Commercial System Design Guide
Contents
1. Module keke IM BI Hd H COOL LL cL LL mnm EE YC1000 3 HHHH Microinverter yU NL LL LL NCL tT Lo 1 Junction Box Figure 35 SOT UNE I YC1000 3 Microinverter Junction Box Figure 36 Commercial System Design Guide with APsystems YC1000 3 20 Design Optimization Through optimization of the design below the system will perform better and it will also reduce the cost of construction and maintenance We provide some suggestions and methods for installers to optimize the system in this chapter Design Tips Panel installation tips 1 Azimuth You d better keep the panel facing north if the system is in the Southern Hemisphere or facing south if the system is in the Nothern Hemisphere 2 Tilt A Normally the best installation tilt is the latitude where the system located in when the latitude is from 0 25 B When the latitude is from 26 40 The best installation tilt is equal to the latitude plus 5 to 10 C When the latitude is from 41 55 The best installation tilt is equal to the latitude plus 10 to 15 3 Panel model Keep the four panels which connect to one YC1000 3 in same model in order to provide balanced DC power input 4 The best installation type for panels is landscape There is no need to use DC extenction cables which will reduce power loss on cables See Figure 25 YC1000 3 microinverte2. APsystems ALTENERGY POWER b Commercial System Design Guide APsystems YC1000 3 Photovoltaic Grid connected Microinverter Version 1 1 All Rights Reserved TABLE OF CONTENTS Srl e 2 Introduction of Grid connected System with YC1000 3 coooooooooooooooooooooooooooooooooooooo ooooooo 3 YC1000 3 microinverter E 3 SVS SERO Is A TOT 3 Eguipments ERO CIC ENO 1 RP Te 4 The Sample of 300kW Commercial System for YC1000 3 oooooooooooooooooooooooooooooooooooooooooooooo 9 Calculate the number of APsystems YC1000 3 Microinverters sees eene eene nennen 9 Calculate the Number of APsystemsECUSs eee e nemen n e Henn enn hse Waah 9 Calculate the number of branches and subsystems ss 10 Muri jhbcoe 11 Record the UID and Complete the installation Map ss 12 Quick EMA Account Registration EMA Login 12 Summary of 300kW Commercial System ooooooWoooooWooooo aneka 17 Other installation types for YC1000 microinverters oooooooooooooooooooo een en nnn nn ns 18 O Dl MIA 1 nan Un Ta TAN aa Ben 21 DSTI ANA NE AAN 21 Voltage Rise On WVIreS coooo Wooooo oo mooooooooooocdoomelakiebeek aman 22 Monitor
3. LI Junction 1881 Ka 3 Subsystem Junction Box j gt o d LL branches of ar Ei A micro inverters In total The Junction Box e first 8 branches with 11 m a LI a a gt YC1000 3 micro 9 5 e 6 9 5 inverters in each Junction 288 e e n The last branch has 3 YC1000 3 Ka id a gt micro inverters fas Figure 24 Commercial System Design Guide with APsystems YC1000 3 17 The Sample of 300kW Commercial System for YC1000 3 Other installation types for YC1000 microinverters 1 YC1000 microinverters operate with 60cell or 72cell PV modules Diagram of portrait PV array with APsystems 1000 3 2x2 PV Module YC1000 3 Microinverter Junction Box Figure 25 Junction Box Figure 26 YC1000 3 Microinverter Junction Box Figure 27 YC1000 3 Microinverter Junction Box DC extension wire 1m Note Use 4 Meter AC Bus Cable for 8 Meter application making sure to cap unutilized T connectors igure Commercial System Design Guide with APsystems YC1000 3 18 The Sample of 300kW Commercial System for YC1000 3 Diagram of portrait PV array with APsystems YC1000 3 AC bus connection 2x2 PV Module YC1000 3 Microinverter Junction Box SS Figure 29 Diagram of landscape PV array with APsys
4. Op ERE 23 The Flowchart of Commercial System Designing ooooooooooooooooooooooooooooooooooooooooooooooooooooooooo 25 Commercial System Design Guide with APsystems YC1000 3 1 Content APsystems Microinverter is the world s most technologically advanced inverter for using in utility interactive applications APsystems Microinverter System delivers design flexibility integrated intelligence increased energy harvest and system availability not found in a central inverter based system NOTE This indicates information that 1 important for optimized microinverter operation Follow these instructions closely NOTE SYMBOL Commercial System Design Guide with APsystems YC1000 3 2 Introduction of Grid connected System with YC1000 3 YC1000 3 microinverter introduction APsystems YC1000 3 is the first three Phase Microinverter in the world Here is the difference below when comparing with other inverters If you want to know more about APsystems microinverter please click www APsystems com First Three Phase Microinverter in the world No Electrolytic capacitors Four modules connecting Balanced three phase output Power line Zigbee Vv V V WV Individual module monitoring System diagram PV Module YC1000 3 Microinverter xtc Distribution Box 6 ECU EMA Internet Figure 1 Commercial System Design Guide with APsystems YC1000 3 3 Introduction of Grid connected S
5. So this 300kW rating commercial system needs 1154pcs PV modules with the STC output power 260W and 289 APS YC1000 3 micro inverters the real output power of this system would be 259 6KW Calculate the Number of APsystemsECUs Usually a commercial system is composed of several subsystems and the microinverters each subsystem are monitor by one ECU Recently one Zigbee ECU can pick up 100 YC1000 3s So we just need 3 Zigbee ECUs NOTE The Zigbee ECU 1 not forced to put into the distribution box You only need put the Zigbee ECU close to the PV system to let the YC1000 3 could talk with ECU by strong zigbee signal fg i LET LI LEE AOT Junction d LI TT TI S Li Lb IE Ii Lh FE Lien 11 Beca Haad Head Mama Hel LIT n LE ett hy CEE SE EA ical Tr inca Box ELA d Ll ES Box 1 HAHA LLLI LI i eG a py lal e amp T 25 gt e e 25 Yaa ideis NL OL NL er dl DD Dl giz LI E 4 d i e EN IE LL TT MELLE EL eee ees n Hem n mm z M z 5 5 i d TT E iiai E ASLI renl nen
6. The Flowchart of Commercial System Designing Determine the system size Choose suitable PV modules Determine the number of PV modules Microinverters required Determine the number of subsystems ECUs required Check the material list Optimize the design Build the system according to APsystems installation manual Record the UID and complete the map Register an account and fill in the system information Connect to the grid and start the system Monitor the system by EMA Figure 42 Commercial System Design Guide with APsystems YC1000 3 25 Contact Information ALTENERGY POWER SYSTEM Inc Web www APsystems com APsystems Jiaxing China No 1 Yatai Road Nanhu District Jiaxing Zhejiang Tel 86 573 8398 6967 Mail info altenergy power com APsystems Shanghai China B403 No 188 Zhangyang Road Pudong Shangha Tel 86 021 3392 8205 Mail info altenergy power com APsystems Australia Suite 502 8 Help Street Chatswood NSW 2067 Australia Tel 61 0 2 8034 6587 Mail info altenergy power com APsystems America 600 Ericksen Ave NE Suite 200 Seattle WA 98110 Tel 844 666 7035 Mail info apsamerica com APsystems Europe Cypresbaan 7 2908LT Capelle aan den Ijssel The Netherlands Tel 0031 10 2582670 Mail info altenergy power com Commercial System Design Guide with APsystems YC1000 3 26
7. become 10 minutes and if more time is needed the interval time will become 15 minutes and so on If the polling interval time for the whole system is more than 20 minutes the adjusting step size will not be fixed but is the actual time cost For example the last interval time is 22 minutes but next polling s interval time may be 26 minutes or others The table below shows the relationship between polling interval time and the quantity of microinverters Commercial System Design Guide with APsystems YC1000 3 23 Design Optimization YC1000 3 Microinverter Polling Interval Time Quantity of 1 50 50 100 100 150 150 200 Inverters Interval 5 10 15 or 20 20 or above Time minute Note The polling interval time may vary with the field s condition 2 Data Transmitted by ECU Connect the ECU to a PC then you can monitor the data locally If transmitting the datathat ECU had received from inverters to APsystems EMA server EMA system will analyze and manage these data and users can monitor the system online There are 2 methods to upload the data to APS servers 1 Connect ECU with a router Both wired or wireless are ok then the data will be transmitted to APsystems server by internet 2 Transmit the data to base stations of mobile operators by GPRS and then upload to internet and transmit to servers 3 Start ECU Start the ECU enter into the ECU local interface The installer could enter the YC1000 3 s UID num
8. 10 51 213000016946 2014 12 08 16 04 213000016946 2014 12 09 8 42 213000016946 2014 12 10 3 98 213000016946 2014 12 11 5 58 213000016946 2014 12 12 13 14 213000016946 2014 12 13 17 50 213000016946 2014 12 14 16 55 213000016946 2014 12 15 2 28 31 results found displaying 1 to 15 First Prev 1 2 3 Next Last us S e Figure 23 Commercial System Design Guide with APsystems YC1000 3 16 The Sample of 300kW Commercial System for YC1000 3 Summary of 300kW Commercial System Above all this 300kW commercial system can be divided into 3 subsystems Every subsystem has 99 or 91 YC1000 3 microivnerters one ECU 3Z and one surge protection devices and two 160A breakers etc Then these YC1000 3 in a subsystem are divided into 9 branches and every branch has 11 or 3 YC1000 3 microinverters The detailed electrical digram is showing below 1 Subsystem Junction Box 1 e 9 sda NN err E Junction Box 34 om n eh Sr h 6 Xx Ow E ws total Each 5 6 1 e c 95 9 188 Junction E Le t LL LI ol Ko 2 Subsystem Junction Box todl s soss 5 rarer ia y E Junction 133 io is e e gt o 9 aerei C function gt os Li i 00 32 Bex on inverters Y Junction Box 177 LI e
9. Guide with APsystems YC1000 3 14 The Sample of 300kW Commercial System for YC1000 3 Installer Portal Registraion page v4 2 e ALTENERGY POWER ENERGY MONITORING amp ANALYSIS CUSTOMER REGISTRATION FAQ NEW INSTALLATION NEW INSTALLATION installation Wizard Customer gt ECU gt Inverter gt Installation Layout gt Installation Drawing Step1 Customer information UserName Password Confirm Password Email First Name Last Name Phone number Installation Select v Company Country China Figure 20 End User Portal DashBoard Page NOTE End user account could not see the detailed AC and DC performace graph data End user could downlod the chart by many formats ru 2 Settings Sign out APsystems ENERGY MONITORING ALTENERGY POWER amp ANALYSIS DASHBOARD MODULE FAQ PERFORMANCE System Status e DASHBOARD User Account TODAY Dashboard gt Today 213000016946 2014 12 17 E 2014 12 17 09 55 14 TODAY S ENVIRONMENTAL BENEHT S Power Generation C02 Offset Equivalent to 0 P GALLONS Print chart Download PNG image Download JPEG image Download PDF document Download SVG vector image A i Power W DISCLAIMER EMA and ECU data may differ slightly because of data transmission timing issues related to normal Internet performance Figure 21 Commercial System Design Guide
10. Junction Box at a suitable location on the PV racking system at the end of each branch of modules 1 Connect the open wire end of the AC bus cable into the AC junction box using an appropriate gland or strain relief fitting 2 Wire the conductors L1 RED L2 BLACK L3 PINK WHITE PE GREEN 3 Seal the AC junction box after complete the wiring Su SD Noms Figure 9 Commercial System Design Guide with APsystems YC1000 3 7 Introduction of Grid connected System with YC500 6 Array APP ArrayApp 1 designed to help installers register EMA accounts quickly via their 105 smart phone devices Using the ArrayApp application installers can complete the registration while on the construction site Improving the registration efficiency Customers can use their EMA account in time ArrayApp could connect to the EMA Server via a Wi Fi GPRS connection You could download the ArrayApp with IOS system on App Store 10 39 AM Carrier 10 34 AM Customer Edit Inverter w T T testdata City Settle testphone TT Pull up i Online un gm gm sm E E E EN d 7 pu DECE 2014 Altenergy Power System Inc T P gt ME Figure 10 7 Revenue Grade Metering for Commercial Projects Revenue grade metering is often required for commercial projects that are financed or rec
11. ber into the ECU muanlly or enter the UID number by ArrayApp If you want to know how to enter the UID into the ECU manaully please click www APsystems com to download the ECU user manual If you want to know more about how to enteer the UID number into ECU by Array App please click www APsystems com to download the Technical training 4 Remote Monitoring by EMA After completing and starting the system users can login APsystems EMA webpage to register an account website www apsema com and Fill in the right information then you can monitor the system anytime and anywhere Please send your installation map and customer information to APsystems support mailbox to apply for a login account firstly Energy Monitoring amp Analysis EMA System APsystems ALTENERGY POWER 4 N a Go lt EUROPE lt a I NORTH AMERICA Password Atlantic Ocean n AFRICA i x Login Cancel SOUTH NEC E AMERICA A Pacific Indian Pacific Remember Password cean Ocean AUSTRALIA veh j Lost Your Password Click Here 2 As 2 Terms of Use Report map error Energy Produced Carbon Offset Installations 46 57GWh 34242 92tons 11530 lt AIA Ch ESO Copyright 2014 Altenergy Power System Inc APS All Rights Reserved Figure 41 Commercial System Design Guide with APsystems YC1000 3 24
12. d monitor your fleet of PV installations down to the individual module EMA provides detailed diagnostics so that you can determine whether a system is performing as expected 6 4 APsystems X dedo DH 4 ner LE 4 2 381150 LE NL id ep Ni 2 wy ECU 203000003973 Qrant Qr a Bum an ra i t B 158 165 157 166 17 70 159 166 158 165 E 203000003202 t ECU 203000003377 hp RE ENES 160 165 170 168 158 164 159 166 168 167 gt we ECU 20300000392 159 170 155 152 idis ARA MP 340 81 kWh 932 55 kWh 4908 68 kWh 2012 11 27 12 53 01 Figure 4 Other equipments 1 Dustribution Box Circuit breakers must be installed before the PV system connecting to the grid which will provide safe and convenient maintenance Equipments like circuit breakers meters can all be installed 1n a box which we called distribution box The fig below shows a typical distribution box including circuit and panel CIIIIII Figure 5 Commercial System Design Guide with APsystems YC1000 3 5 Introduction of Grid connected System with YC500 2 Cables AC Bus Cable The AC Bus Cable is an innovative cabling system used to connect APsystems YC1000 3 Microinverters AC BUS Cable has a connector for each YC1000 3 microinverter with connectors placed every 2 met
13. eive incentives from government organizations These projects usually require metering accuracy within 2 to meet revenue grade require ments Incentive programs also require that a Performance Data Provider provide monthly production reporting Even though the APsystems ECU rated accuracy 1 only within 5 it can be paired with 2 rated revenue grade meters to meet reporting requirements You could contact with the electrical company to apply for a Revenue Grade Meter which they admitted Commercial System Design Guide with APsystems YC1000 3 8 The Sample of 300kW Commercial System for YC1000 3 In the below chapter we will provide the detailed design steps with a 300kW commercial system by all using YC1000 3 microinverters Follow these guidelines to make your project as trouble free as possible and we also will give some suggestions to optimize the system during design and installation period to help minimize costs maximize performance and ensure robust microinverter to ECU communications Calculate the number of APsystems YC1000 3 Microinverters The desired system size for this example is 300kW STC We decide to use 60 cells PV module and the STC output power is 260W So we can calculate the Total number of PV modules required in this system 1s 300kW 260W PCS 1153 8PCS 1154PCS The required number of YC1000 3 microinverters 1154PCS 4 288 5PCS 289PCS The AC output power of this system is 288 5PCS x 900 W 259 6kW
14. ers for portrait applications or 4 meters for landscape applications The cable s size is 14AWG AC Bus Cable is available for three phase applications and must be ordered for the appropriate application AC End Cable AC End cables are used to connect the AC Bus cable to the grid Load type voltage drop power loss and temperature etc should be considered when selecting the End cable s wire size Because PV system is installed outdoors the cables should be used with good quality for example type YJV or VV are preferred and the current density is designed in the range of 2 4A mm and the power loss should not be more than 2 that of the whole system AC End Cable AC Bus Cable 2 PS AC junction box AC End Cable Eug ail AC End Cable Es at ME Distribution Box Figure 6 3 AC End Cap Each branch should install an protective end cap at the end of the AC Bus cable End Cap will prevent the water to come into the end cable a Wire stripping c Insert five wires into five cable clamps 18mm 25mm b Insert the cable end into the gasket d Rotate the nut with 2 5N m until the clamp latching mechanism meets the base Figure 7 Commercial System Design Guide with APsystems YC1000 3 6 Introduction of Grid connected System with YC500 4 connectors Cover all unused T connectors with sealing caps to protect the T connectors Figure 8 5 AC Junction Box Install an appropriate AC
15. gg HEUTE TIT Figure 13 Commercial System Design Guide with APsystems YC1000 3 10 The Sample of 300kW Commercial System for YC1000 3 Materials List The table below is the components list for this system Type Quantity Specification Function 260W PV module 1154 pcs Produce DC power APsystems YC1000 3 T Convert the DC power to AC CS microinverter Use to install circuit breakers Distribution box and meter etc pcs Receive data from YC1000 3 microinverters and upload the Zigbee communication data to EMA server with YC1000 3 pcs 2 meters between Transmit AC power to grid AC Bus Cable each connector pcs Connect the last inverter to choose proper length and cable size the junction box with end End Cable cable Where connect end cable to grid Seal the AC bus cable at the end of each branch Junction box Protective end cap E 26 breakers with 3 phase circuit Protect the photovoltaic 15Ax3 1 breaker with breaker system 4Ax3 6 breakers with 160Ax3 Surge protection mE Protection of Outdoor lighting device Use to calculate the correct Meter output power Commercial System Design Guide with APsystems YC1000 3 11 The Sample of 300kW Commercial System for YC1000 3 Record the UID and Complete the installation Map Each APsystems Microinverter has a removable serial number UID label located Peel the label off and affix it to the respective location on
16. gnal for the communication with ECU and YC1000 3s And put the antenna out of the distribution box and keep the ECU s antenna parallel with the YC1000 3s antenna this also will bulid good communcation between ECU and inverters 2 Provide an outbound port and an Ethernet connection for each ECU Install an always on connection to the Internet When the Internet connection is not on the ECU stores data Then when the internet connection returns the ECU sends stored data while simultaneously collecting and processing large amounts of live data This delays data collection and transmission and impedes the display of the most recent data in EMA EMA registration tips 1 Dont forget peel the serial number labels from the YC1000 3 microinverters and placing the labels on the installation map You then use this map to build a virtual array in EMA 2 Last all YC1000 3 microinverter serial numbers and their correct placement within the array List the tilt and azimuth of the array relative to the placement of the serial number labels Voltage Rise on Wires Voltage rise must be considered when designing a photovoltaic system Over voltage rise will consume more power but also may trig protection function because of misjudging the grid voltage so we advise that the total voltage rise should not be more than 2 on a single branch The table below gives the calculation results of the voltage rise on each microinverter of a branch with YC1000 3 ope
17. nformation entered is valid Figu re 16 Installer Portal Module Power page CUSTOMER User Account MODULE POWER Module Configuration and Power ECU ID 203000011090 v Group Schuindak v Date 2014 05 06 Query 072245 072245 073191 073191 071949 071949 071894 071984 62 52 072203 071925 072229 071938 073240 073240 072203 071925 072229 071938 071892 071892 View Data Record ff Time 2014 05 06 12 42 22 Figure 17 Commercial System Design Guide with APsystems YC1000 3 13 The Sample of 300kW Commercial System for YC1000 3 Installer Portal DC Performace Graph page CUSTOMER User Account PERFORMANCE GRAPH ECU ID 213000016946 Inverter No 501000000548 v 1501000000548 DC AC Input 1 v Select 2014 12 16 Query DC Power DC Voltage DC Current DC Power Generated on December 16 2014 150 125 DC Power W on 07 00 08 00 09 00 10 00 11 00 12 00 13 00 14 00 15 00 501000000548 1 Figure 18 Installer Portal AC Performace Graph page User Account PERFORMANCE GRAPH ECU ID 213000016946 Inverter No 501000000548 DC AC Output 1 Select 2014 12 14 Query AC Voltage AC Frequency Inverter Temp AC Voltage Generated on December 14 2014 250 200 5 lt 150 a 5 gt 100 z 50 0 _ _ 07 00 08 00 09 00 10 00 11 00 12 00 13 00 14 00 15 00 16 00 501000000548 1 Figure 19 Commercial System Design
18. r installation tips Install the APS YC1000 3 Microinverter under the module out of rain and sun Do not mount the microinverter in a position that allows long term exposure to direct sunlight or in a vertical orientation that allows water to collect in the DC connector recess 2 Ensure that all AC and DC wiring is correct Ensure that none of the AC and DC wires are pinched or damaged Ensure that all AC isolators are properly closed You will hear click which means the AC cable connection is ok Figure 37 3 Choose proper cable size when connecting the inverter to the grid with end cable if the PV system is far connecting point of grid The power loss should not be more than 2 that of the whole system Please see refer to the detailed introduction below 4 2 Voltage Rise on wires 4 Allow a minimum of 10 centimeters cm between the top of the roof and the bottom of the microinverter 5 Make sure the inverter s antenna point to the ground vertically which will strengthen the Zibee communication between ECU and YC1000 3s Especially for the situation that the panel is very close to the roof Figure 38 Commercial System Design Guide with APsystems YC1000 3 21 Design Optimization 6 Cover all unused T connectors with sealing caps to protect the T connectors Figure 39 ECU installation tips 1 Put the ECU into the distribution box or somewhere close to the PV system in order to bulid strong zigbee si
19. rating at full load If you want to know more the how to calculate the rise on wires for YC1000 3 microinverters please click www APsystems com Commercial System Design Guide with APsystems YC1000 3 22 Design Optimization AC End Cable AC Bus Cable 2 AC junction box ai JE Bad al peas al sers po E 1 ome Em z Distribution Figure 40 YC1000 3 Vrise for 480V 60Hz 5 wire 2m Portrait Bus 14 AWG cable YC1000 3 Quantity VRise V 0 1104 0 1325 0 1546 0 1767 0 1988 0 2209 0 027 0 033 0 038 0 044 0 049 0 055 YC1000 3 Vrise for 480V 60Hz 5wire Maximum end cable length for 12AWG amp 14AWG AWG 6 7 8 9 10 11 123m 105m 153m 131m 115m 103m Monitor Optimization 1 Data Polling Interval One ECU can pick up 200 YC1000 3 Micro inverters at most More inverters monitored by one ECU longer time needs for a data polling interval Usually single inverter s polling interval is about 5 seconds which means for a system with 50 inverters the interval will become 4 5 minutes ECU can adjust the polling interval by a step size of 5 minutes automatically and that will make the data provided seem regularly for example a system with less than 50 microinverters the whole polling interval is 5 minutes when there are more inverters or the communication signal is weak ECU will adjust the interval time to
20. tems YC1000 3 AC bus connection 2x2 PV Module Ki YC1000 3 Microinverter Junction Box Figure 30 Diagram of portrait PV array with distance between panels with APsystems YC1000 3 2x2 YC1000 3 Microinverter DC extension wire 1m b Figure 31 Commercial System Design Guide with APsystems YC1000 3 19 The Sample of 300kW Commercial System for YC1000 3 Diagram of landscape PV array with distance between panels with APsystems YC1000 3 2x2 YC1000 3 Microinverter Figure 32 2 YC1000 microinverters operate with 96cell PV modules Diagram of portrait PV array with APsystems YC1000 3 1 3 m RER EARME EEEH _ Lt FEE PV FEE E Module E BEE E HH C7 HH HE HEEL E YC1000 3 Microinverter Figure 33 Diagram of landscape PV array with APsystems YC1000 3 1x3 PV Module Ree Lee e eee ieee CREER zl a F C HHHH HHH YC1000 3 Microinverter th DC extension wire 1m Note Use 2 Meter AC Bus Cable for 6 Meter application making sure to cap unutilized T connectors Figure 34 Diagram of portrait PV array with APsystems YC1000 3 ARR LN TEE CTI LE LITELTL TET AD Re LLL TAT HH ERR Ree Ebi A EE HO 0 I EEE PV LEE CCE LEE
21. ten ren nen TE Junction Bor T SE fedi T Had TT fidi MTITI Figure 11 Commercial System Design Guide with APsystems YC1000 3 9 The Sample of 300kW Commercial System for YC1000 3 Calculate the number of branches and subsystems The Zigbee ECU could pick up about 100 YC1000 3 microinverters So we split 289 YC1000 3 microinverters into 3 subsystems with 99 99 91 YC1000 3 microinverters The diagram of Subsystem 1 with 99 YC1000 3 microinverters pem ee TN 25 E a 25 S ea Hd LIL un PPP EL REN in Tana A ee KERERE AEH RERE den the i TTT rrr ly DM DD DD DT DM kh ba ld di al EREPELELER 3LLLLLLLELLLT 999909 a Re Sel E uH T ad i TGA ath ash ae GG RET ET PES EST TE 5 i Figure 12 T B a U BAS HA Ea EF did TITI ar ELLELELLLELELLELLALTAEILE TA CEIT ht SRS E S E E ee ES ETET ET ET ET oo ET ET Eg ELE E NEN Fere DCE EE CRE RCE RE EE n EE D TARE Led TL Je 8 i i Um nj T i 1 gi pel _ 2 H LUTTE e me Ec dep gg ub ogg x
22. the APsystems installation map so this map will show the physical location of each Microinverter in the system It will simplify the maintenance for the system in future If you use the ArrayApp to register this sytem It is still best to create the installation maps and then scan the microinverter serial numbers from the installation map When placing the stickers onto the map it is best to place them with about an inch between each sticker to prevent the scanner tool from erroneously scanning the incorrect bar codes APsystems Microinverter amp Energy Communication Unit Warranty Card The APsystems Installation Map is a diagram of the physical location of each microinverter in your PV installation Each APsystems microinverter has a removable serial number label located on the mounting plate Peel the label and affix it to the respective location on the APsystems installation map Installation Map Template Figure 14 Quick EMA Account Registration and EMA Login After you complete the installation map please send the map to the mailbox support altenergy power com or you could register this system by your installer account If you use the ArrayApp to resister the system You just submit the info on your phone with internet connection After you complete the registration you could login in your system with entering your username and password by click www APsystems com to login in your system EMA Login Page Insataller Account Energ
23. with APsystems YC1000 3 15 The Sample of 300kW Commercial System for YC1000 3 End User Portal Module Performance Page NOTE The system status on the top right coner will display if this system 1 running well The sin 9 means the system is running well The sign means the system is not running well Please contact APsystems technical support e Module Performance User Account Power Settings Sign out APsystems ENERGY MONITORING gt 5 ALTENERGY POWER amp ANALYSIS DASHBOARD MODULE FAQ PERFORMANCE System Status 213000016946 2014 12 16 000707 000707 000707 000707 000679 000679 000679 000679 pee 000645 000645 000645 000645 000548 000548 000548 000548 View Data Record M O T ex Time 2014 12 16 09 53 35 Figure 22 End User Portal Report Page NOTE Customer could download the Yearly Monthly Weekly Daily history energy data by Excel or PDF from this page X 2 Settings Sign out APsystems ENERGY MONITORING ALTENERGY POWER amp ANALYSIS DASHBOARD MODULE FAQ PERFORMANCE System Status Module Performance User Account Report 213000016946 Monthly Energy Report 014 12 17 Query ECU ID Date Energy Produced kth 213000016946 2014 12 01 0 00 213000016946 2014 12 02 0 00 213000016946 2014 12 03 0 00 213000016946 2014 12 04 16 98 213000016946 2014 12 05 17 08 213000016946 2014 12 06 16 10 213000016946 2014 12 07
24. y Monitoring amp Analysis EMA System 4 APsystems ah ALTENERGY POWER 8 m Gara p Username dangjihu AMERICA i Password LAS EN Aer bs Logn Cancel 5 p el gus ll Remember Proever Lost Your Password Click Here er Terms of Use Report a map error Energy Produced Carbon Offset Installations 32 05GWh 23565 72tons paos Y Asa Ss ESE Copyright 2014 Altenergy Power System Inc APS All Rights Reserved Fj gu re 1 5 Commercial System Design Guide with APsystems YC1000 3 12 The Sample of 300kW Commercial System for YC1000 3 Installer Portal Customer List Page ewe Settings Sign out P4 APsystems INSTALLER PORTAL amp ALTENERGY POWER ENERGY MONITORING amp ANALYSIS CUSTOMER REGISTRATION FAQ INSTALLER 1 __ 0 from __ Les Customer List mms 1 123456 201000002121 gegegegege Sweden hiowhqw sadasdasdas 2014 02 27 123456789012 Sarah China Shanghai Shanghai 2014 02 27 Florence7229 123456789012 Florence Zhu Netherlands 1234 2014 02 27 404005670221 miZ China AE 2014 02 27 1 123456789022 Top yang Netherlands Beijing 2014 02 27 Robin 204000001111 Chao Tian China Zhejiang Jiaxing 2014 02 26 APSGen2test 100000000002 APSGen test Zhejiang Jiaxiang 2 2014 01 10 4 8 results found displaying 1 to 8 First Prev 1 Next Last DISCLAIMER Please ensure that the i
25. ystem with YC500 Equipments Introduction The three key elements of an APsystems Microinverter YC1000 3 System include the 1 APsystems Microinverter YC1000 3 APsystems YC1000 3 Microinverter is the first three Phase Microinverter in the world The YC1000 3 Microinverter is 95 efficient and works with 60 amp 72 amp 96 cells modules up to 400W It convert the DC power from PV modules to AC power and feed the AC power into the grid One YC1000 3 can connect 4 modules and its maximum output power is 900W and output balanced three phase voltage YC1000 3 use zigbee communication with ECU It avoid interfernce of the noise in the power line comparing with PLC communication Figure 2 2 APsystems Energy Communication Unit ECU The Energy Communication Unit ECU is a system monitoring device The ECU uses the Zigbee signal to communicate with each YC1000 3 microinverter The ECU connects to the Internet through a broadband router and other networking components and uploads microinverter data to APsystems EMA server If you want to know more about ECU please refer to the user manual of ECU by click this address www APsystems com Figure 3 Commercial System Design Guide with APsystems YC1000 3 4 Introduction of Grid connected System with YC500 3 APsystems Energy Monitoring and Analysis EMA The Energy Monitoring and Analysis EMA is a web based tool to manage APsystems Microinverter Systems Use EMA to access an
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