Operation and installation manual
Contents
1. 400 220 400 230 RMA 4 6 94 ROS Murs W KLEER BNA 400 220 A BHA 400 230 A SABES 1 2 3 400 220 400 230 pi ana TPS 4 6 FIRE 95 10 2 Solivia 3 3 25A BER Solivia 3 3 Solivia 3 3 25A B 25A lez FEN Z nn Lon 96 22. unoccupied connectors interfaces must sealed using provided sealing plugs 6 10 Setup settings The default display language for solar inverters leaving the Delta factory is set to English After connecting to correct DC voltage and running through self test you will be asked to specify the network ID and to select the desired country see 7 3 7 2 countries available Australia China India Korea and Taiwan The selection has to be confirmed another time by the user Once confirmed the network ID and the country selection are stored to the controller memory and the solar inverter is ready for operation Please note that the enter keys on the display are locked if there is no input entry within 5 minutes To unlock the enter keys you need to switch off the DC voltage and then switch it on again Country selection network ID lt Increase network ID Decrease network ID ESC gt Select country Next country Country before Normal mode Timeout if no key is pressed within 5 minutes Please note that once the country has been selected and confirmed it is only possible to change the country by following the steps as listed below 1 Please click ESC A for few seconds to get the key information 14 2 Provide the key code to Solar Support Team at support solar inverter com to PIN code valid for one us
3. d pm ded dQzyd r 40 Zrxd urd 320 dd d 410 20 5 41 Zryd d dvy d d d d d d r d d d d d d d d d d d r dd d d d d d r 30 40 50 60 3300 15070 3300 W 270 V zrzd d l d m d AIEMEEd d d d d d d rd d dv d pard d rd d d d d d d d d d r d d d dd d d d drtdDO d d d d r d d d d d dtd d d rd d r d di d d d d rd d di d d d d d d d d d d d d d r d d d d d d d d d d d d e UNJECOUEW 9 9 d d 9 9 dod 9 9 Id d d d d d r 9 9 Id d d rd d d do 9 ditt d d d d 9 rd ELUOJ 9 dich d w u d od d dd d d r d 3 d d 4 4
4. 9e W S BE Down Y Up ESC gt AC Volt Min 5 E value W lt 17132 A Down D Up ESC gt AC Curr Max x 1 lt value w AHS ENG Down Y Up ESC gt AC Freq Max 91 s FA FL T 44 Value Hz 29 25 Down Y Up ESC gt AC Freq Min lt 9218229 Value 2 dtaa 9 Down Up ESC lt D gt Runtime Value Min lt 9171 4S EAA Down to 2 Y 1 rwwd dad m menu W Week statistic gt Submenu W Week L 2 Up to 1 Y ESC ou z sme xo W gt Energy Value kWh 1 8545 xg Down m Up ESC W gt AC Revenue lt 282 st A Value AUD Won Down M Up ESC IE lt W Runtime Value h lt e HBF 2 AS ANAS Down to 2 1 rwxd d dd m d d d d d r Main menu M Month statistic ENTER gt Submenu M Month le 2 Up to 1 Y ESC 917 lt M Energy lt lt 404458585 Down 4 Up LESC M gt AC Revenue A 20442 4449 Value AUD Won Down 4 Y Up ESC 4 4 M Runtime Value AZ ZE Down to 2 4 1 rwyd dd
5. Main menu Y Year statistic gt lt Submenu Y Year 2 Upto Y ESC Down 4 Y Up ESC gt AC Revenue Value AUD Won Down Y Up ESC lt gt Runtime Value Down to 2 Y gt Energy Value kWh 1 4 GT eaa 2 dara BAUS BA lt 54 rwzd d Main menu T Total statistic ENTER NUES Submenu T Total 2 Up to 1 Y ESC gt Energy Value kWh Down U ESC gt Revenue Value AUD Won Down Y Up ESC T gt PV Vol Value V Down Y Up ESC gt PV Cur Value A Down Y Up ESC gt PV Pow Value W Down Y Jp ESC gt Isolation Max Value Down 1 U ESC T gt Isolation Min Value Down U 5 T gt Runtime Value Min Down to 2 1 Y lt lt lt lt Ad gap Atl HER gt Wi rg w AGR 2 4 qus 55 r ENTER Main menu S Setup gt Submenu S Setup 4 2 Up to 1 A Y Z D contest 100 92849 8715 oF Hom ZEB Down Up ESC gt LCD Backlight lt LCD xus xs Auto On Down Up ESC 5 gt Menu Mode Now Setup Down Y
6. gt d uvzququ m det vyyry y ht vy d d dB dee d d d d di zvz d zutttgzqu d d dzqv d utttqzqv di de3 utttq utttqzqvd did zqw 4 zqw zqw zqwd 4 dB zutttqzqx 61 400 220V 92 400 230 PER ypg FE 400 220 V 400 230 V 71 5 z 7 24 ZA 7 ura 9 z 9 4 6 62 400 220V gt N 1 E 43 ul 43 400 220 400 230 7 8 5 7 ES 4 63 ut rvd d d Solivia 3 3 HR DC wet 1 4 sax RAZ E gt E a 1DC dais Solivia 3 3 HR 97 Solivia 3 3 25 07848 1 kWh 41 64 2 o 65 NE gt WJ ad d d d gt EELH ds NEEUOg g d d d r d d d d d 4
7. ESC gt Solar ISO GND ENTER a ISO ON Warning Down up ESC 5 gt Solar ISO GND ENTER k ISO ON Failure Down Up 5 5 gt Solar ISO GND ENTER gt 150 GND OFF Down Up ESC 5 gt Solar ISO GND ENTER ESC ENTER PV grounded Down Up ESC gt Solar ISO GND ENTER grounded A Down to 5 6 Use new value lt Submenu Setup ENTER 5 Country settings Name of country 5 Up to6 89 7 3 7 3 5 6 W Submenu Setup ENTER Firmware A 4 Up to 3 Y ESC S Firmware maj min bug Down Y Up ESC 5 gt Firmware DC Ctrl maj min bug Down Up ESC 5 gt Firmware SC Ctrl maj min bug Down Y Up ESC 5 gt Firmware Display Ctrl maj min bug Down to 4 3 81 1 W 2 W 3 1 W 4 W 5 W W N gt gt gt gt gt gt 90 8 2 El u il AC frequency AC voltage N W failure w lt w AC relay W failure W lt w Calibration DC injection failure w w Error 506 508 Isolation start up warning lt Isolation run W ning warning GND PV OIOU GND ding fault GND w PV grounding w w fault w D Revision error W w Self test z ongoing W 100 150 w PV power too w w low w PV voltage 100 y too low 150 w w Synchronize 91 SS SE SSS ee D Vari
8. Down Up Esc gt Country settings critical overvoltage x V lt x xx s Down Up gt Country settings Low frequency xxxx Hz lt xxx Down 4 Up Esc 5 gt Country settings h High frequency xx Hz lt x xx s Down 4 Y Up ESC 5 gt Country settings Islanding Active Not active Down Up Esc S gt Country settings PT injection lt x xx s Down UP Esc S gt Country settings Sync time x s Down to 54 81 7 3 7 3 Submenu Firmware More detailed information on the firmware menu within the submenu 5 Setup Submenu Setup ENTER Firmware 4 Up to 3 Y ESC gt Firmware AC Ctrl maj min bug A Down Y Up ESC 5 gt Firmware DC Ctrl maj min bug Down Y Up ESC 5 gt Firmware SC Ctrl maj min bug Down Y Up ESC 5 gt Firmware Display Ctrl maj min bug Down to 4 A 3 8 Diagnostics data evaluation 8 1 Malfunction rectification The solar inverter is provided with an automatic diagnostics system which independently identifies certain faults and which can make them visible on the display Troubleshooting in the field In principle it is always worth attempting a reset by reinitializing the solar inverter whenever an error message appears on the display To reset the device proceed as follows 1 Isolate
9. r Operation A 688 Earth Fault d 9 Failure O 8 19 d r r 9 u tt t gt dyduyt gt I i i iind 4 d gd a 9 rud lt 31a A B d d d D d d rvd d d d d318 d d d d ht d d d d d d d d d d 31a d d d d d r md d d d d d d d d d r d m d dd m dA m Gl dA m dl m m d d d d d d d dd dil d d 50 User menu 2 Up to 1 ESC Menu N Now act data gt ENTER Down Y Up ESC Menu D Day statistic ENTER Down Y Up ESC Menu W Week statistic Submenu N Now Submenu D Day Submenu W Week ENTER Down Up ESC Menu M Month statistic Submenu M Month ENTER Down Up ESC Menu Y Year statistic Submenu Y Year gt ENTER Down Up ESC Menu T Total statistic Submenu T Total ENTER Down Up ESC Menu S Setup inverter Submenu S Setup ENTER Down to 2 w spe X 99 d ss AU 51 rwud d d
10. 450 500 W 70 71 W W EMC W W 4 6 W 4 3 RS485 EIA485 Ui SS QON P W RS485 W 72 w TAB 2000 w 9 w 6 6 1 LED w 65 w 6 2 10 W w 65 50 73 6 3 6 4 Nm 410 05 74 6 5 25 C 70 W 30 40 50 60 3300WQ150V 3300W 270 V 3300 W 350 V 6 6 Wieland RST25i3S W W Lv Nv PE w w Wieland 2 5 4 0 w L 25 BW w w w w w w 75 6 7 W MC4 W W W w w w 500 W MC4 18 W w S gt Solar ISO GNDS 7 3 7 1 W 5 JIS0 ON Waming W Deltas ISO ON Waming W JPV JPV W W S PV 5 w w W Deltas S EOE99000275 W w JISO GND W 2 5 4 0 6 0 AWG 14 AWG 12 10 32 0010P0001 UR 32 0012P0001 UR 32 0011P0001 UR 32 0013P0001 UR 32 0014P0001 UR J 32 0016P0001 UR 32 0015P0001 UR 32 0017P0001 UR 6 7 1 2400 W 150 VDC 200 VDC 250 VDC 300 VDC 350 VDC 400 VDC 450 VDC 6 7 2 gt 250 W 96 94 92 90 88 86 84 0W 400 800 W 1200 W 1600 W 2000 2400 2800 W 3200 3300 W 150
11. 50 60 80 3300 150V 3300 270 V 3300 W 350 V 6 6 Grid connection The grid AC output is connected over a Wieland RST25i3S AC connector You can find the cor rect allocation on the screw type terminal connection of the connector The solar inverter must be connected to the grid over three core line The connected AC line must be switched potential free before the disconnection or the insertion of the AC connector The connection to the Wieland AC connector must be made with a flexible line and a conductor cross section of min 2 5 mm to 4 0 An automatic circuit breaker is to be provided in the line L upstream of every device with a nominal current of 25 A and tripping characteristic type B In addition attention is to be paid to the selectivity of the fuse unit attached upstream of the automatic circuit breaker The solar inverter must be grounded via the AC connector s PE conductor To do this connect the PE conductor to the designated terminal If you wish to integrate more than one inverter into the installation please proceed as illustrated in the drawings in the appendix Please note the cable length and the cable cross section due to the risk of undesirable temperature rise and power losses The AC connector is protected from unintentional disconnection by a clip mechanism which can be released with a screwdriver 8 6 7 Connection of PV mo
12. ESC in main menu M jumps to first entry of sub menu M 7 3 5 Submenu Y Year This menu item displays the average values of the current year Main menu Y Year statistic ENTER gt 1 ESC ESC ESC Down to 2 Y Submenu Y Year Y gt AC Revenue Value AUD Won Down U Up 1 A lt Y gt Runtime Value h 2 Up to 1 Y lt Y gt Energy Value kWh annual Down Y Up Display of the annual revenue Display of the annual operating time of the solar inverter Remarks ESC in main menu Y jumps to first entry of sub menu Y 20 7 3 6 Submenu Total This menu shows cumulated maximum minimum values since first use Main menu T Total statistic ENTER gt Submenu T Total 2 Up to 1 A ESC gt Energy Value kWh Down Up ESC T Revenue Value AUD Won Down U ESC PV Vol Value V Down Up ESC T gt PV Cur Max lt Value Down Up ESC T gt PV Pow Value W Down Up ESC gt Isolation Value kOhm Down U A p ESC gt Isolation Min Value A Down 5 lt T gt Runtime Value Min Down to 2 1 Y lt lt Remarks Display of the total energy gain Display of the total revenue Display of th
13. The inverter is usable indoors and outdoors IP65 In the following technical description the precise functions are explained to the installer as well as the user which are required for the installation operational start up and handling of the solar inverter 4 System The solar inverter converts direct current from the solar cells into alternating current This enables you to feed your self produced solar energy into the public grid Thanks to efficient MPP tracking maximum capacity utilization of the solar energy plant is ensured even in the case of cloudy sky conditions The string concept means that PV modules are always connected in series in a string and or that strings with the same voltage are connected in parallel to the solar inverter with the aim of signifi cantly reducing the photovoltaic system s cabling requirements The fact that the modules are connected in strings also means that the photovoltaic system can be perfectly matched to the solar inverter s input voltage range 4 1 Data evaluation and communication The integrated data display processing and communication of the device enables easy operation of the solar inverter Monitoring of the operational status and signaling of operational failures are ca pable of being called up over the device display The data interface enables the downloading of data which can be evaluated with a PC system and guarantees continuous recording of operating data The best
14. You can carry on using the solar inverter 6 See also display messages HSITSNA 7 Operating 7 1 display display the device indicates varied information enter keys used for the adjustment of the device and for the retrieval of information The indicated data can deviate with a tolerance of up to 5 ESC To switch from the menu items to the main menu and to exit each sub menu Key and For scrolling in the individual menu items and or carrying out adjustments in the setup A B D menu Key D ENTER ENTER key for changing into the menu levels and for input acknowledgement in the setup menu 7 2 Navigation in the display Lighting of the display After pressing the ENTER key in automatic operation the display lighting is switched on If no key is pressed within 30 seconds the display lighting automatically goes out The setup menu enables selection between continuous or automatic lighting Through pressing the ENTER key the display lighting is switched on again 7 3 Main menu The main menu consists of 7 menu items which are subdivided into submenus e Menu Now Menu D Day Menu W Week Menu M Month Menu Y Year Menu T Total Menu 5 Setup Handling of the menu items You can scroll the main menu by activating the selector keys Press the ENTER key to select the submenus In ord
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16. ESC 5 gt Cash KWh Vale qe z SF Bey 19194 AUD Won Down Y Up ESC 5 gt ID Number E wem 254 2999 DRZE ATUT Down Y Up 5 5 gt solarISO7GND iso GND 8944 Down 4 Y Up ESC 8 gt Country settings 7 of country lt lt 2 OPUS Down A Y Sp ESC gt Baudrate HE AS SES 2400 38400 WE YAAA Down Y Up ESC 8 gt Time HH MM SS lt 4748 25949 Down Y Jp ESC gt Dat 5 5 WDDDMMYYYY 44E 2399 Down Y Up ESC _ lt S gt Firmware 995 7 Down to 2 Y 1 56 Submenu Setup ENTER 4 Solar ISO GND A 3 5 Up to 6 Use old setting ESC gt Solar ISO GND ENTER a ISO ON Warning Down Up ESC 5 gt Solar ISO GND ENTER lt gt ISO ON Failure Down Up 5 5 gt Solar 150 GND ENTER gt ISO GND OFF Down Up ESC 5 gt Solar ISO GND ENTER I _ gt PV grounded Down Up ESC 5 gt Solar ISO GND ENTER grounded Down 05 4 6 Use new value lt wrtrvd d OUOUpdEEUJO dd d d d Submenu Setup ENTER Country settings Name o
17. 3300 W 250 V 3300 W 350 V 3300 W 450 77 6 8 RS485 EIA485 W W HARTING Deutschland GmbH amp KG 2451 32381 Minden www harting com W 09 451451510 Cable Manager Blue 67 Push Pull Data Plug 09 45 1451500 Cable Manager White IP67 Push Pull Data Plug RS485 EIA485 220 230 RS485 EIA485 EL 92380 RS485 EIA485 DA GND RS485 RX_B RS485 TX_A RS485 1 2 3 4 5 6 7 8 78 M B 2 RS485 EIA485 Pin 7 7 D 100 180 RXB j Ohm 025W Pin 6 79 6 9 WNE Wieland gt 150 5 Setup 80 6 10 Delta w ID 7 3 7 2 w w ID w 5 w w ID lt ID ID EE JESC NN ENTER 5 1 ESC 2 support solar inverter com 3 ESC W 4 PIN 5 w W W 6 11 LED LED LED A Operationg 5
18. Meter for power consumption 2 Meter for power feed in with back stop in each case Remark A meter can also be employed which registers both energy directions separately 400 220 Electric circuit distributor Switching equipment Consumer Anti islanding protection with voltage and frequency equipment of monitoring as well as network impedance measurement the customer Photovoltaic generator with Short circuit protection power inverter Overload protection max 4 6 kVA 28 Individual in plant generation system parallel operation without isolated operation possibility single phase feed with anti islanding protection separate feed Low voltage network 400 220 Low voltage network 400 230 V House connection line House connection box VNB Owner boundary Customer 400 220 400 230 Consumer equipment of the customer Photovoltaic generator with power inverter max 4 6 kVA Measurement unit 1 Meter for power consumption 2 Meter for power feed in with back stop in each case Remark A meter can also be employed which registers both energy directions separately 3 Meter for power take off of the customer system Electric circuit distributor Switching equipment Anti islanding protection with voltage and frequency monitoring as well as network impedance measurement Short circuit protection Overload protection 29 HSITDN 10
19. W Operation A Earth FaultS Earth Fault GND Ww Failure FailuS 5 W 81 5 100 w W 5 UPV 100 150 W UPV 150 450 m 5 W w w w w W 7 1 W W 5 w a ESC w w D ENTER ENTER A D W 7 2 W 30 w w ENTER w 2 NH lt Z UZ ENTER w ESC w User menu 2 Up to 1 ESC Menu N Now act data Submenu N Now ENTER Down Up ESC Menu D Day statistic Submenu D Day gt ENTER Down Up ESC Menu W Week statistic Submenu W Week ENTER Down Up ESC Menu M Month statistic Submenu M Month ENTER Down Up ESC Menu Y Year statistic Submenu Y Year ENTER Down Y Up ESC Menu T Total statistic Submenu T Total X ENTER Down Y Up ESC Menu 5 Setup inverter Submenu S Setup X ENTER Down to 2 A 1 ESC GRH SEDE E 83 7 3 1 W Main menu N Now actual data ENTER 5 lt N gt AC Power Value W w ESC ESC I Submenu N Now 2 Down Y Up to 1 lt gt AC Voltage Value V lt Down Y ur N gt AC Current Value lt Down 1 Up ESC gt lt
20. increased ambient temperature can reduce the efficiency of the PV system Noise generation is possible avoid installation in residential areas Ensure legibility of the LEDs and the display check read off angle and installation height Although the unit is fitted with UV resistant components direct exposure to sunlight should be avoided Despite having an IP65 enclosure and being certified in accordance with soiling category the unit must not be allowed to become heavily soiled Dusty conditions can impair the unit s performance 6 2 Minimum requirements Free convection around the solar inverter must not be impaired proper air circulation to dissipate heat allow a clearance of approx 10 cm to the side and approx 50 cm above and below the unit grid impedance requirement at the supply terminal is to be observed cable length cable cross section recommended installation position is to be adhered to vertical Unused DC connectors and interfaces must be sealed airtight with sealing plugs to en sure protection class IP65 for the whole system inverter amp cables 6 3 Maintenance Make sure device remains uncovered while in operation To avoid casing of the solar inverter becoming soiled it should be cleaned periodically User serviceable parts are not contained in the device Under no circumstances should the solar inverter be opened
21. 44 qu d d d d d d m du qd gt OUOEIQ d d d d d m d d d d d d d d d d ud d rd d d dusodx gt OUOEIQ du qd d EEN d r d d d d d d d d d d d d dd d ddd Id d d EW OMixd jjtttv yrd d d EWOd 09 Gd sr 43 150 VDC 200 VDC 250 VDC 300 VDC 350 VDC 20 31 wyd 2 T 2 ee 2 2 V4 divqut 32 0010P0001 UR 32 0012P0001 UR 32 0011P0001 UR 32 0013P0001 UR 32 0014P0001 UR 32 0016P0001 UR 32 0015P0001 UR 32 0017P0001 UR 400 VDC 450 VDC 44 dvwt d 96 94 92 90 88 86 84 0W 400 W 800 W 1200 1600 2000 2400 W 2800 W 3200 W 3300 W 150 V 3300 W 250 V 3300 W 350 V 3300 W 9 450 zr d d x yd x ym d d d d d d d d d d d d d r d d deEUCE d dur ud d d r 48 Om lt a t 3 amp ydixydiyut ARNE A Ex E dz quud ou LCE d d t ckyduxyduyt t ZE IUEdgz qu J 88485 EIA485 Su dg 220V 230V RS485 EIA485 A
22. 6 4 Installation You should utilize the delivered mounting plate for problem free installation of the solar inverter Installation to the wall should be implemented with the proper screws Mount the wall bracket so that the solar inverter only has to be simply attached After that the device is to be bolted on securely Assembly instructions 1 Mount the mounting plate with appropriate screws max 6mm into at least four of the eight holes to fix the wall bracket in place You can employ the mounting plate as a template for marking the positions of the boreholes 2 As the solar inverter weighs 21 5 kg it should be lifted out of the transport crate by at least two persons 3 Place the solar inverter onto the mounting plate with at least two persons 4 Fasten the supplied mounting nuts and washers on the threaded bolt intended for secu ring the device 5 Check that the solar inverter is securely sealed 1 8 1 Mounting 6 plate I I 65 Locking screw Locking scre 150 410 05 HSITDN 6 5 Ambient temperature solar inverter be operated in an ambient temperature between 25 to 70 The following diagram illustrates how the power supplied by the solar inverter is reduced automa tically in accordance with ambient temperature The device should be installed in a well ventilated cool and dry location 30 40
23. A 7 77 45 7 HE 31 2 g RS485 EIA485 1 A4 2 2 8 3 A4 4 412 RS485 5 3 8 8 1 6 RS485 7 TX A RS485 8 3 8 Suv oie 79 4AE Ads gas 1912 44 22017 2m epa RS485 EIA485 9151 110 gt SAS AA 433 Se usu 100 150 Ohm 0 25W OR NEA 85 46 253 KS ag AA KOCH Aa daa ang zr d d dd d d d d d d d d rd d d d dd e 47 d d d vra d d d wd ddd d di d d d d d d d r xd d d d d d d d r zrd d r d d eu ddyt rd d d d d dd m d d d d m Zrut d S 22 9 9 9 d d gm gm rd d d d d d rd d d m7 A8 RES ID 99 A ENTER SR YEAS ID HB en ENTER EE opa gt da we 7 x ez 5 uel 2 za d d d d d d d d d d r uc bd ddd dd d oO r vrd d d d 1CUOODx d en r 48 dw
24. Self test Initialization of solar inver ongoing ter on start up Normal function with a PV cell voltage of between 100 V and 150 V Insufficient insolation dawn twilight PY power EO Insufficient input power Check the PV cell voltage via the CH display in the N menu Insufficient insolation voltage Pv generator volage SCH Check the cell voltage via the display in the menu Checks grid voltage and eene grid frequency for grid Normal function before input mode input mode 25 HSITON DISPLAY LED STATUS MESSAGE CAUSE ELIMINATION Although you can in theory carry on using the solar inverter the varistors should be replaced at the earliest oppor tunity This will involve returning the device Varistor Internal varistor at the DC warning input is defective Please follow the instructions above before contacting your service technician 9 Technical data INPUT DC AUSTRALIA CHINA INDIA KOREA TAIWAN 4000 W 3630 W 125 540 V 125 540 V 125 540 V 125 500 V 125 540 V 150 450 150 450 13 0A 24 0A lt 0 2 W OUTPUT AUSTRALIA moa KOREA TAIWAN 3485 W 3300 W 230 V 220 V 230 V 220 V 220 V 210 0 264 0V 187 0 242 0V 184 0 264 5V 193 6 242 0 V 193 6 253 0 14 4 15 0 144 15 0 15 0 15 7 17 0 15 7 17 0 17 0 50 2 50 2 50 2 60 2 60 2 48 0 52 0 H
25. d Main menu N Now ENTER actual data 5 N gt AC Power Value W ESC 5 ESC gt 5 N gt 5 N gt ESC N gt ESC Down to 2 Y Submenu N Now 2 Y Down Y Up to 1 Up lt N gt AC Voltage Value V lt Down Y Up N gt AC Current Down Y Value Hz Down Y Down Y Down Y Down Y N gt Date WD DD MM YYYY Up Up Up Up Time HH MM SS 1 PV Voltage Value lt PV Current Value gt 4o Ki m gt gus 1e n Hd gt a 19 no eu Fel gt aud 19 A N a ES 9 dal 52 rwvd ded m d d d d r Main menu D Day statistic ENTER Submenu D Day 2 2 Up to 1 Y Energy Value Wh 5 95 99 Down Y Up ESC gt AC Revenue Value KT 44948 AUD Won r Fe BA Down Y Up VI D ACPowe Max e 495 BABY Value W Down Y Up ESC D gt AC Volt Max xu
26. m d d d r d d d d d d d d d HH d d d r d d d d m di m d dor m d d d d d d d E ONE d m m md d rd d 66 Id d d xy d x yd ym d 1 Sdvtttm 1 dtttd d d rd d d d 67 68 1 70 2 70 3 71 4 71 4 1 71 4 2 71 4 3 72 5 73 73 6 1 73 6 2 73 6 3 74 6 4 74 6 5 75 6 6 75 6 7 76 6 7 1 77 6 7 2 77 6 8 RS485 EIA485 78 6 9 80 6 10 81 6 11 LED 81 7 82 7 1 82 7 2 82 7 3 83 7 3 1 N 84 7 3 2 D 85 7 3 3 W 86 7 3 4 M 86 7 3 5 Y 86 7 3 6 87 7 3 7 5 88 7 3 7 1 S SolarISO GND 89 7 3 7 2 5 89 7 3 7 3 5 90 8 90 8 1 90 8 2 91 9 92 10 94 101 94 10 2 96 11 98 12 100 69 eee En En eL En En cc cc cc cec cc SOLIVIA 3 3 AP G3 SOLIVIA 3 3 AP G3W 9 gt 18 Delta Energy Systems Germany GmbH w w Delta Energy Systems 70 4 1 4 2 65 65 12 150 25
27. more the following option is available for terminating the RS485 EIA485 interface Reserved 100 150 Ohm 0 25W 12 controller Booster MPP Anti islanding protection Isolation Solar inverter Communi cation Operating and system control 6 9 Electrical connection and operational start up The electrical connection is utilized on this solar inverter using the connector contacts which are attached to the casing In no case must the device be opened Public grid 13 In order to connect the device electrically the following procedures must be followed 1 DC connection First connect the PV module strings to the DC disconnector not included in the scope of delivery 2 Connect the DC disconnector to the solar inverter ensure correct polarity 3 AC connection Please install the Wieland AC mating connector to the AC output cable and then put the AC connector to the solar inverter Please make sure that the sleeve nut is properly fixed and tighten Before switching on the power check all feeders and connections one last time Close the DC disconnector Close the circuit breaker on the AC output side In case of sufficient PV voltage UPV gt 150 V the device now goes into the start up mode In case of a new installation the time and date have to be set in sub menu S Setup see 7 3 7
28. 2 Overview of connection diagrams PV generator PV generator DC terminal stri 1 1 DC disconnector Merer for consumption Consumer equipment Solivia 3 3 Automatic Selective House circuit breaker Meter for main connection type B 25A power feed in circuit breaker box House connection line PV generator PV generator Solivia 3 3 Solivia 3 3 Automatic circuit Automatic breaker circuit breaker type 25 Ul type 25 Customer 1 Meter for Meter for kWh kWh power feed in 30 generator DC disconnector Solivia 3 3 31 11 Glossary AC Abbreviation for Alternating Current Anti islanding protection This is a unit for grid monitoring with assigned switching elements anti islanding protection and is an automatic isolation point for small power generation systems to 30 kWp CE With the CE identification code the manufacturer confirms the conformity of the product with the valid EC Guideline and compliance with the significant requirements stipulated therein DC Abbreviation for Direct Current EMC The Electro Magnetic Compatibility EMC concerns the technical and legal basics of the mutual influencing of electrical devices through electromagnetic fields caused by them in electrical engi neering Initialization Under initialization cf English to initialize is understood the part of the l
29. 2 Up to 1 4 ESC 2 T gt Energy Value kWh lt Down Y Up ESC gt Revenue Value ine AUD Won Down ESC gt PV Vol Max lt lt in ELE Value V Down ESC gt PV Cur a Value lt Down Y Up ESC T gt PV Pow MoME 2 Value Down Y Up ESC gt Isolation Max 6 1 ES Value kOhm gt ATRAIRE Down 1 U ESC gt Isolation Min 2 lt value kOhm Down U 5 20 lt gt Runtime Value Min Down to 2 1 Y 87 7 3 7 5 W Main menu S Setup ENTER Submenu 5 Setup po 2 Up to 1 Y ESC gt LCD Contrast L OR 9 Down Y Up ESC 5 gt LCD Backlight Auto On Down Y Up ESC 5 gt Setup Down Y Up ESC 5 gt Cash per kWh Value AUD Won A D own Up ESC S ID Number 001 254 Down Y Up 5 gt Solar ISO GND Down Y Up ESC S gt Country settings Name of country Down Up ESC S gt 2400 38400 Down Y Up ESC S gt Time HH MM SS Down
30. ALEO g r q d EENS bd ZU 36 37 d s d d d d d d d d d d d d d d 42 ckyt gt d d dytt d d d d d d d d d d d d d d d r d d d d d d d rd dvy d d d d r d d d d d d d d d d d d d d d d d d Id 9 9 9 9 9 d Id m 9 9 crz d d d d d d d d d d d d 38 lwnd d 4 d deo 39 r d d r d d d r __ d d r zd d zrud d r d ddmd r r d d d d d d d d d r d d d d d d d d amp zyd d d d d m d d r d r zrvd d d d d d d d d d d d dit EO d d det EOd d d
31. Operation and installation manual AELA N 11 12 Table of Contents Scope of delivery General warnings Notes on safety Introduction System 4 1 Data evaluation and communication 4 2 Technical structure of the solar inverter 4 3 Equipment overview Installation Installation of equipment 6 1 Installation location 6 2 Minimum requirements 6 3 Maintenance 6 4 Installation 6 5 Ambient temperature 6 6 Grid connection 6 7 Connection of PV modules 6 7 1 Output power over PV voltage 6 7 2 Efficiency 6 8 Interface connection RS485 EIA485 6 9 Electrical connection and operational start up 6 10 Setup settings 6 11 LED operation and fault display Operating concept 7 1 The display 7 2 Navigation in the display 7 3 Main menu 7 3 1 Submenu Now 7 3 2 Submenu D Day 7 3 3 Submenu W Week 7 3 4 Submenu Month 7 3 5 Submenu Year 7 3 6 Submenu T Total 7 37 Submenu S Setup 7 3 7 1 Submenu S Solar ISO GND 7 3 7 2 Submenu S Country settings 7 3 7 3 Submenu S Firmware Diagnostics and data evaluation 8 1 Malfunction rectification 8 2 Display messages Technical data Appendix 10 1 Connection examples 10 2 Overview of connection diagrams Glossary Certificates NOOO Q N N Q GQ O N N N N N N N N Q N O O O O O O O O O Q SP 100 1 Scope of del
32. Value 2 Down Up ESC lt gt PV Voltage Value Down 1 Up ESC lt N gt PV Current Value c Down Up 5 N gt Time HH MM SS Down Y Up ESC gt Date WD DD MM YYYY lt D to 2 own to 2 11 84 7 3 2 D W Main menu D Day statistic Submenu D Day 2 Upto 1 ESC Petz D gt Energy Value Wh 5 Down Up ESC gt AC Revenue Value AUD Won Down Up ESC gt Value W Down Y Up ESC D gt AC Volt Max E gu ES value Down Y Up ESC gt AC Volt Min lt u lt lt Down Y Up ESC gt R E Down Value Hz Down Up ESC gt Fi Value Hz Down U
33. Y gt ESC gt Date WD DD MM YYYY Down Y Up S gt Down to 2 1 lt lt LCD lt lt ENRE ARAR COTS RR ID ISO GND ARAA 2400 38400 88 7 3 7 1 S SolarISO GND Solar ISO GND gt Country settings critical undervoltage x V lt x xx s Down 4 Up 4 Esc S gt Country settings Undervoltage x V 5 Down Up Y S gt Country settings E Qvervoltage x V lt xmin Down Up S gt Country settings Critical overvoltage x V lt xx Down Up esc gt Country settings Low frequency xxxx Hz lt x xx s Down Up Esc 5 gt Country settings High frequency xx Hz lt x xx s Down 4 Y Up ESC S gt Country settings lslanding Active Not active Down Y Up Esc S gt Country settings pc injection lt x xx s Down Up Esc S gt Country settings M Sync time x s Down to 51 81 Submenu Setup ENTER x Solar ISO GND A 3 5 Upto6 Use old setting
34. ber and if applicable number of the test report Standard Test Report Number AS NZS CISPR 11 2004 06KFS054 VDE 0126 1 1 Declaration hereby declare that the product mentioned above complies with the requirements of the Radiocommunications Electromagnetic Compatibility Standard 2008 All products supplied under this declaration will be identical to the product identified above Gordon Slimmon Director 30 Nov 10 QUALSURE CONSULTANTS A division of Blulen Pty Ltd ACN 090 692 354 Registered Office 18 Hood Street Rosedale Vic 3847 CF3388 1 1 100 WWW SOlar inverter com Delta Energy Systems Germany GmbH Tscheulinstrasse 21 79331 Teningen Germany Sales sales solar inverter com Support Email support solar inverter com Sales Hotline 49 180 10 SOLAR 76527 Support Hotline 49 180 16 SOLAR 76527 Mondays to Fridays from 8 am to 5 pm CET apart from offical Bank Holidays 3 9 ct min Delta Electronics Korea Inc Duksoo B D 7F 234 9 Nonhyung dong Kangnam gu Seoul 135 010 Korea Tel 82 2 515 5303 5 Fax 82 2 515 5302 Email sales korea solar inverter com Delta India Electronics Private Limited No 728 Manjula Building 12Th Cross 22Nd Main Jp Nagar 2Nd Phase Bangalore 560 078 Karnataka India Phone 91 0 80 26584040 Extn 284 Mobile 91 9900001724 Email sales india solar inverter com AA NELTA 501221 2
35. dules Before the photovoltaic system is connected the polarity of the PV voltage at the Multicontact con nectors must be checked to ensure that it is correct The connection of the PV module is implemented using Multicontact MC4 connectors where the DC negative pole is located on the connector upper row and the DC positive pole on the connector lower row The connectors are coded to prevent you from accidentally plugging them into the wrong terminal Please ensure the following at all times That there is never any risk of anyone coming into contact with the solar inverter connection terminals due to the risk of dangerous voltages across them That under no circumstances the PV modules to be disconnected from the solar inverter under load If a disconnection should be necessary first switch the grid off so that the solar inverter cannot absorb any further power Next open the upstream DC disconnector The maximum input voltage of the solar inverter is 500 V The maximum current load of each indi vidual Multicontact MC4 connector is 18 A The solar inverter has an insulation and grounding monitoring on the DC side The options can be configured in the Setup menu S gt Solar ISO GND see 7 3 7 1 The insulation monitoring has two modes ISO ON Error the solar inverter is disconnected from the grid in the event of an insulation fault ISO ON Warning the solar inverter indicates the fault but is not d
36. e max PV cell voltage Display of the max PV cell current Display of the max PV cell power Display of the largest insulation resistance Display of the smallest insulation resistance Display of the total operating time of the solar inverter ESC in main menu T jumps to first entry of sub menu T 21 HSITDN 7 3 7 Submenu 5 Setup This menu item is used for changing presettings of the solar inverter Main menu S Setup gt Submenu S Setup 2 Up to 1 Y ESC gt LCD Contrast 0 9 Down Y Up ESC S gt LCD Backlight Auto On Down Up ESC 5 gt Menu Mode Now Setup Down Up ESC 5 gt Cash per kWh Value AUD Won A Down v Up ESC 5 gt ID Number 001 254 A Down Y Up 8 gt Solar ISO GND Down Up ENTER ESC 5 gt Country settings Name of country Down A Y Up ESC 5 gt Baudrate 2400 38400 Down Up ESC 8 gt Time HH MM SS Down Up ESC gt Date lt WD DD MM YYYY Down Y Up ESC lt S gt Firmware Down to 2 lt Adjustment of the brightness of the LCD display between 0 9 Adjustment of the LCD lt background lighting Selection of the start menu on restart of the device Entry of feed in remuneration in AUD Won per kWh Input of the ID number of the solar inverter ISO GND Set
37. e only 3 Once you get the PIN code you need to press ESC Y 4 Then you will be asked to insert PIN code and to confirm it twice 5 After confirmation you will then be able to select the desired country Note These steps must be executed without interruption Otherwise you will stay in the country selection mode 6 11 LED operation and fault display Three light emitting diodes LEDs which display the operational state of the solar inverter are attached on the front LED A green Operation displays the operational state Operation A LED B red Earth Fault displays an insula Earth Fau1t tion resistance fault or PV grounding GND fault on the DC side Failure e LED yellow Failure displays existing faults internally or externally and whether the grid feed in operation has been interrupted LED STATUS OPERATIONAL STATE EXPLANATION The input voltage UPV is lower than 100 NOO OS The solar inverter is not feeding power to the grid Input voltages Initialization 100 V to 150 V self test ongoing Input and grid moni toring Starting conditions are tested Normal operational state Feed in operation UPV 150 V to 450 V Internal or external fault Equipment fault interrupted feed See also display messages Solar inverter is not connected to the grid No power is delivered See also display messages General error condition
38. er to exit menus again activate the ESC key 16 User menu 2 Up to 1 ESC Menu N Now act data ENTER Down Up ESC Menu D Day statistic gt ENTER Down Up ESC Menu W Week statistic ENTER Down Up ESC Menu M Month statistic 7 ENTER Down Up ESC Menu Y Year statistic ENTER Down Up ESC Menu T Total statistic ENTER Down Up ESC Menu S Setup inverter ENTER Down to 2 1 Remarks Submenu N Now Submenu D Day Submenu W Week Submenu M Month Submenu Y Year Submenu Total Submenu 5 Setup ESC in main menu jumps to first entry of corresponding sub menu 17 HSITDN 7 3 1 Submenu Now This menu item displays the active values Main menu N Now actual data 5 5 5 5 5 5 5 Down to 2 Submenu Now 2 Down Y Down Y Down Y Value Hz Down Y Down Y Down Y Down Y N gt Date WD DD MM YYYY Up to 1 ESC gt AC Frequency Up 1 gt AC Power Value W lt gt AC Voltage Value V N gt AC Current lt
39. f country 5 Upto6 eso Country settings critical undervoltage x V lt x xx s Down 4 Up Y Esc S gt Country settings Undervoltage x V lt Down Up Y 5 gt Country settings ESC O enoltage x V lt xmin Down Up S gt Country settings E Critical overvoltage x V lt xxx s Down Up esc gt Country settings FS frequency xxxx Hz lt xxx s Down Up Esc 5 gt Country settings k frequency x xx Hz lt x xx s Down 4 Y Up ESC 5 gt Country settings Islanding Active Not active Down Y Up Esc S gt Country settings pc injection lt x xx s Down Up Esc S gt Country settings M Synctime x s Down to 5 et 440066 Submenu Setup ENTER Firmware 4 Up to 3 ESC R mal min bug Down Y Up ESC S gt Firmware DC Ctrl maj min bug Down Y Up ESC gt Firmware gt gt gt SC Ctrl maj min bug Down Y Up ESC 5 gt Firmware Display Ctrl maj min bug Down to 4 3 d d d d rud d d d d d d d d d d d r d d d d r ur d d d d r w xr d d d r yr d 9 d fd d d d
40. from different shading conditions of the PV modules is considerably reduced TAB 2000 The TAB 2000 are the technical regulations governing connection to the low voltage grid operated by distribution system operators in Germany These Technischen Anschlussbestimmungen or TAB for short have been in force since the year 2000 They define the requirements imposed by DSOs on the electrical systems operated by the end customers of utility companies 33 34 5 xrudd d xrvdd d xmdd d d yd d zd d d zrudd d Zivdd d Zrwdd Zrxdd d zrzdd d zr dd d zr rud 21 dd zr dd d zrutd 5 znud rudd rvdd mdd wud ww d rvdd d d ut rud dd ut rvd d uud d uvd d di 4 4 OMBd d 4 ed d lyOU BEd d 225505 22 utt 35 Hooooooooooo d 6 dwd d d d S d d d d md d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d rd d d d d d d d d 1 CE bd P
41. in output voltage Display of the daily maximum output current Display of the daily maximum output frequency Display of the daily minimum output frequency Display of the daily operating time of the solar inverter ESC in main menu D jumps to first entry of sub menu D 19 HSITDN 7 3 3 Submenu W Week This menu item displays the average values of the current week Main menu Week statistic ENTER gt 5 ESC W gt AC Revenue Value AUD Won Down Down to 2 Submenu W Week Up W gt Runtime Value h 1 2 Up to 1 ESC lt W gt Down Y Up Display of the weekly Energy Value kWh energy gain Display of the weekly revenue Display of the weekly operating time of the solar inverter Remarks ESC in main menu W jumps to first entry of menu W 7 3 4 Submenu M Month This menu item displays the average values of the current month Main menu M Month statistic ENTER gt 1 Submenu 2 Upto 1 Y ESC M Energy Value kWh Down Up ESC gt AC Revenue Value AUD Won Down Y Up ESC lt gt Runtime Value h Down to 2 Y 1 Display of the monthly energy gain p Display of the monthly revenue lt Display of the monthly operating time of the solar inverter Remarks
42. internal settings Normal function before input mode DC component of input the fault persists after the device has Buie side alternating current is been reset please inform your service too high technician If the fault persists after the device has Internal communication Error 301 been reset please inform your service error or hardware fault technician The device trips and Error 302 reverts to grid input mode Check the installation site no direct once the temperature has sunlight air circulation dropped Isolation resistance fault Error 506 on the DC side during Check the isolation resistance on the DC Error 508 start up phase 508 or side of the PV modules running phase 506 Isolation start Isolation resistance fault up warning on the DC side during Isolation run start up phase or running ning warning phase You must check the isolation resistance on the DC side of the PV modules Solar inverter is still feeding Check that the GND connection has been ting fau DOE 1 made correctly and or check the fuse in PV roundin wrong pole is connected the grounding path Change the fuse if 9 to GND necessary The solar inverter remains in feed in operation If the fault persists after the device has been reset please inform your service technician Versions of hard and soft ware not compatible The first time the solar inverter is started
43. isconnected from the grid Deltas solar inverters are factory set to ISO ON Warning mode on delivery The grounding monitoring has two modes PV grounding grounding monitoring of the positive pole of the PV generator PV grounding grounding monitoring of the negative pole of the PV generator In these modes the solar inverter remains in feed in operation and will not be disconnected from the grid in case of a fault The error message PV grounding fault or PV grounding fault will appear on the display If you need to connect the positive or negative pole of the PV system to meet requirements set out by the module manufacturer you can do this Earth continuity must be implemented close to the inverter We suggest using Deltas grounding kit Grounding Set A Solar 99000275 The grounding connection is monitored and should be configured in the Setup menu see above Alternatively it is possible to turn off the insulation and grounding monitoring ISO GND OFF HSITDN Required cable coupler types for DC cable connection to inverter WIRE SIZE WIRE SIZE FEMALE MALE CABLE MULTICONTACT COUPLER 2 5 4 0 MM 6 0 CABLE COUPLER ORDER NUMBER POLARITY AWG 14 AWG 12 10 COUPLER 32 0010P0001 UR 32 0012P0001 UR 32 0011P0001 UR 32 0013P0001 UR 32 0014P0001 UR 32 0016P0001 UR 32 0015P0001 UR 32 0017P0001 UR 6 7 1 Output power over PV vo
44. ivery SOLAR INVERTER SOLIVIA 3 3 AP G3 Mounting plate Operation and installation manual AC connector 2 General warnings Notes on safety Congratulations on the purchase of the SOLAR INVERTER SOLIVIA 3 3 G3 These directions will help you become familiar with this product Please observe the safety regulations see 9 and technical connection conditions for local utility company Careful handling of your product will contribute to its service life durability and reliability These are essential prerequisites for maximum yield from your product Please observe the following notes on safety During operation of electrical devices certain parts are under dangerous voltage Inappropriate handling can lead to physical injury and material damage Adhere to the installation regulations Installation and operational start up work may be implemented only through qualified electrical experts Repair work on the device should be carried out by the manufacturer only Please observe all points in the operating and installation manual Isolate the device from grid and the PV modules before carrying out any work on it As a result of very high temperatures the device surface can become hot Sufficient cooling is necessary the solar inverter is heavy weight gt 18 kg it should be lifted by at least two persons Remember that the unit has a high leakage current The PE co
45. le is used for the removal of the power dissipation caused through the voltage conversion An internal temperature control protects the device against excessive tem peratures in the interior of the solar inverter In case of high ambient temperatures the maximum transferable power is limited The solar inverter is controlled by microcontrollers which also implement interface communication and the monitoring of values and messages on the display Two independent and redundant microcontrollers control the monitoring of the grid which is consis tent with the feed in directives of your local utility company This enables an installation of the solar inverter in the in house electrical grid Operator protection requirements are met by electrically isolating the grid from the PV module The electrical isolation between the grid and the PV module is equivalent to basic insulation Maximum operator protection is ensured by reinforced isolation between the grid PV modules and accessible interfaces display RS485 interface Relevant standards concerning electromagnetic compatibility EMC and safety are fulfilled The solar inverter is functional in on grid operation exclusively An automated isolation point which is approved by a certification agency guarantees secure disconnection in case of circuit isolation or interruptions in power supply and avoids isolated operation The disconnection equipment allows for automatic isolation for in plant gene
46. lt N Time HH MM SS Display of the active output power lt Display of the active output voltage Display of the active output current Display of the active lt mains frequency K PV Voltage Value Display of the active PV cell voltage K N gt PV Current Display of the active PV cell current lt Display of the current time Display of current day of the week and date Remarks ESC in main menu N jumps to first entry of sub menu N 18 7 3 2 Submenu D This menu item displays the daily values for the grid feed Main menu Day statistic ENTER gt Submenu D Day 2 Upto 1 ESC D gt Energy Value Wh Down Y Up ESC gt AC Revenue Value AUD Won Down M Up ESC gt AC Power Max Value W Down Up ESC D gt Value Down Up ESC gt AC Volt Min Value Down Y Up ESC gt AC Curr Max Value A Down ESC D gt AC Freq Max Value Hz Down Up ESC gt Value Hz A Down Y Up ESC lt D gt Runtime Value Min Down to 2 Y 1 lt lt Remarks Display of the daily energy gain Display of the daily revenue Display of the daily maximum output power Display of the daily max output voltage Display of the daily m
47. ltage 150 VDC 200 VDC 250 VDC 300 VDC 350 VDC 400 VDC 450 VDC 6 7 2 Efficiency best efficiency of the solar inverter is obtained at input voltages 2250 96 94 92 90 88 86 84 0W 400 W 800W 1200 W 1600 W 2000 W 2400 W 2800 W 3200 3300 w 150 V 3300 W 250 V 3300 W 350 V 3300 W 450 6 8 Interface connection RS485 EIA485 The interfaces not used must always be closed off In case of utilization of an interface only the counterpart fitting on the interface connector is to be employed Mating connector supplier HARTING Deutschland GmbH amp Co KG P O 2451 32381 Minden Germany www harting com Order designation 09 45 145 1510 Cable Manager Blue IP67 Push Pull Data Plug 09 45 145 1500 Cable Manager White IP67 Push Pull Data Plug RS485 EIA485 terminating resistor 220 230 V House connection line RS485 EIA485 Connection Datalogger 11 Connector assignment RS485 EIA485 Pin Reserved Reserved Reserved GND RS485 Reserved RX_B RS485 TX_A RS485 Reserved When several devices connected in series and the total length of the data line measures 2 or
48. nductor MUST be connected prior to commencing operation To avoid risk of electrical shock do not open the solar inverter The inverter contains no user serviceable parts Opening the cover will invalidate the warranty Dangerous voltage present for 5 minutes after disconnecting sources power Copyright Delta Energy Systems Germany GmbH All rights reserved This manual accompanies our equipment for use by the end users The technical instructions and illustrations contained in this manual are to be treated as confidential and no part may be reprodu ced without the prior written permission of Delta Energy Systems Service engineers and end users may not divulge the information contained herein or use this manual for purposes other than those strictly connected with correct use of the equipment All information and specifications are subject to change without notice 2 3 Introduction With this device you have acquired a solar inverter for connection of photovoltaic systems to grid This solar inverter is characterized by its advanced housing design and state of the art high frequency technology which enable the highest levels of efficiency The solar inverter includes monitoring units such as anti islanding protection The function of the anti islanding protection automatic isolation point for in plant generation systems stipulates com pliance with all specifications required see 12
49. o 97 11 Altematng Current Direct CurrentS EMC MPP PE PE protective earth W PV w Photos w w EC Volta 30kWp W w Alessandro Volta w 98 45 RS485 ELA485 W TAB 2000 TAB 2000 2000 WR DSO TAB 99 12 Pending Certificates Supplier s declaration of conformity lt gt compliance levels 1 2 and 3 in Australia nernmeed required notices under arid Meca e section 182 of the Australian Radiocommunications Act 1992 Instructions for completion This completed form remains with the supplier as part of the documentation required for the compliance records Do not return this form to the ACMA Supplier s details Qualsure Consultants ACMA supplier code number N136 AGENT of 18 Hood Street Rosedale Vic Product details Product description brand name type model lot batch or serial number if available Brand Name Delta Model Number SOLIVIA3 3APG3 Description Solar Inverter Compliance with Radiocommunications Electromagnetic Compatibility Standard 2008 The above mentioned product complies with the requirements of the Radiocommunications Electromagnetic Compatibility Standard 2008 Evidence of compliance is demonstrated by test reports to the following applicable standards Applicable standards Standard title num
50. oading process of a pro gram in which the storage space required for the execution e g variable code buffers for the program is reserved and is filled with initial values Local utility company By local utility company is meant a company which generates electrical energy and distributes it over the public grid MPP The Maximum Power Point is the point of the current voltage diagram of a PV cell at which the largest power can be tapped off i e the point at which the product of current and voltage has its maximum value Nominal power Nominal power is the maximum permissible continuous power output indicated by the manufacturer for a device or a system Usually the device is also optimized so that the efficiency is at its maximum in case of operation with nominal power Nominal current Nominal current is the absorbed current in case of electrical devices if the device is supplied with the nominal voltage and yields its nominal power PE In electric systems and cables a protective earth conductor is frequently employed This is also called grounding wire protective grounding device soil grounding or PE English protective earth Photovoltaics abbr PV The conversion of PV energy into electrical energy The name is composed of the component parts Photos the Greek word for light and Volta after Alessandro Volta a pioneer in electrical research 32 Potential isolation No conductive connection between
51. p ESC 4 lt D gt Runtime Value Min SA FSA ARE EM Tel Down to 2 Y 1 85 7 3 3 W W Main menu W Week statistic gt Submenu W Week 1 2 Up to 1 5 Le W gt Energy Value kWh Down Y UP ESC W gt AC Revenue er Value AUD Won Down Up 52 gt Runtime Value lt Down to 2 Y 1 7 3 4 M w Main menu Month statistic ENTER gt Submenu M Month 2 Up to 1 Y gt Energy Value kWh 5 ESC gt Value AUD Won i Down Up M gt Runtime Value Downto 2 1 ESC L 7 3 5 Y w Main menu Y Year statistic ENTER gt Submenu Y Year 2 Up to 1 5 lt Y gt Energy Value kWh E Down Y Up ESC gt AC Revenue Value AUD Won Down lt Y Up Y gt Runtime Value lt Down to 2 Y 1 86 7 3 6 W Main menu T Total statistic gt Submenu T Total L
52. ration systems of nomi nal power lt 4 6 kVA with single phase parallel feed in through the solar inverter into the grid 4 3 Equipment overview 1 Connections for PV modules 2 Grid connection 3 Interface connection RS485 EIA485 4 Display for status messages and keypad for operation 5 Light emitting diodes for operational status display 5 Installation Installation and commissioning must only be carried out by qualified electrical experts The recommended local and national safety regulations and the technical interface conditions TAB 2000 should be complied with To carry out an energy measurement a meter must be attached between the grid feed in point and the solar inverter in accordance with all local and national safety regulations By means of the integrated anti islanding protection the function of the recommended section switch is fulfilled in accordance with all local and national safety regulations For details please refer to 9 Caution The secondary short circuit current rating is increased at the transfer connection point to the public electricity supply system by the nominal current of the connected solar inverter 6 Installation of equipment 6 1 Installation location Install the device a non flammable support base Avoid installation on resonating bodies light construction walls etc Installation is possible both indoors and in protected outdoor areas
53. stor W W W 9 4000 3630 125 540 125 540 125 540 125 500 125 540 150 450 150 450 13 0 24 0 0 2 3485 3300 220 230 220 220 210 0 264 0 187 0 242 0 184 0 264 5 193 6 242 0 193 6 253 0 14 4 15 0 14 4 15 0 15 0 15 7 17 0 15 7 17 0 17 0 50 50 60 60 48 0 52 0 49 5 50 5 47 3 52 7 59 3 60 5 58 0 61 0 0 99 N 5 SOLIVIA 3 3 G3 96 0 94 8 2225 TOE 25 80 C 0 9896 2 E 215 Wieland RST25i3S F 1 7 62103 2003 62103 2003 50178 1997 50178 1997 AS NZS 3100 IEC 62109 PV 501 62109 AS 4777 2 GF0012009 11155016 AS 47773 AL a 62109 2 2005 62109 2 2005 AS 4777 2 AS 4711 3 VDE 0126 1 1 KS IEC 60255 5 IEC 60725 AS 4777 1 KS C IEC 61000 AS 4777 2 EN 61000 4 5 KS CIEC IEC EN 61000 AS 4777 3 GB T 17626 62 61000 6 1 KS 62 EN 61000 6 2 17799 IEN 61000 IEC 61000 62 IEC 61000 IEC EN 61000 6 3 KS CIEC 61000 63 63 6 3 KS C IEC 61000 6 4 93 10 10 1 JE REECH DU 6 CREER EA 400 220 400 230 1 2
54. the solar inverter from the grid open automatic circuit breaker 2 Switch off the DC disconnector 3 Wait approx 1 minute 4 Switch DC disconnector back on 5 Switch in grid close automatic circuit breaker In the field the first step is to scan for potential fault causes that could be picked up by the solar inverter and result in tripping Various key parameters can be scanned via the display thereby enabling conclusions to be drawn about potential fault causes Current values in the N menu AC Voltage gt Display of current output voltage gt Voltage limiting values AC Frequency gt Display of current grid frequency gt Frequency limiting values Solar Voltage gt Display of current PV cell voltage gt Switch in threshold 24 N Display messages DISPLAY CAUSE the fault persists after the device has been reset please inform your service technician LED STATUS Display communication faulty Grid frequency overshoo AC frequency Check the grid frequency via the ting or undershooting failure specified limit range display in the N menu Nee Grid voltage overshooting voltage via the display failure MEO ROME specified If no voltage present check grid auto ge matic circuit breaker One of the anti islanding 1 5 no reay protection output relays is 5 enar SE EE faulty defective Calibration 5 ongoing Check
55. two component parts Power dissipation Power dissipation is designated as the difference between absorbed power and power of a device 55 yielded Power dissipation is released as heat PV cell PV cells are large surface photodiodes which convert light energy generally sunlight into electrical energy This comes about by utilization of the photoelectric effect photovoltaics PV generator System comprising a number of PV modules PV module Part of a PV generator converts PV energy into electrical energy RJ45 Abbreviation for standardized eight pole electrical connector connection RJ stands for Registered Jack standardized socket RS485 EIA485 Differential voltage interface on which the genuine signal is transmitted on one core and the ne gated or negative signal on the other core Separate grid system equipment which is completely independent of an interconnected grid Solar inverter is an electrical device which converts DC direct voltage into AC voltage and or direct current into alternating current String Designates a group of electrical PV modules switched in series String solar inverter solar inverter concept The PV generator is divided up into individual strings which feed into the grid over their own string solar inverters in each case In this way the installation is considerably facilitated and the gain de crease which can arise from the installation or
56. up Menu Adjustment of the country parameters lt Adjustment of the baud rate between 2400 38400 Baud Adjustment of the internal clock Adjustment of current day of the week and date Adjustment of the firmware 22 7 371 Submenu S Solar ISO GND More detailed information on the Solar ISO GND menu within the submenu S Setup Submenu Setup ENTER 4 Solar ISO GND A 5 Up to 6 Use old setting ESC gt Solar ISO GND ENTER wa ae ISO ON Warning Down up ESC 5 gt Solar ISO GND ENTER aaa ISO ON Failure Down Up 5 5 gt Solar 150 GND ENTER gt 150 GND OFF Down Up ESC 5 gt Solar ISO GND ENTER ENTER PV grounded Down Up ESC 5 gt Solar ISO GND ENTER grounded Down 05 6 PER Use new value lt HSITON A 7 3 7 2 Submenu 5 Country settings More detailed information on the country settings menu within the submenu 5 Setup Submenu Setup ENTER Country settings Name of country 5 Up to 6 eso gt Country settings critical undervoltage x V xox s Down 4 Up Esc S gt Country settings Undervoltage x V lt Down Up Y S gt Country settings Overvoltage lt
57. way of accessing this functionality is via the available accessories comprehensive and seamless solar inverter monitoring is ensured The data read out over the integrated interface and the display is possible only in solar operation 4 2 Technical structure solar inverter A galvanical isolation of the solar inverter from the grid is achieved through DC AC converter with an integrated high frequency transformer The photovoltaic voltage is adjusted so that the maximum power output of the PV modules is also achieved with varying solar irradiation levels and tempera tures MPP Tracking The MPP range of the solar inverter is between 150 V and 450 V This facilitates the use of PV modules by a variety of manufacturers Measures must be taken to ensure that the maximum open circuit voltage of 500 VDC is never exceeded Please note that the maximum open circuit voltage will occur at the lowest temperatures anticipated You will find more detailed information about temperature dependency in the data sheet of the PV modules The device s power consumption is kept to a minimum The high quality aluminum casing corresponds to protection class IP65 water jet proof and dust proof and is protected against weathering processes by surface refinement The cooling charac teristic profile is designed so that operation of the inverter is possible with ambient temperatures from 25 C to 70 C A cooling characteristic profi
58. z 49 5 50 5 Hz 47 3 52 7 Hz 59 3 60 5 Hz 58 0 61 0 Hz gt 0 99 lt 5 SOLIVIA 3 3 96 0 94 8 25 70 25 80 0 98 GENERAL SPECIFICATION N MECHANICAL DESIGN RALIA CHINA INDIA KOREA TAIWAN 410 x 410 x 180 mm 21 5 kg Free convection Wieland RST25i3S 4 Multicontact MC4 2 Harting RJ45 RS485 STANDARDS DIRECTIVES LCD 3 LEDs IP65 1 Current limitation power limitation RALIA CHINA INDIA KOREA TAIWAN IEC 62103 2003 IEC 62103 2003 SUN EN 50178 1997 EN 50178 1997 AS NZS 3100 IEC 62109 PV 501 IEC 62109 AS 4777 2 GF001 2009 PO AEC 547773 ST 62109 2 2005 62109 2 2005 AS 4777 2 AS 4777 3 Yes VDE 0126 1 1 2 m KSC IEC 60255 5 IEC 60725 AS 4777 1 KS C IEC 61000 AS 47772 EN 61000 4 5 KSCIEC IEC EN61000 AS 4777 3 GB 17626 6 2 61000 6 1 KSC 6 2 EN 61000 6 2 GB 17799 EN 61000 IEC 61000 6 2 IEC EN 61000 IEC 61000 6 3 KS CIEC 61000 6 3 6 3 6 3 KS C IEC 61000 6 4 27 10 10 1 Connection examples Individual in plant generation system in parallel operation without isolated operation possibility single phase feed with anti islanding protection Low voltage network 400 220 V Low voltage network 400 230 V House connection line House connection box VNB Owner boundary Customer Measurement unit 1
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