File_Record_ 250 M chant voie 13 53H Taille du fichier 1000 M chantillons As soon as the record is launched the appliance saves the samples into the file The file closes when the data acquisition is done If the data acquisition is waiting for a start trigger the appliance records into the file all points before this trigger When the data acquisition stops the file will include more points than the memory block that was used for the data acquisition yi In both cases Manual or Real Time record the date of the file is the date when the file was closed Page 13 4 File Management Name of the files the name of each file is made of 12 characters plus one 4 cipher number The appliance will automatically increase this number at each record Only the validated channels i e in ON position see chapter Use will be recorded into the file Before writing into the file a pop up reminds you the saved channels and the number of points per channel
23. This chapter describes all possible triggers of the appliance They are used by the configuration menu with the A and B alarms the triggers menu with the start and stop parameters of the recording gt Edge Level trigger e Edge trigger you need a change of status o Example Channel A1 rising edge threshold OV triggers only if the signal status changes from negative to positive e Level trigger no need to pass the threshold o Example Channel A1 high level threshold OV triggers only if the signal is positive e Alarms only have level triggers gt Analogic Logic channels trigger only from analogic or logic channels gt Single Multiple threshold e triggering from only one threshold or e complex triggering from several channels and several thresholds see description below Such complex triggering is only possible with analogic channels ____ Trac arr t vitesse 1 mm min 10 min cm 4 10 20 15 gt HDD FolderREC File_Record_ 1 us ner gt e ry gt AN Menu principal ESY a 2P ewes 0 ks 8 389s restant T i Laas Sauvegarde Y4 Sauvega Taille maximum a z i Trac graphique _ Trac texte A temps r el I of on ae HDD FolderREC File_Record_ WA Ga 1 mm min File_Record_ oo J 10 min cm v A A4 125 000 k chant voie 0 125s 1 C Configuration Taille fichier e J trac 500 k chant K LLys A D part manuel J D par
24. appliance The DAS30 amp DASSO recorders are in conformity with CEI 61010 1 2001 02 It includes high potting IR with two primary insulation levels IP Thanks to them the channels 1 to 4 are insulated from each other and from the carter This architecture allows independent floating measurements within the limits of the admissible maximum tensions See chapter Technical specifications accessible parts CHI r USB O a Entr es Eth erne O DC DC Logical inputs PT100 Alarms Power Carter CH2 Wa E DC DC DC DC J Entr es Ls Opto coupler a z E IR Casing of the DAS30 50 IP Main or additional insulation IR Reinforced insulation y Attention Never apply a tension higher than the maximum admissible tension between the channels and from the ground of the carter Page 2 3 Presentation 3 PRESENTATION 3 1 General DAS30 amp DAS50 are programmable recorders that make it possible to measure and record tensions intensities temperatures etc on 2 to 4 channels and on 16 logical channels As an option you can also record from PT100 or PT1000 probes An integrated thermal printer option makes it possible to print signals in real time They can work in several modes gt Direct for paper printing option gt Memory for acquisition on internal quick memory gt File for acquisition on internal SD card gt Template for acquisition on a pre recorded template gt Analysis
25. in Amperes or milliamperes according to the caliber of the selected channel Page 4 3 Set up and Precautions of Use 4 3 5 Connection of the ground e If the source of the signal you have to record has low internal impedance you shall use twisted wires In case of high impedance you shall use shielded wires e When gathering grounds from the various items on the measurement line it is good to check that there is no voltage difference between them in order to prevent any shortcut If any doubt make a measurement with a voltmeter on a low resistance 1 e 1kQ2 between the terminals 4 4 Routine maintenance Maintenance only consists in cleaning outside the appliance Any other operation requires a qualified personal w Unplug the appliance before any intervention Never let water flow through the appliance to prevent any electrical discharge Periodically clean the recorder with the following the instructions use water and soap to clean the front and rear boards never use any product that contains petrol benzine or alcohol they would damage the screen printings wipe with a soft lint free cloth use some antistatic product to cleanse the screen 4 5 Battery The appliance is equipped with a lithium ion battery Li ion It is sent with charged battery However if the appliance has remained unused for more than one month check its loading status and reload it if required Attention Any intervention on the batt
26. of network The operator recorder dialog is made easier thanks to an intuitive interface on a wide touch screen The measurement parameters are easy to program Channels and functions On Off Logic channels 1111111 1234567890123456 Oy recor Page 3 1 Presentation 3 2 Description 3 2 1 Connection 1 A RJ45 connector for the ETHERNET 10 100BaseT interface 2 two USB connectors for female USB stick 3 a SUB D 25 pin connector for the 16 logic inputs and the alarm outputs 4 2 to 4 inputs through pin plugs according to the appliance 5 2 way option PT100 screw terminal block 6 Power Battery charger on the upper side 7 Power on button and light 8 Battery charging LED Isolated inputs have 2 security terminals on each input e red terminal input e black terminal input Page 3 2 Presentation 3 3 Touch screen 3 3 1 Description of the title bar Various zones on the screen l Current mode direct mode memory mode 2 Status of acquisition pending acquisition stop 3 Status of the battery 4 Direct access to display 5 Access to the display of the memory 6 Access to the recording 7 Screenshot button 8 Date and time 9 Access to the main menu Note By pressing on the date and time you can access to the menu to change this information Ov A SYAY A Yk may Yk 205 Y A Q 27 January 2015 January 27 2015 2015 January 27 Dan
27. order to recreate the template for reuse Page 10 3 Template Mode Use of the template The comparison with the template is the stop criterion of the data acquisition This comparison shall au be made with the Template Channels selected in the X mane page The information window at the bottom of the page X aan sums up the general configuration of the data acquisition e channels and functions between validated channels for data acquisition channels and functions between channels compared to the template number of points per channel as a function of the number of blocks total data acquisition time as a function of the acquisition speed position of the trigger as a function of pre trigger phase 1 channel active A1 B oe Acquisition time 1 h 51 min The comparison to the template is only possible when the channels are validated for data acquisition An error message shows up if you have selected Template Channels that have note been validated The data acquisition is made as above see chapter Memory Mode When the memory block 1s full the appliance checks that all measured points on the template channels are between the 2 min and max reference curves constituting the template If all points are between the curves the data acquisition restarts in the same block If not the data acquisition stops Page 10 4 File Mode 11 FILE MODE This chapter describes the File Mode designed to
28. sae 88 wb bEsse 835 mae oe o7eet se BEEE seSssees S58 5338 Ss Segses non void 555 S552 SG5mp95E g queue avh vov PSP52285 FERETE T STATUS LOG STATUS LOG HEBREBHE a ie LEFRERE ipie Read ESR Read SRO_TYPE 4 gy VALIDATION LOG lo OF STANDARD EVENTS Write ESE lt NR1 gt Read ESE VALIDATION LOG OF ALARMS Write SRQ_ ENABLE lt NR1 gt Read SRO ENABLE VALDATION LOG OF SERVICE REQUEST Write SRE lt NRi gt Read SRE 4 logs are used the service request log STB associated with its validation log the standard event log ESR associated with its validation log The bits 0 1 2 and 7 of the STB log are available for use as sum up messages specific to the appliance Each of these bits can be associated to a structure of data with a defined pattern which will manage the events in the appliance that may lead to a service request The user may set up the recorder so that it activates the bit 6 of the service request log in case of one or several specific events Page 15 7 Ethernet Interface Status of these logs at power up The content of the STB ESR and alarm logs is systematically reset at power up except the bit 7 of the ESR that specifies a power up 15 4 2 Service request logs 1 VALIDATION LOS OF SERVICE REQUEST Wie SRE lt NF1 gt Status log It includes the status word of the appliance You can read this status word thanks to the reques
29. the adjustment of a given channel onto one or several other channels 11 Display window for the thresholds caliber zero offset 12 Adjustment of the position position of the zero on screen or on the paper from 100 to 100 1 e in RMS mode it is interesting to have zero at the minimum value 100 you will get the max value caliber 13 Adjustment of zero Zero or center or offset is the central value of the measurement Note When using a mathematical function or a scale change zero is the zero of the requested unit 14 Adjustment of the caliber the caliber is the measurement range corresponding to the full width of the screen where the channel is plotted Page 5 5 Use 5 3 2 Additional functions between channels There are function channels on this appliance You can activate up to 4 function channels FA FB FC FD These channels make it possible to make calculations between channels or calculations of average values For example if you want to calculate a value of power select the parameters of the A function channel KOOT E Oin Home ir 1 000 Channel A1 0 000 Channel A1 0 000 Range 10A Plot threshold T1 O 5A Center zero OA Plot threshold T2 0 5 A Position 0 A VY A Logic channels 1111111 1234567890123456 i 0000000000 You get this page above Then you make the calculation you want by pressing the formula bar and create the calculat
30. window allows you to set the trigger under several conditions Then by pressing the various thresholds in front of their respective channels you open the FAR D clencheur 4 Un des seuil 7 Tous les 5 seuils Ko _ Attente Ka Ne ci J et N Wises ae yote Seuil S1 Seuil 2 CEON A voies analogiques fas a a E SA it j Parasite 1 mm min 10 min cm v A Configuration BI trac D part manuel Gow D part rr t manuel 2 Arr t lt gt sup rieur w lt inf rieur Front montant Front descendant gt sup rieur lt inf rieur i Ax Front montant Front descendant na 4 eS am x 2 All thresholds and all conditions must be simultaneously achieved to validate the trigger 3 Slope ou trigger on the slopes of the signals the first achieved condition validates the trigger Example The trigger displayed above is Trigger if Channel 1 decreasing and equal to threshold S1 value 1V OR Channel 2 decreasing and equal to threshold S1 value 1V The same interpretation is valid for the AND trigger all thresholds Page 6 3 Triggers 6 1 3 Parasites You can trigger a parasite with a periodic 50Hz signal trigger when the shape of the signal radically changes e parasite impulsion gt 200us e sudden change of frequency D clencheur Attente
31. 0 dB decade Page 16 3 Technical Specifications 16 2 Additional inputs outputs 16 2 1 Logic channels Number of channels Input impedance Sampling frequency max acceptable tension 16 2 2 Alarm outputs A amp B alarms on trigger see chapter 17 7 on data acquisition trigger 16 2 3 External power supply nominal tension max current 16 4 7 KQ identical to the main inputs 24 V Category 0 5V outputs battery tension from 9 to 15 V 0 2 A limited by resettable fuse 16 3 Optional inputs with platinum resistance PT100 or PT1000 2 channels Power supply output e PT100 I mA e PT1000 100 uA 20 bit converter domain of use 2 3 or 4 wires correction resistance 2 wires max resistance 3 wires accuracy 20 C temperature drift 200 C to 850 C max 30 Q 50 Q 0 2 C 0 01 C C Page 16 4 Technical Specifications 16 4 Triggers The triggers are identical for every various modes date delay thresholds and combinations or and of thresholds 2 thresholds per channel channel slopes calculation on 10 ms to 1 s periods parasites 50 Hz signal word on logic channels and or rising level 16 5 Memory data acquisition Memory length 32 Mwords segmentable up to 128 blocks max sampling period 10 min max sampling frequency 1 MHz trigger position 100 to 100 Possible stop on a second trigger Possible trigger on a template 1 channel Possible real time s
32. 1 Page 12 2 Network Analysis Wiring and check Direct display of the network wiring Any wrong wiring may lead to wrong results The colors of the channels match the colors of the respective inputs The tension inputs U1 U2 are connected to the terminals and 3 The current inputs I1 I2 are connected to the terminals 2 and 4 Fresnel diagram You can also check if the wiring 1s right by displaying the Fresnel diagram The length of the arrows is not proportional to the efficient value of the currents the user will have to check that what he sees is coherent The position of the tension arrows is calculated with reference to the tension V1 Attention the angles are those of the tensions currents representative either of the shape factor or of the fundamental values You can check whether the connection is direct or reverse Intensity vectors are calculated in reference to the corresponding tensions TF Attention even if nothing abnormal appears there may be mistakes In any case the wirings must be made with caution by a qualified personal Warning messages Messages may appear in red any time at the top of the screen e Impossible to synchronize the signal the frequency is wrong the signal is too weak or too noisy e Caliber exceeded The tension or the current are too high for the theoretical nominal value you must change this value or use another probe Recording additional channels You can record addit
33. 17 2 Measurement accuracy for thermocouple The thermocouple measurements are treated as tension measurements For a given range of temperature measurement the software calculates the tension caliber the following way Let T the absolute value of the max measurable value in C Add 40 C to take the max cold welding temperature into account Search the corresponding tension value U in the table of thermocouples Program the caliber with U included in the range Example You want to program a measurement range between 50 and 50 C with a J thermocouple Max absolute value T 50 C Add 40 C T 40 90 C Corresponding U tension according to the tables ThJ U 4 726 mV Programmed caliber 10 mV measurement range 5mV to 5mV The measurement inaccuracies below are max values the typical values are half to thrice as much The temperature measurement accuracy is the sum of several possible uncertainty causes Pl linearization accuracy Ps weld welding accuracy Pm measurement accuracy of the equivalent tension The total accuracy Pt is then Pt PI Ps Pm For the recorder Pl 0 25 C for all thermocouples Ps 1 25 C for all thermocouples Pm 0 1 of the tension caliber 10u V divided by the slope of the thermocouple in u V C Measurement accuracy Pm The measurement accuracy Pm depends on the tension caliber of the appliance see the previous paragraph and on the slope of the thermo
34. 1OOMbit s In case of a network with BNC cable you must use an external hub to convert the BNC signal into RJ45 signal use a straight through cable If your PC has no network you can also use a crossover cable directly between the PC and the recorder Crossover cable Connector 1 Connector 2 The recorder uses the TCP IP protocol to dialog with the PC Thus you can give it an IP address with a subnet mask Ask your network administrator an IP address and a corresponding mask then when you have set Je Configuration up the recorder with the E key turn off and on the appliance so that the changes are taken into account If you don t have any network administrator Check that the TCP IP driver is correctly installed on your appliance Case of a PC under Win XP or other From Windows Explorer go to Work station Configuration panel network connection and then go to the properties of the network card Check that the TCP IP protocol has been installed then check the IP address and the subnet mask You have to take great care and define an IP address and a subnet mask that are compatible with the ones of the remote computer The port that the recorder uses is Port 23 Page 15 2 Ethernet Interface For example in I mode you could have PC IP 192 135 20 00 mask 255 255 255 0 Recorder IP 192 135 20 01 mask 255 255 255 0 Refer to the definition of the classes of IP addresses Programmation
35. 2004 A1 2010 k Immunit e aux ondes de choc Alimentation secteur AC ou DC et lignes de signaux commande directement connect au secteur EN 61000 4 5 2006 amp Immunite aux ondes de choc Lignes de signaux EN 61000 4 5 2006 k Immunit conduite RF EN 61000 4 6 2009 Immunit aux champs magn tiques a la fr quence du r seau EN 61000 4 8 2040 amp Variations et coupures br ves de dk D charges au contact Bk Decharges dans lair 10Vim AM 80 1kKHz 8OMHz a 1GHz 3 im AM 80 1kHz 1 4 2 0GHz 1Vim AM 80 1kHz 2 0 a 2 7GHz Fk entr e d alimentation AC 2kV acces puissance DC 2k lignes de signaux et commande directement connect au secteur ik lignes de signaux 1 kV en mode diff rentie 2kY en mode commun 1k entre ligne et terre 2 3V AM 80 1kHz 150kHz 8OMHz 3 30 A m a SOHz et 60Hz 4 0 tension r siduelle sur 1 p riode CONFORME tension EN 61000 4 11 2004 5 40 tension r siduelle sur 10 12 p riodes T0 tension r siduelle sur 25 30 p riodes 0 tension r siduelle sur 250 300 p riodes 3 1 Uniquement pour les liaisons dont les cables peuvent tre sup rieurs 4 3m 2 Uniguement pour les liaisons dont les cables peuvent tre sup rieurs 4 30m 3 Lignes de signaux uniquement pour les liaisons dont les cables peuvent tre sup reurs 3m 4 Applicable seulement aux quipements contenant des composants
36. 4 Inputs Outputs 14 5 Extension box input output interface The extension box input output interface option code 984405500 makes it possible to Convert an alternating tension example 230V 50Hz into a logic signal 1 Easy connection of the inputs of the 16 logic channels Insulation of the 16 logic inputs 250V between channels 250V between channels and ground Easy connection of the alarm outputs by a screw terminal Power supply of an external accessory with 3 3V 5V or 12V by a screw terminal Connection of the logic channels according to the signal tension 0 to 250V O connection 0 250V logic channel black by insulated pin plug between red and black terminals max usable tension 250V continuous or alternating typical trip threshold AC or DC 48V frequency 45 to 440Hz undetected low threshold AC or DC 0 to 10V detected high threshold AC or DC 60V to 250V insulation 250V between channel and ground e Oto 48V 1 connection 0 48V logic channel by a screw terminal between the points 1 and 3 of the screw terminal box max usable tension 48V AC or DC frequency 45 to 440Hz typical trip threshold AC or DC 9V undetected low threshold AC or DC 0 to 2V detected high threshold AC or DC 10V to 48V insulation 5OV between channel and ground Page 14 5 Inputs Outputs e Oto 1OV 1 connection 0 10V logic channel 1 by a screw terminal between the point
37. 6 26 27 i gt e rO GI PX menu principal Taille eu DD FolderREC File tead File_Record_ Lue HDD FolderREC File_ Record i us ewes Oks 8 389s restant 10 min cm v A 25 000 k chant voie 0 125s Sy Configuration Taille fichier Ga yt trac 500 k chant H gt D part manuel D part Arr t manuel s O V a Arr t ms uite acquisition E Arr t R armement Sauvegarde dans fichier Voies logiques V 1111111 1234567890123456 3 voies actives Al A2 A3 et 4 voies logiques 1001011101001100 e F t printing a graph as a function of time e Digital printing digital values of the measurements as a table 2 Paper speed printing speed You can change it from 10mm min to 25mm s Page 8 1 3 4 5 T Direct Mode Print configuration see chapter 4 2 Start start condition of the print e Manual with the r key e Trigger with a channel with a combination of analogic and logic channels see chapter 5 e Stand by after a delay or at a precise date and time Stop stop condition of the print e Manual with the va key e Trigger with a channel with a combination of analogic and logic channels see chapter 5 e Stand by after a delay or at a precise date and time e Paper length after printing a programmed length of paper After acquisition action after the end of the print only possible if the start and stop triggers are not Manual e St
38. A A KNE E ka Page 3 3 Presentation 3 3 2 Description of the channel validation window 6b 1111111 1234567890123456 1 pa 4 5 6 6b Te amp Q 10 11 12 se L a Center zero OV Plot threshold T 0 5 V Position 0 Wr VY A A1 lt 5 0000 V 1 MQ Function Disabled BW 100kHz for ranges gt 1V a Copy to channe Change of the color of the channel by pressing this button you can access pre defined colors or design customary paint mixes J 88008 28 0D__5_0800 Lit Change the thickness of the line for the selected channel You can also change this thickness with the 4 thinner and miin thicker keys Checkbox to validate a threshold Current threshold value or change of the threshold value Information about the channel caliber thresholds offset Logic inputs real time status of the logic inputs Logic inputs validation of the logic inputs Access to the parameters of the various channels Temperature channels through PT100 or PT1000 type sensors Function channels they allow calculations between two channels Checkbox for validation of the channels Parameter zone you can change the name of the parameters Key to change of parameter and display the current value Note By pressing the logic inputs you pop up a window with all logic channels Page 3 4 Presentation Some information is available
39. A E S 16 4 16022 Alarm ODIS tasers todas N 16 4 1623 ExlemalPOwWer Supply eana a sei deabeoearectieeds 16 4 16 7 1 Ranges and accuracies for tension and intensity 0 0 eeeecesccceceeeeeeeeeeeeceeeeeeeaes 16 6 Osteo WCQUCIOY onea a E acc 16 6 O PONE ICO e a a a E A EN 16 6 TOs Peak ama peak TICO aen Summa dletantetda tant dieetuandnninadilanted 16 6 16 7 5 Rate of harmonics as calculated in power analysis ccccccccceecceeseeseeeeeeeeeeeaes 16 7 MO 80s Eome aa E uesyiad vosuansaaaa tien mei mate renee aah vouaneaneea 16 7 1092 NSIC OC C1 165 tao ee scald ee eet ence tances ae acne eons ae eee 16 7 TOE ls Weather condon oronro detects a a a N 16 8 IEI E Dimensions and Ne D ea n a casaad sens 16 8 16 13 1 Electromagnetic compatibility according to EN 61326 1 and 61326 1 2 16 9 16 13 2 Security insulation class installation CateQOry cc seeesssccceeceeeeeeeseeeceeeeeeeeas 16 10 16 14 1 Accessories provided with the appliance ccccccccccssssseseeecceeceeeaeeseeeeceeeeeeaaas 16 11 16142 Accessoires CLOPUONS esiin T E a a miasiaweateen 16 11 OAE 52 COMSUINADICS eni aa E tonsa hence eae case teks 16 11 APPEND Seen Pere emer One ae PO nr eae ee tN oe nm E oe eee ee ee S 17 2 IAEI JAnsulated Tension type Inpa Sia teen eas eae easter cose 17 2 Page 1 3 Table of Content Page 1 4 Important Information 2 IMPORTANT INFORMATION Please read cautiously the following instruct
40. ND or DELta means one of the thresholds OR all thresholds AND slope DELta TRIG COm DELta P1 P2 Selection of the slope P1 value from 1 to 500 P2 Sec or MIN or HOURS TRIG COm REset ON removes all channels TRIG COm ADD P1 P2 P3 Add a threshold to the trigger P1 Number of channel A1 A2 etc P2 Threshold S1 or S2 P3 POS or NEG for rising edge or falling edge Ethernet Interface TRIG LOG XXXXXXXXXXXXXXX1 trigger on logic channel VL1 TR CH A1 S1 EDGEP Trigger on rising edge of channel A1 threshold 1 TRIG CO DEL CO DEL 2 5 RESET ADD A1 S1 POS ADD A2 S1 NEG 2 thresholds S1 on A1 and S1 on A2 TRIG Returns the value of the selected trigger E ne The programmed trigger depends on the latest sent command alarm trigger start v stop etc Page 15 18 Ethernet Interface 15 5 7 Memory mode HEADER PARAMETERS EXAMPLES MEMSpeed P1 P2 MEMSPEED 10 MICRO Set up of the sampling period 10 usec period P1 Period from 1 to 500 P2 MICro MIlli Sec Min HOur is the unit Use of an external clock P MEMBLOC 4 Set up of the number of blocks 4 blocks P1 1 2 4 8 16 128 MEMBloc Returns the number of blocks and the validation of each MEMBLOC 4 2 4 blocks block incl 2 valid ones POSTrig P1 P2 STOP AUTO POSTRIG 0 Set up of the triggering position in the data acquisition Acquisition after triggering P1 varies from 100 to 100 in nE P2 ON or OFF inhibition of
41. O lt gt ix I Y m p gt wi e d gt gt I D D YPe FREQ Change of the channel to FRREQUENCYCOUNTER TYPe PT100 ou PT1000 P1 P2 Change of the type of channel to PT100 P1 W2 W3 W4 for 2 wires 3 wires or 4 wires P2 Value of the resistance if W2 P1 P2 Change of the type of channel to Thermocouple P1 Thermocouple J K T S B E N W P1 TYP COUNT 1 4 Change of the type of channel to COUNTER the command resets the P1 decision threshold in volt counter YPe Returns the type of channel Po P1 UNIT CEL Temperature unit in thermocouple and PT100 Unit Celsius TYPe THErmo TYPe COUNTer c Z r P1 CEL FAR KEL UNIt Returns the temperature unit of the channel Page 15 13 Ethernet Interface HEADER 2 PARAMETERS EXAMPLES FiLter FILTER 10Hz Definition of the filter of the selected channel from the CHANNEL command P1 WOUT F10kHz F1kHz F100Hz F10Hz F1Hz F10S F100S or F1000S Filter Returns the filter of the selected input P1 P2 P3 RANGE 12 3 0 Changes the caliber and the center of the input CHAN caliber 12 Volts P1 Caliber in ISO units Volts or C in real time centered around 3 Volts P2 Center in ISO units in real time P3 Position in percentage THREshold P1 P2 P3 THRES 1 ON 10 Definition of the thresholds threshold S1 10 Volts P1 SI or S2 P2 ON or OFF validation of the plot P3 Value of the threshold THREshold Returns the valu
42. ST EXAMPLES ___ DIRECTPLOT P1 DIRECTPLOT FT Set up of the transcription mode on paper in direct mode P1 FT TEXTe SPEed P1 P2 SPEED 10 MM_S Definition of the paper scroll speed P1 speed value 1 2 5 10 20 for P2 MM_H or MM_M 1 2 5 10 20 25 50 100 200 for P2 MM_S P2 units MM_S mm second MM_M mm minute MM_H mm hour Returns the status of the command SPEED or SPEED EXT Speed 10 mm s P1 P2 Set up of the paper period text mode texte P1 varies from 1 to 500 P2 is Sec or Min or HOurs Returns the period in text mode GRATicule P1 P2 GRAT G5 C Set up of the reticule on the paper P1 WOUT G5 G10 or DIV defines the type of reticule P2 Fine or Coarse TEXTSPEED 2 SEC CHART TITle P1 CHART TITLE OVEN 12 Set up of the title of the acquisition P1 message between apostrophes CHART DATe P1 CHART DAT ABS Set up of the type of date on the paper P1 ABSolue or RELative CHART DATe CHART BOUndary PT P Sets up if writing the boundaries at the end of the plot P1 WITH or WOUT P1 P2 Set up of the annotation mode P1 WOUT START ALarm or LENgth P2 is worth the number of alarm from 1 to 3 or the length of Writing the boundaries ANNOT LEN 20 Annotation every 20cm paper ANNOte ANNOte TYpe P1 P2 P3 Writing the names of the channels P1 NONAME or NAME writing the names of the channels ANNOT TYpe NAME NUM VALUE P2 NONUMber NUMber writing the names of the channels
43. Tension cursors horizontal cursors Zoom between cursors allows a zoom between the positioned cursors Zoom amp Zoom allow zooming or not onto a part of the data acquisition Plotting set up configuration of the data acquisition drawing Launch plot key Total display of the data acquisition Validation of the buffered channels to display 10 Cursor for scrolling along the data acquisition The upper window displays the number of the displayed block the sampling rate of the block the date of trigger the number of points per channel in the block a bargraph showing the filling level of the block and the position of the trigger Page 9 7 Template Mode 10 TEMPLATE MODE This chapter describes the Template mode designed to record in real time the measurement data made on the channels into the internal memory You can start the data acquisition under various conditions It stops when the measurement values go out of a range defined by a previous data acquisition called Template A simultaneous save of the measurements onto a file can be activated 10 1 Set up and launching of the data acquisition Go No go Press mode Set up of the data acquisition as a template into internal memory 1 64 200ps Trigger 09 44 46 28 jan D15 79 497 Kwords channel at FolderREC File_Record_ 000 M sample channel 2 08D File size 1000 M samples Automatic start Logic chann
44. actory offsets 10 Graphic options max position of the bargraph scrolling direction of the bargraph of each channel on screen e Right max value of the right channel e Left max value of the left channel Page 5 2 Use 11 Date change changing the date and time of the appliance 5 3 Channels Menu By pressing the menu channels you access the table of all available analogic and temperature channels of your recorder a oa FT A rne A2 A4 PT1 PT2 Name Channel 1 Channel Channel 3 Channel 4 TENE ph rion Voltage ps Voltage PT100 2 PT100 2 direct direct direct direct wires 0 00 Q wires 0 00 Q TEESIT av ime iee er T ee hreshold T2 0 5 V 0 5 C 0 5 C This table gives you a quick insight of the various adjustments of the channels You can change these adjustments directly in this table by pressing the parameter you want to update You can access the setting of parameters channel by channel by pressing the name of the channel at the top of the table A1 A2 or by pressing on the bargraph of the channel right side of the screen Page 5 3 Use 5 3 1 Analogic channels 1 J 3 4 of Plot threshold T1 JY Plot threshold T2 Logic channels 1111111 Position 0 fa sae gx 2 Copy to channe Number of the channel Name of the channel give a name to the channel max 26 characters Type selection
45. analysis aja EAO Bia An SD card FolderREC File_Record_ 125M lala 6 57H z File size File_Record_ 1000 M samples A vo Jf Max size Measurement Min Max Measurement Min OL mame sem Le fo wee ofa Te e fo oc hee foe hes fo Ui 426 9 V I1 RMS ES 200 A P Active P Power factor Ii 103 0 A U1 Crest factor I1 Distortion THD o 600 11 DC 1111111 1234567890123456 Joada j o o o amp 12 4 1 Parameter acquisition file You should first set the sampling period and the directory of the file There is no trigger as soon as the record is launched the values of the parameters are saved in real time into the file the data acquisition stops when pressing 2 in the acquisition page Page 12 6 Network Analysis 12 4 2 Recordable parameters gt Number of observed values you can select it under Number of parameters The possible values range from to 14 gt Selection of values you can select e Tension and Current o Efficient RMS efficient value o Fund fund efficient value of the fundamental o Average dc average value DC offset o Peak cr maximum value between the max and min peaks o Peak factor fcr ratio between the peak value and the efficient value 1 414 for a sinusoidal signal Total harmonic distortion THD ratio of the total presence of harmonics to the fundamental compone
46. ave to file 16 6 Data acquisition to file size of the internal flash disk 8 Go min min transfer rate 100 kwords s Trigger see paragraph 17 7 Pre trigger variable from 0 to 100 000 samples The real transfer rate depends on the number of channels to scan and on the current mode Page 16 5 Technical Specifications 16 7 Network analysis These accuracy values require that the nominal values are correct 16 7 1 Ranges and accuracies for tension and intensity Root mean square tension e range from 1 mVrms to 400 Vrms e Accuracy 0 5 of the nominal tension Root mean square current e Range Current values are always referred to as tensions the input values must be within the specified limits for the tension In most cases the instrument you are using to measure the current shall condition the measurement range e Accuracy 0 5 of nominal current margin of error for the measurement instrument Active power e Accuracy margin of error for current margin of error for tension Example The measurement of 230 V tension and 10 A intensity with a SP221 clamp 1 accuracy A in input yields 100 mV in output on the network analyzer e Tension 0 5 accuracy e Current 0 5 1 1 5 accuracy e Power 0 5 1 5 2 accuracy Magnetic fields The current sensors you use must conform to the valid norms with CE mark The influence on the recorder is negligible under a 1OOA m 0 50Hz field As far as possible keep the senso
47. battery is loaded the light turns off automatically External power supply The appliance can be powered by an external direct voltage power supply It works under 15V 5A The charger block provided when you bought the appliance can also work as an external power supply 4 6 Offset calibration You can easily calibrate the recorder inputs for the tension and thermocouple offsets To do so e Let the appliance work for 20 minutes ambient temperature 20 25 C e Link the to terminals on each input resp the red and black terminals for the isolated inputs e Validate all ON channels e Go to the homepage of the recorder and press _ J 8 on aie Additional option At Electronic calibration e Select then re a Calibration offset l l l l l l e Press gt to validate the calibration it will last ca 5 minutes Page 4 5 Set up and Precautions of Use 4 7 Default calibration You can restore the default factory calibration to correct any possible mistake in the calibration coefficients Go to page Electric calibration see the previous section a Recover factory calibration Press and validate to restore the default factory calibration coefficients Page 4 6 5 1 Use Description of the various modes Selection of the functioning mode of the recorder gt oe ey oe ey oe ey e Y DIRECT mode real time print out of the measured signals Option use im
48. cimal format NR1 15 4 3 Log of standard events Refer to the overview of the structures of status data The structure of the logs of standard events 1s appended to the bit 5 of the log of service requests Status log This log contains some specific standard messages whose meaning is exposed hereafter You can read its content with the command ESR Reading the log erases it The bits of the log of status of events are appended to specific events bit 7 POWER UP value 128 It shows that the appliance has been powered up bit 6 REQUEST FOR USE value 64 Not used Positioned to 0 bit 5 INSTRUCTION ERROR value 32 This bit shows that an unknown or wrong instruction has been sent to the recorder bit 4 EXECUTION ERROR value 16 Not used Positioned to 0 bit 3 APPLIANCE LINKED ERROR value 8 Not used Positioned to 0 bit 2 REQUEST ERROR value 4 This bit shows that the output queue is full and that the data is or may be lost bit 1 CONTROL REQUEST value 2 Not used Positioned to 0 bit 0 OPERATION COMPLETED value 0 Not used Positioned to 0 An event is authorized if the corresponding bit in the validation log of events is 1 Validation log It manages the status log of standard events When a bit of this log is 1 it authorizes that the status 1 of the bit of same rank in the status log of standard events leads to the switch to 1 of the bit 5 in the status log of service requests STB
49. couple You shall take the slope at 0 C while knowing that it will vary as a function of the temperature but this variation is generally of the second order for the accuracy calculation Slope of the thermocouples J S 50u V C 40u V C 10u V C 10u V C 9uV C 0 C 0 C 0 C 500 C 1000 C E 60u V C 26u V C 18u V C 50u V C 0 C 0 C 1000 C 0 C Page 17 3 Appends EXAMPLE OF ACCURACY CALCULATION You make a welding between 50 C and 50 C with a J thermocouple with compensation of cold welding Pt PI Ps Pm Pd Pl 0 25 C linearization accuracy Ps 1 25 C compensation of cold welding Used caliber 10mV see previous example Accuracy for tension measurement 0 1 10mV 10uV 20UV Slope of J thermocouple 50 uV C Accuracy Pm Pm 20 50 0 4 C Total accuracy Pt 0 25 1 25 0 4 1 9 C Page 17 4 Appends 17 4 Instant measurement accuracy as a function of the filters The instant measurement accuracy 1s specified with a 10Hz filter 0 1 of full scale 10u V 0 1 of the offsets Fr filters with higher frequency and for low calibers great gain the noise becomes more intense the product gain x bandwidth 1s constant you have to add some specification about the noise 1 e it is not possible to get an instant measurement accuracy of 0 1 on the I1mV caliber without a filter The table below gives you the typical noise peak to peak f
50. d from the right to the left Each channel is plotted between two dotted lines that show their limits The height of reticules is min 2mm for the plot External clock You can use the logic channel 16 see figure connector as a data acquisition clock for the sampling in memory or file mode The data acquisition can then be made up to 500kKHz Triggers You can use the logic channels to trigger the plotting and the data acquisitions start and stop AND or OR mode See chapter Trigger 14 3 Alarm outputs Available contacts and outputs on the rear connector A and B All outputs are TTL 5V When the appliance is powered off A and B outputs have a 5kQ impedance Page 14 3 Inputs Outputs 14 3 1 Use Signal for internal events to the outside toward the recorder triggers on logic or analogic channels status of the printing block See chapter Use 14 4 Power supply output There is a power supply output restricted to 0 2A see figure connector The tension is the one of the 9 12V battery as a function of the charge and 15V is the charger is connected The ground of this power supply is the mechanical ground Thus you can use this output to provide power to a sensor or an electronic circuit in order to manage the logic inputs ne The power supply may disappear in case of overload gt 0 2A In this case you must turn off the appliance a few minutes before turning it on again Page 14
51. ee ner 6 4 Ol Tresecron Losie Channels suii3ss5 cae saest ed iehoudatre a 6 5 Te MATHEMATICAL CALCULA TIONS ernaten a Parte catia cae 7 1 DIRECT MODE ceruen a a E T E E 8 1 9 MEMORY MODE a hasta ia aa ras ata Bh age iste aad cua stata Manan veaniaal douse beanies 9 1 BOs TEMPEATE MODE runs a 10 1 Hs PEE MODE aiee E E E E E E EA NT secant 2 12 INE EPWORK ANALY SIS secreten a aTa aa e ETa 12 1 2AA Parameter acquisitiOm Hle sospiiininae a 12 6 13 14 15 16 Table of Content EZ RCDE par e chars a erat tendancy aed leat ce Weed eatean ce east ae fice 12 7 FILE MANAGEMEN ssncisesveasisacnsenusles iee a AEE a r 13 2 D2 Save sel UD TE enire E T 13 3 122 Eott setam ES ra a E E ET 13 3 D2 SNe ata acou HONS errn a oth oranam ind a tnseerin hea eens 13 3 1324 Recovery ofthedataacguisimon Mesnine sai aE 13 5 Dok Taneri PEP enn a A E 13 7 1332 Display Under Senam 16 wei eion E ie entiation 13 8 1533 Manaeme with SelramPilOt aeann a R R 13 9 INPUISV OUIPU Siruna a a a 14 2 MAD lise DOn A E ani ac tea 14 3 Po NSC a a a E a A E 14 4 ELHERNE CENTERS CE eio E E EE 15 2 Dale Genera ee E aan asta sld ee nena eaten 15 2 15 21 Formatofth recepton Messages nass E 15 3 15 22 Formats of emission MCSSAGCS eerie e a co teataiuebendi deta ecaniees 15 4 DAL Suce VOT Desas daara a dd Masa a 15 7 A2 DAN Ce ESL OSS a A E tate casa dcew 15 8 T9452 TOS OF SANA evo D ec aa a a a 15 9 WAA Loroaren a a a 15 10 15 4 5 Use ofthe status data s
52. els Select channel 1 channel for Go No go A1 Edit Go No go 1234567890123456 y DOO 524 k samples channel Acquisition time 1 min 44 s Page 10 1 Template Mode Blocks parting of the internal memory in blocks e 1 2 4 8 16 32 64 or 128 e Erase blocks erasing of all blocks the current block is 1 Acquisition period sampling speed of the channels e internally paced from lus to 20min e externally paced by the logic channel 16 Real time save simultaneous record of the data acquisition into a file e directory and name of the saving file e maximum length of the file Start start condition of the data acquisition e Manual with the va key e Trigger with a channel with a combination of analogic and logic channels see chapter 5 e Stand by after a delay or at a precise date and time Automatic immediate automatic stop when the block is full Template channels channels to compare with the template access to the set up of the template After acquisition action after the end of the print e Save file save the data acquisition into a file if the Real Time save has not been validated or 1s impossible Draw plotting the data acquisition Stop no other action Relaunch waiting for the Start trigger Change set up loading a configuration and waiting for the Start trigger Impossible shows up when there is not enough place for saving data you should reduce the sampling rate or the number of channe
53. en before the end of this phase In case of repetitive signals the trigger should be inhibited Delay to memory input 50 Delay to memory input 50 from the 1 position of buffer from the 1 position of buffer 9 5 Double Trigger mode In this mode you will use a start trigger and a stop trigger Measurements between these two triggers shall be registered Data acquisition will stop automatically when the stop condition is valid or when the memory block is full An information window will sum up the general configuration of data acquisition channels and functions between channels validated for data acquisition number of points per channel as a function of the number of blocks total data acquisition time as a function of the acquisition speed position of the trigger as a function of pre trigger phase MEMORY MEMORY Trigger gt Le Start of buffering 2 channels active A1 A2 l l 262 k samples channel p uisition time 52 400 5 Trigger 5 240 s Page 9 4 Memory Mode 9 6 Recording You launch the data acquisition by pressing val after pressing At the top left of the screen appear the number of the pending block if required the current sampling rate the status of data acquisition waiting for trigger filling xx the opening of a save file if required abargraph showing the percentage of data acquisition made and the percentage of data acquisition displayed Pressi
54. enu Press J 9 a then P ault set up Page 4 2 Set up and Precautions of Use CONNECTION TO THE MEASUREMENT NETWORK 4 3 1 Tension measurement The tension is measured between the red and black terminals of the inputs with wires and male security pin plugs according to CEI 1010 4 3 2 Temperature measurement with a thermocouple The tension resulting from thermocouple effect must be measured between the red and black terminals of the relevant input To provide right measure values connect the two ends of the thermocouple cord directly onto the quick fastening socket Plug the two pin plugs onto the selected input with respect of the polarity Te Do not use welding male pin plugs the welding would alter the thermocouple effect 4 3 3 Temperature measurement with PT100 PT1000 The PT100 probe must be connected on the I et I terminals The tension from the PT100 must be measured between the and terminals with one of the two following mountings 2 3 or 4 wires The 3 or 4 wire mountings make the measurement independent from the resistance of the line Wiring 2 wires 3 wires 4 wires 4 3 4 Current measurement You can make current measurements by shunt between the red and black terminals of the relevant input In this case select the current type among the parameters of the relevant channel Connect the measurement wires to the terminals of the shunt The results are directly displayed
55. ery requires dismantling of the appliance and shall be made by a SEFRAM technician Only use batteries provided by SEFRAM Security advice e Never heat up or throw the battery pack into the fire Never shunt parts of the battery risk of explosion Do not bore the battery Do not dismantle the battery pack Do not reverse the polarities of the battery This battery pack includes a protective item that shall not be damaged or removed Do not store the pack in a place exposed to heat Do not damage the protective sheath of the pack Do not store the appliance in a vehicle exposed to sunbeams Page 4 4 Set up and Precautions of Use The battery should last 200 charge discharge cycles or 2 years Advice to extend the life of the battery e Do not discharge too much e Do not store the batteries too long without using them e Store the battery at around 40 charge e Do not fully charge or discharge the battery before storage When the battery is practically discharged the appliance closes all open files stops correctly the software then shuts up by itself Attention When the charger is connected to the appliance the metal frame is grounded To recharge the battery inside the appliance Connect the provided external power supply on the jack plug of the appliance Connect the mains The internal charger starts loading the battery the green light of battery charge lights up You can charge the appliance when on or off When the
56. es of the 2 thresholds Return of the instant values EN TETE PARAMETRES EXEMPLES Returns the values of all channels and of the logic channels or of the parameters in network analysis Page 15 14 Ethernet Interface 15 5 3 Functions of the channels and between channels HEADER t PARAMETERS EXAMPLES FUNCMATH CHAN 2 FUNCTION LOGX ee the selection of a mathematical function for the The channel 2 aLog x b CHANNEL input P1 Type of function NONe UNIT AX ABSX SQRX SQROOTX LOGX EXPX AINVX ADVDT AINTV none change of unit ax b a x b ax b P1 P2 COEF A 2 COEF B 0 Definition of the coefficients of the function A 2 P1 A B C or X1 X2 Y1 Y2 B 0 Returns the values of the coefficients of the function of the CHANNEL input P1 UNITF DB Definition of the unit of the function P1 name of the unit max 6 characters between two or P1 P2 P3 Additional function between channels P1 Number of the channel 1 from A1 to FF P2 Operateur PLUS MINUS MULT DIV P3 Number of the channe 1 from A1 to FF FUNCXY Returns the function P1 RDU ISO ONOFF Selection of the measurement unit AEE OROT P1 ISO unit of the channels A1 ON ONOFF A3 ON RDU l ISO DRC NORM standard unit between 0 and 10000 FUNCTion P1 Validity of the functions in general P1 ON or OFF FUNCTIon Returns the validity of the functions Page 15 15 Ethernet Interface 15 5 4 Paper HEADER PARAMETERS CC
57. f the channel A1 A2 you directly access the parameter setting page of the channel 16 Configuration of the function channels calculations between several channels 17 Activation or deactivation menu of the various channels Page 3 8 Presentation 3 4 Update of the internal software The internal software is regularly updated with the latest evolutions These updates are available on our website http www sefram com wwwit F_D SOFTWARE asp To update it copy the file you receive on an USB stick Plug it on to the USB connector at the rear of the appliance ae gt Software Press he then press S 2E update to access to the update gt a To launch the update process press So gt The internal software automatically copies the files required for the new version Stop and restart the appliance at the end of the update process Page 3 9 Set up and Precautions of Use 4 SET UP and PRECAUTIONS of USE 4 1 Loading of the recording paper NOTE Only one face of the paper is heat sensitive Reversing the paper at loading will result in the absence of any printing out Procedure e Lay the appliance on the right side Lift the extractor of the roller on the lid Install the paper into the receptacle no de ref must be on the side of the plugs Introduce the paper into the slot of the lid Close the lid by firmly pressing it on both sides A bad paper feed could damage the motor and the thermal head
58. file the appliance waits for the start condition 5 Network analysis mode real time data acquisition directly into the internal memory there is no trigger In all cases to force the record to start or stop when the conditions registered in the recorder are not met you only have to press gt to force the record and W to force it to stop TF In Memory Template or File mode the appliance switches automatically to display of the current data acquisition 1 64 200ps Trigger 09 26 01 28 jan 2015 7 i pa 09 26 15 0 108 Kwerds chanel m gt G EE a owsa the top of the screen with the pending block number 1f relevant the current sampling rate the status of the data acquisition stand by pending xx the opening of a save file if relevant a bargraph specifying the percentage of data acquisition achieved and the percentage of data acquisition displayed Page 5 14 Use 5 9 Screen copy You can create a file copying the content of the LCD screen pai O You only have to press at the top right of the screen The file will be created either onto the USB stick if there is one or into the internal memory The name of the file will be bmpxxxxx bmp incremental name In the internal memory files are saved in the FolderBMP directory You can either copy this directory into an USB stick or delete it You can also use a ftp link to recover these files Page 5 15 Triggers 6 TRIGGERS
59. from a recorder to a controller to the recorder are made as messages made of a chain of ASCII characters and possibly of binary octets with a message termination at the end The format of emission messages is identical to the reception messages although with a more rigid Structure The syntax of an emission message is Message unit message termination Page 15 4 Ethernet Interface Message unit If the message includes several message units they shall be separated by a semicolon Message termination LF Line Feed 10 in decimal format Syntax of a message unit A message unit ex TYP THE J COMP is made of several fields One header ex TYP THE made of only one simple header or several compounds header chains of 1 to 12 alphanumeric characters upper scale only or digital or _ code ASCII 95 in decimal format A header chain always starts with an alphabetic character In a compound header chains of characters are separated by ex TYP THE Header separator space 32d only One or several pieces of data ex J J COMP alphanumeric digital or compounds of any characters or binary octets Data separator Comma Data There are several types of data Alphanumeric data 1 to 12 character words that can be alphabetic upper case only digital or _ 95d coded under ASCII example J Decimal digital data Made of a chain of ASCII characters starting with a cipher
60. g There is no trigger the record is made in real time directly on the disk During the data acquisition you cannot change the parameters of data acquisition but you can change the display parameters zoom color display validity You can also display signals in scope mode or display the parameters in digital mode To stop the data acquisition press W l 12 6 Measurement process N x2 Efficient values X T k Average values Active powers Apparent powers Reactive powers Power factor Peak factor Total harmonic distortion Distortion factor Total active power Total reactive power Total apparent power Total tension Total intensity Power factor ee we Xk P h P P Q 0 Q Q S P O _ U U U5 U U IL L L P FP Energy cumulative value of power P this value is reset in the Visualization page Attention the maximum value of energy during the data acquisition is restricted to E Pn H where Pn nominal power H 12 hours Page 12 8 File Management 13 FILE MANAGEMENT 13 1 General For all possible files the appliance has an internal flash disk available and may accept an USB stick which makes it possible e to save and load the total configuration of the recorder e to save or restore a data acquisition The names of the set up files have a cnf extension The names of the data acquisition files have a rec extensi
61. g a directory all files in this directory will be erased too 13 2 Management of the configuration files l J g Configuration YU The configuration file management page is linked to the key There name bear the enf extension Configuration Fy Initialisation configuration 1 R cup rer sur disque 2 Sauver sur disque 1 3 1 Reset sets up the appliance in standard configuration 2 Load from disk loads a configuration from a file in the internal flash disk or an USB stick 3 Save to disk saves a configuration into a file in the internal flash disk or an USB stick 13 2 1 Save set up files Press Save to disk You can type the name of the file with the alphanumerical keyboard displayed on screen A Advice Do not save files to the root of the disk create directories for a more efficient il v management 13 2 2 Load set up files Press Load from disk Select the directory and then the file to load and click Load al tg Attention you will lose the pending configuration 13 2 3 Save data acquisitions There are 2 ways to save data acquisitions into the appliance in Manual mode after a data acquisition in Real Time during a data acquisition Page 13 3 File Management Manual Lire bloc Available under every mode you can access it from the enou fichier function after stopping gt Sortie m moire the sweep and pressing The following window pops up
62. gital display mode displays the digital values of all channels in real time on screen When pressing one of the channels you access directly to the parameter page of the corresponding channel ala 00 BS Ar Page 5 11 Use 5 6 Trigger menu Programming the start and stop conditions for the paper print in Direct mode and the data acquisition conditions for the channels in Memory File and Template modes Selection of the actions after data acquisition or plot and validation of the save in real time 250 M sample channel 13 53H Qe LAL A1 Trigger T140 5 V Stop A2 Trigger T1 0 5 V 1111111 1234567890123456 The program of triggers is different according to the pending mode Direct Memory File or Template See the chapter of the pending mode for more details Page 5 12 Use 5 7 Memory output key Display on screen of the data acquisitions available from the internal memory or from files of the internal memory or an USB stick File_Record_0038 200s Trigger 13 42 15 23 jan 2015 i 09 25 08 reenter C O Fay E AN oee 1 501 2ms 2 557 5ms T 56 26ms Fr 17 78 Hz p 3 Read file og Math Zoom between A cursors co Sn oP EN S PSA Plotting ue set up 23 01 15 23 01 15 23 01 15 23 01 15 23 01 15 23 01 15 23 01 15 23 01 15 23 01 15 13 42 15 13 42 16 13 42 16 13 42 16 13 42 16 13 42 16 13 42 16 13 42 16 13 42 16 4 ki elo
63. hain of characters simple header or several chains separated by compound header A chain includes from 1 to 12 alphanumeric characters or _ code ASCII 95 in decimal format Recommended chain length 4 characters A header chain always starts with an alphabetic character It may be preceded by a colon compound header or end by a question mark query message Header separator One or several ASCII characters 0 to 32 decimal except 10 and 13 One or several pieces of data ex SPEED 1 MM_S alphanumeric digital or compound of various characters or binary octets Data separator A comma possibly followed and or preceded by one or several filling characters in ASCII code 0 to 32 decimal except 10 and 13 Data There are several types of data Alphanumeric data 1 to 12 character words that can be alphabetic upper case or lower case digital or _ 95d coded under ASCII Words always start with an alphabetic character For example for a non digital parameter S1M Decimal digital data Made of a mantissa and possibly of an exponent and shown as a chain of ASCII characters starting with a cipher or a sign or They are of NR1 integer NR2 decimal or NR3 type with exponent or of a combination of these three types Text Any chain of ASCII 7 bit characters between brackets or apostrophes ex Channel 1 15 2 2 Formats of emission messages Exchanges
64. he position of the Start trigger in the data acquisition data acquisition before and after trigger before or after Start and disabling of the trigger n Start You can access this menu when setting a trigger by pressing o J Disable triggers Pre trigger 10 e Trigger et Waiting Threshold T1 Automatic Threshold T2 oH wy Channel A1 Mo boo gt higher lt lower A Combination __ analog channels Logic channels Rising edge Glitches wy Falling edge Page 9 2 Memory Mode al Impossible shows up when there is not enough place for saving data you should reduce the sampling rate or the number of channels Te See chapter File mode to know the restrictions of the recording on file 9 2 Sampling period When the frequency of the input signals is too high to record them in Direct mode you must record the measurement signals into memory at high sampling rate it is the Memory mode Sampling consists in recording the instant value of a signal at regular intervals and storing each of these values into a memory To get adequate acquisition of a periodic signal you need to choose a sampling period compatible with the frequency of the signals present at the input terminals of the recorder A 10 dot per signal period definition is minimal for a satisfactory plot 9 3 Internal memory blocks The available memory in the recorder can be shared into bloc
65. ion you want in the following window Mode X channel Y channel Coefficient a 1 Q ax by c Q Channel A1 iam Channel A1 vy vy x y Coefficient b RMS x _ Channel A2 E a Channel A2 0 Coefficient c Frequency x Channel A3 a Channel A3 e Filter x Channel A4 bw Channel A4 Unit A Channel PT1 Channel PT1 Bas Format Channel PT2 Channel PT2 1 23 KV ISO For the calculation of power you will have a x y b with x channel Al operator unit W y channel A2 coefficient a 1 coefficient b 0 Page 5 6 Use 5 3 3 Logic channels The 16 logic channels can be recorded simultaneously with the analogic channels To set the parameters of the logic channels you can press the logic channels menu on the main window or directly press the logic channels part at the bottom of each configuration window a Logic channels FA 1111111 1234567890123456 You access the configuration page of the logic channels Logic channels 1111111 1234567890123456 1 Selection of the name of each channel on screen 2 Selection of the color of each channel on screen 3 Logic validity validation of the data acquisition and plotting of the logic channels Page 5 7 Use 5 4 Validation of the channels You can validate or not the channels to record or print out in the various configuration menus of the recorder In order to validate or not
66. ional channels by checking channels to record in the set up of your network analysis The number of channels will change as a function of the network single phase more additional channels three phases less additional channels Page 12 3 Network Analysis Eja S3 Belg A Type of arcuit Single phase Q Delta Aaron gy Initialization ey Voltage Current Q Current clamp Shunt Transformer Current transformer Nominal voltage 240 V Primary secondary 1A 1V U1 426 8 V Nominal current I1 102 9 A 1111111 1234567890123456 Validation of the additional channels aAA Ba Ar Type of arcu Q Single phase Delta Aaron gy Initialization ea Voltage Cirene Q Direct Q Current clamp Shunt Transformer Current transformer Nominal voltage 240 V Primary secondary 1A 1V U 426 8 V I 103 0 A Fr 55 HZ Nominal current 1111111 1234567890123456 Page 12 4 Network Analysis 12 3 Real time display of the signals J z 10 04 32 w C n fey AA Home Ui 426 8 V S e K gt I1 102 9A Fr 55 Hz U1 RMS 426 8 V I1 RMS 102 9 A P Active P 74 99 kw U1 Crest factor 1 422 Ii Distortion THD 2 1 11 DC 0 6 A ii HH 5 10 15 20 25 30 35 2 By pressing EN you have access to the following windows You have access to this page even during data acquisition Each of these windows can be invalidated b
67. ions before using your recorder 2 1 Specific cautions Do not use the product for any other use than planned Use normalized cords for the connection of the appliance to the measurement points To prevent any risk of electric shock never plug or unplug the measurement cords when linked to the mains Never use in a wet environment Never use in an explosive atmosphere In case of malfunction or for the maintenance of the appliance only a qualified personal shall be allowed to work on it In such a case it is necessary to use Sefram spare parts Never cover the appliance there is live tension 2 2 Security instructions For correct use of the appliance it is necessary that the users abide by the security instructions and the instructions of use described in this manual Specific warnings are provided all along this manual If required there are warning symbols on the appliance Symbols and definitions Symbols in this handbook Warning potential danger for the user y Attention potential danger for the appliance and or the connected equipment al lg Remark important information Page 2 2 Important Information Symbols on the appliance Danger high tension immediate corporal danger instrument or to the instrument itself Attention See the handbook Risk of damage to the material connected to the Ground accessible parts linked to the ground of the appliance 2 3 Conformity and limits of the
68. is window ccccccccecceeeeeseeceeeeeeeeaeeeeeeeeeeeeeeeaas 3 6 MAIN MENU pee hearer dea rivet ete etree oe deeds rived oda ered na a oeeeannieeee 3 7 A SET UP and PRECAUTIONS Of USE cnocie ue aa era e ea 4 1 4 1 1 Precautions for storage of the recordings ccccccccccceceesseeeseeceeeeeeeaaenseecceeeeeeeeeeesees 4 1 A Deli Tension measure INC Niners rrr Soest tin eet A oeetnaeee 4 3 4 3 2 Temperature measurement with a thermocouple cccccccscccceeceeeseeeeeeeeeeeeeaeeeeees 4 3 4 3 3 Temperature measurement with PT1OO PT1000 cc ccccccceesseeeeeeeeeeeeeeeeeeeees 4 3 Ate Curent ME ASUT CIMCIN escea e E EN TE 4 3 433 COMNECHONOF Me round isese AA ta aeneeunanls 4 4 s Ubea T a eet dacs sate sana ocala teehee ct eons 5 1 Jarle Analogic eanne Banene a a aa 5 4 5 3 2 Additional functions between chantnels cc eeccccccccccceessesseeececeeeeeeesseeeeeeeeeeeeaeesees 5 6 Ios Lope CAMS IS psa aac snttg hectcees E hsaheos date ace eons Il 5 5 1 Real time on screen display of the measurements eessessseooeeesssssssseeerssssssssseerees 59 DD NS AY n Seed tea ea destino ure nda dete eas 5 10 Des DISA display oecacena n cckucnnendenMiuaardahipord ieadauiarsinardeeMeaastadanend ids a 0 RIGGER erm em a ee ne ee a eee er 6 1 Orla SM eC SG Oi sneer pe tha eee leno eerie teehee hha ak bomen ian aul 6 2 GMD ANTONIS CS OMS 5 issceccctieticndins teseate tien E E 6 3 Okos Para oe gf eo eS eee er
69. isplay mode f t or xy e the autocalibration of the channels Your data acquisition file shows up on screen Sefram Viewer functions are available Fa HELLER o003 rec Aide BNR A E CADASRecorderHelZe rec 10000 echant voles Fichier Graphique Option date J Pasitionk Courant H osition Y mmm 1 459 16 818 File Management OBVU6 2008 09 55 29 Position amp mrmr Courant 4 Position Y mrmr 17 03 53 5 Us div Refer to the user s manual included in the software to discover all functions of Sefram Viewer by clicking the last icon Help Page 13 8 File Management You can also directly create a result file text or Excel file by launching the following line in the Windows command mode see Menu sub menu Help Options Example C Sefram Viewer monfichier rec x direct creation of an Excel file C Sefram Viewer monfichier rec t direct creation of a text file Excel export directly launches Excel in the explorer Schat OLA Giles mI Sona Fichier REC echa orad OUYFIN b Fichier REC hapee pey 5 Excel export o Fichier REC 13 3 3 Managing with SeframPilot You can manage the recorder directly from SeframPilot This software allows you to Manage set ups creation and change set up files Start and stop records Load data blocks Load files thanks to Windows Explorer through FTP Launch SeframViewer Real time dis
70. k 2 10000 octets READPACQ Reading the packet defined by DEFPACQ in binary A4octets length of the packet DEFPACQ 1 10000 4octets number of the received packet READPACQ 4octets checksum of the packet A4octets length of the total file for the packet 0 only Recovery of the next packet Page 15 23 Ethernet Interface 15 5 14 Request of service Refers to the explanations about the structure of the status data HEADER PARAMETERS EXAMPLES SRQ_ENABLE P1 SRQ_ENABLE 3 Allows you to modify the validation log of alarms P1 value of the log 3 1 2 chich means bits 0 and 1 decimal use The start and end of drawing draw start will be specified in the log of draw end service requests writing end paper end open table data acquisition start data acquisition end acquisition trigger SRQ_ENABLE Returns the value of the validation log of alarms J SRQ TYPE Returns of the value of the status log of alarms SRQ_TYPE The log is then erased the recorder returns SRQ_TYPE 4 The set up of each bit is identical of the one of i e a writing procedure has SRQ_ENABLE ended 15 6 Error messages When a problem arouses in the programming of the recorder through the interface a debug window pops up on screen to help you identify your mistake 6 _ Wrong message separator Too long word 8 __ Wrong format for text parameter _ 9 Forbidden request Impossible in this context Checksum error
71. ks that will be filled one after the other at each data acquisition The acquisition depth is worth N B V N total memory amount B number of blocks V number of channels to scan Example memory 32 Mwords 16 blocks and 3 channels ON we shall have N 32 554 432 16 3 699 050 words channel Any new data acquisition goes automatically into the first free block in increasing order When all blocks are full any new data acquisition will shift the previous blocks from the N position into the N 1 position the 1 block will be lost The new data acquisition will take the place of the last block 9 4 Trigger position The data acquisition into a memory block relies on the concept of circular buffer e the buffer is filled from the starting condition on e the buffer is filled as long as the stop condition is not valid when the buffer is full it fills from the initial position of the buffer zone block Page 9 3 Memory Mode Thus the memory block always contains the last N samples The operator can select when the samples in buffer will be frozen to do so you will select a delay between the trigger start and the beginning of the effective buffering This delay may be positive or negative thus buffered samples may be before after or on both sides of the start moment You can also not inhibit the trigger you will be able to test the trigger during the pre trigger phase in case the trigger should happ
72. ls See chapter File mode to know the restrictions of the recording on file Page 10 2 Template Mode 10 2 Creation of the template Make a data acquisition into memory a Trigger vw Edit Go No go Press then select The appliance displays the current template It is marked as 2 curves a min curve and a max curve around the channel selected as a reference for the template The 2 curves are saved in internal ROM ppn Ioomr e AX en eee U E OERE eC m Alt Vy ee i se 2 eee ee oloh o o oo d er er er ee jooo aoo eee eee a el ees Ee Gee cer ee 6 ooo oh Poe eee ee ee i ee CIERRE E ee Ri EENEI Oe CREAREA ERARE T i a EINER 2 OOE TI ef edb ee ee oe wf et ee ew ew gd dfn 2 we we ee tf bf em ew ow ow fo fel we ee ee we fe fe ew ee wf at fp ee ee ee oR Oe ee et Ge ew ee ee E en ee es fe ee Ge 6 ee ee ee es Od eS 2 ee ok he ojoh ooo ooo of ol oo o o d de oeoo oc a fhe oo fe fel oe coo ooo 6 he ld eo o o o of al bf oo we ew we Ob ooo o h feso 6 o 1 Channel allows the selection of the reference channel 2 DX amp DY allow you to build the min and max curves 3 Begin amp End limits of the memory extent where the trigger test shall be made 4 Save Go NoGo as soon as the template is correct you can save it into the internal ROM You cannot save a template on a file To save a template on a file save the block and the channel in
73. lue 1 This bit shows that a printing has started An event is authorized is the corresponding bit in the validation log of events is 1 Validation log It manages the status log of alarms When a bit of this log is 1 it authorizes that the status 1 of the bit of same rank in the status log of alarms leads to the switch to 1 of the bit 0 of the status log of service requests STB You can write into this log with the command SRQ ENABLE lt NRF gt where lt NRF gt is the sum of the binary values of the validation log You can read the log with SRQ ENABLE 15 4 5 Use of the status data structure Before use it is advisable to send the instruction CLS to the recorder to reset the status logs The user must first set which events to detect by authorizing them in the validation log with the instruction SRQ ENABLE n for events in connection with the alarm logs with the instruction ESE n for events in connection with the logs of standard events with the instruction SRE n for events in connection with the log of service requests Page 15 10 Ethernet Interface Example Programming a request of service for a start or an end of the paper print an instruction error the presence of data at the output of the recorder with the instructions SROQ_ENABLE 3 Bit 0 and 1 to 1 ESE 32 Bit 5 to 1 SRE 49 Bit 0 4 and 5 to 1 The controller should regularly read the log of service requests with the instruction STB
74. lug in Shunt 10 Q 0 1 0 15 A plug in Shunt 50 Q 0 1 0 05 A plug in Shunt 0 01 Q 0 5 30 A external pins Shunt 0 001 420 5 50 A external terminals Current clamp Flexible current clamp 30 300 3000 A Logic box FLEXPRO software basis FLEXPRO software complete Crossover Ethernet cable 16 14 3 Consumables Paper roll Set of accessories for 2 channels Technical Specifications 207195117 214200250 214299014 837500526 215508020 215508021 4310 4I 100 R 4310 4I 100 N 5004 IEC R 5004 IEC N 902001000 910007100 910007200 989006000 912008000 989007000 207030301 207030500 SP120 SP270 A1257 3 phase A 1287 mono 9844005500 910008100 910008200 910007300 837500526 7004000 Page 16 11 Appends 17 APPENDS 17 1 Information about the input calibers Reminder The caliber is the difference between the max and min values that you can display on screen or on paper The origin is the center of the screen or of the paper 17 1 1 Insulated tension type inputs These inputs are equipped with an analogical offset system that may reach up to 5 caliber values Hence you cannot shift the measurement stops without changing the definition up to 5 caliber values The software allows you to program any caliber and any offset it selects then the real analogical caliber and offset best suitable according to the table below closest upper caliber and offset 1000y SOV SOV Page 17 2 Appends
75. mediate paper printing slow protracted data acquisition possibilities complex triggers of the drawing action after the end of the drawing simultaneous record on file MEMORY mode quick acquisition into internal memory of the measured signals use quick short data acquisition transitory possibilities complex triggers of the data acquisition action after the end of the data acquisition simultaneous record on file TEMPLATE mode quick acquisition into internal memory of the measured signals use quick short data acquisition transitory for capture of non repetitive events possibilities complex triggers particularly when outrunning a pre recorded template from a channel action after the end of the data acquisition simultaneous record on file FILE mode quick acquisition into internal memory of the measured signals use quick protracted data acquisition only restricted by the size of the saving means possibilities complex triggers action after the end of the data acquisition acquisition of very big amounts of data NETWORK ANALYSIS mode single phase network analysis three phase analysis Aaron mode two wattmeter method only on DASSQO Data acquisition on internal memory Page 5 1 Use 5 2 Set up menu General configuration of the appliance monitoring of the alarm outputs network address TCP IP calibration of the channels update of the internal software ZE Bd w E Screen shut off Disabled y
76. n Peak to peak y Overshoot Lx y Width Ww Cycle mean Low value Frequency N J Width RMS High value Period D Duty cycle RMS cycle iF l Add add a mathematical calculation 2 Remove remove one of the displayed mathematical calculations 3 Channel selection of the channel on which the calculation is applied 4 Function selection of the calculation function applied in the formula You can change it by pressing directly on the type which opens a window with all available calculations Page 7 1 Mathematical calculations 18 various mathematical formulas are available You can display up to 5 simultaneous calculations on screen The display is made in windows above the diagrams where are specified e the number of the channel with its color e the type of calculation e the value of calculation Under Direct display calculations are made in real time and the display is updated every 300ms The calculation is made on the 1000 points displayed on screen Hence the time resolution is 0 1 7 2 Types of calculations Peak Peak time rise time fall Page 7 2 Mathematical calculations On positive oscillation On negative oscillation VN Frequency U Period E Rising edge The highest positive tension peak o Duration of N complete period The lowest negative tension bottom Max Min The most frequent value below the media
77. n value above the median High Low Max High 100 Amplitude Low Min ______ x Q Amplitude Average frequenc Period E a 7 Average duration of a complete cycle calculated on as many periods as possible T 10 Amplitude T2 90 Amplitude Trise T2 Ti Page 7 3 Mathematical calculations T 90 Amplitude Falling edge T2 10 Amplitude Tran T2 Ti Width of Measurement of the time of 1 positive positive pulse It is measured at impulsion 50 of amplitude Width of Measurement of the time of 1 negative negative pulse It is measured at impulsion 50 of amplitude Positive cyclic positive pulse duration ratio period Negative cyclic negative pulse duration ratio period Calculation on the I whole graphic range N total number of dots Average Calculation on the whole graphic range Page 7 4 Direct Mode 8 DIRECT MODE This chapter describes the Direct mode of the recorder designed to print out the measurements made on the channels in real time on heat sensitive paper al la This mode does not exist on models without integrated printer You can start and stop the print out under various conditions You can activate a simultaneous save of the measurements on file Launching the printing Press a ne or a D clencheur Programming the start and stop conditions of the print 1
78. n top of the paper 3 Boundaries possibility to note the boundaries of each channel same as on screen at the end of the print 4 Notes possibility to write notes while printing e without at the beginning of the printing on alarm on a length of paper Page 8 3 Direct Mode 8 3 Relaunching the printing In relaunch mode as soon as stop conditions happen the appliance waits for new start conditions for the print out To terminate the cycle you only have to force the interruption of the print by pressing W during the print 8 4 Writing information At the beginning of each printing the date and time and the programmed title appear at the top of the paper The number of each channel appears on the plot Page 8 4 Memory Mode 9 MEMORY MODE This chapter describes the Memory mode designed to record in real time the measurement data made on the channels into the internal memory You can start and stop the data acquisition under various conditions You can simultaneously save measurements on file 9 1 Set up and start of the data acquisition Press Sue a Set up of the data acquisition into internal memory ary KHAO CET A av T E y a L 7 SS FolderREC 2 o o em Erase blocks 500 M sample channel 1 04D File size 1000 M samples Start on channels A1 Trigger T1 0 5 V Logic channels Stop on channel Stop Stop a Lee Tt 2 A2 Trigger T1 0 5 V o a
79. nary format The appliance returns 4 octets giving the number of octets and 2 giving the checksum to send then the configuration file N configuration octets SENDSETup Send a set up under binary format YOU send 4 octets giving the total length of the file and 2 The length of the file is 6600 octets giving the checksum of the set up octets KEYBLock P1 Locks the keyboard ON or OFF Page 15 12 Ethernet Interface 15 5 2 Parameters of the channels PARAMETERS EXAMPLES p CHAN B3 We chose to change the channel 3 of card B Allows you to set the CHANNEL input you can change with the commands P1 selection of the input A1 A2 etc Returns the number of the selected input and its value P1 P2 VALID ALL OFF VALID A1 ON VALID LOG ON Only the channel A1 and logic channels are authorized Definition of the authorization status of each channel P1 ALL for all channels or A1 A2 etc for each channel LOG for the logic channels P2 ON or OFF ALID Returns the validity of all inputs P1 Allows to change the name of the CHANNEL input CHAN B3 NAM four1 P1 name 26 char Max between two or NAMe Returns the name of the channel TYPe VOLtage P1 TYPE THERM K COMP Change of the channel to TENSION Use of a thermocouple K P1 DC RMS DVDT SVDT N PRR AVER P1 P2 Change of the channel to SHUNT P1 DC or RMS P2 S1M S10M S01 S1 10 S50 for 1mOhm 50 Ohm lt lt IO
80. ng 2 stops the pending data acquisition process If the acquisition time of the record is less than 2 minutes you will see the whole data acquisition Then you won t be able to leave this page only when the acquisition stops can you change of menu 1 1 ims Trigger 09 41 39 28 jan 2015 j 09 41 43 oors kwords amnei m O O E ae a lt 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 09 41 39 09 41 39 09 41 39 09 41 39 09 41 39 09 41 39 Page 9 5 Memory Mode For longer acquisition time you can zoom onto a part of the data or change of page When changing of menu page you can return to data acquisition by pressing 1 64 2001s Trigger 09 44 46 28 jan 2015 70 497 Kwords ciamel gt G B 09 5 53 io Home 1 1 832s 2 1 807s T 25 25ms Fr 39 61 Hz if V 2 1231 2 8281 4 951 Read blocks eq oF file Screen ESF set up XT xe i Zoom between So cursors N tA St Plotting set up mb 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 28 01 15 09 44 48 09 44 48 09 44 48 09 44 48 09 44 48 09 44 48 09 44 48 09 44 48 Additional menu keys gt Display e Total __ the whole memory is displayed and refreshed during the data acquisition j Zoom between So rsors e Partial gt only a part of the memory is displayed the screen is frozen only the bargraph and the filling rate show the status of data acquisition
81. ns of the internal memory or USB sticks It is advisable no to create too big files because reading them may be very long It takes ca 3 minutes to read a 200Mo file The minimum transfer rate to the flash disk is 100 Kwords s 10us To know the number of channels you can record at a given acquisition period calculate e number of channels 100 000 x acquisition period example at 20us the number of channels is max 2 Page 11 3 Network Analysis 12 NETWORK ANALYSIS 12 1 General The recorder also includes a network analysis function It allows power and harmonics measurements Measured values can be viewed in real time or delayed You can also record the available logic channels and channels Power You can access the network analysis menu with the Ei key The set up page shows up It lets you access various parameters e Description of network and wiring e Selection of the type of analysis and of the desired values You can also access other menus e Visualization Oscilloscope Digital Harmonics key e Acquisition key ua Attention oo The connections of the inputs on the installation to test shall be made by a duly authorized personal Page 12 1 Network Analysis 12 2 Network set up Power In the main menu change of mode by pressing Ei You directly access the set up page Gja aAA Ba Arn ype of circu Single phase Q Delta Aaron F Initialization ey Voltage
82. nt of the signal o Distortion factor DF DF is the ratio of the total presence of harmonics to the true efficient value of the signal e Power o P Active o Q Reactive o S Apparent o Energy cumulative value you will find an initialization at page Display e FP power factor o F P power factor o Cos phi cosine between the fundamental components of the signals U1 and I1 O e Frequency the calculation of frequency is made at the input U1 e Standard data acquisition channel you can select among the free channels For tension current and power you can select each line ex U1 P2 I2 or the global value of the network Ut It Pt For each parameter you can change the following values gt Validity 1 MM allows you or not to display a parameter as a graph the parameters will always be recorded only the graphic display is changed gt Color color of the displayed parameter in the graph for the additional channels and the logic channels the colors are as set up for each of them gt Caliber the caliber is defined by the nominal values of the tensions and currents For example for a nominal tension of 230V the caliber shall be 400V centered on 200V hence between 0 and 400V the minimum and maximum values may be changed for finer display For example you will be able to display the signal U1 between 220V and 240V Page 12 7 12 5 Record Network Analysis You launch the data acquisition by pressin
83. of the type of measurement made on the input tension current frequency thermocouple or counter direct or RMS value of the shunt for current measure sensor 4 20mA automatic selection of the type in thermocouple compensation unit Type of external sensor Filter positioning of a filter on the input e 10kHz 1kHz 100Hz 10Hz for analogic filters e 1Hz 10s 100s or 1000s for the digital filters according to the type of signal Change of the color of the channel v A Change of the thickness of the signal with the keys decrease and nin increase Validation and adjustment of the trigger thresholds 1 and 2 Note A warning message pops up when the programmed analogical thresholds are out of the measurement range Page 5 4 Use 9 Function makes it possible to append a mathematical calculation function to the relevant channel e None no function e Change of unit changes the unit of the measures made on the channel you can program a couple of dots X1 Y1 and X2 Y2 for scaling e Calculation available mathematical functions associated parameters and unit O aX b identical to the change of units but instead of giving a couple of dots you give the intercept b and the slope a a XI b absolute value a X b square a In X b Naperian logarithm a Sqrt X c b square root aExp cx b natural exponential a 1 X b reverse O O O O O 10 Copy to channel makes it possible to copy
84. on You can create directories and save the files into them La rile_Record_0002 rec 41 00 Mo 23 10 2014 10 11 38 A File _Record_0003 rec 31 00 Mo 23 10 2014 10 13 38 A grile_Record_0004 rec Fea 16 Mo 23 10 2014 10 50 24 A 4File_Record_0005 rec b 1123 90 ko 24 10 2014 11 33 44 File Record _0006 rec 127 17 ko 24 10 2014 12 01 4 xf ile_Record_0007 rec 44319 40 ko 24 10 2014 15 25 02 AFi le_Record_0008 rec 1162 63 ko 28 10 2014 11 37 1 x4FIle_Record_0001 rec 4 00 Mo 29 08 2014 14 49 06 7 qf ile_Record_00 10 rec Vv 19479 29 La 3O NR INITA 146 NO 1e SD card FolderREC FolderBMP aml 29 38 Go libres sur 29 71 Go 1 HD USB stick read write into the internal flash disk or an USB stick if it was connected at the start of the appliance 2 Copy of a file to USB copy the selected file or directory to an USB peripheral 3 Type the name of a new file 4 Create directory creation of a new directory you can type its name with the alphanumerical keyboard displayed on screen 5 Erase erases the selected directory or file 6 Close the window 7 Selection of the directory window Allows you to select the directory to work with 8 Selection of the file window Allows you to select the file to work with Page 13 2 File Management net It is highly advisable to work in a directory and not at the root of the flash disk When erasin
85. on this window when clicking on a logic channel the relevant pin on the connector turns red when pressing the keyboard you can change the name of the channel i Record 200us Stopped ADA EO BaP Ar _ channel 1 v 4 v Valid logic channels f Vlog 1 ay 4 Channel s wales A Mi ii AIA Is Se 5 KISIS 1111111 1234567890123456 Tee i518 Page 3 5 Presentation 3 3 3 Description of the network analysis window 5 Bate Bee Q Delta Aaron gy Initialization oe Current 3 Current clamp Shunt _ Current transformer PE Nominal voltage 240 V Primary secondary 1A 1 an Nominal current Fr 50 Hz 1111111 1234567890123456 V 0000 00000000000 il l Setup of the network analysis 2 Changing the color of the various measurements tension current power Gren M Bowen Oren Goma h Dron f Damen Iemm IE f ooon t 3 Measurement mode of the current clamp shunt transformer 4 Parameters of the current measurement conversion from the measured value and the value sent to the recorder 5 Nominal current in the phase conductor 6 Wiring scheme 7 Logic channels validation and parameter setting 8 Display of the measured values 9 Phase diagram 10 Type of network 11 Parameters of tension 12 Value of the nominal tension Page 3 6 MAIN MENU 1 J 2 4 5
86. op no action e Relaunch waiting for the trigger Start e Save to file saving or not of the data acquisition into a file Save simultaneous record of the measurements into a file e Simultaneous save saving or not the simultaneous save e File record to a file o Name of the file directory and name of the saving file o Acquisition period sampling rate of the channels o Length of the max file See chapter File mode to know the restrictions of the recording on file If an initial scroll speed has been programmed the paper will scroll at that speed while waiting for a trigger The operator can force a trigger any time by pressing when waiting a Start trigger When printing pressing W will stop the printer Page 8 2 Direct Mode 8 2 Configuration of print Canons Divisions NS es Fin Avec NS y Longueur P papier 200 mm Sans G D part Alarme 1 Alarme 2 Anar 4 N _ annotation trac Echelle _ Aucune annotation Valeur S Calibre Mirani j Min max Wi 1 Reticule set up of the reticule on paper e none all 5mm 10mm or per integer number of divisions e fine or wide which means with or without subdivisions e access to the Modification of diagrams to set up the display of channels on paper see chapter Diagrams 2 Name of the plot set up of a title 80 characters max for printing It will appear o
87. or a sign or They are of NR1 integer NR2 decimal or NR3 type with exponent For example for a digital character 25 02 Text data Any chain of ASCII 7 bit characters between brackets or apostrophes Example A Any chain ASCII characters ends with the message termination 15 3 Standard instructions All these instructions start with an asterisk IDN REQUEST TO IDENTIFY AN APPLIANCE answer by the appliance 4 pieces of data separated by Page 15 5 Ethernet Interface the trademark of the appliance the name of the appliance followed by _nn where nn is the number of inputs of the recorder the serial number of the appliance 0 if unknown the software version number as x xx x OPT REQUEST TO IDENTIFY OPTIONS OF AN APPLIANCE answer by the appliance n pieces of data separated by number of cards number of channels per card RST RESET OF AN APPLIANCE action set up of a recorder in a fixed configuration tension inputs 10V caliber centered on OV REM PENDING PROGRAMMING PART REMOTE facultative LOC RETURN TO LOCAL MODE CLS ERASING THE STATUS LOGS action the appliance resets the status logs ESE VALIDATION OF THE STANDARD EVENT BITS OF AN APPLIANCE ESE is followed by a number between 0 and 255 action changes the log of validation of the standard events and updates the ESB bit in the status log of service request see following paragraph
88. or various calibers and filters as of the caliber The noise is proportional to the square root of the bandwidth To assess the noise on other positions of filters you only have to calculate the square root of the ratio of bandwidths Example Noise on 10mV with a 10Hz filter Noise 1 with a 10kHz filter Ratio 10000 10 32 Thus the noise will be divided by 32 Noise 0 03 with a 10Hz filter 17 5 Accuracy class class index This is one of the most important concepts of the CEI recommendation it tends to shorten the list of specifications To do so it introduces the concept of PREDICTIVE CLASS that depends on the C CLASS INDEX The normalized values of the class index are C 0 1 0 25 0 5 and 1 The intrinsic error in the reference conditions does not exceed C the manufacturer may also specify this limit of the intrinsic error as an absolute value ex 5 uV for the first calibers The variations of the measured value with the variations of one of the influential variables in the nominal range of use do not exceed C for the position for the magnetic induction with external source and parasite tensions 0 5 C for the power supply source 0 3 C according to the class index at ambient temperature 0 15 for the 0 25 class In addition the insensitivity range should not exceed C in the reference conditions 1 5C for the maximal resistance of the external measurement circuit 2C for
89. parasite tensions And the excess should not be more than 2C 4C within the limits of the power supply source Page 17 5
90. play of data in F t format Fichier utils Graphique Aide io Ad 135 150 11 40 AY eer fate i ee i pes A Acquisition 100p Ar t re Arr t oi A 1 3 2953 Y 1 651 l Do a M es es ee Des a a a ea ae ee L oao ee Wo ees L i a er Lo a uy 2 Asvidiv Page 13 9 Inputs Outputs INPUTS OUTPUTS 14 1 Additional Input Output Connectors The connector is at the rear female SUB D 25pin p25 I Logic channel 2 MN E chanel I f LogicchannelS 7 6 I Logicchamell5 po Ground I Ground po 4 Ground p16 O 9 SV0 2A power e Ground 0am po O Alarm BO The power supply ground is the mechanical ground of the carter of the SUB D25 connector Page 14 2 Inputs Outputs 14 2 Logic inputs Non connected inputs are according to the following circuit FALy Non connected inputs are OV potential level 0 Number of logic channels from 1 to 16 TTL level 3 3V protected up to 24V To create a rising edge you only have to place a connection between the power input and output of the connector Similarly to create a falling edge you only have to remove this connection You can also use an output signal TTL 3 3V 14 2 1 Use Plotting and display These channels are plotted on the right or left side of the paper according to the selected format They are displayed at the top or the bottom of the screen according to the selected position They are numbere
91. record in real time the measures made on the channels The start and stop of the plot can be triggered under various conditions 11 1 Set up and triggering of the data acquisition File Press e lt mode Set up of the data acquisition into a file Ag E E Are V 500 M sample channel 1 04D File size O 1000 amps Start on channels Start P A1 Trigger T1 0 5 V Logic channels La Stop Stop on channel 1234567890123456 A2 Trigger T1 0 5 V mam Q Stop Rearm 2 channels active A1 A2 1 l 1 File name directory and name of the data acquisition file e Directory of the data acquisition file e Name of the data acquisition file 2 Acquisition period sampling speed of the channels e internally paced from lus to 20min e externally paced by the logic channel 16 3 Start start condition of the data acquisition e Manual with the W key e Trigger with a channel with a combination of analogic and logic channels see chapter 5 e Stand by after a delay or at a precise date and time Page 11 2 File Mode e Automatic 4 Stop stop condition of the data acquisition e Automatic when the disk is full e Trigger with a channel with a combination of analogic and logic channels see chapter 5 Trigger mode Double Trigger see chapter Memory mode 11 2 Restrictions Real time data acquisitions to a file are limited by the transfer rate between the inputs and the saving mea
92. roceed like for the time cursors to move them You can also change the caliber zero to expand and move your measurement on screen 4 Autoset This function allows you to have automatically the caliber of the active channels and the timebase compatible with the frequency of the signal 5 Timebase Allows you to settle the timebase 6 Math Makes it possible to display values of mathematical calculations on screen Page 5 9 5 5 2 XY display Use The XY display mode makes it possible to display the validated channels in real time one against the other One of the channels defines the horizontal axis the other channels provide dots on the vertical axis xY You can access the XY mode via the main menu by pressing Q 1 2 3 4 5 7 Record 2001s Stopped _ Screen set up configuration of the display of measurements on screen Selection of the mode of graphic display AA Screen 4 a AA Home M Niset up GO Plot F Delete X channel Al x SESE Y Y channel Digital measures full screen Full screen to display the reticule on the whole screen mode f t Colors to customize the display background reticule cursor Graphic option Plot starts or stops of the plot Delete erases the screen X channel selection of the channel on the horizontal axis sweep Y channel the Y channels are the valid channels Page 5 10 Use 5 5 3 Digital display The Di
93. rovided on a CD ROM with the appliance It makes it possible to display the recorded files or convert them as xls or txt files It works under WINDOWS XP 2000 Vista Seven 8 with Framework 2 0 e Transfer of files from the recorder to the PC o USB peripheral o Thanks to the FTP protocol 13 3 1 Transfer via FTP gt Using SeframPilot The ftp transfer is made directly by SeframPilot if the IP address is for DAS30 50 validate with f gt Using Windows Explorer You can create a favorite icon e Go to Tools Connect to a network driver e Click Open a storage session or a network server e Under Internet network address type ftp and the IP address of the recorder You can give a name to this link that will always be active among network favorites You get a direct access to the directories of your recorder which contain the data acquisition files main directory on the internal flash disk of your appliance Once selected the directory where you record your data acquisitions you can rename move copy and delete them You cannot read a file in real time while recording it You cannot delete a file while the recorder reads it Transfer your files to your computer to use them with the Sefram Viewer or FLEXPRO software Page 13 7 13 3 2 Display under SeframViewer Launch Sefram Viewer or double click on a file Open a REC file You can select e the channels to display e the d
94. rs away from any magnetic source 16 7 2 Frequency Range from 10 to 100 Hz Accuracy 0 01 Hz Sensitivity 5 of the nominal tension 16 7 3 Power factor Accuracy measurement value 0 05 16 7 4 Peak and peak factor Peak accuracy 0 5 of the nominal tension or intensity Peak factor 1 accuracy up to 5 Page 16 6 Technical Specifications 16 7 5 Rate of harmonics as calculated in power analysis Range THD from 0 to 600 FD from 0 to 100 Accuracy measurement value 2 5 Harmonics from ca 2 up to ca 50 Range from 0 to 600 Accuracy measurement value 1 up to the 30 harmonic measurement value 1 5 between the 31 and the 50 harmonic 16 8 Printer option Paper size 110 mm Drawing size 104 mm Scrolling speed of the paper from mm min to 25 mm s Transcription into memory max 10 mm s Text mode period from 1 s line to 1 line hour XY mode 100 x 100 mm Resolution and accuracy 8 dots mm Accuracy of the scrolling speed 1 Accuracy relatively to the reticule 0 01 16 9 Communication interface 16 9 1 Ethernet Speed 10 100 base T Connector RJ45 e DHCP possible e FTP server e Remote control Protocol TCP IP Connection port 23 16 9 2 USB connectors For memory keys only Standard USB 2 Type 2 female connectors type A Page 16 7 Technical Specifications 16 10 Display Screen TFT 10 color backlit Total definition 1024 x 600 dots 16 11 Environment conditions
95. s 1 and 2 of the screw terminal box max usable tension 10V continu ou alternatif frequency 45 a 440Hz typical trip threshold AC or DC 2 2V undetected low threshold AC or DC 0 to 1V detected high threshold AC or DC 3V to 10V insulation 50V between channel and ground Response time To detect the alternating current the signal of the logic channels is rectified and filtered Typical delay for a rising signal 10ms Typical delay for a falling signal 5Oms Use Link the box to the input output connector of the appliance with the 25 pin connector provided as an option Connect the logic channels to record with respect of the maximum acceptable tensions Power supply Alarms rd E 5 S T ft mm g g g gF 5 2 E F E m n P E E BE 6 G e A I 0 Z Z zZ G max current 3 3V 200mA max current 5V 200mA max current 12V 200mA Alarm A contact amp 2 open contact in case of alarm insulation 50V max ground Alarm B logic output OV 5V not isolated Alarme C logic output OV 5V not isolated Page 14 6 Ethernet Interface 15 ETHERNET INTERFACE 15 1 Ethernet Interface 15 1 1 General You can use the recorder remotely via its Ethernet interface with the TCP IP protocol Connect the recorder to your network with a straight through cable onto the 10 100 BASE T RJ45 connector at the rear of the appliance You can use the recorder on an Ethernet network 10 Mbit s or
96. sensibles aux champs magn tiques 5 10 25 et 250 p riodes pour des essais a 50Hz 12 30 et 300 p riodes pour des essais a 60Hz NA Non Applicable NE Non Effectue ND Non demand par le client Cet essai n a pas t effectue la demande du client et ne peut donc pas ete pris en compte pour la declaration de conformite o Ad fd qe l Page 16 9 Technical Specifications 16 13 2 Security insulation class installation category Security class handy appliance for use on field Security conform to EN61010 1 2001 02 Pollution degree 2 Power supply by 15 V external block code 207195117 Installation category overvoltage category Measurement input category III 600 V overvoltage 6000 V Other input ouput measurement category I CAT I recorder The carter of the appliance is grounded if the mains block is connected to the Page 16 10 16 14 Accessories 16 14 1 Accessories provided with the appliance User s manual Assistance CD with software and notices Battery charger Common accessories e male 25 pin connector e 1 connector plug Printer accessories e paper roll Accessories for 2 channel module 1 black pin plug per channel 1 red pin plug per channel Red Imm security cord Black Imm security cord Red security clamp Black security clamp 16 14 2 Accessoires et options Transportation briefcase Shunt 0 01 Q 1 3 A plug in Shunt 0 1 Q 1 1 A plug in Shunt 1 Q 0 1 0 5 A p
97. t Arr t LEH Suite Sequisition B f cel a Arr t R armement pg eis Voies logiques iv _ s aee ee N VE CT vores Weal 1111111 S aiii 1234567890123456 Page 6 1 Triggers 6 1 Analogic channel trigger By pressing Start or Stop you open the set up window for the trigger of the start or stop of recording After selection of the trigger on Analogic Channels the following line on screen allows you to set the trigger condition It depends on the selection of single or multiple threshold 1 mm min 10 min cm T Configuration BI trac Bom E Arr t Voie logique Parasite SE Voie Al 5 Front montant i lt inf rieur Front descendant 2 Threshold 1 Threshold 2 selection of the threshold to settle each channel is tested with reference with 2 thresholds 1 e you can program a start condition on the channel A1 and the threshold 1 and a stop condition on this same channel A1 and the threshold 2 3 Higher Lower trigger when the channel value is more or less than the set threshold 4 Threshold value threshold value selected in real value taking the current unit and scale of the configuration of the selected channel into account 5 Edge Selection of the active edge of the channel in reference to the threshold Page 6 2 Triggers 6 1 2 Multiple thresholds After selection of a trigger on a set of logic channels the
98. t with the STB instruction In this case the bit 6 is MSS Master Summary Status that results from the logic operations as pictured in the figure below Indeed MSS is 1 when at least one of the other bits is 1 both in the status log and in the validation log Composition of the STB log The bit 6 value 64 contains the sum up message MSS reading with STB The service request takes place in the following cases one bit of the status log of service request switches from 0 to 1 while the corresponding bit in its validation log is 1 and vice versa the bit 5 of the validation log of service request is 1 a standard event happens in the following conditions one bit of the status log of standard events switches from O to 1 while the corresponding bit in its validation log is 1 one bit of the validation log of standard events switches from 0 to 1 while the corresponding bit of its status log is 1 the bit 0 of the validation log of service request is 1 a standard event happens in the following conditions abit of the status log of alarms switches from 0 to 1 while the corresponding bit in its validation log is 1 abit of the validation log of alarms switches from O to 1 while the corresponding bit of its status log is 1 The bit 5 ESB Event Status Bit value 32 contains the sum up message of the status log of standard events see the detail of these bits in the description of this log Its status specifies whe
99. the record or the printing of a channel you must check to validate or uncheck not to validate the checkbox right to the bargraph of the channel Logic channels v 1111111 1234567890123456 Page 5 8 Use 9 9 Direct display key 4 MG 5 5 1 Real time on screen display of the measurements eal TOMO Te alee V Sidao Ma kreere 2 3 Se l g i Timebase 100 ms div TE Math 1 Screen configuration configuration of the display of measurements on screen Selection of the mode of graphic display e F t e XY e Digital measures full screen e Full screen to display the reticule on the whole screen mode f t J Colors to customize the display background reticule cursor e Graphic option 2 Channels validation Validation of the channels to display If the logic channels are actives you shall select whether the diagram of the logic channels should be distinct from the analogic channels or not see chapter 4 3 3 3 Freeze screen freeze the measurements on screen to make measurements by cursors make calculations save or print the measures on screen 1000 dots in F t mode You get access to e Relaunch relaunches the sweep e Time Cursors displays the vertical cursors 2 to make measurements on the screen move the cursor by selecting it with your fingers or the mouse e Tensions Cursors displays the horizontal cursors 2 to make amplitude measurements on the screen p
100. the trigger during the pre trigger MEM CONT P1 P2 Set up of the aftermath P1 PLot NOPIot P2 Flle NOFile save to a file MEM CONT FILE NAMe P1 P2 FILE NAME Name of the save file BIN FileO LENG P1 BiNary TEXTe file format BO P2 name of the file 12 characters max 3 ee FILE LENGth P1 P2 Limit of the number of samples P1 from 0 to 1000 0 no limit P2 KSample or Msample FILE LENGth Returns the limit to the length of the file Page 15 19 Ethernet Interface 15 5 8 Relaunchs real time save HEADER PARAMETERS EXAMPLES P1 REARm SINGLE d finition du r armement manuel P1 SINgle AUTo SETup REARm SETup P1 REARM SETUP REAR SETUP 2 Number of the set up to change Go to configuration 2 P1 1t0o15 REARm Returns the type of relaunch P1 Real time recording P1 NO DISk or MEMOry NO no record DISK record to HD or USBKey SAVE DISK MEMOry direct mode only SAVE MEM P1 P2 SAVE MEM SAVE MEM Set up of the trigger for saving to memory in direct mode J TRIG NOC TRIG CHAN A2 51 POS P1 DiRect TRIG or MANual P2 CONt NOCont relaunch 15 5 9 Launching plots and data acquisitions HEADER PARAMETERS EXAMPLES ___ P1 RECORD ON Start or stop of the plot or of the data acquisition into In direct mode the plot will memory be effective when the start P1 ON Start condition is chieved you may force the start trigger with one oer RECORD TRIG and the stop TRIG
101. ther one or several authorizes events have happened in the status log of standard events since its latest reset an event is authorized if the corresponding bit in the validation log of events is 1 Page 15 8 Ethernet Interface The bit 4 MAV Message AVailable value 16 contains the sum up message of the output queue Its status specifies whether a message or data from the appliance are ready for emission via the interface ex answer to a query instruction The bits 7 3 2 1 and O are used to receive sum up messages as defined by the appliance In the case of the recorder the bit 0 is used while the bits 1 2 3 7 always remain 0 The bit 0 contains the sum up message of the status log of alarms see the detail of these bits in the description of this log Its status specifies whether one or several authorized events have happened in the status log of alarms since its latest reset Validation log The status word is associated to a validation log that makes it possible to manage the service request by allowing it only for some specific cases When a bit is 1 it allows that the status 1 of the bit of same rank in the status log STB leads to the activation of the bit 6 of the same log Writing the validation octet is made with the command SRE lt NRF gt where lt NRF gt is the sum of the binary values of the bits O to 5 and 7 Reading the validation octet is made with the instruction SRE The answer is sent back under de
102. tion of a channel P1 Number of the channel P2 Number of the diagram from 1 to max P3 Thickness of the line 1 to 8 GRID CHAnnel Returns the set up of the selected channel COLOR P1 P2 P3 CHAN A2 COLOR Color of each channel 100 100 100 P1 value of red from 0 to 100 P2 value of green P3 value of blue DEFLOG P1 P2 P3 P4 P5 Set up of the logic channels P1 Number of the logic channel P2 value of red from 0 to 100 P3 value of green P4 value of blue Channel A4 in the diagram 3 with line thickness 2 Page 15 21 Ethernet Interface 15 5 11 Direct display SCREEN P1 Set up of the display mode P1 FT TEXT or XY SCREEN FT P1 P2 P3 Set up in F T P1 VER or HOR for vertical or horizontal P2 BOUNON or BOUNOFF to display the boundaries P3 FULLON or FULLOFF for full screen display or not SCREEN XY P1 P2 Set up in Y P1 X channel of A1 A2 etc P2 CHANNEL Y turns to ALL for all channels ON or A1 A2 for only one channel P3 DOT VECTor SCREEN TIMEBASE P1 P2 Set up of the time basis in scope mode P1 value from 1 to 500 P2 MICRO MILlisec Sec Min or HOurs SCREEN RUN P1 Starts or stops the scope mode P1 ON or OFF Stops the scope mode SCREEN Le P1 P2 P3 P4 Tirgger in f t mode for fast speed P1 Number of channel P2 POS or NEG P3 Level 0 100 P4 Position 0 100 SCREEN TRIG 15 5 12 Mathematical functions P1 Number of mathematical functions from 0 to 5
103. tructure sicasencssesismessenceaacun sasedeiundenacubsdseeeseecancdun saaelesseseancees 15 10 Tabs Conho raONesccere e e a E we Mtasiaweatees 15 12 532 Parameters OF he chante S wisn tensors aa here be ices ies aa here ae hceie 15 13 15 5 3 Functions of the channels and between channels ccccccccccccesseeeeeeeeeeeeeees 15 15 oe PaE nee er NY PR Oro TY eee een re ery oe ee eee 15 16 ESD TALSMA Sea 15 17 a36 Toei e a a E iene eadenr nl eaoaee 15 18 Dos Memo y Mode ree T A N 15 19 15 5 8 RelaUnC nS realtime save o onrecasann a A a 15 20 15 5 9 Launching plots and data acquisitions ccccsesceccccccceeeesseeecceeceeeaeeeeeeeeeeeeeeaaas 15 20 o0 Daa e N S 15 21 Hos Direct GiSplay ireren e E cee acon tee ee ean 15 22 15 312 M hemancal TUNCHODS vrais dyed caste a 15 22 153313 Memory ouu beisa a E a T 15 23 Ial INCCICSE OR Ser C Ce E a a a a Wiest 15 24 TECHNICAL SPECIFICA TIONS yonn a O es 16 1 Oris wGrenera Character StS eE T 16 1 tO Tenore COLIN sea E a 16 1 Page 1 2 17 Table of Content Ekos RNI COO E A 16 2 16 14 Temperatire recording seen sis casindsineceansummesansvsaveenctonvelsbeaderasutunsenstesutecaseuesadacanededs 16 2 NGL Fregucney FECOLUING seraa N T 16 2 lI6 i0 lt Enrecisirementen Comp ane serene n a 16 2 e Sa a E E E rer one 16 3 Wolo Bmdwidins erno sa geteeri sad teaiaausaceisatuanesigetuestaaheduaauaeceisniusneageeeet iat eolapaieee 16 3 1621 OAC CHAINS Sess das acnuenn A
104. y pressing l Full screen J Display parameter s of Display fresnel of Display oscilloscope W4 Display harmonics y ui via j Voltage Current y v2 v 2 Q Voltage and current V 2screens U1 1 U2 D sga Background ea Grid ey Cursor L e Fresnel diagram display of the signal and of the RMS values of the inputs and of the frequency e Oscilloscope This mode allows you to know the true shape of the signals hence it will help you detect wiring mistakes e The time basis depends on the frequency of the signal at least one alternation e You can change the reticules and the position of the displayed channels gt Harmonic display This window is updated ca once a second Page 12 5 Network Analysis e Selection of the channels you select either all the tension channels U1 U2 or all current channels 11 I2 or all network channels U1 U2 I1 I2 or only one channel these channels are also used to record harmonics e Sampling frequency 200us e Number of points 2048 e A cursor allows you to display the value of the selected harmonic gt Parameters display of the values of each parameter At any moment you can copy the screen into a bitmap file on a hard disk or a USB stick by 6 pressing ss Power analysis 12 4 Power analysis set up aon Once the appliance is set up you still have to set the type of measurement to make you can make a power analysis or an energy
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