Enerium 50-150 operating manual
Contents
1. 89 25 13 89 25 14 Harmonics 89 25 15 Energy and Energy metering 90 25 16 90 25 17 Phase 90 25 18 Time 91 25 19 Average variable 91 25 20 Calculation of minima 92 25 21 Minima of variables 92 25 22 Minima of average variables 92 25 23 Calculation of maxima 92 25 24 Maxima of variables 93 25 25 Maxima of average variables 93 26 lNDEX ener nennen nnn nnn nnn 95 introduction ENERIUM Measure station CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 1 OF THE MANUAL This manual is meant for any person wishing to use an ENERIUM 50 or ENERIUM 150 Central Readout Station for the measurement of network variables V U lI P S FP tg 6 THD etc and energy variables The present manual informs about e The product functions e Product implementation and use e Product characteristics The ENERDIS Company has printed this manual with the purpose to provide simple an2. ENERIUM Measure Station P active power This value can be negative if the load operates in a generator mode The icon is then displayed at the bottom of the screen Q reactive power This value can be positive if the load is of inductive type The icon 000 is then displayed at the bottom of the screen This value can be negative if the load is of capacitive type The icon Jl then displayed at the bottom of the screen FP power factor ratio of the active effective powers This value can be negative if the load operates in generator The icon 15 then displayed at the bottom of the screen Thru the and or icons 4 users know at anytime the quadrant in which the load works Page 33 shows the quadrant positions 9 3 6 Average power Display of the active P and effective S average powers over duration The duration is defined by a local or remote communication Pines P 1 3 8a O MH S DMO T 3 8 0 Mua Example of an Average Power screen o mode of the average by ENERIUM 9 3 7 Ph Ph Voltage THD Display of the harmonic distortion rate on the three voltage lines The Harmonics function displays graphics only for e ENERIUM 150 see chapter 15 page 49 Woltage Ph Ph Uiz oe pipa 131 Example of a Ph Ph Voltage THD screen 30 9 3 8 Current THD Display of harmonic distortion rates on the three currents the harmo
3. ENERIUM Measure Station 25 11 Tan o The product measures the global the second Tan q The quadrant is associated with each of these variables If P 1s and Q 1s three phase variable are of the same sign then the quadrant is selfic otherwise it is capacitive Pils tg lls 25 12 Frequency The measurements performed from the measurements of 10 period active powers for a network frequency parametered at 50Hz and 12 period for a network frequency parametered at 60Hz The formulas ares 10T F ls 2F sampling x Nbr Samples on 10T With the following functional relationship sampling 128 F 1s 25 13 Harmonics CONNU U The products measure the harmonic rate H at the second range by range on the three ground voltages Vi Vo on the three line voltages U12 U23 and on the three currents h 12 l3 in compliance with the CEI 61000 4 7 standard edition 2 The measurements are performed from the harmonics hx 10T according to the formula 5 107 1 5 S hi 107 1 When the ground voltage line voltage or current is equal to 0 then the harmonic rate of the concerned variable is not calculated and its value is 0 In the case of ENERIUM 50 the measurement is performd up tol range 25 In the case of ENERIUM 150 the measurement is performed up to range 50 25 14 Harmonics rate S
4. key for validation of choice e Joystick 4 keys for selection and navigation 24 6 3 Voltage measurement inputs Variable Range Nominal ground voltage 57 7 230 V Nominal line voltage 100 V 400 V 120 V 480V which is 100 400V Maximum line voltage Peak factor 2 Frequency 42 5Hz which is 50Hz 7 to 69Hz which is 60Hz Maximum measured line 650 0kV primary side view from voltage the client transformer Permanent Surge Twice the line voltage of nominal input which is 800V Consumption per phase 0 2 VA Impedance 500 Non detachable terminals 5 connection points Screw terminals with mobile cage Connection of rigid or flexible wires of section 0 to 2 5 mm 22 14 AWG Maximum acceptable coupling torque on the terminal 0 4 Nm Setting range TP primary from 100 V to 650 000 V in steps of 1 V TP secondary from 100 V to 480 V in steps of 1 V ENERIUM Measure Station 24 6 4 Current measurement inputs Range Nominal input current 5A Maximum input current 6 5A which is Peak factor 3 Frequency 42 5Hz which is 50Hz 1 to 69Hz which is 60Hz Maximum measured 25 0 KA primary side view from the current client transformer Consumption lt 0 15 VA 50 times the nominal current which is 250A for a duration of 1s supported 5 times to follow every 5 minutes Excees current Thr
5. e F max e 51 S2 max S3 max S max The maxima listed above are developed according to the following algorithm f X 1s gt X max Then X max X 15 with X Uap IL For S 25 24 2 Maxima B The products also calculate the maxima of at the second variables in the two quadrants corresponding to receiver mode These maxima are the following e P R max PeR max Pa3R max PR max QiR max Q2R max Q3R max QR max The maxima listed above are developed according to the following algorithm it X 1s gt XR max AND P 1s gt 0 12 23 31 L 1 2o0r3 15 with X P or Q 25 24 3 Maxima C The products also calculate the maxima of at the second variables in the two quadrants corresponding to generator mode These maxima are the following e P2G max PSG max PG max QiG max Q2G max Q3G max QG max The maxima listed above are developed according to the following algorithm X 1s gt XG max AND P 1s 0 Then XG max X 15 with X P or Q 25 25 Maxima of average variables 25 25 1 Maxima A The products calculate the maxima of average variables in the four quadrants These maxima are the following e Vi max aver V2 max aver V3 max aver ENERIUM Measure Station CHAUVIN ARNOUX GROUP Ul2 max aver U23 max aver U31 max aver li max aver l2Imax aver 13 aver
6. The products that we market do not enter the domain of the decree no 2005 829 pertaining to the composition of electrical equipments and elimination of waste originating from these equipments In compliance with article L541 2 of the environment code it is the responsibility of the holder of the waste to ensure it or ensure the elimination 4 PACKAGING The equipment is delivered as per your order It shall at the minimum include the following articles Name Q ENERIUM Measure Station 1 Type 50 or 150 CD ROM containing 1 the present manual in PDF format E set configuration software USB driver for the optical head accessory Simplified commissioning manual A4 format 1 Plastic bag with the equipment varying 1 according to the model Attachment parts on a panel for the ENERIUM 2 50 or 150 models NERDIS ENERIUM Measure station CHAUVIN ARNOUX GROUP Variable equipment Name Detachable Connector s associated with optional cards Q 0 to 2 10 EE ENERIUM Measure station 11 CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 5 GENERAL PRESENTATION 5 1 Presentation SSS ee SSS ENERIUM is a measure station in 96 x 96 format complying with the DIN 43700 standard for all types of electrical networks meant for all measurement applications display and supervision of low and medium voltage networks The ENERIUM Central readout stati
7. 5 Fac Re pni ni Timet The RS485 Communication screen 43 14 3 1 JBus Address 1 When the Remote Communication Screen is displayed press OK to select JBus Address 2 Press on OK to select the value address to be modified 3 Use the VA keys to modify the highlighted value on the black background and lt P to change position of the cursor The acceptable addresses range from 001 to 247 inclusive of the limits 4 Press OK to validate 14 3 2 Speed Bauds 1 Select the Speed line with the V A keys and press on OK 2 Use the VA keys to modify the value displayed transmission speed in Bauds The predefined values are 2400 4800 9600 19200 38400 and 115200 3 Press on OK to validate 14 3 3 Parity 1 Select the Parity line with the WA keys and press on OK 2 Use the WA keys to modify the value displayed parity The predefined values are Without Odd and Even 3 Press on OK to validate 14 3 4 Stop Bit 1 Select the Stop Bits line with the WAkeys and press on OK 2 Use the VA keys to modify the value displayed number of stop bits The displayable values are 1 and 2 3 Press on OK to validate 14 3 5 Reversal ms 1 Select the Reversal ms line with the WA keys and press on OK 2 Use the VA keys to modify the value displayed reversal time in ms The displayable values range from 0 to 500 by increment
8. The communication parity can be parametered from among the following values Odd Even and without parity The number of stop bits for communication can be parametered among the values 1 and 2 The reversal time is a waiting time between the receipt of the last of the three characters of the frame end and the issue of the first character of the response frame The reversal time can be parametered from 0 to 500 ms in increments of 50 ms Note a reversal time configured for 0 ms is not the real reversal time which is then equal to the internal processing time of the frame which is around 35 ms For other values the parametered time is the real reversal time The default values are mentioned in paragraph 14 7 on page 47 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 22 2 3 Remote communication thru the Ethernet interface The communication support is described in paragraph 7 6 on page 22 According to the status of the network communication is performed in half or full duplex mode An IP address of 000 000 000 000 configures ENERIUM in DHCP Dynamic Host Configuration Protocol An IP address is thus automatically assigned to the product by the network s DHCP server To determine the allocated IP address and mask use the E set or E view applications and launch the Search command under Network New Channel with Type of channel parametered to Ethernet and Port number defined at 502 Knowing the serial nu
9. The reader should refer to the specific reference manual for this software 22 2 ModBus RTU compatible specific application 22 2 1 Local communication by optical interface The communication support is described in paragraphs 6 3 and 6 4 on pages 16 and 17 Communication is performed in half duplex mode The functions implemented in the products are e Function 03 Reading of words e Function 04 Reading of N words e Function 08 Reading of diagnostic meters For details see below e Function 16 Writing of words The diagnostic meters are e Resetting of meters e Number of frames received without CRC e Number of frames received with CRC e Number of exceptional responses ENERIUM Measure station CHAUVIN ARNOUX GROUP e Number of frames addressed to the station outside distribution e Number of distribution requests received e Number of responses e Number of unready slave responses e Number of unprocessed characters e Number of responses outside the function 8 The transmission format is fixed as follows e Speed of 38400 e 1 start bit e 8 data bits e Without parity e 1 stop bit e Reversal time of 0 ms see paragraph 22 2 2 on page 73 for the internal processing time The station responds to all the slave numbers between 1 and 247 is also possible to download the optical interface only a new application in the station In th
10. 17 LOAD CURVES This curve cannot be displayed on the ENERIUM screen but when using a specific application E view or any application developed by the user The station can activate or not a recording of a load curve This load curve records from one to eight variables among the following ten variables P Q2 Q3 Q4 5 S TOR1 TOR2 The integration time of these variables can be parametered among the times 5 10 12 15 20 30 and 60 minutes Each recording is composed of a time stamping date and time a status and selected variables maximum eight The variables are always ranked in the following order P P S 5 Q1 Q4 Q2 TOR1 and The recording depth is based only on the parametered integration time The number of selected variables does not modify the recording depth Tps 1 5 10 12 15 20 30 60 2 17 34 40 51 68 102 204 1 Integration time minutes 2 Recording depth in days The E set and E view software automatically provide the recording depth according to the selected integration time The status contains the marking of following events synchro loss synchro return and change of configuration and mains supply cut It is possible to reinitialize the load curves in totality by sending a command word by local or remote communication A material entry is allocated to one of the variables 1 to 2 by the sending of a command word over the local or r
11. Harmonic rate of the xx current range for the a conductor a 1 2 or 3 Harmonic rate of xx voltage range for the ab line phase ab 12 or 23 or 31 Instantaneous current A of the x conductor x 1 2 3 Neutral current A value available only in a 4 wire networks Maximum average current A 1 2 3or Active power W Active power W averaged over a defined duration Pmoy Reactive power VAR Apparent power VA Effective power VA averaged over a defined duration Harmonic distortion rate 96 of the current in the x conductor x 1 2 or 3 Harmonic distortion rate 96 of the line phase ab 12 23 or 31 composed voltage V between the phase ab 12 or 23 or 31 Ground voltage V between phase x 1 2 ou 3 and neutral Real RMS voltage V between neutral and earth 8 4 Synoptic of the menus HERENNIUM All the menus accessible from the main menu are shown hereafter with the reference to the related chapters 26 29 Current mox cmo Power Pouer dmg THO voltage Ph Ph THO current Harmonics voltage Ph Ph Harmonics current I 000 S alar m z page 39 ilo bal alarm alarm s alarm alarm alarm T ET bat alarm amp Harmonics armonics m Har mo mics onics 5 Harmonics Edgy ubl PO IR ted Pa TE
12. Of Sin 0 25 inductive and 0 25 capacitive V between 99 and 101 of Vnom between 10 and 130 of V between 99 and 101 of Vnom between 5 and 130 of Inom Cos o between 0 5 inductive and 0 5 capacitive V between 99 and 101 of Vrom between 5 and 130 of Inom Cos o between 0 2 inductive et 0 2 capacitive V between 99 and 101 of Vnom between 5 and 130 of Tan o between 1 732 inductive and 1 732 capacitive V between 99 and 101 of Vnom between 5 and 130 of Inom Tan o between 4 90 inductive and 4 90 capacitive V between 99 and 101 of V between 5 and 130 of Inom 0 5 of the measurement 0 05 of Prom 1 of the measurement 1 5 of the measurement 1 of the measurement 1 5 of the measurement 3 5 of the measurement 0 5 of the measurement 0 5 02 of Siom 0 02 points 0 05 points 0 02 points 0 05 points 83 Variable Conditions Variable Conditions Accuracy FP FP between 0 5 inductive and Effective V between 99 and 101 of 0 596 of the 0 5 capacitive E Vnom measurement V between 99 101 of between 5 130 lhom Vnom Harmonic FP equalsl 1 0 5 points between 5 and 130 of 0 02 points S per V between 9996 and 10196 de range FP between 0 2 inductive and 0 2 capacitive between
13. of 3 of the Inom measurement Figure 24 1 dimensions in millimeters LNERDiS ENERIUM Measure Station 84 CHAUVIN ARNOUX GROUP 24 10 Environmental constraints 24 10 1 Climatic constraints Operating temperature 10 to 55 C Operating humidity Up to 9526 at 40 C Storage temperature 25 to 70 C 24 10 2 Safety constraints Level of pollution 2 Resistance to fire Complies with UL94 standard for the severity level V1 Installation category IH 24 10 3 Mechanical constraints Protection index According to CEI 60529 for the following severity level IP 51 Index front face IP 20 Index rear face Mechanical shocks According to CEI 61010 1 Vibrations 60068 2 6 A method Free fall with packing From a height of 1 m according to the NF H 0042 1 standard 24 10 4 Electromagnetic compatibility According to the CEI 61326 1 standard 24 11 Accessories Optical cable For local communication Connection to a PC by minimum USB 1 1 plug Cable sold separately Software Configuration software E view or E set ENERIUM Measure Station 85 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 25 MEASURED VARIABLES This chapter presents the mathematical formulas used for the calculation of the different measurements by ENERIUM 25 1 Ground voltage The measurements are performed from the 10 ground voltage measurements for a
14. page 21 for the technical hy details It is essential to parameter this card using local or remote communication Connect the input and the output as follows Card Terminal Function output IN1 1 See paragraph 20 5 3 IN2 2 OUT3 3 See paragraph 20 5 2 OUT4 4 Example of connection of the logic input and output The polarities in the terminals are indifferent ENERIUM Measure Station Terminal 13 Terminal 13 20 6 Connection of the auxiliary source types of power supplies The type of power supply is notified on the back label Note ENERIUM is delivered with one of these two 20 6 1 High level supply Terminal 12 Polarity indifferent See paragraph 7 3 on page 20 for the technical details 20 6 2 Continuous low level supply Terminal 12 Polarity indifferent See paragraph 7 3 on page 20 for the technical details Connect the A C or D C power supply as illustrated below Terminals for AC or DC supply Auxilary Supply B5 2685 Valde a 2 50 Hz ENERIUM 50 E weis Tm ve 2 314 181 8 7 9 10 11 L1 Connection of the supply A fuse protection is necessary 68 ENERIUM Measure station 69 CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 21 OPERATING PROCEDURE 21 1 Complete Procedure This paragraph describes the complete procedure for usin
15. 2 Use the WA keys to modify the underlined value lt gt to change the position of the cursor The acceptable values range from 01 to 10 3 Press on OK to validate 14 5 3 Language Defines the language for message display Proceed as follows 1 Select the Language line with the VA keys for example 2 Use the V A keys to modify the active language The available languages are French English Spanish German and Italian 3 Press on OK to validate 14 5 4 Contrast Defines the contrast level of the LCD display Proceed as follows 1 Select the Contrast line and press on OK 2 Use the A keys to modify the contrast level A 0 level corresponds to a pale screen low contrast a 7 level displays a darker screen high contrast 3 Press on OK to validate 14 5 5 Password If the password is different from 0000 parametering when received from the factory corresponding to a free 45 access a password will be requested at the time of entry in the Configuration screen Proceed as follows 1 Select the Password line with the WA keys and press on OK 2 Use the VA keys to modify the highlighted value black background and lt P to change the position of the cursor The range of acceptable codes is that of the ASCII table If a code other than 0000 is activated access to the Configuration screen will only be possible after request for this password 3 Press on OK to validate The
16. 5 and 130 of Inom V between 99 and 101 of THD FP equals 1 t 0 5 points Vnom V lying between 99 and between 5 and 130 of 0 05 points 101 of Vnom lying between 5 and 130 Active E FP equals 1 Of Irom V between 99 and 101 of Vrom Time T 23 20ppm 5 or 52 seconds between 5 and 130 of Inom 0 596 of the over 30 days measurement between 196 and 5 of t 196 of the measurement m 24 9 Mechanical ang UU 0 8 capacitive Overall Dimensions mm 96 96 5 H L D between 10 and 130 of 0 696 of the Weight Assembly On panel according to DIN between 2 and 10 de lao 196 of the 43700 measurement Format DIN 96 x 96 Reactive Sin 1 Dimension of the cutting 92 x 92 mm V between 99 and 101 of V Fastening by angle fastening panel T assembly between 5 and 130 of Inom 196 of the the rear part of the equipment between 2 and 5 of lao 1 596 of the mea renci Device number on the rear part of the equipment FP between 0 5 inductive and 0 5 capacitive V between 99 and 101 of Vnom between 10 and 130 of 1 of the measurement between 5 and 109e of Iom 1 596 of the measurement ENERIUM 000 FP between 0 25 inductive and k 0 25 capacitive V between 99 and 101 of View between 10 and 130
17. Contact ENERDIS to obtain this document The detail of the management of each of the two logic inputs digital is defined by means of ModBus command words see document MSO 7388 Mapping and command words Contact ENERDIS to obtain this document The cabling detail is mentioned in paragraph 20 5 2 page 67 The electrical characteristics of On Off inputs are given in paragraph 24 7 3 page 82 7 4 4 1 On Off input and 1 On Off output Card This card has a single On Off logic input and a single On Off logic output The electrical characteristics of this card are similar to the 2 On Off inputs and 2 On Off outputs above 7 5 RS485 terminal Available optionally this terminal is connected to the RS 485 bus The RS 485 option is not available if the Ethernet option is available Parametering of the RS 485 option is given in paragraph 14 3 on page 43 21 The characteristics of the terminals are given in paragraph 24 6 5 RS 485 Output page 81 The RS 485 terminal ensures the transfer of information between the PC and ENERIUM in the framework of parametering of ENERIUM e reading of real time or recorded measurements in ENERIUM RS485 card and output terminal RS 485 18 A A Auxiliary Supply 19 B 80 285 H 20 OV 5 50 60 Hz 21 ENERIUM 50 Up to 247 ENERIUMs can be linked on the same RS485 communication line The cabling detail is menti
18. IN max aver e Des aver e IHDVt1 aver THDV2 aver THDV3 aver e THDU12 aver THDU23 aver THDU31 aver e THDI1 aver THDl2 aver THDI3 aver e FOVi aver FCV2 aver FCV3 aver e FCl1 aver FCl2 aver FCl3 aver e S max aver The maxima listed above are developed according to the following algorithm If X moy gt X max moy Then X max moy X moy 25 25 2 Maxima B The products also calculate the maxima of average variables in the two quadrants corresponding to the receiver mode These maxima are the following e PR max aver QR max aver e FPR max aver cos gg R max aver The maxima listed above are developed according to the following algorithm it X moy gt XR max moy AND P moy 2 0 Then XR max moy X moy 25 25 3 Maxima C The products also calculate the maxima of average variables in the two quadrants corresponding to generator mode These maxima are the following PG max aver aver e FPG max The maxima listed above are developed according to the following algorithm If X moy gt XG max moy AND P moy 0 Then XG max moy X moy 93 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 26 INDEX 26 3 4 wire By default 47 Configuration 47 A 26 Abbreviations 26 Activation Global alarm 40 Active energy 26 Active Energy EP 34 Active Energy 33 Active power Mathemat
19. MEASURE STATION ENERIUM CHAUVIN ARNOUX GROUP FRENCH User Manual EN ERDIS ENERIUM Measure station 16 1 ACCESS Em 51 16 2 Fresnel and gauges Screen 51 163 53 17 LOAD CURVES nen 55 18 RECORDING CURVES 57 18 1 Recorded variables 57 18 2 Synchronization modes 57 18 3 Operating modes of recording curves 57 18 4 Indicators of the recording curve 58 INSTALLATION nnn nnne nna 59 19 MECHANICAL ASSEMBLY 61 61 Operations 61 20 ELECTRICAL CONNECTION 63 20 1 Preliminary notes 63 20 2 Connection of voltage and current inputs 63 20 3 RS485 Connection 65 20 4 Ethernet Connection 66 20 5 Connection of input and output cards 67 20 6 Connection of the auxiliary source 68 UsE 69 21 OPERATING PROCEDURE 71 21 1 Complete Procedure 71 21 2 HOWTO 71 22 LOCALE REMOTE COMMUNICATION 73 22 1 E setand E view applications 13 22 2 ModBus RTU compatible specific application 73 23 MAIN
20. frequency parametered at 60Hz The formulas are 5 P 107 For F 50Hz 1 5 B 15 1x P 12T For F 60Hz 1 10 With P 107 ET b3 P T 10 lt 1 12 P 12T T 1 128 1 8 L 1 2 3 15 is the sum of active powers at the second P 1s P 1s P2 Is 25 5 Transit direction of powers AUC E The products measure the transit direction of the powers at the second e f P 1s is positive the transit direction of the powers is the Receiver e f P 1s is negative the transit direction of the powers is the Generator 25 6 Reactive power The products measure reactive powers at the second on each of the Q4 1s Qo 1s and Qs 1s phases as well as the three phase reactive power at the second Q 1s The measurements are performed other measurements according to the following formula 15 SigneQ 1514 5 2115 P 15 1 2073 SigneQ 1s is the sign of the reactive power developed from the simplified Hilbert transformation For 50 Hz 6400 SigneQ 1115 m Sign of gt a i li 5 i l For F 60 Hz es 7800 SigneQ L 15 Sign of b3 T e iu a i l Q 1s is the sum of at the second reactive powers Q 1s 011 181 15 25 7 Apparent Power The products measure the apparent powers at the second on each of the S4 1s 515 and 3 1 phases as well as the thr
21. given in paragraph 24 6 3 page 81 The terminal characteristics are given in paragraph 24 6 3 on page 81 RS 485 A m Auxiliary Supply 19 B BO 265 Vaeide ov a 50 60 Hz Ethernet ENERIUM 50 E NE E fe 8 7 8 8 10 11 Detail of the voltage input terminals 7 2 2 Current inputs The Current input terminals are marked 6 to 11 on the label on the rear part of ENERIUM The electrical characteristics of the current inputs are given in paragraph 24 6 4 page 81 The terminal characteristics are given in paragraph 24 6 4 page 81 Auxibary Supply E 295 nu 50 60 Hz 10A ENERIUM 50 Ethernet Current inputs Detail of the current input terminals 19 7 3 Auxiliary source terminal The Auxiliary source terminals are marked 12 and 13 on the rear part of ENERIUM Two types of power supplies are available e High voltage power supply the supply is made without preference on the same terminals no change for alternating or direct current e Low voltage direct power supply the supply is exclusively made with DC The polarity is free The electrical characteristics of the supplies are given in paragraph 24 6 6 page 82 The characteristics of the terminals are given in paragraph 24 6 6 page 82 ane y Sune ly ENERIUM 50 QJ Enerpis OL BA D a
22. navigation between the screens is done by pressing the keys A V See paragraph 9 5 1 page 31 for the rules for value displays See paragraph 8 2 2 page 26 for the meaning of the icons at the bottom of the screen ENERIUM Measure station Fa 9 3 1 Ph N Voltage Display of each phase neutral voltage difference The VT value is the earth neutral voltage difference WMoltage 230 00 230 00 230 00 5 00 I 000 Example of the Ph N Voltage screen MEDIA 9 3 2 Ph Ph Voltage Display of the line voltage difference between phases U12 U23 U31 and frequency Moltage Ph Ph 4 400 00 400 00 400 00 50 00 I 000 Example of a Ph Ph Voltage screen 29 9 3 3 Current Display of the current of each line Current 2 000 2 000 0 0 2 00 5 00 Example of the Current screen 9 3 4 Maximum average current Display of the maximum average current of each line the duration of integration is defined using a local or remote communication Current mox dmd umso 2 100 mmn 2 100 momo 2 100 moo 2 0 003 I 000 Example of a Maximum Average Current screen See paragraph 25 19 page 91 for the calculation mode of the averages by ENERIUM 9 3 5 Power An example of display is shown below 1 380 1 380 Power 0 0 1 000 I 000 Example of a Power screen Display of S apparent power
23. 3 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 10 3 5 EQ3 Reactive Energy Display of two negative reactive cumulated energy meters in generator mode quadrant 3 when powering up ENERIUM The data is read as indicated in paragraph 10 3 3 10 3 6 EQ4 Reactive energy Display of two negative reactive cumulated energy meters in generator mode quadrant 4 when powering up ENERIUM The data is read as indicated in paragraph 10 3 3 10 3 7 ES Apparent Energy Display of two apparent energy meters cumulated and absolute in receiver mode quadrants 1 and 4 when powering up ENERIUM The total value refers to a two values group see example MVAh 231 kVAh 457 897 Indicates a metering of 231 457 897 kVAh Apparent power EZ 231 457 897 I 000 Example of an ES4 Apparent Energy Screen 10 3 8 ES Apparent Energy Display of two apparent cumulated and absolute energy meters in generator mode quadrants 2 and 3 when powering up ENERIUM The data is read as indicated in paragraph 10 3 7 10 4 Return eee Pressing on the 4 key returns to the Measurements screen Pressing twice on the lt key returns to the main screen 34 10 5 Notes 10 5 1 Display rules for energies Energy meter display active reactive or apparent is made on two lines On the first line the upper part of the energy meter is displ
24. 38 Indicators Recording curves 58 Inductive network Icon 16 26 Information Hetention duration 82 Information retention Characteristics 82 Installation 59 Cleaning 8 Instructions 8 Installation Category 8 Instantaneous current 26 Instantaneous ground voltage 49 Integration time 55 IP address Hemote communication 44 IP address By default 47 Italian Language 45 Ix 26 JBus Address 44 Key navigation 17 OK 17 Keys Characteristics 81 kVAh 26 kVARh 26 kWh 26 Language By default 47 Display 45 French Italian German Spanish 45 LCD 15 Backlighting 15 Blinking 40 Characteristics 81 Command word 15 Contrast 15 Stop blinking 40 LCD screen 15 LCD Screen 15 LED Ethernet 67 Line voltage Fresnel 52 Line voltages Mathematical formulas 87 Load curves Screen 55 Local communication Optical interface 73 Loss of synchronization 55 Maintenance ENERIUM 75 Management inputs 21 ENERIUM Measure Station CHAUVIN ARNOUX GROUP On Off outputs 21 Manumesure 75 Mask By default 47 Remote Communication 44 Mathematical formulas Apparent Power 88 Energy and metering 90 Frequency 89 Harmonics rate 89 Line voltages 87 Maxima of variables 93 Peak factor 89 Phase order 90 Power factor 88 Reactive power 88 Unbalance 90 Mathematical formulas Ground voltage 87 Mathematical formulas Current 87 Mathematical formulas Active power 87 Mathema
25. 5 22 14 AWG Maximum acceptable coupling torque on the terminal 0 4 Nm 24 7 2 2 output analog card Number of outputs 2 Output Signal D C Maximum resistive load 10 output Maximum capacitive load 0 1 pF Response time 500 ms Isolation between outputs 1 kV 1 min Limits min and max 22 lt loutput lt 22 MA 24 7 3 2 On Off inputs card Item Characteristics Number of inputs 2 Input Signal Continuous Amplitude of the input signal Between 19 2 Vdc or 24 Vdc 20 and 72 or 60 Level Interpretation Amplitude 5 V the logic level read is Amplitude gt 10 V the logic level read is 1 The signal width should be at the minimum 30 ms Absorbed power 0 5 W per On Off input Isolation between outputs 2 2 kV 1 min Type of protection Optocoupler 82 24 7 4 2 On Off output card Item Characteristics Number of outputs Maximum admissible current 2 lt 100 mA Output signal D C signal varying from 19 2Vdc or 24 2 to 265 or 220 Q A C frequency signal between 42 5 Hz and 69 Hz varying from 19 2 Vac or 24 Vac to 265 Vac or 230 Vac Complies with CEI 62053 31 1998 standard 2 2 kV 1 min Output in pulsed mode Isolation between outputs Type of contact Dry contact Type of protection Static relay bidirectional MOS transistor 24 7 5 1 On Off input and 1
26. Display rule for the power factor Power factor displays are made using three digits with one floating point i e 9 99 A logo is used for the unit In case of an inductive power factor the unit is the pictogram In case of a capacitive power factor the unit is the pictogram 9 5 7 Display rule for the time meter Ttime meter displays are made using ten digits with one floating point and the unit is given 99999999 99 h is an example ENERIUM Measure Station 32 10 ENERGIES SCREEN This screen displays the menu for selection of active reactive and effective energy measurements 10 1 Access This is achieved from the main menu by selecting the icon W and pressing the OK key 10 2 Energy Screen This screen looks as follows Pegg t Lig Foner Reactive Reactive Apparent pouer Apparent pouer PUTT TTT NN All the information displayed can be retrieved thru e local or remote communication Reminder of the quadrants used by ENERIUM ENERIUM Measure station W 10 3 Information This paragraph shows each of the screens accessible from the Energy screen by pressing the OK key For all the displays scrolling between screens is done with the AW keys See paragraph 10 5 1 page 35 for the rules for value displays Also see paragraph 8 2 2 page 26 for
27. Electrical parasites 63 Fuse 68 Voltage inputs 63 Pulse Blocking 21 On Off inputs 21 Tally 21 Weight 21 Width 21 ENERIUM Measure Station CHAUVIN ARNOUX GROUP Pulsed mode Associate output 21 On Off outputs 21 Tally 21 Q 26 Ranges of harmonics 49 Rates of harmonics 49 RAZ Status word for alarms 40 Reactive energy 26 Reactive Energy EQ 34 Reactive power Mathematical formulas 88 Reactive power 26 Real composed voltage 26 Real RMS voltage 26 Recorded variables 57 Recording Depth 55 57 Recording curves Characteristics 80 Continuous mode 57 Filling rate 58 Indicators 58 Mode buffer stop 57 Mode with immediate stop 58 Mode with stop centered 25 58 Mode with stop centered 50 58 Operating modes 57 Period 57 Screen 57 Recording period 57 Registered trademarks 9 Relays Alarm associated 39 Global alarm 40 On Off outputs 21 Remote communication Display 45 Electrical network 46 Ethernet 44 74 Gateway 45 IP address 44 JBus address 44 Mask 44 Parity 44 Reversal 44 RS 485 43 RS485 73 Speed 44 Remote Communication Configuration 43 Stop bit 44 Resetting Alarms 40 Resistance Polarization 66 Reversal By default 47 Remote communication 44 RJ 45 66 RS 485 Addresse by default 47 JBus Address 44 Parity 44 Parity by default 47 Remote communication 43 Reversal 44 Reversal by default 47 Speed 44 Speed by default 47 Stop bit 44 Stop b
28. Li i21 cR e 16 11 Location of the auxiliary source terminal In the case of a power cut of the auxiliary source the strategic data are saved See paragraph 24 6 7 page 82 7 4 Optional cards Four card models are available e 2analog output card paragraph 7 4 1 e 2 On Off output card paragraph 7 4 2 e 2input card paragraph 7 4 3 e 1 input and 1 output card paragraph 7 4 4 An optional card can be installed inside ENERIUM cache protects the unused location The terminal of each of these cards is accessible in the upper part of ENERIUM The terminal characteristics are given in paragraph 24 7 1 page 82 ENERIUM Measure Station CHAUVIN ARNOUX GROUP Location of the optional card Location of the optional cards 7 4 1 2 Analog output Card This card has two independent analog outputs each generating a direct current proportional to one of the ENERIUM variables Using a local or remote link the user may assign to each analog output e variable to be monitored V U I P S FP cos Tan and frequency e Min and max output values The transfer function is always of single slope type When the output variable reaches and exceeds the maximum output value the output remains blocked at the maximum output value When the output variable reaches and exceeds the minimum output value the output remains blocked at the minimum output value It is pos
29. On Off output card Electrical characteristics identical to those of the 1 On Off input and 1 On Off output cards described in paragraph 24 7 3 on page 82 and 24 7 4 on page 83 The differences are found in the number of inputs and outputs available on the card i e Number of On Off inputs 1 Number of On Off outputs 1 S 24 8 Metrology Cos 0 236 2 50Hz except for variable F Vnom Unom 230 V 400 V for TP secondary gt 100 V Vnom Unom 57 7 V 100 V for TP secondary 100 V lao Variable Conditions Accuracy V V between 10 and 120 of 0 2 of the Vnom measurement 0 02 Of Vnom U between 10 and 120 of 0 2 of the Unom measurement 0 02 of LU on between 5 and 130 of lom 0 2 of the measurement 0 02 of F between 42 5Hz 69Hz 0 1Hz CH 250ppm P FP equals 1 V between 99 and 101 of Vnom between 5 and 130 of lom 0 5 of the measurement 0 02 Of Prom ENERDIS CHAUVIN ARNOUX GROUP ENERIUM Measure Station FP between 0 5 inductive and 0 8 capacitive V between 99 and 101 of Vnom between 10 and 130 of Sin 1 V between 99 and 101 of Viam between 5 and 130 of luo between 296 and 5 of lhom Sin 9 lying between 0 5 inductive and 0 5 capacitive V between 99 and 101 of M nam between 1096 and 130 of between 5 10
30. above are calculated according to the following formula N X moy i l 25 19 3 Arithmetic averages B The products calculate the arithmetic averages of at the second variables in the two quadrants in receiver mode These averages are the following e P2R aver P3R aver PR aver e QihR aver Q2R aver Q3R aver QR aver In the case where P 1s is positive or nil receiver mode it is the value measured at the second which is taken into account in the average When 18 is negative generator mode it is the value 0 which is taken into account in the average 25 19 4 Arithmetic averages C The products calculate the arithmetic averages of at the second variables in the two quadrants in receiver mode These means are the following e FP1R aver FP2R aver FP3R aver FPR aver e cos o1 R aver cos 2 R aver cos 3 R aver cos g R aver In the case where P 1s is positive or nil receiver mode it is the value measured at the second which is taken into account in the average When P 1s is negative generator mode it is the value 1 which is taken into account in the average 25 19 5 Arithmetic averages D The products calculate the arithmetic average of at the second variables in the two quadrants in generator mode These averages are the following e P G aver P2G aver P3G aver PG aver QiG aver Q2G aver Q3G aver QG aver In the ca
31. bet Hormona Harmonicz Harmonics Harmonicz See page 49 See page 33 power Rept Lise Reactive pouer Rint Reactive DE Appar ent gopa Apparent See page 41 Flowchart of all the main menus accessible on ENERIUM s NERDIS ENERIUM Measure station CHAUVIN ARNOUX GROUP See page 37 Product information Hour meter ate lt Hour spl a too 43 sor diagrams and gauges diagrams Phas lor diuum Bauges Wok Gauges Wik ph Gauges currents auge See page 51 27 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 9 MEASUREMENTS SCREEN This screen displays the selection menu for the basic measurements V U 1 P Q S PF H etc 9 1 Access This is achieved from the main menu by selecting the icon Xj and pressing on the OK key 9 2 Measurements screen This screen looks as follows Meoazurementz Moltage Ph Ph Current mox cmd Four Pouer mad THO voltage Ph Ph THO current Harmonics voltage Ph Ph Harmonibcs I 000 The Measurements Screen All the information displayed can be retrieved thru local remote communication 9 3 Information This paragraph explains each screen accessible from the Measurements screen after pressing the OK key For each of the screens
32. curves There are five operating modes of recording curves e Continuous Mode the recordings are done in a circular manner in the curve the oldest recording being deleted by the latest recording FIFO type curve In this mode the three types of synchronization are authorised for the recording launch On the other hand only the writing of a command word local or remote communication can stop the data recording e Mode with stop on full buffer the three types of synchronisation are authorised for the launch of the recording The recording is stopped when the storage register is full e Mode with immediate stop on synchro the recordings are done also in a circular manner in the curve the oldest recording being deleted by the latest recording FIFO type curve The recording 57 starts as soon as a variable is allotted to the curve The writing of a command word on the local or remote communication a Synchro on On Off input or even a Synchro on alarm can immediately stop the data recording e Mode with stop on centered synchro 2596 7596 the recordings are done in the same manner as in the third mode But the recording stop occurs only when 75 of the recording curve contains data recorded after the stop command which can be the writing of a command word on the local or remote communication a Synchro on On Off input or even a Synchro on alarm e Mode with stop on centered synchro 5096 5096 the recording
33. i pete alarm alarm alarm alarm alarm EE ee CT LP Ee P e Example of an Alarms screen Y This screen shows for each of the eight global alarms the status of the active alarm or having been activated in the first column and the status of associated On Off All displayed information can be retrieved thru outputs relays paragraph 7 4 2 on page 20 in the The Alarms screen on call local or remote communication second column Indication Explanation Number Number of the global alarm a global alarm is sometimes a combination of two elementary alarms Status Status of the alarm active or inactive in the station non programmed alarm non active programmed alarm active programmed alarm Relay Status of the associated relay paragraph 7 4 2 in page 20 relay not associated with the alarm relay associated with the alarm but not active relay associated with active alarm EE capis ENERIUM Measure station 39 The definition of alarms number delay time threshold measured variable is only possible by local or remote communication see chapter 22 page 73 12 3 2 Resetting of Alarms This screen enables the re initialization of the alarms release of the alarm of associated On Off outputs upon validation of the choice YES miacm rn Example of an Alarm resetting screen To re initi
34. input output 21 On Off inputs 21 On Off outputs 20 61010 1 8 Characteristics Alarms 80 Analog outputs 80 Auxiliary supply source 82 Current inputs 81 Display 81 Electrical 81 Ethernet 82 Information retention 82 Keys 81 LCD 81 Load curves 80 Measurements 79 Mechanical 84 Metrology 83 On Off I O card 83 On Off input card 82 On Off output card 83 Optical interface 82 Output analog card 82 Recording curves 80 RS485 81 Voltage inputs 81 Cleaning 8 Command word LCD 15 Communication Card 37 Local or remote 73 Remote 73 Communication ongoing Icon 16 Communication RS 485 By default 47 Communication speed 74 Configuration 3 4 wire 47 Change 55 Default values 47 Icon 25 Password 45 Remote communication 43 Screen 43 TC primary 46 TC secondary 47 TP Primary 46 TP secondary 46 Configuration change 55 Connection Analog cards 67 Auxiliary source 68 Cards E S 67 Ethernet 66 On Off I O cards 68 On Off input cards 67 Output cards 67 RS485 65 Contrast Adjust level 45 95 By default 47 Dsiplay 45 Contrast LCD 15 Contrast level Adjust 45 Copyright 9 Cos q Mathematical formulas 88 Current 30 Fresnel 52 Harmonics 50 Mathematical formulas 87 Transformer 46 Current input Terminal 19 Current inputs Characteristics 81 Connections 63 Terminal 19 Currents Display rule 31 Fresnel 52 Gauges 52 Cursor Move 17 Customized
35. obtain this document When no action has been detected on the keys for more than 3 minutes the display back light is switched into standby mode 6 3 Optical Interface 6 3 1 Presentation The optical interface is made of the following elements Meaoazurementz j Optical Interface 1 2 Ref Function 1 Positioning device 2 Infrared communication emitter and receiver Close view of the front optical interface 16 6 3 2 Function The optical interface allows parametering and reading the measurements recorded by ENERIUM locally from a PCusing an optical cable see paragraph 6 4 page 17 6 4 Optical Cable The optical cable is an accessory sold separately which is connected to ENERIUM optical interface in order to transfer information between a PC and ENERIUM The USB type connecOn Off side of the optical cable is connected to the The communication protocol between ENERIUM and the PC uses a RTU mode For the communication parametering see chapter 22 page 73 The optical cable 65 OK Key This key validates the selected choice or the entered parameters It also enables the input or output of the editing mode OLN Oy Hansurements j W e a 2 ENERIUM Position of the OK key ENERIUM Measure Station 6 6 Navigation Keys These keys enable the navigation in the different menus 6 6 1 F
36. ratio in percentage with respect to the basic range 1 e V1 instantaneous ground voltage in volts e Hxx value in percentage related to the most important harmonic found between ranges 1 and 50 e THD total harmonic distortion see formula used in paragraph 25 14 on page 89 15 2 2 V2 Harmonics Displays the harmonics and additional data on ground voltage V2 Refer to paragraph 15 2 1 V1 Harmonics on page 49 for details 15 2 3 V3 Harmonics Displays the harmonics and additional data on the ground voltage V3 Refer to paragraph 15 2 1 V1 Harmonics on page 49 for details 15 2 4 U12 Harmonics Displays the harmonics and additional data on the line voltage U12 Refer to paragraph 15 2 7 V1 Harmonics on page 49 for details 15 2 5 U23 Harmonics Displays the harmonics and additional data on the line voltage U23 Refer to paragraph 15 2 1 V1 Harmonics on page 49 for details 49 15 2 6 031 Harmonics Displays the harmonics and additional data on the line voltage U31 Refer to paragraph 15 2 7 V1 Harmonics on page 49 for details 15 2 7 11 Harmonics Displays the harmonics and additional data on the current 11 Refer to paragraph 15 2 1 V1 Harmonics on page 49 for details 15 2 8 12 Harmonics Displays harmonics and additional data on current 12 Refer to paragraph 15 2 1 V1 Harmonics on page 49 for details 15 2 9 13 Harmonics Displays the harmonics and additional data on t
37. screens Icon 25 Screen 41 Cutting 61 Date Display 38 Synchronization 57 Default values Configuration 47 Delivery default values 47 DHCP 74 Dimensions 13 DIN 43700 13 Display By default 47 Characteristics 81 Contrast 45 Language 45 Password 45 Hemote communication 45 Scrolling 45 Time 45 Display rule Currents 31 Energies 35 Frequency 32 Harmonics 32 Power 32 Power factor 32 Time meter 32 Voltages 31 Distributed neutral 47 E set 73 E view 73 Electric variables 26 Electrical connection 63 Electrical network 3 4 wire 47 By default 47 Hemote communication 46 TC primary 46 ENERIUM Measure Station TC secondary 47 Electrical parasites 63 Elementary alarm Global alarm 40 Statuts 40 End of life 9 Energies Display rules 35 Energy Icon 25 Screen 33 Energy and metering Mathematical formulas 90 ENERIUM Accessories 85 Address 74 Cuting 61 Electrical connection 63 Fixation tableau 61 Maintenance 75 Mechanical assembly 61 Mechanical characteristics 84 Number 37 Technical characteristics 77 ENERIUM 150 Comparison 14 ENERIUM 50 13 ENERIUM 50 Comparison 14 Equation Global alarm 40 Ethernet Address by default 47 Characteristics 82 Connection 66 Gateway 45 Gateway by defaumt 47 IP Address 44 LED 67 Mask 44 Mask by default 47 Remote communication 44 74 Terminal 19 22 Ethernet Com
38. the meaning of the icons at the bottom of the screen 10 3 1 EP active Energy Display of two active positive cumulated energy meters in receiver mode quadrants 1 and 4 when powering up ENERIUM The total value refers to a two values group see example MWh 231 kWh 457 897 indicates a metering of 231 457 897 kWh True power EP 237 457 897 gt 000 Example of an active Energy Screen 33 10 3 2 active Energy Display of two active negative cumulated and absolute energy meters in generator mode quadrants 2 and 3 when powering up ENEHIUM The total value refers to a two values group see example MWh 231 kWh 457 897 Indicates a metering of 231 457 897 kWh power EF 231 457 897 I 000 Example of an EP active energy screen 10 3 3 EQ Reactive energy Display of two positive reactive cumulated energy meters in receiver mode quadrants 1 when powering up ENERIUM The total value refers to a two value group see example MVARh 231 kVARh 457 897 Indicates the metering of 231 457 897 kVARh Reactive power ERI 231 457 897 I 000 Example of a EQ1 Reactive Energy screen 10 3 4 EQ 2 Reactive energy Display of two positive reactive cumulated energy meters in generator mode quadrant 2 when powering up ENERIUM The data is read as indicated in paragraph 10 3
39. 0 periods of the reference signal input Communication ongoing on one of the communication ports remote or local Blinking Pictogram Automatic scrolling mode of the screens active Fixed Pictogram Capacitive type network this pictogram has the same position on the screen as the next pictogram Inductive type network this pictogram has the same position on the screen as the preceding pictogram Generator network there is no pictogram for a receiver network Fixed Pictogram 8 3 Abbreviations The ENERIUM display uses abbreviations of electrical symbols These symbols also used in the present document are the following 8 3 1 Units Symbols Description Percent Symbol A RMS current symbol in Ampere V RMS voltage symbol in Volt Hz Network frequency VA Apparent power total if 30 VAR Reactive power total if 39 W Active power total if 3 6 kVAh Total apparent energy in kilo EwERDiS ENERIUM Measure Station CHAUVIN ARNOUX GROUP Symbols MVAh kVARh MVARh kWh MWh 8 3 2 Symbols F FP Hxx la Hxx Uab Ix In Ix Max Moy P Pmoy Q 5 omoy THD Ix THD Uab Uab Vx VT Description Total effective energy in mega Total reactive energy in kilo Total reactive energy in mega Total active energy in kilo Total active energy in mega Electric variables Description Symbol for Frequency in Hertz Power factor ratio active effective power
40. 00 Parity Sans Stop Bit 1 Reversal 50 Ethernet Communication IP Address 000 000 000 000 Mask 255 255 000 000 Gateway 000 000 000 000 485 and Ethernet communications cannot be shown the same time Display scrolling NO Time 03 Language Frangais Contrast 3 Password 0000 Electrical network TP Primary 400 TP Secondary 400 TC Primary 5000 TC Secondary 5 3 wire 4 wire 4 wire lt EN ERDIS CHAUVIN ARNOUX GROUP Me ENERIUM Measure Station 14 8 Notes If some parameters can be modified directly from the navigation keys of the display others can only be defined using local or remote communication For local or remote communication see chapter 22 on page 73 The parameter setting by local remote communication can be done using the E set or E view software They enable the parameter setting E set or remote parameter setting and visualization E view using a digital connection RS485 modem optical etc 47 Any other software or automaton compatible with the ModBus RTU standard enables the parameter setting of ENERIUM The reader can refer to the specific manual for this application It is accepted that ENERIUM is supplied see paragraph 20 6 page 68 and connected to peripheral equipment see chapter 20 page 63 However the parameter setting can be performed without the peripheral equipment being connected For additional information on the MODBUS RTU and MODBBUS JCP
41. 2 S3 EN St e e e e FPR e 1 o e 1 1 Coso1 Coso2 63 e e 1 Cosi EE 1 1 1 Tan m e 1 e 1 e 1 Frequency e e e e Peak factor V1 V2 V3 Peak factor 11 12 13 NE Unbalance e e e Harmonic 2 1 to 50 V1 V2 V3 U12 e U23 U31 11 12 I3 THD V1 V2 U12 U23 U31 11 12 13 e Time meters network presence in load auxiliary source Active Receiver Generator Energy e Reactive Energy Qcad1 2 e Qcad4 Effective Receiver Generator Energy e Pulsed metering input e On Off1 On Off2 1 also measures in generator and receiver mode 2 up to range 25 for ENERIUM 50 E capis ENERIUM Measure station 79 24 2 Load curves eee Pt Gen Pt Rec e Qcad1 Qcad2 Qcad3 Qcad4 St Gen St On Off1 On Off2 Inputs e 24 3 Alarms 1 sec Values V1 V2 V3 Vearth U12 U23 U31 I1 2 I3 In Pt Qt St FPt Cos ot Tan Frequency Unbalance U 3 time meters network presence loaded Aux source Average values Pt Gen Qt Rec Qt Gen Qt Rec 1 24 4 Analog outputs 1 sec Values V1 V2 V3 Vearth e U12 U23 U31 e I1 2 I3 In P1 P2 e Pt e Q1 Q2 Q3 E Qt e 51 52 53 ot e ENERIUM Measure station FPt 9 Co
42. 2 R min aver cos q3 R min aver cos g R min aver The minima listed above are developed according to following algorithm it X moy lt XR min moy AND P moy 2 0 Then XR min moy X moy with X FP or 25 22 2 Minima B The products also calculate the minima of average variables in the two quadrants corresponding to the generator mode These minima are the following e aver FP2G min aver FP3G min aver FPGl min aver e 05 01 aver cos 2 G min aver cos qo3 G min aver cos g G min aver The minima listed above are developed according to the following algorithm it X moy lt XG min moy AND P moy 0 Then XG min moy X moy with X FP or cos q 25 23 Calculation of maxima Each maximum is timestamped date and time of detection of the maximum All the maxima can be reinitialized by writing a command word over the local or remote communication The reinitialization consists of placing the value 0 in the variable with the exception of the maxima of variables of type FP and cos for which the reinitialization consists of placing the value 1 92 25 24 Maxima of variables eee 25 24 1 Maxima The products calculate the maxima of at the second variables in the four quadrants These maxima are the following e Vi max V2 max V3 max e Ul2 max U23 max U31 max e li max 2 I3 max
43. 3S wires Sod wires 4 wires The Electrical Network screen 14 6 1 TP Primary Defines the maximum voltage of the primary line voltage of the voltage transformer Proceed as follows 1 Display the Electrical network sceen and press on OK to select TP Primary 2 Press on OK to select the value to be modified 3 Use the VA keys to modify the value displayed and lt P gt to change the position of the cursor This value corresponds to the maximum operating voltage indicated on the primary of the voltage transformer The primary line voltage of the TP transformer lies between 100 V and 650 000 V The TP primary can be adjusted in increment of 1 V 4 Press on OK to validate 14 6 2 TP Secondary Defines the maximum voltage of the secondary of the voltage transformer Proceed as follows 1 Select the TP Secondary line with the VA keys and press on OK 2 Use the WA keys to modify the underlined value lt P to change the position of the cursor This value corresponds to the maximum operating voltage indicated on the secondary of the voltage transformer The secondary line voltage of the TP transformer lies between 100 V and 480 V The TP secondary can be adjusted in increments of 1 V 3 Press on OK to validate 14 6 3 TC Primary Defines the maximum current of the primary of the current transformer Proceed as follows 1 Select the TC Primary line with the WA keys and press on OK 2 Use the WA keys
44. 47 Transmission Format Digital input output Optical infrared ensuring optical bidirectional transmission Connection By optical cord without electrical contact 24 6 6 Auxiliary supply source Source Characteristics A C D C high tension 80 Vac dc or 100 Vac dc gt to 265 Vac dc or 230 Vac dc Frequency between 42 5 Hz or 50 Hz 17 and 69 Hz or 60 Hz 15 in A C Low tension D C 19 Vdc or 24 to 58 or 48 Consumption lt 15 VA 10 W Non detachable terminals 2 connection points Screw terminals with mobile cage Connection of rigid or flexible wires of section 0 to 2 5 mm 22 14 AWG Maximum acceptable coupling torque on the terminal 0 4 Nm Either model Supply mounted by the manufacturer 24 6 7 Information retention The information saved after a supply break is the e Parametering e Average values e Minimum values e Maximum values e Energy meters e Pulse meters e Event files e Time meters e Load curves e Recording curves ENERIUM Measure Station Characteristics Information retention 10 years at 25 Retention date time 5 days 24 7 Optional cards 24 7 1 Terminal characteristics ltem Characteristics Number of admissible 1 per ENERIUM optional cards Detachable terminals 2 x 2 connection points Screw terminals Connection of rigid or flexible wires of section 0 to 2
45. 5 Time meter Mathematical formulas 91 Time meter In load 38 Information display 38 Network presence 38 Operating time 38 TP primary By default 47 Configuration 46 Electrical network TP Primary Configuration 46 TP secondary By default 47 Configuration 46 TP Secondary Electrical network 46 Transfer PC ENERIUM 22 Transformer Voltage 46 Transit direction of powers Mathematical formulas 88 Transmission format 5485 74 Twiested cable torsad 65 Type ENERIUM 37 U Harmonics 49 unbalance 52 Unbalance Mathematical formulas 90 Unbalance rate 52 Unbalanced three phase 63 64 65 Unblocking Analog outputs 20 Units 26 Use 69 V 26 Harmonics 49 VA 26 VAR 26 Voltage 26 Voltage input Terminal 19 Voltage inputs Characteristics 81 Connections 63 Protection 63 Voltage U Harmonics 49 Voltage V Harmonics 49 Voltages Display rule 31 Time meter 32 Voltages U Gauges 51 52 Voltages V Gauges 51 52 W 26 Weight Pulse 21 Width Pulse 21 Uu ENERDIS CHAUVIN ARNOUX GROUP ENERDIS ENERIUM Measure Station NOUX GROUP
46. RTU protocol contact ENEHDIS to obtain the document MSO 7388 Mappings and command words ENERIUM Measure Station 48 15 HARMONICS This screen displays menu of Harmonics only on ENERIUM 150 t enables the graphical visualization of harmonics range by range the three ground voltages three line voltages three currents and the corresponding distortion factors 15 1 Access From the main menu by selecting the icon pressing the OK key 15 2 Harmonics Screen The screen is as follows Harmonics crmomnbpcoz i Har monic Har monic Harmonic Hopman Hormari dbo Harmar Lic Harmon bos Hp itp inp inp i pig d iy ip itp GO fd fel Pole tad pet Fo Pa Harmonics screen It is used as follows 1 The Harmonics screen is displayed 2 Select the desired line with the W A keys and press on OK to display the corresponding screen Refer to the next paragraphs for details 15 2 4 V1 Harmonics Press on the OK key to display the harmonics and the additional data on the ground voltage V1 The display is for example as follows Eneris ENERIUM Measure station CHAUVIN ARNOUX GROUP Harmonicz Ui The V1 Harmonics Screens e he horizontal axis indicates the harmonic ranges from 1 to 50 for ENERIUM 150 Range 0 corresponds to the continuous component and ranges 1 to 50 correspond to harmonics e The vertical axis 0 100 96 indicates the harmonics
47. S485 RS485 parametering Box operating time Duration of network presence Load duration Ph N U Voltages Ph Ph V Voltages THD of the Ph Ph voltage Current THD 1 Enerium Type 18 11 3 3 14 5 16 2 13 2 10 3 1 10 3 2 10 3 7 10 3 3 14 4 11 3 1 16 2 9 3 9 9 3 10 11 3 3 16 2 4 14 5 3 14 5 5 11 3 1 11 3 1 14 3 9 3 6 9 3 5 14 6 12 3 2 14 3 14 3 11 3 2 11 3 2 11 3 2 9 3 1 9 3 2 9 3 7 9 3 8 11 3 1 Page 57 38 45 51 41 33 34 34 34 44 37 51 31 31 38 52 45 45 37 37 43 30 30 46 40 43 43 38 38 38 29 29 30 31 37 71 Display S Page RS485 transmission speed 14 3 43 21 2 2 Modify the parameters Display S Page RS 485 remote communication 14 3 43 Ethernet remote communication 14 4 44 Display 14 5 45 Electrical network 14 6 46 The RS 485 and Ethernet interfaces cannot be present at the same time ENERIUM Measure Station 72 22 LOCALE OR COMMUNICATION The local or remote communication enables parameter setting and reading of ENERIUM either using the E set or E view application or from any specific application using the ModBus protocol in RTU mode Optical or RS485 Interfaces or ModBus TCP in RTU mode Ethernet Interface For additional information regarding the ModBus RTU and ModBus TCP RTU protocol contact ENERDIS to obtain the MS0 7388 document Mapping command words 22 1 E set and E view applications
48. SS The products measure the harmonic rate at the second on the three ground voltages 1 THDvs 1s 1 on the three line voltages THDui2 1s THDues 1s and THDusi 1s as well as on the three currents 14 THDi 1s and THDis 1s according to the definition of the 60050 551 20 standard 89 The measurements are performed the range by range harmonics at the second calculated according to the following formula THD 100x When the ground voltage line voltage or the current is equal to 0 the harmonic rate of the concerned variable is not calculated and its value is 0 25 15 Energy and Energy metering The products calculate the second active energy EP 1s reactive energy EQ 1s and the apparent energy ES 1s The measurements performed other measurements already calculated according to the following formula N 15 15 X P QorS 3000 The energies are measured absolute values they are thus always positive M is the variable measured at the second Active Reactive or Apparent power is the number of samples collected during the sampling window Fecn is the sampling frequency According to the quadrant the energy measured is added in an total meter e f P 1s is positive the EP 1s energy measurement is added to the active energy meter in receiver mode CEPR and the me
49. TENANCE 75 TECHNICAL 77 24 CHARACTERISTICS 79 24 1 79 24 2 Load 80 24 3 Alarms n RU 80 24 4 Analog 80 24 5 Recording curves 80 24 6 81 24 7 Optional cards 82 24 8 83 24 9 Mechanical 84 24 10 Environmental constraints 85 24 11 85 25 MEASURED 87 25 1 Ground voltage 87 25 2 Line voltages 87 259 CUNEN 87 25 4 Active 87 CHAUVIN ARNOUX GROUP 25 5 Transit direction of powers 88 25 6 Reactive 88 25 7 Apparent Power 88 25 8 Power 88 299 UOS 88 25 10 Peak TACOL c eei retro estu ust 89 25 11 89 25 12
50. This metering can be directed to a pulse meter for example the CCT ENERDIS JL W 30 ms Example of chronogram in pulsed mode To manage the pulse output this output must be associated when parametering with energy from among three phase active energy in generator mode three phase active energy in receiver mode three phase reactive energy of quadrants 1 2 3 and 4 and three phase effective energy in generator mode The pulse weight is also parameterable among the values 1 10 100 1k 10k and 100k The pulse width is common to all the outputs and it is programmable at 30 ms then from 50 to 500 ms in steps of 50 ms using a local or remote communication The pulse emission over one second is rounded to the nearest millisecond It is possible to block a pulse output in the High or Low state by sending a command word or thru the E set and E view software using a local or remote communication The output is automatically unblocked after 10 minutes or after the station restart Each logic output is composed of a static rely ensuring isolation between the command and the output This is a simple contact which is closed to emit a pulse or activate an alarm The detail of the management of each of the two On Off outputs assigned variable etc is defined using ModBus command words see document MSO 7388 Mapping and command words Contact ENERDIS to obtain this document The cabling details are mentioned in
51. U 15 Or the variable Fact3 such as 1 6 Fact2 lt 0 Then Fact3 43x Factl 6x Fact2 Or the variable Fact4 such as If Fact2 2x Factl lt 0 Then Fact4 0 Else Fact4 6x Fact2 2x Factl If Fact4 gt 0 Then Fact3 Des 1s 21000 x Fact4 Else Des 1s 2 0 25 17 Phase order This function executes the cabling test by verification of the phase order on the voltage lines The calculation is performed over 3 periods and every 10 periods of the input reference signal If the phase order is incorrect as pictogram lights up in the lower strip of the visualization screens 90 25 18 Time meter The products integrate three time meters e The first time meter totals the time during which the product is active i e the period during which the auxiliary source is present This time meter is called Auxiliary source presence time meter e second time meter totals the time during which the second measurement of at least one ground voltage from among 1 1 Ve is et 3 1 is different form zero This time meter is called network presence time meter e he third time meter totals the time during which the one second measurement of at least one current from among 14 1 12 15 et 13 15 is different from zero This time meter is called load presence time meter 25 19 Average variable The averages are slidin
52. ages The display is as follows Phazor diagcam Upi ph Example of a 3U baragraph The indication 0 130 of the baragraph indicates the instantaneous value measured with regard to the TP primary value programmed in Configuration Electrical network For example for a TP primary programmed for 400 V 100 of the gauge corresponds to 400 V 16 2 6 3l Gauges Press on the OK key to display the baragraph diagram of the three currents The display is as follows 52 Example of a 3 The indication 0 130 96 of the baragraph indicates the instantaneous value measured with regard to the TC primary value programmed in Configuration Electrical network For example for a TC primary programmed for 5000 A 100 96 corresponds to 5000 A 16 2 7 3P Gauges Press on the OK key to display the baragraph diagram of the three active powers The display is as follows Example of a baragraph The indication 0 130 of the baragraph indicates the instantaneous value measured with regard to the TC and primary values programmed Configuration Electrical network For example for a TC primary programmed for 5000 A and a TP primary programmed for 400 V 100 96 corresponds to 5000 400 which is 1 154 7 kW J3 16 3 Return Press the 4 key twice to return to the main menu ENERIUM Measure Station 53 ENERIUM Measure Station CHAUVIN ARNOUX GROUP
53. alize the alarms proceed as follows 1 The Alarms Resetting screen is displayed 2 Press on OK to enter the procedure 3 Press on gt to highlight YES black background To quit this procedure without re initializing the alarms press on 4 to highlight No black background 4 Press on OK to validate the choice 5 Return to the previous screen by pressing on 4 12 3 3 General Alarm 1 to 8 Each of these eight screens displays the status for each of the 8 global alarms activated deactivated of this alarm the associated load relay the corresponding logic equation and elementary alarms A global alarm is activated by a combination of elementary alarms combination defined from the E set or E view application see the corresponding manual i Iobal alarm i Equation let nl Status Example of a Global alarm screen ENERIUM Measure Station Indication Explanation Status Status of this global alarm active or inactive in the station non programmed alarm O non active programmed alarm active programmed alarm Relay Status of the relay associated with this general alarm relay not associated with the alarm O relay associated with the alarm but not active relay associated with the alarm and active El Name of the associated electrical variable ex Alarm V1 Status otatus of the elementary alarm output associated with this global alarm output not asso
54. ample of a Product information screen Ref Indication 1 Type of ENERIUM 50 150 and network frequency 2 Serial number of ENERIUM 3 Version number of the embedded software 4 Indicates Blank if no communication card is installed else indicates the ModBus address for the option RS 485 or the IP address for the Ethernet options see paragraph 14 3 in page 43 and in paragraph 14 4 in page 44 5 Indicates Blank if input output card is installed else indicates the type of input output card inserted see paragraph 7 4 on page 20 37 11 3 2 Time meter Three time meters are seen The information which can only be read is displayed over ten digits with fixed point as follows Hour meter perating time Example of a Time meter Screen Hef Indication 1 Operating Time Time meter duration of presence of the supply voltage auxiliary source on ENERIUM see paragraph 7 3 on page 20 This indication is useful for the maintenance of ENERIUM 2 Network Presence Time meter duration during which at least one ground voltage from among V1 1s V2 1s and V3 1s is different from zero This indication is useful for the maintenance of the monitored load 3 In Load Time meter duration during which at least one current from among l1 1s l2 1s and I3 1s is different from zero This indication is useful for the maintenance of the monitored load ENERIUM Measur
55. asurement of 5 15 energy is added to the apparent energy meter in receiver mode CESn e f P 1s is negative the EP 1s energy measurement is added to the active energy meter in generator mode and the measurement of ES 1s energy is added to the apparent energy meter in generator mode e P 1s and Q is are positive the EQ 1s energy measurement is added to the reactive energy meter of the first quadrant CEQ If P 1s is negative and Q 1s is positive the EQ 1s energy measurement is added to the reactive energy meter of the second quadrant If P 1s is positive and Q 1s is negative the EQ 1s energy measurement is added to the reactive energy meter of the third quadrant CEQA If P 1s and Q 1s are negative the EQ 1s energy measurement is added to the reactive energy meter of the fourth quadrant CEQs It is possible to reset all the meters using a command word on the local or remote communication It is also possible to reinitialize a meter independently from another with a value also using a command word on the local or remote communication ENERIUM Measure Station CHAUVIN ARNOUX GROUP 25 16 Unbalance The products calculate every second the voltage unbalance rate called Des 1s from the measurements of the line voltages at the second and according to the following algorithm Thus variables Facti and Fact2 such as Factl U 1s U ls U 15 Fact2 U ls U 1s
56. ayed in the form 999999 Muh On the second line the lower part of the energy meter is displayed in the form 999 999 kuh The letter u is defined as follows Energy Unit Active W Reactive VAR Effective VA ENERIUM Measure Station CHAUVIN ARNOUX GROUP 35 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 11 SERVICES SCREEN This screen shows the menu for selecting information relating to the device time meters for the device s operating time and the internal timestamping 11 1 Access This is done from the main menu by selecting the icon and by pressing OK key 11 2 Services Screen This screen is as follows Product inftormatiaon Hour inet ep Hour The Services Screen 1 local or remote communication No modification of the displayed values is possible ENERIUM Measure station 11 3 Information This paragraph shows each of the screens accessible from the Services screen after pressing the OK key For all displays the direct passage to the next or previous screen is possible with the W A keys See also paragraph 8 2 2 on 26 for the meaning of the icons at the bottom of the screen 11 31 Product Information The following information is displayed Product information Enerium Loe 5 Hz al number Ca E ns 13S 3 Pl t i IT ME e m 38 Lig output Ex
57. be recorded in a recording curve e Average ground voltages e Average line voltages e Average currents e Currents per second e Three phase active power per second e Three phase apparent power per second e Three phase reactive power per second e Global power factor per second e Unbalance factor per second e Average active powers over each phase and three phased in generator and receiver mode e Average power factors over each phase and global in generator and receiver mode e Average over each phase and global in generator and receiver mode Eneris ENERIUM Measure station CHAUVIN ARNOUX GROUP e Average three phase TAN s in generator and receiver mode e Average frequency e Average peak factors e Average THDs in ground voltage line voltage and in current of each phase 18 2 Synchronization modes There are three types of synchronizations to manage the launch or stop of the recordings of previously selected electrical variables e for the first type called Synchronization on date the recording of data starts or stops when ENERIUM reaches the programmed date and time e For the second type called Synchronisation on On Off input the recording of data starts or stops when the selected On Off input changes status e for the third type called Synchronisation on alarm the recording of data starts or stops when the selected global alarm 15 activated 5 18 3 Operating modes of recording
58. ciated with the alarm O output associated with the alarm but not active output associated with the alarm and active Equation Logic Equation AND or OR The activation of a general alarm is signaled locally by the blinking of the backlighting of the display area Thus if a global alarm is activated the ENERIUM screen will blink The blinking is stopped after resetting RAZ of the status word for the alarms command available under E set E view or in the document MSO 7388 Mapping and command words 12 4 Return One press on the 4 key enables the return to Alarms screen Two successive presses on the 4 key return to the main screen 40 13 CUSTOMIZED SCREENS 4 This screen shows the menu for selection of one of the e Or by programmed automatic scrolling of one three groups of screens defined using local or remote two or three of these screens communication The E set or E view software ensures the parametering of these customisable screens 13 1 Access 13 4 Screens From the main menu by selecting the icon 2 and pressing on the OK key This paragraph shows each screen accessible from the Customised Screens screen after pressing the OK key in their factory configuration 0 00 13 2 Customized Screens Screen oreen 1 Before any programming the screen is as follows O O O T Personalized screens 0 00 0 00 I 000 Example of a Customized Scree
59. creens parameterable by the user thru local or remote communication Configuration displays the menu for 43 configuration parameter changes TP TC ratio communication display scrolling language password li Harmonics displays the harmonic 49 amplitude of the range 1 to 50 in the form of histograms for the electrical variables V1 V2 V3 U12 U23 U31 11 2 and 13 ENERIUM 150 only OE Fresnel and gauges displays the 51 Fresnel diagrams of electrical variables V and as well as the bar charts for the electrical variables V U and P ENERIUM 150 only 25 the selection of an icon is made using navigation keys see 6 6 page 17 When an icon is selected its look changes by the appearance of a routing creating a relief button The action on the OK key shows the menu related to the selected icon The Up and Down keys scroll between lines Pressing the OK key displays the selected screen 8 2 2 Icons at the bottom of screen These icons are located in the lower part of the different screens They display the following information Icon 09 I 00 Function At least one active global alarm Blinking Pictogram Wrong phase order the voltage inputs are badly connected Fixed Pictogram A cabling test thru verification of the phase order on the voltage lines is carried out continuously The calculation is made over 3 periods and for all 1
60. curve by sending a command word on the local or remote communication ENERIUM Measure Station CHAUVIN ARNOUX GROUP The time setting of the product entails no change in the programming Moreover no marking is executed in the curves in case of change of time For more information contact ENERDIS to obtain the MSO 7390 document on recording curves and the MSO 7388 document on the mapping and command words 58 Installation ENERIUM Measure station 99 CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 19 MECHANICAL ASSEMBLY This chapter describes the mechanical assembly of The dimensions are found in paragraph 24 9 on page 84 19 1 Cutting Assembling this version is done exclusively on panel Proceed as follows 1 Make a cutting as indicated in the following figure Setting up a panel fastener pull the clip end and slid it as indicated above Operations Continuation This consists of the electrical assembly of the ENERIUM and its additional elements voltage transformers current transformers Dimensions of the cutting of the panel 2 Insert ENERIUM in the cutting thru the external part 3 Slide the two table fasteners and push them until you find the correct positioning of ENERIUM QEnervis ENERIUM Measure station 61 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 20 ELECTRICAL CONNECTION This chapte
61. d precise information The ENERDIS Company does not assume any responsibility for any wrong interpretation Although all efforts have been made to offer a manual as precise as possible the latter may however include technical inaccuracies and or typographical errors Eneris ENERIUM Measure station CHAUVIN ARNOUX GROUP The product owner must keep this manual for the entire duration of the product s use Any information or modification pertaining to this manual should be addressed to ENERDIS Publication Manager 1 9 Rue d Arcueil BP 675 92542 MONTROUGE Cedex FRANCE 2 SAFETY You have just acquired an ENERIUM Measure station of 50 or 150 type and we thank you for trusting our company and products To obtain the best service from your device e Read this operation notice carefully e Folow the precautions for usage which are mentioned in it Meaning of symbol Caution the reference manual carefully before using the device In this reference manual if the instructions preceded by this symbol are not followed or executed well they can cause a bodily injury and damage the device and the installations This device is meant to be used as per the conditions of the installation category degree of pollution 2 complying with the provisions of the CEI 61010 1 standard It has come out of the plant in perfect conditions of technical safety In order to preserve these conditions and guarantee a
62. d voltage V2 in volts e V3 instantaneous ground voltage in volts e 12 phase shift in degrees of the V1 ground voltage with regard to the V2 ground voltage e 23 phase shift in degrees of the V2 ground voltage with regard to the V3 ground voltage e 31 phase shift in degrees of the V3 ground voltage with regard to the V1 ground voltage Press on the key 4 to return to the previous screen 16 2 2 3U Fresnel Press on the OK key to display the Fresnel diagram of the three ground voltages and the additional data The display is as follows Phazor diagcam ph Loo os DIN M 1 tat p HO Een gula dn C ESI Da emete E 1 5 ove XN vete lt Example of a Fresnel diagram 51 The information is the following U12 instantaneous line voltage U12 in volts U23 instantaneous line voltage U23 in volts e U31 instantaneous line voltage U31 in volts e 12 phase shift in degrees of the U12 line voltage with regard to the U23 line voltage e 23 phase shift in degrees of the U23 line voltage with regard to the U31 line voltage e 31 phase shift in degrees of the U31 line voltage with regard to the U12 line voltage he Disequilibrium indication shows the rate of unbalance between the line voltages A correctly balanced network has a rate close to zero Press on the 4 key to return to the previo
63. e Station 11 3 3 Date Time The following information which ca only be read is displayed Hate lt Hour Example of a Date Time Screen Ref Indication 1 Date 2 Time The date time variable is recorded in the form of number of seconds elapsed since January 1 1970 The display format of the date is dd mmm for all languages The date and time are modifiable only by local or remote communication 11 4 Return One press on the 4 key enables the return to the Services screen Two successive presses on the key return to the main screen 38 12 SCREEN ALARMS This screen shows the menu for selection of alarms 12 3 Information visualisation of the status of alarms and relays associated with On Off outputs and zero setting of possibly stored alarms This paragraph shows each of the screens accessible from the Alarms screen after pressing the OK key 1 2 1 Access For each of the screens the passage to the next a or previous screens is done by pressing the keys This is done the main menu by selecting the icon See also paragraph 8 2 2 on page 26 for the O and pressing on the OK key meaning of the icons at the bottom of the screen 12 3 1 Alarms 12 2 Alarms Screen The following information is displayed ee eee Alarms This screen is as follows Humber mlarnmz Hlarms reset alarm iIobal alarm i Iobal alarm tat
64. ee phase 1 2 GW primary side view from the maximum active power client transformer Non detachable 6 connection points Screw terminals terminals with mobile cage Connection of rigid or flexible wires of section 0 5 to 20 10 AWG Maximum acceptable Coupling torque on the terminal 0 8 Nm Setting range TP primary from 1 A to 25 000 A in steps of 1 A TP secondary from 1 A to 5 A in steps of 1 A 24 6 5 5485 Output Communication The RS485 card cannot be present at the same time as the Ethernet card Item Characteristics Protocol ModBus RTU mode Speed 2400 4800 9600 19 200 and 115 200 Parity without even or odd Number of stop bits 1 or2 Connection 2 fils shielding half duplex Detachable terminals 3 connection points Screw terminals Connection of rigid or flexible wires of section 0 2 to 2 5 mm 22 14 AWG Maximum acceptable Coupling torque on the terminal 0 4 Nm 81 Ethernet Output The Ethernet card cannot be present at the same time as the RS485 Item Characteristics Protocol ModBus TCP in RTU mode Speed 10 100 Base T Maximum length Transmission over 100 m max Connection 8 points RJ45 socket Optical Interface Item Characteristics Protocol ModBus in RTU mode Fixed at the speed of 38400 bauds 1 start bit 8 data bits without parity 1 stop bit and a reversal time of 0 ms Responds to all the slave numbers between 1 and 2
65. ee phase apparent powers at the second S 1s The measurements are performed other measurements according to the following formula S 1s V ls L2 1 20r3 S 1s is the sum of apparent powers at the second S 1s 1 1 2 1 3 1 ENERIUM Measure Station 25 8 Power factor IEEE ARA The products measure the power factors at the second on each of the FP 1s FP2 1s and FPs 1s phases as well as the three phase power factor at the second FP 1s measurements are performed from other measurements according to the following formula P 15 S 1 FP 15 1 2 3 or nothing for the three phase The quadrant is associated to each of these variables P 1s and 15 x 1 2 or nothing for the three phase variable are of the same sign then the quadrant is selfic otherwise it is capacitive 25 9 5 The products measure the at the second on each of the 1 1 cos vo 1s cos vs 1s phases as well as the global at the second called 1 The are calculated according to the following formula cos L 10T For F 50Hz OR 1 5 cos 9 1s x cos 9 127 For F 60Hz L 1 2and3 and cos QD global 1 s with cos 9 10T lt cos Angle and cos 15 2 15 15 3 _ F
66. emote communication For additional information contact ENERDIS to obtain e the MSO 7389 document for the management of load curves e the MSO 7388 document for the mapping and command words Eneris ENERIUM Measure station CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 18 RECORDING CURVES This function is only available on ENERIUM 150 These curves cannot be displayed on the ENEHIUM screen but by using a specific application E view or any other application developed by the user The product can record till four recording curves The recording period can be different from one curve to another This recording period is chosen for each curve between 1 and 59 seconds in increments of one second or among the following predefined values 1 2 3 4 5 6 10 12 15 20 30 and 60 minutes The recording depth is only based on the recording period The system is designed to save a maximum of 4032 values E g for a recording period parametered at 1 second the storage register will be full at the end of 4032 seconds or 1 hour 7 minutes and 12 seconds According to the recording periods allowed from 1 second to 60 minutes the recording period ranges from 1 hour 7 minutes and 12 seconds to 168 days The E Set and E View software automatically provide the recording depth according to the selected recording period 18 1 Recorded variables The following measurements can thus
67. ens as well as the possible display time proceed as follows 1 When the Display screen is displayed press on OK to select Scrolling Press on OK to select the value to be modified 3 Use the VA keys to modify the value displayed The displayable values are ves and No ENERIUM Measure Station CHAUVIN ARNOUX GROUP NO the display screens will not scroll Only the manually selected screen will be continuously displayed YES the display screens having been defined by E view E set as the ones to be displayed one after the other will be displayed cyclically at a periodicity defined by the value Time see below These screens will be predominant with respect to the normal display All the visualization screens can be placed in this list in any order and possibly several times It is possible to automatically set the parameters for a maximum of 16 visualization screens The list of screens to be scrolled is configurable using local or remote communication Pressing any key enables to block the automatic scrolling mode and thus navigate with the keys in the different screens If no key is pressed for 10 seconds and the automatic scrolling mode is always active then the screens scroll again automatically one after the other 4 Press on OK to validate 14 5 2 Time s Defines the display time for each selected screen Proceed as follows 1 Select the Time ms line with the W A keys and press on OK
68. ent For an 5485 network in undisturbed electrical environment if possible use a twisted pair cable This cable will be connected to the 18 and 19 B terminals The agreement adopted for terminals A and B corresponds to the El485 standard S 3 2 specifying that a logic level 1 on the line corresponds to VB gt VA and a logic level 0 corresponds to VA VB 65 Connection of the RS485 link standard connection 20 3 2 In disturbed environment With shielding In case of a particularly disturbed electrical environment a shielded twisted pair cable must be used and the shielding of this cable must be connected to the terminal 0 V of ENERIUM imm d Ed m 83485 B RS485 Connection of the RS485 link in disturbed electrical environment presence of a shielding With shielding and resistances polarization and load In order to improve the quality of transmission in disturbed environment it is also possible to polarize the line in a single point This polarization imposes the rest level in the absence of transmission by two resistances of 1 2 kO between the 0 V line and the 5 V line These resistances are sometimes included in the RS485 RS232 convertors It is sometimes necessary to adapt the line by connecting a resistance of 120 to the two ends of the bus ENERIUM Measure Station Connection of the RS485 link di
69. essential to parameter this card using local Connect the load and the connecting cable as follows Card output Terminal Function A01 1 A01 analog output cold point A01 2 01 analog output hot point 02 02 analog output cold point A02 4 02 analog output hot point ENERIUM Measure Station Load Connection of analog outputs 20 5 2 2 On Off output card Refer to paragraph 7 4 2 on page 20 for the technical details regarding these On Off outputs It is essential to parameter this card using local or remote communication Connect the load and the connecting cable as follows Card Terminal Function output OUT1 1 2 No 1 On Off Output OUT2 3 4 No 2 On Off Output Example of connection of On Off outputs The polarities on the terminals 1 2 or 3 4 are indifferent 20 5 3 2 On Off input card 7 See paragraph 7 4 3 21 the technical details regarding these On Off inputs It is essential to parameter this card using local or remote communication Connect the input signal to the connecting cable as follows Card input Terminal Function IN1 1 2 Signal input and earth Polarities indifferent IN2 3 4 Signal input B and earth Polarities indifferent 67 Example of connection of On Off input pulsed mode The polarities on the terminals 1 2 or 3 4 are indifferent 20 5 4 1 On Off input and 1 On Off output card 7 See paragraph 7 4 4
70. exists Blinking Pictogram Order of phases incorrect the voltage wires are badly connected Fixed Pictogram Verification of the order of phases of the voltage lines is carried out continuously The calculation is done over 3 periods and the 10 periods of the reference input signal Communication ongoing on one of the communication ports remote or local Blinking Pictogram I Automatic scrolling mode of the active screens Fixed Pictogram Capacitive type network Fixed Pictogram H This pictogram has the same screen position as the next pictogram Inductive type network Fixed Pictogram 000 This pictogram has the same screen position as the preceding G Generator network There is no pictogram for a receiver network Fixed Pictogram ENERIUM Measure Station 6 2 4 Additional Information Upon powering up the measure station a home screen is displayed for a few seconds This screen is displays the ENERDIS logo and the station model The last screen then appears displayed before the last break of the auxiliary source If the last screen displayed was a parametering screen it is the main menu which is displayed It is also possible to read the screen number displayed in the ModBus memory field It is also possible to force the display of a screen by sending a command word thru a local or remote communication see document MSO 7388 Mapping and command words Contact ENERDIS to
71. from a local or remote communication This adjustment is possible directly with the E set or E view software refer to the corresponding notice The main menu is presented as follows HMeozurementz a ln The main menu All the displayed screens can be viewed in one of the five languages available French English German Italian and Spanish The language can be modified see paragraph 14 5 3 in page 45 ENERIUM 50 the icons and not available 6 2 1 Upper The title of the displayed screen is in the upper part of all the screens Ph N Voltage in the figure below Moltage Lit 0 O O Example of display with the screen title in the upper part 6 2 2 Central part The measurement menus as in the following examples are found here The detail of screens pertaining to e measurement see chapters 9 to 13 pages 29 to 41 e parametering see chapter 14 page 43 15 The central displays measurements 6 2 3 Lower part It displays the information pictograms from fixed position These are listed in the following table The figure below gives all the icons that can be viewed in the lower part of the LCD screen ua 0 00 T UT 0 00 I 70 The icons in the lower of the screen visualization of all the icons for illustration only Icon Meaning 1 At least one active general alarm
72. g ENEHIUM 21 1 1 Mechanical assembly Refer to chapter19 on page 61 21 1 2 Electrical assembly Refer to chapter 20 on page 63 21 1 3 Parametering Refer to chapter 14 on page 43 21 1 4 Measurement consultation Use one of the following methods Type of EWER UM See page Manually from the display 23 Locally PC and optical link 73 Remote thru RS485 link 73 Remote thru Ethernet link 73 21 2 How 10 21 2 1 Display the information Display S Page ModBus Address define 14 3 43 ModBus Address read 11 3 1 37 Ethernet Address define 14 4 44 Ethernet Address read 11 3 1 37 Display Scrolling and time 14 5 45 Alarm reset 12 3 2 40 Alarms active on On Off output 12 3 1 39 Stop Bit RS485 14 3 43 Configure the box 21 1 3 71 Currents 1 9 3 3 30 Maximum average currents 9 3 4 30 Load curve 17 55 ENERIUM Measure station Display Recording curve System Date Automatic scrolling of screens Fresnel Diagram Customized screens EP active energy EP1 active energy Apparent energy Reactive energy Ethernet define IP address Ethernet read IP address Fresnel diagram Ph Ph voltage harmonic Current harmonic 1 System time Gauges Display language Password Serial number of the box Software version number Parity RS485 Average power P S Powers S P Q FP Electrical network Resetting of alarms Reversal temps R
73. g averages updated every tenth of the integration duration The integration duration is common to all variables This integration duration is chosen from among the following predefined values 1 2 3 4 5 6 10 12 15 20 30 and 60 minutes the average values can be updated by writing a command word on the local or remote communication The reinitialization consists of placing the O value in the variable with the exception of averages of the variables of type FP and cos for which the reinitialization consists of placing the value 1 25 19 1 Quadratic averages The products calculate the quadratic averages of the at the second variables in the four quadrants These averages are the following e V2 aver V3 aver e Ul2 aver U23 aver U31 aver e lifaver l2 aver l3 aver IN aver The averages listed above are calculated according to the following formula N X moy i l 25 19 2 Arithmetic averages A The products calculate the arithmetic averages of at the second variables in the four quadrants These averages are the following e Sl1 aver S2 aver S3 aver S aver e F aver Des aver e THDVifaver THDV2 aver THDV3 aver e IHDUt12 aver THDU29 aver THDUS1 aver e IHDl1 aver THDl2 aver THDI3 aver ENERIUM Measure Station CHAUVIN ARNOUX GROUP e FCV1 aver FCV2 aver FCV3 aver FCl1 aver FCl2 aver FCl3 aver The averages listed
74. he current 13 Refer to paragraph 15 2 1 V1 Harmonics on page 49 for details 15 3 Return Press twice on the 4 key to return to the main menu ENERIUM Measure Station CHAUVIN ARNOUX GROUP 50 16 FRESNEL AND GAUGE This screen displays the Fresnel and gauges menu on an ENERIUM 15 only It enables the graphic visualization of e Three ground and line voltages and currents in the form of a Fresnel diagram e Three ground and line voltages currents and powers P1 P2 P3 in the form of baragraphs 16 1 Access From the main menu by selecting the icon pressing the OK key 16 2 Fresnel and gauges Screen The screen is as follows Phazor diagrams and gauges i Phazor diagcamz Bages ph n hages Hes COP era tz cu The Fresnel and gauge screen It is used as follows 1 The Fresnel and gauges screen is displayed 2 Select the desired line with the W A keys and press on OK to display the corresponding screen Refer to the next paragraphs for details 16 2 1 3V Fresnel Press on the OK key to display the Fresnel diagram of the three ground voltages and the additional data The display is as follows ENERIUM Measure station Phazor diagcam Uph n 238 zb 23H Example of a 3V Fresnel diagram The information is the following e V1 instantaneous ground voltage V1 in volts e V2 instantaneous groun
75. he operator from the main screen 8 1 Home Screen O When powering up a loading screen is displayed for few seconds while all the station functions are being activated Under the Enerium 50 or 150 line depending on the model a progress bar appears showing the status of the equipment loading process ENERDIS CHAUVIN ARMOUS GROUP Enenrium 158 C The Home screen 8 2 Main Menu The main menu is then displayed Meazurementz Main menu ENERIUM Measure Station 9 EN ERDIS CHAUVIN ARNOUX GROUP me 8 2 1 Icons The main screen displays the eight menus only six menus on ENERIUM 50 available to the operator thru icons see the table below The upper part of the screen shows the selected icon name in the parametered language see paragraph 14 5 3 page 45 Icon Function Page Measurements displays the screen of 29 the measured variables U P THD etc W Energy displays the screens of active 33 reactive and effective energy meters cumulated by the station Services displays the screens of 37 variables the time meters for the device operating time and the internal time stamping linked to the maintenance of the station a Alarms displays the screens for alarm 39 information visualisation of alarm status and relays associated with On Off outputs and the existing alarm acknowledgement Customized screens displays the 41 s
76. ical formulas 87 Active power 26 Address ENERIUM 74 ModBus 37 Addresse By default 47 Alarm Synchronization 57 Alarms Characteristics 80 Icon 25 Number 39 Relays 39 Resetting 40 Screen 39 Status 39 Analog cards Connection 67 Analog outputs Affected values 20 Blocking 20 Card 20 Min max values 20 Output definition 20 unblocking 20 Analog Outputs Characteristics 80 Apparent energy 26 Apparent energy l O 34 Apparent energy 34 Apparent power 26 Apparent power 26 Apparent Power Mathematical formulas 88 ASCII 46 Automatic scrolling Icon 16 26 Auxiliary source Connection 68 Terminal 19 20 ENERIUM Measure station CHAUVIN ARNOUX GROUP Auxiliary supply source Characteristics 82 Average current 26 Average power 30 Average variable Mathematical formulas 91 Backlighting 15 Balanced three phase 64 Blocking Analog outputs 20 Pulse 21 Breakdown 8 By default 3 4 wire 47 Contrast 47 Display 47 Electrical network 47 Ethernet Communication 47 Language 47 Password 47 Scrolling TC primary 47 TC secondary 47 Time 47 TP primary 47 TP Secondary 47 Cable RS485 65 Cables Dimension 63 Cabling test 26 Cabling test 26 Calcul of minima Mathematical formulas 92 Calculation of maxima Mathematical formulas 92 Capacitive network Icon 16 26 Caracteristics Table 14 Card Analog outputs 20 Input Output 37 On Off
77. is case a protocol different from ModBus is used 22 2 2 Remote communication thru the RS485 interface The communication support is described in paragraph 7 5 on page 21 Communication is performed in half duplex mode The functions implemented in the products are e Function 03 Reading of words e Function 04 Reading of N words e Function 08 Reading of diagnostic meters For the details see below e Function 16 Writing of words 73 The diagnostic meters are e Resetting of meters e Number of frames received without CRC e Number of frames received with CRC e Number of exceptional responses e Number of frames addressed to the station outside distribution e Number of distribution requests received e Number of responses e Number of unready slave responses e Number of unprocessed characters e Number of responses outside the function 8 The processing of a frame addressed to slave 00 i e all the slaves present on the network is performed The product does not send any response The transmission format is fixed with 1 start bit and 8 data bits On the contrary the slave number parity number of stop bits reversal time and the transmission speed can be parametered The product address on the ModBus network can be parametered from 1 to 247 in increments of 1 The communication speed can be parametered from among the values 2400 4800 9600 19200 38400 and 115200 bauds
78. it by default 47 RS232 66 RS485 37 Characteristics 81 Connection 65 Output 65 Polarization resistance 66 Remote communication 73 Terminal 19 21 Transmission format 74 S 26 Safety 8 Screen Alarms 39 Configuration 43 Customized screens 41 Energy 33 Fresnel and gauges 51 Global alarm 40 Harmonics 49 Home 25 Load curves 55 Measurements 29 Recording curves 57 Resetting alarms 40 Services 37 Screen number Read 16 Scrolling Automatic 45 By default 47 Display 45 Services Icon 25 Screen 37 Shielded twisted cable 66 Simple voltage 26 Smoy 26 Spanish Language 45 Speed By default 47 Remote communication 44 Status Global alarm 40 Status word for alarms 40 Stop bit By default 47 Remote communication 44 Supply Alternative 20 Continuous 20 High level 20 68 Low level 20 68 Polarity 68 Switch 66 Synchronization Loss 55 Modes 57 On alarm 57 On date 57 On On Off input 57 98 inputs 21 Return 55 Types 57 Synchronization return 55 Synoptic of menus 26 Table characteristics 14 Mathematical formulas 89 TC primary By default 47 Configuration 46 TC secondary By default 47 TC secondary Configuration 47 Technical Characteristics 77 Terminal Auxiliary source 19 Auxiliary Source 20 Current input 19 Current inputs 19 Ethernet 19 22 Optional card 19 20 5485 19 21 Voltage input 19 Terminals By default 47 Display 4
79. larms 16 General Alarms 8 Event log FIFO Yes Load curve 8 variables from among possible 10 2 Recording curves No Yes Communication Interface Optical front face Yes Ethernet ModBus TCP RTU 3 Yes RS 485 ModBus RTU 3 Yes IP address parametering in front Yes Fresnel Diagram No Yes Gages No Yes Histograms harmonics No Yes 1 The optional cards are 2 analog outputs 2 On Off outputs 2 On Off inputs and 1 On Off input 1 On Off output 2 P P Q1 Q2 Q3 Q4 S S E TOR1 E TOR2 3 The communication interfaces RS 485 and Ethernet cannot be used simultaneously LNERDiS ENERIUM Measure Station CHAUVIN ARNOUX GROUP 6 FRONT FACE 6 1 Elements This paragraph presents the elements accessible in the front face for each of the two available models ementa amp WD Front View of the ENERIUM 50 150 Ref Function See 1 LCD display screen 6 2 2 OK Validation key 6 5 3 Optical interface 6 3 4 Navigation keys 6 6 6 2 LCD Screen This screen displays e All the measured and calculated variables see chapters 9 to 13 in pages 29 to 41 e All parametering variables see chapter 14 in page 43 ENERIUM Measure station The positive transmitting type LCD screen is a graphic display module permanently back lit by white LEDs he contrast is adjustable locally or by the transmission of a command word
80. lues lt Display 10 9 999 V 100 99 99 V 1 000 999 9 V 10 000 9 999 kV 100 000 99 99 kV 1 000 000 999 9 kV 10 000 000 9 999 MV 100 000 000 99 99 MV 9 5 2 Display rule for currents Current displays are made using four digits with one floating point The following table shows the floating point position and the unit used for different values measured lt Display 10 9 999 A 100 99 99 A 1 000 999 9 A 10 000 9 999 kA 31 100 000 99 99 1000 000 999 9 10 000 000 9 999 100 000 000 99 99 9 5 3 Display rule for frequency Frequency displays are made using four digits with one floating point As an example frequency is displayed as 99 99 Hz 9 5 4 Display rule for power Power displays active reactive or effective are made using four digits with one floating point The following table shows the floating point position and the unit used for different values measured P lt Display 10 9 999 u 100 99 99 u 1 000 999 9 u 10 000 9 999 ku 100 000 99 99 ku 1 000 000 999 9 ku 10 000 000 9 999 Mu 100 000 000 99 99 Mu For an active power means For a reactive power u means VAR For an effective power means VA 9 5 5 Display rule for harmonics Harmonic of range x or total harmonic distortion rate displays are made using four digits with one floating point The point position is adjusted based on the value measured 9 5 6
81. mber of the searched equipment just establish the correspondence between the IP address and the serial number to know the IP address of the equipment It is possible to parameter the IP address the mask of the sub network and the gateway by the GUI see paragraph 14 4 on page 44 or using local or remote communication 74 23 MAINTENANCE Since no electronic or electrical part is exchangeable by the end user the measure station shall be returned to Manumesure the distribution and after sales center ENERIUM Measure station 75 ENERIUM Measure Station CHAUVIN ARNOUX GROUP Technical characteristics ENERIUM Measure station 77 CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 24 CHARACTERISTICS ENERIUM measures and calculates more than 50 The average variables are calculated over a time electrical variables All these variables are effective programmable from 0 to 30 minutes This variable is values RMS refreshed at every tenth period Instantaneous variables are refreshed every second except for the THDs every six seconds 24 1 Measurements The mini and maxi variables are updated every second if needed 15 MIN MAX AVG AVG MIN AVG MAX V1 V2 V3 Vearth e e 012 023 U31 e I2 13 In EE e e e CP eA e 1 Pt EE e 1 e 1 e 1 Q1 Q2 Q3 EP 90 1 Qt EN e 1 e 1 e 1 S1 S
82. munication By default 47 Face Front 15 Format 13 FP 26 French Language 45 Frequency 26 Display rule 32 Mathematical formulas 89 Fresnel 31 52 Fresnel 3U 51 Fresnel 3V 51 Fresnel and gauges Icon 25 Screen 51 Front Face 15 Full duplex 74 Fuse Protection 68 Gateway By default 47 Remote communication 45 Gauges 31 52 Gauges 53 Gauges 3U 52 Gauges 3V 52 Generator network Icon 16 26 German Language 45 Global alarm Activation 40 Blinking 40 Elementary alarm 40 Equation 40 Icon 16 26 Relays 40 Screen 40 Status 40 Ground voltage Fresnel 51 Mathematical formulas 87 Guarantee 9 Half duplex 73 74 Harmonic distortion rate 26 Harmonic rate 26 Harmonics Current 31 Display rules 32 Icon 25 Mathematical formulas 89 Percentage 49 Ph Ph voltage 31 Ranges 49 Hates 49 Screen 49 THD 49 Harmonics l 50 Harmonics rate Mathematical formulas 89 Harmonics U 49 Harmonics V 49 Home screen 16 Hour 38 Display 38 How to 71 Hub 66 Hxx la 26 Hxx Uab 26 Hz 26 Harmonics 50 Icons Alarms 25 Automatic scrolling 16 26 Capacitive network 16 26 Communication ongoing 16 Configuration 25 Customized screens 25 Energy 25 Fresnel and gauges 25 Generator network 16 26 Global alarm 16 26 Harmonics 25 Inductive network 16 26 96 25 Ongoing communication 26 Phase order 26 Phase order 16 Services 25 In 26 In load
83. n Reminder the Title name is defined by the E set or E view application see this manual The Customized Screens screen 13 4 1 Title 1 5 0 When not redefined by the user this screen displays e Line 1 S three phase 13 3 Principle e Line 2 P three phase Each of the three screens basically named Title 1 Line 3 Q ihree phase Title 2 and Title3 can be freely configured by the e Line 4 Tan 6 user using local or remote communication Each of these three titles collects in a screen specific to the user a set of four measurements which the user wants to display simultaneously All the combinations of data display are possible from the variables measured by ENERIUM see document MSO 7388 Mapping and command words Contact ENERDIS to obtain this document To view these three screens e Either manually by access to this menu and selecting one of the three screens Eneris ENERIUM Measure station 41 13 4 2 Title 2 V1 U12 11 FP1 When not redefined by the user this screen displays e Line 1 V1 e Line 2 112 e Line 3 11 e Line 4 FP1 13 4 3 Title 3 In H05 H07 When not redefined by the user this screen displays the harmonics of range 3 5 7 and 9 present on the neutral current In e Line 1 e Line 2 HO5 e Line 3 HO7 e Line 4 9 13 5 Return One press on the 4 key returns to the Customized Screens screen T
84. n e min l2Imin I3 min IN min e F min The minima listed above are developed according to the following algorithm Si X 1s lt X min Then X min 15 with X Uap ou ab 12 23 or 31 1 20 3 25 21 2 The products also calculate the minima of the second variables in the two quadrants corresponding to the receiver mode These minima are the following e PeR min P3R min PR min 1 Q2R min QsR min QR min The minima listed above are developed according to the following algorithm it X 1s lt XR min AND P 1s gt 0 Then XR min X 1s with X P or Q 25 21 3 Minima C The products also calculate the minima of at the second variables in the two quadrants corresponding to the generator mode These minima are the following e PiG min P2G min PsG min PG min QiG min QeG min QsG min QG min ENERIUM Measure Station CHAUVIN ARNOUX GROUP The minima listed above are developed according to the following algorithm X Ls lt XG min AND 15 lt 0 Then XG min X 1s with X P or Q 25 22 Minima of average variables C 25 22 1 Minima A The products also calculate the minima of average variables in the two quadrants corresponding to the receiver mode These minima are the following e FP1R min aver FP2R min aver FP3R min aver FPR min v e cos ol R min aver cos
85. network frequency parametered at 50Hz and 12 period for a network frequency parametered at 60Hz The formulas are 3 V 1s F 50Hz or 1 5 Vif 1 s Do var For F 60Hz 1 T 12 With y r10T VATI Vi 12 T ibx VATI 7 1 128 and viT 4x v 1 1 28 I 25 2 Line voltages The measurements are performed from the 10 period measurements of line voltages for a network frequency parametered at 50Hz and 12 period for a network frequency parametered at 60Hz The formulas are F 50Hz 5 3 Ua 15 bx U31127 For F 60Hz 1 10 With c UST 1 5 U all s 4x gt UZ 107 For 1 12 U vl 12 T ix UST 1 128 and vam 1 ab 12 23 ou 31 ENERIUM Measure station 25 3 Current The measurements are perfomed from the 10 period current measurements for a network frequency parametered at 50Hz and 12 period for a network frequency parametered at 60Hz The formulas are 5 L 1s bo For or 1 5 1 12127 For F 60Hz 1 With iy 1 2 1107 0 2 AT 12 r 12T i TAT 1 1 2 3 N For L 1 2 et 3 1 128 And for N T titi 1 25 4 Active power The measurements are performed from the 10 period measurements of active powers for a network frequency parametered at 50Hz and 12 period for a network
86. nic distortion rate of the neutral current is not measured and thus not displayed Current 5 00 5 00 5 00 Example of a Current THD screen The Harmonics function displays graphics only for 150 see chapter 15 page 49 9 3 9 Ph Ph Voltage Harmonics Display of higher harmonic rates and of their ranges over the three line voltages Each indication is read as follows example H03 012 range 3 harmonic rate of the U12 line voltage Harmonics voltage Ph Ph Example of a Ph Ph voltage Harmonics screen The Harmonics function displays graphics only for ENERIUM 150 see chapter 15 page 49 9 3 10 Current Harmonics Display of higher harmonic factors and their ranges on the three currents Each indication is read as follows example e H02 1 range 2 harmonic factor of the current 11 ENERIUM Measure Station Harmonics current Example of a Current Harmonics screen The Harmonics function displays graphics only for ENERIUM 150 see chapter 15 page 49 9 4 Return Pressing on the 4 key returns to the Measurements screen Pressing twice on the lt key returns to the main screen see paragraphs 8 2 page 25 9 5 Notes 9 5 1 Display rule for voltages Voltage displays simple or composed are made using four digits with one floating point The following table shows the floating point position and the unit used for different measured va
87. o inspect it Instruction for installation On receipt of the device check that it is intact and has not been subjected to any damage during transport In case of problem contact the after sales service for possible repair or replacement Instruction for cleaning When the device is disconnected from the electricity network use only a dry rag to clean the external surface Do not use either abrasive products or solvents Do not wet the connection terminals 3 QGUARANTEE RESPONSIBILITY AND PROPERTY 3 1 Guarantee The guarantee is applicable except for express stipulation during twelve months after the installation of the equipment see our General Sales Conditions communicated on request 3 2 Property rights All manuals and documentation of any nature whatever are the property of ENERDIS and are protected by copyright all rights reserved They cannot be distributed translated or reproduced in whole or in part in whichever manner and under whichever form 3 3 Copyright All Rights reserved Reproduction adaptation or translation of the present manual is prohibited without prior authorization within the limits envisaged by the legislation governing the copyright rights Copyright ENERDIS 2007 First edition September 2007 ENERIUM Measure station 3 4 Registered trademarks MN MEM Msn ENERIUM is a trademark registered by ENERDIS 3 5 End of life of the devices
88. on is aimed for companies managing the monitoring and reduction of energy costs in an environmental framework and for sustainable development as well as for industries having complex electrical networks justifying monitoring and accurate calculation Thus more than 50 network variables U V 1 P Q 5 FP tg THD active reactive and effective energy THD etc are analyzed The information gathered is available on the front of the device by means of a graphical monochrome LCD display as well as a On Off output of RS485 type as per the ModBus RTU protocol or Ethernet ModBus TCP RTU protocol whereas one or several optional outputs provide an alarm report which delivers metering pulses or manages analog outputs programming enables a precise adaptation of the device to the environment The measure station comes in two models named ENERIUM 50 and ENERIUM 150 ENERIUM Measure station General view of the ENERIUM 150 readout station 13 52 Model Comparison The table presented below gives the main features of versions 50 and 150 The detailed technical and electrical characteristics are part of chapter 24 on page 79 ENERIUM 50 ENERIUM 150 Calculation of the neutral current Yes 3 or 4 wire network management Yes Tan Yes Harmonic range 25 50 400 Hz Network Yes Graphic User Interface Customizable screens Yes Input output cards Optional card 1 1 Elementary a
89. ondamenta Angle _ Fondamenta cos 9 12T cos Angle _ V Fondamenta I 12T Angle _ _ Fondamenta The quadrant is associated to each of these variables e the angle is between O and 90 or between 180 and 270 then the quadrant is e f the angle is between 90 and 180 between 270 360 then the quadrant is capacitive 88 25 10 Peak factor amc X Ae The measurements are performed from the 10 period active power measurements for a network frequency parametered at 50Hz and 12 period for a network frequency parametered at 60Hz The formulas are 25 10 1 For the voltages 5 For F 50Hz or 1 5 FCy 12T For F 60Hz 1 Mn Vpeak HOT FC 127 Peak with 1 107 pum us d 1536 2 Xv 127 1536 2 with Vpeak max abs v and Vpeak 12T max abs v L 1 2 3 25 10 2 For the currents 5 FCu 15 1x FC 10 T For F 50Hz 1 5 FC ls x Y FC 12T For F260Hz 1 with Ipeak 1107 and FC 12T with 1 1280 2 and 1 1536 x Si 121 2 x9 i Vd 1280 2 1536 2 i With Ipeak max abs i and Ipeak 12T max abs i 1 2 3
90. oned in paragraph 20 3 page 65 7 6 Ethernet Connector Available optionally this connector is connected to the local Ethernet network The Ethernet option is not available if the RS 485 option is available The parametering of the Ethernet option is mentioned in paragraph 14 4 on page 44 The connector characteristics are given in paragraph 24 6 5 Ethernet Output on page 81 The Ethernet connector ensures the transfer of information between a PC and ENERIUM in case of parametering of ENERIUM e reading of the real time or saved measurements in ENERIUM ENERIUM Measure Station RS 485 m 18 A AN Auxiliary Supply 19 BD 265 Vacide 20 OV n 50 50 Hz m 21 ENERIUM 50 weis Ethernet Ethernet Connector FAM CA OIM F3 OZ M VE NV MJ Location of the Ethernet connector The cabling details are mentioned in paragraph 20 4 page 66 IER Kn 2 eec Note a twisted cable is recommended for direct communication between a PC and ENERIUM 22 Software Description 5 Enerpis ENERIUM Measure station 23 CHAUVIN ARNOUX GROUP ENERIUM Measure Station CHAUVIN ARNOUX GROUP 8 MAIN SCREEN It is assumed here that the mechanical assembly chapter 19 page 61 and electrical connections chapter 20 page 63 have been performed This chapter describes the menus accessible by t
91. paragraph 20 5 2 page 67 The electrical characteristics of On Off outputs are given in paragraph 20 5 2 on page 67 ENERIUM Measure Station CHAUVIN ARNOUX GROUP 7 4 3 2 On Off input Card This card has two independent inputs digital each programmable in pulse or synchronisation mode For each of these the user allocates one of the two input modes thru local or remote communication e Pulsed mode when the input is configured in pulsed mode the received pulses are multiplied by the pulse weight on this input and are then added in an integrating meter The weight of the pulse is parameterable from 0 0001 to 999 9999 It is possible to initialize the meters with any value by sending a command word see document MSO 7388 Mapping and command words Contact ENERDIS to obtain this document or by the E set and E view software using a local or remote communication e Synchronization input mode the input is used to synchronize the records or to run alarms It can also serve to synchronize the ENERIUM internal alarm the clock is then parametered as an external synchronization input When a pulse is detected on this input ENEHIUM automatically sets the internal clock to the rounded off hour minutes and seconds are worth zero if the internal clock has less than 5 seconds gap with the rounded off hour It is also possible to read the input status in the ModBus mapping see document MSO 7388 Mapping and command words
92. password is active only 30 seconds after its definition Thus after immediate return to the home screen from the Configuration menu the latter can be redefined without request of the password if the 30 seconds have not yet not elapsed 14 5 6 Return It is essential to return to the main menu by successive presses on the 4 key in order to quit the Configuration mode and prohibit the access to this mode if a password has been entered paragraph 14 5 5 page 45 No automatic return to the main menu is expected However if the power supply of the measure station is interrupted the station restarts from the main menu and not as usual from the last screen displayed 14 6 Electrical Network This information defines the transformation ratios of voltage and current transformers used at the voltage and current entry terminals see paragraph 20 2 on page 63 Indeed all the measurements being viewed from the primary side of the client transformers the client transformer values are parametered in ENERIUM The product of the CT primary by the PT primary should not be more than 693 0 MW maximum three phase power x 693 MW 1 2 GW Proceed as follows 1 The Configuration screen is displayed 2 Select the Electrical network line and press on OK to display the Electrical network screen ENERIUM Measure Station CHAUVIN ARNOUX GROUP Electrical mnetuork TP primarii secondary e primary Secondary
93. r describes the electrical assembly of ENERIUM 20 1 Preliminary notes 20 1 1 Safety precautions Before proceeding with the electrical installation of the equipment and its peripheral elements check that the power supply is disconnected and locked in compliance with good engineering practices and safety rules 20 1 2 Maximum applicable values Refer to Chapter 24 Technical characteristics page 79 It is to be noted that any overshooting of the maximum applicable values can cause a permanent deterioration of the device 20 1 3 Protection of the U and l inputs The insertion of fuses on the voltage inputs as well a short circuit system for the current inputs is strongly recommended 20 1 4 Cables and terminals The connections are made on e screw terminals which can be dismantled for 2 5 mm cables for the optional cards and the RS485 remote communication e fixed screw terminals for the 2 5 mm cables for the power supply of the station and the voltage measurement inputs e fixed screw terminals for the rigid or flexible wires of 6 mm section for the current measurement inputs Eneris ENERIUM Measure station CHAUVIN ARNOUX GROUP 20 1 5 Precautions against electrical parasites Although ENERIUM is immuned against electrical current disturbances it is desirable to avoid immediate proximity of parts generating strong electrical parasites high power contactors bus bar etc The qualit
94. ress on OK to validate 14 4 2 Mask 1 Select the Mask line with the WA keys and press on OK 2 Use the VA keys to modify the value highlighted on the black background and the lt P keys to change the position of the cursor 3 Press on OK to validate 44 14 4 3 Gateway 1 Select the Gateway line with the WA keys and press on OK 2 Use the VA keys to modify the value highlighted on the black background and the lt P keys to change the position of the cursor 3 Press on OK to validate 14 4 4 Return Press once on the lt key to return to the Configuration menu Press twice on the 4 key to return to the main menu 14 5 Display This information defines the following display characteristics e Scrolling activation or deactivation of the scrolling for customized screens e Time duration of display of each customized screen e Language language for message display e Contrast contrast level of the LCD display e Password definition of a password to access the Configuration screen Proceed as follows for access to these sub menus 1 The Configuration screen is displayed 2 Select the Display line with the WA keys and press on OK to display the Display screen E ac Ri ct al 4 in e Time izl Language Fran a Contrazt Basso ve Us 103000 iu The Display screen 14 5 1 Scrolling Activates or deactivates the possibility for scrolling of measurement scre
95. s 1 Cos 62 Cos 03 e Cos ot e Tan e Frequency e 24 5 Recording curves not available on ENERIUM 50 1 sec Values I1 12 13 In e Pt e Qt ot EPE Unbalance U THD V1 V2 V3 e THD U12 U23 U31 THD 12 13 E average values V1 V2 V3 e I1 12 13 In e P1 Gen P1 Rec P2 Gen P2 Rec P3 Gen P3 e Pt Gen Pt Rec FP1 Gen FP1 Rec FP2 Gen FP2 Rec FP3 e Gen FP3 Rec FPt Gen FPt Rec Coso1 Gen Coso1 2 Gen 2 e 03 Gen Coso3 Rec Gen Hec Frequency e Peak factor V1 V2 V3 s Peak factor 11 12 I3 e THD U12 U23 U31 THD 12 13 THD V1 V2 V3 80 24 6 Electrical 24 6 1 Display e LCD display monochrome 128 lines 160 pixels backlit by white LEDs Contrast adjustable by local or remote communication or via the local keyboard e main menu display of 6 to 8 icons enabling the easy selection of variables to be visualised e Display of V U P S FP Tano THD variables energies and harmonics e Display of pictograms alarm phass order communication automatic scrolling inductive network capacitive network generator network e Display of texts dans 5 languages German English Spanish French Italian e Forced setting of the screen possible after activation by local or remote communication e Automatic scrolling of screens specific to the user 24 6 2 Keys
96. s are done in the same manner as in the third mode But the recording stop occurs only when 50 96 of the recording curve contains data recorded after the stop command which can be the writing of a command word on the local or remote communication a Synchro on On Off input or even a Synchro on alarm 18 4 Indicators of the recording curve Status of the recording curve This indicator gives the status of the recording curve The status is e Non programmed if the is programmed i e if the variable allocated to the curve is none e Pending if a curve is programmed and waiting for the start synchro e progress if the curve records values periodically e Terminated if stop command came or if the curve stopped by itself Filling rate of the curve This indicator gives the filling rate of the curve For curves managed in FIFO mode this rate remains blocked at 100 when the recordings crash the oldest ones When programming a new recording curve this automatically entails the stop and reset of the curve previously ongoing recording or recorded The resetting of a trend curve can be launched manually by writing a command word on the local or remote communication All the programmed curves recover their recordings after a break of the auxiliary source without performing any marking is possible to immediately stop the recording of a
97. s of 50 The reversal time expressed in milliseconds corresponds to the waiting time between the time when the RS485 frame has been received and the time when ENERIUM responds This value is to be defined based on the number of ENERIUM connected on the RS485 line and the quality of the field bus 3 Press on OK to validate ENERIUM Measure Station CHAUVIN ARNOUX GROUP 14 3 6 Return Press once on lt key to return to the Configuration menu Press twice on the 4 key to return to the main menu 14 4 Remote Ethernet Communication This information defines the Remote Ethernet communication characteristics see paragraph 20 4 on page 66 between ENERIUM and the reading equipment Proceed as follows 1 The Configuration screen is displayed 2 Select the Remote Communication line with the V A keys and press on OK to display the Remote Communication screen Remote communication TONG gt Caci gas C ak Eoo Cage Cri Caco COS LION TOL TC i The Ethernet Communication Screen 14 4 4 IP Address 1 When the Remote Communication Screen is displayed press on OK to select the Address line 2 Press on OK to select the value address to be modified 3 Use the VA keys to modify the highlighted value on the black background and the lt P keys to change the position of the cursor 4 P
98. safe use of the device the user should comply with the indications and the symbols contained in this manual Before the installation check the voltage for use and the coincidental network voltage Before any intervention check that the device is disconnected from all the voltage sources When use in total safety is no longer possible the device should be disabled and insured against an accidental use The use in total safety is no longer guaranteed in the following cases e The device is visibly damaged e he device no longer operates after prolonged storage in unfavorable conditions after serious damages inflicted during transport ENERIUM Measure station Operators Safety Read the following recommendations carefully before installing the device The device described in this manual is meant to be used exclusively by personnel trained beforehand The maintenance operations must be exclusively executed by qualified and authorized personnel For a correct and safe use and for all maintenance activities it is essential that the personnel follow the normal safety procedures Precautions in case of breakdown When it is suspected that the device is no longer safe for example due to damages inflicted during transport or at the time of its use it should be disabled It is necessary to ensure that it will not be used accidentally The device will be entrusted to authorized technicians with a view t
99. se where 15 is negative generator mode it is the value measured at the second which is taken into account in the average When P 1s is positive or nil receiver mode it is the value 0 which is taken into account in the average 25 19 6 Arithmetic means E The products calculate the arithmetic averages of at the second variables in the two quadrants in generator mode These means are the following e FP2G aver FP3G aver FPG aver e cos o1 G aver cos o2 G aver cos 3 G aver cos 9g G V In the case where 15 is negative generator mode it is the value measured at the second which is taken into account in the average When 15 is positive or nil 91 receiver mode it is the value 1 which is taken into account in the average 25 20 Calculation of minima Each minimum is timestamped date and time of detection of the minimum All the minima can be reinitialized by writing a command word over the local or remote communication The reinitialization consists of placing the value 0 in the variable with the exception of the minima of variables of type FP and cos for which the reinitialisation consists of placing the value 1 25 21 Minima of variables 25 21 1 Minima A The products calculate the minima of at the second variables in the four quadrants These minima are the following Vi min V2 min V3 min U12 min U23 min U31 mi
100. sible to block an analog output with a value lying between the authorized minimum and maximum by sending a command word over a local or remote communication The output is blocked automatically at the end of 10 minutes or after the station restart The detail of the management of each of the two analog outputs assigned variable etc is defined by means of ModBus command words see document MSO 7388 Mapping and command Contact ENERDIS to obtain this document The cabling details are given in paragraph 20 5 1 page 67 The electrical characteristics of the analog outputs are given in paragraph 24 7 2 page 82 The analog output can remain open permanently 7 4 2 2 On Off output card This card has two logic individual and independent outputs digital each programmable in either alarm or pulsed mode For each of these the user assigns one or two output modes thru local or remote communication e Alarm mode the output is activated when a variable measured or calculated by ENERIUM 20 crosses threshold maximal or minimum which is allocated to it for a time longer than the configured time lag This elementary alarm is deactivated when the variable crosses the threshold again with close hysteresis e Pulsed mode the pulse output is of relay type In an off state the relay is open A pulse is considered emitted when the relay is closed The pulses are counted from the energy in the primary side of the transformer
101. sturbed electrical environment with load and polarization resistances 20 4 Ethernet Connection RS485 is present Connect the HJ45 Ethernet plug of each ENERIUM to an RJ45 inlet of a switch or hub using an Ethernet cable straight cable for connection to a switch twisted cable for the connection to a PC See paragraph 7 6 en page 22 for the location of the terminal and the technical details Auxmary Supply BU 265 Vacitde 20 OV 50 60 He 21 gt Ethernet __ Er MESES d 9 3116 Ethernet Terminal Ethernet Switch Connection of the Ethernet link to a switch 66 20 4 1 LED 1 Connection LED Colour Meaning Off No connection Orange Connection at 10 Mb per second Green Connection at 100 Mb per second 20 4 2 LED 2 Activity LED Colour Meaning Off No activity Orange Half duplex Green Full duplex 20 5 Connection of input and output cards 7 These cards are optional The following figures show the labels associated with different optional cards 2 On Off outputs option card label OUT1 OUTI 2 On Off inputs option card label 1 On Off input and 1 On Off output option card label 2 analog outputs option card label 20 5 1 2 output analog card remote communication See paragraph 7 4 1 on page 20 for the technical details regarding these analog outputs 7 It is
102. tical formulas Transit direction of powers 88 Mathematical formulas Cos o 88 Mathematical formulas 89 Mathematical formulas Harmonics 89 Mathematical formulas Time meter 91 Mathematical formulas Average variable 91 Mathematical formulas Calculation of minima 92 Mathematical formulas Minima of variables 92 Mathematical formulas Calculation of maxima 92 Mathematical formulas Maxima of average variables 93 Maxima of average variables Mathematical formulas 93 Maxima of variables Mathematical formulas 93 Maximum average current 30 Measured variables 87 Measurements Screen 29 Measures Icon 25 Mecchanical assembly 61 Mechanical Characteristics 84 Menu Main 15 25 Move 17 Menus Synoptic 26 Mesurements Characteristics 79 Meters Active energy 33 Apparent energy 34 Initialize 21 Reactive energy 34 Metrology Characteristics 83 Minima of variables Mathematical formulas 92 ModBus RTU 73 Mono phase 65 Move Cursor 17 Menu 17 MVAh 26 MVARh 26 MWh 26 Navigation Key 17 Navigation key 15 Neutral Distributed 47 Non distributed 47 Neutral current 26 Non distributed neutral 47 Number ENERIUM 37 oad curves Characteristics 80 OK 15 Key 17 OK key 15 On Off I O card Characteristics 83 On Off I O cards Connection 68 On Off input Synchronization 57 On Off input card Characteristics 82 On Off input cards Connection 67 On Off input output Card 21 On Off inpu
103. to modify the underlined value and lt P to change the position of the cursor This value corresponds to the maximum working current indicated on the primary of the current transformer The primary of the TC transformer lies between 1 A and 25 000 A The TC primary can be adjusted in increments of 1 A 46 3 Press on to validate 14 6 4 TC Secondary Defines the secondary current of the current transformer Proceed as follows 1 Select the TC Secondary line with the WA keys and press on OK 2 Use the V A keys to modify the underlined value This value corresponds to the maximum working current indicated on the secondary of the current transformer The secondary of the TC transformer lies between 1 A and 5 A The TC secondary can be adjusted in inrements of 1 A 3 Press on OK to validate 14 6 5 3 4 wire Defines the type of network to be monitored Proceed as follows 1 Select the 3 wire 4 wire line with the W A keys and press on OK 2 Use the WA keys to modify the selection displayed 3 wire non distributed neutral 4 wire distributed neutral 3 Press on OK to validate 14 6 6 Return Press on the 4 key to return to the Configuration screen Press twice on the 4 key to return to the main menu 14 7 Default values eS AJ his table indicates the default values of the Configuration menu when the device is delivered RS 485 Communication Address 001 Speed 96
104. ts Card 21 Management 21 Pulse mode 21 Synchronization mode 21 On Off output card Characteristics 83 On Off output cards Connection 67 On Off outputs Card 20 On Off outputs Alarm mode 21 On Off outputs Max min threshold 21 On Off outputs Pulsed mode 21 On Off outputs Mode Associate output 21 On Off outputs Relays 21 On Off outputs Management 21 Ongoing communication Icon 26 Operating procedure 71 Operating time 38 Operators safety 8 97 Optical Cable 17 Interface 16 Optical cable 17 optical interface Local communication 73 Optical interface 15 16 Characteristics 82 Optional card Terminal 19 20 Output Associate On Off outputs 21 Output analog card Characteristics 82 P 26 Packaging 10 Par default Communication RS 485 47 Parity By default 47 Remote communication 44 Password 0000 46 By default 47 Configuration 45 Display 45 Time lag 46 Peak factor Mathematical formulas 89 Percentages of harmonics 49 Period Recording curves 57 Phase order Mathematical formulas 90 Phase order Icon 16 26 Phase shift Fresnel gound current 52 Fresnel ground voltage 51 Fresnel line voltage 52 Ph N voltage 29 Ph Ph Voltage 29 Pmoy 26 Polarity Supply 68 Power 30 Display rule 32 Power factor Mathematical formulas 88 Power factor 26 Display rule 32 Powers Gauges 53 Presence network 38 Presentation 13 Product information 37 Property rights 9 Protection
105. unction Key Function Leftward movement of the cursor Return to the previous menu Rightward movement of the cursor Menu downward movement of the cursor Parametering value decrementation Menu upward movement of the cursor Parametering value incrementation 6 6 2 Use The diagram of paragraph 8 4 on page 26 specifies the use of the navigation keys for the selection of menus ENERIUM Measure Station CHAUVIN ARNOUX GROUP 7 71 Elements The figure below shows the elements described in this chapter 2 6 gt jr no 3 4 SELNERDS A F E c t 22 5 Back view of ENERIUM for all versions Ref Function See Page 1 RS485 terminal if no Ethernet 7 5 21 connector 2 Optional card terminal 7 4 20 9 Ethernet Connector if 7 6 22 RS485 terminal 4 Voltage input terminals 7 2 1 19 5 Current input terminals 72 2 19 6 Auxiliary source terminal 7 3 20 7 2 Measurement terminal ELE The network monitoring inputs namely those monitoring the line voltages and those originating from the current transformers will be connected on this terminal Paragraph 20 2 on page 63 describes the different authorized connections 7 2 1 Voltage inputs The Voltage input terminals are marked 1 to 5 on the label on the rear part of ENERIUM ENERIUM Measure station The electrical characteristics of the voltage inputs are
106. us screen 16 2 3 3l Fresnel Press on the OK key to display the Fresnel diagram of the three currents and the additional data The display is as follows Phazor diagrcam currents nce Lu fist Lad Cu ei ct III papapi g ea 12 quio 3i pee pede Pet RIO Du vi i 4 Example of a 3l Fresnel diagram The information is the following e 11 instantaneous current 11 in amperes e 12 instantaneous current 12 in amperes e 13 instantaneous current I3 in amperes e 12 phase shift in degrees of the ground current 1 with regard to the current 12 e 23 phase shift in degrees of the ground current I2 with regard to the current 13 e 31 phase shift in degrees of the ground current I3 with regard to the current 11 Press the key 4 to return to the previous screen 16 2 4 3V Gauges Press on the OK key to display the baragraph of the three ground voltages The display is as follows ENERIUM Measure Station Example of a 3V baragraph The indication 0 130 96 of the baragraph indicates the instantaneous value measured with regard to the TP primary value programmed in Configuration Electrical network For example for a TP primary programmed for 400 V 100 of the gauge corresponds to Mi A 3 Press on the key 4 to return to the previous screen 16 2 5 3U Gauges Press on the OK key to display the baragraph diagram of the three line volt
107. wo successive presses on the key return to the main screen ENERIUM Measure Station CHAUVIN ARNOUX GROUP 42 14 SCREEN CONFIGURATION This screen shows the Configuration menu of ENERIUM 14 1 Access From the main menu by selecting the icon and pressing the OK key 14 2 Configuration screen The screen is as follows Configuration Memote Onn Loot Lor Electrical netuork Th Configuration screen A password has already been defined this is necessary beforehand to access the Configuration screen To do this use the WA keys to modify the highlighted value black background and lt to change the position of the cursor Press on OK to validate If the password has been lost the E set software enables to retrieve it The password is defined as indicated in paragraph 14 5 5 on page 45 The default password is 0000 ENERIUM Measure station Configuration Ela 6 4 password can be requested before entry the Configuration screen 14 3 Remote Communication RS 485 This information defines the characteristics of the RS485 remote communication See paragraph 20 3 on page 65 between ENERIUM and the reading equipment Proceed as follows 1 The Configuration screen is displayed 2 Select the Remote Communication line with the keys and press OK to display the Remote Communication screen Remote communication
108. y of the communication on the computer bus depends a lot on respecting these precautions 20 2 Connection of voltage and current inputs The voltage and current inputs will be connected based on the type of assembly selected See paragraph 7 2 on page 19 for the terminal localization and the technical details The abbreviations are as follows 20 2 1 Unbalanced three phase 4 wires 3 TC vi 2 vs Assembly without TP 63 Assembly with TP in star 20 2 2 Balanced three phase 4 wires 1 S1 52 1R ae 21 UL 6 9 10 IV v2 1 12 12 13 13 Assembly without 51 52 1R 25 vi 2 Assembly with TP ENERIUM Measure Station 20 2 3 Unbalanced three phase 3 wires 3 TC 51 52 Assembly with TP triangle shape 64 20 2 4 Unbalanced three phase 3 wires 2 TC Assembly with TP in triangle shape lt EN ERDIS CHAUVIN ARNOUX GROUP Me ENERIUM Measure Station 20 2 5 Mono phase assembly 1 2 Assembly without 20 3 RS485 Connection The RS485 output cannot be present when the Ethernet card is present Only tests on the actual network can validate the best combination speed network length impedance adaptation etc See paragraph 7 5 on page 21 for the location of the terminal and the technical details 20 3 1 In undisturbed environm
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