Installation manual - SUNNY ISLAND 3.0M / 4.4M / 6.0H / 8.0H
Contents
1. 2 Connect the other end of the data cable to the Sunny Remote Control 7 4 8 2 Connecting the Data Cable of the Lithium lon Batteries Requirement LI The total length of the communication bus must not exceed 30 m Keep in mind that the communication bus possibly connects several nodes such as additional Sunny Island inverters Cable requirements O Classification CAT5e C Type of plug RJ45 Procedure 1 Plug the data cable into a free ComSync pin connector on the Sunny Island Ensure that the cable is correctly connected see Section 7 5 4 Connecting the Data Cables page 58 2 Connect the other end of the data cable to the battery management of the lithium ion battery see battery manufacturer documentation 3 Ensure that the communication bus is closed at each end e g with a terminator 36 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 8 3 Connecting the Communication Product via Speedwire Requirement C A Speedwire data module for Sunny Island must be installed see the installation manual of the SMA Speedwire Webconnect data module Cable requirements L Cable length between two nodes Maximum 50 m with patch cable Maximum 100 m with installation cable LI Cross section minimum 2 x 2 x 0 22 mm or minimum 2 x 2 x AWG 24 L Cable type 100BaseT2. 2 FW WIZ ile Danger to life from electric shock due to incorrect insulation e Connect the control cable of X4 1 and X4 2 to the Relay C and Relay1 NC terminals Ensure that the cable is correctly connected see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 3 PUNA fe Danger to life from electric shock due to incorrect insulation e Connect the control cable of X5 1 and X5 2 to the Relay2 C and Relay2 NO terminals Ensure that the cable is correctly connected see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 7 4 3 4 Connecting the Measuring Cables to the Automatic Transfer Switch The Sunny Island measures the voltages of the respective line conductors via one measuring cable In addition the master also verifies whether the tie switch is activated or deactivated for circuitry overview see the quick reference guide SMA Flexible Storage System with Battery Backup Function Procedure 1 On the Sunny Island connect the measuring cable X4 Ln and X4 N for voltage monitoring to the ExtVtg terminal Ensure that the cable is correctly connected see Section 7 5 7 Connecting ExtVtg page 61 Installa
3. Requirements LI The technical requirements of the multifunction relay must be met see Section 10 Technical Data page 101 Cable requirements L Copper wire O Conductor cross section 0 2 mm to 2 5 mm2 Procedure 1 A WARNING Danger to life from electric shock due to incorrect insulation e Connect the control cable on the Sunny Island to either multifunction relay Relay1 or Relay2 see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 Use the C and NO connections 2 Go to Section 8 1 5 page 71 and enter AutoGn in the table for configuration 46 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 13 Connecting Load Shedding Contactors Ta Load shedding prevents the battery deep discharge and controls the power output to the loads Load shedding provides the option of disconnecting specific loads from the system Load shedding is necessary for an off grid system that is exclusively supplied with PV energy or wind energy The Sunny Island controls up to two load shedding contactors depending on the state of charge of the battery You can install two types of load shedding e One level load shedding If the battery state of charge limit has been reached one load shedding contactor disconnects all loads at the same time Depending on the configuration the load shedding contactor closes when the battery
4. 8 4 Generator Management T 8 4 1 Configuration of the Thresholds for Generator Connection 8 4 1 1 Changing the Current limit for the Generator Ta Significance of the current limits The generator management limits the consumption of generator current to the maximum set value In three phase systems the generator current is limited for each line conductor individually The set value applies to each line conductor For Sunny Island inverters that are operated in parallel the generator management only limits the total generator current The generator current may be unequally distributed to the Sunny Island inverters If a Sunny Island fails for example more current flows through the remaining Sunny Island inverters Enhanced generator management If the set generator current is not sufficient for supplying the loads the generator management requests additional current from the battery The system then supplies the loads with the generator current and the battery current Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Nominal generator current 234 03 GnCurNom and set to the desired value Tip A suitable value for this parameter is 80 of the maximum generator current per line conductor 8 4 1 2 Changing the Voltage Thresholds for the Generator Ma Th
5. L The system must not be a battery backup system Installation manual SIS3OM 44M 60H 80H IA en 32 77 8 Commissioning SMA Solar Technology AG Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Set the following parameters for the battery usage Parameter Value Increased self consumption switched on 261 01 SlfCsmpIncEna Enable Lower limit of the deep discharge protection range before disconnection 262 01 ProtResSOC Minimum width of the deep discharge protection range The range remains constant year round 262 02 BatResSOC when seasonal adjustment is deactivated Width of the range for the maintenance of the battery state of charge 262 04 PVResSOC Minimum width of the self consumption range When seasonal adjustment is 262 05 MinSlfCsmpSOC deactivated this value is used year round for increased self consumption Highest yielding month for battery utilization range North for northern hemisphere 261 02 SIfCsmpPosSel or South for southern hemisphere Seasonal operation active 261 03 Saisonenable No for no seasonal adjustment or Yes for seasonal adjustment Set the value to North when June is the month with the highest yield Set the value to South when December is the month with the highest yield X A parameter cannot be adjusted All rang
6. This will make it easier to operate the buttons and view the LED signals SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 6 Mounting Clearances 500 mm 1400 mm 500 mm Figure 7 Minimum clearances L The mounting location must be suitable for mounting while observing minimum clearances to walls other Sunny Island units and other objects This will allow for sufficient heat dissipation i Multiple Sunny Island inverters installed in areas with high ambient temperatures There must be sufficient clearance between the Sunny Island inverters to ensure that the cooling air of the adjacent inverter is not drawn in e In order to guarantee sufficient cooling of the Sunny Island inverters the clearances between the Sunny Island units should be significantly greater than the minimum clearances e Ensure sufficient fresh air supply 6 2 Mounting the Sunny Island A WARNING Danger to life due to fire or explosion Despite careful construction electrical devices can cause fires Contact with flammable materials allows the fire to spread This can result in death or serious injury Do not mount the Sunny Island on flammable construction materials Do not mount the Sunny Island near highly flammable materials Do not mount the Sunny Island in potentially explosive atmospheres Ensure that the battery room is sufficiently ventilated and that all other requirements for the installation
7. In case of a short circuit the shortcircuit current driven by the generator flows over the unfused cable between the Sunny Island and the AC distribution board Short circuit currents can cause fires e Ifthe generator fuse is larger than the fuse on the AC distribution board configure the cable for the generator fuse Procedure 1 On the Sunny Island connect the cable to the AC1 Loads SunnyBoys terminal Ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56 2 If the conductor cross section of the grounding conductor is less than 10 mm2 make sure that an additional grounding conductor is connected to terminal AC2 Loads SunnyBoys PE see Section 7 5 3 Connecting the Grounding Conductor page 57 Iln L1 to L3 32 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 5 Connecting the Multicluster Box 12 MC Box 12 3 20 7 4 5 1 Connecting the AC Power Cable to the Multicluster Box 12 Always connect the AC power cable of the Multicluster Box 12 MC Box 12 3 20 to the AC2 terminal of the Sunny Island inverter A WARNING Danger to life due to fire In case of a short circuit the short circuit current driven by the generator flows over the unfused cable between the Sunny Island and
8. Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 80 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 2 Set the following parameters for increased self consumption Parameter Value Increased self consumption switched on 261 01 SlfCsmpIncEna Enable Lower limit of the deep discharge protection range before disconnection 262 01 ProtResSOC Minimum width of the deep discharge protection range 262 02 BatResSOC Minimum width of the battery backup range The range remains constant year round 262 03 BUResSOC when seasonal adjustment is deactivated Width of the range for the maintenance of the battery state of charge 262 04 PVResSOC Minimum width of the self consumption range When seasonal adjustment is 262 05 MinSlfCsmpSOC deactivated this value is used year round for increased self consumption Highest yielding month for battery utilization range North for northern hemisphere 261 02 SIfCsmpPosSel or South for southern hemisphere Seasonal operation active 261 03 Saisonenable No for no seasonal adjustment or Yes for seasonal adjustment Set the value to North when June is the month with the highest yield Set the value to South when December is the month with the highest yield X A parameter cannot be a
9. 92 Determining ihe Baher Capaci ryss erteni ereas BS does tw dnt bor ee eee A anos sas 99 9 3 Setting Time Dependent Functions 2 os A o ii 100 9 4 Setting Time Controlled Functions uaa raise ori rabia ona 100 TO Technical Dale voracidad A ias 101 10 1 AC1 Connection for Stand Alone Grid 0 o 101 10 2 AC2 Connection for Utility Grid and Generator External Energy Source o ooooo 102 103 DG Connection tor Bates laica pcia 102 TOATE rt SN EN saca eae 103 10 5 Sunny Island 3 0M Efficiency Profile su corsa d e eat 104 10 6 Sunny Island 4 4M Efficiency Profile a bind a i n 104 Installation manual SI3OM 44M 60H 80H IA en 32 5 Table of Contents SMA Solar Technology AG 1O 7 Sutiny Island 6 0H Efficiency Profile dl da 105 10 8 Sunny Island 8 0H Efficiency Profile nn nnnn nannu aana 105 10 9 Energy Consumption in No Load Operation and Standby 0 000 ce cect ete ees 105 POO Nise Emisora sud Soe Owes sk pus a 106 VOT RAGS eS Onn ORG OI seioed ee deck grees ede ih ia a w aa a a aR a a E e nh Ree 106 OTZA Prote chive Devices nasal As AA RSS Beas Geka Kees 106 A OO 106 10 14 DC Load Limitation Curve of the Multifunction Relays oooooooooooooooooooomoooo 107 TO eneral AAA O ee eete sehr ata dere oot ee aeei 107 ll RECO SS OSS RO AER 108 LZ Contacta A IAS eee eas 109 6 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 1 Information on this Document 1 Information
10. Load shedding is only stopped when the battery has been sufficiently charged AutoLod2Soc Setting for the second level of two level load shedding Load shedding is only stopped when the battery has been sufficiently charged MccAutolod Setting for additional one level load shedding in a multicluster system Load shedding is only stopped when the batteries of the extension cluster have been sufficiently charged Repeat steps 1 to 5 for two level load shedding Connect the second load shedding contactor to an unused multifunction relay 7 4 14 Connecting the Time Control for External Processes The Sunny Island has two timers for time dependent control of external processes For each timer you can set the starting day and time that the multifunction relay is to be switched once daily or weekly Requirements C The technical requirements of the multifunction relay must be met see Section 10 Technical Data page 101 Cable requirements LI Copper wire O Conductor cross section 0 2 mm to 2 5 mm2 Procedure 1 WARNING Danger to life from electric shock due to incorrect insulation e Connect the control cable on the Sunny Island to either multifunction relay Relay or Relay2 see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 Use the C and NO connections 2 Go to Section 8 1 5 page 71 and enter the value TM1 for timer 1 or the value TM2 for
11. Sunny Island The circuit breakers of the Sunny Island inverter on the distribution board and the control and measurement voltages Load break switch of the battery Ensure that the system cannot be reconnected Open the enclosure lid on the Sunny Island inverter and ensure that no voltage is present Ground and short circuit the AC conductors outside the Sunny Island inverter Cover or isolate any adjacent live components Danger to life from electric shock due to damaged Sunny Island Operating a damaged Sunny Island can lead to hazardous situations that can result in death or serious injuries due to electric shock e Only operate the Sunny Island when it is technically faultless and in an operationally safe state e Check the Sunny Island for visible damage e Make sure that all external safety equipment is freely accessible at all times e Make sure that all safety equipment is in good working order Risk of crushing injuries due to movable generator parts Moving parts in the generator can crush or sever body parts A generator can be started automatically by the Sunny Island e Only operate the generator with the safety equipment e Install maintain and operate the generator according to the manufacturer s specifications A CAUTION Risk of burns due to short circuit currents on the disconnected Sunny Island The capacitors at the DC connection input area store energy After the battery is isolated from the Sunny Islan
12. each cluster must be configured individually at the master Requirements L The Sunny Remote Control must be connected to the master O All circuit breakers in the AC distribution board must be open CO All Sunny Island inverters must be closed O All Sunny Island inverters must be switched off Procedure 1 Quickly close the load break switch of the BatFuse and close the BatFuse see BatFuse installation manual 2 Start the Sunny Island e In single systems press the activation button on the Sunny Island e Ina cluster press and hold down the activation button on the master until an acoustic signal sounds As a result all Sunny Island inverters in the cluster are switched on and hold the button on the Sunny Remote Control for operation of the Sunny Remote Control inverter see the Sunny Island inverter operating manual M An acoustic signal sounds three times and the Sunny Remote Control displays the QCG X The Sunny Remote Control does not display the QCG You have either pressed the button too late or not long enough e Press the off button e Repeat steps 2 and 3 68 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 8 1 2 Performing Basic Configuration of the Sunny Island Requirements L The Sunny Remote Control must be connected to the master L All Sunny Island inverters must be switched on but not in operation for how to switch on the Sunny Island invert
13. see Section 10 Technical Data page 101 Cable requirements L Copper wire O Conductor cross section 0 2 mm2 to 2 5 mm2 Procedure IPN ANNE Danger to life from electric shock due to incorrect insulation e Connect the control cable on the Sunny Island to either multifunction relay Relay1 or Relay2 see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 Use the C and NO connections 2 Go to Section 8 1 5 page 71 and enter AutoGn in the table for configuration Installation manual SI3OM 44M 60H 80H IA en 32 45 7 Electrical Connection SMA Solar Technology AG 7 4 12 Connecting a Signal Generator for Generators without Autostart Function X Generators without an autostart function do not have electric starting devices If you install a generator without an autostart function you can connect a signal generator e g signal lamp to the multifunction relay of the Sunny Island inverter As a result the Sunny Island can signal when the generator is to be manually started and stopped i Connecting a signal generator in a cluster Slaves control the generator less reliably than masters do e Connect the generator control preferably to the master e Ina multicluster system always connect the signal generator to the master of the main cluster STAND ALONE GRID EXTERNAL GENERATOR Ha Figure 17 Connecting a signal generator to signal a generator request example
14. 1 of the main cluster are set permanently Note the function of the multifunction relays in the following table during the electrical connection see Section 7 4 page 28 Table for configuring the operating modes of the multifunction relay for your own notes Multifunction relay Parameter Value Function output Relay 1 of 241 01 RlylOp Sunny Island inverter master Relay 2 of 241 02 Rly20p Sunny Island inverter master Relay 1 of Slave 1 244 01 Rly1OpsSlv1 Relay 2 of Slave 1 244 02 Rly2OpSlv1 Installation manual SI3OM 44M 60H 80H IA en 32 7 8 Commissioning SMA Solar Technology AG Multifunction relay Parameter Value Function output Relay 1 of Slave 2 245 01 Rly OpSlv2 Relay 2 of Slave 2 245 02 Rly2OpSlv2 Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Set the parameter for the multifunction relay functions as shown in the table above 8 2 Battery Management 8 2 1 Safety When Setting the Battery Management Parameters This section contains safety information to be observed when configuring the battery management To prevent property damage and to ensure the long term operation of the product read this section carefully and observe all safety information NOTICE Damage to the battery due to incorrect settings The set battery parameters influen
15. 14 Ti Qi Ts OLO FI gt 1 1 1 1 1 2 2 1 lt P Components of the Communication in multicluster systems order option Designation SISYSCAN BGx installed in the master at the factory SICOMSMA BGx installed in the master at the factory Yellow CAT5e data cable 5 m Gray CAT5e data cable 5 m White CAT5e data cable with three conductors with stripped insulation Screw installed in the Sunny Island at the factory Terminator plugged into SI SYSCAN BGx and SI COMSMA BGx at the factory Cable support sleeve for 4 cables CAN communication interface RSA85 communication interface SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 3 Scope of Delivery Communication via Speedwire order option e g SMA Flexible Storage System C D E PE Figure 4 Components of the Communication via Speedwire order option Position Quantity Designation Speedwire data module installed in the master at the factory Spacer Screw Cable support sleeve Filler plug Installation manual A B 3 C D E F G Network cable 5 m Two spacers are required for installation of the Speedwire data module One spacer is a spare part Installation manual SI3OM 44M 60H 80H 1A en 32 15 4 Additional Tools Required SMA Solar Technology AG 4 Additional Tools Required Tools Drill Drill bit Allen key AF 5 Torque wrench Crimpin
16. CycTmEqu and set it to the equalization charge cycle time recommended by the battery manufacturer e Select the parameter Cell charge setpoint voltage for equalization charge 222 09 ChrgVtgEqu and set it to the cell voltage setpoint recommended by the battery manufacturer for equalization charge 8 2 3 Changing the Battery Usage Through Battery Backup Systems without Increased Self Consumption i Adjusting the default values The parameters for battery usage are set automatically to reasonable values during basic configuration for the respective system The parameter values can be adjusted if there are special requirements for the system or the battery SOC 100 Area BuRes Area BatRes Area ProtRes Winter Summer Winter Summer Winter Summer Figure 21 State of charge ranges of the battery according to the time of year example Installation manual SI3OM 44M 60H 80H IA en 32 73 8 Commissioning Range BuRes BatRes ProtRes Explanation of the range and parameters Range for battery backup function Minimum width of the battery backup range 262 03 BUResSOC Range for protection against deep discharge This range can only be reached when the utility grid fails Minimum width of the deep discharge protection range 262 02 BatResSOC Range for protection in the event of deep discharge This range can only be reached when the utility grid fails Lower limit of the deep discharge protectio
17. Laas na os ease iH ama Sse a re ee 68 8 1 1 Starting the Quick Configuration Suelos bo Bd cow MES os LAW o 68 8 1 2 Performing Basic Configuration of the Sunny Island oooooooooooooooroooor eens 69 8 1 3 Setting Sunny Island for Charge Controller Sunny Island Charger in Off Grid Systems 69 8 1 4 Commissioning the Battery Current Sensor in Off Grid Systems 00 000 ccc teen ene 69 8 1 5 Setting the Functions of the Multifunction Relays 0 0 6 ccc eee nee enee nes 7 8 2 Batey Management rad aa 72 8 2 1 Safety When Setting the Battery Management Parameters 00 0 cece ce tence ens 72 8 2 2 Adjusting the Battery Management to the Battery n onanan nannaa ce rr 72 8 2 3 Changing the Battery Usage Through Battery Backup Systems without Increased Self Consumption 73 8 2 4 Battery Usage through Systems for Increased Self Consumption 0000 ccc cee cence eens 75 8 2 4 1 Seasonal Adjustment of the Battery Usage 0 dd i 75 8 2 4 2 Changing the Battery Usage through Systems for Increased Self Consumption without a Baten Backup FUNCION es dr a US Ane ll ei 75 8 2 4 3 Changing the Battery Usage through Battery Backup Systems with Increased Self Consumption 78 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG Table of Contents 8 2 5 Changing the Battery Protection Mode in Off Grid Systems oooocoooocoooooor eee 81 8 2 6 Setting the Control
18. SMA Solar Technology AG All rights reserved 2 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG Table of Contents Table of Contents 1 Information on this DocUM Nt scaricare ais 7 SN Mic A iaa pta a a 7 E2 Eo 1 E A tat past wag SN Bee Shen Ree esl hae rm ae HOS BO i BONE Eh leo 7 LS Additional nto malos rai A ed Bo et a dee eth ai 7 lA OVO ONS 52 aaa BiG Wena a hehe ba eet O ee att he pet den E al Bigs 7 Bo POA Meso karan sawn E in be A EE R RE r a nee 8 L Nomena peen ea ee wedi a aA a a aT etc WEIS 8 Satanas id as 9 Ai A A II O eee UE Oa eee Ones 9 242 aey IMOMNONOMN letter SS a 10 2 3 Information for Handling Ba era did A 11 Scops or Delve Yesoso resena A A 13 Additional Tools REGUINEO 55 ses 569i yee paw ds 16 Product Descrip ot sak ose IA 17 le LOUISE PAPER ut ne Du aa ten eta rn det oO ea eee eet tant et eaten 17 5 2 Scope of Functions of Device Types SI3 0M 11 and SIA AM 11 0 0 000 0 ccc eee een 17 On Mulntunc iom Rl ns satis Gerke a Dita atico a ote oda da ara io coa Ss Seana 18 Seay COMMUNES ib ee 19 SAT Communication mentado aaa sia ci aa 19 542 Compatible Communication Products usamos ada ia E ies 19 MOUNTING 2 5 2050 tins risas ad a add ae 20 6l Requirements tor Mounting epi A adn 20 62 WMounting the Sonny ISIONG cosida a io pb od acount Bok acota GO ad 21 Ele circa CONNECTION aida Rad 25 7 1 Content and Structure of the Secos nto 25 De OMNES a erene E II E E SE ee ee ees 26 7 3 C
19. SYSCAN BGx the masters are delivered with premounted communication interfaces components of the optional communication interface see Section 3 page 13 5 4 2 Compatible Communication Products Sunny Home Manager and Sunny Portal The Sunny Home Manager is a device for PV system monitoring and for controlling loads in households with PV systems The Sunny Home Manager and the Sunny Island inverter communicate via Speedwire and are a substantial part of the SMA Flexible Storage System see quick reference guide of the Sunny Island inverter Sunny Portal is an Internet portal for visualization of the data of the PV system of SMA radio controlled sockets and of other components of the SMA Flexible Storage System In addition Sunny Portal serves as a user interface for configuring the Sunny Home Manager and SMA radio controlled sockets see user manual of the SUNNY HOME MANAGER in SUNNY PORTAL Sunny Explorer With the Sunny Explorer software you can visualize and manage the data of your Sunny Island system You can also use it to configure single devices or entire device classes in your system To enable this the Sunny Explorer software must be installed on a computer that is connected to the Sunny Island via Speedwire see user manual of Sunny Explorer Installation manual SI3OM 44M 60H 80H IA en 32 19 6 Mounting SMA Solar Technology AG 6 6 1 Mounting Requirements for Mounting Mounting location O A stable non flamm
20. battery protection mode 2 set the desired times and SOC thresholds e Select the parameter Start time battery protection mode 223 03 BatPro2TmStr and set to the desired start time for level 2 e Select the parameter End time battery protection mode 223 04 BatPro2TmStp and set to the desired end time for level 2 e Select the parameter Battery state of charge for protection mode 223 06 BatPro2Soc and set to the desired SOC threshold for level 2 4 To change battery protection mode 3 select the parameter 223 07 BatPro3Soc and set to the desired SOC threshold 82 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning Configuring the resistance of the battery cable You can optimize the battery management if you set the resistance of the battery cable in expert mode BATFUSE SUNNY ISLAND Cable 1 Cable 2 BATTERY Length Length l Figure 24 Designation of the cable The resistance of the battery cable is composed of the resistance of cable 1 the BatFuse and the resistance of cable 2 Requirement C In a cluster the communication product or Sunny Remote Control must be connected to the master Procedure 1 Calculate the individual cable resistances Use the following formula R A p Cul ER Re I A resistance of the cable p specific resistance of copper p 0 018 m7 total length of the conductor outward conductor return conductor
21. first level of load shedding is set to AutoLod1 Soc see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 7 Ensure that the multifunction relay used for controlling the second level of load shedding is set to AutoLod2Soc 8 3 6 Setting Utilization of Excess Energy in Off Grid Systems Ta Cell voltage Time of activation Time of deactivation Target value D of the cell voltage A in the constant e Q o y voltage phase SQ ox O LL 2 GO Vv gt eH Y N Time Minimum time 241 07 ExtPwrDerMinTm Figure 26 Switching on time and switching off time for utilization of excess energy during constant voltage phase The Sunny Island controls the utilization of excess energy during the constant voltage phase depending on the cell voltage of the battery During the constant voltage phase the battery is charged with a constant charging voltage When the setpoint of the cell voltage in the constant voltage phase is reached the multifunction relay is activated The multifunction relay remains in this position for the minimum time 241 07 ExtPwrDerMinTm If the cell voltage differs by more than 241 08 ExtPwrDerDltVtg from the setpoint of the cell voltage the multifunction relay is deactivated The setpoint of the cell voltage depends on the charging process during the constant voltage phase Charging process Parameter Default value Boost charge Cell charge setpoint voltage for b
22. g voltage too high the Sunny Island does not connect the stand alone grid to the generator If there is another request for the generator after the minimum stop time the Sunny Island attempts to start the generator Ifthe Sunny Island detects a false start on numerous occasions and the number of failed attempts exceeds the maximum value the Sunny Island switches into error status After the stop time 234 11 GnErrStpTm has expired the Sunny Island attempts to restart the generator Single cluster systems The generator management classes a line conductor fault on the master as a generator failure All Sunny Island inverters disconnect the stand alone grid from the generator The generator management treats a fault on the slave line conductor as a line conductor fault The slave disconnects only the affected line conductor from the stand alone grid The slave switches the stand alone grid to the generator again if the faulty line conductor is in the valid range Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 In order to change the maximum number of failed attempts on the Sunny Remote Control e Select the parameter 235 01 GnAutoEna and set it to Enable e Select the parameter 235 02 GnAutoStr and set to the desired number of start attempts 3 In order to change the maxim
23. in systems for increased self consumption Recommended minimum battery 100 Ah 100 Ah 120 Ah 160 Ah capacity C10 in battery backup systems Recommended minimum battery 100 Ah 150 Ah 190 Ah 250 Ah capacity C10 in off grid systems Recommended minimum battery 100 Ah 100 Ah 100 Ah 100 Ah capacity C10 per 1 000 Wp power of PV systems in off grid systems Charge control for lead acid batteries lUoU charging IUoU charging IUoU charging lUoU charging behavior with behavior with behavior with behavior with automatic full automatic full automatic full automatic full charge and charge and charge and charge and equalization equalization equalization equalization charge charge charge charge DC connection Terminal lug M8 Terminal lug M8 Terminallug M8 Terminal lug M8 20 mmto25mm 20mmto25mm 20mmto25mm 20 mmto 25 mm wide wide wide wide Permitted conductor cross section 50 mm to 50 mm to 50 mm to 50 mm to 95 mm2 95 mm2 95 mm2 95 mm2 Maximum connectable conductor 95 mm2 95 mm2 95 mm2 95 mm2 cross section Cable diameter l4mmto25mm 14mmto25mm 14mmto25mm 14 mmto 25 mm Torque 12 Nm 12 Nm 12 Nm 12 Nm In the event of a cross section of 95 mm2 observe the maximum cable diameter 10 4 Efficiency Sunny Island Sunny Island Sunny Island Sunny Island 3 0M 4 4M 6 0H 8 0H Maximum efficiency 95 5 95 5 95 8 95 8 European weighted efficiency 94 0 94 0 94 3 94 1 Installation manual SISOM 44M 60H 80H IA en 32 103 10 Technical Data SMA Solar Tech
24. is grounded 2 Use one conical spring washer with each screw Ensure that the grooved side of the conical spring washer points to the screw head Tip The scope of delivery of the Sunny Island inverter includes one additional replacement screw with a conical spring washer SY 66 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 8 Inserting the Fuse Links in the Fuse Switch Disconnector BatFuse 1 Ensure that the NH1 fuse link for the BatFuse is correct Sunny Island Fuse link SI3 0M 1 1 80 A SI4 4M 11 100 A SI6 0H 1 1 160 A SI8 0H 11 200 A 2 Insert the fuse link and close the BatFuse see BatFuse documentation Installation manual SI3OM 44M 60H 80H IA en 32 67 8 Commissioning SMA Solar Technology AG 8 Commissioning 8 1 Basic Configuration 8 1 1 Starting the Quick Configuration Guide With the Quick Configuration Guide QCG you can configure the settings required for operation Step by step the QCG requests the required settings for the system Parameter setting for a cluster takes place centrally at the master All slaves adopt the configuration automatically i Configuration of the system using the QCG The Sunny Island which is connected to a Sunny Remote Control when starting to configure a new system automatically becomes the master e During configuration only the master may be connected to a Sunny Remote Control e Fora multicluster system
25. is set to 6 00 a m and the end time to 10 00 p m The lower SOC threshold is set to 40 and the upper SOC threshold is set to 80 in this time period For the additional time period the start time is set to 10 00 p m and the end time to 6 00 a m The lower SOC threshold is set to 30 SOC and the upper SOC threshold is set to 40 SOC in this time period Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Set the parameters for the standard time period e Select the parameter End time additional time period generator request 235 07 GnTm1Str and set it to the start time for the standard time period e Select the parameter Battery state of charge limit for generator start 235 03 GnSocTm1 Str and set it to the lower SOC threshold during the standard time period e Select the parameter Battery state of charge limit for generator disconnection 235 04 GnSocTm1 Stp and set it to the upper SOC threshold during the standard time period 3 Set the parameters for the additional time period Select the parameter Start time for the additional time period of generator request 235 08 GnTm2Str and set to the start time for the additional time period e Select the parameter Battery state of charge limit for generator start in the additional time period 235 05 GnSocTm2Str and set it
26. location of the battery are complied with see battery manufacturer documentation This will prevent the build up of explosive and dangerous gases Installation manual SI3OM 44M 60H 80H IA en 32 21 6 Mounting SMA Solar Technology AG Dimensions for wall mounting 217 3 mm 217 3 mm a a 20 mm 11 mm E E ES NS ASA E 00 EE 87 3 mm 130mm 130 mm 87 3 mm E 9 m Ox Ye 507 mm Figure 8 Dimensions of the wall mounting bracket and dimensions of the drill holes for the optional anti theft device on the Sunny Island inverter enclosure i Sunny Island with order option Communication via RS485 or Communication in multicluster systems Any ordered communication interfaces are installed in the master at the factory The master can be identified by the labeling on the packaging e For single cluster systems and multicluster systems mount the Sunny Island units with integrated communication interfaces at the planned mounting locations for masters Additionally required mounting material not included in the scope of delivery C At least two screws that are suitable for the support surface C At least two washers suitable for the screws L At least two screw anchors suitable for the support surface and the screws C If the inverter is to be secured against theft two security screws that can only be unscrewed with a special tool 22 SI3OM 44M 60H 80H IA en 32 Installat
27. multifunction relay must be met see Section 10 Technical Data page 101 Cable requirements LI Copper wire O Conductor cross section 0 2 mm to 2 5 mm Procedure The battery management of the Sunny Island inverter is able to control one battery room fan for each battery The following options result for the connection e Control a separate battery room fan for each battery Control one battery room fan for all batteries This is only an option with multicluster systems Controlling a separate battery room fan for each battery 1 Ensure that the battery room is sufficiently ventilated in the case of a malfunction of the multifunction relay 2 PIANO Danger to life from electric shock due to incorrect insulation e With single systems or single cluster systems e Connect the battery room fan to a multifunction relay see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 e Go to Section 8 1 5 page 71 and enter BatFan in the table for configuration e With a multicluster system e In each cluster connect one battery room fan on one Sunny Island to any multifunction relay see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 e Go to Section 8 1 5 page 71 and enter BatFan in the table for configuration 50 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection Controlling one battery room fan for all batt
28. not avoided will result in death or serious injury A CAUTION Indicates a hazardous situation which if not avoided can result in minor or moderate injury NOTICE Indicates a situation which if not avoided can result in property damage Section that is relevant for a system with connection to the utility grid e g SMA Flexible Storage System only Installation manual SI3OM 44M 60H 80H IA en 32 7 1 Information on this Document SMA Solar Technology AG Symbol Explanation Section that is relevant for off grid systems only Information that is important for a specific topic or goal but is not safety relevant Indicates a requirement for meeting a specific goal Desired result BEF A problem that might occur 1 5 Typographies Typography Usage Example bold e Display messages e Connect the grounding conductor to o Poraneien AC 2Gen Grid lt Connechon e Select the parameter 235 01 GnAutoEna and set to Off e Fuse holders e Elements to be selected e Elements to be entered gt e Several elements that are to be e Select 600 Direct Access gt Select selected Number 1 6 Nomenclature Complete designation Designation in this document Off grid system battery backup system system for increased self consumption System Sunny Boy Sunny Mini Central Sunny Tripower PV inverters Sunny Explorer Sunny Portal Sunny Home Manager Communication product Grid failure or deviation from the country specific limiting values for v
29. of device type MC BOX 12 3 20 Procedure 1 On the master of the main cluster connect the X106 1 line conductor and X106 2 neutral conductor for the control voltage to terminal AC1 Loads SunnyBoys Ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56 Installation manual SI3OM 44M 60H 80H IA en 32 33 7 Electrical Connection SMA Solar Technology AG 2 FW WIZ INE Danger to life from electric shock due to incorrect insulation e On the master of the main cluster connect the control cable of X113 1 and X113 2 to the Relay2 C and Relay2 NO terminals Ensure that the cable is correctly connected see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 3 WWI ile Danger to life from electric shock due to incorrect insulation e On the master of the main cluster connect the control cable of X112 1 and X112 2 to the Relay1 C and Relay NC terminals when an NA Box or Grid Connect Box is installed in addition to the Multicluster Box 12 Ensure that the cable is correctly connected see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 4 WAZ Xe Danger to life from electric shock due to incorrect insulation e On slave 1 of the mai
30. of the Battery Room Fan a a dd eee aa 83 83 Energy Management nica anaa aaa a hese aan da ads 84 8 3 1 Setting Load Shedding in a Multicluster System oooooooococoooooorro teen eee ene nes 84 8 3 2 Sething One leveldl Gad Shedding 5 sis 300042200 snatuniud ire 85 8 3 3 Setting Two Level Load Shedding ii eens Seeded ewe bed ama al ai ce 85 8 3 4 Setting Time Dependent One Level Load Shedding 0 0 n eens 86 8 3 5 Setting Time Dependent Two Level Load Shedding 0 2 0 0 ccc cence eens 88 8 3 6 Setting Utilization of Excess Energy in Off Grid Systems 0 00 0 ccc eee tence eens 89 8 4 Generator Management taeda nde eee ena eee ee eee ete Sa ee eee oS 90 8 4 1 Configuration of the Thresholds for Generator Connection 0 00 0 o 90 8 4 1 1 Changing the Current limit for the Generator 0 cc cece tne nett nen nes 90 8 4 1 2 Changing the Voltage Thresholds for the Generator 0 cnc t nent ene nees 90 8 4 1 3 Changing the Frequency Thresholds of the Generator Voltage 0 nananana anne 90 8 4 1 4 Changing the Permitted Reverse Power in the Generator 00 0c cence ene enna 91 8 4 1 5 Configuring the Current Limit for the Generator Depending on the Frequency 0ooooooococoocoooo 91 8 4 2 Changing the Type of the Generator Interface 6 cee nen n een n eens 91 8 4 3 Configuring Generator Run Times DD A AAA ATA 92 8 4 3 1 Changing the Warm Up Time for the Generator 00 60 nnen enre
31. that all system devices are connected with the O same ground potential The stand alone grid or the Multicluster Box is connected to the mM AC1 Loads SunnyBoys terminals The generator is connected to connection AC2 Gen Grid L The neutral conductor is connected to the terminal AC2 Gen O Grid N SISOM 44M 60H 80H IA en 32 65 7 Electrical Connection SMA Solar Technology AG 7 7 Sealing and Closing the Sunny Island A B Figure 20 Position of the cable glands and the cable feed through plate Position Designation A Cable glands B Cable feed through plate Procedure 1 Protect the interior of the Sunny Island from dust and moisture e Make sure that the cable glands A completely seal the enclosure openings e Seal the cable feed through plate using the provided sealing compound The sealing compound must completely seal the cable feed through plate B and the gap between the cable feed through plate and enclosure 3 On the Sunny Island fasten the enclosure lid following the sequence to 6 using an Allen key AF 5 torque 6 Nm i i Py in N The teeth of the conical spring washer press into the enclosure e E lid This ensures that the enclosure lid
32. the battery current sensor 7 Fora 50 mV model select the parameter 225 03 BatCurGain50 and set it according to the gain factor of the battery current sensor 8 Select the parameter 225 04 BatCurAutoCal and set to Start M The Sunny Island starts the adjustment 9 After ten seconds select the parameter 120 06 TotBatCur and read off the value M The parameter value is between O A and 1 A X The parameter value is not between O A and 1 A The measuring cables are not correctly connected or not short circuited e Check whether the measuring cables are correctly connected and whether they are short circuited e Repeat steps 8 and 9 70 SI30M 44M 60H 80H 1A en 32 Installation manual SMA Solar Technology AG 8 Commissioning 10 Switch off the Sunny Island and open the BatFuse load break switch quickly 11 Connect the BatCur insulated measuring conductor on the side for connecting the BatFuse BatCur BatFuse 12 Connect the BatCur insulated measuring conductor on the side for connecting the battery 13 Close the BatFuse load break switch quickly and switch on the Sunny Island 8 1 5 Setting the Functions of the Multifunction Relays The multifunction relays of the master are preset in an SMA Flexible Storage System and cannot be changed In multicluster systems with Multicluster Box 12 MC BOX 12 3 20 multifunction relays 1 and 2 in the master of the main cluster and multifunction relay 1 in slave
33. the Multifunction Relays page 71 e Ensure that the external energy source can supply the loads with sufficient power 7 Ifthe off grid system is a multicluster system ensure that the parameter of the multifunction relay is set to MccAutoLod see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 8 3 3 Setting Two Level Load Shedding Two multifunction relays control two load shedding contactors depending on the state of charge of the battery Significance of the SOC thresholds Two lower and two upper SOC thresholds each are available for controlling the load shedding contactors The load shedding contactors disconnect the loads from the utility grid if the states of charge are as follows e When the state of charge of the battery reaches the first lower SOC threshold the multifunction relay opens the connected load shedding contactor for the first level of load shedding The load shedding contactor disconnects those loads from the utility grid that are to be disconnected for the first level e When the state of charge of the battery reaches the second lower SOC threshold the multifunction relay opens the connected load shedding contactor for the second level of load shedding The load shedding contactor disconnects the remaining loads from the utility grid e When the state of charge of the battery reaches the second upper SOC threshold during recharging the multifunction relay closes the connected load she
34. the Sunny Island If there is a short circuit the Sunny Island briefly feeds short circuit currents into the utility grid As a result the Sunny Island may trip certain circuit breakers see Section 10 Technical Data page 101 Type label The type label clearly identifies the product The type label is located on the right hand side of the enclosure for a description of the type label see the Sunny Island inverter operating manual You will require the information on the type label to use the product safely and when seeking customer support from the SMA Service Line 5 2 Scope of Functions of Device Types SI3 0M 11 and SI4 4M 11 The following functional restrictions apply for device types SI3 0M 11 and SI4 4M 1 1 e All Sunny Island inverters in a cluster must be of the same device type e Device types SI3 0M 11 and SI4 4M 11 do not support all off grid system variants Single phase systems can include a maximum of one Sunny Island SI3 0M 11 or SI4 4M 11 Three phase systems can include a maximum of three Sunny Island SI3 0M 11 or SI4 4M 11 devices Only device types SI6 OH 11 and SI8 0H 1 1 are suitable for single phase single cluster systems and three phase multicluster systems see the quick reference guide Off Grid Systems or Multicluster Systems Installation manual SI3OM 44M 60H 80H IA en 32 17 5 Product Description SMA Solar Technology AG 5 3 Multifunction Relay Using two multifunction relays each S
35. to reasonable values during basic configuration for the respective system The parameter values can be adjusted if there are special requirements for the system or the battery In systems for increased self consumption one range can be adjusted seasonally e Increased self consumption range SlfCsmp You determine the percentage of the battery capacity that is to be used for increased self consumption on the shortest day of the year The longer the days become the more the SlfCsmp range increases automatically and the range for protection against deep discharge BatRes decreases The range for increased self consumption reaches its maximum on the longest day SIFCsMPmax 100 262 04 PVResSOC 262 02 BatResSOC 262 01 ProtResSOC This results in the seasonal progression of the ranges Installation manual SI3OM 44M 60H 80H IA en 32 75 8 Commissioning SMA Solar Technology AG SOC 100 Area SIfCsmp Area PVRes Area BatRes Area ProtRes 0 r Winter Summer Winter Summer Winter Summer Figure 22 State of charge ranges of the battery according to the time of year example Range Explanation of the range and parameters SlfCsmp Range for increased self consumption The SlfCsmp range applies to the shortest day of the year with seasonal adjustment see Section 8 2 4 1 page 75 When seasonal adjustment is deactivated only the SlfCsmp range is used and the BatRes range increased accordingly Minimum wid
36. to the lower SOC threshold during the additional time period e Select the parameter Battery state of charge limit for generator disconnection in the additional time period 235 06 GnSocTm2Stp and set it to the upper SOC threshold during the additional time period 8 4 4 4 Configuring the Load Dependent Generator Request Ta Significance of the load dependent generator request If you activate the load dependent generator request the Sunny Island requests the generator in the event of a high load This prevents the battery from deep electric discharging and cycling and extends its service life The performance of the off grid system for supplying loads increases to the sum of the generator power and the power of the Sunny Island inverter This improves the system stability The load is the average output power of the Sunny Island inverter 94 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning Loads in a three phase system The generator management considers the total load of all phases It does not monitor single phases in three phase systems If the switch on power limit is exceeded the generator management requests the generator Time based procedure of the load dependent generator request If the switch on power limit is reached the generator management requests the generator If the load then drops to the switch off power limit the generator management resets the generator request after the mini
37. torque 5 Nm 3 Strip off 13 mm of the insulation of the grounding conductor 4 Lead the cable through the cable gland into the Sunny Island 5 Insert the grounding conductor as far as it will go into terminal AC Loads SunnyBoys PE or AC2 Gen Grid PE and move the lever downward 6 Tighten the swivel nut of the cable gland torque 2 6 Nm 7 5 4 Connecting the Data Cables Always proceed as follows to connect data cables Procedure 1 Push the cable feed through plate out of the enclosure Retain the cable feed through plate for later use Lead the data cable through the enclosure opening Connect the data cable When all data cables are connected select two cable support sleeves with a suitable number of openings O On KR 0 ND Open the cable support sleeves and place the cables in the cable support sleeves 58 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 Open the cable feed through plate and insert the cable support sleeves into the cable feed through plate Position the flat sides of each cable support sleeve on the flat side in the cable feed through plate 8 Hold the cables and push the cable feed through plate to the enclosure opening of the cable feed through plate 9 Hook the cable feed through plate into the enclosure opening of the cable feed through plate and press into the enclosure opening 7 5 5 Connectin
38. 0M 48 V 41 Vto 63 V A5 A 51A 51A Lead acid battery FLA VRLA lithium ion battery 100 Ah to 10 000 Ah SI30M 44M 60H 80H 1A en 32 Sunny Island 4 4M 11 500 W 230 V 172 5 V to 264 5 V 50 Hz 40 Hz to 70 Hz 50 A 143A 3 300 W 3 A 4 600 W 10 mm2 16 mm 9 mm to 18 mm Lever terminal 50 A Sunny Island 4 4M 48 V 41 Vto63 V 63 A 75 A 75A Lead acid battery FLA VRLA lithium ion battery 100 Ah to 10 000 Ah Sunny Island 6 0H 11 500 W 230 V 172 5 V to 264 5 V 50 Hz AO Hz to 70 Hz 50 A 20 0A 4 600 W 1 5 A 9 200 W 10 mm 16 mm 9 mm to 18 mm Lever terminal 50 A Sunny Island 6 0H 48 V 41 Vto 63 V 90 A 103 A 110A Lead acid battery FLA VRLA lithium ion battery 100 Ah to 10 000 Ah Sunny Island 8 0H 11 500 W 230 V 172 5 V to 264 5 V 50 Hz 40 Hz to 70 Hz 50 A 20 0 A 4 600 W 1 5 A 12 000 W 10 mm 16 mm 9 mm to 18 mm Lever terminal 50 A Sunny Island 8 0H 48 V 41 Vto63 V 115A 136A 140 A Lead acid battery FLA VRLA lithium ion battery 100 Ah to 10 000 Ah Installation manual SMA Solar Technology AG 10 Technical Data Sunny Island Sunny Island Sunny Island Sunny Island 3 0M 4 4M 6 0H 8 0H Battery capacity range of lithium ion 50 Ah to 50 Ah to 50 Ah to 50 Ah to batteries 10 000 Ah 10 000 Ah 10 000 Ah 10 000 Ah Recommended minimum battery 100 Ah 100 Ah 100 Ah 100 Ah capacity C10
39. 5 C Power for 5 minutes at 25 C Power for 1 minute at 25 C Maximum AC power for 3 sat 25 C Maximum connectable power of the PV inverters in off grid systems Rated grid voltage Voltage range Rated frequency Frequency range Frequency range of the set range Rated current Maximum output current as a peak value for 60 milliseconds Total harmonic distortion of the output voltage THD Displacement power factor cos p Recommended conductor cross section Maximum connectable conductor cross section Cable diameter Connection Circuit breakers than can be tripped Short circuit power of the device Installation manual Sunny Island 3 0M 2 300 W 3 000 W 3 500 W 4 200 W 5 500 W 4 600 W 230 V 202 V to 253 Y 50 Hz 45 Hz to 65 Hz 5 Hz 10A 60 A lt 4 5 Stoel 10 mm2 16 mm 9 mm to 18 mm Lever terminal Trip characteristic B 13 8 kW Sunny Island 4 4M 3 300 W 4 400 W 4 600 W 4 800 W 5 500 W 4 600 W 230 V 202 V to 253 V 50 Hz 45 Hz to 65 Hz 5 Hz 14 3 A 60 A lt 4 5 to 1 10 mm 16 mm 9 mm to 18 mm Lever terminal Trip characteristic B 13 8 kW SI3OM 44M 60H 80H 1A en 32 Sunny Island 6 0H 4 600 W 6 000 W 6 800 W 7 500 W 11 000 W 9 200 W 230 V 202 V to 253 Y 50 Hz 45 Hz to 65 Hz 5 Hz 20 00 A 120A lt 4 1 to 10 mm 16 mm2 9 mm to 18 mm Lever terminal Trip characteristic
40. 6 5 W 25 8 W 26 6 W 105 10 Technical Data 10 10 Noise Emission Noise emission typical 10 11 Grid Configuration TN S grid configuration TN C S grid configuration TT grid configuration 10 12 Protective Devices AC short circuit AC overload DC reverse polarity protection Battery deep discharge Overtemperature Overvoltage category according to IEC 60664 1 10 13 Features Number of buttons Number of LEDs Display Number of interface slots SWDMSI xx SI COMSMA BGx COM SYNC SI SYSCAN BGx Number of digital control inputs High level digital input Low level digital input Potential free control contacts Number of connections for battery current sensors Measuring accuracy with connected battery current sensor Maximum length of measuring cable on battery current sensor AC load switching limit for multifunction relays 1 and 2 DC load switching limit for multifunction relays 1 and 2 106 SIS3OM 44M 60H 80H IA en 32 SMA Solar Technology AG 49 dB A suitable suitable suitable yes yes not available yes yes 3 3 two color LEDs External display SRC 20 2 necessary in the SMA Flexible Storage System optional for internal communication only optional for Sunny Island 6 0H 8 0H 1 9 V to 63 V OVto3V 2 multifunction relays 10 3m Aat 250 V see Section 10 14 page 107 Installation manual 10 14 DC Load Limitation Curve of the Multifunction Relays 400 300 200 100 Voltag
41. A Solar Technology AG 7 4 3 Connecting the Automatic Transfer Switch in the SMA Flexible Storage System with Battery Backup Function 7 4 3 1 Automatic Transfer Switch Function The automatic transfer switch separates the utility grid from the battery backup grid in the SMA Flexible Storage System with battery backup function The control cable measuring cable and power cable link the automatic transfer switch to the Sunny Island for circuitry overview see the quick reference guide SMA Flexible Storage System with Battery Backup Function 7 4 3 2 Connecting the AC Power Cables to the Automatic Transfer Switch The AC power cables conduct the energy between the battery backup grid and the Sunny Island for circuitry overview see the quick reference guide SMA Flexible Storage System with Battery Backup Function Requirements LI In a three phase SMA Flexible Storage System with battery backup function L1 must be assigned to the master L2 to slave 1 and L3 to slave 2 This creates a right hand rotating magnetic field L The power of the AC sources in the battery backup grid must not exceed the maximum connectable power of the PV inverters in the SMA Flexible Storage System with battery backup function see Section 10 2 AC2 Connection for Utility Grid and Generator External Energy Source page 102 The powers of the individual Sunny Island inverters are added to yield the total maximum power Cable requirements LI Copper w
42. Approved Lithium lon Batteries at www SMA Solar com If no lithium ion batteries approved for the Sunny Island can be used use lead acid batteries Procedure 1 Ensure that the load break switch of the BatFuse is open and secured against reconnection 2 Loosen all screws of the enclosure lid and remove the enclosure lid Retain the screws and conical spring washers for later use 3 Clean the contact surfaces of the DC and DC connections for example with ethanol This reduces the transition resistance on the contact surfaces A low transition resistance increases the system stability and minimizes the risk of damage to the Sunny Island 4 Strip off the insulation of the DC cable and mount a terminal lug 5 Attach two M32 cable glands with counter nuts to the DC and A DC enclosure openings torque 12 Nm 6 Lead the DC cable through the DC cable gland into the Sunny Island 54 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 NOTICE Damage to Sunny Island inverter due to reverse polarity or incorrect terminal lug selection If the DC cables are swapped high currents will flow after the load break switch has closed and these can damage the Sunny Island e Route the DC cable on the side of the protective cover marked with a symbol e Use an Allen key AF 5 to fasten the DC cable to the DC connection with an M8x20 screw torque 12 Nm Be sure t
43. B16 and C6 27 6 kW 10 Technical Data Sunny Island 8 0H 6 000 W 8 000 W 9 100 W 9 600 W 11 000 W 12 000 W 230 V 202 V to 253 V 50 Hz 45 Hz to 65 Hz 5 Hz 26 1A 120A lt 4 ltot 10 mm 16 mm 9mmto 18 mm Lever terminal Trip characteristic B16 and C6 27 6 kW 101 10 Technical Data SMA Solar Technology AG 10 2 AC2 Connection for Utility Grid and Generator External Energy Source Maximum power in an off grid system Rated voltage Voltage range Rated frequency Permitted frequency range Maximum current in off grid systems Maximum current in systems for increased self consumption with one Sunny Island in Germany Maximum power in systems for increased self consumption with one Sunny Island in Germany Maximum inrush current for 10 ms Maximum connectable power of the PV inverters in battery backup systems Recommended conductor cross section Maximum connectable conductor cross section Cable diameter Connection Maximum back up fuse Sunny Island 3 0M 11 500 W 230V 172 5 V to 264 5 V 50 Hz 40 Hz to 70 Hz 50 A 10 0 A 2 300 W 3 A 4 600 W 10 mm 16 mm 9 mm to 18 mm Lever terminal 50 A 10 3 DC Connection for Battery Rated input voltage Voltage range Rated charging current Rated discharging current Maximum battery charging current Battery type Battery capacity range of lead acid batteries 102 Sunny Island 3
44. I3OM 44M 60H 80H IA en 32 99 9 Supplementary Information SMA Solar Technology AG 9 3 Setting Time Dependent Functions Time dependent functions such as time dependent load shedding split the day into two time periods You specify the time periods using two points in time The standard time period starts with time 1 and ends with time 2 The additional time period starts with time 2 and ends with time 1 Time interval 1 Int 2 me Time 2 Figure 28 Division of the time of day into two time periods 9 4 Setting Time Controlled Functions For time controlled functions you set the start time duration and repetition type Example Time controlled operation of a generator If you want the generator to run every Monday from 07 00 a m to 08 00 a m Set the generator as follows 100 Time controlled generator operation 235 13 GnTmOpEna Enable activation of the function Start time for time controlled generator operation 235 14 GnTmOpStrDt January 5 2015 Monday Start time for time controlled generator operation 235 15 GnTmOpStrTm 07 00 00 starting time Runtime for time controlled generator operation 235 16 GnTmOpRnDur 01 00 00 duration Repeat cycle for time controlled generator operation 235 17 GnTmOpCyc Weekly repetition type SI30M 44M 860H 80H lA en 32 Installation manual SMA Solar Technology AG 10 Technical Data 10 1 AC1 Connection for Stand Alone Grid Rated power Power for 30 minutes at 2
45. ILCOMSMA BGx The Speedwire data module SWDMSI xx allows the Sunny Island inverter to be integrated into a Speedwire network Speedwire is a cable based type of communication based on the Ethernet standard and the communication protocol SMA Data2 This enables inverter optimized 10 100 Mbit data transmission between Speedwire devices e g between Sunny Island and Sunny Home Manager The SI COMSMA BGx communication interface allows the Sunny Island inverter to be integrated into an RS485 communication bus You can connect the Sunny Island to the following products using RS485 e SMA communication products e g Sunny WebBox e PV inverters e Wind power inverters e Extension cluster masters If the Sunny Island inverters are ordered with the RS485 communication interface SLCOMSMA BGx or with the Speedwire data module SWDMSL xx the Sunny Island inverters are delivered with premounted communication interfaces Components of the optional communication interface see Section 3 page 13 Interface slot SISYSCAN On Sunny Island device types SI6 0H 11 or SI8 0H 1 1 the interface slot SISYSCAN is for connecting the multicluster data module SI SYSCAN BGx In a multicluster system the masters of the clusters must communicate with each other via a separate CAN bus An SI SYSCAN BGx communication interface must be installed in each master for multicluster communication If the Sunny Island inverters are ordered with the communication interface SI
46. MA Australia Pty Ltd Belgien Sydney Belgique Toll free for Australia 1800 SMA AUS Belgi 1800 762 287 Luxemburg International 61 2 9491 4200 Luxembourg Nederland Argentina SMA South America SPA Cesko Brasil Santiago Magyarorsz g Chile 562 2820 2101 Polska Per Rom nia Slovensko Danmark SMA Solar Technology AG France Deutschland Niestetal Osterreich SMA Online Service Center Schweiz www SMA de Service Installation manual Sunny Boy Sunny Mini Central Sunny Tripower 49 561 9522 1499 Monitoring Systems Kommunikationsprodukte 49 561 9522 2499 Fuel Save Controller PV Diesel Hybrid systeme 49 561 9522 3199 Sunny Island Sunny Backup Hydro Boy 49 561 9522 399 Sunny Central 49 561 9522 299 12 Contact SMA Benelux BVBA SPRL Mechelen 32 15 286 730 SMA Central amp Eastern Europe s r o Praha 420 235 010 417 SMA France S A S Lyon Sunny Boy Sunny Mini Central Sunny Tripower 33 472 09 04 40 Monitoring Systems 33 472 09 04 41 Sunny Island 33 472 09 04 42 Sunny Central 33 472 09 04 43 SI3OM 44M 60H 80H 1A en 32 109 India E Adda SMA Solar Technology AG SMA Solar India Pvt Ltd Mumbai 91 22 61713888 SMA Hellas AE SMA Solar Technology K rrpos Kibris Bbnrapus A nva 30 210 9856666 ltalia SMA Italia S r l 12 Contact Espa a SMA Ib rica Tecnolog a Solar S L U Portugal Barcelona 34 935 63 50 99 South Africa South Africa Pty Ltd C
47. Sunny Remote Control Requirement C In a cluster the communication product or Sunny Remote Control must be connected to the master Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Battery state of charge limit for load shedding 1 start 242 01 Lod1SocTm1 Str and set it to the lower SOC threshold 3 Select the parameter Battery state of charge limit for load shedding 1 stop 242 02 Lod1SocTm1Stp and set it to the upper SOC threshold The upper SOC threshold must be at least 10 percentage points above the lower SOC threshold 4 Set the parameter Time load shedding 1 242 05 Lod1Tm1 Str and the parameter Start time for the additional time period of load shedding 1 242 06 Lod1Tm2Str each to the same value e g to 00 00 00 This will switch the time dependent load shedding off 5 If the loads are only to be reconnected when the set SOC threshold is reached ensure that the parameter of the multifunction relay is set to AutoLod1 Soc see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 6 If the loads are to be supplied by an external energy source during recharging of the battery ensure the following e Ensure that the parameter of the multifunction relay is set to AutoLodExt see Section 8 1 5 Setting the Functions of
48. a multicluster system the masters of the various clusters communicate with each other see Multicluster Box documentation An SI SYSCAN BGx communication interface must be installed in each master for Multicluster communication This communication is not necessary for a multicluster system with one cluster If the Sunny Island was ordered with the Communication in multicluster systems order option SI SYSCAN BGx is installed in each master Figure 12 Design of the SISYSCAN BGx Position Designation A Mounting hole B Type label C SysCanin pin connector D SysCanOut pin connector Cable requirements O Classification CAT5e L Maximum cable length 30 m 40 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection Procedure 1 If no SISYSCAN BGx communication interface is installed install SISYSCAN BGx in each master see SISYSCAN NR documentation 2 Remove the terminator from the SysCanOut pin connector on the master of the main cluster and plug it into the SysCanlIn pin connector 3 Plug the yellow data cable into the SysCanOut pin connector on the main cluster master see Section 7 5 4 Connecting the Data Cables page 58 4 Plug the other end of the yellow data cable into the SysCanIn pin connector on the master of the extension cluster 1 5 Connect the other extension clusters with each other as described in steps 3 and 4 Remove the terminators for this 6 Leave the term
49. able requirements L Copper wire O Conductor cross section 0 2 mm to 2 5 mm Procedure 1 On the Sunny Island attach the M20 cable gland to the PE ExtVtg enclosure opening with the counter nut torque 5 Nm Strip off the cable insulation For stranded wires press the bootlace ferrules onto the insulated conductors Lead the cable through the cable gland into the Sunny Island Om KR O N Connect the insulated conductors to terminal ExtVtg using the 2 pole terminal torque 0 5 Nm to 0 6 Nm for circuitry overview see the quick reference guide SMA Flexible Storage System with Battery Backup Function e Connect the line conductor to terminal ExtVtg L e Connect the neutral conductor to terminal ExtVtg N 6 Tighten the swivel nut of the cable gland torque 2 6 Nm Installation manual SI3OM 44M 60H 80H IA en 32 6 7 Electrical Connection SMA Solar Technology AG 7 6 Checking the Wiring Ensure that you carry out all tests relevant to the system and rectify all detected problems Tip Tests can be documented directly in the tables Cross out all tests not applicable Requirement CO All Sunny Island inverters must be voltage free see the Sunny Island inverter operating manual Procedure Checking the grounding Test point Test criterion OK Enclosure opening PE ExtVtg Enclosu
50. able support surface must be used at the mounting location e g concrete or masonry In the living area ensure that the support surface is not made of drywall or similar When in operation the Sunny Island makes noises that can be perceived as annoying The mounting location must be suitable for the weight and dimensions of the Sunny Island inverter see Section 10 Technical Data page 101 The mounting location must be clear and safely accessible at all times without the need for any auxiliary equipment e g scaffolding or lifting platforms Non fulfillment of these criteria may restrict servicing The mounting location must not hinder access to disconnection devices The mounting location must not be exposed to direct solar irradiation Direct solar irradiation can cause the Sunny Island to overheat Climatic conditions must be met see Section 10 Technical Data page 101 The mounting location must be less than 3 000 m above MSL From altitudes of 2 000 m above MSL the power decreases by 0 5 every 100 m The ambient temperature should be below 40 C This will ensure the optimum operation of the Sunny Island inverter see Section 10 9 Energy Consumption in No Load Operation and Standby page 105 Mounting position ae gt x Figure 6 Permitted and prohibited mounting positions C The mounting location must be suitable for a permitted mounting position The control panel should be at eye level 20
51. ables 7 6 Checking the Wiring 7 7 Sealing and Closing the Sunny Island 7 8 Inserting the Fuse Links in the Fuse Switch Disconnector BatFuse Installation manual Explanation Graphic overview of the connection area For systems with a grounded battery this section must be read and observed Information on the connection and circuitry of individual devices with specification of connections on the Sunny Island Correct connection of the cables to the respective connections You must read and observe the sections for the connections used You must read and observe the section for the connections used You must read and observe this section You must read and observe this section SI30M 44M 60H 80H 1A en 32 25 7 Electrical Connection 7 2 Connection Area SMA Solar Technology AG N M Figure 9 Connection area of the Sunny Island inverter Position Designation DC connection DC connection BatTmp and BatCur connections BatVtgOut and Digin
52. agnetic field The master must be assigned to L1 slave 1 must be assigned to L2 slave 2 must be assigned to L3 Test criterion The conductor cross section is sufficient for the maximum generator current The cables are sufficiently protected by circuit breakers The allocation of the Sunny Island inverters to the line conductors of the generator results in a righthand rotating magnetic field The master must be assigned to L1 slave 1 must be assigned to L2 slave 2 must be assigned to L3 The exposed conductive part of the generator is grounded Checking the control and measuring cables Test point Battery temperature sensor if installed If installed the control and measuring cables of the Multicluster Box 6 12 36 If installed the control and measuring cables of the Multicluster Box 12 MC Box 12 3 20 If installed the measuring cable of the battery current sensor Control cable of the load shedding if installed 64 SI30M 44M 60H 80H 1A en 32 Test criterion The battery temperature sensor is connected to the terminal BatTmp The battery temperature sensor is secured in the middle of the battery storage system in the upper third of the battery cell The control and measuring cables are correctly connected see Multicluster Box manual The control and measuring cables are connected correctly see Multicluster Box manual and quick reference guide Multicluster Systems with Stand Alone Grid or Incre
53. ain days for a set duration x see Section 9 4 Setting Time Controlled Functions page 100 Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Time controlled generator operation 235 13 GnTmOpEna and set it to Enable 3 To set start date and start time on the Sunny Remote Control set the parameter 235 14 GnTmOpStrDt to the desired start date and the parameter 235 15 GnTmOpStrTm the desired start time 4 To set the start date and start time on the communication product select the parameter Start time for time controlled generator operation and set the desired start date and time of the generator 5 Select the parameter Run time for time controlled generator operation 235 16 GnTmOpRnDur and set it to the desired duration 6 Select the parameter Repetition cycle for time controlled inverter operation 235 17 GnTmOpCyc and set it to the desired repetition cycle Value Explanation Single Single generator request on the start date Daily Daily generator request starting on the start date Weekly Weekly generator request starting on the start date The start date determines the weekday Installation manual SI3OM 44M 60H 80H IA en 32 95 8 Commissioning SMA Solar Technology AG 8 4 4 6 Changing the Generator Request via the Charging Process of the Batt
54. and Charger devices or the number is greater than four Sunny Island Chargers 8 1 4 Commissioning the Battery Current Sensor in Off Grid Systems a To operate the battery current sensor you must set the type of the battery current sensor and start the adjustments of the battery current sensor The Sunny Island distinguishes between battery current sensors of the types 50 mV and 60 mV The types reflect the amplification factor of the battery current sensor The amplification factors are given in amperes per 50 mV or in amperes per 60 mV e g 400 A 60 mV Requirement L The Sunny Remote Control must be connected to the master Installation manual SI3OM 44M 60H 80H IA en 32 69 8 Commissioning Procedure 1 Switch off the Sunny Island and open the BatFuse load break switch quickly 2 Short circuit the measuring cable at the battery current sensor Connect the BatCur and BatCur insulated measuring conductors to the connection for BatCur 3 Close the BatFuse load break switch quickly and switch the Sunny Island on SMA Solar Technology AG BatFuse BatCur BatCur Battery DO ag 4 Switch to installer mode on the Sunny Remote Control see Sunny Island operating manual 5 Select the parameter 225 01 BatCurSnsTyp and set to the type of the battery current sensor used 6 For a 60 mV model select the parameter 225 02 BatCurGain 0 and set it according to the gain factor of
55. and set to the desired value Tip A suitable value for the parameter 234 03 GnCurNom is 80 of the maximum generator current per line conductor 3 Select the parameter Type of generator current limitation 234 15 GnCtlMod and set to CurFrq This will activate the frequency dependent current limiting 8 4 2 Changing the Type of the Generator Interface Ta If you have installed a generator in the system the type of generator interface determines how the generator is controlled Installation manual SI3OM 44M 60H 80H IA en 32 91 8 Commissioning SMA Solar Technology AG Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 If the generator has an autostart function select the parameter Generator request 234 07 GnStrMod and set to Autostart 3 If the generator does not have an autostart function select the parameter Generator request 234 07 GnStrMod and set to Manual 8 4 3 Configuring Generator Run Times 8 4 3 1 Changing the Warm Up Time for the Generator Ta Relation between warm up time and termination of generator start The generator management measures the time between the generator start and the beginning of the warm up time If a maximum time is exceeded the generator management terminates the generator start The maximum time to start termination is double the war
56. ange for disconnection 262 01 ProtResSOC The following ranges result from the parameter default values Range Lead acid battery Lithium ion battery Shortest day Longest day Shortest day Longest day SlfCsmp 65 to 100 45 to 100 30 to 100 28 to 100 PVRes 60 to 65 40 to 45 25 to 30 23 to 28 BURes 15 to 60 15 to 40 13 to 25 13 to 23 BatRes 10 to 15 10 to 15 3 to 13 3 to 13 ProtRes 0 to 10 0 to 10 0 to 3 0 to 3 December 21 northern hemisphere or June 21 southern hemisphere June 21 northern hemisphere or December 21 southern hemisphere The following ranges result from deactivating seasonal adjustment with the default values of the parameters Range Lead acid battery Lithium ion battery SlfCsmp 65 to 100 30 to 100 PVRes 60 to 65 25 to 30 BURes 15 to 60 13 to 25 BatRes 10 to 15 3 to 13 ProtRes 0 to 10 0 to 3 i Procedure for multicluster systems with battery backup grid With the Multicluster Box 12 MC Box 12 3 20 and the NA Box or Grid Connect Box multicluster systems with battery backup grid can be installed see Multicluster Box and NA Box Grid Connect Box documentation e Ina multicluster system with battery backup grid set the ranges of battery state of charge for each cluster to the same values You can change the battery usage through battery backup systems with increased self consumption on the communication product or Sunny Remote Control
57. arging behavior of the Sunny Island inverter see technical information Battery Management e Set the battery capacity for a ten hour electric discharge C10 The battery manufacturer specifies the battery capacity in relation to discharge time i Prior damage to batteries Batteries may have suffered prior damage due to production defects Logs can help to determine the cause e Check and log the status of the battery before commissioning and each time before performing maintenance work Performance impairment of batteries Transition resistances can impair the performance of the batteries e Note the torques when connecting the battery 12 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 3 Scope of Delivery 3 Scope of Delivery Check the scope of delivery for completeness and any externally visible damage Contact your distributor if the scope of delivery is incomplete or damaged E ye E gt DO 0 e O gt P o 0 L P Q R S T U V X a Figure 1 Components included in the scope of delivery Position Quantity Designation Position Quantity Designation A Sunny Island R 2 M25 cable gland B 2 Ventilation grid S 2 Counter nut for M25 cable gland C 1 Wall mounting bracket 2 M32 cable gland D 2 Hexagon socket screw M6x10 U 2 Counter nut for M32 cable gland V Filler plug M20 E 2 Hexagon socket W Filler plug M25 ENG X 1 Sealing compound F 2 He
58. ased Self Consumption and Battery Backup Function of the Sunny Island inverter The measuring cable of the battery current sensor is connected to the terminal BatCur with the correct polarity see Section 7 4 10 Connecting the Battery Current Sensor in the Off Grid System page 43 The multifunction relay and the load shedding contactors are correctly wired to each other see Section 7 4 13 Connecting Load Shedding Contactors page 47 OK OK OK Installation manual SMA Solar Technology AG Test point Communication with Sunny Island Charger 50 if installed 7 Electrical Connection Test criterion OK The data cable between the Sunny Island Charger 50 and the O Sunny Island is connected correctly see manual for Sunny Island Charger 50 charge controller Checking the wiring of the communication products Test point Electricity supply to communication products Termination of the communication buses Checking the system devices Test point System devices Connection AC1 in the off grid system Connection AC2 in the off grid system Installation manual Test criterion OK The plug in power supply units are plugged in E L The communication products are connected to an electricity supply The communication buses are connected to the first and last device O in the bus Test criterion OK All system devices are correctly connected see the manuals forthe O devices Ensure by measuring
59. cable is not combustible O Insulated conductors in the measuring cable must be twisted Procedure 1 Install the battery current sensor on the DC power cable between the battery and BatFuse 2 Connect the BatCur insulated measuring conductor to the side for connecting the BatFuse on the battery current sensor BatFuse E 3 Connect the BatCur insulated measuring conductor to the side BatFuse for connecting the battery on the battery current sensor BatCur 4 On the Sunny Island connect the insulated conductors to the terminals BatCur and BatCur Ensure that the cable is correctly connected see Section 7 5 6 Connecting BatVtgOut Digln BatTMP and BatCur page 60 44 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 11 Connecting the Control Cable for Autostart Generators T Autostart generators are started and stopped with a contact i Generator control in a cluster Slaves control the generator less reliably than masters do e Connect the generator control preferably to the master e If the off grid system is a multicluster system always connect the generator control to the master of the main cluster EXTERNAL SUNNY ISLAND GENERATOR NO Figure 16 Connection of the generator control to the Sunny Island Requirements L The technical requirements of the multifunction relay must be met
60. cable with open conductors to the communication device see installation manual of the communication device Plug the white data cable into the ComSmaln pin connector on the Sunny Island see Section 7 5 4 Connecting the Data Cables page 58 In a single cluster system plug the white data cable into the ComSmaln pin connector on the master see Section 7 5 4 Connecting the Data Cables page 58 In a multicluster system connect the masters to each other e Remove the terminator from the ComSmaOut pin connector on the master of the main cluster e Plug the gray data cable into the ComSmaOut pin connector on the master of the main cluster e Plug the gray data cable into the ComSmaln pin connector on the master of the extension cluster 1 e Connect the other extension clusters with each other as described 6 Leave the terminator plugged into the unused ComSmaOut pin connector This terminates the communication bus 7 4 9 Connecting the Battery Temperature Sensor With lead acid batteries the battery management of the Sunny Island inverter must record the temperature of the connected battery i Battery temperature sensor in a cluster 42 Only the master measures the battery temperature in a cluster e Connect the battery temperature sensor only to the master SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection NOTICE Damage to the battery due to excessive char
61. can be loaded with the maximum DC current see technical data of the battery current sensor Checking connections AC1 and AC2 of the Sunny Island inverter Test point ACT and AC2 enclosure openings Connections AC1 and AC2 Installation manual Test criterion All enclosure openings are sealed with M25 cable glands or filler plugs For an M25 cable gland the cable diameter must be 9 mm to 18 mm All contact areas are not insulated All terminal levers are in the downward position All cables are securely clamped SIS3OM 44M 60H 80H IA en 32 OK OK LJ 63 7 Electrical Connection Test point AC power cable at connection ACI With a three phase system allocation of the Sunny Island inverters Checking the generator connection Test point The connection cables With a three phase off grid system allocation of the line conductors Grounding SMA Solar Technology AG Test criterion The cables are sufficiently protected by circuit breakers Trip capable circuit breakers are installed and additional type A residual current devices have been installed Maximum trip capable circuit breakers e SI3 0M 11 Trip characteristic B e SI4 4M 11 Trip characteristic B6 e SI6 0H 11 Trip characteristic B16 or C6 e I8 0H 11 Trip characteristic B16 or C6 The allocation of the Sunny Island inverters to the line conductors of the stand alone grid or the Multicluster Box results in a right hand rotating m
62. ce the charging behavior of the Sunny Island inverter The battery can be damaged by incorrect settings of the battery type nominal voltage and capacity parameters e Ensure that the values recommended by the battery manufacturer are set refer to the technical data of the battery in the manufacturer documentation Note that the battery charging behavior names used by SMA Solar Technology AG and the battery manufacturer may in some cases differ in meaning for the battery charging behavior of the Sunny Island inverter see technical information Battery Management Set the battery capacity for a ten hour electric discharge C10 The battery manufacturer specifies the battery capacity in relation to discharge time 8 2 2 Adjusting the Battery Management to the Battery For further information relating to the battery management and the charging behavior of the Sunny Island inverter see the technical information Battery Management on the supplied CD You can set the parameters for battery management on the communication product or on the Sunny Remote Control Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 To set the parameters for battery management on the Sunny Explorer click on the tab Settings on the Sunny Explorer and select the group Battery gt Charge 3 S
63. connection to The grounding conductors must be grounded e g by connection O ground to a grounding busbar or foundation ground electrode 62 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection Checking the DC connection of the Sunny Island inverter Test point Enclosure opening for DC DC connection DC power cable BatFuse If installed charge controllers and DC loads If installed battery current sensor Test criterion In the cable gland M32 the diameter of the DC power cable must be 14 mm to 25 mm Terminal lugs are pressed on firmly The bolted connection for fitting terminal lugs to the DC connection is assembled as follows head of M8x20 screw spring washer fender washer terminal lug DC connection Terminal lugs are firmly fastened on the Sunny Island torque 12 Nm The maximum length of cables from the battery via the BatFuse to the Sunny Island is 10 m The conductor cross section meets the cable requirements of 50 mm2 to 95 mm for the recommended conductor cross section see Section 7 4 1 Fuse links are matched to the Sunny Island e SI3 0M 11 80 A e SI4 4M 11 100 A e SI6 0H 11 160 A e SI8 0H 11 200 A The cables are attached to the BatFuse with the required torque see BatFuse installation manual All charge controllers and DC loads are installed in accordance with the manufacturer s specifications The battery current sensor
64. connections 2 intertace slots Relay1 and Relay2 connections Communication connection TIQ Ts ULO FI gt Cable feed through plate 26 SI30M 44M 60H 80H 1A en 32 Position K VO TIO Z lt Designation Enclosure opening for DC Enclosure opening for DC Enclosure opening for PE ExtVtg Enclosure opening for AC2 Enclosure opening for ACT ExtVtg connection AC connection AC2 connection Installation manual SMA Solar Technology AG 7 Electrical Connection 7 3 Connecting the Grounding Conductor in Systems with a Grounded Battery If you ground the battery you can ground it at the positive terminal or at the negative terminal with a grounding conductor SMA Solar Technology AG does not recommend grounding the battery If the battery is grounded the enclosure of the Sunny Island must also be grounded This additional grounding is no substitute for the grounding at connections AC1 and AC2 Conductor cross section You must determine the required conductor cross section of the grounding conductor taking into account the applicable local standards and directives The calculation of the grounding conductor cross section depends on the type and size of the connected battery the external fuse in the BatFuse and the material of the grounding conductor Example Calculation of the grounding conductor cross section Grounding conductor made of copper The required cross section of the grounding conductor can b
65. ction 10 Technical Data page 101 Cable requirements LI Copper wire L Conductor cross section 0 2 mm to 2 5 mm2 Procedure l A WARNING Danger to life from electric shock due to incorrect insulation e Connect the control cable on the Sunny Island to either multifunction relay Relay1 or Relay2 see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 Use the C and NO connections 2 Go to Section 8 1 5 page 71 and enter the following values in the table for configuration 1 Value Version GnRn The generator is running and is connected ExtVfOk Voltage and frequency of the generator are within the range for connection GdOn The utility grid is connected in the off grid system Error A Sunny Island displays an error message of level 2 or higher Warn The Sunny Island displays a warning Run In a single system the Sunny Island is operating or in a cluster system the cluster is operating Installation manual SI3OM 44M 60H 80H IA en 32 49 7 Electrical Connection SMA Solar Technology AG Value Version Overload In a single system a Sunny Island is in derating or in a cluster system the cluster is in derating 7 4 16 Connecting the Battery Room Fan If the charging current leads to the emission of gases from the battery the battery room fan is switched on by the Sunny Island for at least one hour Requirements LI The technical requirements of the
66. d battery voltage is still temporarily present at the DC connection A short circuit at the DC connection can lead to burns and may damage the Sunny Island inverter e Wait 15 minutes before performing any work at the DC connection or on the DC cables This allows the capacitors to discharge 10 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 2 Safety A CAUTION Risk of burns due to hot components Some components on the Sunny Island inverter may heat up significantly during operation Touching these components can cause burns e Touch only the enclosure lid of the Sunny Island inverter during operation e When the Sunny Island is open do not touch hot surfaces NOTICE Destruction of the Sunny Island inverter due to electrostatic discharge ESD Touching the electronic components within the Sunny Island inverter can lead to damage to or the destruction of the Sunny Island e Do not touch any electronic assemblies e Ground yourself before touching any connections 2 3 Information for Handling Batteries A WARNING Danger to life due to explosive gases Explosive gases may escape from the battery and cause an explosion This can result in death or serious injury Protect the battery environment from open flames embers and sparks Install operate and maintain the battery in accordance with the manufacturer s specifications Do not heat the battery above the temperature permitted or burn the ba
67. d System 0 cee n ence eee nes 35 ZAZ nenna o A N hohe E r Rete N ea ee elim tae ees ane 36 Installation manual SI3OM 44M 60H 80H IA en 32 3 Table of Contents SMA Solar Technology AG 8 ZAB COMMUNICAION Connection 2 5 0h555 5026 anita Aaa dee 36 7 4 8 1 Connecting the Sunny Remote Control A A eee eae Res 36 7 4 8 2 Connecting the Data Cable of the Lithium lon Batteries 0 cnet eens 36 7 4 8 3 Connecting the Communication Product via Speedwire 2 00 e eee 37 7 4 8 4 Connecting the Data Cable for the Internal Communication of the Cluster o oooooooooooooo 38 7 4 8 5 Connecting the Data Cable of the Sunny Island Charger 50 Charge Controller 39 7 4 8 6 Connecting the Data Cable of the Multicluster Box 0oo ooooooroooooororroor n ees 39 7 4 8 7 Connecting Control and Measuring Cables of the Multicluster BOX ooooooooooooooooo 40 7 4 8 8 Connecting the Cable of the Multicluster Communication oooooooooooooooror eee ees AO 7 4 8 9 Connecting the Communication Device via RS485 0 6 e enn n ene nes 41 7 4 9 Connecting the Battery Temperature SensOr oooooooooooor eee teen ence ene nes 42 7 4 10 Connecting the Battery Current Sensor in the Off Grid System 0 0 00 oo 43 7 4 11 Connecting the Control Cable for Autostart Generators nonn cece etn n eens 45 7 4 12 Connecting a Signal Generator for Generators without Autostart Function o oooooooo
68. d with nominal power from the utility grid The BURes range applies to the longest day of the year with seasonal adjustment see Section 8 2 4 1 page 75 When seasonal adjustment is deactivated only the minimum range is used and the SlfCsmp range increased accordingly Minimum width of the battery backup range 262 03 BUResSOC Installation manual SI3OM 44M 60H 80H IA en 32 79 8 Commissioning SMA Solar Technology AG Range Explanation of the value and parameters Behavior of the Sunny Island inverter BatRes Range for protection against deep discharge This range The Sunny Island switches into standby mode can only be reached when the utility grid fails The Sunny Island starts up every two hours and attempts to charge the battery with PV energy If the battery cannot be charged the Sunny Island switches back to standby mode When the utility grid is available the Sunny Island charges the battery with nominal power from the utility grid Minimum width of the deep discharge protection range 262 02 BatResSOC ProtRes Range for protection in the event of deep discharge When this range is reached the Sunny Island switches off in order to protect the battery When the utility grid is available again the system must be charged manually Charging the Battery after Auto Power Off see Sunny Island operating manual This range can only be reached when the utility grid fails Lower limit of the deep discharge protection r
69. dding contactor for the second level of load shedding The load shedding contactor connects those loads to the utility grid that were disconnected for the second level Installation manual SI3OM 44M 60H 80H IA en 32 85 8 Commissioning SMA Solar Technology AG e When the state of charge of the battery reaches the first upper SOC threshold during recharging the multifunction relay closes the connected load shedding contactor for the first level of load shedding The load shedding contactor connects those loads to the utility grid that were disconnected for the first level All loads are connected to the utility grid Requirement C In a cluster the communication product or Sunny Remote Control must be connected to the master Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Setting the first level of load shedding e Select the parameter Battery state of charge limit for load shedding 1 start 242 01 Lod1SocTm1 Str and set it to the lower SOC threshold e Select the parameter Battery state of charge limit for load shedding 1 stop 242 02 Lod1SocTm1 Stp and set it to the upper SOC threshold Set the parameter Time load shedding 1 242 05 Lod1Tm1 Str and the parameter Start time for the additional time period of load shedding 1 242 06 Lod1Tm2Str each to the same value e g t
70. djusted All ranges combined result in a value greater than 100 e Ensure that all ranges have been set correctly 8 2 5 Changing the Battery Protection Mode in Off Grid Systems Ta i Battery protection mode for lithium ion batteries cannot be changed You can only change the battery protection mode if you are using lead acid batteries When using lithium ion batteries the battery protection mode cannot be changed Function of the battery protection mode The battery protection mode protects the battery If the state of charge SOC of the battery falls below the thresholds battery protection mode is activated In battery protection mode the Sunny Island switches to standby mode or switches itself off The battery protection mode has three levels One state of charge threshold can be set for each level Levels 1 and 2 of the battery protection mode have specific start and end times and are therefore dependent on the time of day see Section 9 3 Setting Time Dependent Functions page 100 e Level 1 If the state of charge falls below the threshold for level 1 the Sunny Island switches to standby between the start time and end time This way you can specify preferred times for the Sunny Island to be switched off if an energy deficit occurs Installation manual SI3OM 44M 60H 80H IA en 32 8 8 Commissioning SMA Solar Technology AG e Level 2 If the SOC drops below the threshold for level 2 the Sunny Island switches to standby Us
71. e SMA Solar Technology AG shall not be held liable for any damage caused by such alterations Any use of the product other than that described in the Intended Use section does not qualify as the intended use The enclosed documentation is an integral part of this product Keep the documentation in a convenient place for future reference and observe all instructions contained therein The type label must remain permanently attached to the product Installation manual SI3OM 44M 60H 80H IA en 32 9 2 Safety SMA Solar Technology AG 2 2 Safety Information This section contains safety information that must be observed at all times when working on or with the product To prevent personal injury and property damage and to ensure long term operation of the product read this section carefully and observe all safety information at all times A WARNING Danger to life from electric shocks due to live voltage and risk of injury from short circuit currents High voltages are present inside the Sunny Island inverter When the enclosure lid is removed live components can be touched that can result in death or serious injury due to electric shock Shortcircuit currents in the battery can cause heat build up and electric arcs Burns or eye injuries due to flashes may result e When carrying out any work on the electrical installation wear suitable personal protective equipment e Switch off or disconnect the following components in the following order
72. e V 0 1 DC loads 1 Current A Figure 33 DC load limitation curve of multifunction relays 1 and 2 10 15 General Data Width x height x depth Weight Operating temperature range Storage temperature range Humidity Maximum installation height above MSL Topology Cooling method Protection class in accordance with IEC 62103 Climate category in accordance with IEC 60721 Degree of protection in accordance with IEC 60529 Sunny Island 3 0M 4 4M 467 mm x 612 mm x 242 mm 44 kg 25 C to 60 C 259 C tot70 C O to 100 3 000 m LF transformer OptiCool 3K IP54 Sunny Island 6 0H 8 0H 467 mm x 612 mm x 242 mm 63 kg 25 C to 60 C 25 C to 70 C O to 100 3 000 m LF transformer OptiCool 3K IP54 SMA Solar Technology AG 11 Accessories 11 Accessories The following overview details the accessories and spare parts for your product These can be ordered as required from SMA Solar Technology AG or your distributor Designation Batfuse B 0 1 80 A 100 A 160 A 200 A 250 A Batfuse B 03 80 A 100 A 160 A 200 A 250 A Load shedding contactor SI Shunt Sunny Island Charger 50 SI COMSMA BGx SI SYSCAN BGx SWDMSI Brief description 2 pole LV HRC battery fuse switch disconnector size 1 for 1 Sunny Island 3 DC inputs 1 x battery and 2 x Sunny Island Charger 50 1 x auxiliary voltage output 8 A 2 pole LV HRC battery fuse switch disconnec
73. e Sunny Island Charger 50 Charge Controller XK A maximum of four Sunny Island Charger 50 devices can be connected per cluster see the quick reference guide Off Grid Systems Requirements L The total length of the communication bus must not exceed 30 m Cable requirements O Classification CAT5e L Type of plug RJ45 Procedure 1 Plug the data cable into a free ComSync pin connector on the Sunny Island Ensure that the cable is correctly connected see Section 7 5 4 Connecting the Data Cables page 58 2 Connect the other end of the data cable to one Sunny Island Charger 50 and further Sunny Island Charger 50 devices to one another see documentation for the Sunny Island Charger 50 charge controller 3 Ensure that the communication bus is closed at each end e g with a terminator 7 4 8 6 Connecting the Data Cable of the Multicluster Box Be For a multicluster system the Multicluster Box communicates with the master of the main cluster via a black data cable see Multicluster Box documentation The black data cable is part of the scope of delivery of the Multicluster Box Requirements LI The total length of the communication bus must not exceed 30 m Keep in mind that the communication bus connects several nodes such as additional Sunny Island inverters Cable requirements O Classification CAT5e O Type of plug RJ45 Procedure 1 Plug the data cab
74. e Sunny Island operating manual 2 To deactivate automatic generator mode select the parameter 235 01 GnAutoEna Automatic generator start and set it to Disable 3 To activate automatic generator mode select the parameter 235 01 GnAutoEna Automatic generator start and set it to Enable 8 4 4 2 Changing a State Of Charge Dependent Generator Request Ta If the battery reaches the lower SOC threshold the generator management requests the generator If the battery reaches the upper SOC threshold during recharging the generator management resets this generator request Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Battery state of charge limit for generator start 235 03 GnSocTm1 Str and set it to the lower SOC threshold 3 Select the parameter Battery state of charge limit for generator disconnection 235 04 GnSocTm1 Stp and set it to the upper SOC threshold 4 Set the parameter End time additional time period generator request 235 07 GnTm1 Str and Start time additional time period generator request 235 08 GnTm2Str to the same value e g to 00 00 00 This deactivates the time dependent generator request 8 4 4 3 Setting a Time Dependent Generator Request aha The time dependent generator request divides the day into two time periods For
75. e calculated using the following formula it Sa lt 1 773 Scy conductor cross section in mm Isc short circuit current in A t interruption time in s Typical tripping times for an LV HRC fuse are around 25 ms for short circuit currents between 2 000 A and 10 000 A Grounding with a cross section of 16 mm is sufficient for short circuit currents up to 10 000 A Cable requirement L Copper wire C Conductor cross section maximum 16 mm L The cross sections of the battery grounding conductor and Sunny Island inverter grounding conductor must be the same Procedure 1 Calculate the cross section of the grounding conductor 2 Ground the battery at the positive terminal or negative terminal using a conductor with the calculated cross section 3 Also ground the Sunny Island enclosure using a conductor with the calculated cross section as follows e Strip off the insulation of the grounding conductor e Place the clamping bracket over the conductor Position the conductor on the left Installation manual SI3OM 44M 60H 80H IA en 32 27 7 Electrical Connection SMA Solar Technology AG e Fasten the clamping bracket with the M6x16 hexagon socket screw and a conical spring washer AF 5 torque 4 Nm to 5 7 Nm The teeth of the conical spring washer must face the clamping bracket 7 4 Connecting the Components 7 4 1 Connecting the Fuse Switch Disconnector BatFuse to the Sunny Island i Cables for DC connectio
76. e external energy source the Sunny Island only disconnects the line conductor on connection AC2 Gen Grid N The Sunny Island disconnects all poles from the external energy source on connection AC2 Gen Grid Nr If the neutral conductor is incorrectly connected on connection AC2 the protective functions in the system can fail This can result in death or serious injury e Always connect the neutral conductor to the connection AC2 Gen Grid Ny in the SMA Flexible Storage System e Always connect the neutral conductor to the connection AC2 Gen Grid Ny in the SMA Flexible Storage System with battery backup function e Always connect the neutral conductor of the generator to the connection AC2 Gen Grid N in off grid systems e Always connect the neutral conductor to the connection AC2 Gen Grid N in the multicluster system with Multicluster Box 12 MC Box 12 3 20 56 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection Procedure 1 Push the levers of the AC1 or AC2 terminal upward 2 When connecting the cable to connection AC1 attach the M25 cable gland to the AC1 enclosure opening using the counter nut torque 7 Nm 3 When connecting the cable to connection AC2 attach the M25 cable gland to the AC2 enclosure opening using the counter nut torque 7 Nm 4 Remove the cable jacket and strip off 13 mm of the the insulation of all conductors 5 Lead the cable through the cable gla
77. e limit for load shedding 1 stop 242 02 Lod1SocTm1 Stp and set it to the upper SOC threshold The upper SOC threshold must be at least 10 percentage points above the lower SOC threshold 4 Set the parameter Time load shedding 1 242 05 Lod1Tm1 Str and the parameter Start time for the additional time period of load shedding 1 242 06 Lod1Tm2Str each to the same value e g to 00 00 00 This will switch the time dependent load shedding off 5 If the off grid system is a multicluster system ensure that the parameter of the multifunction relay is set to MccAutoLod see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 84 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 8 3 2 Setting One Level Load Shedding One multifunction relay controls the load shedding contactor depending on the state of charge of the battery Significance of the SOC thresholds When the state of charge of the battery reaches the lower SOC threshold the multifunction relay opens the connected load shedding contactor The load shedding contactor disconnects the loads from the stand alone grid When the state of charge of the battery reaches the upper SOC threshold during recharging the multifunction relay closes the connected load shedding contactor The load shedding contactor connects the loads to the stand alone grid You can change the battery protection mode on the communication product or on the
78. e locally applicable standards and directives and be intrinsically safe e Battery management of the lithium ion battery must be compatible with the Sunny Island see Safety Information in the quick reference guide for the relevant system In off grid systems with lead acid batteries only a maximum of four Sunny Island Charger charge controllers can be connected per cluster The battery management must record the DC current when charging and discharging the battery A battery current sensor may be installed to allow precise measurement of the battery current The Sunny Island is not suitable for establishing a DC distribution grid The Sunny Island can control various devices in the system e g load shedding contactors via two multifunction relays The multifunction relays are not suitable for controlling functions that may endanger persons in the event of a malfunction of the multifunction relays e g if there is insufficient redundancy in the ventilation of the battery room Use this product only in accordance with the information provided in the enclosed documentation and with the locally applicable standards and directives Any other application may cause personal injury or property damage Alterations to the product e g modifications or conversions are only permitted with the express written permission of SMA Solar Technology AG Unauthorized alterations will void guarantee and warranty claims and usually void the operating licens
79. e the start time and end time to define the time window in which no energy is anticipated from AC sources Outside this time window the Sunny Island starts up every two hours to charge the battery If no energy is available to charge the battery the Sunny Island remains on standby This means that for example in stand alone grids with PV inverters you can specify that the Sunny Island does not start up at night preventing it from consuming energy from the battery e Level 3 If the state of charge falls below the threshold for level 3 the Sunny Island switches itself off This protects the battery against deep discharge and severe damage To charge the battery again the Sunny Island must be switched on and started manually At all three levels the Sunny Island will only switch to standby mode or switch itself off if no charging current has flowed in the battery for at least five minutes Recharging the battery with an external energy source In levels 1 and 2 of battery protection mode you can charge the battery at any time with an external energy source If a voltage is present on connection AC2 the Sunny Island exits standby mode If the Sunny Island has switched to level 3 of battery protection mode by itself you must charge the battery in emergency charge mode see the Sunny Island inverter operating manual Time settings The start time and the end time can be configured for battery protection mode levels 1 and 2 If the sta
80. e voltage thresholds determine the range within which the generator voltage is allowed to fluctuate When the Sunny Island switches to the generator the stand alone grid will also fluctuate within this range A breach of the set voltage thresholds leads to disconnection of the line conductor from the stand alone grid or the generator not being switched on Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Voltage monitoring generator lower minimum threshold 234 01 GNVtgMin and set to the minimum generator voltage 3 Select the parameter Voltage monitoring generator upper maximum threshold 234 02 GnVtgMax and set to the maximum generator voltage 8 4 1 3 Changing the Frequency Thresholds of the Generator Voltage Ta The frequency thresholds determine the range within which the frequency of the generator voltage is allowed to fluctuate When the Sunny Island switches to the generator the stand alone grid will also fluctuate within this range A breach of the set frequency thresholds leads to the disconnection of the line conductors from the stand alone grid or to the generator not being connected Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Contr
81. each time period you set which conditions there are for the generator request see Section 9 3 Setting Time Dependent Functions page 100 In this way you can for example set the generator not to start at night This ensures that the noise pollution produced by the generator takes place during the day whenever possible Both time periods each have a lower and an upper SOC threshold If the battery reaches the lower SOC threshold the generator management requests the generator When the battery reaches the upper SOC threshold during recharging generator management resets this generator request The following settings are possible for the SOC thresholds e The lower SOC threshold is lower than the upper SOC threshold The generator is requested during this time period depending on the state of charge e The lower SOC threshold is higher than or equal to the upper SOC threshold The generator is not started depending on the state of charge In this time period the other settings for the generator request e g the time dependent generator request apply Installation manual SI3OM 44M 60H 80H IA en 32 93 8 Commissioning SMA Solar Technology AG Example from 10 00 p m to 6 00 a m the generator is not to start where possible SOC 80 40 30 12 a m 6 a m 10 p m l E Standard time period C Additional time period Figure 27 Profile of the SOC and the times for generator requests For the standard time period the start time
82. ed in the case of malfunctions for example on failure of the multifunction relay 8 3 Energy Management 8 3 1 Setting Load Shedding in a Multicluster System Be The load contactor in the Multicluster Box is a load shedding contactor and is controlled depending on the state of charge of the batteries Significance of the SOC thresholds When the state of charge of a battery reaches the lower SOC threshold the load contactor is opened The state of charge of the battery of the main cluster and the states of charge of the batteries of the extension clusters are evaluated The load contactor disconnects the loads from the stand alone grid When the state of charge of all batteries reaches the upper SOC threshold during recharging the load contactor closes The load shedding contactor connects the loads to the stand alone grid You can change the battery protection mode on the communication product or on the Sunny Remote Control Requirement L The communication product or Sunny Remote Control must be connected to the master of the main cluster Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Battery state of charge limit for load shedding 1 start 242 01 Lod1SocTm1 Str and set it to the lower SOC threshold 3 Select the parameter Battery state of charg
83. eep discharge This range can only be reached when the utility grid fails Lower limit of the deep discharge protection range before disconnection 262 01 ProtResSOC The following ranges result from the parameter default values Range Lead acid battery Shortest day Longest day MinSIfCsmp 65 to 100 45 to 100 PVRes 60 to 65 40 to 45 BatRes 10 to 60 10 to 40 ProtRes 0 to 10 0 to 10 December 21 northern hemisphere or June 21 southern hemisphere June 21 northern hemisphere or December 21 southern hemisphere 8 Commissioning Behavior of the Sunny Island inverter When this range is reached the Sunny Island switches off in order to protect the battery When the utility grid is available again the system must be charged manually Charging the Battery after Auto Power Off see Sunny Island operating manual Lithium ion battery Shortest day Longest day 30 to 100 10 to 100 25 to 30 5 to 10 3 to 25 3 to 5 0 to 3 O to 3 The following ranges result from deactivating seasonal adjustment with the default values of the parameters Range Lead acid battery MinSIfCsmp 65 to 100 PVRes 60 to 65 BatRes 10 to 60 ProtRes 0 to 10 Lithium ion battery 30 to 100 25 to 30 3 to 25 0 to 3 You can change the battery usage through battery backup systems without increased self consumption on the communication product or Sunny Remote Control Requirement
84. elect the parameter Maximum battery charging current 222 01 BatChrgCurMax and set it to the maximum battery charging current recommended by the battery manufacturer 4 Set the parameters for boost charge e Select the parameter Time for boost charge of battery 222 02 AptTmBoost and set to the boost charge absorption time recommended by the battery manufacturer e Select the parameter Cell charge setpoint voltage for boost charge 222 07 ChrgVtgBoost and set it to the cell voltage setpoint recommended by the battery manufacturer for boost charge 72 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 5 Set the parameters for full charge e Select the parameter Time for full charge of battery 222 03 AptTmFul and set to the full charge absorption time recommended by the battery manufacturer e Select the parameter Full charge cycle time 222 05 CycTmFul and set to the full charge cycle time recommended by the battery manufacturer e Select the parameter Cell charge setpoint voltage for full charge 222 08 ChrgVtgFul and set it to the cell voltage setpoint recommended by the battery manufacturer for full charge 6 Set the parameters for equalization charge e Select the parameter Time for equalization charge of battery 222 04 AptTmEqu and set it to the equalization charge absorption time recommended by the battery manufacturer e Select the parameter Equalization charge cycle time 222 06
85. em repeat step 1 for every cluster 3 Go to Section 8 1 5 page 71 and enter AcdCir in the table for configuration Installation manual SI3OM 44M 60H 80H IA en 32 5 7 Electrical Connection SMA Solar Technology AG 7 4 18 Connecting the Control Cable for the Use of Excess Energy in an Off Grid System X If the battery can no longer take up excess energy in an off grid system the power output of the AC sources in the stand alone grid is limited by the Sunny Island This means that the excess energy is not used The Sunny Island allows for the use of excess energy by means of a multifunction relay During the constant voltage phase a multifunction relay is activated and thus controls additional loads that can put any excess energy to good use As a result of the utilization of excess energy the Sunny Island has to limit the power output of the AC sources in the stand alone grid to a lesser extent Example Utilization of excess energy The energy source of an off grid system is PV energy On days with high solar irradiation and low power consumption the battery cannot take up all of the PV energy during the constant voltage phase In order to utilize the excess energy the Sunny Island activates the control of a pump that pumps water into a container for subsequent use Requirements C The technical requirements of the multifunction relay must be met see Section 10 Technical Data page 101 Cable requirements LI Copper wire O C
86. enturion Pretoria 08600 SUNNY 08600 78669 International 27 12 622 3000 Milano 39 02 8934 7299 United Kingdom SMA Solar UK Ltd Milton Keynes 44 1908 304899 NNLNW4 66 2 670 6999 Other countries SMA Technology Korea Co Ltd ME 82 2 520 2666 International SMA Service Line jul SMA Middle East LLC Other countries International SMA Service line sil 971 2 234 6177 Niestetal Toll free worldwide 00800 SMA SERVICE 800 762 7378423 110 SIS3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology
87. er see the Sunny Island inverter operating manual L The Quick Configuration Guide QCG is started Procedure 1 Turn the button on the Sunny Remote Control to the right and Select ppb irr select New System BGL G1 o OEOOOOo J 2 Press the button 3 Turn the button to the right until Y flashes and press the button This confirms your selection of New System 4 Set the parameters of the QCG carry out basic configuration in accordance with the installed system see quick reference guide of the installed system 8 1 3 Setting Sunny Island for Charge Controller Sunny Island Charger in Off Grid Systems X Requirement L For systems with a maximum of four Sunny Island Charger devices all Sunny Island Charger devices must be connected to the master via a communication bus Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Type other DC sources 250 28 ChrgCtlOp and adjust as follows Value Explanation Auto System with AC sources e g PV inverter The Sunny Island Charger or charge controller can also be present in the system SMA System with Sunny Island Charger and without AC sources A maximum of four Sunny Island Charger devices is installed NoFrq System with charge controllers and without AC sources The charge controllers are not Sunny Isl
88. er Winter t Figure 23 State of charge ranges of the battery according to the time of year example Range Explanation of the value and parameters Behavior of the Sunny Island inverter SlfCsmp Range for increased self consumption The Sunny Island uses the battery for increased The SlfCsmp range applies to the shortest day of the self consumption year with seasonal adjustment see Section 8 2 4 1 page 75 When seasonal adjustment is deactivated only the SlfCsmp range is used and the BURes range increased accordingly Minimum width of the self consumption range 262 05 MinSlfCsmpSOC PVRes Range for maintaining the state of charge of the battery Excess PV energy is used for conserving the battery charge If no excess PV energy is I ___________________ available the Sunny Island switches to energy Width of the range for the maintenance of the saving mode When the state of charge reaches battery state of charge 262 04 PVResSOC the BatRes range limit the Sunny Island charges The range size is constant year round the battery up to half of the PVRes range from the utility grid To do so the Sunny Island charges the battery with maximum efficiency at 25 of the nominal power of the Sunny Island inverter BURes Range for battery backup function The Sunny Island uses this range for supplying the battery backup grid when the utility grid fails When the utility grid is available again the battery is charged by the Sunny Islan
89. eries 1 Ensure that the battery room is sufficiently ventilated in the case of a malfunction of the multifunction relay 2 FW WIZ ile Danger to life from electric shock due to incorrect insulation Connect the battery room fan to one multifunction relay on a Sunny Island of the main cluster see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 3 Go to Section 8 1 5 page 71 and enter MecBatFan in the table for configuration 7 4 17 Connecting the Electrolyte Pump for the Battery The Sunny Island controls the electrolyte pump for the battery as follows e The Sunny Island switches on the electrolyte pump at least once a day e The Sunny Island switches on the electrolyte pump a maximum of nine times each day e When the battery has been charged to 10 of its rated capacity the Sunny Island switches the electrolyte pump on for five minutes Requirements L The technical requirements of the multifunction relay must be met see Section 10 Technical Data page 101 Cable requirements LI Copper wire O Conductor cross section 0 2 mm2 to 2 5 mm Procedure 1 OWA NE Danger to life from electric shock due to incorrect insulation 1 On the Sunny Island connect the control cable of the acid circulation to a multifunction relay see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 2 For a multicluster syst
90. ery Ta 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Generator request in configured charge mode 235 18 GnStrChrgMod and set to the desired generator request Value Explanation Equal Generator request during equalization charge Full Generator request during full charge Both Generator request during equalization and full charge Off Deactivation of the generator request via the charging process of the battery 8 4 4 7 Setting an External Generator Request An external control signal can transmit a generator request to the generator management X Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 In order to activate the external generator request select the parameter Reaction to digital input of the generator request 235 19 GnStrDigIn and set to Enable 3 In order to deactivate the external generator request select the parameter Reaction to digital input of the generator request 235 19 GnStrDigin and set to Disable 8 4 5 Configuring the Procedure in the Event of a Generator False Start pa Operating procedure if a generator false start is detected If the Sunny Island detects a generator false start e
91. es combined result in a value greater than 100 e Ensure that all ranges have been set correctly 8 2 4 3 Changing the Battery Usage through Battery Backup Systems with Increased Self Consumption i Adjusting the default values The parameters for battery usage are set automatically to reasonable values during basic configuration for the respective system The parameter values can be adjusted if there are special requirements for the system or the battery Two ranges can be adjusted seasonally in battery backup systems with increased self consumption e Range for increased self consumption MinSIfCsmp You determine the percentage of the battery capacity that is to be used for increased self consumption on the shortest day of the year e Range for battery backup function BURes You specify the percentage of the battery capacity that is to be used for the battery backup function on the longest day The longer the days become the more the SlfCsmp range automatically increases and the BURes range decreases The range for increased self consumption reaches its maximum on the longest day SIFCsmpmax 100 262 04 PVResSOC 262 03 BUResSOC 262 02 BatResSOC 262 01 ProtResSOC 78 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning This results in the seasonal progression of the ranges SOC 100 SlfCsmp area PVRes area BuRes area BatRes area ProtRes area 0 Winter Summ
92. evel load shedding example Requirements C The technical requirements of the multifunction relay must be met see Section 10 Technical Data page 101 Cable requirements LI Copper wire O Conductor cross section 0 2 mm to 2 5 mm2 Installation manual SI3OM 44M 60H 80H IA en 32 47 7 Electrical Connection SMA Solar Technology AG Procedure l Ensure that the load shedding contactor only disconnects loads from the system This ensures that the battery can be recharged from AC sources in the system Connect the insulated conductor for coil connection A1 of the load shedding contactor to terminal Relay NO see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 Connect the insulated conductor for coil connection A2 to terminal BatVtgOut see Section 7 5 6 Connecting BatVtgOut Digln BatT MP and BatCur page 60 Connect terminal BatVtgOut to terminal Relay1 C Use the same conductor cross section as that of the cable for the load shedding contactor Go to Section 8 1 5 page 71 and enter the following values in the table for configuration 1 Value Explanation AutoLodExt Setting for one level load shedding When the Sunny Island switches to an external energy source load shedding is stopped and the loads are supplied by the external energy source The battery is only charged with the excess energy Autolodl1Soc Setting for one level load shedding or the first level of two level load shedding
93. g Relay 1 and Relay 2 If you are using a multifunction relay always connect it as follows i Switching behavior of the slaves In case of a fault the multifunction relays of the slaves switch less reliably than the multifunction relays of the masters In case of a fault the slaves wait for the master to confirm the fault Additionally required material not included in the scope of delivery C Suitable bootlace ferrules if using stranded wire Requirement L The technical requirements of the multifunction relay must be met see Section 10 Technical Data page 101 L Copper wire O Conductor cross section 0 2 mm to 2 5 mm2 Procedure 1 Break through a suitable location in the cable feed through plate with a sharp object 2 Strip off the insulation from the cable and press bootlace ferrules onto the insulated conductors 3 Lead the cable through the hole in the cable feed through plate into the Sunny Island Installation manual SI3OM 44M 60H 80H IA en 32 59 7 Electrical Connection SMA Solar Technology AG 4 A WARNING Danger to life from electric shock due to incorrect insulation High voltage can be present in the control cable Faulty insulation can result in a conductive connection with other cables or components Live components can be touched due to this connection Touching can result in death or serious injury due to electric shock e Cut the silicon tube to the length of the cable in the Sunny Island e Pull t
94. g pliers Crimping tool Flat blade screwdriver Current clamp Measuring device for voltage measurement Explanation Mounting of the wall mounting bracket Attachment AF 5 Measurement range 4 Nm to 12 Nm Crimping of the DC cable terminal lugs Crimping of the bootlace ferrules Connection of the control and measuring cables to the terminals Measuring of the battery current Measuring of the AC voltages in the system and measuring of the battery voltage 16 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 5 Product Description 5 Product Description 5 1 Sunny Island The Sunny Island is a battery inverter that controls the electrical energy balance in an off grid system in a battery backup system or in a system for increased self consumption In a battery backup system you can also use the Sunny Island for increased self consumption Figure 5 Design of the Sunny Island inverter Position Designation A Ventilation grid B Type label C Control panel D Enclosure lid The Sunny Island supplies AC loads in the system from a battery or charges the battery with the energy provided by AC sources e g PV inverter AC sources supply loads and are used by the Sunny Island to recharge the battery In order to be able to increase the availability of the off grid system and reduce the battery capacity the Sunny Island can use and control a generator as an energy reserve The loads may temporarily overload
95. ging voltage Due to incorrect temperature measurements the Sunny Island charges the battery with an incorrect charging voltage e Connect only the battery temperature sensor supplied e Attach the battery temperature sensor in the centre of the battery storage system in the upper third of the battery cell IM The battery temperature sensor measures the warmest point of the battery storage system Procedure e On the Sunny Island connect both insulated conductors of the ooooo0oo0 sensor to the BatTmp terminal see Section 7 5 6 Connecting ma BatVtgOut Digln BatTMP and BatCur page 60 In this case the een polarity is arbitrary 0 E BC le OOO OOO C 7 4 10 Connecting the Battery Current Sensor in the Off Grid System Ta Battery current sensor BatCur BatCur Figure 15 Connection of the battery current sensor to the Sunny Island Installation manual SI3OM 44M 60H 80H IA en 32 43 7 Electrical Connection SMA Solar Technology AG Cable requirements L Copper wire Maximum cable length 3 m Conductor cross section 0 2 mm to 2 5 mm2 O 0 g A measuring cable with intrinsically safe current circuits must be used For this purpose intrinsically safe means that the cable is double insulated and that in the event of a short circuit the conductor melts but the insulation remains intact In addition the
96. has been sufficiently charged or when the stand alone grid has been switched to an external energy source e Two level load shedding In two level load shedding there are two thresholds for the state of charge of the battery in order to control two load shedding contactors When the first threshold for the state of charge of the battery is reached the first load shedding contactor disconnects a group of loads When the second threshold for the state of charge of the battery is reached the second load shedding contactor disconnects the remaining loads i Load shedding in a multicluster system One level load shedding is integrated into the Multicluster Box The load shedding contactor is controlled directly by the master of the main cluster via communication with the Multicluster Box If you install an additional load shedding contactor in a multicluster system it is controlled with a multifunction relay in the master of extension cluster 1 Additional load shedding contactors cannot be controlled by the main cluster i Load shedding contactors in a cluster If you connect load shedding contactors to the master limited operation is possible in the event of a disturbance Slaves can control the load shedding contactors less reliably in the event of a fault In the event of a disturbance the slave may wait for confirmation from the master Load shedding A Sunny Island contactor Figure 18 Connection of the control cable for one l
97. he desired repetition cycle select and set the following parameters Possible settings Parameter Repetition cycle for timer 1 Repetition cycle time relay 243 04 RlyTmr1 Cyc Repetition cycle for timer 2 contnelionnmer 243 08 RlyTmr2Cyc 8 6 Changing Thresholds for Systems for Increased Self Consumption The Sunny Island meets the requirements of the application rule VDE AR N 4105 201 1 08 Power generation systems connected to the low voltage distribution network Technical minimum requirements for the connection to and parallel operation with low voltage distribution networks In the Sunny Island the application rule is defined as standard country data set VDE AR 4105 In certain countries the settings may need to be moditied for connection of the Sunny Island inverter to the utility grid Procedure e Ifthe operation of the Sunny Island connected to the utility grid is allowed and an adjustment is necessary change the Sunny Island according to the documentation see www SMA Solar com 8 7 Changing the Automatic Frequency Synchronization in Off Grid Systems X Automatic frequency synchronization enables the use of clocks which use the power frequency as a timer The power frequency determines the accuracy of the clock For power frequencies with constant frequency deviations from the rated frequency the time indications will become more and more inaccurate Continuous frequency deviations occur in off grid systems with generato
98. he silicone tube over the cable M The cable is double insulated e Lead the cable into the Sunny Island making sure that it does not touch any data cables 5 Connect the insulated conductors to the Relay1 or Relay2 terminals using the 3 pole terminal torque 0 5 Nm to 0 6 Nm Connection Explanation NC Closed when idle C Change over contact NO Open when idle 7 5 6 Connecting BatVtgOut Digln BatTMP and BatCur Always connect the cables to connections BatVtgOut DigIn BatTMP and BatCur as follows Additionally required material not included in the scope of delivery CO Suitable bootlace ferrules if using stranded wire Cable requirements LI Copper wire O Conductor cross section 0 2 mm to 2 5 mm2 Procedure 1 Break through a suitable location in the cable feed through plate with a sharp object 2 Strip off the cable insulation 3 For stranded wires press the bootlace ferrules onto the insulated conductors 4 Lead the insulated conductors through the hole in the cable feed through plate into the Sunny Island 5 Connect the insulated conductors to the 4 pole terminal torque 0 5 Nm to 0 6 Nm 60 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 5 7 Connecting ExtVtg t Always connect the cable to the ExtVtg connection as follows R Additionally required material not included in the scope of delivery CO Suitable bootlace ferrules if using stranded wire C
99. hedding contactor connects those loads to the utility grid that were disconnected for the second level e When the state of charge of the battery reaches the first upper SOC threshold during recharging the multifunction relay closes the connected load shedding contactor for the first level of load shedding The load shedding contactor connects those loads to the utility grid that were disconnected for the first level All loads are now reconnected to the utility grid Requirement C In a cluster the communication product or Sunny Remote Control must be connected to the master Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Time load shedding 1 242 05 Lod1Tm1 Str and set to the start time for the standard time period 3 Select the parameter Start time for the additional time period of load shedding 1 242 06 Lod1Tm2Str and set to the start time for the additional time period 4 Set the SOC threshold for the standard time period e Select the parameter Battery state of charge limit for load shedding 1 start 242 01 Lod1SocTm1 Str and set it to the lower SOC threshold for the first level of load shedding e Select the parameter Battery state of charge limit for load shedding 1 stop 242 02 Lod1SocTm1 Stp and set it to the upper SOC threshold for the f
100. i Installation manual SUNNY ISLAND 3 0M 4 4M 6 0H 8 0H SI3OM 44M 60H 80H lA en 32 Version 3 2 ENGLISH Legal Provisions SMA Solar Technology AG Legal Provisions The information contained in this document is the property of SMA Solar Technology AG Publishing its content either partially or in full requires the written permission of SMA Solar Technology AG Any internal company copying of the document for the purposes of evaluating the product or its correct implementation is allowed and does not require permission SMA Warranty You can download the current warranty conditions from the Internet at www SMA Solar com Trademarks All trademarks are recognized even if not explicitly identified as such A lack of identification does not mean that a product or symbol is not trademarked The BLUETOOTH word mark and logos are registered trademarks owned by Bluetooth SIG Inc and any use of these marks by SMA Solar Technology AG is under license Modbus is a registered trademark of Schneider Electric and is licensed by the Modbus Organization Inc QR Code is a registered trademark of DENSO WAVE INCORPORATED Phillips and Pozidriv are registered trademarks of Phillips Screw Company Torx is a registered trademark of Acument Global Technologies Inc SMA Solar Technology AG Sonnenallee 1 34266 Niestetal Germany Tel 49 561 9522 0 Fax 49 561 9522 100 www SMA de E mail info SMA de 2004 to 2015
101. inator plugged into the unused SysCanOut pin connector This terminates the communication bus 7 4 8 9 Connecting the Communication Device via RS485 T The SI COMSMA BGx communication interface is required for communication with a communication device e g Sunny WebBox or other SMA products e g PV inverter If the Sunny Island was ordered with the Communication via RS485 order option the SL COMSMA BGx is installed on each master Plug assignment mm 1 8 Figure 13 RJ45 plug assignment Pin Signal Color coding of the insulated conductors 2 GND Orange with white stripes 3 Data A White with green stripes 6 Data B Green with white stripes Figure 14 Design of the SI COMSMA BGx Position Designation A Mounting hole B Type label Installation manual SI3OM 44M 60H 80H IA en 32 41 7 Electrical Connection SMA Solar Technology AG Position Designation C D ComSmaln pin connector ComSmaOut pin connector Cable requirements O Classification CAT5e L Maximum cable length 1 200 m Procedure l If an SI COMSMA BGx is not installed in the Sunny Island install an SICOMSMA BGx in the Sunny Island see SI COMSMA NR mounting instructions e In single systems install an SI COMSMA BGx in the Sunny Island e Ina single cluster system install an SICOMSMA BGx in the master e In a multicluster system install an SILCOMSMA BGx in each master Connect the white data
102. ion manual SMA Solar Technology AG 6 Mounting Procedure l On A W N 7 At the mounting location mark the position of the drill holes using the wall mounting bracket Use at least one hole on the right side of the wall mounting bracket and one on the left Ensure that there are no electric lines or other supply lines in the wall behind the marked positions Drill the holes and insert the screw anchors Secure the wall mounting bracket horizontally to the wall using screws and washers If the Sunny Island is to be secured against theft mark the drill holes for the anti theft device Use at least one hole on the right and one on the left A CAUTION Risk of injury due to the heavy weight of the Sunny Island inverter Improper transport and mounting can result in the Sunny Island falling Falling may lead to bruising and broken bones e Keep in mind the weight of the Sunny Island inverter see Section 10 Technical Data page 101 e With the SI3 0M 11 and S14 4M 1 1 the Sunny Island should o be mounted to the wall mounting bracket For this use the side Se C gt recess grips Keep the Sunny Island in a horizontal position during transport yy if 3 tf dl Y e With the SI6 0H 11 and SI8 0H 1 1 the Sunny Island should be mounted to the wall mounting bracket For this use the side recess grips or a steel rod diameter maximum 30 mm Keep the Sunny Island in a ho
103. ire C Number of conductors in the cable 3 LI Conductor cross section 10 mm to 16 mm O Cable diameter 9 mm to 18 mm Procedure e On the Sunny Island connect the power cable from X3 to the AC2 Gen Grid terminals for circuitry overview see the quick reference guide SMA Flexible Storage System with Battery Backup Function Ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56 e Connect the line conductor to AC2 Gen Grid L e Connect the neutral conductor to AC2 Gen Grid Nyy e Connect the grounding conductor to AC2 Gen Grid PE 30 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 3 3 Connecting the Control Cables to the Automatic Transfer Switch The control cables conduct the control signals of the multifunction relays to the contactors for circuitry overview see the quick reference guide SMA Flexible Storage System with Battery Backup Function Procedure 1 On the master connect the cable from X5 L and X5 N for the control voltage to terminal AC1 Loads SunnyBoys Ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56
104. irst level of load shedding e Select the parameter Battery state of charge limit for load shedding 2 start 242 07 Lod2SocTm1 Str and set it to the lower SOC threshold for the second level of load shedding e Select the parameter Battery state of charge limit for load shedding 2 stop in the additional time period 242 08 Lod2SocTm1Stp and set it to the upper SOC threshold for the second level of load shedding 5 Set the SOC threshold for the additional time period e Select the parameter Battery state of charge limit for load shedding 1 start in the additional time period 242 03 Lod1SocTm2Str and set it to the lower SOC threshold for the first level of load shedding Select the parameter Battery state of charge limit for load shedding 1 stop in the additional time period 242 04 Lod1 SocTm2Stp and set it to the upper SOC threshold for the second level of load shedding Select the parameter Battery state of charge limit for load shedding 2 start in the additional time period 242 09 Lod2SocTm2Str and set it to the lower SOC threshold for the second level of load shedding e Select the parameter Battery state of charge limit for load shedding 2 stop in the additional time period 242 10 Lod2SocTm2Stp and set it to the upper SOC threshold for the second level of load shedding 88 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 6 Ensure that the multifunction relay used for controlling the
105. itch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 3 To enter the SMA Grid Guard code on the Sunny Remote Control select the parameter 270 01 Auth Code and set the SMA Grid Guard code 4 To enter the SMA Grid Guard code in the Sunny Explorer select Options gt SMA Grid Guard in the menu bar and set the SMA Grid Guard code see Sunny Explorer user manual M Safety relevant parameters can now be changed 9 2 Determining the Battery Capacity Manufacturers state the battery capacity depending on the discharge time In the configuration of the off grid system and in the QCG you always enter the battery capacity for a 10 hour electric discharge C10 Procedure e Determine the battery capacity C10 specified by the battery manufacturer MI You could determine the battery capacity C10 X You could not determine the battery capacity C10 e Estimate the battery capacity C10 from other discharge times This will provide a value that is probably sufficient for commissioning Discharging time Estimation 120 h C120 ClO 47 53 100 h C100 lO ay Ae 20 h C20 C10 10 h C10 C10 C10 5 h C5 C10 H 88 1h C1 O e Contact the battery manufacturer request the C10 battery capacity and set the correct battery capacity in the QCG as soon as possible To do this proceed as if you had replaced the battery for battery replacement see the Sunny Island inverter operating manual Installation manual S
106. le into a free ComSync pin connector on a Sunny Island of the main cluster Ensure that the cable is correctly connected see Section 7 5 4 Connecting the Data Cables page 58 2 Connect the other end of the data cable to the Multicluster Box see Multicluster Box documentation 3 Ensure that the communication bus is closed at each end e g with a terminator Installation manual SI3OM 44M 60H 80H IA en 32 39 7 Electrical Connection SMA Solar Technology AG 7 4 8 7 Connecting Control and Measuring Cables of the Multicluster Box Ta For a multicluster system the Multicluster Box communicates control and measuring data with the three Sunny Island inverters of the main cluster via three red data cables see Multicluster Box documentation The red data cables are part of the scope of delivery of the Multicluster Box Procedure e Plug the red data cables into the pin connector BackupVtgCur on the Sunny Island units of the main cluster see Section 7 5 4 Connecting the Data Cables page 58 Observe the following assignment e Connect the master with the Mstr L1 connection of the Multicluster Box e Connect slave 1 with the Slv1 L2 connection of the Multicluster Box e Connect slave 2 with the Slv2 L3 connection of the Multicluster Box 7 4 8 8 Connecting the Cable of the Multicluster Communication Ta In
107. m up time plus an additional two minutes With some generator types the generator only switches the voltage to the output of the generator after the internal warm up time has expired During this time the generator management is unable to recognize a valid generator voltage If the warm up time is set too low the generator management terminates the generator start before the internal warm up time has expired Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Generator warm up time 234 12 GnWarmTm 3 Set the selected parameter according to the generator properties Generator properties Setting the parameters Without internal warm up time e Set the desired warm up time With internal warm up time Autostart compatible e Set the warm up time to be at least half the Ou haunnauiecincsanchod internal warm up time of the generator M The generator start is not terminated prematurely 8 4 3 2 Changing the Minimum Run Time for the Generator st 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Minimum run time of the generator 234 08 GnOpTmMin and set to the desired value 8 4 3 3 Changing
108. mum run time The generator management does not record the load as an instantaneous value The generator management calculates the load during the averaging time 235 12 GnPwrAvgTm The greater the averaging time that you set the less the generator management reacts to load peaks Generator run times The warm up minimum and power down times are adhered to after the generator start The power of the generator is not immediately available in the stand alone grid Each start also means that the generator runs for at least the warm up time minimum run time and power down time Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Generator request via power on 235 09 GnPwrEna and set to Enable This will activate the load dependent generator request 3 Select the parameter Generator start load limit 235 10 GnPwrStr and set to the switch on power limit 4 Select the parameter Generator shutdown load limit 235 11 GnPwrStp and set to the switch off power limit 5 Select the parameter Averaging time for generator request based on power 235 12 GnPwrAvgTm and set to the averaging time with which the generator management calculates the average power 8 4 4 5 Time Controlled Generator Requesting If the generator is requested dependent on time it is requested on cert
109. n Long cables and insufficient conductor cross sections reduce the efficiency of the system and the overload capacity of the Sunny Island inverter The maximum cable length from the battery to the Sunny Island via the fuse switch disconnector is 10 m The recommended minimum conductor cross section is dependent upon the battery voltage power and cable length Sunny Island Cable length Conductor Cable diameter Terminal lug cross section SI 8 0H lt 5m 70 mm2 14 mm to 21 mm M8 20 mm to 25 mm wide gt 5 m 95 mm 14 mm to 21 mm M8 20 mm to 25 mm wide SI 6 0H lt 5m 50 mm 14 mm to 21 mm M8 20 mm to 25 mm wide gt 5 m 70 mm 14 mm to 21 mm M8 20 mm to 25 mm wide SI 4 4M lt 5m 50 mm 14 mm to 21 mm M8 20 mm to 25 mm wide gt 5 m 70 mm 14 mm to 21 mm M8 20 mm to 25 mm wide SI 3 0M lt 5m 50 mm 14 mm to 21 mm M8 20 mm to 25 mm wide gt 5 m 70 mm 14 mm to 21 mm M8 20 mm to 25 mm wide Cable length from the battery to the Sunny Island via the fuse switch disconnector The maximum cable diameter on the Sunny Island is 25 mm The maximum cable diameter on the BatFuse is 21 mm A WARNING Danger to life due to incompatible lithium ion battery An incompatible lithium ion battery can lead to a fire or an explosion With incompatible lithium ion batteries it is not ensured that the battery management will protect the battery e Verify that the battery complies with locally applicable standards and directives and is intrinsicall
110. n range before disconnection 262 01 ProtResSOC The following ranges result from the parameter default values Range BuRes BatRes ProtRes Lead acid battery 15 to 100 10 to 15 O to 10 SMA Solar Technology AG Behavior of the Sunny Island inverter The Sunny Island uses this range for supplying the battery backup grid when the utility grid fails When the utility grid is available again the battery is charged by the Sunny Island with nominal power from the utility grid The Sunny Island switches into standby mode The Sunny Island starts up every two hours and attempts to charge the battery with PV energy If the battery cannot be charged the Sunny Island switches back to standby mode When the utility grid is available again the battery is charged by the Sunny Island with nominal power from the utility grid When this range is reached the Sunny Island switches off in order to protect the battery When the utility grid is available again the system must be charged manually Charging the Battery after Auto Power Off see Sunny Island operating manual Lithium ion battery 13 to 100 3 to 13 0 to 3 i Procedure for multicluster systems with battery backup grid With the Multicluster Box 12 MC Box 12 3 20 and the NA Box or Grid Connect Box multicluster systems with battery backup grid can be installed see Multicluster Box and NA Box Grid Connect Box documentation e Ina multiclus
111. n cluster connect the control cable of X112 5 and X112 6 to the Relay2 C and Relay2 NC terminals when an NA Box or Grid Connect Box is installed in addition to the Multicluster Box 12 Ensure that the cable is correctly connected see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 7 4 5 3 Connecting the Measuring Cable to the Multicluster Box 12 The Sunny Island inverters of the main cluster measure the voltages of the respective line conductors via one measuring cable each In addition the master measures whether the tie switch in the Multicluster Box 12 MC Box 12 3 20 has activated or deactivated Requirements LI The inverters to be connected must be Sunny Island 6 0H 8 0H inverters C The PV inverters must be equipped with at least firmware version 3 5 Firmware version 3 5 of Sunny Island can only be used in multicluster systems with the Multicluster Box 12 of device type MC BOX 12 3 20 34 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection Procedure 1 On every Sunny Island of the main cluster connect the measuring cable for voltage monitoring of the Multicluster Box 12 to the ExtVtg terminal Ensure that the cable is correctly connected see Section 7 5 7 Connecting ExtVtg page 61 e On the master connect the X112 3 and X112 4 conductors to ExtVtg e On slave 1 connect the X112 7 and X112 8 insulated conducto
112. nd SI4 4M 11 do not support all mentioned systems Only device types SI6 0H 11 and SI8 0H 11 are suitable for single phase single cluster systems and three phase multicluster systems see the quick reference guide Off Grid Systems or Multicluster Systems The Sunny Island is not suitable for supplying life sustaining medical devices A power outage must not lead to personal Injury AC sources such as PV inverters can be used in off grid systems and battery backup systems for energy supply Too much power from the AC sources in the stand alone grid or with battery backup systems in a battery backup grid can lead to system failures The maximum output power of the AC sources must be observed in off grid systems and battery backup systems see Section 10 Technical Data page 101 The powers of the individual Sunny Island inverters are added to yield the total maximum power The Sunny Island uses batteries for the storage of energy The nominal voltage of the battery must correspond to the input voltage on the DC connection A fuse switch disconnector e g BatFuse must be installed between the battery and the Sunny Island The battery room must be ventilated in accordance with the requirements of the battery manufacturer and with the locally applicable standards and directives see documentation of the battery manufacturer If connecting a lithium ion battery the following must be observed e The lithium ion battery must comply with th
113. nd into the Sunny Island 6 Connect the insulated conductors to the terminals AC1 Loads SunnyBoys or AC2 Gen Grid e Insert the neutral conductor as far as it will go into terminal N or Nz and push the lever down e Insert the line conductor as far as it will go into terminal L and push the lever down e Insert the grounding conductor as far as it will go into terminal PE and push the lever down 7 Tighten the swivel nut of the cable gland torque 4 Nm 7 5 3 Connecting the Grounding Conductor The Sunny Island must be connected to the ground potential via a grounding conductor on connection ACT or AC2 The conductor cross section of the grounding conductor must be at least 10 mm2 If the conductor cross section is smaller an additional grounding conductor must connect the Sunny Island with the ground potential Additional grounding is fulfilled if the Sunny Island is already grounded due to the grounded battery see Section 7 3 Connecting the Grounding Conductor in Systems with a Grounded Battery page 27 Cable requirements L Conductor cross section Cross section of the connected line conductor or larger Maximum 16 mm O Cable diameter 7 mm to 14 mm Installation manual SI3OM 44M 60H 80H IA en 32 57 7 Electrical Connection SMA Solar Technology AG Procedure 1 Push the lever of terminal AC1 Loads SunnyBoys PE or AC2 Gen Grid PE upward 2 Attach the M20 cable gland to the PE ExtVtg enclosure opening with the counter nut
114. nology AG 10 5 Sunny Island 3 0M Efficiency Profile Efficency Va 42 VDC Va 48 VDC Vig 54VDC 0 0 0 2 0 4 0 6 0 8 Output power Rated power Figure 29 Characteristic efficiency curve 10 6 Sunny Island 4 4M Efficiency Profile Efficency Vee 42 VDC Va 48 VDC Y 54VDC 0 4 0 6 Output power Rated power Figure 30 Characteristic efficiency curve Installation manual 104 SI30M 44M 60H 80H 1A en 32 SMA Solar Technology AG 10 7 Sunny Island 6 0H Efficiency Profile Efficiency 0 0 0 2 0 4 0 6 Output power Rated power Figure 31 Characteristic efficiency curve 10 8 Sunny Island 8 0H Efficiency Profile Efficiency 0 0 0 2 0 4 0 6 Output power Rated power Figure 32 Characteristic efficiency curve 10 Technical Data SI 6 0H 11 Vem 42 VDC Va 48 VDC Y 54VDC SI 8 0H 11 Va 42 VDC V 48 V DC Y 54VDC 10 9 Energy Consumption in No Load Operation and Standby Standby consumption Consumption in no load operation and in discharge mode without SRC 20 Consumption in no load operation and in discharge mode with SRC 20 Installation manual Sunny Island 3 0M 6 8 W 18 0 W 18 8 W Sunny Sunny Island Island 4 4M 6 0H 6 8 W 6 5 W 18 0 W 25 8 W 18 8 W 26 6 W SI3OM 44M 60H 80H 1A en 32 Sunny Island 8 0H
115. o 00 00 00 This will switch the time dependent load shedding off e Ensure that the parameter of the multifunction relay is set to AutoLod1 Soc see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 3 Setting the second level of load shedding Select the parameter Battery state of charge limit for load shedding 2 start 242 07 Lod2SocTm1 Str and set it to the lower SOC threshold Select the parameter Battery state of charge limit for load shedding 2 stop in the additional time period 242 08 Lod2SocTm1Stp and set it to the upper SOC threshold Set the parameter Time load shedding 2 242 11 Lod2Tm1 Str and the parameter Start time for the additional time period of load shedding 2 242 12 Lod2Tm2Str each to the same value e g to 00 00 00 This will switch the time dependent load shedding off Ensure that the parameter of the multifunction relay is set to AutoLod2Soc see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 8 3 4 Setting Time Dependent One Level Load Shedding The time dependent load shedding divides the day into two time periods see Section 9 3 Setting Time Dependent Functions page 100 You set the SOC thresholds that apply for each time period For example you can set that no loads are to be disconnected from the utility grid during the night where possible Significance of the SOC thresholds When the state of charge of the battery reaches the lower SOC thresh
116. o adhere to the following screw assembly screw head spring washer fender washer terminal lug DC connection M The entire contact surface of the fender washer is in contact with the terminal lug 8 Strip off the insulation of the DC cable and mount a terminal lug 9 Lead the DC cable through the DC cable gland into the Sunny Island 10 Route the DC cable on the side of the protective cover marked with a symbol Installation manual SI3OM 44M 60H 80H IA en 32 55 SMA Solar Technology AG 7 Electrical Connection 11 Use an Allen key AF 5 to fasten the DC cable to the DC connection with an M8x20 screw torque 12 Nm Be sure to adhere to the following screw assembly screw head spring washer fender washer terminal lug DC connection M The entire contact surface of the fender washer is in contact with the terminal lug 12 Tighten the swivel nuts of the cable glands torque 4 5 Nm 7 5 2 Connecting the AC Power Cable Always proceed as follows to connect the power cables Cable requirements LI Copper wire L Conductor cross section maximum 16 mm O Cable diameter 9 mm to 18 mm A WARNING Danger to life from electric shock due to incorrect connection of the neutral conductor The neutral conductor of the external energy source is firmly connected to the neutral conductor of the Sunny Island inverter on connection AC2 Gen Grid N Upon disconnection of th
117. ogy AG 8 3 5 Setting Time Dependent Two Level Load Shedding The time dependent load shedding divides the day into two time periods see Section 9 3 Setting Time Dependent Functions page 100 You set the SOC thresholds that apply for each time period for two level load shedding For example you can set that as far as possible no loads are to be disconnected from the utility grid during the day Significance of the SOC thresholds Two lower and two upper SOC thresholds are available for each time period for controlling the load shedding contactors The load shedding contactors disconnect the loads from the utility grid if the states of charge are as follows e When the state of charge of the battery reaches the first lower SOC threshold the multifunction relay opens the connected load shedding contactor for the first level of load shedding The load shedding contactor disconnects those loads from the utility grid that are to be disconnected for the first level e When the state of charge of the battery reaches the second lower SOC threshold the multifunction relay opens the connected load shedding contactor for the second level of load shedding The load shedding contactor disconnects the remaining loads from the utility grid e When the state of charge of the battery reaches the second upper SOC threshold during recharging the multifunction relay closes the connected load shedding contactor for the second level of load shedding The load s
118. ol see the Sunny Island operating manual 2 Select the parameter Nominal generator frequency 234 04 GnFrqNom and set to the rated frequency of the generator voltage 90 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 3 Select the parameter Frequency monitoring generator lower minimum threshold 234 05 GnFrqMin and set to the minimum frequency of the generator voltage 4 Select the parameter Frequency monitoring generator upper maximum threshold 234 06 GnFrqMin and set to the maximum frequency of the generator voltage 8 4 1 4 Changing the Permitted Reverse Power in the Generator Ta If the reverse power for the set time is exceeded all Sunny Island inverters disconnect the generator from the stand alone grid and block the connection of the generator to the stand alone grid for the minimum stop time NOTICE Generator damage In the event of reverse power the AC sources in the stand alone grid drive the generator The generator can be damaged as a result e Observe the manufacturer s information on reverse power protection of the generator e Set the generator reverse power and permitted time for reverse power according to the manufacturer s specifications Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the
119. old the multifunction relay opens the connected load shedding contactor The load shedding contactor disconnects the loads from the utility grid When the state of charge of the battery reaches the upper SOC threshold during recharging the multifunction relay closes the connected load shedding contactor The load shedding contactor connects the loads to the utility grid 86 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning Example from 10 00 p m to 6 00 a m the load shedding contactor is not to disconnect the loads from the utility grid where possible SOC 80 40 30 12 a m 6 a m 10 p m t Standard time period LJ Additional time period Figure 25 Profile of the SOC thresholds for controlling the load shedding contactor and the start times for the time periods For the standard time period the start time is set to 6 00 a m and the end time to 10 00 p m The lower SOC threshold is set to 40 and the upper SOC threshold is set to 80 in this time period For the additional time period the start time is set to 10 00 p m and the end time to 6 00 a m The lower SOC threshold is set to 30 SOC and the upper SOC threshold is set to 40 SOC in this time period Requirement C In a cluster the communication product or Sunny Remote Control must be connected to the master Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or s
120. oltage Grid failure and frequency Automatic transfer switch with battery backup function Automatic transfer switch Grid forming generators such as electric generators or utility grids External energy sources Menus are presented as follows menu number pound sign and menu name e g 150 Compact Meters Parameters are presented as follows menu number period parameter number and parameter name e g 150 01 GdRmgIm The term parameter includes parameters with configurable values as well as parameters for displaying values 8 SI30M 44M 860H 80H lA en 32 Installation manual SMA Solar Technology AG 2 Safety 2 Safety 2 1 Intended Use The Sunny Island is a battery inverter that controls the electrical energy balance in an off grid system in a battery backup system or in a system for increased self consumption In a battery backup system you can also use the Sunny Island for increased self consumption The Sunny Island is suitable for use indoors and in weather protected outdoor areas The Sunny Island must only be used as stationary equipment The grid configuration of the generator or the utility grid must be a TN or TT system Cables with copper wires must be used for the installation Use this product only in accordance with the information provided in the enclosed documentation and with the locally applicable standards and directives Any other application may cause personal injury or property damage Device types SI3 0M 11 a
121. on this Document 1 1 Validity This document is valid for the following device types I3 0M 11 Sunny Island 3 0M with firmware version 3 2 e SI4 4M 11 Sunny Island 4 4M with firmware version 3 2 e I6 0H 11 Sunny Island 6 0H with firmware version 3 1 e SI8 0H 11 Sunny Island 8 0H with firmware version 3 1 1 2 Target Group The activities described in this document must only be performed by qualified persons Qualified persons must have the following skills e Training in how to deal with the dangers and risks associated with installing and using electrical devices and batteries e Training in the installation and commissioning of electrical devices e Knowledge of and adherence to the local standards and directives e Knowledge of and compliance with this document and all safety information 1 3 Additional Information Additional information is available at www SMA Solar com Document title Document type Mounting on Wooden Grounding Technical Information Battery Management in Off Grid Systems Technology Brochure 6 Battery Management Technical Information Grounding in Off Grid Systems Technical Information External Energy Sources Technical Information PV Inverters Technical Information SMA Flexible Storage System With Battery Backup Planning Guidelines Function SMA Smart Home Planning Guidelines Multicluster Systems Installation Quick Reference Guide 1 4 Symbols Symbol Explanation Indicates a hazardous situation which if
122. onductor cross section 0 2 mm to 2 5 mm2 Procedure 1 PAS NO Danger to life from electric shock due to incorrect insulation e On the Sunny Island connect the control cable for the utilization of excess energy to the multifunction relay see Section 7 5 5 Connecting Relay 1 and Relay 2 page 59 2 Enter the function of the multifunction relay used in the configuration table see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 Note the ExtPwrDer value 3 After performing basic system configuration adjust the multifunction relay see Section 8 1 5 page 71 and function see Section 8 3 6 page 89 52 SI30M 44M 80H 80H lA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 19 Connecting the Signal Cable of the External Generator Request T An external control signal can transmit a generator request to the generator management If you have configured the generator management for the external generator request the generator management starts the generator if there is a high level present The generator management stops the generator if there is a low level As a result all generator run times are complied with EXTERNAL GENERATOR SUNNY ISLAND REQUEST 2 O D Z O co Figure 19 Connection of the control cable of an external generator request example Requirements C The technical requirement
123. one multifunction relay or a two level load shedding with two multifunction relays You can also adjust the thresholds for the state of charge of the battery depending on the time of day see Section 7 4 13 The multifunction relays can be time controlled see Section 7 4 14 Processes Display of operating Each multifunction relay can display either one event or one warning message states and warning messages Control of a battery room see Section 7 4 15 The multifunction relay is activated when the charging current leads to the battery emitting fan Control of an electrolyte gasses A connected battery room fan is switched on for at least one hour see Section 7 4 16 Depending on the nominal energy throughput the multifunction relay is activated at least pump Use of excess energy once a day see Section 7 4 17 In off grid systems during the constant voltage phase a multifunction relay is activated and thus controls additional loads that can put any excess energy to good use see Section 7 4 18 18 S1I30M 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 5 Product Description 5 4 Communication 5 4 1 Communication Interfaces The Sunny Island is equipped with two interface slots for the connection of SMA communication interfaces Interface slot SICOMSMA The interface slot SICOMSMA is for connecting the Speedwire data module SWDMSI xx or the RS485 communication interface S
124. onnecting the DC Power Cable page 54 and adhere to the following screw assembly screw head spring washer fender washer terminal lug DC connection M The contact surfaces of the fender washers have full contact with the terminal lugs 7 4 2 Connecting the Utility Grid in the SMA Flexible Storage System Requirements L The system has no battery backup function LI For connection of the Sunny Island inverter to the utility grid there must be a circuit breaker and a type A residual current device on the distribution board for circuitry overview see the quick reference guide SMA Flexible Storage System Procedure 1 On the Sunny Island connect the power cable to the terminals AC2 Gen Grid Ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56 e Connect the line conductor to AC2 Gen Grid L e Connect the neutral conductor to AC2 Gen Grid Nyy e Connect the grounding conductor to AC2 Gen Grid PE 2 Connect an additional grounding conductor to the AC1 Loads SunnyBoys PE terminal if the power cable conductor cross section is smaller than 10 mm see Section 7 5 3 Connecting the Grounding Conductor page 57 Installation manual SI3OM 44M 60H 80H IA en 32 29 7 Electrical Connection SM
125. onnecting the Grounding Conductor in Systems with a Grounded Battery o o ooo 27 722 Connecting the Components 2s cita oe Sey oo Mane abu ieee heeds A eds 28 7 4 1 Connecting the Fuse Switch Disconnector BatFuse to the Sunny Island 00 cece cece eee nes 28 7 4 2 Connecting the Utility Grid in the SMA Flexible Storage System o ooooocoooooocooooooo nooo 29 7 4 3 Connecting the Automatic Transfer Switch in the SMA Flexible Storage System with Battery Backup Function o oo anuna pant hbk oee Ak Ba ee tools ae ay Bedard ine keane OS we 30 7 4 3 1 Automatic Transfer Switch Function 6 acct vase dies shies alada diia 30 7 4 3 2 Connecting the AC Power Cables to the Automatic Transfer Switch ooooooooooooooooooooo 30 7 4 3 3 Connecting the Control Cables to the Automatic Transfer Switch o oooooooooooooooooomooo o 31 7 A 3 4 Connecting the Measuring Cables to the Automatic Transfer Switch o ooooooooooooooomooo o 31 7 4 4 Connecting the Stand Alone Grid or Multicluster Box 6 12 36 2 0 ccc ences 32 7 4 5 Connecting the Multicluster Box 12 MC Box 12 3 20 2 00 cent ene eens 33 7 4 5 1 Connecting the AC Power Cable to the Multicluster Box 12 2 0 teen ene ene 33 7 4 5 2 Connecting the Control Cable to the Multicluster Box 12 2 0 ccc tne nee 33 7 4 5 3 Connecting the Measuring Cable to the Multicluster Box 12 0 0 eee eee eens 34 7 4 6 Connecting the Generator in an Off Gri
126. ooooo o 46 7 4 13 Connecting Load Shedding Contactors ooooooooooono aerau A7 7 4 14 Connecting the Time Control for External Processes 0 en cent e eee eens 48 7 4 15 Connecting Message Devices for Operating States and Warning Messages oooooocooooooo 49 7 4 16 Connecting the Battery Room Fi A A AAA A ts 50 7 4 17 Connecting the Electrolyte Pump for the Battery o oooooooooooroooor teen eens 51 7 4 18 Connecting the Control Cable for the Use of Excess Energy in an Off Grid System 52 7 4 19 Connecting the Signal Cable of the External Generator Request 0 cence 53 Zo Connecting he Cables accer kirai 4 Metal bch ddd done Shared ow haters be Deka did 54 7a l Connecting ine DG Power Cable separa ars Malia E Snore deere dearest ee ter 54 75 2 Connecting ihe AG Power Cable iia Ti ae ew ah A Es 56 75 3 GOnnecting ihe Grounding Conductor sajuce kid 28 bees eS 57 Zo Connecting ine Dala Cap esc scr sok bk nao Wide edene as ed a ae ic eee 58 Jo Connecting Relay land Rely Z cota tiie Ade ii il 59 7 5 6 Connecting BatVigOut Digin BatTMP and BatCur 2 lt 2 201594 espro aa 60 LO COMMEN ANIOS ia las bE awe eet ee ous 61 7 0 Checking tne Wining vatios dra a ad 62 7 7 Sealing and Closing the Sunny ISON tn cs A ae ane e8 ol 66 7 8 Inserting the Fuse Links in the Fuse Switch Disconnector BatFuse ooooooooooooooooooomoo 67 COMMISSIONING 033001 eee a eee ee eee eee 68 Bale E o A he
127. oost charge 222 07 ChrgVtgBoost 2 40 V Full charge Cell charge setpoint voltage for full charge 222 08 ChrgVtgFul 2 45 V Equalization charge Cell charge target voltage for equalization charge 2 45 V 222 09 ChrgVtgEqu To control the utilization of excess energy set the multifunction relay on the Sunny Remote Control as follows It is not possible to set the multifunction relay on the communication product for utilization of excess energy Procedure 1 Switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter 241 07 ExtPwrDerMinTm and set it to the minimum time that the multifunction relay remains activated 3 Select the parameter 241 08 ExtPwrDerDltVtg and set it to the voltage difference relative to the setpoint of the cell voltage during the constant voltage phase i Recording of the measured values of the cell voltage reacts to changes with time lag The Sunny Island calculates the cell voltage from the measured battery voltage The Sunny Island calculates an average from the measured values of the battery voltage As a result of the calculation of an average the cell voltage that is recorded reacts to changes with a time lag 4 Ensure that the multifunction relay used for control is set to ExtPwrDer see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 Installation manual SI3OM 44M 60H 80H IA en 32 89 8 Commissioning SMA Solar Technology AG
128. parameter Voltage monitoring generator maximum reverse power 234 13 GnRvPwr and set to the active power of the generator reverse power 3 Select the parameter Voltage monitoring generator maximum reverse power tripping time 234 14 GnRvTm and set to time period of the generator reverse power 8 4 1 5 Configuring the Current Limit for the Generator Depending on the Frequency X The higher the generator current the higher the torque for the generator With unregulated generators the speed of rotation decreases with increasing torque If the speed of rotation decreases the frequency of the generator voltage is reduced If the frequency of the generator voltage falls below the rated frequency the generator management can place additional limits on the generator current The lower the frequency the more the generator current is limited by the generator management This setting is useful if the generator is supplying other loads parallel to the Sunny Island This setting allows the maximum load to be placed on the generator without overloading it Requirement L The generator must not be an inverter generator The output frequency of the inverter generator is fixed Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Nominal generator current 234 03 GnCurNom
129. re 92 8 4 3 2 Changing the Minimum Run Time for the Generator 000 ccc ccc naaar 92 8 4 3 3 Changing the Power Down Time for the Generator 0 cece cence nen ees 92 8 4 3 4 Changing the Minimum Stop Time for the Generator 0 aana aerar ereere 93 8 4 4 Configuring the Generator Request ici A ORE Shee Seek a ca 93 8 4 4 1 Changing the Automatic Generator Operation 0 cece rer 93 8 4 4 2 Changing a State Of Charge Dependent Generator Request ooocoooooooocoo or 93 8 4 4 3 Setting a Time Dependent Generator Requests vi4 it A MNS 93 8 4 4 4 Configuring the Load Dependent Generator Request 0 0 ranar rnrn rrer 94 8 4 4 5 Time Controlled Generator Requesting 0o ooooooooooooor rr 95 8 4 4 6 Changing the Generator Request via the Charging Process of the Battery oo 0oooocoooomooo 96 8 4 4 7 Setting an External Generator Request dd A SS ios 96 8 4 5 Configuring the Procedure in the Event of a Generator False Start oooooooooooooomomoo 96 8 0 Setting ne Time CONTO nc is IE cl 97 8 6 Changing Thresholds for Systems for Increased Self Consumption 0000 cece eee ene eee 97 8 7 Changing the Automatic Frequency Synchronization in Off Grid Systems 00 000 e cece eae 97 8 8 Completing Commissioning sri Ph eu w eset hehe isis 98 9 Supplementary Information 06 00 64054s0sees aoe ein bee Renee eee eda eee erences 99 9 1 Entering the SMA Grid Guara Code ia 99
130. re opening is sealed with a filler plug or M20 cable gland The cable diameter of the cable must be 7 mm to 14 mm for an mM M20 cable gland Conductor cross section of the grounding If one grounding conductor is connected the conductor EE conductor at the ACT and AC2 cross section must be at least 10 mm If two grounding conductors connections are connected the cross section of each conductor must be at least 4 mm Grounding conductor connection to The grounding conductor must be grounded e g by connectionto O ground a grounding busbar or a foundation ground electrode With a TN system neutral conductor and Ensure by measuring that there is a conductive connection between O grounding conductor connection the neutral conductor and the grounding conductor Grounding of the battery Ensure that the battery is not grounded unintentionally O If the battery has been grounded intentionally ensure that the conductor cross section is sufficient see Section 7 3 Connecting the Grounding Conductor in Systems with a Grounded Battery page 27 Checking the additional grounding If the battery is grounded you must check the additional grounding on the Sunny Island Test point Test criterion OK Conductor cross section for the additional The conductor cross section must correspond to the grounding of O grounding the battery Connection of additional grounding Hexagon socket screw is screwed tight torque 4 Nm to 5 7 Nm O Grounding conductor
131. rizontal position during transport if f L i Y E ll 4 Use an Allen key AF 5 to attach the Sunny Island to the wall mounting bracket on both sides with the M6x10 screws provided torque 4 Nm to 5 7 Nm This will prevent the Sunny Island from being lifted off the bracket Installation manual SI3OM 44M 60H 80H IA en 32 23 6 Mounting SMA Solar Technology AG 8 Seal off the recess grips with the ventilation grids e Place the ventilation grid marked links left on the left recess grip e Place the ventilation grid marked rechts right on the right recess grip 9 In order to protect the Sunny Island against theft attach the bottom side to the wall with two security screws 10 Ensure that the Sunny Island is firmly attached 24 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 1 7 Electrical Connection Content and Structure of the Section The sub sections differ in their structure Some sub sections refer to the correct connection of devices others refer to basic procedures An overview detailing which contents the sub sections describe and which contents should be read and adhered to can be found in the following table Section 7 2 Connection Area 7 3 Connecting the Grounding Conductor in Systems with a Grounded Battery 7 4 Connecting the Components 7 5 Connecting the C
132. rs for example If the automatic frequency synchronization is activated the Sunny Island regulates the frequency deviations over time As a result the accuracy of clocks that use the power frequency as timers is increased Installation manual SI3OM 44M 60H 80H IA en 32 97 8 Commissioning SMA Solar Technology AG Procedure l Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual To deactivate automatic frequency synchronization select the parameter Automatic frequency synchronization 250 11 AfraEna and set it to Disable To activate automatic frequency synchronization select the parameter Automatic frequency synchronization 250 11 AfraEna and set it to Enable 8 8 Completing Commissioning a W N 98 Press the start stop button on the Sunny Island and hold it until an Make sure that the wiring is correct see Section 7 6 page 62 Ensure that the functional test has been carried out see Installation quick reference guide of the system used Connect or close the circuit breakers and fuse switch disconnectors for energy sources With off grid systems only disconnect or open all loads the circuit breakers of the loads and the fuse switch disconnector As a result only the energy sources are connected to the Sunny Island acoustic signal sound
133. rs to ExtVtg e On slave 2 connect the X112 9 and X112 10 insulated conductors to ExtVtg the cable is correctly connected see Section 7 5 6 Connecting BaiVig Digln BatVtgOut Digln BatTMP and BatCur page 60 e Connect BatVtgOut with DigIn within the master 0 tc 2 At the master connect the AC contactor monitoring Ensure that eu A e Connect the insulated conductor from X113 3 to BatVtgOut oan 3 ry e Connect the insulated conductor from X113 4 to DigIn 7 4 6 Connecting the Generator in an Off Grid System Ta In single systems and single cluster systems connect a generator to connection AC2 of the Sunny Island inverter For a multicluster system connect the generator directly to the Multicluster Box see the Multicluster Box documentation A WARNING Danger to life from electric shock due to incorrect connection of the neutral conductor Connecting the neutral conductor incorrectly can cause failure of the protective functions in the system This can result in death or serious injury e Connect the neutral conductor to terminal AC2 Gen Grid N Requirements O A separate cable must be laid for each Sunny Island from the AC distribution board or directly from the generator O In
134. ry to the application In many regions the PV energy available largely depends on the season and the hours of sunshine On short days with few hours of sunlight the Sunny Island cannot charge the battery fully Lead acid batteries in particular age faster due to low charging over a long period Therefore it is better if the battery is not discharged too much by the Sunny Island on short days On short days there is insufficient PV energy to charge the battery On long days with many hours of sunlight the Sunny Island can usually charge the battery fully On such days it is better to use as much of the battery capacity as possible for increasing self consumption The discharge behavior can be adjusted to the location and time by the Sunny Island You can activate seasonal adjustment for this parameter Seasonal operation active 261 03 Saisonenable The Sunny Island only uses a small portion of battery capacity for increased self consumption on short days when adjustment is activated The Sunny Island uses a large portion of the battery capacity for the increased self consumption on long days The seasonal adjustment prolongs the electrical endurance of the battery in regions where the available PV energy is largely dependent on the season 8 2 4 2 Changing the Battery Usage through Systems for Increased Self Consumption without a Battery Backup Function i Adjusting the default values The parameters for battery usage are set automatically
135. s M The Sunny Island starts charging the battery automatically With off grid systems only when full charge is complete switch on all circuit breakers and load break switches Tip The state of charge of the battery is displayed on the Sunny Remote Control in standard mode i Load shedding in the first two operating hours The state of charge SOC recorded by battery management and the available battery capacity SOH will deviate strongly from the actual values of SOC and SOH for a newly connected battery During operation the values recorded by battery management will gradually approach the real values In the first two operating hours with the new battery these deviations can lead to load shedding and corresponding messages These messages are shown on the Sunny Remote Control or communication product see the Sunny Island operating manual or the user manual of the communication product SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 9 Supplementary Information 9 Supplementary Information 9 1 Entering the SMA Grid Guard Code Depending on the configuration safety relevant parameters are protected by the SMA Grid Guard code from unauthorized changes You can unlock the parameters by entering the SMA Grid Guard code Procedure 1 Contact the SMA Service Line and apply for a personal SMA Grid Guard code 2 Log in to Sunny Explorer as Installer see the user manual of the Sunny Explorer or sw
136. s of the digital input must be complied with see Section 10 Technical Data page 101 Cable requirements L Copper wire O Conductor cross section 0 2 mm2 to 2 5 mm2 Procedure 1 On the Sunny Island connect one insulated conductor of the control cable to terminal BatVtgOut see Section 7 5 6 Connecting BatVtgOut Digln BatTMP and BatCur page 60 2 Connect one insulated conductor of the control cable to terminal DigIn 3 Connect terminal BatVtgOut to terminal Digln Use the same conductor as in the control cable Installation manual SI3OM 44M 60H 80H IA en 32 53 7 Electrical Connection SMA Solar Technology AG 7 5 Connecting the Cables 7 5 1 Connecting the DC Power Cable Additionally required material not included in the scope of delivery CL Ethanol CI 2 terminal lugs M8 20 mm to 25 mm wide Cable requirements E Conductor cross section 50 mm2 to 95 mm O Cable diameter 14 mm to 25 mm Cable diameter when using a BatFuse 14 mm to 21 mm A WARNING Danger to life due to incompatible lithium ion battery An incompatible lithium ion battery can lead to a fire or an explosion With incompatible lithium ion batteries it is not ensured that the battery management will protect the battery e Ensure that the lithium ion batteries are approved for use with the Sunny Island The list of lithium ion batteries approved for the Sunny Island is updated regularly see the technical information List of
137. single phase parallel single cluster systems the cable lengths and conductor cross sections from each Sunny Island to the AC distribution board or directly to the generator must be configured in the same way LI In a three phase system L1 must be assigned to the master L2 to slave 1 and L3 to slave 2 Procedure e Connect the power cable to the AC2 Gen Grid terminal on the Sunny Island Connect the neutral conductor to terminal N and ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56 Installation manual SI3OM 44M 60H 80H IA en 32 35 7 Electrical Connection SMA Solar Technology AG 7 4 7 Inserting Filler Plugs e Seal unused enclosure openings of the Sunny Island with filler plugs The enclosure openings will then comply with degree of protection IP54 7 4 8 Communication Connection 7 4 8 1 Connecting the Sunny Remote Control A data cable is included with the Sunny Remote Control for connection purposes If the data cable is not long enough you can replace it with a longer data cable Cable requirements L Maximum cable length 20 m L Classification CAT5e C Type of plug RJ45 Procedure 1 Insert the data cable in the pin connector Display on the Sunny Island see Section 7 5 4 Connecting the Data Cables page 58
138. te of charge falls below the threshold for level 1 the Sunny Island switches to standby between the start time and end time If the state of charge falls below the threshold for level 2 the Sunny Island switches to standby between the start time and end time The Sunny Island attempts to charge the battery in the remaining time You can change the battery protection mode on the communication product or on the Sunny Remote Control The parameters for the battery protection mode are created as a data field in the communication product Data fields enable the summary of parameters Therefore the parameters in the Sunny Explorer are shown in a table Requirement C In a cluster the communication product or Sunny Remote Control must be connected to the master Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 To change battery protection mode 1 set the desired times and SOC thresholds e Select the parameter Start time battery protection mode 223 01 BatProlTmStr and set to the desired start time for level 1 e Select the parameter End time battery protection mode 223 02 BatProlTmStp and set to the desired end time for level 1 e Select the parameter Battery state of charge for protection mode 223 05 BatProl Soc and set to the desired SOC threshold for level 1 3 To change
139. ter system with battery backup grid set the ranges of battery state of charge for each cluster to the same values You can change the battery usage through battery backup systems without increased self consumption on the communication product or Sunny Remote Control Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Set the following parameters for increased self consumption Parameter Value Increased self consumption switched on 261 01 SlfCsmpIncEna_ Disable Lower limit of the deep discharge protection range before disconnection 262 01 ProtResSOC Minimum width of the deep discharge protection range 262 02 BatResSOC 74 SIS3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning Parameter Value Minimum width of the battery backup range If all ranges combined do not amount 262 03 BUResSOC to 100 the BuRes range will be increased automatically Seasonal operation active 261 03 Saisonenable No 8 2 4 Battery Usage through Systems for Increased Self Consumption 8 2 4 1 Seasonal Adjustment of the Battery Usage The options for increased self consumption depend to a large extent on the battery and on the availability of PV energy In order to use the battery optimally you can adjust the depth of discharge of the batte
140. th of the self consumption range 262 05 MinSlfCsmpSOC PVRes Range for maintaining the state of charge of the battery The range size is constant year round Width of the range for the maintenance of the battery state of charge 262 04 PVResSOC BatRes Range for protection against deep discharge This range can only be reached when the utility grid fails The BatRes range applies to the longest day of the year with seasonal adjustment see Section 8 2 4 1 page 75 If seasonal adjustment is deactivated the BatRes range is increased accordingly Minimum width of the deep discharge protection range 262 02 BatResSOC 76 SIS3OM 44M 60H 80H IA en 32 Behavior of the Sunny Island inverter The Sunny Island uses the battery for increased self consumption Excess PV energy is used for conserving the battery charge If no excess PV energy is available the Sunny Island switches to energy saving mode When the state of charge reaches the BatRes range limit the Sunny Island charges the battery up to half of the PVRes range from the utility grid To do so the Sunny Island charges the battery with maximum efficiency at 25 of the nominal power of the Sunny Island inverter If a utility grid is available the Sunny Island charges the battery using nominal power from the utility grid Installation manual SMA Solar Technology AG Range Explanation of the range and parameters ProtRes Range for protection in the event of d
141. the AC distribution board Short circuit currents can cause fires e Ifthe generator fuse is larger than the fuse on the AC distribution board configure the cable for the generator fuse Requirements L The inverters to be connected must be Sunny Island 6 0H 8 0H inverters C The PV inverters must be equipped with at least firmware version 3 5 Firmware version 3 5 of Sunny Island can only be used in multicluster systems with the Multicluster Box 12 of device type MC BOX 12 3 20 Procedure e Connect the power cable to the AC2 Gen Grid terminal on all Sunny Island inverters Ensure that the cable is correctly connected see Section 7 5 2 Connecting the AC Power Cable page 56 e Connect the line conductor to AC2 Gen Grid L e Connect the neutral conductor to AC2 Gen Grid N e Connect the grounding conductor to AC2 Gen Grid PE 7 4 5 2 Connecting the Control Cable to the Multicluster Box 12 Control cables conduct the control signals of the multifunction relays to the contactors of the Multicluster Box 12 MC Box 12 3 20 Requirements L The inverters to be connected must be Sunny Island 6 0H 8 0H inverters L The PV inverters must be equipped with at least firmware version 3 5 Firmware version 3 5 of Sunny Island can only be used in multicluster systems with the Multicluster Box 12
142. the Power Down Time for the Generator e i Internal shut off delay of the generator Generators may have an internal shut off delay which is activated only once the generator request has been removed Note that this internal shut off delay increases the actual power down time Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Cool down time of the generator 234 10 GnCoolTm and set to the desired value 92 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 8 4 3 4 Changing the Minimum Stop Time for the Generator Ta 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Select the parameter Minimum idle time of the generator 234 09 GnStpTmMin and set to the desired value 8 4 4 Configuring the Generator Request 8 4 4 1 Changing the Automatic Generator Operation In automatic generator operation the generator management specifies when and for how long the generator a runs depending on the configuration Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see th
143. timer 2 in the table for 48 configuration SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 15 Connecting Message Devices for Operating States and Warning Messages You can connect message devices to the multifunction relays to allow operating states and warning messages from the Sunny Island inverter to be output One of the following operating states and warning messages can be displayed for each multifunction relay The generator is running and is connected Voltage and frequency of the utility grid are within the range for connection A Sunny Island displays an error message of level 2 or higher Only the error messages within a cluster are evaluated here i Different control logic for error messages of level 2 or higher e When an error message of level 2 is pending the multifunction relay is deactivated e When no error message is pending the multifunction relay is activated This ensures that the error message will also be displayed in the case of automatic shutdown The Sunny Island displays a warning Only the warnings within a cluster are evaluated here The Sunny Island is in operation in the single system The respective cluster is in operation in a cluster system The Sunny Island is in derating in a single system The respective cluster is in derating in a cluster system Requirements C The technical requirements of the multifunction relay must be met see Se
144. tion manual SI3OM 44M 60H 80H IA en 32 3 7 Electrical Connection SMA Solar Technology AG 2 At the master connect the tie switch monitoring Ensure that the cable from X5 3 and X5 4 is correctly connected see Section 7 5 6 Connecting BatVtgOut Digln BatTMP and BatCur page 60 e Connect BatVtgOut with DigIn within the master e Connect the insulated conductor from X5 3 to DigIn e Connect the insulated conductor from X5 4 to BatVtgOut 7 4 4 Connecting the Stand Alone Grid or Multicluster Box 6 12 36 T In the off grid system connect the AC loads and the grid parallel AC sources e g PV inverters to connection ACT on the Sunny Island inverter via an AC distribution board In the case of a multicluster system the Multicluster Box 6 Multicluster Box 12 MC BOX 12 3 or Multicluster Box 36 is the AC distribution board that is connected to connection AC1 connection of device type MC BOX 12 3 20 Multicluster Box 12 see Section 7 4 5 page 33 Requirements for connecting Sunny Island inverters in single phase parallel single cluster systems AC AC Figure 10 Correct symmetric connection and incorrect asymmetric connection of the Sunny Island inverters O For a single phase parallel single cluster system the cable length and conductor cross section from each Sunny Island to the AC distribution board must be identical This will allow for stable and symmetric operation A WARNING Danger to life due to fire
145. tor size 1 for up to three Sunny Island units 6 DC inputs 2 x battery and 4 x Sunny Island Charger 50 1 x auxiliary voltage output 8 A Three pole load shedding contactor with 48 V DC coil for single cluster systems with Sunny Island Battery current sensor The battery current sensor is available in different versions You can obtain more information from your distributor or SMA Solar Technology AG PV charge controller for off grid systems RS485 communication interface Communication interface for communication between clusters in a multicluster system Sunny Island Speedwire data module When ordering additional details on the intended use are required 108 SIS3OM 44M 60H 80H IA en 32 SMA order number BATFUSE B 0 1 BATFUSE B 03 SI LS 100 48 SISHUNTXXX SIC50 MPT SIL COMSMA NR SI SYSCAN NR SWDMSI Installation manual SMA Solar Technology AG 12 Contact If you have technical problems with our products please contact the SMA Service Line We require the following information in order to provide you with the necessary assistance Sunny Island inverter type Sunny Island inverter serial number Sunny Island inverter firmware version Displayed error message Type of battery connected Nominal battery capacity Nominal battery voltage Type of the communication products connected Type and size of additional energy sources If a generator is connected Type Power Maximum current Australia S
146. ttery Ensure that the battery room is sufficiently ventilated Chemical burns and poisoning due to battery electrolyte If handled inappropriately battery electrolyte can cause irritation to the eyes respiratory system and skin and it can be toxic This may result in blindness or serious chemical burns e Protect the battery enclosure against destruction Do not open or deform the battery Whenever working on the battery wear suitable personal protective equipment such as rubber gloves an apron rubber boots and goggles Rinse acid splashes thoroughly for a long time with clear water and consult a doctor Install operate maintain and dispose of the battery according to the manufacturer s specifications Risk of injury due to short circuit currents Short circuit currents in the battery can cause heat build up and electric arcs Burns or eye injuries due to flashes may result e Remove watches rings and other metal objects e Use insulated tools e Do not place tools or metal parts on the battery Installation manual SI3OM 44M 60H 80H IA en 32 11 2 Safety SMA Solar Technology AG A CAUTION Risk of burns due to hot battery components Improper battery connection may result in excessively high transition resistances Excessive transition resistances give rise to localized heat build up Heat build up can cause burns e Ensure that all pole connectors are connected with the connecting torque specified by the batter
147. twice the cable length in m A conductor cross section in mm 2 Calculate the total resistance of the battery cable Use the following formula RBatRes RCable 1 t RBatFuse RCable 2 Raikes total resistance of the battery cable RCable 1 calculated resistance of cable 1 Reable 2 calculated resistance of cable 2 RBatFuse Calculated resistance of BatFuse 2 m Q 3 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 4 Select the parameter Cable resistance of the battery connection 221 06 BatWirRes and set to the resistance of the battery cable 8 2 6 Setting the Control of the Battery Room Fan 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual Installation manual SI3OM 44M 60H 80H IA en 32 83 8 Commissioning SMA Solar Technology AG e Select the parameter Temperature limit for multifunction relay with battery room fan 221 07 BatFanTmpStr and set it to the battery temperature at which the fan is to be switched on 2 Ensure that the multifunction relay used for control is set to BatFan or MccBatFan see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 3 Ensure that the battery room is sufficiently ventilat
148. um number of failed attempts on the communication product e Select the parameter Automatic generator start e Activate the automatic generator start and set the desired number of start attempts see user manual of the communication product 96 SI3OM 44M 60H 80H IA en 32 Installation manual SMA Solar Technology AG 8 Commissioning 4 In order to change the stop time of the generator after the maximum number of start attempts has been exceeded select the parameter Idle time after generator error 234 11 GnErrStpTm and set to the desired stop time 8 5 Setting the Time Control The time control controls up to two multifunction relays according to the set times Procedure 1 Log in to the communication product as Installer see the user manual of the communication product or switch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 To set the start date select and set the following parameters Possible settings Parameter Start time for timer 1 date Start date relay control for timer 243 01 RlyTmr1StrDt Start time for timer 1 time 243 02 RlyTmr1 StrTm Start time for timer 2 date 243 05 RlyTmr2StrDt Start time for timer 2 time 243 06 RlyTmr2StrTm 3 To set the desired running time select and set the following parameters Possible settings Parameter Running time for timer 1 Repetition cycle time relay 243 03 RlyTmr1 Dur Running time for timer 2 control ton hme 243 07 RlyTmr2Dur 4 To set t
149. unny Island can control various functions and can display operating states and warning messages In an SMA Flexible Storage System with battery backup function the multifunction relays of the master are set permanently In multicluster systems with Multicluster Box 12 MC BOX 12 3 20 multifunction relays 1 and 2 in the master of the main cluster and multifunction relay 1 in slave 1 of the main cluster are set permanently Possible function or output Control of the tie switch and of the contactors for grounding Switch cycles in the Explanation In the SMA Flexible Storage System with battery backup function the multifunction relays control the contactors for grid coupling and grounding In multicluster systems with Multicluster Box 12 multifunction relays control different switch multicluster system Controlling generators cycles in the multicluster system The multifunction relay activates if a generator request is received from the Sunny Island Control of load shedding inverter s generator management With the multifunction relay you can control generators equipped with electrical remote start function or connect a signal generator for generators with no autostart function see Sections 7 4 11 and 7 4 12 The multifunction relay is activated depending on the state of charge of the battery contactors Time control for external Depending on the configuration you can install a one level load shedding with
150. witch to expert mode on the Sunny Remote Control see the Sunny Island operating manual 2 Set the parameters for the standard time period e Select the parameter Time load shedding 1 242 05 Lod1Tm1 Str and set to the start time for the standard time period e Select the parameter Battery state of charge limit for load shedding 1 start 242 01 Lod1SocTm1 Str and set it to the lower SOC threshold for the standard time period e Select the parameter Battery state of charge limit for load shedding 1 stop 242 02 Lod1SocTm1 Stp and set it to the upper SOC threshold for the standard time period 3 Set the parameters for the additional time period e Select the parameter Start time for the additional time period of load shedding 1 242 06 Lod1Tm2Str and set to the start time for the additional time period e Select the parameter Battery state of charge limit for load shedding 1 start in the additional time period 242 03 Lod1SocTm2Str and set it to the lower SOC threshold for the additional time period e Select the parameter Battery state of charge limit for load shedding 1 stop in the additional time period 242 04 Lod1SocTm2Stp and set it to the upper SOC threshold for the additional time period 4 Ensure that the multifunction relay used for control is set to AutoLod1 Soc see Section 8 1 5 Setting the Functions of the Multifunction Relays page 71 Installation manual SI3OM 44M 60H 80H IA en 32 87 8 Commissioning SMA Solar Technol
151. x CATS with shielding S UTP F UTP or higher C Type of plug RJ45 Procedure 1 On the Sunny Island insert the data cable into the pin connector of the Speedwire data module for electrical connection see the installation manual of the Soeedwire data module Sunny Island 2 Connect the other end of the data cable to the router or network switch Installation manual SI3OM 44M 60H 80H IA en 32 37 7 Electrical Connection SMA Solar Technology AG 7 4 8 4 Connecting the Data Cable for the Internal Communication of the Cluster In a cluster the Sunny Island inverters communicate via a black data cable MASTER SLAVE 1 SLAVE 2 MASTER SLAVE 1 Figure 11 Internal communication cabling Requirements LI The total length of the communication bus must not exceed 30 m Keep in mind that the communication bus possibly connects several nodes such as other Sunny Island Charger devices Procedure 1 Plug the data cable into a free ComSync pin connector on the Sunny Island Ensure that the cable is correctly connected see Section 7 5 4 Connecting the Data Cables page 58 2 Ensure that the communication bus is closed at each end e g with a terminator 38 SI30M 44M 60H 80H 1A en 32 Installation manual SMA Solar Technology AG 7 Electrical Connection 7 4 8 5 Connecting the Data Cable of th
152. xagon socket screw M8x20 Y Black CAT5e data cable 2 m 2 Fender washer M8 Z 2 Silicon tube 10 mm x 500 mm H 2 Spring washer M8 a 1 Cable support sleeve for one cable 2 M6 conical spring washer b 2 Cable support sleeve for two cables K Clamping bracket c Installation manual operating quick reference guides L 1 Battery t t Ee 9 ac lel aaa SMA Flexible Storage System M 2 pole terminal SMA Flexible Storage System N gt Jode mna with Battery Backup Function Off Grid Systems O 2 4 pole terminal P 1 M20 cable gland d Label VDE 0126 1 1 Q Counter nut for M20 cable 1 Warning label for gland battery backup system 1 spare part for the enclosure lid included Installation manual SI30M 44M 60H 80H lA en 32 ES 3 Scope of Delivery SMA Solar Technology AG Communication via RS485 order option Figure 2 Position Quantity A mI gigol C D E Components of the Communication via R5485 order option Designation SI COMSMA BGx installed in the Sunny Island at the factory Gray CAT5e data cable 5 m White CAT5e data cable with three conductors with stripped insulation Screw installed in the Sunny Island at the factory Terminator plugged into SI COMSMA BGx at the factory In the case of a cluster system the communication interface is only installed in the master Communication in multicluster systems order option Figure 3 Position Quantity
153. y manufacturer e Ensure that all DC cables are connected with the connecting torque specified by the battery manufacturer NOTICE Permanent damage to the battery due to improper handling Improper storage transport set up or maintenance of the battery can cause it to become permanently damaged Logs can help to determine the cause Comply with all requirements of the battery manufacturer with regard to storage transport and mounting location e Check and log the status of the battery before commissioning and before performing maintenance work e Check the battery for visible damage and log e Measure and log the fill level and acid density of FLA batteries e In the case of lead acid batteries measure and log the voltages of the individual cells e Perform and log the test routines required by the battery manufacturer Tip Many battery manufacturers provide suitable logs Damage to the battery due to incorrect settings The set battery parameters influence the charging behavior of the Sunny Island inverter The battery can be damaged by incorrect settings of the battery type nominal voltage and capacity parameters e Ensure that the values recommended by the battery manufacturer are set refer to the technical data of the battery in the manufacturer documentation Note that the battery charging behavior names used by SMA Solar Technology AG and the battery manufacturer may in some cases differ in meaning for the battery ch
154. y safe e Ensure that the lithium ion batteries are approved for use with the Sunny Island The list of lithium ion batteries approved for the Sunny Island is updated regularly see the technical information List of Approved Lithium lon Batteries at www SMA Solar com If no lithium ion batteries approved for the Sunny Island can be used use lead acid batteries Installation manual 28 SI30M 44M 60H 80H 1A en 32 SMA Solar Technology AG 7 Electrical Connection Procedure 1 Ensure that the load break switch of the BatFuse is open and secured against reconnection 2 On the Sunny Island remove all screws of the lower enclosure lid using an Allen key AF 5 and remove the enclosure lid Retain the screws and conical spring washers for later use 3 Clean the contact surfaces of the DC and DC connections for example with ethanol This reduces the transition resistance on the contact surfaces A low transition resistance increases the system stability and minimizes the risk of damage to the Sunny Island 4 NOTICE Damage to Sunny Island inverter due to reverse polarity or incorrect terminal lug selection If the DC cables are swapped high currents will flow after the load break switch has closed and these can damage the Sunny Island e Fasten the DC power cables to the DC connection with M8x20 screws ensuring correct polarity torque 12 Nm In doing so ensure that the cable is connected correctly see Section 7 5 1 C
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