POWER NETWORK ANALYSER USER`S MANUAL
Contents
1. Table 12 Register Description Default value 4096 Device address for Modbus TCP IP protocol 1 4097 Modbus TCP port number 502 4095 Port closing time of Modbus TCP IP service s 60 4094 The maximum simultaneous connections 4 to Modbus TCP IP service The device address is the address of the device for Modbus TCP IP protocol and is not a value equal to a address value for Modbus RS485 protocol Modbus network address register 4059 When deleting the parameter Device address for Modbus TCP IP protocol of the meter to the value 255 the meter will skip the address analysis in the frame of Modbus protocol broadcast mode 8 4 Map of N100 meter registers In the N100 meter data are placed in 16 and 32 bit registers Process variables and meter parameters are placed in the address area of registers in a way depended on the variable value type Bits in 16 bit register are numbered from the youngest to the oldest b0 b15 The 32 bit registers contain numbers of float type in IEEE 754 standard 3210 byte order the oldest is sent first 63 Table 13 Address Value Opis range type 4000 4129 Integer Value set in the 16 bit register Registers 16 bits for meter configuration Description of registers is shown in Table 12 Registers for writing and readout 4300 4385 Integer Value set in the 16 bit register Registers 16 bits for displayed pages configuration Description of register2. II 1 0 17 07 Y LTL Fig 8 The message after entering SETUP procedure To enter SETUP procedure press the button for about 3 seconds Use the buttons V to select an appropriate mode Active mode Par oUt Aln AnOn PAG Eth or Arch is indicated by blinking of the appropriate symbol Accept a selected mode by pressing the button lt 4 Use the button to return to a measurement mode from other modes 25 SEc con ceEU1 EVA cEU3 eat tel tru d t ies Type Reversed Reversed Reversed Input Current Voltage Averaging of the direction direction direction current ratio ratio code e Demand Iconnections ofthe ofthe ofthe range integration PRe system current current current time in phase L1 in phase L2 in phase L3 Meter parameters Stan EnG Aud dEF Averaging Energy Erasing Default synchroni counters averaged settings zed with erasing parameters the real time clock 1 n noUt Adr trb bRU Po c Pi c t H di 4994 dEF RS485 parameters MODBUS Transmission Baud rate Constant Constant Hour Day Year Default output and network mode of pulse of external minute month settings binary input address output energy parameters counter AL I Al n R t Rof Ron Rta REF Ab A S dEF g Value on Alarm Alarm o Alarm Time delay Time delay Alarm Alarm Default 813 t
3. eese 42 6 5 7 Ethernet settings configuration Ethr 45 7 MEASURING VALUES ARCHIVING 7 1 INTERNAL MEMORY cicatrices 7 2 COPYING ARCHIVE TO SD CARD eene 48 7 3 ARCHIVE FILES STRUCTURE ese ee see ee ee ee ee ee ee ee 49 7 4 DOWNLOADING ARCHIVE FROM SD CARD 50 8 SERIAL INTERFACES siciccssssecncsecccssccsccecsecsassee sonastetsczsansaescsancatvers 51 8 1 RS485 INTERFACE list of parameters 51 8 2 Examples of registers readout and write 51 8 3 Ethernet interface 10 100 BASE T eene 56 8 3 1 Connecting 10 100 BASE T interface 56 BERE 58 8 3 3 FTP Server m mmsrrrsvrrrsversnenvvensvennnvnnnvnnnvvennnvnnsvensvennvnensnvnnneene 61 8 3 4 Modbus TCP IP wees 63 8 4 Map of N100 meter registers 9 SOFTWARE UPGRADE enses 90 10 ERROR CODES sese eene enne nnne nnne 92 11 TECHNICAL DATA see ee Ee Ee Ee EE Ee Ee Ee Ee nnne nennen 93 12 ORDERING CODE ee see ee ERA EE EA Ee ERA Ee Re Ee Re nnn 99 1 APPLICATION The N100 meter is a programmable digital instrument designed for the measurement of 3 phase 3 and 4 wire power network para meters in balanced or unbalanced systems The measured values are
4. f j f Change of quantity Change of quantity Change of quantity Change of quantity of a selected parameter of a selected parameter of a selected parameter of a selected parameter ICE CC Y IC CV JA Je GoGo Y RS485 parameters P output and binary Analogioutputs Archive parameters intput mode Parameters acc to Table 3 Parameters acc to Table 5 Parameters acc to Table 7 Adr JEF Aon Jor der z En Change of quantity Change of quantity Change of quantity of a selected parameter of a selected parameter of a selected parameter EE Da Du wa Sw EUGENE gt return to a higher level without saving the changes K Err rEAd onLY only preview of parameters without the 18 Fig 7 N100 meter operating modes possibility of changes 6 4 MEASURING mode In the MEASURING mode the values are displayed according to the pages that are preset at the factory or configured by the user in Pages Programming PAG Changing the page is done by pressing the button or gt J The sequence of displayed pages is according to a table created in PAG mode Preview of the maximum or minimum values respectively is done while the button 4A or W is pressed down Reset of maximum or minimum values is done by pressing the button CR while viewing their values i e firstthe button
5. of the meter s MAC 21 255 address 18 First byte B1 of the nf 000 meter s MAC address 2255 19 Zero byte BO of the A 8 000 meter s MAC address 4 255 20 Saving the new APPL no yES yES saving the parameters of the new parameters and Ethernet interface initiate the Ethernet interface no no changes 21 Default settings dtt no yES Restoring default no group settings Ethr 47 7 MEASURING VALUES ARCHIVING 7 1 INTERNAL MEMORY The N100 meters with Ethernet interface and internal memory file system are equipped with 4MB of internal memory and 8GB SD memory for storing the recorded data 4MB internal memory allows to register 40960 records The memory is a ring buffer type one 7 2 COPYING ARCHIVE TO SD CARD The recorded data is copied to SD card if the 4MB internal memory is full at 70 or it can be forced at any time in Set procedure in Arch mode choose ArSd parameter and set YES the recirded data are copied into the SD memory To start the procedure of copying archive to the SD card can also be done via the RS485 interface register 4079 Example SD card with archiving period of 5 seconds allows you to regi ster data for 4 years The SD LED lights up red when the SD card is full at 70 see Status 3 Register address 4118 The N100 meter creates the directories and the files on the memory card while the archive is being copied An example of the directory structure is shown
6. 7648 R THD 11 min V x 6298 7298 7649 R THD 11 max yI x 6300 7300 7650 R THD 12 min J x 6302 8002 7651 R THD I2 max yI x 6304 8004 7652 R THD 13 min yI x 6306 8006 7653 R THD 13 max bx 6308 8008 7654 R M nd Nep d il x 6310 8010 7655 R EL N ker yI x R R 6404 8104 7702 R pa SE di s 6406 8106 7703 R HUB eh a oe vy x 6408 8108 7704 R ae JU J x 6410 8110 7705 R HarU2 3 3rd harmonic y x of L2 phase voltage R 6504 8204 7752 R ED DUE 6506 8206 7753 R ES ut 6508 8208 7754 R Se EM en 6510 8210 7755 R EE plas ae R R 6604 8304 7802 R n Me 6606 8306 7803 R ADU eot 6608 8308 7804 R rei 6610 8310 7805 R Er R AE AAA 6708 8408 7854 R p Med seo zess r Ramen R 88 Harl2 50 50th harmonic 6804 8504 7902 R of L2 phase current x Harl2 51 51st harmonic 6806 8506 7903 R of L2 phase current x Harl3 2 2nd harmonic 6808 8508 7904 R of L3 phase current x Harl3 3 3rd harmonic 6810 8510 7905 R of L3 phase current x R R Harl3 50 50th harmonic 6904 8604 7952 R of L3 phase current x 6906 8606 7953 R Harl3 51 51st harmonic x of L3 phase current In case of exceeding measuring value is out of the measuring range the value 1620 is set 89 9
7. All current inputs are galvanically isolated internal current transformers The meter is adapted to work with external measuring current transfor mers 1 A or 5 A Displayed current values and derivative values are automatically converted in relation to the introduced external current transformer ratio 5 2 Voltage inputs All voltage inputs are galvanically isolated internal transformers Values on voltage inputs are automatically converted according to the introduced ratio of the external voltage transformer Voltage inputs are specified in the order as 3x57 7 100V 3x230 400V or 3x400 690V 5 3 External connection diagrams External connections are shown in Figures 2 and 3 Uaux Pulse In Out 1 Pulse Out AL1 AL2 AL3 T N N N 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Interface RS 485 RJ45 socket sell o B lo Mo Ethernet A B GNDI Version 3 relays 1 analog output 1 pulse input 1 pulse output Uaux Out A1 Out A2 Out A3 AL3 TN 16 17 18 19 20 21 22 23 24 25 2e 27 28 29 30 Interface RS 485 RJ45 socket __ mnl o B o NO Ethernet A B GNDI Version 3 analog outputs 1 relay Fig 2 Connections of output signals Direct measurement in 4 wire network Semi indirect measurement in 4 wire network
8. Continuous output 3 upper value 1000 1440 Pl of the input range in of the rated input range 4056 RW 2400 0 Continuous output 3 lower value 0 2400 of the current output range 1 10uA 4057 RW 1 2400 Continuous output 3 upper value 2000 of the current output range 1 10uA 68 4058 RW 0 2 Continuous output 3 manual switching on 0 0 normal work 1 value set from the register 4056 2 value set from the register 4057 4059 RW 1 247 Modbus Network Address 1 4060 RW 0 3 Transmission mode 0 gt 8n2 1 gt 8e1 0 2 gt 801 3 gt 8n1 4061 RW 0 5 Baud rate 0 724800 1 gt 9600 1 2 219200 3 238400 4 257600 5 gt 115200 4062 RW 0 1 Upgrade change of transmission 0 parameters 4063 RW 0 9999 Constant of pulse output pulses 1kWh 1000 4064 RW 0 9999 Constant of external energy counter 1000 pulses 1kWh 4065 RW 0 59 Seconds 0 4066 RW 0 2359 Hour 100 minutes 0 4067 RW 101 1231 Month 100 day 101 4068 RW 2014 2100 Year 2014 4069 RW reserved 0 4070 RW 0 0xFFFF Archived values bitO reserved 0x0000 bit1 U bit2 bit15 PF e acc Table 6 4071 RW 0 0xFFFF Archived values bit16 Ge bit17 0x0000 t Hue bit31 S acc Table 6 4072 RW 0 OXOFFF Archived values bit32 PF bit33 EG 0x0000 bit43 dt acc Table 6 4073 RW
9. 6198 7198 7599 R Power factor PF L1 max y x 6200 7200 7600 R Power factor PF L2 min Y x 84 6202 7202 7601 R Power factor PF L2 max y x 6204 7204 7602 R Power factor PF L3 min y x 6206 7206 7603 R Power factor PF L3 max y x 6208 7208 7604 R Reactive to active power M 4 x ratio L1 min Reactive to active power 6210 7210 7605 R i y x ratio L1 max 6212 7212 7606 R Reactive to active power A 4 ratio L2 min Reactive to active power 6214 7214 7607 R N x ratio L2 max 6216 7216 7608 R Reactive to active power p 4 x ratio L3 min 6218 7218 7609 R Reactive to active power x ratio L3 max Phase to phase voltage 6220 7220 7610 R rn V y Y Phase to phase voltage i 6222 7222 7611 R id 2max V Y y Phase to phase voltage 6224 7224 7612 R L2 3 min V y Y Phase to phase voltage 6226 7226 7613 R L2 3 max V Y Y Phase to phase voltage 6228 7228 7614 R Led mia V y Y Phase to phase voltage 6230 7230 7615 R LSA max V Y Y 6232 7232 7616 R Mean 3 phase voltage min V y X 6234 7234 7617 R Mean 3 phase voltage max V Y x 6236 7236 7618 R Mean 3 phase current min A y Y 6238 7238 7619 R Mean 3 phase current max A Y Y 85 6240 7240 7620 R 3 phase active power min Ww Ni y 6242 7242 7621 R 3 phase active power max Ww y y 6244 7244 7622 R 3 phase reactive
10. Web server port number 80 4099 RW 0 1 Saving the new parameters and initiate Ethernet interface 0 no changes 1 saving the new parameters and initiate the Ethernet interface 4100 RW reserved 71 4101 RW reserved 0 4102 RW 0 1 Saving standard parameters complete 0 with resetting energy as well as min max and mean power to 0 4103 RW reserved 0 4104 R 0 152 Active import energy two older bytes 0 4105 R 0 65535 Active import energy two younger bytes 0 4106 R 0 152 Active export energy two older bytes 0 4107 R 0 65535 Active export energy two younger bytes 0 4108 R 0 152 Reactive inductive energy two older bytes 0 4109 R 0 65535 Reactive inductive energy two younger 0 bytes 4110 R 0 152 Reactive capacity energy two older 0 bytes 4111 R 0 65535 Reactive capacity energy two younger 0 bytes 4112 0 152 Apparent energy two older bytes 0 4113 0865595 Apparent energy two younger bytes 4114 R 0 152 Active energy from external counter 0 two older bytes 4115 R 0265535 Active energy from external counter 0 two younger bytes 4116 R 0 65535 Status 1 Register see description below 0 4117 R 0 65535 Status 2 Register see description below 0 4118 R 0 65535 Status 3 Register see description below 0 4119 R 0 65535 Status 4 Register see description below 0 4120 R 0 65535 Serial number two olde
11. archiving is enabled when oFF type condition occurs on any phase It will be switched off only when all triggering condition are disabled The value triggering an archiving in the series 3 archiving must be in the range 01 09 acc to Table 6 Archiving works with identical thresholds of the Aof and Aon hysteresis for each phase 44 6 5 7 Ethernet settings configuration Ethr In the options select the Ethr mode and confirm selection by pressing the button lt 4 Table 10 E o o E 9 G 5 2 E S E o G Oo o gt o m Y 2 o E o 5 3 E 7 a 3 S o o g 5 pe a o o dj 5 a E z a a x a o no yES no DHCP disabled i4 m no Enabling disabling the DHCP Client supports automatic obtaining of IP protocol parameters of the meter s Ethernet interface from external DHCP servers in the same LAN you should manually configure the IP address and subnet mask of the meter yES DHCP enabled the meter will automatically receive the IP address subnet mask and gateway address from the DHCP server when switching the supply on or selecting APPL option from the menu The gateway address is the address of the server that assigned the parameters to the meter 2 Third byte B3 of the P 3 000 meter s IP address 2 255 a value is displayed in decimal format IPv4 address format B3 B2 B1 BO 3 Second byt
12. og at soa PEEN Measured value Measuring range AIR a8 re D uo Lyd OES 20 Oc Current 1 5 A 1A 0 010 0 100 1 200A tr 11 Class 0 2 5A 0 050 0 500 6 000A tr_I 1 20 00 kA tr_141 Voltage L N 57 7V 5 7 11 5 70 0 V tr_U 1 Class 0 2 230 V 230 46 2760 V tr U 1 400 V 40 0 80 480 0 V tr U 1 480 0 kV tr Ux 10 0 20 120 0 V tr U 1 Class 0 5 import or export 9999 MWh tr Ut tr I1 Active power P 1999 9 W Class 0 5 active power 1999 9 MW tr Ut tr I 1 averaged P Reactive power Q 1999 9 Var Class 2 1999 9 MVar polo tr_U 1 tr_l 1 Apparent power S 1999 9 VA Class 0 5 apparent power 1999 9 MVA tr Uz1 tr I1 averaged S Active energy EnP 1999 9 Wh Class 0 5 93 tr current transformer ratio 1 10000 tr U voltage transformer ratio 1 4000 Power consumption in supply circuit in voltage circuit in current circuit Readout field 94 lt 12 VA lt 0 5 VA 0 1 VA Reactive energy EnQ 1999 9 Varh Class 2 capacity or inductive 9999 MVarh tr Uz1 tr 141 Apparent energy 1999 9 VAh Class 0 5 EnS 9999 MVAh tr_U 1 tr_l 1 Active power factor 1 00 0 1 00 t 0 01 PF basic error tg factor reactive 1 20 0 1 20 t 0 01 to active power basic ratio error Freq
13. 3 e Q 8 9 5 9 Q s u 2 9 a E B3 B2 B1 BO G 01 03 08 41 20 00 00 42 c8 00 00 E4 6F Example 4 Readout of two 32 bit float registers starting with the regi ster address 1D4Ch 7500 register values 10 100 Request oo g Register address Number of registers o9 2 Lo 3 CRC og S checksum 0 Ira B1 BO B1 BO 01 03 1D 4C 00 02 03 BO 53 Response D 2 Value from the register Value from the register E o 2 1D4C 7500 1D4D 7501 2 GEE 5 o SS 5 O 2 O se 9 E B3 B2 B1 BO 6 01 03 08 41 20 00 00 42 C8 00 00 E4 6F Single register writing code 06h Example 5 Writing the value 543 0x021F to the register 4000 OxOFAO Request og 5 Register address Number of registers 9 9 A CRC 23 5 checksum OG T B1 BO B1 BO 01 06 OF AO 02 1F CA 54 Response Y s Register address Number of registers og 5 checksum OG fr B1 BO B1 BO 01 06 OF AO 02 1F CA 54 Writing to n registers code 10h Example 6 Writing two registers starting with the register address OFA3h 4003 Writing the values 20 2000 54 Request Value for the Value for the register register OFA4 OFA3 4003 4004 Address reg Hi Address reg Lo Address reg Hi Address reg Lo CRC checksum B1 BO B1 BO Device address Funct
14. FTP user names can not be changed but you can change the password for each user for safety reasons it is recommended to change the passwords Changing the password is possible only through a web page in the Ethernet parameter group The passwords can be up to 8 characters If the password is lost what disables using the FTP server restore the default settings of the Ethernet interface e g from the menu Ethr dEF YES or by entering the value 1 to the register 4100 All standard Ethernet interface parameters see Table 10 and the passwords of the FTP server users will be restored user admin password admin user user password passftp 61 The program FileZilla could be an example of the FTP client You can view and download the archive files by entering the IP address of the meter in the address field ejpzejij ure1bo4d ay ui uoisses qd 14 90 JO M N 6L Bid sesuemingssasang smjsuenpspei sop panand Iy 3JOUSY uon EI Sayfd 666 LES 98T 3215 je101 saly ST Sag pTO 65 2215 230 SSUOP2P TZ pue says a v z vvas at coe GPA spewyoog sans jafsuell ma EG 62 8 3 4 Modbus TCP IP The N100 meter allows access to the internal registers via the Ethernet interface and Modbus TCP IP Slave protocol It is necessary to set the unique IP address of the meter and set the connection parameters listed in Table 12 to set up a connection
15. L1 phase voltage THD 100 00 09 tH I L1 phase current THD 100 0096 10 U e L2 phase voltage Un V 11 e L2 phase wire current In A 12 P e L2 phase active power Un x In x cos 0 W 13 re L2 phase reactive power Un x In x sin 90 Var 14 5 2 L2 phase apparent power Un x In VA 15 PF L2 phase active power factor PF 1 16 ELE tge factor of L2 phase 1 17 EHU L2 phase voltage THD 100 00 18 tHi 2 L2 phase current THD 100 00 19 U 3 L3 phase voltage Un V 20 1 3 L3 phase wire current In A 21 P 3 L3 phase active power Un x In x cos 0 W 22 9 3 L3 phase reactive power Un x In x sin 90 Var 23 5 3 L3 phase apparent power Un x In VA 24 PF3 L3 phase active power factor PF 1 25 L3 tge factor of L3 phase 1 26 EHU L3 phase voltage THD 100 00 DY tH 3 L3 phase current THD 100 00 28 A mean 3 phase current In A 29 p 3 phase active power 3 x Un x In x cos 0 P1 P2 P3 IW 30 q 3 phase reactive power 3 x Un x In x sin 90 Q1 Q2 Q3 Var 37 SM 6 Een power 3x Un x In VA 32 PE 3 phase power factor PF 1 33 EL tgo factor for 3 phases 1 34 EHU 3 phase voltage THD 100 00 35 tH 3 phase current THD 100 00 36 F frequency 100 Hz 37 U 12 phase to phase voltage L1 L2 v3 Un V 38 u23 phase to phase voltage L2 L3 43 Un V 39 U3 phase to phase voltage L3 L1 43 Un V 40
16. SOFTWARE UPGRADE A feature implemented in the N100 meters enables to upgrade firmware using a PC with eCon software installed Free eCon software and the update files are available at www lumel com pl Updating can be done via RS485 interface 8 e Con Device configurator Select device Filters MRD GEE Communication Port USB Senai Peet CONS Y Device ID 1 mand rate 9900 Y Mode RTUBN2 V Timeout 4000 Je the fact port connected N100 N100 1 02 o Serial port Modbus TOR 100 configuration t af Connection system Input range Reverse current direction Current transtomer Voltage transformer Averaging time Clock synchronization Erase energy counters Erase averaged parameters Erase min and max values aph aw Sv 1A vj 1 Ore Ore 1 a 10000 1 1 4000 15 min v Syrchronization with the clock v Mo change Y LUMEL UPDATER v 1 15 b Nic Port COMS I Desire File Device EEE LUMEL Backward compatibiity mode DANTOO hex Messages end Port opened Device found N100 firmware v 0 10 bootloader v 2 00 ok 150454 Fig 20 Program window view a eCon b software upgrade 90 Caution Software update automatically resets meter settings to manufacturer settings so it is recommended to save meter settings using eCon software before upgrading After launching eC
17. energy reg value 4110 x 65536 reg value 4111 100 kVarh Apparent energy reg value 4112 x 65536 reg value 4113 100 KVAh Active energy from external counter reg value 4114 x 65536 reg value 4115 100 kWh 73 Status 1 Register of a device address 4116 R Bit 15 1 non volatile memory damage Bit 14 1 no calibration of the input Bit 13 1 no calibration of the output Bit 12 1 parameters value error Bit 11 1 energy value error Bit 10 1 phase sequence error Bit9 Bit8 voltage range 0 0 57 7 V 0 1 230 V 1 0 400 V 1 1 reserved Status 2 Register address 4117 Bit 15 1 alarm 3 in phase L3 only the modes 3non 3nof 3 on 3 of Bit 14 1 alarm 3 in phase L2 only the modes 3non 3nof 3 on 3 of Bit 13 1 alarm 3 in phase L3 only the modes 3non 3nof 3 on 3 of Bit 12 1 alarm 2 in phase L3 only the modes 3non 3nof 3 on 3 of Bit 11 1 alarm 2 in phase L2 only the modes 3non 3nof 3 on 3 of Bit 10 1 alarm 2 in phase L1 only the modes 3non 3nof 3 on 3 of 74 Bit 7 1 present continuous outputs 2 3 Bit 6 1 present continuous output 1 Bit 5 1 present alarm output 3 Bit 4 1 present alarm outputs 1 2 Bit 3 1 present pulse input and output Bit 2 1 present Ethern
18. fulfilled by the meter Electromagnetic compatibility noise immunity acc to EN 61000 6 2 noise emission acc to EN 61000 6 4 Safety requirements according to EN 61010 1 standard isolation between circuits installation category 3 A m a c 50 60 Hz 2Un 50A any 15 min CR2032 50 10 C 50 96 basic Ill for voltage to earth up to 300 V installation category II for voltage to earth up to 600 V 97 pollution grade 2 maximum phase to earth operating voltage for supply circuits and relay outputs 300 V for measurement input 500 V for circuits RS485 Ethernet pulse input and output analog outputs 50 V altitude a s l lt 2000 m 98 12 ORDERING CODE N100 network parameters meter ordering code Table 18 Power network analyser N100 X X Voltage input phase phase to phase Un 3 x 57 7 100 V 3 x 230 400 V 2 3 x 400 690 V 3 Outputs 3 relays 1 analog 1 pulse input 1 pulse output 3 analog 1 relay 2 Optional accessories without Ethernet interface Ethernet interface internal memory file system X XX X Version standard custom made 00 XX Language version Polish English other without extra requirements with quality inspection certificate acc to customer s request m Acceptance tests X only after agreeing with a manufacturer 99 Note in version outpu
19. relay n 1 for the versions 3 outputs relay 1 analog 2 Continuous 0 20 0 20 output range Bo t 4 20 20 20 3 Lower value 0 0 of the input 7 144 0 is as range in of wnt 144 0 n the rated range 4 Upper value of 100 0 the input range 144 0 AEG in of the Ron 144 0 nee rated range 5 Lower value 0 00 i 20 00 of the output Aolo 20 00 in mA range 6 Upper value 0 01 20 00 of the output Aol 20 00 inmA range 35 Output working mode Default settings nor Bote AoLo AoHi JES no yES Continuous output working mode nor normal work AoLo set value AoLo AoHi set value AoHi group settings Inout nor restoring default no Selection of the values on the alarm outputs analog and archived Table 6 8 oNo E n S Ri E 2 oe 23 F 9 2 3 ES DN c o 38 3 E asses S X o o 2200 SY gt c STOWE S28 g 3 m m EE a a La Sd S ae zoo a 6 00 EF no value alarm or output o none disabled 01 Ui L1 phase voltage Un V 02 bd L1 phase wire current In A 03 Pu L1 phase active power Un x In x cos 0 W 04 qi L1 phase reactive power Un x In x sin 90 Var 36 05 5 L1 phase apparent power Un x In VA 06 PE L1 phase power factor PF 1 07 EL I tgo factor of L1 phase 1 08 tHU
20. 0 43 Value triggering archiving 0x0000 4074 RW 0 9 Archiving types 0 n on 1 noFF 0 2 on 3 OFF 4 H on 5 HoFF 6 3non 7 3noF 8 3 on 9 3 oF 4075 RW 1440 0 1440 Archiving lower limit in 900 69 4076 RW 1440 0 1440 Archiving upper limit in 1100 4077 RW 1 3600 Archiving period in seconds 1 4078 RW 0 1 Deleting an internal archive 0 4079 RW 0 1 Copying archive to SD card 0 1 copy archive to SD card 4080 RW reserved 0 4081 RW 0 65535 The third and the second byte B3 B2 49320 of the IP address of the meter the IPv4 OxCOA8 address format B3 B2 B1 B0 192 168 4082 RW 0 65535 The first and zero byte B1 B0 of 356 the IP address of the meter the IPv4 0x0164 address format B3 B2 B1 B0 1 100 4083 RW 0 65535 Trzeci i drugi bajt B3 B2 maski 65535 podsieci miernika format maski B3 B2 B1 BO 4084 RW 0 65535 The third and the second byte B3 B2 65280 of the subnet mask of the meter the mask format B3 B2 B1 B0 4085 R 0 65535 The fifth and fourth byte B5 B4 of MAC address of the meter format B5 B4 B3 B2 B1 B0 4086 R 0 65535 The third and the second byte B3 B2 of MAC address of the meter format B5 B4 B3 B2 B1 B0 4087 R 0 65535 The fifth and fourth byte B1 B0 of MAC address of the meter format B5 B4 B3 B2 B1 BO 4088 RW 0 65535 The third and the second byte B3 B2 49320 of the de
21. 17 C8 32 32 00C0512816 0 7500 U 1 2 246347E402 7519 0 020 2014 12 17 08 32 33 0000512817 0 7500 U 1 2 246347E402 7519 0 050 2014 12 17 08 32 34 0000512318 0 7500 U 1 22 244283E402 mm 7519 0 020 2011 12 17 C8 32 35 00C0512819 0 7500 U 1 2 2414283E402 7519 0 020 2011 12 17 C8 32 36 00C0512820 0 7500 U_1 2 213908E4 02 ve 7519 0 000 2014 12 17 C8 32 37 0000512321 0 7500 U 1 2 246347E402 7519 0 000 2014 12 17 08 32 38 0000512822 0 7500 U 1 2 2416347E402 7519 0 020 2014 12 17 08 32 39 00C0512823 0 7500 2 246523E 102 7519 0 090 2014 12 17 08 0 00C0512824 0 7500 2465230102 7519 0 000 2014 12 17 08 22 41 0000512825 0 7500 U 1 2 244662L102 a 7519 0 090 Fig 15 An example of the archive data file The fields in the line describing the record have the following meanings date date of data recording date separator is the character time hour minute second of recorded data a time separator is the character record index unique index record Each record has a unique number This number increases when writing new records block reserved register1 Modbus register address of the first archived value name1 Modbus register description of the first archived value value1 first archived value The decimal separator is the values are saved in a engineering notation format register16 Modbus register address of the sixteenth a
22. 4009 RW reserved 4010 RW 0 4 Energy counters erasing 0 0 no changes 1 erase active energies 2 erase reactive energies 3 erase apparent energies 4 erase all energies 65 4011 RW 0 1 Erasing averaged parameters 0 P Demand S Demand Demand 4012 RW 0 1 Min max erasing 0 4013 RW 0 1 Erasing alarm signalization latch 0 4014 RW 0 1 43 Alarm output 1 output value 38 code as in Table 6 4015 RW 0 9 Alarm output 1 type 0 n on 0 1 noFF 2 on 3 OFF 4 H on 5 HoFF 6 3non 7 3noF 8 3 on 9 3 oF 4016 RW 1440 Alarm output 1 lower value of the 900 0 1440 alarm switch of the rated input range 4017 RW 1440 Alarm output 1 upper value of the 1100 0 1440 9 alarm switch of the rated input range 4018 RW 0 3600 s Alarm output 1 activation delay 0 4019 RW 0 3600 s Alarm output 1 alarm deactivation delay 0 4020 RW 0 3600 s Alarm output 1 re activation lock 0 4021 RW 0 1 Alarm 1 signalization latch 0 4022 RW 0 1 43 Alarm output 2 output value 28 code as in Table 6 4023 RW 0 9 Alarm output 2 type 0 n on 0 1 noFF 2 on 3 OFF 4 H on 5 HoFF 6 3non 7 3noF 8 3 on 9 3 oF 4024 RW 1440 0 Alarm output 2 lower value of the 900 1440 9 alarm switch of the rated input range 4025 RW 1440 0 Alarm output 2 upper value of th
23. 5 interface connector 1 pc BASIC REQUIREMENTS OPERATIONAL SAFETY In terms of operational safety the controller meets the requirements of the EN 61010 1 standard Comments concerning safety The meter should be installed and connected only by a qualified personnel All relevant safety measures should be observed during installation Always check the connections before turning the meter on Prior to taking the meter housing off always turn the supply off and disconnect the measuring circuits Removal of the meter housing during the warranty period voids the warranty This meter conforms to all requirements of the electromagnetic compatibility in the industrial environment A switch or a circuit breaker should be installed in the building or facility It should be located near the device easily accessible by the operator and suitably marked 4 INSTALLATION The meter is adapted to be fixed to the panel with moun ting brackets as presented on Fig 1 The meter housing is made of a self extinguishing plastics Housing overall dimensions 144 x 144 x 77 mm dimensions of the assembly hole 138 x 138 mm There are screw terminal strips on the outer side of the meter which enable the connection of external wires of diameter up to 2 5 mm Fig 1 Overall dimensions and mounting of the N100 meter 5 METER DESCRIPTION 5 1 Current inputs
24. LUMEL EVERYTHING COUNTS POWER NETWORK ANALYSER N100 LUMEL USER S MANUAL CE Contensts 1 APPLICATION musvenvvnnvenvennvnnvennvnnvernvnnvensvannnsnennnnnesnnnnvessvnnvensvnnvensvnne 5 2 METER SET ernennvnnvennvnnvennvnnvnnnvnnvensennvnnvessvnnvennvnnvensvnnvensvnnvensvnnnessennnn 6 3 BASIC REQUIREMENTS OPERATIONAL SAFETY 6 4 INSTALLATION vesvoravnnvennvrvennvnnvennensvenvennvnnvensvnnvennvnnvesnvnnvensesnnesnensnn 7 5 METER DESCRIPTION rrnenvernvnnvennvnnvennvnnvensvnnvnnnvssvnnsessvenvensvnnvensene 8 5 1 Current inputs 5 2 Voltage inputs 5 3 External connection diagram sesse sees se ee Re ER ERA ER Re ee Ee 8 6 N100 PROGRAMMING ee ee ee ee Re Re RR Re Re RA Ee ee Re ge ee 13 6 1 Front pelin 13 6 2 Power on message see ese RE AR RE AA KERR AR RR AR RR ER AR EER ee Ge 15 6 3 Operating modes a 16 6 4 MEASURING mode ee ee ee ee ee ee Re Rae Re RA Ee Ee nennen ee 19 6 4 1 Measurement of voltage and current harmonics 20 6 5 Parameter settings aus 25 6 5 1 Setting of meter parameters PAr sss 27 6 5 2 Setting the input and output parameters InoUt 30 6 5 3 Alarm configuration ALn essen 31 6 5 4 Analog outputs configuration Ao n 6 5 5 Pages configuration PAG 39 6 5 6 Archiving configuration Arch
25. N100 eB eerie eer eenia Semi indirect measurement in 4 wire network Fig 3 Meter connections of input signals in a 3 phase 4 wire network 10 Direct measurement in a 3 wire network Semi indirect measurement using 2 current transformers in a 3 wire network 11 y10M 9U 8JIM eseud g e ui sjeuBis jndui jo suonoeuuoo 4ejeW p Bl4 JJOMJ9U S1M e UI sjeuuoJsueJ eBeyo JO Z pue SJeuuojsueJ jue no z BUISN jueujeunseeuu 3oeJlpu N x 6 N100 PROGRAMMING 6 1 Front panel indication fields of the displays of displayed f1 f2 f3 f4 phase S units N100 Ed of the Lig F2 0 Uk va displayed nec 13 0 0 0 020 0 CU P values 2 L L2 alarm eV signaling 3 hy 14 1 ol 03 2 03 HE Mk lL 2 gt C2 Cx CZ E 4 h ENTER acceptance button ESC left decrease increase right resignation displacement value value displacement or back button button button button button Fig 5 Front panel 13 The N100 meter has 6 buttons 4 4 digit display sections illuminated symbols a
26. THD 13 y x 6054 7054 7527 R Mean 3 phase voltage V y x 6056 7056 7528 R Mean 3 phase current A N N 3 phase active power 6058 7058 7529 R P1 P2 P3 Ww y y 3 phase reactive power 6060 7060 7530 R Q1 Q2 Q3 VAr y y 3 phase apparent power 6062 7062 7531 R S1 S2 S3 VA y N 3 phase active power factor 6064 7064 7532 R PF P S Y y 6066 7066 7533 R mean tgq factor for 3 a y J phases tg Q P 6068 7068 7534 R THD U mean 3 phase Y X 6070 7070 7535 R THD I mean 3 phase y x 6072 7072 7536 R Frequency F Y y 6074 7074 7537 R Phase to phase voltage L1 2 V y y 6076 7076 7538 R Phase to phase voltage L2 3 V Y y 6078 7078 7539 R Phase to phase voltage L3 1 V y y 6080 7080 7540 R Meer BH lee V dll 4 voltage Active power averaged 6082 7082 7541 R P Demand Ww Y y Apparent power averaged 6084 7084 7542 R S Demand VA y y 6086 7086 7543 R rule A y I Demand M 6088 7088 7544 R Neutral wire current A d x calculated from vectors 81 Active 3 phase import energy no of register 7546 100 6090 7090 7545 overflows resets to 0 after MWh reaching 9999 9 MWh Active 3 phase import 6092 7092 7546 energy counter counting kWh 6094 7094 7547 up to 99999 99 kWh Active 3 phase export energy no of register 7548 100 overflows resets to 0 after MWh reaching 9999 9 MWh 6096 7096 7548 Active 3 phase export energy counter counting kWh up to 99999 99 k
27. U e3 mean phase to phase voltage 43 Un V 41 Pat active power averaged 3 x Un x In x cos 0 P Demand W 42 Sdt EE averaged 3 x Un x In VA 43 dt current averaged I Demand In A Un In rated values of voltages and currents 38 6 5 5 Pages configuration PAG The meter allows to program 1 20 pages displayed during the measurement mode or you can select 10 pre programmed pages Monitoring values are shown in Table 1 It is possible to display 4 values on each page Pages 2 20 can be enabled on or disabled off There is no way to disable page 1 There are 10 pages pre defined and enabled see Table 8 Table 7 3 E 3 5 so o MA 50 5 EE E 2 g FE cg 3 S OG o tU Ei D s2 zo a iy a o o a O 1 Color Colter red rEd red Ge En green cfd of the GrEn displays 3 Defined page PO 1 20 on displayed page Table 1 E of F a page excluded from displaying Peo Pressing the button lt 1 allows to select a displayed value on the individual fields for the enabled pages on 9 Default dtF no yES Restoring default group no settings settings PAG 39 In the options select the PAG mode and confirm your choice by pres sing the button lt Select the page to edit and accept by pressing the button lt After accepting the value on the names of selected values are displayed on the individual fields Or off when no value is select
28. V 3974 V 398 34 V ow OVA m OA 0 70025 1 0195 0 026181 97 208 Fig 17 View of the meter website 8 3 2 2 Web user selection The meter has two user accounts for the web server protected by the individual passwords user admin password admin access to the configuration and preview of the parameters user user password pass access only to the preview of the parameters Calling the IP address of the meeter in a browser e g http 192 168 1 100 will display a start website to enter a user name and a password 59 Eus m Login Username admin Password les Ex Fig 18 View of the meter s web server login window The web server user name can not be changed You can change the password for each user for safety reasons it is recommended to change the passwords Changing the password is possible only through a web page in the Ethernet parameter group The passwords can be up to 8 characters If the password is lost what disables using the web server restore the default settings of the Ethernet interface e g from the menu t c dEF YES or by entering the value 1 to the register 4100 All standard Ethernet interface parameters see Table 10 and the passwords of the web server users will be restored user admin password admin user user password pass The session lasted five minutes opens when you log in to
29. Wh 6098 7098 7549 Reactive 3 phase inductive energy no of register 7550 100 overflows resets to 0 after MVArh reaching 9999 9 MVArh 6100 7100 7550 Reactive 3 phase inductive energy counter counting kVArh up to 99999 99 kVArh 6102 7102 7551 Reactive 3 phase capacity energy no of register 7552 100 overflows resets to O after MVArh reaching 9999 9 MVArh 6104 7104 7552 Reactive 3 phase capacity energy counter counting kVArh up to 99999 99 kVArh 6106 7106 7553 Apparent energy no of register 7554 100 overflows resets to O after MVAh reaching 9999 9 MVAh 6108 7108 7554 Apparent energy counter kVAh counting up to 9999 99 kVAh 6110 7110 7555 Active 3 phase external energy no of register 7555 100 overflows resets to 0 after MWh reaching 9999 9 MWh 82 Active 3 phase external 6112 7112 7556 R energy counter counting kWh up to 99999 99 kWh 6114 7114 7557 R Time seconds sek y 6116 7116 7558 R Time hours minutes N 6118 7118 7559 R Date month day y 6120 7120 7560 R Year 2014 2100 i 6122 7122 7561 R uc io mA 6124 7124 7562 R Jo LT mA 6126 7126 7563 R Pa c mA y 6128 7128 7564 R Status 1 register N 6130 7130 7565 R Status 2 register y 6132 7132 7566 R Status 3 register y 6134 7134 7567 R Status 4 r
30. a Jor w and then Ca must be pressed Alarms are active if they were allocated Note that the alarms do not need to be associated with the values displayed on the page because the change of a page would result in action on two state outputs The alarm switching on is signaled by the lighting of the ALn inscrip tion n 1 3 The end of alarm duration at the alarm signalization latch switched on is indicated by the pulsation of the ALn inscription n 1 3 Erasing alarm signalization latch if it was set in the Alarm parameters mode ALn is done by pressing the button Cap When displaying the reactive capacity power or energy a marker indi cating the load character is displayed gm there is no mark for inductive load When displaying the active power the sign is displayed for active energy export or no mark for active energy import Exceeding of the upper or lower indication range is signaled on the display by upper or lower horizontal lines For measurement of the averaged values P Demand S Demand Demand single measurements are carried out with 0 25 second quantum Averaging time to choose from 15 30 or 60 minutes Until all samples of the averaged values are acquired the values are calculated from already measured samples Current value in the neutral wire la is calculated from phase current vectors 19 6 4 1 Measurement of voltage and current harmonics The choice of harmonics is done by pressing t
31. address Number of registers g 2 29 3 CRC os S checksum aS Ira B1 BO B1 BO 01 03 OF AO 00 02 C7 3D Response i Number Register address o c o 8 8 2 2 g of registers CRC EE S 52 checksum S n zo B1 BO B1 BO 01 03 04 00 0A 00 64 E4 6F Example 2 Readout of two 32 bit float registers as a combination of two 16 bit registers starting with the register address 1B58h 7000 register values 10 100 Request Y Register address Number of registers 838 i is g CRC OF E checksum 0 ind B1 BO B1 BO 01 03 1B 58 00 04 C3 3E Response 2 Value from Value from Value from Value from E 9c gt the register theregister the register the register 2 9 8 1B58 7000 1859 7001 1B5A 7002 1B5B 7003 EE 5 o Q 8 E 2 3 B3 B2 B1 BO G 01 03 08 41 20 00 00 42 C8 00 00 E46F Q N Example 3 Readout of two 32 bit float registers as a combination of two 16 bit registers starting with the register address 1770h 6000 register values 10 100 Request o 9 c Register address Number of registers 28 CRC os S checksum aS fr B1 BO B1 BO 01 03 17 70 00 04 4066 Response 2 Value from Value from Value from Value from E Dl 2 theregister the register the register the register 7 3 6 2 x amp 5 1B58 7000 1B59 7001 185A 7002 1B5B 7003
32. arm re activation Alb 0 3600 in seconds 0 lock 31 Alarm signali zation latch on oFF When alarm signalization latch function is enabled and the alarm state ends alarm symbol is not turned off but begins to flash Alarm symbol flashes until it is turned off by pressing the button ce gt 3 sec This function refers only to the alarm signalization so the relay contacts will operate without a latch according to the selected alarm type oFF Default settings dtF no yES Restoring default group settings ALn Entering the value Aon lower than AoF switches the alarm off 32 state of the contacts 4 relay on 0 relay off gt Aof Aon measured value a n on state of the contacts 1 relay on relay off 0 gt AoF Aon measured value b noFF 1 state of the contacts relay on 0 relay off relay off Aof Aon measured value c on state of the contacts 1 relay on relay on 0 relay off Aof Aon measured value d oFF Fig 10 Alarm types a n on b noFF c on d OFF 33 Remaining types of the alarm H_on always enabled HoFF always disabled 3non relay is switched on when n on type alarm occurs on any phase It will be switched off only when all alarms are disabled 3noF relay is switched on when noFF type alarm occurs on any phase It will be switched off onl
33. ay 4 28 4317 RW 00 33 35 38 42 51 Page 4 display 1 3 4318 RW 00 33 35 38 42 51 Page 4 display 2 12 4319 RW 00 33 35 38 42 51 Page 4 display 3 21 76 4320 RW 00 51 Page 4 display 4 29 4321 RW 00 33 35 38 42 51 Page 5 display 1 6 4322 Page 5 display 2 15 4323 Page 5 display 3 24 4324 Page 5 display 4 32 4325 Page 6 display 1 29 4326 Page 6 display 2 30 4327 Page 6 display 3 31 4328 Page 6 display 4 33 4329 Page 7 display 1 42 4330 Page 7 display 2 44 4331 Page 7 display 3 46 4332 Page 7 display 4 39 4333 Page 8 display 1 8 4334 Page 8 display 2 17 4335 Page 8 display 3 26 4336 Page 8 display 4 40 4337 Page 9 display 1 9 4338 Page 9 display 2 18 4339 Page 9 display 3 2 4340 Page 9 display 4 41 4341 Page 10 display 1 48 4342 Page 10 display 2 49 4343 Page 10 display 3 50 4344 Page 10 display 4 51 4345 RW 00 33 35 38 42 51 Page 11 display 1 0 4346 RW 00 33 35 38 42 51 Page 11 display 2 0 77 4347 93 95 38 42 51 Page 11 display 3 0 4348 00 51 Page 11 display 4 0 4349 1 93 35 38 42 51 Page 12 display 1 0 4350 33 35 38 42 51 Page 12 display 2 0 4351 1 99 30 989 42 01 Page 12 display 3 0 4352 00 51 Page 12 display 4 0 4353 1 33 35 38 42 51 Page 13 display 1 0 4354 33 35 38 42 51 Pa
34. button Restore Then press the folder icon to open a previously saved settings file and press the up arrow icon to save the settings in the meter Current software version can be checked by reading the welcome message when switching the meter on Caution Turning meter supply off during upgrade process may result in permanent damage 91 10 ERROR CODES During the meter operation the error messages may be displayed Following list shows reasons of errors Err bat displayed when the battery of the internal RTC clock is used up The measurement is carried out after switching the supply on and every day at midnight The message can be turned off by pressing the button Ce The disabled message remains inactive till the renewed switching of the meter on Err CAL Err EE meter memory is damaged In such case a meter should be sent back to the manufacturer Err PAr incorrect operational parameters of the meter In such case a meter should be set to default settings from menu or via RS 485 interface The message can be turned off by pressing the button CL upper overrun Measuring value is out of the measuring range lower overrun Measuring value is out of the measuring range 92 11 TECHNICAL DATA Measuring ranges and permissible basic errors Voltage L L 100 V 400 V 690 V 40 0 80 480 0 V tr U 1 69 0 138 830 0 V tr U 1 830 0 kV tr_U 1 Table 17
35. displayed on a two color LED display The meter enables control and optimization of the power electronic devices systems and industrial installations The meter provides measurement of RMS of voltage and current active reactive and apparent power active reactive and apparent energy power factors frequency the harmonics of current and voltage lip to 51st THD of voltage and current averaged active and apparent power P Demand S Demand averaged current Demand 15 30 or 60 minutes Voltages and currents are multiplied by gi ven voltage and current ratios of the measuring transformers Power and energy indications take into account all programmed ratio values The value of each measured value can be transmitted to the master system via the RS 485 or Ethernet interface Three relay outputs signal the overflow of the chosen value and the pulse output can be used for the consumption check of 3 phase active energy The programmable analog outputs map the assigned parameter The pulse input can be used to check the counters with the pulse outputs There is a galvanic separation between following units of the meter supply voltage inputs current inputs RS485 interface Ethernet interface pulse input pulse output OC alarm outputs analog outputs 2 METER SET Complete set of the meter includes N100 Meter 1 pc user s manual 1 pc warranty card 1 pc screw clamp to fix in the panel 4 pcs RS48
36. e B2 of P 2 000 the meter s IP address 255 4 First byte B1 of the P 000 meter s IP address 255 5 Zero byte BO of the G 000 meter s IP address 255 6 Third byte B3 of the 55 3 000 meter s subnet mask 255 a value is displayed in decimal format mask address format B3 B2 B1 B0 7 Second byte B2 of 55 e 000 the meter s subnet 255 mask 8 First byte B1 of the 55 000 meter s subnet mask 255 9 Zero byte B1 of the 55 8 000 meter s subnet mask 255 10 Third byte B3 of d 3 000 the meter s default 255 gateway a value is displayed in decimal format gateway address format B3 B2 B1 BO 11 Second byte B2 of d5 e 000 the meter s default 255 gateway 12 First byte B1 of d 000 the meter s default 255 gateway 13 Zero byte B1 of a5 8 000 the meter s default 255 gateway when dHCP no write and read out of parameters is possible when dHCP YES only read out of parameters is possible 192 168 100 255 255 255 192 168 14 Fifth byte B5 of the AC 5 000 meter s MAC address 02515 a value is displayed in decimal format format B5 B4 B3 B2 B1 BO 15 Fourth byte B4 ofthe AC 4 000 meter s MAC address 172255 16 Third byte B3 of the 5C 3 000 only readout of meter s MAC address E255 parameters 17 Second byte B2 nt e 000
37. e 1100 1440 Phol alarm switch of the rated input range 4026 RW 0 3600 s Alarm output 2 activation delay 0 4027 RW 0 3600 s Alarm output 2 alarm deactivation delay 0 4028 RW 0 3600 s Alarm output 2 re activation lock 0 4029 RW 0 1 Alarm 2 signalization latch 0 66 4030 RW 0 1 43 Alarm output 3 output value 29 code as in Table 6 4031 RW 0 9 Alarm output 3 type 0 n on 0 1 noFF 2 on 3 oFF 4 H on 5 HoFF 6 3non 7 3noF 8 3 on 9 3 oF 4032 RW 1440 0 Alarm output 3 lower value of the 900 1440 ol alarm switch of the rated input range 4033 RW 1440 0 Alarm output 3 upper value of the 1100 1440 Pol alarm switch of the rated input range 4034 RW 0 3600 s Alarm output 3 activation delay 0 4035 RW 0 3600 s Alarm output 3 alarm deactivation delay 0 4036 RW 0 3600 s Alarm output 3 re activation lock 0 4037 RW 0 1 Alarm 3 signalization latch 0 4038 RW 0 1 43 Continuous output 1 output value 38 code as in Tab 6 4039 RW 082 Continuous output 1 type O 0 20 mA 0 1 4 20 mA 2 20 20 mA 4040 RW 1440 0 Continuous output 1 lower value 0 1440 al of the input range in of the rated input range 4041 RW 1440 0 Continuous output 1 upper value of 1000 1440 hal the input range in of the rated input range 4042 RW 2400 0 Wyj cie ci g e 1 dolna war
38. ed for a field fi gt on f2 gt 1 _ 4 F Fig 11 Example of defining a page EEE The cursor a flashing name of the monitored value from Table 1 is positioned on the first field f1 Use the buttons 4 amp w to select a value on a selected field and confirm a selection by pressing the button lt 4 _ The cursor is set to the next field Confirm a selection and save a page after setting the required values on the fields f1 f4 by pressing the button and move to define the next page Default settings of the displayed pages The pages 11 20 are disabled Table 8 P01 P02 P03 P04 P05 uiv uiv i PIW PF IPF uev vea v IA Pew PFepF U3V U31V 13A P3W PF3PF Hz Ue3V ISA PW PF PF 40 cont Table 8 P06 P07 P08 P09 P10 Pw EnP Wh EHUIV EHI 1A dan 9 VAr End VArh EHUCV EH e A 9999 5 VA En5 VAh EHUIV tH 3 A haan EL tg Pat W S t VA dt A 55 L17 I3 VA WA Ea Ma a TS 1121 3 O PM VAr Wh L3 GES LI LS PFR CO 42 L1 0 DE Co kvar Wh 13 ELEM C Ev 9043 Do 7 268 GJ kVAr Wa 13 0 E 0 04 Gnl PEHI ADN Fig 12 Visualization of the manufacturer s page P06 41 6 5 6 Archiving configuration Arch In the options select the Arch mode and confirm selection by pressing the button 4 Je internal archive Table 9 5 S
39. egister y 6136 7136 7568 R Voltage L1 min V Y 6138 7138 7569 R Voltage L1 max V Y 6140 7140 7570 R Voltage L2 min V Y 6142 7142 7571 R Voltage L2 max V Y 6144 7144 7572 R Voltage L3 min V Y 6146 7146 7573 R Voltage L3 max V Y 6148 7148 7574 R Current L1 min A Y y 6150 7150 7575 R Current L1 max A y y 6152 7152 7576 R Current L2 min A Y y 6154 7154 7577 R Current L2 max A y Y 6156 7156 7578 R Current L3 min A y Y 6158 7158 7579 R Current L3 max A y Y 6160 7160 7580 R Active power L1 min Ww y x 6162 7162 7581 R Active power L1 max Ww y x 6164 7164 7582 R Active power L2 min Ww Y x 6166 7166 7583 R Active power L2 max Ww y x 6168 7168 7584 R Active power L3 min Ww Y x 6170 7170 7585 R Active power L3 max Ww y x 6172 7172 7586 R Reactive power L1 min Var N x 6174 7174 7587 R Reactive power L1 max Var E x 6176 7176 7588 R Reactive power L2 min Var N x 6178 7178 7589 R Reactive power L2 max Var y x 6180 7180 7590 ES Reactive power L3 min Var N x 6182 7182 7591 R Reactive power L3 max Var y x 6184 7184 7592 R Apparent power L1 min VA y X 6186 7186 7593 R Apparent power L1 max VA y x 6188 7188 7594 R Apparent power L2 min VA y x 6190 7190 7595 R Apparent power L2 max VA y x 6192 7192 7596 R Apparent power L3 min VA Y x 6194 7194 7597 R Apparent power L3 max VA y x 6196 7196 7598 R Power factor PF L1 min Y x
40. et and intemal memory Bit 1 1 used battery of RTC Bit 0 reserved R Bit 9 1 alarm 1 in phase L3 only the modes 3non 3nof 3_on 3_of Bit 8 1 alarm in phase L2 only the modes 3non 3nof 3_on 3_of Bit 7 1 1 in phase L1 only the modes 3non 3nof 3_on 3_of Bit 6 1 alarm 3 signalization Bit 5 1 alarm 2 signalization Bit 4 1 alarm 1 signalization Bit 3 reserved Bit 2 1 alarm 3 activated Bit 1 1 alarm 2 activated Bit 0 1 alarm 1 activated Status 3 Register address 4118 R Status of the SD SDHC card or the internal memory file system Bit 15 reversed direction of the current in phase L3 Bit 14 reversed direction of the current in phase L2 Bit 13 reversed direction of the current in phase L1 Bits 12 5 reserved Bit 4 archive dump to the card SD LED flashes green Bit 3 the card is full SD LED lights up red Bit 2 the card is 70 full SD LED lights up red Bit 1 card installed successfully SD LED lights up green Bit 0 file system error SD LED flashes red Status 4 Register address 4119 R reactive power characteristics Bit 15 measurement with phase L3 synchronization Bit 14 measurement with phase L2 synchronization Bit 13 measurement with phase L1 synchronization Bit 12 reserved Bit 11 1 capacity 3L max Bi
41. eters Obtained from DHCP or entered manually when DHCP disabled format B3 B2 B1 BO AC AC 0 dEF B5 byte X BO byte Default ofthe ofthe settings meter s meters ofthe MAC MAC Ethernet address address interface format B5 B4 B3 B2 B1 B0 Fig 9 Programming matrix part 2 6 5 1 Setting of meter parameters PAr This mode is used to determine the parameters of the meter Entering the parameters configuration mode is protected by an access code if entered access code is different from zero The password prompt is skipped for code 0000 If the access code is incorrect the message Err rEAd onLY is displayed Then it is possible to view the parameters but the changes are not possible The values according to Table 2 are set in this mode After entering the SEt procedure select with the button a or VW Par mode and press lt 4 The buttons m v a 0 can be used to set the aie values i e the digit in the decimal position by the button 74 jor the digit value by the button a Jor w The active Pm is signaled by the cursor Set value can be accepted by the button lt or canceled by pres sing E Exit from SEt procedure will also happen after waiting for approx 60 seconds 27 gl z o N nA z E 9 gt s0 5 EE E 3 2 Re s SS B5 S 95 FE St v rd Zo a9 a o o a ks 1 Access code entry 5S c 0 9999 0 no code 0 2 Type of c
42. fault gateway of the meter the gateway address format B3 B2 B1 BO 4089 RW 065585 The first and zero byte B1 B0 of the 257 default gateway of the meter the gateway address format B3 B2 B1 B0 70 4090 RW 0 1 Enabling disabling the DHCP Client supports automatic obtaining of IP protocol parameters of the meter s Ethernet interface from external DHCP servers in the same LAN 0 DHCP disabled you should manually configure the IP address and subnet mask of the meter 1 DHCP enabled the meter will automatically receive the IP address subnet mask and gateway address from the DHCP server when switching the supply on or selecting APPL option from the menu or entering the value 1 to the register 4099 The gateway address is the address of the server that assigned the parameters to the meter 4091 4092 RW RW 20 65535 Baud rate of the Ethernet interface 0 automatic selection of the baud rate 1 10 Mb s 2 100 Mb s FTP server commands port number 21 4093 RW 20 65535 FTP server data port number 1025 4094 RW 1 4 The maximum simultaneous connections to Modbus TCP IP service 4095 RW 10 600 Port closing time of Modbus TCP IP service in seconds 4096 RW 0 255 Device address for Modbus TCP IP protocol 4097 RW 0 65535 Modbus TCP port number 502 4098 RW 80 65535
43. ge 13 display 2 0 4355 1 99 35 38 42 51 Page 13 display 3 0 4356 00 51 Page 13 display 4 0 4357 1 33 35 38 42 51 Page 14 display 1 0 4358 33 35 38 42 51 Page 14 display 2 0 4359 1 93 35 38 42 51 Page 14 display 3 0 4360 00 51 Page 14 display 4 0 4361 1 33 95 38 42 51 Page 15 display 1 0 4362 33 35 38 42 51 Page 15 display 2 0 4363 1 33 35 38 42 51 Page 15 display 3 0 4364 00 51 Page 15 display 4 0 4365 199 90500 42 51 Page 16 display 1 0 4366 33 35 38 42 51 Page 16 display 2 0 4367 1 93 35 38 42 51 Page 16 display 3 0 4368 00 51 Page 16 display 4 0 4369 93 85 38 42 51 Page 17 display 1 0 4370 33 35 38 42 51 Page 17 display 2 0 4371 1 93 35 38 42 51 Page 17 display 3 0 4372 00 51 Page 17 display 4 0 4373 1 93 35 38 42 51 Page 18 display 1 0 78 4374 RW 00 33 35 38 42 51 Page 18 display 2 0 4375 RW 00 33 35 38 42 51 Page 18 display 3 0 4376 RW 00 51 Page 18 display 4 0 4377 RW 00 33 35 38 42 51 Page 19 display 1 0 4378 RW 00 33 35 38 42 51 Page 19 display 2 0 4379 RW 00 33 35 38 42 51 Page 19 display 3 0 4380 RW 00 51 Page 19 display 4 0 4381 RW 00 33 35 38 42 51 Page 20 display 1 0 4382 RW 00 33 35 38 42 51 Page 20 display 2 0 4383 RW 00 33 35 38 42 51 Page 20 display 3 0 4384 RW 00 51 Page 20 disp
44. he alarm type lower limit upper of switching of switching re activation signalization settings A output limit on off lock latch e Tab 6 parameters in user s manual Bo Ro n Bot Aunt Aint Rolo Rot Rote def Value on the Analog Lower Upper Lower Upper Analog Default Ro3 analog output value value value value output settings fens output type _ of the input of the input of the input of the input working rone Tab 6 in range in 96 range in range in mA range in mA mode parameters USES manual PAL Coir P D Peo dEF age age Color enable enable Default VEE ofthe disable disable Pages configura displays Values on Values on tion next fields next fields ofthe ofthe page 1 page 20 26 Fig 9 Programming matrix part 1 ArSd Arna Brun Art Y Ar L Ar HW Ret Arde Arch c Archived Parameter Archiving Archiving Archiving Archiving Deleting Archi OPY triggering type lower limit upper period an rchive the archive Values ivi limi internal parameters Tab 6 archiving mie archive totheSD inusers Tab 6in card manual users manual dHCP 1P 3 1P 0 54 3 50 6 dL 3 d5 0 x B3 byte BO byte Ethe DHCP B3 byte BO byte B3 byte se BO byte ofthe E p Client ofthe IP ofthelP ofthe ofthe default default address address subnet subnet jatewa atewa Ethernet enable pva Pv mask mask adress adress interface disable param
45. he buttons vw i a Jforviewingthe currentharmonics or gt for voltage harmonics 51 2 51 a lu kVArWh L1 7 0L 4 Tj Wc V r Wh PFSDI YK A t CE dd S095 Ad j Ary MEVA e W FTxt9 AS r OO LIA I Prin t9 A 26 VArwh 111 7 OD RA T wkVArwh FHztg Vol Ul 5 PFHztS DM Voltage harmonics U1 U2 U3 or current harmonics 11 12 13 are displayed simultaneously for 3 phases The number of displayed harmonic circled in the figure is signaled by blinking and it can be changed in the range 2 51 by pressing W Jor buttons By pressing button you can return to the measuring mode 20 Selection of the monitored value Table 1 D v H x E Oo By A amp z E i o E 9 5 2 E E E 3 less E E gt a a 22 z e e o 09 zo do no value f1 f2 00 blanked off Y X 3 f4 display L1 phase M f1 f2 01 Voltage uli M k V L1 Y x Ba L1 phase wire m f1 f2 do current KA kJA L1 Y y 3 f4 L1 phase f1 f2 Pl T 03 active power MkW j L1 Y mn L1 phase B s n f1 f2 04 reactive power ES MEVAr L1 sg Y X f3 f4 L1 phase 1 f1 f2 m apparent power e M k VA a Y T f3 f4 L1 phase f1 f2 06 active power PE PF L1 y x f3 f4 factor PF1 P1 S1 tgo factor f1 2 07 of L1 phase EG tg L1 y x f3 4 tg1 Q1 P1 L1 phase ni o f1 f2 08
46. in Figure 14 48 Nazwa piku Rozmiar piku Typ pliku Data modyf kacji Frawa dost Whasciciel 4 plikt Catkowity rozmiar 5 U33 560 bajt w Fig 14 The directory structure on the SD card Data on the SD card are stored in the files in the directories year month archive copy see Figure 14 The file names are marked by day and time of first record copy and have the ddhhmmss csv format where dd day hh hour mm minute ss second 7 3 ARCHIVE FILES STRUCTURE The archived data files on the SD card are in the form of the columns where each column of data is separated by a comma A column description is in the first line of the file Data records are sequentially arranged in the rows An example of the file is shown in Figure 15 49 Plik Edycja Format Widok Pomoz cate time record index block registeri namel valuel oe register16 namel 2014 12 17 08 32 74 0000512808 0 7500 U 1 2 237691F402 7519 0 000 2014 12 17 08 32 25 0000512809 0 7500 1 1 2 237591F402 7519 0 020 2014 12 17 08 32 26 0000512810 0 7500 1 1 2 240462F402 3 7519 0 00 2014 12 17 08 32 27 0000512811 0 7500 1 1 2 241046F402 il 7519 0 020 2014 12 17 08 32 28 0000512812 0 7500 1 1 2 243908F402 x 7519 0 000 2014 12 17 08 32 29 0000512813 0 7500 U_1 2 240464E 02 7519 0 000 2014 12 17 08 32 30 0000512314 0 7500 Ui1 2 243808E402 E 7519 0 090 2014 12 17 08 32 31 0000512815 0 7500 U 1 2 241046E402 EE 7519 0 050 2014 12
47. ion Number of bytes 00 14 07 DO BB 9A 01 10 OF A3 00 02 04 Response E 9 A E Register address Number of registers one z D og E checksum 0 Ira B1 BO B1 BO 01 10 OF A3 00 02 B2 FE Device identification report code 11h Example 7 Device identification Request 83 CRC 52 as checksum iL 01 11 CO 2C Response 2 Information field of the device 29 5 9 8 8 software version E 2213 20 a e g N100 1 00 b 1 06 N100 eL 63 S E 3 S 8 device with software version og jej 2 o 1 00 and bootloader version a 1 06 4E 34 33 20 2D 31 2E 30 30 20 01 11 19 CF FF 20 20 20 20 20 20 62 2D 31 2E EO 24 30 36 20 55 8 3 Ethernet interface 10 100 BASE T The N100 meters version N100 XX1XXXX are equipped with an Ethernet interface for connecting the meter using the RJ45 socket to the local or global network LAN or WAN The Ethernet interface allows to use the web services implemented in the meter web server FTP server Modbus TCP IP Configure Ethr group parameters to use the meter s network services The standard Ethernet parame ters of the meter are shown in Table 10 The main parameter is the IP address of the meter by default 192 168 1 100 which must be unique in a network the device will be connected to The IP address can be assigned to the meter automatically by the DHCP server prese
48. ir cable with separate foil for every pair and additional mesh cable shielding SF FTP former S STP twisted pair cable with separate foil for every pair and additional mesh and foil cable shielding The twisted pair cable categories according to the European standard EN 50171 are minimum Class D category 5 for high speed local area networks includes the applications using the frequency band up to 100 MHz For Ethernet connection use the category 5 STP type twisted pair cable shielded with RJ 45 connector wiring colors according to Table 11 compliant to the following standards EIA TIA 568A for both connectors in strike through connection i e between N100 and hub or switch EIA TIA 568A for the first connector and EIA TIA 568B for the second one in the cross over connection i e when connecting the N100 meter to the computer Table 11 Wire Se Wire color according to the standard nos EIA TIA 568A EIA TIA 568B 1 TX white green white orange 2 TX green orange 3 RX white orange white green 4 EPWR blue blue 5 EPWR white blue white blue 6 RX orange green 7 EPWR white brown white brown 8 EPWR brown brown 57 Fig 16 View and pin numbering of the RJ45 socket 8 3 2 WWW Server The N100 meter provides its own web server which enables remote monitoring of the measuring values remote configuration and reading a status of the meter A web page allows in particu
49. lar to obtain information about the device serial number code execution Software version bootloader version version standard or special preview current measuring values read a device status select the web page language You can access the web server using a web browser by entering the IP address of the meter e g http 192 168 1 100 where 192 168 1 100 is set IP address of the meter The default web Server port is the port 80 The server port can be changed by the user Caution A browser with JavaScript enabled and compatible with XHTML 1 0 is required for correct operation of the website all popular browsers Internet Explorer version 8 minimum 58 8 3 2 1 General view Refresh mode O Measured energy values Measured min max values Ethernet RS 485 Modbus Measured values Parameter Value Parameter Value 228 97 V oe 230 v EE Ez EH 24813A RE 297 16 w 401 85 W 410 01 var Value 229 98 V 24831A 00 22 W Status About N100 Logout TA 205 24 var 570 7 VA PREY 07043 1 0084 mom THDI2 97 195 407 34 var 571 05 VA Parameter vn 3 Qu DER o 70085 THDI 1 0178 0 96 448 97 982 Parameter Value Value 229 98 V 2 4822 A 1199 2 W 1222 6 var 1712 6 VA 49 999 Hz 398 85
50. lay 4 0 4385 RW 0 1 Restore manufacturer s 0 pages Table 16 E S 2 E E 9 Be o a 3 ES ES z Slelz 2 Gel Be o o a n 26 2 o o o o o o a q o ire 6000 7000 7500 R L1 phase voltage V Y x 6002 7002 7501 R L1 phase current A y N 6004 7004 7502 R L1 phase active power Y x 6006 7006 7503 R L1 phase reactive power VAr Y xX 6008 7008 7504 R L1 phase apparent power VA y x 79 L1 phase active power factor 6010 7010 7505 R PF1 P1 S1 y 6012 7012 7506 R tgo factor of L1 phase 4 tg1 Q1 P1 6014 7014 7507 R THD U1 96 y 6016 7016 7508 R THD 11 N 6018 7018 7509 R L2 phase voltage y 6020 7020 7510 R L2 phase current A y 6022 7022 7511 R L2 phase active power Ww y 6024 7024 7512 R L2 phase reactive power VAr y 6026 7026 7513 R L2 phase apparent power VA y 6028 7028 7514 R ed city 6030 7030 7515 R 9 Ee ueni 6032 7032 7516 R THD U2 N 6034 7034 7517 R THD 12 96 Y 6036 7036 7518 R L3 phase voltage y 6038 7038 7519 R L3 phase current A N 6040 7040 7520 R L3 phase active power y 6042 7042 7521 R L3 phase reactive power VAr y 6044 7044 7522 R L3 phase apparent power VA y 6046 7046 7523 R gt ER EE ues 6048 7048 7524 R tgo factor of L3 phase y tg3 Q3 P3 6050 7050 7525 R THD U3 y 80 6052 7052 7526 R
51. nd unit parameters The values of the measured parame ters are shown on the active pages selected by subsequent pressing the button B next page or previous page The page consists any 4 values selected from the Table 1 and displayed simultaneously on the meter The page definition is described in the configuration mode P Front panel description gt ENTER acceptance f1 f2 F3 f4 4 4 75 digit display button sections for readout and settings pw right displacement Var Wh units of the displayed button PF tg values increase value button L1L2L3 indication of displayed phase decrease value button A1A2A3 symbols of alarms Cy activation left displacement DM Averaged value 4 button indicator Demand ESC resignation k M kilo 10 e or back button Mega 10 RxTx Indicators of receiving and transmitting data on the RS485 link SD indicator of writing on SD SDHC card The assignment of individual buttons is as follows The button lt allows to enter the procedure SEt pressed for more than 3 seconds when programming is used to accept the entered value The buttons V gt 4 when programming are used to change the value of the digit in the decimal position They enable to display the minimum and maximum values respectively in the measurement mode The buttons gt enable to change the pages in the measurement mode when p
52. nic distortion factor referred to the voltage THD current THD n 2 51 0 0 100 0 FFT analysis Fast Fourier Transform Real Time Clock 20 ppm real time clock battery CR2032 Registration Archiving period registration interval 1 3600 sec Registration activation modes n on noFF on oFF H on HoFF Registration time depends on the recording interval eg for interval 1 sec ca 220 days SD internal memory 8GB Terminals Cross section 0 05 2 5 mm Clamping screws M3 Tightening torque 0 5 Nm Protection grade ensured by the housing from the front IP 40 from terminals side IP 20 Weight 0 8 kg Overall dimensions 144 x 144 x 77 mm Reference and rated operating conditions supply voltage Uaux 85 253 V a c 40 400 Hz or 90 300 V d c 96 input signal 0 0 1 121 0 1 0 2 1 2 U for current voltage PFi tg frequency 45 50 60 65 Hz sinusoidal THD x 8 power factor 1 0 1 ambient temperature 10 23 55 C class K55 acc to EN61557 12 0 40 60 95 no condensation 40 400 A m d c storage temperature 20 70 C humidity max peak factor current 2 voltage 2 external magnetic field lt 40 lt short term overload voltage inputs 5 sec current inputs 1 sec working position warm up time Real time clock battery Additional errors in of the base error from ambient temperature changes for THD gt 8 Standards
53. nt in the network if the meter has an option to obtain an address from DHCP server enabled Eth dHCP YES If the DHCP service is disabled then the meter will work with the default IP address allowing the user to change the IP address e g from the menu of the meter Any change of the Ethernet parameters requires the confirmation e g from the menu Et hr APPL YES or entering the value 1 to the register 4099 The Ethernet interface is rebooted in accordance with the new parameters after applying changes all services of the Ethernet interface are restarted 8 3 1 Connecting 10 100 BASE T interface Connect the device to a TCP IP network using the RJ45 Socket located at the back terminal side of the meter to get access to the Ethernet services The meter s RJ45 socket LEDs description yellow LED illuminates when the meter is properly connected to the Ethernet 100 Base T does not illuminate when the meter is not connected to a network or is connected to a 10 Base T green LED TX Rx illuminates irregularly illuminates when the me ter sends and receives data illuminates continuously when no data is transmitted 56 lt is recommended to use a twisted pair cable to connect the meter to the network U FTP twisted pair cable with a separate foil for every pair F FTP twisted pair cable with separate foil for every pair and addi tional foil shielding for the cable S FTP former SFTP twisted pa
54. on software set in the settings required serial port baud rate mode and address of the meter Next select the N100 meter and click Config Click the down arrow icon to read all of the settings then the disk icon to save the settings to a file required to restore the settings later After selecting the option Update firmware in the upper right corner of the screen the window Lumel Updater LU will be opened LU Fig 20b Click Connect The Messages information window displays information concerning upgrade process If the port is opened correctly a Port opened message appears Upgrade mode is enabled using either of the two methods remotely via LU using LPCon settings address mode baud rate COM port and by turning a meter on while pressing the button 4 while entering bootloader mode the button is used to set communication settings baud rate 9600 RTU8N2 address 1 The display will show the bootloader version while the LU program displays the message Device found and the name and version of the connected device Click the button and browse to the meter upgrade file If the file is opened correctly a File opened message is displayed Press the Send button When upgrade is successfully completed the meter begins normal work while the information window displays Done message and upgrade elapsed time After the LU window is closed go to parameter group Service parameters select Set default meter settings and press the
55. onnection con 3PH 4 3PH 4 3phase 3PH 4 SPH 3 4 wire 3PH 3 3phase 3 wire 3 Reversed direction c no yES no of the current in phase L1 4 Reversed direction E no yES no of the current in phase L2 5 Reversed direction 3 no yES no of the current in phase L3 6 Input current range ra 1A 5A Input range 1A or 5A 5A 7 Current tei 1 10000 1 transformer ratio 8 Voltage teu 1 4000 transformer ratio 9 Averaging gt t 15 t 30 Averaging time t 15 time Demand t 60 active power integration time P Demand reactive power S Demand current Demand t 15 t 30 t 60 10 Averaging 55 on oFF oFF synchronized with the real time clock 28 11 Energy counters Ent no EnP no no activity no erasing Enq En P erase active En S En energy AL En q erase reactive energy En S erase apparent energy En AL erase all energies 12 Erasing averaged Aud YEs no no parameters 13 Default settings dtr no yES Restoring default no factory group settings Par During changing the parameter it is checked if the value is in the range If the set value falls outside the allowable range the value is set to the maximum value when entered value is too high or minimum value when it is too low Free eCon software can also be used for configuration of the N100 meters it is available on the website www lumel com pl 29 6 5 2 Set
56. p aie gi o Ed 59 5 BE E g HE ES o S OG os E E 7 od zo a gt a g 1 Archived values Aran 1 16 acc to Table 6 0 2 Value triggering ren 0 43 acc to Table 6 0 an archiving 0 archive off n on noFF Archiving type on oFF H on 3 archiving on Art HoFF 3non Fig 13 HoFF condition 3noF 3_on 3_oF Ta mum 4 Archiving lower Bet 144 0 144 0 in of the rated 90 limit triggering value T mw 5 Archiving upper Re Hu 144 0 144 0 in of the rated 110 limit triggering value 6 Archiving period Ar lE 1 3600 in seconds 1 7 Deleting an Ar dt no yES n 42 a n_on Archiving 1 on 0 off gt Ar L Ar H triggering value b noFF A Archiving 1 on off 0 gt Ar_L Ar_H triggering value gt Ar_L Ar_H triggering value gt Ar L Ar H triggering value Fig 13 Archiving types a n on b noFF c on d OFF 43 Remaining types of the archiving H on always enabled HoFF always disabled 3non archiving is enabled when n on type condition occurs on any phase It will be switched off only when all triggering condition are disabled 3noF archiving is enabled when noFF type condition occurs on any phase It will be switched off only when all triggering condition are disabled 3 on archiving is enabled when on type condition occurs on any phase It will be switched off only when all triggering condition are disabled 3 oF
57. power min var Ni y 6246 7246 7623 R 3 phase reactive power max var y y 6248 7248 7624 R 3 phase apparent power min VA y y 6250 7250 7625 R 3 phase apparent power max VA Y y 6252 7252 7626 R Power factor PF min y y 6254 7254 7627 R Power factor PF max y y 6256 7256 7628 R Reactive to active power 4 J ratio 3 phase mean min Reactive to active power 6298 1258 1629 R ratio 3 phase mean max Y Y 6260 7260 7630 R Frequency min Hz N N 6262 7262 7631 R Freguency max Hz y y 6264 7264 7632 R Ius oe V aa voltage min Mean phase to phase 6266 7266 7633 R voltage max V y y Active power averaged 6268 7268 7634 R P Demand min W y y Active power averaged 6270 7270 7635 R P Demand max Ww y N Apparent power averaged 6272 7272 7636 R S Demand min VA N y Apparent power averaged 6274 7274 7637 R S Demand max VA N y Current averaged 6276 7276 7638 R I Demand min A y y 6278 7278 7639 R Current averaged A Fs I Demand max 86 6280 7280 7640 R Neutral wire current min A y x 6282 7282 7641 R Neutral wire current max A y x 6284 7284 7642 R THD U1 min yI x 6286 7286 7643 R THD U1 max v x 6288 7288 7644 R THD U2 min A x 6290 7290 7645 R THD U2 max vy x 6292 7292 7646 R THD U3 min E 6294 7294 7647 R THD U3 max V x 6296 7296
58. r bytes 4121 R 0 65535 Serial number two younger bytes 4122 R 0 65535 Software version 100 4123 R 0 65535 Bootloader version x 100 72 4124 R 0 100 The amount of space used on the SD 0 card in R reserved 0 R reserved 0 4127 R 0 65535 Nominal voltage x10 577 2300 4000 4128 R 0 65535 Nominal current 1 A x 100 100 4129 R 0 65535 Nominal current 5 A x 100 500 The alarm switching values stored in the registers 4016 4017 4024 4025 4032 4033 are multiplied by 10 e g the value of 100 should be entered as 1000 The lower and upper values of the input range of the continuous outputs stored in the registers 4040 4041 4047 4048 4054 4055 are multiplied by 10 e g the value of 100 should be entered as 1000 The lower and upper values of the current outputs range stored in the registers 4042 4043 4049 4050 4056 4057 are multiplied by 100 e g the value of 20 mA should be entered as 2000 Energy is made available in hundreds of watt hours var hours in double 16 bit register and for this reason you should divide them by 100 when calculating values of particular energy from registers e g Active import energy reg value 4104 x 65536 reg value 4105 100 kWh Active export energy reg value 4106 x 65536 reg value 4107 100 kWh Reactive inductive energy reg value 4108 x 65536 reg value 4109 100 kVarh Reactive capacity
59. rchived value name16 Modbus register description of the sixteenth archived value value16 sixteenth archived value The decimal separator is the values are saved in a engineering notation format namef name16 description according to Table 6 Displayed parameter 7 4 DOWNLOADING ARCHIVE FROM SD CARD Archived data is stored in the files The files can be downloaded via Ethernet using FTP 50 8 SERIAL INTERFACES 8 1 RS485 INTERFACE LIST OF PARAMETERS The implemented protocol is compliant with the PI MBUS 300 Rev G specification of Modicon List of N100 meter serial interface parameters identifier OxD6 meter address 1 247 baudrate 48 96 19 2 38 4 57 6 1152 kbit s operating mode Modbus RTU transmission mode 8N2 8E1 801 8N1 max response time 600 ms max no of registers read in a single query 61 registers 4 byte registers 122 registers 2 byte registers implemented functions 03 04 06 16 17 03 04 register readout 06 single register writing 16 writing of n registers 17 device identification Default settings address 1 baud rate 9 6 kbit s mode RTU 8N2 8 2 EXAMPLES OF REGISTERS READOUT AND WRITE Readout of n registers code 03h Example 1 Readout of two 16 bit integer registers starting with the register address OFAOh 4000 register values 10 100 51 Request o c Register
60. reactive power MENA Ly a 13 14 3 phase L1 L2 f1 f2 31 apparent power 5 MVA L3 3 f4 active power L1L2 ne 32 factor 3 phase PF PF L3 f3 f4 PF P S tg factor f1 f2 33 average for EG tg Like f3 f4 3 phases L3 tg Q P 34 frequency F Hz L1L2L3 f4 phase to f1 12 35 phase voltage Uie M k V L1L2 f3 f4 L1 L2 phase to f1 f2 36 phase voltage ue3 M k V E2L3 f3 f4 L2 L3 phase to no 37 phase voltage U3 M k V L3L1 BU L3 L1 23 mean phase 38 to phase uie3 M k V cia un voltage i active power L1 L2 39 averaged Pot M k W L3 DM f4 P Demand reactive power LL 40 averaged Sot M k VA L3 DM f4 S Demand current 41 averaged dt DA E eed f4 I Demand Active 3 phase L1L2 f1 f2 4z import energy EaP M k Wh L3 3 4 Active 3 phase L1L2 f1 f2 43 export energy bak M k Wh L3 f3 f4 Reactive 3 phase M k 11 L2 f1 f2 inductive d VArh L3 3 44 energy Reactive f1 f2 45 3 phase Epa MS HE 13 14 capacity energy VArh L3 amp g gu 3 phase L1L2 11 52 2d apparent energy PS M k VAh L3 3 4 Active energy n4 47 from external ENPE M k Wh BU counter i Date day T f1 f2 8 month donn 3 44 49 Date year yyyy uo Time hours f1 f2 50 minutes hhn 3 64 Time f1 f2 seconds 55 f3 f4 24 6 5 Parameter settings
61. rogramming enable a cursor displa cement to successive decimal positions in the procedure SEt enable to change the displays luminosity The button _C lt gt enables in anytime the resignation of carried out operations or return to a higher level in the procedure SEt lt cancels the alarms in measurement mode 6 2 Power on message 7 1 9 LH Fig 6 Message atter starting the meter 15 After switching the supply on the meter performs a display test and displays the N100 meter name version and current software version where N100 meter type 230V 5A version r1 00 revision version of the program 6 3 Operating modes The N100 meter has 8 modes listed below Mode Call out Name Call out Input Output symbol measurement default by entering a different mode meter parameters PRe inputs and outputs ino parameters binary and RS485 interface alarm configuration At in SETUP ESP or lt 4 J AL procedure after last parameter AL3 analog outputs o configuration Boe fo3 pages PAG configuration 16 Archive Arch parameters in SETUP CP or Ethernet Ethr procedure after last parameter parameters The meter enters the measurement mode and displays the page set befo re it was turned off after switching the supply on and performing the tests To enter the SETUP procedure press the bu
62. s is shown in Table 13 Registers for writing and readout 6000 6907 Float Value is set in the two following 16 bit 2x16 registers Registers contain exactly the bits same data as 32 bit registers of 7500 7952 range Readout registers Bytes sequence 1 0 3 2 7000 7301 Float Value is set in the two following 16 bit 8002 8607 2x16 registers Registers contain exactly bits the same data as 32 bit registers of 7500 7952 range Readout registers Bytes sequence 3 2 1 0 7500 7953 Float Value set in the 32 bit register Description 32 bits ofregisters is shown in Table 14 Readout registers 64 Table 14 2 5 590 dm A 28 2 2 3 Ds G o n SEN e E O a 4000 RW 0 9999 Protection password 4001 RW 0 reserved 0 4002 RW 0 7 Bit 0 1 reversed direction 0 of the current in phase L1 Bit 1 1 reversed direction of the current in phase L2 Bit 2 1 reversed direction of the current in phase L3 4003 RW Deal Type of connection 0 0 3Ph 4W 1 3Ph 3W 4004 RW 0 1 Input range 1Aor5A 0 1A 1 5A 1 4005 RW 1 10000 Current transformer ratio 1 4006 RW 1 4000 Voltage transformer ratio 1 4007 RW 02 Averaging time of the active power 0 P Demand reactive power S Demand current Demand 0 15 1 30 2 60 minutes 4008 RW 0 1 Synchronization with real time clock 1 0 no synchronization 1 synchronization with a clock
63. t 10 1 capacity 3L min Bit 9 1 capacity 3L Bit 8 1 capacity L3 max Bit 7 1 capacity L3 min Bit 6 1 capacity L3 Bit 5 1 capacity L2 max Bit 4 1 capacity L2 min Bit 3 1 capacity L2 Bit 2 1 capacity L1 max Bit 1 1 capacity L1 min Bit 0 1 capacity L1 75 Table 15 S20 o S ae 2 E E EIN E i E mg 8 a 4300 RW 1 10 Display luminosity 1 min 8 10 max 4301 RW 0 1 Color of the display 0 0 red 1 green 4302 RW reserved 0 4303 RW 0x0001 0xFFFF Enabling page display BitO OxO3FF page 1 Bit1 page 2 Bit15 page 16 4304 RW 0 0x000F Enabling page display BitO 0x0000 page 17 Bit3 page 20 4305 RW 00 33 35 38 42 51 Page 1 display 1 1 4306 RW 00 33 35 38 42 51 Page 1 display 2 10 4307 RW 00 33 35 38 42 51 Page 1 display 3 19 4308 RW 00 51 Page 1 display 4 34 4309 RW 00 33 35 38 42 51 Page 2 display 1 35 4310 RW 00 33 35 38 42 51 Page 2 display 2 36 4311 RW 00 33 35 38 42 51 Page 2 display 3 37 4312 RW 00 51 Page 2 display 4 38 4313 RW 00 33 35 38 42 51 Page 3 display 1 2 4314 RW 00 33 35 38 42 51 Page 3 display 2 11 4315 RW 00 33 35 38 42 51 Page 3 display 3 20 4316 RW 00 51 Page 3 displ
64. the web server After this time a user will be automatically logged out from a web server The change of the group parameters renews time to expiry of the session 60 8 3 3 Serwer FTP The FTP file sharing protocol has been implemented in the N100 meters The meter acts as a server allowing the users to access the internal memory of its file system Access to the files is possible using a computer a tablet with installed FTP client or other device acting as a FTP client The standard FTP ports are used for transferring files 20 data port and 21 commands port A user can change the port used by the FTP protocol if necessary Please note that the port configuration of the FTP server and the client must be the same The FTP client program can work in either active or passive mode lt is recommended to set the passive mode because the connection is fully made by the FTP client a client chooses the data port The server in active mode determines the choice of the data port e g port 20 It is possible to use of up to one connection at the same time for the file transfer so you should limit the maximum number of a FTP client connections to 1 8 3 3 1 FTP user selection The meter has two user accounts for the FTP server protected by the individual passwords user admin password admin access to read and write the files user user password passftp access to read only the archive files The
65. ting the input and output parameters InoUt Select the InoUt mode in options and confirm selection by pressing the button J Table 3 E E BS 0 o S ow D E EE E 2 ga BE og D G OG otv a Tm rd zuo a 2 A o o a ke 1 Modbus Adr 1 247 1 Network Address 2 Transmission krb r8n2 r8E1 r8n2 mode r801 r8n1 3 Baud rate 9 6k 4 Constant of Number of 1000 pulse output impulses 1kWh 0 disabled 5 Constant of Number of 1000 external energy impulses 1kWh counter 0 disabled 6 Hour minute 00 00 00 00 23 59 7 Day month d n 01 01 1 01 2014 31 12 8 Year 4444 2014 2100 2014 9 Default settings dEF no YES Restoring n default group settings InoUt 30 6 5 3 Alarm configuration ALn In the options select the ALn mode and confirm selection by pressing the button 1 Table 4 5 5 is E o o LES 50 El ES E gt 28 EE sE 2 5 9 o0 oU c D r zu a 2 a o o a kc 1 Quantity on AL1 6 103 the alarm AL n 0 43 coge ki m 6 AL2 t 8 output A AL3 P 2 Alarm type n on noFF on oFF H on DNE HoFF 3non Fig 10 n on 3noF 3 on 3 oF i 0 3 Alarm lower Rok 4440 1440 in of the rated 90 0 limit input value i 0 Sem l a maamo Deae ee 110 0 limit input value 5 Time delay orane Atn 0 3600 in seconds 0 Switch on reaction 6 Time delay grine ace 0 3600 in seconds 0 Switch off reaction 7 Al
66. to 0 2400 zakresu wyj cia pradowego 1 10uA 4043 RW 1 2400 Continuous output 1 upper value 2000 of the current output range 1 10uA 4044 RW 0 2 Continuous output 1 manual switching on 0 0 normal work 1 value set from the register 4042 2 value set from the register 4043 67 4045 RW 0 1 43 Continuous output 2 output value 28 code as in Tab 6 4046 RW 0 2 Continuous output 2 type 0 0 20 0 mA 1 4 20 mA 2 20 20 mA 4047 RW 1440 0 Continuous output 2 lower value of 0 1440 hol the input range in of the rated input range 4048 RW 1440 0 Continuous output 2 upper value 1000 1440 I J of the input range in of the rated input range 4049 RW 2400 0 Continuous output 2 lower value 0 2400 of the current output range 1 10uA 4050 RW 1 2400 Continuous output 2 upper value 2000 of the current output range 1 10uA 4051 RW 022 Continuous output 2 manual switching on 0 0 normal work 1 value set from the register 4049 2 value set from the register 4050 4052 RW 0 1 43 Continuous output 3 output value 29 code as in Tab 6 4053 RW 0 2 Continuous output 3 type O 0 20 mA 0 1 4 20 mA 2 20 20 mA 4054 RW 1440 0 Continuous output 3 lower value 0 1440 Phl of the input range in of the rated input range 4055 RW 1440 0
67. ts 3 relays 1 analog 1 pulse input 1 pulse output analog output range is 0 20 mA in version outputs 3 analog 1 relay analog outputs range is 20 0 20 mA The analog outputs are programmable in both versions ORDERING CODE EXAMPLE the code N100 2 1 1 1 00 E 1 means N100 N100 meter 2 input voltage 3 x 230 400 V 1 3 relays 1 programmable analog output 0 20 mA 1 with Ethernet interface and internal memory file system 00 standard version E English language version 0 without extra requirements 100 101 102 103 LUMEL EVERYTHING COUNTS LUMEL S A ul Stubicka 1 65 127 Zielona G ra POLAND tel 48 68 45 75 100 fax 48 68 45 75 508 www lumel com pl e mail lumel lumel com pl Export department tel 48 68 45 75 139 45 75 233 45 75 321 45 75 386 fax 48 68 32 54 091 e mail export lumel com pl N100 09B
68. tton 4 for approx 3 seconds Use the buttons ww ae to select an appropriate mode Active mode Pfr inolt Ain Ron PAL Rech or Et hr is indicated by blinking of the appropriate symbol Accept a selected mode by pres sing the button lt I where n number of an alarm or analog output Use the button to return to a measurement mode from other modes Ca 17 Enter the or CX or harmonics 2 51 i A Power Change Alarm reset supply of displayed pages gt Y TEST Display CV pressed pressed Display of the minimum values released Of the maximum values ED reset MEASUREMENT E LE eS reset Selection of harmonic ej Selection of harmonic currents 11 12 13 currents U1 U2 U3 ED E code harmonics Em E 2 84 y Y Selection of SEt parameters or rm change the display luminosity VY or selection of the group parameters PAr Inolt AL1 3 Ao1 3 PAG Arch Ethr fem l es as B Y Meter parameters Alarm parameters Pages configuration Ethernet parameters mode mode r mode Parameters acc to Table 2 Parameters acc to Table 4 4 EP AE Parameters acc to Table 8 SEG Cora der Coir Y Jor a EF ancr c v Jor la aer f gt
69. uency F 45 00 65 00 Hz Class 0 2 Harmonic distortion 0 0 100 0 Class 5 factor of voltage 50 60 THDU current THDI Hz Harmonic 0 0 100 0 Class 5 amplitudes of 50 60 voltage U Ugo Hz current la 1 59 4 x 475 digits two color LED display red green 14 mm Relay outputs Analog outputs Energy pulse output for the versions 3 relay outputs 1 analog Pulsing constant of OC output Passive pulse input for the versions 3 relay outputs 1 analog Serial interface RS485 Ethernet 3 or 1 programmable relay depending on the version volt free NO contacts load resistive 0 5 A 250 V a c or 5 A 30 V d c Switching number mechanical min 5 x 109 electric min 1 x 105 1 output 0 20mA 4 20mA programmable or 3 outputs 20 0 20 mA programmable depending on the version Load resistance lt 500 Q Voltage 10 V Basic error 0 2 1 OC NPN passive Supply voltage 18 27 V precision as for active power 0 9999 pulses kWh independently of set tr_U tr_I ratios 0 12 36V d c Modbus RTU 8N2 8E1 801 8N1 Address 1 247 Baud rate 4 8 9 6 19 2 38 4 57 6 115 2 kbit s maximum response time 600 ms 10 100 Base T RJ45 socket Server WWW Server FTP Server Modbus TCP IP DHCP client 95 Sampling A C converter 16 bit 6 4 kHz sampling rate at 50 Hz 7 68 kHz at 60 Hz Simultaneous sampling of all channels 128 samples per cycle Harmonics Harmonic n 1 51 Harmo
70. votageTHp vns L1 V f x mn L1 phase ud f1 f2 09 current THD 5 A Ei V X m L2 phase 2 11 12 10 voltage ule M k V L2 y x Ba 21 factor PF3 P3 S3 L2 phase wire f1 f2 1 current foe ds PE f3 f4 L2 phase f1 f2 12 active power P e M W iz f3 f4 L2 phase o n f1 f2 19 reactive power M EVAr L2 gn f3 f4 L2 phase 11 12 14 apparent power SUP MUS VA L2 f3 f4 L2 phase f1 12 45 active power Pre PF L2 f3 f4 factor PF2 P2 S2 tgo factor fi 2 16 ofL2 phase the tg L2 3 f4 tg2 Q2 P2 L2 phase a f1 f2 17 voltage THD ERY Vs L2 13 14 L2 phase 5 f1 f2 18 eurmentTHD e A ER 13 14 L3 phase f1 f2 19 voltage U 3 MV L3 f3 f4 L3 phase wire a 11 12 20 current 1 3 A L3 f3 f4 L3 phase f1 f2 p l 21 active power 3 MW L3 f3 f4 L3 phase o n f1 f2 es reactive power 3 M k VAr La Ez f3 f4 L3 phase 11 12 23 apparent power sd M k VA L3 f3 f4 L3 phase f1 12 24 active power PER PF L3 f3 f4 22 tgo factor f1 f2 25 of L3 phase ELI tg L3 3 f4 tg3 Q3 P3 L3 phase ig f1 f2 26 voltage THe EE v ES 13 14 L3 phase f1 f2 7 current THD 43 A Ed 3 4 mean 3 phase L1L2 f1 f2 28 current foi Ge L3 3 64 3 phase active L1L2 f1 f2 29 power MKW i3 13 14 3 phase Al L1L2 f1 f2 3
71. y when all alarms are disabled 3 on relay is switched on when on type alarm occurs on any pha se It will be switched off only when all alarms are disabled 3 oF relay is switched on when oFF type alarm occurs on any phase It will be switched off only when all alarms are disabled The alarm value in the series 3 alarms must be in the range 01 09 acc to Table 6 They work with identical thresholds of the Aof and Aon hysteresis for each phase The blanking of the alarm signali zation latch follows after pressing buttons CP and lt 4 for about 3 seconds Example no 1 of alarm setting Set alarm n on type for monitored value P 3 phase active power Version 5 A 3 x 230 400 V Setting the alarm on after exceeding 3800 W switching the alarm off after power drops to 3100 W Calculations rated 3 phase active power 3 x 230 Vx 5 A 3450 W 3450 W 100 96 3450 W 100 96 3800 W Aon 96 3100 W AoF 96 In conclusion Aon 110 1 96 AoF 89 9 96 Set Monitored value P Alarm type n on Aon 110 1 AoF 89 9 34 6 5 4 Analog outputs configuration Ao_n In the options select the Ao_n mode and confirm selection by pressing the button x Table 5 c 5 2 o 5 s0 o 5 ow 50 E EE E 2 LE FE cog 2 9 960 otv E 7 a zo a o n o o a ks 1 Value on the code as in Tab 6 Ao 1 103 continuous n 1 3 for the Ao 2 A output versions 3 outputs Ao 3 P Aon 0 43 analog 1
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