- Frankensolar
Transcription
- Frankensolar
SolarEdge Distributed Solar Power Harvesting Systems Installation of the SolarEdge System 2013 ©2013 SolarEdge SolarEdge System Overview Module level optimization Fixed voltage – flexible design Power Optimizer Module level monitoring Enhanced safety solution Inverter Module add‐on Monitoring Portal Monitoring Server ©2013 SolarEdge | 2 Fixed String Voltage String voltage is always fixed, regardless of temperature and of string length Constraint free design Longer strings: reduces wiring & BoS components Flexible design for maximum roof utilization: ̶ Parallel strings of unequal lengths ̶ Modules on multiple roof facets ̶ Modules with different power ratings String voltage is always optimal for DC/AC conversion ©2013 SolarEdge | 3 Installation Workflow Mount & connect the Optimizers Record the Serial Numbers Mount & connect the Inverter Activate the Installation Connect to the SolarEdge Server Commission and Configure the Inverter ©2013 SolarEdge | 4 Mount and Connect the Optimizers Mount & connect the Optimizers ©2013 SolarEdge | 5 SolarEdge Power Optimizers Per‐module Maximum Power Point Tracking (MPPT) 99.5% maximum efficiency Automatic module shutdown for installer /firefighter safety Connected by installers to c‐Si and thin‐film modules No Equipment Grounding Conductor required Zep Compatible™ version available MC4, Amphenol, Tyco, Radox input connectors 300, 350, 400, 600W Module add‐on ©2013 SolarEdge | 6 SolarEdge OP Series Optimizers P300 P350 P400 P600 Input Power 300 W 350 W 400 W 600 W Voltage Range 8 – 48 Vdc 8 – 60 Vdc 8 – 80 Vdc 12.5 – 96 Vdc Cell Count 60 60, 72 72, 96 2x 60 PV Module Isc 10 Adc 10 Adc 10 Adc 10 Adc ©2013 SolarEdge | 7 Mounting the Power Optimizers Determine the mounting location of each power optimizer Attach the Optimizer to the racking in close proximity to the PV Module location The Power Optimizer can be installed in any orientation At least 1” between the and roof, optimizer and PV Module Do not leave unmated Optimizer connectors exposed to the elements. The Power Optimizer is waterproof when the input and output cable connectors are mated. ©2013 SolarEdge | 8 Mounting the Power Optimizers Use 1/4” or 5/16” mounting hardware, appropriate for the racking rail, verify secure attachment. Use both mounting holes to attach each power optimizer to the racking Install the 5/16” stainless steel star washer included with the optimizer behind the flat mounting tab surface Mounting Hole Star Washer ©2013 SolarEdge | 9 Grounding the Power Optimizers SolarEdge Power Optimizers only require equipment grounding Equipment grounding of the power optimizers can be accomplished using one of two methods as outlined in the SolarEdge installation manual. 1. Mounting to grounded racking where the star washer contacts the rail Use the 5/16'' stainless steel grounding star washer (provided with the power optimizer) between the rail and the flat side of the mounting bracket Unirac Solarmount IronRidge XRL, XRS More examples in the Grounding SolarEdge Optimizers app note http://www.solaredge.us/groups/support/downloads Star Washer ©2013 SolarEdge | 10 Grounding the Power Optimizers 2. Mounting on rails with sliding nut fasteners or non‐metallic structures A separate Equipment Grounding Conductor is required for power optimizers mounted on non‐metallic structures and structures utilizing sliding nut fasteners (ground lugs may be purchased in bulk from SolarEdge, part number SE‐GNDLUG‐100) ProSolar SnapNrack More examples in the Grounding SolarEdge Optimizers app note http://www.solaredge.us/groups/support/downloads Attachment of the grounding lug ©2013 SolarEdge | 11 Connecting Optimizers in Strings Connect the Plus (+) connector of the output wire of the first power optimizer in the string to the Minus (‐) connector of the second power optimizer in the string. Repeat for each power optimizer in the string. Verify Plus (+) and Minus (‐) connector cables are firmly inserted. Cutting the power optimizer’s input or output cable connectors is prohibited, and will void its warranty. Fasten any excess wire to the racking with tie‐wraps or cable clips ©2013 SolarEdge | 12 Array Home Runs Combining Strings at the array ̶ No fusing required if 2 strings or less ̶ Running individual strings to the inverter allows for troubleshooting at ground level Conduits ̶ Metal conduit required whenever DC wiring enters a building ̶ Flexible metal conduit or liquidtight conduit allowed Wire Types ̶ All exposed PV wire must be double insulated PV wire ̶ Installers typically transition from PV wire to building wire (THWN‐2 or similar) and conduit for the run from the roof to the inverter ©2013 SolarEdge | 13 System Labeling Maximum Voc Typically 420 Vdc, Inverter Max voltage rating = 500 Vdc Operating Voltage Approx. 350 Vdc for 240 Vac grid connection, 325 Vdc for 208 Vac, 400 Vdc for 277 Vac, 850 for 480 Vac Maximum Isc 15 amps per string, max input rating of the inverter Operating Current Total STC power rating / DC operating voltage ©2013 SolarEdge | 14 Record the Serial Numbers Record the Serial Numbers ©2013 SolarEdge | 15 Recording Installation Layout – Labels Option 1 Peel off and place the power optimizers’ detachable 2D barcode labels on this physical mapping template form or use your own design Scan the complete form and send it to SolarEdge via web /email Site registration link: http://monitoring.solaredge.com/solaredge‐web/p/login E‐mail: US/Canada: [email protected] ©2013 SolarEdge | 16 Recording Installation Layout – iPhone App Option 2 Use the iPhone Site Mapper app to create a site physical mapping The app is available on the App Store for free Manual and video demonstration available at: http://www.solaredge.com/groups/support/downloads ©2013 SolarEdge | 17 Define Site Dimensions Choose number of module groups and layout Review and rearrange layout Scan the barcodes using the iPhone’s camera. Email to SolarEdge when done ©2013 SolarEdge | 18 Connecting the PV Modules Connect each PV Module to power optimizer inputs As long as the optimizers are not connected to the inverter or the inverter is OFF, the optimizers will output a 1 Vdc safe voltage. Note: The power optimizer has reverse polarity protection. Even so, verify the correct polarity by checking the PV module’s polarity with a voltmeter. ©2013 SolarEdge | 19 Safe Voltage ‐ Verification Connect a voltmeter with at least 0.1V measurement accuracy to the string outputs and verify: The voltage equals the number of power optimizers in the string Verify each string individually before proceeding ̶ SafeDC Voltage ̶ Correct polarity Note: modules should be exposed to sunlight during verification ©2013 SolarEdge | 20 Mount & Connect the Inverter Mount & connect the Inverter ©2013 SolarEdge | 21 SolarEdge Single Phase Inverters CEC efficiency – 97% @208 Vac, 97.5% @ 240 Vac Operating temperature range ‐20⁰ C to +60⁰ C Canadian Version ‐40⁰ C to +60⁰ C Built‐in communication hardware Wireless inverter connectivity (optional) Integral AC/DC Safety Switch 3.0 kW, 208, 240 Vac 3.8 kW, 208, 240 Vac 5.0 kW, 208, 240, Vac 6.0 kW, 240, Vac 7.6 kW, 10.0 kW, 11.4 kW, ©2013 SolarEdge | 22 SolarEdge Commercial Inverters Fixed voltage inverters specifically designed for installations with power optimizers CEC efficiency: 97.% @ 208 Vac, 98% @ 480 Vac Small, lightweight, less than 80 lbs Built‐in communication hardware Wireless Inverter Connectivity (optional) Integral AC/DC Safety Switch 20kW, 10kW @480 Vac 3‐phase 9kW @208 Vac 3‐phase ©2013 SolarEdge | 23 Unified Inverters ‐ Packaging Cut around the bottom of the box – near the tape Lift the box – inverter remains vertical on the base Remove the mounting bracket and top and side Styrofoam Mount the bracket Lift the inverter from the base onto the bracket ©2013 SolarEdge | 24 Inverter Overview ON/OFF Switch: Turning this switch ON starts the operation of the power optimizers, enables power production and allows the inverter to begin exporting power to the utility grid. Inverter DC and AC inputs: will be connected to the DCD LCD Button: Pressing this button lights up the LCD for 30 seconds. ̶ In addition, press this button to access configuration menu options Communication Glands: Ethernet (LAN), RS485, ZigBee . ̶ Used to connect the inverter to the SolarEdge Monitoring Portal. ̶ Accepts different diameter communications cable and zigbee antenna. DC Input ON/OFF Switch LCD Button Sealed Gland (reserved) AC Output Communication Glands ©2013 SolarEdge | 25 Mounting the Inverter The inverter’s mounting bracket can be attached to a wall or a pole Clearance area is needed for heat dissipation: 8” to the top and bottom 4” to the right and left The U‐shaped groove of the bracket should be positioned on the top ©2013 SolarEdge | 26 Mounting the Inverter Hang the Inverter on the Bracket ̶ Hang the inverter on the top 2 screws ̶ Lay the inverter on it’s back and sides only ©2013 SolarEdge | 27 Mounting the Inverter Insert screws into the bottom heat sink fins ̶ Allow chassis to lie flat ̶ Insert screws into the right and left sides of the lower heat sink ©2013 SolarEdge | 28 The AC/DC Safety Switch Manually operated switch that opens the AC and DC circuits Attaches to the bottom of the inverter Opens all ungrounded conductors in compliance with the National Electric Code and specifically NEC article 690.35 Cover Screws Cover Screws ©2013 SolarEdge | 29 Installing the AC/DC Safety Switch Make sure the switch is in the OFF position, and remove the switch cover ̶ Use a 5mm Allen screwdriver to open the 4 screws on the front of the cover Open the AC and DC conduit knockouts ̶ The switch has knockouts at the bottom, back and sides, each with two sizes: ¾'' and 1''. ̶ Open the necessary pair. A Unibit drill may be used. Use the supplied mounting template to mark the drilling positions Drill the holes and screw the bracket to the wall or pole ©2013 SolarEdge | 30 Connecting the DC&AC to the Switch DC + DC ‐ Equipment grounding terminal Wiring legend Neutral, Ground, L1, L2 ©2013 SolarEdge | 31 Installing the DCD Safety Switch ©2013 SolarEdge | 32 Three Phase DCD Connections AC/DC Safety Switch for Three Phase Inverters ©2013 SolarEdge | 33 Three Phase DCD Connections AC/DC Safety Switch for Three Phase Inverters ©2013 SolarEdge | 34 Using the Spring‐clamp Terminals Use a standard straight‐bladed screwdriver to connect the wires to the spring‐clamp terminals: ̶ The screwdriver blade should fit freely in the terminal opening. Too large a blade can crack the plastic housing ̶ Insert the screwdriver and tilt it to press the release mechanism and open the clamp ̶ Insert the wire 15mm / 0.6" deep into the side opening ̶ Remove the screwdriver – the wire is automatically clamped ©2013 SolarEdge | 35 Grounding Inverter is non‐isolated or transformer‐less DC inputs are ungrounded Only need to satisfy equipment grounding per NEC article 690.43 Optimizers should be grounded as described in previous slides Inverter equipment grounding conductor sized per NEC article 250.122 Conductor should be connected to the equipment grounding terminal located in the AC/DC Safety Switch No continuous DC Grounding Electrode Conductor required by NEC article 250.166 ©2013 SolarEdge | 36 Activate the Installation Activate the Installation ©2013 SolarEdge | 37 Inverter Activation Activation process is done to configure specific country settings as grid thresholds, language, etc. according to the inverter installation destination. Before turning on the inverter it needs to be activated Activation ensures correct firmware and country setting based on the part number. Remove the SD card from the box in which it is supplied ©2013 SolarEdge | 38 Inverter Activation Verify that the serial number on the card matches the inverter serial number Insert the SD card into the designated slot located on the back of the inverter communication board The slot is indicated by a label: ` Turn on the AC at the site ©2013 SolarEdge | 39 Inverter Activation The LCD will indicate when activation is taking place and when it is completed Do not press the inverter buttons during activation The SD card may be left in the inverter after activation You can also activate the inverter using an activation code provided by our support team – 877‐360‐5292 ©2013 SolarEdge | 40 Commission & Configure the Inverter Commission and Configure the Inverter ©2013 SolarEdge | 41 Commissioning the Installation Close the inverter cover Tighten the 6 Allen screws in the recommended order #3 #1 Final commissioning steps: Pairing Power Optimizers to the Inverter Verifying Proper Operation Reporting and Monitoring Installation Data CAUTION: After pairing, the inverter will discontinue SafeDC and will ramp to fixed voltage. It will also begin producing AC power – all covers should be installed prior to pairing. #6 #5 #4 #2 ©2013 SolarEdge | 42 Pairing Process This process “pairs” the power optimizers to the inverter Follow this process during the initial install, and if string configuration changes or power optimizers are added, removed or replaced Turn the AC/DC safety switch to the on position Press and hold the inverter LCD Light button for about 10 sec. K F T R e o o e e p h o l d i n g b r p a i r i n g , r e e n t e r m e n u m a i n i n g : u t t o n l e a s e . . . 3 s e c ©2013 SolarEdge | 43 Pairing Process (2) Continue to hold for 5 more seconds to enter the pairing mode Turn the inverter ON/OFF switch to ON within 5 seconds. After turning the switch to ON the pairing process will start Pairing T u r n S w i t c h To O n Pairing Remaining [Sec]: 104 Pairing Pairing Completed ©2013 SolarEdge | 44 Power Production Verification Verify proper production: Vac [v] indicates the measured grid AC voltage Vdc [v] indicates the DC input voltage: ̶ Should be between 300 V and 400 V for 240 Vac grid connection Pac [w] on the LCD Panel specifies the current AC output power produced P_OK indicates optimizers that have sent telemetries S_OK appears, if the inverter is connected to the SolarEdge Monitoring Server ON/OFF indicates the position of the ON/OFF switch Va c [ v ] Vd c [ v ] Pa c [ w ] 240.7 351.2 3159.3 P _ OK: 022/022 < S _ OK > ON ©2013 SolarEdge | 45 Connect to the SolarEdge Server Connect to the SolarEdge Server ©2013 SolarEdge | 46 Communication options Accessory *Ethernet *RS485 ZigBee Comm. between inverter and monitoring server + ‐ + Comm. between multiple inverters ‐ + + Outdoor Outdoor Outdoor 300 ft 3200 ft 150 ft Included Included ZigBee gateway, available from SolarEdge Protection Distance to receiver Additional requirements * Default Option ©2013 SolarEdge | 47 Ethernet Connection – Multiple Inverters Ethernet cables are used to connect inverters to the SolarEdge Monitoring Portal through an Ethernet router. CAT5 or CAT6 Ethernet cable up to 300 ft. per inverter LAN preconfigured by default Ethernet cable (CAT 5/6) ©2013 SolarEdge | 48 RS485 Bus Communication Multiple inverters through the same RS485 bus in a master/slave configuration. Only the master is physically connected to the internet through the Ethernet port. Four conductor twisted pair cable: up to 3200 ft. Slaves are preconfigured by default Terminated Terminated Terminated ©2013 SolarEdge | 49 ZigBee Communication – Single Inverter Wireless solution for residential houses with internet Single wireless inverter 800 ft line of sight / 150 ft typical residential Kit includes ̶ Gateway with Ethernet cable ̶ ZB Slave ̶ Power supply Up to 32 inverters can be connected to a single ZigBee bus. ©2013 SolarEdge | 50 Communication – Cable Connectivity Insert Ethernet, RS232 or RS485 through the cable glands Crimp connectors or connect to terminal blocks (see next slides) New Communication Board (terminal blocks) Ethernet (8) Ethernet RS232 RS485 RS485‐1 (B, A G from left to right) RS485‐2 (Not Used) RS232 / Phase Balancer (RX, TX, G from left to right) ©2013 SolarEdge | 51 Cable Wiring – Ethernet Use Ethernet cable, CAT 5/6 twisted pair Connect the terminal wires according to the numbers signing Router side: Connect all wires according to standard Use one of the large openings in gland 1 (bottom right image) For communication boards with RJ45 connector (Type 1), use RJ45 plug. ©2013 SolarEdge | 52 Communication Status Screen Use the status bits to identify your point of failure ̶ Go to the Communication Status screen with 7 short presses of the LCD button (from the main screen ) ̶ Look at the 8 bits from left to right, 1 is ok and 0 is fault 1st The Ethernet cable is not connected properly ‐ Check the cable pin‐out assignment and cable connection 2nd The DHCP IP is not configured properly ‐ Check the router and inverter configuration (your network might be using static IP ). 3rd Ping to the first hop switch/router failed ‐ LAN error 4th Ping to google.com failed ‐ the internet connection is not operating 5th Ping to SolarEdge server #1 6th Ping to SolarEdge server #2 7th Ping to SolarEdge server #3 8th Communication with the SolarEdge server ©2013 SolarEdge | 53 Cable Wiring – RS485 Use a four‐wire twisted‐pair cable Use one of the openings in gland 2 DIP Switch for termination DIP Switch Use RS485‐1 port only for connecting BOTH inverters Terminated Type 2 Communication Board Terminated RS485‐1 RS485‐2 (B, A G from (Not Used) left to right) ©2013 SolarEdge | 54 RS485 Bus Communication‐settings ̶ Enter the Communication Menu ̶ Set Server to the relevant communication option (LAN , Zigbee , GSM) ̶ Select RS485 Conf ̶ Set protocol to RS485 Master ̶ Choose Slave Detect ̶ ̶ Using the up and down arrows choose YES and press Enter Wait while the Master inverter detects the Slave inverters ©2013 SolarEdge | 55 ZigBee installation ConnectPort X2 Kit with Antenna, Power Supply and Ethernet Cable Connect the RF cable to the ZigBee card Connect the antenna to the other end of the cable ©2013 SolarEdge | 56 ZigBee installation Insert the ZigBee card in its place on the communication board Open the gland at the bottom of the Inverter and slide the antenna from the inside through the opened gland Seal the gland. Screw the gland nut back on around the antenna. Turn the SolarEdge inverter AC power to ON. ©2013 SolarEdge | 57 ZigBee Settings Enter Communication Menu Select Server Set server to Zigbee Enter the communication Menu Select Zigbee Conf > Set Protocol to P2P Slave Exit setup by pressing ESC button ©2013 SolarEdge | 58 ZigBee link Verification Go to the Communication Status screen with 7 short presses of the LCD button. Status < OK > will indicate connection with the X2 Gateway < S_OK > will indicate connection with SolarEdge server ©2013 SolarEdge | 59 Control and Communication Gateway Analog inputs accommodate a variety of environmental sensors including temperature, irradiance and wind Extends the distance of wired connections Wireless Connectivity ‐ ZigBee wireless connection option Interfaces to non‐SolarEdge monitoring loggers Revenue‐meter connection – Enables performance‐based incentive program eligibility ©2013 SolarEdge | 60 Firefighter Gateway Manual & automatic system DC shutdown Real‐time indication of system DC voltage for safety assurance Emergency stop button for the entire PV system System shutdown notification to the SolarEdge Monitoring Portal Easy installation ‐ DIN rail mount ©2013 SolarEdge | 61 Communication Scenarios ©2013 SolarEdge | 62 Installation Workflow Mount & connect the Optimizers Record the Serial Numbers Mount & connect the Inverter Activate the Installation Connect to the SolarEdge Server Commission and Configure the Inverter ©2013 SolarEdge | 63 Thank you Email Twitter Blog [email protected] www.twitter.com/SolarEdgePV www.solaredge.com/blog Websites www.solaredge.com www.solaredge.us www.solaredge.de www.solaredge.jp www.solaredge.fr www.solaredge.it ©2013 SolarEdge | 64