Manuale NanoVIP3 Rel. 1.3 EN-UK
Contents
1. product model Rel 2 01 software version S N 43512 0137 serial number For easy use is equipped with a graphic LCD and a membrane keypad with snap domes for tactile feedback described in detail in Sect 4 1 2 The software architecture of the instrument is divided into MENUS more specifically SETUP and MEASUREMENT Menus Each menu consists of a number of pages which are described in the following section 4 1 1 Descripti amp Measurement Menus A typical SETUP Menu consists of Crid Type UT AL 30 30 an area with the fields to be selected and possibly modified by Th AL 230 230 means of the cursor Ceneration ON a heading showing the of the screen Rd Skart unngrrEingne LAECH A typical MEASUREMENT Menu consists of voltage L i Lud LAI a heading showing the name title of the screen L cc IB coh an area displaying related parameters See NOTE Le cl an area displaying the main parameters Lj 30 1 9 a bottom bar displaying alternating information See Sect 4 1 1 1 15 energy nef Man Rel 1 3 EN UK NOTE based on the type of menu the area of related parameters and or the bottom bar may not be displayed 4 1 1 1 Bottom This area displays information regarding the status of the instrument such as 1 Bat2. 00 2 195 Minimum instant voltage values Values can be reset as described Sect 4 2 3 3 Orms 415 2 32 energy Mas voltage L TI Y OF Li 0 65 On any of the Voltages Menu pages press to access the page containing all the information regarding auxiliary channel voltage In the AUX Menu the user can also access the other Auxiliary Channel Menus Currents Power Counters Harmonics Waveforms by selecting them with the relevant function keys Press lt to exit the Auxiliary Menu and return to the first page of the relevant menu Man NVIP3 Rel 1 3 EN UK Maximum instant voltage values Values can be reset as described in Sect 4 2 3 3 Ams CcB B 2 2 Illas cc3 1 584 EEH dE 0 000 000 F oms Jf 394 1 Avg LI 90 48 cco L3 18 4 cco ym 12 02 oF Li 0 65 Neutral Current A LU HH yrms Jf 393 u 9 bc5 15 65 C3 3 n D 31 Ehdv Le 1 615 u 0 000 0000 0000 0 000 Orms 569 5 The first page of this menu displays the currents in each phase as well as the three phase current or two phase current depending on the electrical connection and corresponding voltages When scrolling through the pages as described in Sect 5 1 the following pages will be displayed Neutral current or in general 4th current channel
3. ABS with self extinguishing vo grade Protection class P30 Weight 580g 128x128 FSTN Negative dot matrix graphic LCD 5 Backlight Languages English Spanish Italian German French Type Membrane keypad with 10 double function keys 008 POWER SUPPLY s External power supply wall plug switching input 100 240VAC 10 47 63Hz with m NtErchangeable plug output 7 5VDC 12 Battery pack s X AA 2100mAh Duration of the battery charge gt 24 CONNECTIONS Flexible cables L 1 5m 2 5mm 36A 1000V 600V CAT Voltages with a 4mm 909 protected blade plug connector and a crocodile clip tii 495mm opening for sections up to 32mm Currents Elcontrol Energy Net interchangeable amperometric sensors FUNCTIONS Tra ditional electrica analisys V I P s S THD V THD I cose peaks minimums Three phase counters a KWh kVArh kVAh both absorbed that generated Counters for each single phase kWh KVArh KVAh both absorbed that generated Waveforms Sags Dips swells amp interruptions Transients Overvoltages Bovercurrents 00000000 DC DISA ___ ______________ Alarms 22 Sat ISG Measurament campaigns unlimited up to fill t
4. 43 energy net Man NVIP3 Rel 1 3 EN UK 5 2 10 1 Transients Setup This page allows the user to set the thresholds that the instrument will use to identify the transient event i e the instant swell or overcurrent of peak The following parameters must be set TransigntE Analysis and Channels to be measured Sect 5 2 10 1 1 vol VDC vod The voltage peak threshold Sect 5 2 10 1 2 lol The phase current peak threshold Sect 5 2 10 1 3 loll 0 00 The neutral current threshold which obviously is not present if the Inputs field is set to Auxiliary Sect 5 2 10 1 4 Trigger The capturing mode Sect 5 2 10 1 5 The two options available are Three phase and neutral inputs 3PH and N or Auxiliary input NOTE This field does not indicate the electrical connection therefore the channels will always be identified as 3PH and N even if a single phase two phase or three phase without neutral connection is being used This value indicates the peak voltage threshold over which the instrument will identify the presence of a transient Set 0 to disable this transient search function 5 2 10 1 3 Current Threshold This value indicates the peak phase current threshold over which the instrument will identify the presence of a transient Set 0 to disable this transient search function 5 2 10 1 4 In Threshold This value indicates the peak In
5. Current Harmonics 01 Fundamental 1460 A1 01 Harmonic No 1 current L1 1461 A1 01 Harmonic No 1 current L1 1462 2 01 Harmonic No 1 current L2 1463 A2 01 Harmonic No 1 current L2 1464 01 Harmonic No 1 current L3 1465 01 Harmonic No 1 current L3 2 Harmonic 2 1466 A1 h02 Harmonic No 1 current L1 1467 A1 h02 Harmonic No 1 current L1 1468 A2 h02 Harmonic No 1 current L2 1469 A2 h02 Harmonic No 1 current L2 1470 A3 h02 Harmonic No 1 current L3 1471 A3 h02 Harmonic No 1 current L3 Consecutive addresses up to the 31st harmonic H31 Harmonic 31 1640 A1 h31 Harmonic No 31 current L1 1641 A1 h31 Harmonic No 31 current L1 1642 A2 h31 Harmonic No 31 current L2 1643 A2 h31 Harmonic No 31 current L2 1644 A3 h31 Harmonic No 31 current L3 1645 A3 h31 Harmonic No 31 current L3 Man NVIP3 Rel 1 3 EN UK Harmonic Phase Displacement cosphi 1 Fundamental 1652 01 Phase displacement of harmonic No 1 L1 1653 01 Phase displacement of harmonic No 1 L1 1654 Pf2 h01 Phase displacement of harmonic No 1 L2 1655 Pf2 01 Phase displacement of harmonic No 1 L2 1656 Pf3 01 Phase displacement of harmonic No 1 L3 1657 Pf3 01 Phase displacement of harmonic No 1 L3 H02 Harmonic 2 1658 Pf1 h02 Phase displacement of harmonic No 2 L1 1659 Pf1 h02 Phase displacement of harmonic No 2 L1 1660 Pf2 h02 Phase displacement of harmonic No 2 L2 1661 Pf2 h02 Phase displacement of harmonic No 2 L2 1662 P
6. 36 energy Total E LI 136 98 190 26 L3 6815 24 3PH 603 50 ar Li 0 33 HrEivB E LALN LI 00 00 Li 00 00 L3 00 00 3PH 00 00 yrms JF 391 5 ABackive E Hvarfi LI 1 13 01 14 00 84 WH 860 32 Ehdv Le 468 eru 869 sr e 0 33 0 853 prta 0 880 A Band Count 1 00 00 Tz 00 00 T3 00 00 TH 00 00 Orms 451 4 Hand Lount 0 Avarh 00 00 01 36 T1 00 00 ae n Man NVIP3 Rel 1 3 EN UK The counters of the apparent power kVAh in each phase and in the three or two phase connections The counters of the active power generated kWh in each phase and in three two phase connections The counters of the reactive power generated kVarh in each phase and in the three or two phase connections The average PFs calculated as kWh kVAh ratio only the real part of the counters is taken into account the decimal part is not considered This page displays the absorbed and or generated power and the related costs for the time bands selected in the Setup Menu Sect 4 2 9 The first page displays the kWh absorbed during the various time bands The kVArh absorbed during the various time bands T energy nef Man NVIP3 Rel 1 3 EN UK Band Count B LHLURJ 00 00 Tz 00 61 The kWh generated during the various time bands T3 00 64 TH 00 00 Orms 539 3
7. Rel 1 3 EN UK P x3 5 2 6 Waveforms Menu Waveforms Li Li ZI This menu shows the real time waveforms and the relevant system voltage S C and current values E NOTE current tracing can be distinguished from voltage tracing by little square markers Waveform amplitude is purely indicative and is automatically adjusted to screen size The first page of the menu displays the L1 voltage and current waveforms and relevant RMS values Waveforms Le wl E 4 Fi e L2 voltage and current waveforms and relevant RMS values va 220 6 25 20 Waveforms L3 1 UO EM z er 7 L3 voltage and current waveforms and relevant RMS values 22 Yo 2270 3 27 49 Waveform Neutral current waveform and relevant RMS value xk ds 24 91 On any of the Waveforms Menu pages press to access the auxiliary channel tracing page In the AUX Menu the user can also access the other Auxiliary Channel Menus Voltages Currents Power Counters Harmonics by selecting them with the relevant function keys Press lt to exit the Auxiliary Menu and return to the first page of the relevant menu Al energy net Man NVIP3 Rel 1 3 EN UK 5 2 7 Snapshot Function LI IH 0 10 LE 3 3 H3 HrEivg During measurements press the Kell key to block all measurements immediately not only those cu
8. 4 2 12 mil NOTE in case of a permanent error check that the parameters have been configured correctly PC and instrument Jd energy net Man NVIP3 Rel 1 3 EN UK 4 2 12 Alarm Setup Alarm JEE UQ Two alarms can be set and configured with NanoVIP Hla TI Place the cursor on either alarm and press to access the relevant configuration submenu Alarm H dr mMm Select ALARM RESET and choose YES to reset all the stored alarms that can be viewed in the Alarm Menu Sect 5 2 8 4 2 12 1 Alarm Configuration In the Alarm 1 or 2 configuration submenu select OFF to disable Alarm JBE LID the alarm or set the desired parameter to enable the alarm The following parameters are available Meas Vrms JF Vrms Vrms L1 Vrms L2 Vrms L3 Irms Irms L1 Irms L2 Th Irms L3 Prms Prms L1 Prms L2 Prms L3 Qrms Qrms L1 Qrms 12 Qrms 13 Srms Srms L1 Srms L2 Srms L3 pf pf L1 pf L2 pf L3 thdv thdv L1 thdv L2 thdv L3 thdi thdi L1 thdi L2 thdi L3 Freq In Unbal Vaux Iaux Paux Qaux Saux PFaux FRaux CosPhi L1 CosPhi L2 CosPhi L3 Set the minimum threshold value Th 833 HiSkEreSys ar 5 Set the maximum threshold value Set the hysteresis percentage valid for both the minimum and maximum threshold Set the number of events after which the alarm should g
9. L rms JF pf L1 pf L2 pf L3 thdv 3F thdv L1 thdv L2 thdv L3 thdi 3F 1 pf thdi 11 thdi L2 thdi KWh 3F KWh Li KWh 12 KWh KVArh 3F KVArhL1 KVArhL2 KVArhL3 KWh 3F KVArh3F KWh F1 KWh F2 KWh F3 KWh F4 Clock Freq In Unbal n dip n swell n int Vaux Iaux Paux Qaux Saux PFaux FRaux CosPhi L1 CosPhi L2 CosPhi L3 NOTE to display only one parameter select the same parameter for all 3 options 22 energy net Man NVIP3 Rel 1 3 EN UK 4 2 9 Tariffs Setup Tariff Band 5BE up Ta Choose the tariff band to be set by selecting it with the cursor Tariff e Then press to access the relevant configuration and reset the 5 submenu Sect 4 2 9 1 Tariff 4 HESBL E monet h G This function resets the measurements previously performed for all 4 tariffs The following options are available NEVER 1 MONTH 2 MONTHS 3 MONTHS 4 2 9 1 Configuration and Resetting of Tarif Tariff 1 5e up This page allows the user to set the following parameters for each tariff Eart LIMB 1 45 start time with 15 minute intervals End Eime 3 5 end time with 15 minute intervals m H access to the subpage to select the days on which the tariff is to be applied Sect 4 2 9 1 1 LOSE the cost of the kWh consumed in the relevant currency LOSE 0 01 the yield of the k
10. L1 V min L2 V min L2 V min L3 V min L3 V max L1 Three phase voltage BCD mantissa Three phase voltage exponent in binary format Three phase current Three phase current Three phase active power Three phase active power Three phase reactive power Three phase reactive power Three phase apparent power Three phase apparent power Three phase power factor Three phase power factor Voltage L1 Voltage L1 Voltage L2 Voltage L2 Voltage L3 Voltage L3 Voltage L1 L2 Voltage L1 L2 Voltage L2 L3 Voltage L2 L3 Voltage L3 L1 Voltage L3 L1 Current L1 Current L1 Current L2 Current L2 Current L3 Current L3 Neutral current Neutral current Active power L1 Active power L1 Active power L2 Active power L2 Active power L3 Active power L3 Reactive power calculated on L1 Reactive power calculated on L1 Reactive power calculated on L2 Reactive power calculated on L2 Reactive power calculated on L3 Reactive power calculated on L3 Apparent power L1 Apparent power L1 Apparent power L2 Apparent power L2 Apparent power L3 Apparent power L3 Power factor L1 Power factor L1 Power factor L2 Power factor L2 Power factor L3 Power factor L3 Frequency measured on L1 Frequency measured on L1 Unbalance of three phase voltages Unbalance of three phase voltages Average voltage L1 Average voltage L1 Average voltage L2 Average voltage L2 Average voltage L3 Average voltage L3 Minimum voltage L1 Minimum voltage L1 Minimum voltage L
11. Man NVIP3 Rel 1 3 EN UK 9 ACCESSORIES amp SPARE PARTS NanoVIP KIT is composed by 1 NanoVIP handheld energy analyser 1 battery pack 4 voltage cables yellow black red blue with integrated alligator clips 3 current probes type chosen by the user 1 USB A miniUSB B connection cable 1 memory card MicroSD 2GB containing the PC software NanoStudio and the user manual 1 wall plug power supply 1 hard carrying case 2 22 2 NanoVIP may come with a range of accessories which are listed in the table below These accessories allow for the instrument to be used for special purposes or measurement conditions which are less common than standard measurement operations 4AAWS 4AR10 4AAYW 4AAZA 4AAXS 4AADM 44002 4AAER 1000A Clamp 200A Clamp 5A Clamp Nanoflex 21cm 3000A flexible mini clamp 1000A 40cm flexible current sensor LMA clamp dispersion measurement Set of voltage cables for the aux channel 2 cables 2 alligator clips rigid toe 5A 1V SEPA for medium voltage measurements SPARE PARTS Description NanoVIP battery pack NanoVIP power supply Little carrying case Big carrying case Set of 4 voltage cables yellow black red blue with integrated alligator clips USB A miniUSB B cable 4AUSD memory card MicroSD 2GB containing the PC software NanoStudio and the user manual 59 Man NVIP3 Rel 1 3 EN UK Appendix 1 MODBUS Measu
12. scrolls through the harmonics trends dips interruptions and alarms menus Access to ALARMS Menu y X Scrolls up the pages of a measurement menu Moves cursor up in the setup pages Access to EN 50160 Menu Increases the selected value in the setup pages Selects a parameter to be modified in the setup pages i igit 000 1 us to SETUP Menu i In this case ENTER will be displayed in the lower right corner of the display ilo BHnngrEinnmes SBE Press i for approximately 3 seconds to access the configuration menus snu Use A and keys to select the parameter to be configured d ELLA Press and the cursor will start to flash Use A and keys to modify the Em selected value D mame Press again to confirm the value The cursor will stop flashing n CIU C Press and lt to scroll through the setup pages as illustrated in the nn flowchart below UL As shown in the flowchart the menus have a loop type structure i e when 1 the end of the last page is reached the menu automatically returns to the first page You can scroll through the menus in either direction 4 2 Programming amp Setup 17 Flowchart of Setup Menu Crid Type JD 1 ur X RC 230 230 Rus RC 230 230 Ceneration DN 0 Start C
13. 1998 09 2 5 1326 1 1998 06 environments portable test and 61326 1 Ec 1998 09 measurement equipment operating from a battery or from the circuit being measured EMC requirements areas with electromagnetically controlled This amendment adds an annex to the basic Standard introducing more detailed specifications regarding test configurations operating conditions performance criteria for certain equipment intended for 326 142 2000 08 provi EN 61326 A2 2001 05 provided Some examples of such equipment are oscilloscopes logic analysers spectrum analysers digital multimeters etc This amendment to IEC EN 61326 IEC Electrical equipment for EN 61326 A2 measurement control and laboratory use EMC requirements 65 50 adds regulatory Annexes E amp F to Identical to Electrical equipment for the basic Standard regarding test EN 61326 A3 measurement control and configurations operating conditions and IEC 61326 2002 02 laboratory use performance criteria for portable test Annex E amp EMC requirements measurement and monitoring equipment IEC 61326 Ec1 2002 07 which are used in low voltage distribution EN 61326 A3 2003 12 systems Man Rel 1 3 EN UK 2 4 Warranty Conditions WARRANTIES AND DISCLAIMERS Elcontrol guarantees that each NanoVIP is free of defects complies with technical specifications and is suitab
14. 33 5 Currents Counters Harmonics Waveforms by selecting them with the relevant s 07679 function keys 2 399 Press 4 to exit the Auxiliary Menu and return to the first page of the relevant menu 02 08 2012 10 46 13 4 38 K factor of the AUX channel Heel 11 09 oF Li 0 8 Harmonic histogram of auxiliary voltage and current NOTE For instructions on the complete consultation of harmonic histograms up to the 50th harmonic see Sect 5 2 5 1 52 energy net Man NVIP3 Rel 1 3 EN UK E x3 5 3 6 Waveforms Menu 1ph Waveforms LI PO This page displays the real time waveforms the relevant voltage and current RMS values NOTE current tracing can be distinguished from voltage tracing by little square markers Waveform amplitude is purely indicative and is automatically adjusted to screen size On the Waveforms Menu page press to access the page of auxiliary channel tracing In the AUX Menu the user can also access the other Auxiliary Channel Menus Voltages Currents Power Counters Harmonics by selecting them with the relevant function keys Press 4 to exit the Auxiliary Menu and return to the first page of the relevant menu aerem eI E NOTE the EN 50160 Transients Alarms and Measurement Campaigns Menus as well as the Snapshot function for the single phase connection are identical to the corresponding m
15. III 600V CAT The voltage cables which come with the instrument connected to the voltage inputs Make sure the cables are connected to the corresponding colours Alternatively any cable with a blade plug connector 04mm and certified for at least 600V CAT IIT may be connected The current inputs can be connected to the flexible current mini clamps which come with the instrument and are marked with special coloured rings which correspond to the different phases Alternatively other Elcontrol Energy Net amperometric probes may be used depending on the specific measurement mm pem on bm m om em ms requirements For more details read Sect 9 Accessories amp Spare Parts An independent auxiliary voltage input Urge Uaux and an independent auxiliary current Ai 600 CAT 111 input are also available The cables and current sensor for such channels are optional see Sect ACCESSORIES 3 1 Power Supply NanoVIP is equipped with an external power supply which can be connected to any socket USA JP UK EU AU with voltage 100 240V 10 and frequency 47 63 Hz The output jack of the power supply is to be connected to the special 7 5VDC connector of the device The instrument is also equipped with a NiMh rechargeable battery pack which guarantees more than 24 hours of use without you having to connect it to the ma
16. No 1 current L1 0377 2 h01 Harmonic No 1 current L2 0378 A2 h01 Harmonic No 1 current L2 0379 h01 Harmonic No 1 current L3 0380 h01 Harmonic No 1 current L3 2 Harmonic 2 0381 A1 h02 Harmonic No 2 current L1 0382 A1 h02 Harmonic No 2 current L1 0383 2 h02 Harmonic No 2 current L2 0384 2 h02 Harmonic No 2 current L2 0385 h02 Harmonic No 2 current L3 0386 h02 Harmonic No 2 current L3 Consecutive addresses up to the 25th harmonic H25 Harmonic 25 0519 A1 h025 Harmonic No 25 current L1 0520 A1 h025 Harmonic No 25 current L1 0521 A2 025 Harmonic No 25 current L2 0522 A2 025 Harmonic No 25 current L2 0523 A3 h025 Harmonic No 25 current L3 0524 A3 h025 Harmonic No 25 current L3 Harmonic Phase Displacement cosphi 1 Fundamental 537 PF1 h01 Phase displacement of harmonic No 1 538 PF1 h01 Phase displacement of harmonic No 1 539 PF2 h01 Phase displacement of harmonic No 1 540 PF2 h01 Phase displacement of harmonic No 1 541 PF3 h01 Phase displacement of harmonic No 1 542 PF3 h01 Phase displacement of harmonic No 1 H02 Harmonic 2 543 PF1 h02 Phase displacement of harmonic No 2 544 PF1 h02 Phase displacement of harmonic No 2 545 PF2 h02 Phase displacement of harmonic No 2 546 PF2 h02 Phase displacement of harmonic No 2 547 PF3 h02 Phase displacement of harmonic No 2 548 PF3 h02 Phase displacement of harmonic No 2 Consecutive addresses up to the 25th harmonic H31 Harmonic 25 681 PF1 h31 Phase
17. being performed as all data will be lost The uSD card is supplied with the instrument together with the e User Manual e PC software See software manual for use Ficontrol Man NVIP3 Rel 1 3 EN UK 3 4 Electrical Connection Schemes Some examples of electrical connections are shown below See Sect 4 2 1 1 The 4 current probe is optional See Sect 9 Accessories 1 Do not use in the balanced three phase connection 3 N BL 1 Do not use in the balanced three phase connection 3 BL Ficontrol 12 Man NVIP3 Rel 1 3 EN UK The probe for measuring the neutral current is optional 14 Man NVIP3 Rel 1 3 EN UK LMA clamp is optional See Sect 9 Accessories INVERTER DC clamp and additional voltage cables are optional 14 energy Man NVIP3 Rel 1 3 EN UK START UP Before using NanoVIP the correct configuration must be done depending on the type of installation and system to which it will be connected Make sure the electrical cabinet is off before connecting the instrument Once the connection is complete switch on the electrical cabinet and the instrument by pressing and holding down the POWER key for approximately 3 seconds the same action switches off the instrument At start up the following screen will be displayed for a few seconds
18. current threshold over which the instrument will identify the presence of a transient Set 0 to disable this transient search function 5 2 10 1 5 Transient Detectinc Transients can be detected in 4 different modes SINGLE TRIGGER only one transient the first to occur will be detected and displayed but not stored SINGLE TRIGGER MEM same as single trigger but the transient will also be stored on the uSD card Sect 5 2 11 AUTO TRIGGER the instrument will detect all transients and display the last AUTO TRIGGER MEM same as auto trigger but all transients will also be stored on the uSD card Sect 5 2 11 NOTE do not set thresholds lower than the nominal peak value of the signal as this will result in the continuous recording of events After setting all the parameters select START to start the transient search Select Exit to return to the Transient Menu Sect 5 2 10 A waiting page will then appear The instrument will stay in this state until a transient actually occurs or the user presses Exit to exit and return to the Transient Setup Wait for transient page Sect 5 2 10 4 energy E Man NVIP3 Rel 1 3 EN UK If NanoVIP detects a transient the following information will be displayed Channel s in which the transient has occurred e Transient waveform Relevant peak value E uSD PH To scroll through the transients tha
19. lt to exit the Auxiliary Menu and return to the first page of the relevant menu I This page displays the RMS voltage maximum average and minimum value and Minimum and maximum voltage values can be reset as described in Sect 4 2 3 3 whereas CcB 8 Mas cca 584 Avg ccH 1 cD B Min 0000 0 00 j usu oms 394 1 ams 68 This page displays the RMS current maximum average and minimum value 9841 Avg 18 30 the relevant voltages maximum demand load peaks are calculated on the basis of the integration time set and mn 00000 1000 Minimum and maximum current values can be reset as described in Sect 4 2 3 3 whereas TR the average value can be reset as described in Sect 4 3 3 and maximum demand can be Endy Le 1 291 reset as described in Sect 4 2 3 2 Press to access the page containing all the information regarding auxiliary channel current In the AUX Menu the user can also access the other Auxiliary Channel Menus Voltages Power Counters Harmonics Waveforms by selecting them with the relevant function keys Press lt to exit the Auxiliary Menu and return to the first page of the relevant menu 5 3 3 Power Menu iph Ams 1 68 cc Mas 309 39 Avg 18 30 cca Min 0000 0 00 MO Ehdv Le 1 291 This page displays active reactive and apparent power and the PF including a note J 109 whet
20. measurement campaigns performed with NANOSTUDIO is compatible with WINDOWS WINDOWS VISTA WINDOWS7 To install it launch the file SETUP EXE contained on the uSD card and follow the instructions provided Thanks to this software the user will be able to analyse all the events recorded in the campaign export the measurements performed to an EXCEL file create reports etc To use NANOSTUDIO see the manual included in the installation pack NanoStudio Fille Configurazione Opzioni Visualizza Finestra uw m ce 07 du E M gt gt gt M 100001 25 07 2012 08 32 58 lt Forme d onda V2 12 3PK 00 3 Ampiezza l ind cap SOOM diy 25 07 2012 08 32 58 393 38 5558 07 6407 02 CH2 BRAAdiv 2 25 07 2012 08 33 00 393 18 5666 12 6504 24 73 25 07 2012 08 33 01 393 28 5746 82 6580 31 25 07 2012 08 33 02 393 18 5549 30 6387 18 Base dei tempi 5 25 07 2012 08 33 03 392 74 5559 52 6390 58 4 Oe 4384 55 sane Posizione finestra Canale di riferimenta dT ira l rms lt 3PK SNL ECE med te E A Hz ManeStudio 4 1471 55 Man NVIP3 Rel 1 3 EN UK 8 TECHNICAL SPECIFICATIONS E Material
21. provide valid information Check of the correspondence between voltage and current of each vrai mE phaseand possible error message Passed Ok Connection is correct WEEE 1 Invert CT Invert the direction of the current clamp indicated H E Failed No correspondence between voltage and current or the PF value is lower than the threshold displayed Select Repeat to perform a new check Select Exit to return to the CONNECTIONS SETUP page 4 2 2 Current Probes Setup Clame This page allows the user to select Llamp Flex the type of probe used for I1 I2 I3 i e Flex non amplified flexible sensors or AC DC clamp LI HL i the sensor transformation ratio on 11 I2 I3 press and hold down A or V to increase scrolling speed Flox the type of probe used for In i e Flex non amplified flexible sensor or AC DC clamp pr the sensor transformation ratio on In press and hold down A or V to increase scrolling speed Aus the type of probe used for Iaux i e Flex non amplified flexible sensor or AC DC clamp the sensor transformation ratio on Taux press and hold down A or to increase scrolling speed 4 2 3 Minimum Maximum amp Average Setup This page allows the user to Min Mas Avg SgE up 15 Set the integration ti
22. to access menu 10 ALARMS Menu press and hold key down for 3 to access menu 11 TRANSIENTSMenu E press and hold key down for 3 to access menu 12 MEASUREMENT CAMPAIGNS Menu press and hold key down for 3 to access menu E h Measurement Menus When accessing a measurement menu the first page of the selected menu is displayed Press A or V to scroll through the pages of the menu up and down respectively In the Voltage Currents Power Counters Harmonics and Waveforms Menus press to access the relevant Auxiliary Channel Menu Use A and arrows to scroll the relevant auxiliary channel menu Press to exit the auxiliary channel menu Certain pages e g harmonic histograms allow the user to access internal sub functions by pressing The flowcharts of measurement menus are shown below NOTE entire menus or specific pages parameters may not be displayed or changed depending on the menu type which has been set in the LCD configuration FULL or PARTIAL See Sect 4 2 6 4 and or the type of electrical connection e g if the single phase connection has been set the screens regarding three phase data will not be displayed and the structure of many other pages will be modified 26 Man NVIP3 Rel 1 3 EN UK Flowchart of MEASUREMENT MENUS in THREE PHASE WITH NEUTRAL connection VOLTAGES MENU Sect 5 2 1 volage L M Ev3 voltage L L V Freg Unba
23. try to use the most appropriate amplification scale based on the threshold set by the user to perform as accurate a measurement as possible However the estimate may be incorrect and the instrument may suggest performing a new measurement Sect 5 2 10 3 5 2 10 2 3 Analysis Duration This field allows the user to set the maximum duration in seconds of the inrush current analysis 5 2 10 2 4 Automatic Start If automatic start is selected the instrument will wait for the inrush current to occur and then detect it automatically Sect 5 2 10 3 NOTE If an unsuitable threshold is set the instrument may not detect any event it will remain in standby mode To exit this condition press lt A5 energy net Man NVIP3 Rel 1 3 EN UK If manual start is selected the instrument will detect any current without the threshold set acting as a trigger occurring during the time period selected At the end of the selected time period the waveform detected will be displayed Sect 5 2 10 3 5 2 10 3 Inrush Current Displa When an inrush current is detected the following information will be displayed Waveform Maximum value RMS value 1 3 673 Duration 0 This screen will be displayed until the user SburB Exits Exit Return to the Setup page Sect 5 2 9 2 Repeats the measurement using the same settings Repeat Stores the measurement on th
24. 00 min 100 he min 100 min 100 he min 100 min rms dF 394 434 8 Yrms 444 8 TEUER DES ROTE T1 ER Vrms 317 0 9 InpuES vp vpe vpi 30 BM lan 0 00 Trigger Single SEarE Emit ransignt Analysis In ush Current eH and Duration Sec Erik 3 Auto Start 11 Rma 1 07 T 4 88 Manual Skark RHBpgat rm LI ee 1 6 Waa ea Recordings L3 30 2 SU 33 0 Yma EISE Cadenea Sec Manual 5EartE Voreage L T DT TRI Stark Time LI 16 4 Start E ve Survey SEOD u50 Contents End Time L3 PES 30 24 01 2012 13 51 JIC SEart Esik Mume RS a s f Lamp RITIS 0001 SURVEUDI Meas A 2 OFFICEOO WWMM 5 un Avg energy net RM gt 8 152 121 9y 24717202 19 5 Enik 12 09 Man NVIP3 Rel 1 3 EN UK hase or Two phase Connection Menu When switching on the instrument or exiting the Setup Menu NanoVIP displays the first page of the Voltages Menu As shown in the flowcharts the menus have a loop type structure i e when the end of the last page is reached the menu automatically returns to the first page You can scroll through the menus in either direction The information displayed will then vary depending on the ty
25. 1 1 Measurement Campaigns 5 2 11 1 1 Campaign Name 5 2 11 1 2 Storing Rate 5 2 11 1 3 Manual Start 5 2 11 1 4 Scheduled Start 5 2 11 2 Content 5 3 Single phase Connection Menu 5 3 1 Voltages Menu iph 5 3 2 Currents Menu 1ph 5 3 3 Power Menu 1ph 5 3 4 Counters Menu 1ph 5 3 5 Harmonics Menu 1ph 5 3 6 Waveforms Menu 1ph 6 Maintenance 6 1 Accuracy Control 6 2 Repair 6 3 Troubleshooting 7 NanoStudio Software 8 Technical Specifications 9 Accessories amp Spare Parts Appendix 1 Modbus Measurement Registers Rel 1 3 EN UK Man NVIP3 Rel 1 3 EN UK 1 PRESENTATION NanoVIP is a leading device equipped with new functions for measuring and monitoring power consumption and for advanced power and power quality analysis This device can measure display process and transmit all the parameters of a system With regard to the most common power analysers its main unique features are as follows v new modern elegant design which makes this device a handheld product and therefore light and easy to use with the best performance in its category v Highly efficient 128x128 pixels backlit graphical LCD for high ductility display multilingual menus waveforms histograms menus drawings schemes images customisation etc and perfect viewing even from a distance v 4voltage measuring channels with common neutral 1 auxiliary independent up to 600V CAT able to measure co
26. 10 However a different 0 00 1 threshold may be set by the user 7 The Start Date and Time Affected Phase s and Duration of each swell are displayed When scrolling through the 50160 Menu the page of the most recent swell is displayed Irms LI 0 01 automatically To view any previous swells scroll through the relevant pages using the lt and P keys 5 2 9 Alarms Menu This menu stores and displays the last 5 alarms to go off if any did go off For Alarm Setup see Sect 4 2 11 Alarms L The menu automatically displays the page of the most recent alarm Alarm 1 af 5 Beginning on 22I 07T 20 9 05 09 07 Start Date and Time Meazure vrmz 3F type of parameter that exceeded the thresholds set Value 109 value of the parameter which caused the alarm to go off Each alarm is identified by Duration 1h e z7 min duration of the event rms df 334 To view any previous alarms scroll through the relevant pages using the and P keys NOTE Alarms are stored hence displayed only at the end of the event i e when the parameter in question falls within the set values again x3 5 2 10 Transients Menu Transient Menu This menu can be used to capture and analyse temporary signal specific phenomena and variations such as TransigntE Analysis Fast transient events Sect 5 2 10 1 5 Inrush currents Sect 5 2 10 2
27. 16 61 flpactivg hvartil eackive E EHvarfil 31 LI 136 98 T OO 00 u 1173 erui 0 869 63 44 Le 190 26 Le 00 00 MN pte 0 930 231 05 132 62 L3 216 24 00 00 0084 0 859 532 39 240 44 503 50 a 00 00 2030 0 886 ems 341 9 pF LI 0 93 Vrms J 3915 Endy Le 358 Yrms 3 393 4 VA B gt AUX cH Hand Lount Q Hvarh Hand Count Hand Count 0 Hvarh Hand Count H EHLUDJ 0 00 00 00 00 00 00 00 00 00 0 00 00 00 00 61 00 00 0 00 00 00 0 84 T3 0111 00 00 0 00 T4 00 00 00 00 T4 00 00 00 n RR 3 519 ME DUE 5353 NN ME rms3F wld E 514 0 00 0 01 T3 0 01 0 00 rmsdr 41l5 HARMONICS MENU Sect 5 2 5 varane T0 7 Torrent TRU T PROV u LV fias u 0 130 a u 5 cc 1 8 Wee 14 m 10 6 2 3 E 11 5 L3 B L3 U 11 8 Lal zh Hi PESEN v AUX CH HARMO 1 19 ym 16 05 yrms dF 393 0 Ehgv Le 164 rms JF 334 Ehgv Le 1 321 LI 0 18 Ehdv Le 1 325 energy nef Man NVIP3 Rel 1 3 EN UK WAVEFORMS MENU Sect 5 2 6 Waveforms L3 e WX IN 24 31 AUX CHANNE
28. 2 kVArh L3 kVArh L3 kVArh L3 kWh cog Exported L1 kWh cog Exported L1 kWh cog Exported L1 kWh cog Exported L2 kWh cog Exported L2 kWh cog Exported L2 kWh cog Exported L3 kWh cog Exported L3 kWh cog Exported L3 kVArh cog lagging L1 kVArh cog lagging L1 kVArh cog lagging L1 kVArh cog lagging L2 kVArh cog lagging L2 kVArh cog lagging L2 kVArh cog lagging L3 kVArh cog lagging L3 kVArh cog lagging L3 kVAh Apparent L1 kVAh Apparent L1 kVAh Apparent L1 kVAh Apparent L2 kVAh Apparent L2 kVAh Apparent L2 kVAh Apparent L3 kVAh Apparent L3 kVAh Apparent L3 kWh T1 kWh T1 kWh T1 kWh T2 kWh T2 kWh T2 kWh T3 kWh T3 kWh T3 kWh T4 kWh T4 kWh T4 kVarh T1 kVarh T1 kVarh T1 kVarh T2 kVarh T2 kVarh T2 kVarh T3 kVarh T3 kVarh T3 kVarh T4 kVarh T4 kVarh T4 kWh T1 kWh T1 Man NVIP3 Rel 1 3 EN UK Three phase counter of generated reactive power Three phase apparent power counter Three phase apparent power counter Three phase apparent power counter Three phase active power counter L1 Three phase active power counter L1 Three phase active power counter L1 Three phase active power counter L2 Three phase active power counter L2 Three phase active power counter L2 Three phase active power counter L3 Three phase active power counter L3 Three phase active power counter L3 Three phase reactive power counter L1 Three phase reactive po
29. 2 Minimum voltage L2 Minimum voltage L3 Minimum voltage L3 Maximum voltage L1 1687 Man NVIP3 Rel 1 3 EN UK 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 V max L1 V max L2 V max L2 V max L3 V max L3 A avg L1 A avg L1 A avg L2 A avg L2 A avg L3 A avg L3 A min L1 A min L1 A min L2 A min L2 A min L3 A min L3 A max L1 A max L1 A max L2 A max L2 A max L3 A max L3 Amax L1 Amax L1 Amax L2 Amax L2 Amax L3 Amax L3 kW avg 3 ph kW avg 3 ph kW min 3 ph kW min 3 ph kW max 3 ph kW max 3 ph kW max 3 ph kW max 3 ph kVAr avg 3 ph kVAr avg 3 ph kVAr min 3 ph kVar min 3 ph kVar max 3 ph kVar max 3 ph kVAr max 3 ph kVAr max 3 ph kVA avg 3 ph kVA avg 3 ph kVA min 3 ph kVA min 3 ph kVA max 3 ph kVA max 3 ph kVA max 3 ph kVA max 3 ph PF avg 3 ph PF avg 3 ph PF min 3 ph PF min 3 ph PF max 3 ph PF max 3 ph PF max 3 ph PF max 3 ph kWh 3 p
30. 204 14 varh 428 13 EET 25 07 2012 14 20 51 RTT THEN 529 THOI 8 25 cse 0 996 2151 25 07 2012 14 30 25 Avg j 5b5 u li var 3 8 Bx vn 0 334 ing Vrms 3958 H q 9 Tariff Band 5 F 13 T4 Hrms3r T3 a rms I e 0 3 AUR 3 109 u Ac m var 3 pr 350 Ind 4 38 V Rim Ams 228 8 VOLTAGES MENU Sect 5 3 1 Mas 5304 Avg 0 3 20 8 Min 0000 0 00 fi 33 31 JF S CURRENTS MENU Sect 5 3 2 IER Fus rms 11 68 5384 1 229 30 cco 0 000 000 31 14 Ehndv Le Le3l Min Ul var VR BF 000 333 0 000 va 0 000 ma Ehovle 294 W var VA BF 0 Ll var VH BF TEEI p 6 899 33 Bb var 0 553 var 1 085 va 0 995 0 969 PUDTERZSEUT 7 IEEE DESEE P 0 5 PF CAUA S 965 eT li var 3 8 Ib vn er D 331 afr Min P 0 5 PF CAUR NA 000 p TRIS var pr 0 Ind lla I e ITlas H 53 BF w 98 Bb Var 32 9 vn 0 995 e um te 0 0 5 i Vor 1 B5 0 969 Yrms 39393 COUNTERS MENU Se
31. 4 Inp2 Inp2 Inp2 THD Vtot THD Vtot THD Itot THD Itot THD V1 THD V1 THD V2 THD V2 THD V3 THD V3 THD A1 THD A1 THD A2 THD A2 THD A3 THD A3 01 Fundamental 1268 V1 h01 1269 V1 h01 1270 V2 01 1271 V2 01 1272 V3 01 1273 V3 01 2 Harmonic 2 1274 V1 h02 1275 V1 h02 1276 V2 h02 1277 V2 h02 1278 V3 h02 1279 V3 h02 Consecutive addresses up to the 31st harmonic H31 Harmonic 31 1448 1449 1450 1451 1452 h1453 V1 h31 V1 h31 V2 h31 V2 h31 V3 h31 V3 h31 Man NVIP3 Rel 1 3 EN UK Three phase counter of generated active power tariff T1 Three phase counter of generated active power tariff T2 Three phase counter of generated active power tariff T2 Three phase counter of generated active power tariff T2 Three phase counter of generated active power tariff T3 Three phase counter of generated active power tariff T3 Three phase counter of generated active power tariff T3 Three phase counter of generated active power tariff T4 Three phase counter of generated active power tariff T4 Three phase counter of generated active power tariff T4 Three phase counter of generated reactive power tariff T1 Three phase counter of generated reactive power tariff T1 Three phase counter of generated reactive power tariff T1 Three phase counter of generated reactive power tariff T2 Three phase counter of generated reactive power tariff T2 Three
32. Band Lount 00 00 00 00 T3 00 00 The kVArh generated during the various time bands 00 00 sma i Tariff Band Costs 0 00 0 00 The cost of the kWh absorbed during the various tariff bands expressed the currency T3 0 00 selected in the Setup Menu Sect 4 2 9 1 TH 0 00 Orms 4110 Tariff Band Costs F 0 00 Te 0 01 The income expressed in the set currency unit sect 4 2 9 1 of the kWh generated during T3 0 01 the different tariff bands TH 0 00 rms 410 5 On any of the Counters Menu pages press to access the page containing all the information regarding auxiliary channel counters In the AUX Menu the user P Y454 uh can also access the other Auxiliary Channel Menus Voltages Currents Power 11 01 varh Harmonics Waveforms by selecting them with the relevant function keys Press 4 to exit the Auxiliary Menu and return to the first page of the relevant menu 5 2 5 Harmonics Menu x3 E Yolkage THO 7 u LIH 1844 The first page of this menu displays the THD Total Harmonic Distortion of the voltage 758 of each phase and the three phase or two phase connection as well as the THD of the Li d relevant phase currents 1 19 38 energy nef u 18 23 14 85 H Ub 16 05 Ehdv Le I 184 Harmonic
33. EN 61010 1 EN 61326 EN 61326 A1 EN 61326 A2 EN 61326 A3 Man NVIP3 Rel 1 3 EN UK 2 3 Reference Standards Standard Int Link General Safety requirements for electrical equipment intended for professional industrial process and educational use Electrical test and measurement control and laboratory equipment Safety requirements for Identical to electrical equipment for measurement control and laboratory use EN 61010 1 IEC 61010 1 2001 02 EN 61010 1 2001 03 This Standard specifies the minimum requirements for immunity and emissions regarding electromagnetic compatibility EMC for electrical equipment operating from a supply or battery of less than Identical to 1000 1500 VDC intended professional industrial process industrial 61326 1 1997 03 manufacturing and educational use EN 61326 1 1997 04 including equipment and computing EN 61326 1 Ec 1998 01 devices for measurement and_ test control laboratory use accessories intended for use with the above equipment 7 Electrical equipment for measurement control and laboratory use EMC requirements EN 61326 This amendment modifies the requirements for the immunity tests laid down in Standard IEC EN 61326 for the three specific applications specified Electrical equipment for below Identical to ew essurement con and in indusialemdronment sein
34. H 11 Passed Inverk ET3 CONNECTION CHECK 4 2 1 6 ZERO 4 2 1 5 MINIMUM MAXIMUM amp AVERAGE SETUP 4 2 3 Min Mas Avg integr Time E min Avg Reset Min Mas Aeset In CLOCK SETUP 4 2 7 06 2012 Time 13 51 31 Oay Monday COMMUNICATION SETUP 4 2 11 speed 5200 Parity 10 Protocol IEEE Address Test Com Comm Status Comm Port OH Emil COMMUNICATION TEST 4 2 11 1 18 v v Man NVIP3 Rel 1 3 EN UK COUNTERS SETUP 4 2 4 5 Set up Counters reset BOTTOM BAR SETUP 4 2 8 Bar meas 2 pf LI Meas 3 khdy Le ALARMS SETUP 4 2 12 Alarm 5e up Harm Alarm e lt Alarm resete fo Alarm 1 5gE up Alarm c set up Th meas Vrms Tf Th min 201 Hist Th 239 Mol yisteresys 1 Cait oF Events ALARM 1 amp 2 SETUP 4 2 12 1 FIcontrol energy net Man NVIP3 Rel 1 3 EN UK 4 2 1 Connections Setup JBE LI This menu allows the user to Set the type of electrical network to which the instrument is Lil 3PH N connected Sect 4 2 1 1 AL 1 Set the type of voltage and voltage ratio for phases L1 L2 and L3 Sect 4 2 1 2 AL iE TE 1 Set the type of voltage and voltage ratio for U A
35. Histogram 9 5 5 I Tn Harmonic Histogram 4 ce L8 Rr Lhe del Harmonic Histogram Ld pF LI 0 18 Man NVIP3 Rel 1 3 EN UK The next page displays the THD of the current of each phase and the three phase or two phase connection as well as the THD of the relevant phase voltages This page displays the 5 of the 3 phases with the relevant angles expressed in degrees the negative sign indicates that current comes before voltage thus the load is capacitive This page display the K factors of the phases This page displays the harmonic histogram of the voltage and current of phase L1 To select and scroll through single harmonics see Sect 5 2 5 1 Harmonic histogram of the voltage and current of phase L2 To select and scroll through single harmonics see Sect 5 2 5 1 Harmonic histogram of the voltage and current of phase L3 To select and scroll through single harmonics see Sect 5 2 5 1 39 energy net Harmonic Histogram Man NVIP3 Rel 1 3 EN UK 2 10 8 Harmonic histogram of neutral current To select and scroll through single harmonics see EHE On any of the Harmonics Menu pages press to access two pages containing all Sect 5 2 5 1 the information regarding auxiliary channel harmonics The first page displays the Trl 7 05 Rum THD of V and I Use A or to view the other p
36. L MENU VLv1 FLhe R m ICA Ams cc8 8 Max 93 584 Avg 220 3 20 8 Min 0000 0 00 rms 394 1 Aims 1 68 228 Mas 584 1 18 30 cc i 0 000 0 00 CURRENTS Thay Gea MENU H BF Avg 5 CAUR Min P 0 5 PF AUR Max A 0 3 PF ITlas 5 z 3 565 u 0 000 ICB 5 w b Bd3 u Le Bx var E Tk var i p 333 var 3306 var 663 var s 330H vr s 3 6 IB va 0 000 vn 1 085 va gt BEA er 0 334 0 000 0 995 0 969 mE ale pos Dn ley mu Ehdv le 20859 7 Wms JF 3933 44 54 11 01 11 35 00 00 04 30 rv C 555 4 381 5 THOI 33 5 re 0 161 amp 104 Orms L2 814 HARMONICS MENU WAVEFORMS MENU Interruptions Test 060 Dip 5 TESE Freq Pass Interruption 10 5 Beginning TESE V 10 28 18 Test Tha Fail 27 01 2005 00 49 38 i Test Unbalance Pass Duration min e sec swells Si well il of 5 5 z 21 h 50 min Irms LI 0 02 Irms LI 0 01 Interruptions Interruption Sof 5 Beginning an 27 01 2005 00 49 38 Duration min e 9 sec E E 50 ims irms LE 001 BIEN energy nef Man NVIP3 Rel 1 3 EN UK x3 ALARMS MENU Sect 5 2 9 Alarms Log Duration Duration Du
37. Maximum power factor Maximum power factor Maximum average power factor Maximum average power factor Three phase active power counter BCD integers Three phase active power counter BCD integers Man NVIP3 Rel 1 3 EN UK Three phase active power counter binary coded decimals Three phase reactive power counter Three phase reactive power counter Three phase reactive power counter Three phase apparent power counter Three phase apparent power counter Three phase apparent power counter Three phase counter of generated active power Three phase counter of generated active power Three phase counter of generated active power Three phase counter of generated reactive power lagging Three phase counter of generated reactive power 64 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 kVArh cog kVAh 3 ph kVAh 3 ph kVAh 3 ph kWh L1 kWh L1 kWh L1 kWh L2 kWh L2 kWh L2 kWh L3 kWh L3 kWh L3 kVArh L1 kVArh L1 kVArh L1 kVArh L2 kVArh L2 kVArh L
38. Menu Type Setup Despite its easy to use interface NanoVIP can perform a great number of measurements and features many functions If the user only needs a limited number of functions or measurements this feature may sometimes be superfluous Therefore to make using the instrument even easier two different types of menus have been provided e The FULL Menu which includes all the screens See Sect 5 e The PARTIAL Menu which only displays the Voltage Currents Power Storage and Setup Menus making it less exhaustive but quicker to use NOTE the Partial Menu only affects the displayed information data are always stored If the user subsequently selects the Full Menu the analyses performed in the previously disabled menus will also be displayed 4 2 7 Clock Setup L UL H aoe Up This page allows the user to set the date and time lane The format is Time 14 51 ay Monday 4 2 8 Bottom Bar Setup H arrugm Har up This page allows the user to choose the 3 parameters out of 63 to be displayed alternately in the bottom part of the measurement screens in addition to the battery level The following parameters are available Teas Dr ms L Vrms Vrms L1 Vrms L2 Vrms L3 Irms Irms L1 Irms L2 E Irms L3 Prms Prms L1 Prms L2 Prms L3 Qrms Orms 11 Qrms 12 Qrms Srms Srms L1 Srms L2 Srms L3 pf MEAS
39. NOTE if a connection other than 3PH N or 3PH N BL unbalanced or balanced three phase with neutral see Sect 4 2 1 1 is used the value will always be 0 000 Average current values in each phase calculated on the basis of the integration time set Values can be reset as described in Sect 4 2 3 Minimum instant current values in each phase values can be reset as described in Sect 4 2 3 3 FIcontrol 33 energy net Man NVIP3 Rel 1 3 EN UK 31 0 93 6 8113 n 13 95 yrms 391 8 Maximum instant current values in each phase values be reset as described in Sect 4 2 3 3 u 19 10 34 58 n D Hb 10516 Load peaks i e the highest average current calculated the basis of the integration time set Values can be reset as described in Sect 4 2 3 2 11 68 cco On any of the Currents Menu pages press to access the page containing all the information regarding the auxiliary channel current In the AUX Menu the user can also access the other Auxiliary Channel Menus Voltages Power Counters las 584 1 Harmonics Waveforms by selecting them with the relevant function keys i Press 4 to exit the Auxiliary Menu and return to the first page of the relevant Jp UNE ee menu UR E Ehdv Le 1 291 5 2 3 LI 363 5 5368 0 96 L3 b 8 15 99 Ehdv Le 1 66 HBa
40. PF calculated on the basis of the integration time set Values Fg can be reset as described in Sect 4 2 3 related to the auxiliary channel 38 6 K VA 331 v ma 394 6 Min P 0 5 PF CAUR 0 000 Minimum instant values of power and PF values can be reset as described in Sect T nda n in SS 4 2 3 3 related to the auxiliary channel s 0000 vr pF 0 000 Ehdv Le 1294 Illas P 0 5 PF CAUR 8 Maximum instant values of power and PF values can be reset as described in Sect 4 2 3 3 related to the auxiliary channel lt 0 995 Ehdv Le 2 085 0 H 3 HF Load peaks and relevant PF i e the highest average power calculated on the 84 basis of the integration time set Values can be reset as described Sect 4 2 3 2 663 var related to the auxiliary channel ZR 108S vA 0 969 yrms 393 9 x3 5 2 4 Counters Menu LI Le 116 61 L 031 05 When scrolling through the pages as described in Sect 5 1 the following pages will be 3PH 530 39 displayed The first page of this menu shows the counters of the active power absorbed kWh in each phase and three or two phase connections LI 44 31 LE 63 94 3PH 0 oF 0 594 The counters of the reactive power absorbed kVarh in each phase and in three or two phase connections
41. UX Sect 4 2 1 3 MI Activate deactivate measurements in cogeneration mode Sect 4 2 1 4 Cero Adj Stark Automatically adjust the zero level of measuring channels Sect 4 2 1 5 LAECH Check if the instrument and relevant probes are connected to the electrical system correctly Sect 4 2 1 6 4 2 1 1 Type of Electrical Connection Setup To set the type of connection enter the CONNECTIONS SETUP Menu place the cursor on GRID TYPE and select one of the following options See Sect 3 2 e 3PH N BL balanced three phase system with neutral Page 12 e 3PH BL balanced three phase system without neutral Page 12 e 3PH unbalanced three phase system without neutral Page 12 e 3PH N unbalanced three phase system with neutral Page 12 e 2 two phase system Page 13 e 1PH single phase system Page 13 2e of Voltage amp Voltage Ratio VT Setup for 11 12 L3 NanoVIP can measure both alternate and direct current The user must set the type of voltage to be analysed selecting AC alternate current or DC direct current When a voltmeter transformer has to be connected i e when voltages higher than 600VAC must be measured the corresponding transformation ratio must be set default value 1 changing the values as needed 1 to 60000 As described in the previous section the same settings can be applied to the auxiliary voltage channel U Aux 4 2 1 4 Cogeneration Se
42. Wh generated the relevant currency E i return to the Tariffs Setup page Sect 4 2 9 NOTE do not cause the time of the different tariff bands to overlap When the time of a tariff is changed always make sure that it does not overlap with the time of another tariff To set 12 00 am select 0 00 4 2 9 1 1 Selection of Days Tariff This page allows the user to set the days on which the tariff will be Monday active uesday do so select the day to be enabled disabled and press or gt to Wednesday Hpg change its status Thursday Yes Friday Select Exit and press to return to the Tariff Setup page Sect jaburdau 4 2 9 1 unday 23 Man NVIP3 Rel 1 3 EN UK As described in Standard EN 50160 the phenomenon voltage disturbances swells dips interruptions etc does not feature standard values by means of which power quality can be evaluated Therefore it is the user s responsibility to evaluate whether the voltage disturbances of the system are actually harmful or if they can be disregarded based on the type of installation production connected instrument etc The EN 50160 SETUP page allows the user to set the values necessary for performing the 50160 TEST correctly Sect 5 1 7 i e for evaluating the power quality of the system E 1 0 SBE L Specifically the following par
43. age see below the AUX gt 2 596 Menu the user can also access the other Auxiliary Channel Menus Voltages THOI Currents Counters Harmonics Waveforms by selecting them with the relevant function keys Press 4 to exit the Auxiliary Menu and return to the first page of the relevant menu K factor of the AUX channel Harmonic histogram of auxiliary voltage and current j3 5 e D b 333 0270872012 10 45 13 4 38 5 O ee amp oF Li 0 8 5 2 5 1 Consulting Harmonic Histograms c3Q arms b33 On any of the Harmonic Histograms pages press to access the function for selecting and scrolling through the single harmonics Press gt and 4 to select each single harmonic of the histogram up to the 50th and check the relevant RMS values The selected harmonic is indicated by A number identifying the series The cursor below the histogram Over and above the 25th harmonic which is the last one that can be displayed on one page the screen will change i e the first 25 harmonics of the spectrum will disappear to the left and the harmonics between the 26th and the 50th will appear An arrow pointing towards the left indicates that the screen continues to the left Press again to return to the function that allows you to scroll through the pages of the Harmonics Menu 40 energy net Man NVIP3
44. age L1 Harmonic No 1 voltage L1 Harmonic No 1 voltage L2 Harmonic No 1 voltage L2 Harmonic No 1 voltage L3 Harmonic No 1 voltage L3 Harmonic No 2 voltage L1 Harmonic No 2 voltage L1 Man NVIP3 Rel 1 3 EN UK Neutral current Neutral current Average current L1 average calculated according to integration time set see 4 2 2 Average current L1 Average current L2 Average current L2 Average current L3 Average current L3 Load peak of current L1 maximum value of average currents Load peak of current L1 Load peak of current L2 Load peak of current L2 Load peak of current L3 Load peak of current L3 Average reactive power Average reactive power Load peak of reactive power maximum value of average reactive power Load peak of reactive power Three phase counter of generated active power Three phase counter of generated active power Three phase counter of generated active power Three phase counter of generated reactive power lagging Three phase counter of generated reactive power Three phase counter of generated reactive power Three phase apparent power counter Three phase apparent power counter Three phase apparent power counter Three phase active power counter tariff T1 Three phase active power counter tariff T1 Three phase active power counter tariff T1 Three phase active power counter tariff T2 Three phase active power counter tariff T2 Three phase active power counter tariff T2 Three phase active power c
45. ameters be set LI LE Ons 10 0 Vrms value below which an interruption is defined eel Vrms value below which a dip is defined 5 LUE e t Vrms value above which a swell is defined uU e 3 Nominal voltage flam S0 1 Nominal frequency H Bhgr Reset the stored data related to all the grid disturbances that been recorded 4 2 11 Serial Communication Setup L gomm 9 up This page allows the user to set the following parameters E HEE 115200 Data transfer speed baud rate 4800 9600 19200 38400 57600 115200 bps Harit L Type of parity no parity even or odd Hr t nurull IEEE Protocol type BCD or IEEE Hodges Address of the instrument which must be unique if the latter is connected to a PC with Energy Studio Manager monitoring Test software Press to access the communication test page Sect 4 2 12 1 NOTE to consult the Modbus registers see Appendix 1 attached hereto 4 2 11 1 Serial Communication Test ESE Comm This page is helpful when connecting the instrument to a PC to check if communication is correct as well as to check if the instrument is working correctly This field shows the current status No communication Comm OK Lomm status or the type of error checksum error framing error etc occurring Comm during communication F Return to the Communication Setup page Sect
46. auxiliary channel power The first page displays J 09u active reactive and apparent power as well as the PF Use A and arrows to 9 H var scroll through the pages See below In the AUX Menu the user can also access 3904 the other Auxiliary Channel Menus Voltages Currents Counters Harmonics 1 J K vA Waveforms by selecting them with the relevant function keys 0 990 Press to exit the Auxiliary Menu and return to the first page of the relevant pF LI 0 81 menu 0 5 Rs Average power and PF calculated on the basis of the integration time set Values 3 565 u can be reset as described in Sect 4 2 3 related to the auxiliary channel bees hep 5 Ibe vr 33 ur ma 39 8 FIcontrol 49 energy nef Man NVIP3 Rel 1 3 EN UK VA Min H Q S PF CAUR e 0 000 Minimum instant values of power and PF values can be reset as described in Sect paces i 4 2 3 3 related to the auxiliary channel s OOOO vr pF 0 000 ENV Ec Illas B E S3 BF CAUR Maximum instant values of power and PF values can be reset as described in Sect 0 4 2 3 3 related to the auxiliary channel IJ3c3 m 0 995 Ehdv Le 2 085 0 H 3 BF Load peaks and relevant PF i e the highest average power calculated on the 849 basis of the integration time set Va
47. ay brightness Sect 4 2 6 3 E UE Total The menu type Sect 4 2 6 4 4 2 6 1 Backlight Setup The LCD SETUP page allows the user to set backlight of the display Place the cursor on BACKLIGHT and select e ALWAYS ON e DELAY OFF 15 SEC the backlight dims 15 seconds after the last key was pressed e DELAY OFF 1 MIN the backlight dims 1 minute after the last key was pressed 21 energy nef Man NVIP3 Rel 1 3 EN UK Obviously with time LCD efficiency will depend on the number of hours of operation and the level of brightness selected Sect 4 2 6 3 Therefore unless strictly necessary we advise against the level of brightness being higher than 70 and keeping the backlight ALWAYS ON NOTE The display turns on automatically if an alarm goes off See Sect 4 2 11 1 4 2 6 2 Display Orientation Setup In particular situations changing the display orientation may be practical e g when the instrument must be placed in a vertical position This function allows the user to rotate the LCD by 90 with respect to the default setting 4 2 6 3 Contrast amp Brightness Setup To adjust the contrast and brightness of the display so as to increase or decrease display efficiency and better adapt the instrument to different environmental conditions place the cursor on CONTRAST or BRIGHTNESS and increase or decrease the parameters by increasing or decreasing the relevant values 4 2 6 4
48. ct 5 3 4 0 00 0 00 0 01 0 00 0 01 T3 0 00 0 00 TH 0 00 Band Count Q Hand Count 00 00 00 00 00 00 00 61 00 00 00 84 00 00 TH 00 00 IF o en 3 Hand Count 0 Hvarfi 00 00 01 36 01 11 00 msdF 14 44 54 41 35 00 00 Hand Lount B EHLURT 00 00 04 30 00 00 T3 00 00 00 00 mO are tad Harmonic Histogram Harmonic Histogram RB 228 3 S M 151016 0 59 33 5 cso 07161 fux 4 381 marmane meeng am 5 oF LI 0 81 rms L2 814 30 energy nef AUAILIAAY COUNTERS Endy Le 1 Man NVIP3 Rel 1 3 EN UK WAVEFORMS MENU Sect 5 3 6 Waveforms LI Test Interruptions Dips 5 Dip 10145 Swell 101 5 io Ms Interruption 1015 Beginning on Beginning an 5 g Test Thay Fail Test Unbalance Pass min e sec 21h e50 Irms LI 0 02 Irms LI 0 01 Interruption Sof 5 Beginning on 27 01 2005 00 49 38 Duration Omin e 9 sec on 21h e 50 Trims L002 TE rms LI 0 0 85 Alarms Log Alarms Log Alarms Log Alarms Log Alarm 20145 Alarm 5 Alarm 40 5 inni Beginning on 22 0 05 09 07 Value 0 00 0 00 0 00 Duration Duration Duration Duration Duration 1
49. d by the campaign on uSD It is clear that a storage every second for a long period of time would produce a campaign very heavy and therefore not practical to analyze To adjust with these parameters we recommend that you follow the mirror below 5 2 11 1 3 Manual Start Select Manual Start to start a campaign immediately NanoVIP will automatically display the first page of the Voltages Menu To make sure the campaign has started correctly check that Rec features on the bottom bar Sect 4 1 1 1 To stop the campaign return to the Menu where the Stop function appears and press to stop the campaign and return to the Measurement Campaigns Menu Sect 5 2 11 HELDrHings gatare Time 3 51 Start Date Time End Time c10 lelle 13 51 End Date and Time Select Scheduled to access the page for scheduling a campaign The following parameters can be set nib By selecting Start NanoVIP will automatically display the first page of the Voltages Menu To make sure the campaign has been scheduled correctly check that Prg features on the bottom bar Sect 4 1 1 1 To stop a campaign if already underway or cancel a scheduled one return to the Hl Menu where the Stop function appears and press to stop the campaign and return to the Measurement Campaigns Menu Sect 5 2 11 5 2 11 2 uSD Content Select uSD Content to review all stored data ABCOroings The
50. displacement of harmonic No 31 682 PF1 h31 Phase displacement of harmonic No 31 683 PF2 h31 Phase displacement of harmonic No 31 684 PF2 h31 Phase displacement of harmonic No 31 685 PF3 h31 Phase displacement of harmonic No 31 686 PF3 h31 Phase displacement of harmonic No 31 L1 L1 L2 L2 L3 dox Man NVIP3 Rel 1 3 EN UK NEW NANOVIP REGISTERS 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 V 3ph V 3 ph A 3 ph A 3 ph kW 3 ph kW 3 ph kVAr 3 ph kVAr 3 ph kVA 3 ph kVA 3 ph PF 3 ph PF 3 ph V L1 V L1 V L2 V L2 V L3 V L3 V L1 V L1 V L2 V L2 V L3 V L3 A L1 A L1 A L2 A L2 A L3 A L3 An An kW L1 kW L1 kW L2 kW L2 kW L3 kW L3 kVAr L1 kVAr L1 kVAr L2 kVAr L2 kVAr L3 kVAr L3 kVA L1 kVA L1 kVA L2 kVA L2 kVA L3 kVA L3 PF L1 PF L1 pf L2 pf L2 PF L3 PF L3 Hz Hz Unbalance Unbalance V avg L1 V avg L1 V avg L2 V avg L2 V avg L3 V avg L3 V min L1 V min
51. ds tariffs which can be set For three phase and each single phase 6 different electrical systems which be analysed single phase two phase 3 lead three phase unbalanced 4 lead three phase unbalanced 3 lead three phase balanced 4 lead three phase balanced e Medium voltage connection available User can se ect the values to be displayed Multilingual menus English Italian German Spanish French Automatic connection test to check if electrical connections are correct Micro SD memory card for extended measurement campaigns Special PC software allowing for advanced analysis of data stored on uSD card lt lt 1 1 Intended Use NanoVIP is a measuring tool designed for those in need of an accurate and easy to use product It is aimed at both users who want to understand their systems better and Energy Managers system installers electricians and maintenance workers for diagnosis and intervention or for the provision of integral consulting services on electrical power NanoVIP allows users to e monitor loads consumption and related costs check if the new systems are dimensioned correctly prevent overheating and lack of insulation due to high harmonics content solve any power factor correction problems identify and eliminate load peaks and excess demand thereby reducing contractual power consumption monitor power and consumption in the different time bands check and assess the p
52. e income expressed in the set currency unit sect 4 2 9 1 of the kWh generated during the different tariff bands On any of the Counters Menu pages press to access the page containing all the information regarding auxiliary channel counters In the AUX Menu the user can iR wn also access the other Auxiliary Channel Menus Voltages Currents Power Harmonics Waveforms by selecting them with the relevant function keys 00 00 wh Press lt to exit the Auxiliary Menu and return to the first page of the relevant 04 30 varn menu pr 0 936 D I x3 5 3 5 Harmonics Menu 1 1523 THD Total Harmonic Distortion for voltage and current Cose value and relevant angle mu 25 expressed in degrees the negative sign indicates that current comes before voltage and cosa 0 99 that the load is capacitive Mills n 257 0772012 14 30 25 51 energy net 1 38 1 K factor arma 12 814 Harmonic Histogram 9 Harmonic histogram of current and voltage 9211 any of the Harmonics Menu pages press to access two pages containing all the information regarding auxiliary channel harmonics The first page displays the 038 fus THD of V I Use A or to view the other page see below In the AUX gt 2 556 Menu the user can also access the other Auxiliary Channel Menus Voltages
53. e uSD card Store Sect 5 2 10 This menu allows the user to 5 2 11 Measurement Campaigns Menu Set a Measurement Campaign Sect 5 2 11 1 50 LanEBrnES View the data stored on the uSD card Sect 5 2 11 2 5 2 11 1 Measurement Campaigns Select Start Campaign to view the Measurement Campaign configuration page HECoOrdings The following parameters can be set lame Campaign Name Sect 5 2 11 1 1 Storing Rate Sect 5 2 11 1 2 Manual 5Eart Manual Start Sect 5 2 11 1 3 Timed Scheduled Start Sect 5 2 11 1 4 To assign a name to the campaign place the cursor on the first character press and change the character using the A and keys The selection of the other characters has been made easier move the flashing cursor using the and 4 keys and change the character as described above The campaign name must have 6 alphanumeric characters if the same name is assigned to more than one campaign progressive numbers will automatically be added to subsequent campaign names e g 5 01 46 energy Man NVIP3 Rel 1 3 EN UK This parameter indicates the rate at which NanoVIP stores the data The following options are available 1 5 30 1 5 15 Obviously from the choice of memorization frequency and duration of the campaign will depend the MB employe
54. enus of the three phase connection See Sect 5 1 7 8 9 10 11 53 energy net Man NVIP3 Rel 1 3 EN UK 6 MAINTENANCE NanoVIP does not require any special maintenance Simply comply with the common rules that apply to any electronic device e Clean the instrument with a soft and clean cloth the edges must not be frayed Do not use detergents or corrosive or abrasive substances e Do not store the instrument in areas where the humidity and temperature levels exceed the ranges prescribed below 6 1 Accuracy Chec The manufacturer cannot determine in advance the frequency at which an accuracy check should be performed as instrument performance will depend on the conditions of use heavy or light duty environmental conditions etc Therefore the user should perform periodical performance checks using a sample instrument of a higher category At first accuracy checks should be performed yearly and thereafter increased or decreased based on the outcome of the checks If new calibration is required the instrument can be sent to the manufacturer s in house laboratory If deemed appropriate the user can also request that the manufacturer perform the accuracy check NOTE the in house calibration laboratory of Elcontrol Energy Net is currently the only authorised calibration centre used NanoVIP is a sophisticated electronic product designed by Elcontrol Energy Net Any attempt to repair the inst
55. erformance of UPSs with AC DC measurements 5 Man Rel 1 3 EN UK measure signals including asymmetrical signals for PWM controls on inverters identify the cause of problems resulting from low quality power presence of harmonics interruptions overloads dips unbalance in voltage phases etc which may bring about a production standstill and which may affect or reduce the life cycle of equipment and systems identify fast fluctuations and variations in current and voltage signals measure inrush current of electrical engines and equipment Man NVIP3 Rel 1 3 EN UK 2 SAFETY AND WARRAN NanoVIP has been designed and tested in accordance with the latest directives in force and complies with all technical and safety requirements To preserve the product and ensure its safe operation follow the instructions and the CE markings contained herein 2 1 Operators Safety The instrument described herein must only be used by trained personnel Connection and maintenance operations must only be carried out by qualified and authorised personnel as they may result in electrocution burns or explosions For the correct and safe use of the instrument as well as for all installation and maintenance purposes operators must always comply with standard safety procedures The manufacturer shall in no way be liable if such procedures are not complied with Before connecting
56. f3 h02 Phase displacement of harmonic No 2 L3 1663 Pf3 h02 Phase displacement of harmonic No 2 L3 Consecutive addresses up to the 31st harmonic H31 Harmonic 31 1832 Pf1h31 Phase displacement of harmonic No 31 L1 1833 Pf1h31 Phase displacement of harmonic No 31 L1 1834 Pf2 h31 Phase displacement of harmonic No 31 L2 1835 Pf2 h31 Phase displacement of harmonic No 31 L2 1836 Pf3 h31 Phase displacement of harmonic No 31 L3 1837 Pf3 h31 Phase displacement of harmonic No 31 L3 1844 Test Pass Fail 1 0 Freq 50160 1845 Test Pass Fail 1 0 Freq 50160 1846 Test Pass Fail 1 0 V1 50160 1847 Test Pass Fail 1 0 V1 50160 1848 Test Pass Fail 1 0 V2 50160 1849 Test Pass Fail 1 0 V2 50160 1850 Test Pass Fail 1 0 V3 50160 1851 Test Pass Fail 1 0 V3 50160 1852 Test Pass Fail 1 0 Unbal 50160 1853 Test Pass Fail 1 0 Unbal 50160 1854 Test Pass Fail 1 0 50160 1855 Test Pass Fail 1 0 ThdV1 50160 1856 Test Pass Fail 1 0 ThdV2 50160 1857 Test Pass Fail 1 0 ThdV2 50160 1858 Test Pass Fail 1 0 ThdV3 50160 1859 Test Pass Fail 1 0 ThdV3 50160 1860 Number of Interruptions zd s 1861 1862 1863 1864 1865 See documentation on Elcontrol website in case of use and development of own software Number of Interruptions Number of Dips Number of Dips Number of Swells Number of Swells 68 Man NVIP3 Rel 1 3 EN UK
57. h kWh 3 ph kWh 3 ph kVArh 3 ph kVArh 3 ph kVArh 3 ph kVAh 3 ph kVAh 3 ph kVAh 3 ph kWh cog 3 ph kWh cog 3 ph kWh cog 3 ph kVArh cog kVArh cog Maximum voltage L1 Maximum voltage L2 Maximum voltage L2 Maximum voltage L3 Maximum voltage L3 Average current L1 Average current L1 Average current L2 Average current L2 Average current L3 Average current L3 Minimum current L1 Minimum current L1 Minimum current L2 Minimum current L2 Minimum current L3 Minimum current L3 Maximum current L1 Maximum current L1 Maximum current L2 Maximum current L2 Maximum current L3 Maximum current L3 L3 Load peak of current L1 Load peak of current L1 Load peak of current L2 Load peak of current L2 Load peak of current L3 Load peak of current L3 Average active power Average active power Minimum active power Minimum active power Maximum active power Maximum active power Load peak of active power Load peak of active power Average reactive power Average reactive power Minimum reactive power Minimum reactive power Maximum reactive power Maximum reactive power Load peak of reactive power Load peak of reactive power Average apparent power Average apparent power Minimum apparent power Minimum apparent power Maximum apparent power Maximum apparent power Load peak of apparent power Load peak of apparent power Average power factor Average power factor Minimum power factor Minimum power factor
58. he memory card CONNECTING SYSTEMS Two phase es Three phase 3 wires balanced Three phase 3 wires unbalanced ____ 4 phase 4 wires balanced Inrush current analysis COMMUNICATION STORAGE 2 External memory OPERATING CONDITIONS Operating temperature Relative humidity EC COMPLIANCE Man NVIP3 Rel 1 3 EN UK Phase phase 7 1000VAC 40 70Hz Phase neutral 5 600VAC 40 70Hz Aux 5 1000VAC 40 70Hz 10 1400VDC Phase phase 1200VAC Phase neutral 700VAC Aux 1200VAC 1700VDC Sec __ _ Micro SD 2GB included 10 to 455 C 2000 m 93 68 EEC Low Voltage Electrical Equipment 89 336 EEC and 2004 108 EC EMC Electromagnetic Compatibility 2006 95 EC 72 23 EEC LVD Low Voltage Directive 2002 95 EC RoHS Restriction of Hazardous Substances S Electromagnetic Compatibility Overload EN 61326 EN 61326 A1 EN 61326 A2 EN 61326 A3 a Man NVIP3 Rel 1 3 UK REFERENCE STANDARDS d IEC 60068 2 1 Operating temperature 000202020 IEC 60068 2 6 60068 2 30 Humidity 60947 1 Q The instrument changes the voltage and current scale automatically when the values of the signals detected by the analogue to digital converter exceed a pre set threshold Therefore the thresholds provided are purely indicative 585
59. her the latter is inductive or capacitive NOTE as norm dr i lt 3 904 va Active power is shown as a negative when generated and a positive when H absorbed 0 990 inc Reactive power is shown as a negative when capacitive and a positive when LI inductive it is absorbed 48 e The PF is shown as a negative when active power is generated and a positive when Man NVIP3 Rel 1 3 EN UK p 3 565 u e tee Average power and PF calculated on the basis of the integration time set Values can be 38 ewe reset as described in Sect 4 3 3 K 0 9 yrms Jf 394 6 Min Ll var vH BF 0 000 0 e 994 Minimum instant values of power and PF values can be reset as described in Sect 5 0 000 T 4 2 3 3 pF 0 000 inc leB5 u 33 8 vA Maximum instant values of power and PF values can be reset as described in Sect 4 2 3 3 Ehdv Le c D B5 0 Ll var vH BF 6 049 u 0 1663 var 5 1 005 WA Load peaks of power and PF i e the highest average values calculated on the basis of the er 0909 ing integration time set Values can be reset as described in Sect 4 2 3 2 VERIS dda On any of the Power Menu pages press to access a series of pages containing P Q 5 BF Rum all the information regarding
60. in line Batteries are recharged by an external power supply which is supplied with the instrument Batteries cannot be recharged through the USB connection If NanoVIP is not used for a long period of time then perform a charge cycle every two months approximately to prevent the batteries from going almost completely flat in which case you will no longer be able to recharge them Ficontror 10 Man NVIP3 Rel 1 3 EN UK NanoVIP can be connected to a PC through the USB port and the cable supplied This connection allows the user to download the MODBUS measurement registers using the PC Energy Studio Manager software The USB communication may also allow easy upgrade of the firmware internal software of the instrument NOTE If the PC does not automatically detects NanoVIP as a device download or update the appropriate drivers at www ftdichip com Drivers VCP htm 3 3 Memory Card NanoVIP is equipped with a slot for a 2 GB uSD memory card which can be used to store measurement campaigns data Sect 5 2 11 2 fast transients Sect 5 2 10 1 and inrush currents Sect 5 2 10 2 uSD Card SLOT The memory card must be inserted as shown in the figure on the left with the contacts facing up NOTES The slot is push push type the card is both inserted and removed by pressing it Do not try to remove the card by pulling it as this will damage the connector Do not remove the uSD card whilst a measurement campaign is
61. its na NanoVIP USER MANUAL Man NVIP3 Rel 1 3 EN UK Congratulations on having chosen AarroVIP a product based on Elcontrol s 50 years of experience in the control of power consumption High technological content careful material selection and full compliance with the latest regulations make this product the only one of its kind NanoVIP has been designed built and tested in Italy It complies with all qualitative requirements for European products regarding the environment safety and work ethics R 2002 95 EC Ficontror Man NVIP3 TABLE OF CONTENTS Presentation 1 1 Intended Use Safety 2 1 Operators Safety 2 2 ROHS amp WEEE Declaration of Conformity 2 3 Reference Standards 2 4 Warranty Conditions Description amp Connection to the Electrical System 3 1 Power Supply 3 2 USB Port 3 3 Memory Card uSD 3 4 Electrical Connection Schemes Start Up 4 1 User Interface 4 1 1 Description of Setup amp Measurement Menus 4 1 1 1 Bottom Bar 4 1 2 Keypad 4 2 Programming amp Setup 4 2 1 Connections Setup 4 2 1 1 Type of Electrical Connection Setup 4 2 1 2 Type of Voltage amp Voltage Ratio VT Setup for L1 L2 L3 4 2 1 3 Type of Voltage amp Voltage Ratio VT Setup for U Aux 4 2 1 4 Cogeneration Setup 4 2 1 5 Zero Adjustment 4 2 1 6 Connection Check 4 2 2 Current Probes Setup 4 2 3 Setup of Minimum Maximum amp Average Values 4 2 3 1 Integra
62. lance Avg olkage L TI EV Min olkage L TI Mas voltage L TI LI 1 6 16 4 Lie 33 1 6 15 8 EM A 3319 A 0000 53 LJ CES e 10 2 EB 0 0 Ld ces F Lal 0 000 LJ eco aces spn 392 t v Wms 3522 NN E Wrms 39258 m Wrms 3431 NN EC joo a LI 0 85 LI pF LI 0 85 gt AUX CH V Current A U 3 Current Avg Current Min Current Man m H rm u 6 290 am 9 625 u 0000 312 0 ve 11 8 In O04 L 2 ie 0 000 59 Lz E H1 fees ia 0 000 gp tal 34 58 D xs i m 0 000 m 13 95 Hb S 1 Le 1 515 _ alt Tue xe al Vrms NN pue H Vrms 3520 gt AUX CH 1 POWER MENU Sect 5 2 3 u 3 63 Joa Leeds fos u 3 188 0 991 pent e S REDIT 0 000 oe 168 bi 19 9 LE 5 538 0 56 Le 0 36 LE 5 100 0 56 0 968 13113 3l m var B H Wa var 58 5b var Qe Ok Si 328 var Bun 2 5 bun 80 Ik Jos seo 19 5x vn sn Tania Stnt m vn sn ue b 15 99 9 a 0 993 0 959 pr Ehdv Le 646 Ehdv Le 1 630 Ehdv Le 08 Edy Le 1 941 344 5 Yrms JF 3945 u aj EE LI n Yrms m AUX P COUNTERS MENU Sect 5 2 4 ITE 1
63. le for the purposes declared by Elcontrol for a period of twelve 12 months from the documented purchase date or in the absence of said date the date of calibration The warranty covers faulty hardware parts but not software consumables and labour and transport costs Repairs under warranty shall only be performed if Elcontrol actually finds manufacturing defects or poor material quality The warranty shall no longer be valid if the defect is due to incorrect electrical power supply swells improper connections tampering repairs or modifications carried out without the prior consent of the manufacturer accidents or use other than that described herein Damage resulting from disuse or any harm caused to third parties shall not be covered Faulty products must be returned to the importer distributor in your country or to Elcontrol DELIVERED DUTY PAID subject to prior consent of Elcontrol A request for repair under warranty shall be accompanied by proof of purchase stating the date on which the product was purchased The warranty shall not be valid for products which have not been paid by the purchaser by the agreed deadline as well as if the faulty product is returned from a country other than that where the product was sold unless otherwise agreed DEFECT REPOHT Any defect reports regarding delivered products whether apparent or latent shall be submitted to Elcontrol in writing The purchaser can in no way return the products withou
64. lues be reset as described in Sect 4 2 3 2 9 0 Tk U related to the auxiliary channel 663 var 5 1 005 vr pF 0 969 roms 393 9 3 4 Counters Menu iph ENEACY COUNTERS 196 56 uin 20 1 428 13 Counters of absorbed P Q and generated P Q power and average value of the PF 52 51 calculated as KWh kVAh ratio pr 0 458 Band Count H LHLP 00 00 Tz 00 00 00 00 00 00 The first page displays the kWh absorbed during the various time bands 451 4 This page displays the absorbed and or generated power and the related costs for the time bands selected in the Setup Menu Sect 4 2 9 Hand Count 0 Hvarh TI 00 00 T 01 36 19 ls 00 00 ec es e The kVArh absorbed during the various time bands 50 energy Man NVIP3 Rel 1 3 EN UK Band Count 00 00 Tz 00 61 T3 00 84 00 00 539 1 kWh generated during the various time bands Hand Count 00 00 Te 00 00 20 00 The kVArh generated during the various time bands 00 00 TENEBRIS 0 00 0 00 The cost of the kWh absorbed during the various tariff bands expressed the currency T3 0 00 selected in the Setup Menu Sect 4 2 9 1 17 0 00 Orms 4110 Tariff Band Costs F TI 0 00 0 01 13 0 01 15 0 00 Orms 410 5 Th
65. me i e the time at which the average values and maximum demand are calculated H vq HESBL Reset the average values and maximum demand HESBL Reset the minimum peaks and maximum instant values 4 2 3 1 Integration Time Setup To set the integration time place the cursor on INTEGR TIME and select the desired time which is expressed in minutes default value 15 min 4 2 3 2 Reset of Average Values amp Maximum Demand To reset the average values and maximum demand place the cursor on AVG RESET and select YES 20 energy nef Man NVIP3 Rel 1 3 EN UK 4 2 3 3 Reset of Minimum amp Maximum Values To reset the minimum and maximum instant values place the cursor on RESET MIN MAX and select YES 4 2 4 Counters Reset nunEBrs SBE up L puntera 5 No To reset the counters of both absorbed and generated power place the cursor on COUNTERS RESET and select YES N B To reset the tariff counters see Sect 4 2 9 1 4 2 5 Language Setup Language 2 L an g English Select one of the following languages ENGLISH ITALIANO ESPANOL FRANCAIS DEUTSCH 4 2 6 LCD Setup L L 1 P The LCD SETUP page allows the user to set HarHLighrE LYS The backlight of the display Sect 4 2 6 1 Rotation D LCD orientation Sect 4 2 6 2 LCD contrast level Sect 4 2 6 3 HriglEngss 00 The displ
66. ntinuous voltage with an accuracy of 0 25 SF err v 5 current inputs independent 1 for neutral current 1 auxiliary able to measure continuous voltage with an accuracy of 0 25 SF err v Equipped with flexible current clamps up to 3000A Traditional full scale sensors which can be set by the user may also be used v High performance battery pack with more than 24 hours of battery life so that extended measurement campaigns can also be performed without using main power supply v Powerful but compact external power supply compatible with all types of sockets USA JP EU UK AU v Membrane keypad with 10 double function keys for easier scrolling of menus and access to different functions v Calculation engine based on 16 bit microprocessor allowing for the measurement of all standard quantities PF THD etc in true root mean square TRMS value as well as e Measurement of minimum average and maximum instant values on 4 quadrants absorbed generated e Absorbed and produced power counters kWh kVA kVAr which can be password protected e Power quality analysis by measuring current and voltage harmonics all 7 input channels up to the 50th order Network interruptions amp micro interruptions Dips brownouts Swells overvoltages 50160 test reference standard for power quality Event log last 5 alarms 5 dips 5 swells 5 interruptions Power measurement during 4 time perio
67. o off Return to the Alarm Setup amp Reset page L T VT TET NOTE IB if one of the alarms set goes off it will be indicated the bottom bar of the LC uu measurement pages where the alarm will be displayed permanently scrolling C through measurements as described in Sect 4 2 8 will stop until it is cleared 2 Alm vrms JF23lH8 The last 5 alarms which have gone off are stored and can be displayed in the relevant menu Sect 5 2 8 25 energy Man NVIP3 Rel 1 3 EN UK The NanoVIP keypad allows the user to access all the menus of the instrument directly thanks to its practical function keys Press the desired key to access the relevant menu Use the arrow keys to scroll through the different pages of a menu NanoVIP features the following Measurement Menus 1 VOLTAGES Menu V press key once to access menu 2 CURRENTS Menu I press key once to access menu 3 POWER Menu P press key once to access menu 4 COUNTERS Menu press and hold key down for 3 to access menu 5 HARMONICS Menu l press and hold key down for 3 to access menu 6 WAVEFORMS Menu V press and hold key down for 3 to access menu 7 AUX CHANNEL Menu press key once to access menu 8 SNAPSHOT Function press key once to access menu 9 EN 50160 Menu 50160 press and hold key down for 3
68. occurred during the period monitored These pages display the last 5 interruptions recorded if any occurred NOTE according to Standard EN50160 an interruption is defined as the simultaneous drop of all phase voltages below 5 of nominal V See Setup Sect 4 2 10 However a different threshold may be set by the user The Start Date and Time and Duration of each interruption are displayed When scrolling through the EN50160 Menu the page of the most recent interruption is displayed automatically To view any previous interruptions scroll through the relevant pages using the lt and gt keys These pages display the last 5 dips recorded if any occurred NOTE according to Standard EN50160 a dip is defined as a drop of one or more phase voltages below 90 of nominal V See Setup Sect 4 2 10 However a different threshold may be set by the user The Start Date and Time Affected Phase s and Duration of each dip are displayed When scrolling through the EN50160 Menu the page of the most recent dip is displayed automatically To view any previous dips scroll through the relevant pages using the gt keys Ficontrol energy net 2429 Man Rel 1 3 EN UK These pages display the last 5 swells recorded if any occurred NOTE according to Standard 50160 a swell is defined as an increase of or more sure phase voltages above 110 of nominal V See Setup Sect 4 2
69. on L1 value displayed on instrument Reactive power calculated on L1 Reactive power calculated on L2 Reactive power calculated on L2 Reactive power calculated on L3 Reactive power calculated on L3 Power factor L1 Power factor L1 Power factor L2 Power factor L2 Power factor L3 Power factor L3 60 0073 0074 0075 0076 0077 0078 0079 0080 0081 0082 0083 0084 0085 0086 0087 0088 0089 0090 0091 0092 0093 0094 0095 0096 0097 0098 0099 0100 0101 0102 0103 0104 0105 0106 0107 0108 0109 0110 0111 0112 0113 0114 0115 0116 0117 0197 0198 0199 0200 0201 0202 0203 0204 0205 0206 0207 0208 0209 0210 0211 0212 A avg L1 A avg L1 A avg L2 A avg L2 A avg L3 A avg L3 Amax L1 Amax L1 Amax L2 Amax L2 Amax L3 Amax L3 kVAr avg kVAr avg kVAr max kVAr max kWh cog kWh cog kWh cog kVArh cog kVArh cog kVArh cog kVAh kVAh kVAh kWh T1 kWh T1 kWh T1 kWh T2 kWh T2 kWh T2 kWh T3 kWh T3 kWh T3 kWh T4 kWh T4 kWh T4 2 Inp2 Inp2 THD Vtot THD Vtot THD Itot THD Itot THD V1 THD V1 THD V2 THD V2 THD V3 THD V3 THD A196 THD A1 THD A2 THD A2 THD A3 THD A3 Voltage Harmonics 01 Fundamental 0213 0214 0215 0216 0217 0218 V1 hol V1 hol V2 01 V2 01 V3 01 V3 01 2 Harmonic 2 0219 0220 V1 h02 V1 h02 Harmonic No 1 volt
70. onnections LANGUAGE SETUP 52e up eae nglish i TARIFFS SETUP 4 2 9 Tariff e Tariff 3 Tariff 4 Aeset 3 months Tariff 1 Set up Tariff Sek up lari 3 Set up Tariff 4 5e up Start time 45 Endtime 3 15 MIL Days huwh Cost 0 10 kuh Cost 0 01 Erik Monday Nps Tuesday Wednesday Yes Thursday Yes Friday saturday Sunday Emil TARIFF DAYS SETUP 4 2 9 1 1 Connections Set Up Crid Type IPH N UT RC 230 230 UT AC 230 230 Ceneration On Gero Adi Start Connections Check gt Connections Serup Crid Type UT RC 230 230 UT Ru amp AC 230 230 Ceneration On SE Connections Check AMPEROMETRIC SENSORS SETUP 4 2 2 l 13 Clamp GER H0 l In Clamp Flex 4 In Aakio d CT IRux Ratio v v LCD SETUP 4 2 6 Set up BacHhL ight fT 5 v v Aokation 0 Contrast lt Brightness 100 lt Menu type Total EN50160 SETUP 4 2 10 FITSUIBU Set up Interruptions 10 0 Dips 200 Swells de y Nom lt F 50 0 lt RESE TARIFF SETUP 4 2 9 1 To exit the SETUP Menu press i for approx 3 seconds on any page voltage SEQUENCE LI Le L3 Check CPF 2 I
71. ounter tariff T3 Three phase active power counter tariff T3 Three phase active power counter tariff T3 Three phase active power counter tariff T4 Three phase active power counter tariff T4 Three phase active power counter tariff T4 Digital input counter 1 Digital input counter 1 Digital input counter 1 Digital input counter 2 Digital input counter 2 Digital input counter 2 Total Harmonic Distortion Vtot Total Harmonic Distortion Vtot Total Harmonic Distortion Itot Total Harmonic Distortion Itot Total Harmonic Distortion V1 Total Harmonic Distortion V1 Total Harmonic Distortion V2 Total Harmonic Distortion V2 Total Harmonic Distortion V3 Total Harmonic Distortion V3 Total Harmonic Distortion A1 Total Harmonic Distortion A1 Total Harmonic Distortion A2 Total Harmonic Distortion A2 Total Harmonic Distortion A3 Total Harmonic Distortion A3 0221 V2 h02 Harmonic No 2 voltage L2 0222 V2 h02 Harmonic No 2 voltage L2 0223 V3 h02 Harmonic No 2 voltage L3 0224 V3 h02 Harmonic No 2 voltage L3 Consecutive addresses up to the 25th harmonic H25 Harmonic 25 0357 V1h25 Harmonic No 25 voltage L1 0358 V1h25 Harmonic No 25 voltage L1 0359 V2h25 Harmonic No 25 voltage L2 0360 V2h25 Harmonic No 25 voltage L2 0361 V3h25 Harmonic No 25 voltage L3 0362 V3h25 Harmonic No 25 voltage L3 Current Harmonics 01 Fundamental 0375 A1 h01 Harmonic No 1 current L1 0376 1 h01 Harmonic
72. ower counter tariff T2 Three phase active power counter tariff T3 Three phase active power counter tariff T3 Three phase active power counter tariff T3 Three phase active power counter tariff T4 Three phase active power counter tariff T4 Three phase active power counter tariff T4 Three phase reactive power counter tariff T1 Three phase reactive power counter tariff T1 Three phase reactive power counter tariff T1 Three phase reactive power counter tariff T2 Three phase reactive power counter tariff T2 Three phase reactive power counter tariff T2 Three phase reactive power counter tariff T3 Three phase reactive power counter tariff T3 Three phase reactive power counter tariff T3 Three phase reactive power counter tariff T4 Three phase reactive power counter tariff T4 Three phase reactive power counter tariff T4 Three phase counter of generated active power tariff T1 Three phase counter of generated active power tariff T1 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 Voltage Harmonics kWh T1 kWh T2 kWh T2 kWh T2 kWh T3 kWh T3 kWh T3 kWh T4 kWh T4 kWh T4 kVarh T1 kVarh T1 kVarh T1 kVarh T2 kVarh T2 kVarh T2 kVarh T3 kVarh T3 kVarh T3 kVarh T4 kVarh T4 kVarh T
73. pe of connection that has been set in the Setup Menu 5 2 1 Voltages Menu If the 3PH N 3PH N BL or 2PH connection is set unbalanced balanced three phase with neutral connection or two phase connection See Sect 4 2 1 1 the first page will display ig za the phase neutral voltages the relevant phase currents and the three phase or two 5 phase voltage NOTE if another type of electrical connections without neutral is set this page will not be THREE 392 2 displayed When scrolling through the pages of this menu as described in Sect 5 1 the following pages will be displayed rm Lie 39 16 6 Pek Line voltages and relevant phase currents 395 0 lars dd Frequency measured on L1 and unbalance Freg He 11 NOTE in a three phase system the unbalance value is a parameter indicating a condition in which the effective values of phase voltages or the phase angles between consecutive phases differ This parameter is one of the values which serve as an indication of power 10 quality The lower the percentage value the better the power quality Rita oh RSEN u COD NN 2259 Average voltage levels calculated on the basis of the integration time which has been set Values can be reset as described in Sect 4 2 3 oF Li 0 65 Min olkage L f EV CC b
74. phase counter of generated reactive power tariff T2 Three phase counter of generated reactive power tariff T3 Three phase counter of generated reactive power tariff T3 Three phase counter of generated reactive power tariff T3 Three phase counter of generated reactive power tariff T4 Three phase counter of generated reactive power tariff T4 Three phase counter of generated reactive power tariff T4 Digital input counter 1 Digital input counter 1 Digital input counter 1 Digital input counter 2 Digital input counter 2 Digital input counter 2 Total Harmonic Distortion Vtot Total Harmonic Distortion Vtot Total Harmonic Distortion Itot Total Harmonic Distortion Itot Harmonic distortion V1 Harmonic distortion V1 Harmonic distortion V2 Harmonic distortion V2 Harmonic distortion V3 Harmonic distortion V3 Harmonic distortion T1 Harmonic distortion T1 Harmonic distortion I2 Harmonic distortion I2 Harmonic distortion I3 Harmonic distortion I3 Harmonic No 1 voltage L1 Harmonic No 1 voltage L1 Harmonic No 1 voltage L2 Harmonic No 1 voltage L2 Harmonic No 1 voltage L3 Harmonic No 1 voltage L3 Harmonic No 2 voltage L1 Harmonic No 2 voltage L1 Harmonic No 2 voltage L2 Harmonic No 2 voltage L2 Harmonic No 2 voltage L3 Harmonic No 2 voltage L3 Harmonic No 31 voltage L1 Harmonic No 31 voltage L1 Harmonic No 31 voltage L2 Harmonic No 31 voltage L2 Harmonic No 31 voltage L3 Harmonic No 31 voltage L3 66
75. ration Duration 7 min 100 h e 7 min 100 h e 7 min 100 min 100 he 7 min rms 434 8 rms 434 8 Vrms 3F 334 8 agas Vrms JF 334 8 Ge InpuES and vpl vpz yp3 e30 LE gt 0 00 Trigger Single SEarE In ush Current and 112 13 0 00 Duration Sec Esik 3 RuEn Skark 079 4 88 Manual Stark Store Aepeak MEASUREMENT CAMPAIGNS Sect 5 2 11 rm ee 1 6 16 4 ie Recordings L3 ES 30 2 m SG JPH Jee rms 392 0 Cadenea Sec Manual Skark Timed Erik Start Time LI ee l b LE 01 2012 13 51 ea u50 Contents End Time LJ PES 230 2 24 01 2012 13 51 390 0 Skark Erik RITIS DOLI dat Meas A 2 OFFICEOO N TAAN O00 5 TRAN_OOI mun Mas B TRI DD ILB 152 24 1202 19 5 Esik 24 01712 20E 29 Man NVIP3 Rel 1 3 EN UK Flowchart of MEASUREMENT MENUS in SINGLE PHASE connection VEv FIhel 3 229 23 4 cch d 08 0 000 000 oms 3F 334 1 I 1 58 gt Mas 584 1 EEE Avg 18 20 ceh Min 0000 0 00 Ehdv Le 1 291 rose 3 10 0 990 ar Li 1 196 56 uin
76. re are three types of recordings __ Manual or scheduled measurement campaigns Sect 5 2 11 1 e Fast transients Sect 5 2 10 1 Inrush currents Sect 5 2 10 2 4 TAAN_OOO Measurement campaigns are identified by the name assigned to them 3 BI whereas transients and inrush currents are identified by the abbreviations B Hle TRANS transients and INRU inrush respectively which are numbered AENEIS To scroll through the various recordings use the A keys energy Man NVIP3 Rel 1 3 EN UK ohase Connection Menu As already mentioned if the single phase connection is set the instrument will automatically change the structure of the menus eliminating the non applicable items for this type of electrical connection and grouping information in fewer pages V 5 3 1 Voltages Menu 1ph Wows Fhe ICA Ams IEE Mas 223 1 584 Avg cco Min 0 000 0 00 4991 the average value can be reset as described in Sect 4 3 3 uma 394 1 frequency and the relevant currents Press to access the page containing the information regarding auxiliary channel voltage In the AUX Menu the user can also access the other Auxiliary Channel Menus Currents Power Counters Harmonics Waveforms by selecting them with the relevant function keys Press
77. ree phase reactive power Three phase apparent power Three phase apparent power Three phase power factor Three phase power factor Average active power average calculated according to integration time set see 4 2 2 Average active power Average apparent power Average apparent power Load peak of active power maximum value of average active power Load peak of active power Load peak of apparent power maximum value of average apparent power Load peak of apparent power Three phase active power counter BCD integers Three phase active power counter BCD integers Three phase active power counter Binary coded decimals Three phase reactive power counter Three phase reactive power counter Three phase reactive power counter Serial number Serial number Voltage L1 Voltage L1 Voltage L2 Voltage L2 Voltage L3 Voltage L3 Current L1 Current L1 Current L2 Current L2 Current L3 Current L3 Active power L1 Active power L1 Active power L2 Active power L2 Active power L3 Active power L3 Frequency measured on L1 Frequency measured on L1 Reactive power measured on L1 used by instrument for internal calculations Reactive power measured on L1 Reactive power measured on L2 Reactive power measured on L2 Reactive power measured on L3 Reactive power measured on L3 Apparent power L1 Apparent power L1 Apparent power L2 Apparent power L2 Apparent power L3 Apparent power L3 Reactive power calculated
78. rement Regi Elcontrol standard MODBUS registers 0001 0002 0003 0004 0005 0006 0007 0008 0009 0010 0011 0012 0013 0014 0015 0016 0017 0018 0019 0020 0021 0022 0023 0024 0025 0026 0027 0028 0029 0030 0031 0032 0033 0034 0035 0036 0037 0038 0039 0040 0041 0042 0043 0044 0045 0046 0047 0048 0049 0050 0051 0052 0053 0054 0055 0056 0057 0058 0059 0060 0061 0062 0063 0064 0065 0066 0067 0068 0069 0070 0071 0072 V 3ph V 3 ph A 3 ph A 3 ph kW 3 ph kW 3 ph kVAr 3 ph kVAr 3 ph kVA 3 ph kVA 3 ph PF 3 ph PF 3 ph kW avg 3 ph kW avg 3 ph kVA avg 3 ph kVA avg 3 ph kW max 3 ph kW max 3 ph kVA max 3 ph kVA max 3 ph kWh 3 ph kWh 3 ph kWh 3 ph kVArh 3 ph kVArh 3 ph kVArh 3 ph S N S N V L1 V L1 V L2 V L2 V L3 V L3 A L1 A L1 A L2 A L2 A L3 A L3 kW L1 kW L1 kW L2 kW L2 kW L3 kW L3 Hz Hz kVAr L1 kVAr L1 kVAr L2 kVAr L2 kVAr L3 kVAr L3 kVA L1 kVA L1 kVA L2 kVA L2 kVA L3 kVA L3 kVAr L1 kVAr L1 kVAr L2 kVAr L2 kVAr L3 kVAr L3 PF L1 PF L1 PF L2 PF L2 PF L3 PF L3 Three phase voltage BCD mantissa Three phase voltage exponent in binary format Three phase current Three phase current Three phase active power Three phase active power Three phase reactive power Th
79. ressing and holding down the or keys will accelerate scrolling so that the desired value can be reached faster and easier NOTE Each key is made of a special metal dome The click which can be heard when pressing a key confirms contact This technology is more reliable than the classic membrane with embossed keys However avoid pressing the keypad too hard as this may cause damage or the keypad to malfunction The use of the keypad can easily be learnt through the Setup Diagrams Sect 4 2 and Measurement Diagrams Sect 5 1 The table below provides a general description of the keys 16 Man NVIP3 Rel 1 3 EN UK FUNCTION Press Once Press and Hold for 3 seconds Switch the instrument ON and OFF Access to VOLTAGES Menu Access to COUNTERS Menu Access to CURRENTS Menu Access to HARMONICS THD Cos Menu Access to POWER Menu Access to WAVEFORMS Menu Snapshot Function Takes a snapshot of the oye Tee S s gms 39 Iz nl sion 107 107 6 127712278 87211076 8 Access MEASUREMENT CAMPAIGN Menu of time Access to AUX channel After pressing scrolls through the harmonics trends dips interruptions and alarms menus Access to PHOTOVOLTAIC if enabled Scrolls down the pages of a measurement menu Moves cursor down in the setup pages Access to TRANSIENTS Menu Decreases the selected value in the setup pages Exits AUX channel After pressing
80. ribed in Sect 4 2 3 sa 19 5x va e 0 9959 ed mo 000 Dac B H Minimum instant values of total power and PF values be reset as described Sect 72 0000 Mas W var vA PF ma 168 luu mE a a Maximum instant values of total power and PF values can be reset as described in Sect DEDE 58 56 var gt e 1000 pr Li 19 9 ma 5 p oe Load peaks and relevant PF i e the highest average power calculated on the basis of the integration time set Values can be reset as described in Sect 4 2 3 2 9 e 0 904 On any of the Power Menu pages press to access a series of pages containing P Q 5 PF AUR all the information regarding auxiliary channel power The first page displays active reactive and apparent power as well as the Use A arrows to 9 H var scroll through the pages See below In the AUX Menu the user can also access 3904 the other Auxiliary Channel Menus Voltages Currents Counters Harmonics 1 H VA Waveforms by selecting them with the relevant function keys 0 990 inc Press lt to exit the Auxiliary Menu and return to the first page of the relevant pF LI 0 81 menu 35 energy Man NVIP3 Rel 1 3 EN UK Avg H D 5 BF 565 Average power and
81. rrently displayed By doing so the measurements will remain frozen on screen until the same key is pressed again After blocking the measurements all other menus can be scrolled through to check the status of the other parameters captured at the same time The word STOP appears on the bottom bar to indicate that measurements have been blocked NOTE blocking not only interrupts what appears on the display but also the entire measurement process This means that the data during the block will not be recorded x3 5 2 8 50160 Menu This menu allows the user to monitor certain main power quality parameters Test Fred Pass Test Y Test Thay Fail Test Unbalance Bass Sw ells 283 Int Dips 31 In errupkions Interruption 10 5 Beginning an 27 01 2005 00 49 38 Duration O min e 9 sec Irrms LI 0 02 10 5 Beginning an 15 09 2009 10 28 18 v Min 133 v Min 218 v Min 218 Duration 8 7 sec Irrms LI 0 02 11 L2 L3 The first page displays the outcome of the EN50160 compliance test Reference Standard for power quality according to the parameters selected in the Setup Menu Sect 4 2 10 A test is performed to check whether frequency voltage harmonic voltage distortion and unbalance comply with the above mentioned reference Standard and the nominal values which have been set A table also shows the number of interruptions dips and swells which have
82. rtivg var LI asp Le 5c5 0 96 Lj CJ Ibi 0 93 Ehdv Le 1 640 Apparent WA LI J 180 iag Le 5 100 0 96 E 6 80 The first page of this menu displays the active power W each phase and the three phase or two phase connection and the corresponding PF values NOTE as a norm active power is shown as a negative when generated and a positive when absorbed When scrolling through the pages of this menu as described in Sect 5 1 the following pages will be displayed Reactive power Var in each phase and in the three phase or two phase connection and the corresponding PF values NOTE as a norm reactive power is shown as a negative when capacitive and a positive when inductive Apparent power VA in each phase and in the three phase or two phase connection and the corresponding PF values FIcontrol 24 energy net Man NVIP3 Rel 1 3 EN UK _ 0 911 d PF values in each phase and in the three phase or two phase connection and the relevant 0 368 type Ind Inductive load Cap Capacitive load EIEI NOTE the PF is always positive As a norm it is shown as a negative when active power is 77 generated and a positive when absorbed 16 5 5 6 Average total power and PF calculated the basis of the integration time set Values be reset as desc
83. rument without the necessary know how may pose a safety risk Therefore no unauthorised personnel or laboratories should carry out repair maintenance or calibration operations The warranty shall no longer be valid if the instrument is tampered with by third parties 6 3 Troubleshooting e Instrument will not switch on The battery has run out Connect instrument to power supply e Instrument does not perform correct measurements Make sure the current and voltage ratios match the current clamps and VTs connected to the system Sect 4 2 1 and 4 2 2 Make sure the current clamps are not connected inversely Sect 4 2 1 6 Make sure the phase sequence is correct Sect 4 2 1 6 e The display is blurry Check the brightness and contrast levels of the LCD Sect 4 2 6 3 e The display dims after a few seconds Check the screensaving settings Sect 4 2 6 1 e display stays on permanently even though it has been set up differently Check if a video alarm is present Sect 4 2 12 e Certain pages or entire menus are not displayed Make sure the menu type is set on Full and not Partial Sect 4 2 6 4 Make sure the connection type set is correct Sect 4 2 1 1 e A significant number of alarms have gone off Make sure a suitable alarm hysteresis has been set Sect 4 2 12 1 54 Man NVIP3 Rel 1 3 EN UK 7 NANOSTUDIO SOFTWARE M Software is a simple and practical tool for analysing the
84. t occurred at the same time as the one being displayed all the channels on which a transient has occurred are listed in the heading of the page use the A and keys To exit and return to the Transients Menu Sect 5 2 10 press Exit 5 2 10 2 Inrush Current Setup On any of the Transients Menu pages Sect 5 2 10 select Inrush Current to access the configuration page for analysing said phenomenon Inr usn rene The following parameters can be set INOUE 5 JAH and Channels to be measured Sect 5 2 10 2 1 11213 0 00 The current RMS threshold Sect 5 2 10 2 2 Duration Sec The duration of the analysis Sect 5 2 10 2 3 Emit Stare Automatic start Sect 5 2 10 2 4 Manual SEgBF Manual start Sect 5 2 10 2 5 5 2 10 2 1 Input Selection The two options available are Three phase and neutral inputs 3PH and N or Auxiliary input NOTE this field does not indicate the electrical connection therefore the channels will always be identified as 3PH and N even if a single phase two phase or three phase without neutral connection is being used 5 2 10 2 2 Current Threshold This value indicates the current threshold expressed in RMS amperes over which the instrument will identify current as inrush current A threshold slightly higher than the nominal I of the connected instrument should be set As NanoVIP cannot know the value of the inrush current to be measured it will
85. t the prior consent of Elcontrol or following the decision of the judicial authorities Products must be returned within ten 10 days of the consent of Elcontrol or the judicial authorities In the event of a report regardless of the object and reason therefore the purchaser shall pay the full amount indicated on the invoice If the delivered products have been modified altered or used by the purchaser no report shall be accepted or deemed valid Discrepancies which are deemed customary in trade as well as discrepancies which cannot be technically avoided especially those concerning quality colours manufacturing processes drawings and similar aspects cannot be the object of a claim Elcontrol reserves the right to make any changes to its products without altering their quality or performance Such changes cannot be the object of a claim Whenever Elcontrol receives a claim regarding the condition of a product quality defects or non compliance with technical specifications Elcontrol shall have the right in its sole discretion to replace the products without any charge repair the products or issue a credit note Any kind of damage is excluded In case of interventions under the warranty period all shipping costs for repairing and or replacing the faulty products shall be borne by the purchaser LIMITATION OF LIABILITY Except for the warranty Elcontrol shall in no way be liable for any direct or indirect damage incurred by the p
86. tery level E uSD Rec 3PH N 4 Type of electrical connection 2 MicroSD card 1 Indicates battery life 2 Indicates whether or not a memory card has been inserted 3 Indicates whether or not a measurement campaign is being performed or is scheduled according to the methods described in Sect 5 2 10 4 Indicates the type of electrical connection selected Sect 4 2 1 1 3 Measurement In addition to the above information the bottom bar will alternate between 3 parameters of the user s choice Sect 4 2 8 4 1 2 Keypad The NanoVIP keypad is equipped with 9 double function keys i e the function of each key varies depending on whether it is pressed once or pressed and held for approximately 3 seconds Specifically the functions represented by the icons on the black background V I amp v gt 4 are activated by pressing the relevant key whereas the functions represented by the icons on the white background u 50160 Ox are activated by pressing and holding down the relevant key Therefore the instrument has 12 function keys a joystick with the Enter function and arrow keys and a key to access the Setup Menu directly which allow for a more immediate and effective use of the instrument The Power O key must also be pressed for approximately 3 seconds to be activated Moreover when an alphanumerical value in a field in the Setup Menu must be changed Sect 4 2 p
87. the instrument to the electrical system as well as before handling maintaining or repairing the instrument the instrument and the electrical cabinet to which it is connected must be disconnected from any voltage source Before turning on the instrument make sure the maximum voltage at the voltmeter inputs is 1000VAC phase phase or 600VAC phase neutral If the instrument can no longer be operated safely it must be discarded and measures must be taken to prevent accidental use Safe operation is no longer possible in the following cases if damage to instrument is clearly visible if instrument is no longer working after being stored for an extended period under unfavourable conditions if instrument is badly damaged during transportation The symbol shown here on the right when found on the product or elsewhere means that the user manual must be consulted 2 2 EC RoHS amp WEEE Declaration of Conformi Manufacturer ELCONTROL ENERGY NET S r l Via Vizzano 44 40044 Sasso Marconi BO Italy Product NanoVIP NanoVIP Power Analyser Directives complied with 93 68 EEC Low Voltage Electrical Equipment 89 336 EEC and 2004 108 EC EMC C 4 Electromagnetic Compatibility 2006 95 EC 72 23 EEC LVD Low Voltage Directive 2002 95 EC RoHS 2002 96 EC and 2003 108 EC WEEE Year of mark affixing 2012 Certificate 12CDC27 by Lem S r l Notified Body Reference standards applied for EC compliance
88. tion Time Setup 4 2 3 2 Reset of Average Values amp Maximum Demand 4 2 3 3 Reset of Minimum amp Maximum Values 4 2 4 Counters Reset 4 2 5 Language Setup 4 2 6 LCD Setup 4 2 6 1 Display Backlight Setup 4 2 6 2 Display Orientation Setup 4 2 6 3 Display Contrast amp Brightness Setup 4 2 6 4 Menu Type Setup 4 2 7 Clock Setup 4 2 8 Bottom Bar Setup 4 2 9 Tariff Setup 4 2 9 1 Configuration amp Resetting of Tariff 4 2 9 1 1 Selection of Days 4 2 10 EN 50160 Setup amp Reset 4 2 11 Serial Communication Setup 4 2 11 1 Serial Communication Test 4 2 12 Alarm Setup amp Reset 4 2 12 1 Alarm Configuration Instrument Use amp Consultation 5 1 Scrolling through Measurement Menus 5 2 Three phase or Two phase Connection Menus 5 2 1 Voltages Menu 5 2 2 Currents Menu 5 2 3 Power Menu 5 2 4 Counters Menu 5 2 5 Harmonics Menu 5 2 5 4 Consulting Harmonic Histograms 5 2 6 Waveforms Menu Rel 1 3 EN UK Page Man NVIP3 5 2 7 Snapshot Function 5 2 8 EN 50160 Menu 5 2 9 Alarm Menu 5 2 10 Transient Menu 5 2 10 1 Transient Setup 5 2 10 1 1 Input Selection 5 2 10 1 2 Voltage Threshold 5 2 10 1 3 Current Threshold 5 2 10 1 4 In Threshold 5 2 10 1 5 Transient Detecting Mode 5 2 10 2 Inrush Current Setup 5 2 10 2 1 Input Selection 5 2 10 2 2 Current Threshold 5 2 10 2 3 Analysis Duration 5 2 10 2 4 Automatic Start 5 2 10 2 5 Manual Start 5 2 10 3 Inrush Current Display 5 2 11 Measurement Campaigns Menu 5 2 1
89. tup NanoVIP can also be configured to measure the power and energy that might be generated To do so place the cursor on GENERATION and select ON By selecting OFF the instrument will stop measuring the power generated which will be considered absorbed ower NOTE when changing from Generation ON to Generation OFF the counters of generated power are not reset After disconnecting the voltage and current input channels from the measuring grid place the cursor on START and press to correct the offset in case the latter has deviated A page with numerical values will be displayed for the duration of the zero adjustment procedure 10 207 When the procedure is complete the system will automatically return to the CONNECTIONS SETUP page 4 2 1 6 Connection Check Once the instrument has been configured and connected to the system the instrument can check if the connection to the electrical system has been performed correctly to perform this check the PF value must comply with the value indicated on the screen Place the cursor on Connection Check and press to perform the check The related outcome will then be displayed 19 Man NVIP3 Rel 1 3 EN UK LunngrEinns LAECH voltage SEQUENCE LI A E 1 Voltage phase sequence LPF STILE 1 Threshold of the measured PF which allows for a correct analysis if the PF is lower than the value indicated the check cannot
90. urchaser such as but not limited to material damage damage for loss in profit and loss damage to purchaser s documents archives or data damage for third party claims and damage claimed by any party whatsoever resulting from applications obtained by the purchaser for himself or third parties with the help or the use of products purchased from Elcontrol FINAL PROVISIONS The warranty conditions described herein supersede and void any other obligations and warranties which the parties may have agreed upon both orally and in writing before the purchase of NanoVIP Therefore any such obligations or warranties shall be deemed void and invalid Man NVIP3 Rel 1 3 EN UK 3 DESCRIPTION amp CONNECTION TO THE ELECTRICAL SYSTEM NanoVIP is designed to carry out both real time measurements and extended measurement campaigns It is equipped with shockproof anti slip rubber details which make it easy to hold with one or both hands and a support which allows the user to place the instrument on a level surface NanoVIP has to be connected to the electrical system by means of special voltage and current inputs The figure below shows the 3 voltage channels U1 and g j with common neutral N and the 4 independent current channels I1 I2 13 In pg J The initials below the inputs help the user identify them CURRENT INPUTS VOLTAGE INPUTS 600V CAT
91. wer counter L1 Three phase reactive power counter L1 Three phase reactive power counter L2 Three phase reactive power counter L2 Three phase reactive power counter L2 Three phase reactive power counter L3 Three phase reactive power counter L3 Three phase reactive power counter L3 Counter of generated active power L1 Counter of generated active power L1 Counter of generated active power L1 Counter of generated active power L2 Counter of generated active power L2 Counter of generated active power L2 Counter of generated active power L3 Counter of generated active power L3 Counter of generated active power L3 Counter of generated reactive power L1 lagging Counter of generated reactive power L1 Counter of generated reactive power L1 Counter of generated reactive power L2 Counter of generated reactive power L2 Counter of generated reactive power L2 Counter of generated reactive power L3 Counter of generated reactive power L3 Counter of generated reactive power L3 Apparent power counter L1 Apparent power counter L1 Apparent power counter L1 Apparent power counter L2 Apparent power counter L2 Apparent power counter L2 Apparent power counter L3 Apparent power counter L3 Apparent power counter L3 Three phase active power counter tariff T1 Three phase active power counter tariff T1 Three phase active power counter tariff T1 Three phase active power counter tariff T2 Three phase active power counter tariff T2 Three phase active p
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