Related Manuals for SolarEdge SE Series
Summary of Contents for SolarEdge SE Series
- Page 1 Installation Guide Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX For Europe and APAC Version 1.0...
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Page 2: Disclaimers
You may refer to the SolarEdge web site (www.solaredge.com) for the most updated version. All company and brand products and service names are trademarks or registered trademarks of their respective holders. -
Page 3: Emission Compliance
Emission Compliance Emission Compliance This equipment has been tested and found to comply with the limits applied by the local regulations. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. -
Page 4: Revision History
Revision History 3 Revision History Version 1.0 (Dec. 2020) Initial release Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX... -
Page 5: Table Of Contents
Disclaimers Important Notice Emission Compliance Revision History Contents HANDLING AND SAFETY INSTRUCTIONS Safety Symbols Information IMPORTANT SAFETY INSTRUCTIONS Chapter 1: Introducing the SolarEdge Power Harvesting System Power Optimizer Inverter Designer Monitoring Platform SetApp Installation Procedures Installation Equipment List Inverter Transport and Storage... - Page 6 Contents 5 Step 2: Commissioning and Configuring the Installation Step 3: Verifying Proper Activation and Commissioning Reporting and Monitoring Installation Data Chapter 6: Setting Up Communication with the Monitoring Platform Communication Options Communication Connectors Removing the Inverter Cover Removing the DC Safety Unit Cover (if applicable) Creating an Ethernet (LAN) Connection Creating an RS485 Bus Connection RS485 Bus Configuration...
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Page 7: Handling And Safety Instructions
Denotes additional information about the current subject. IMPORTANT SAFETY FEATURE Denotes information about safety issues. Disposal requirements under the Waste Electrical and Electronic Equipment (WEEE) regulations: NOTE Discard this product according to local regulations or send it back to SolarEdge. Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX... -
Page 8: Important Safety Instructions
IMPORTANT SAFETY INSTRUCTIONS IMPORTANT SAFETY INSTRUCTIONS SAVE THESE INSTRUCTIONS WARNING! The inverter cover must be opened only after switching the inverter ON/OFF/P switch located at the bottom of the inverter to OFF. This disables the DC voltage inside the inverter. Wait five minutes before opening the cover. Otherwise, there is a risk of electric shock from energy stored in the capacitors. - Page 9 NOTE A SolarEdge inverters can be installed in sites with an alternative power source such as a generator. SolarEdge requires installing a physical or electronic interlock, which will signal to the inverter when the grid has been disconnected.
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Page 10: Chapter 1: Introducing The Solaredge Power Harvesting System
Chapter 1: Introducing the SolarEdge Power Harvesting System The SolarEdge power harvesting solution maximizes the power output from any type of solar photovoltaic (PV) installation while reducing the average cost per watt. The following sections describe each of the system’s components. -
Page 11: Designer
10 The DC Safety Unit has a manually operated switch for disconnecting the DC power of a SolarEdge system. The DC Safety Unit is located below the inverter and is connected to the inverter with AC and DC wires. Designer Designer recommends inverter and power optimizer selection per site size and enables report generation. -
Page 12: Inverter Transport And Storage
Inverter Transport and Storage Non-contact voltage detector Cordless drill (with a torque clutch) or screwdriver and bits suitable for the surface on which the inverter and optimizers will be installed. Use of an impact driver is not allowed. Mounting hardware (stainless bolts, nuts, and washers) for attaching: the mounting brackets to the mounting surface the power optimizer to the racking (not required for smart modules) Tools:... -
Page 13: Chapter 2: Installing The Power Optimizers Safety
Chapter 2: Installing the Power Optimizers 12 Chapter 2: Installing the Power Optimizers Safety WARNING! When modifying an existing installation, turn OFF the inverter ON/OFF/P switch, the DC Safety Unit (if applicable) and the AC circuit breaker on the main AC distribution panel. - Page 14 IMPORTANT SAFETY FEATURE Modules with SolarEdge power optimizers are safe. They carry only a low safety voltage before the inverter is turned ON. As long as the power optimizers are not connected to the inverter or the inverter is turned OFF, each power optimizer will output a safe voltage of 1V.
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Page 15: Installation Guidelines
For the minimum and maximum number of power optimizers in a string (string length), see the power optimizer datasheets. Refer to the Designer for string length verification. The Designer is available on the SolarEdge website at: https://www.solaredge.com/products/installer-tools/designer#/. Do not use extension cables between a module and a power optimizer, between two... - Page 16 Frame-mounted power optimizers are mounted directly on the module frame, regardless of racking system (rail-less or with rails). For installation of frame-mounted power optimizers, refer to http://www.solaredge.com/sites/default/files/installing_frame_ mounted_power_optimizers.pdf. The power optimizer can be placed in any orientation. If connecting more modules than power optimizer inputs in parallel, use a branch cable.
- Page 17 Chapter 2: Installing the Power Optimizers 16 P860 and M1600 power optimizers Figure 2: Power optimizer clearance When installing PV modules in a confined space such as Building-integrated photovoltaic (BIPV) modules, ventilation measures may be required to ensure that the power optimizers are not exceeding the maximum temperatures stated in their specifications.
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Page 18: Step 1: Mounting The Power Optimizers
. It is recommended to mount the power optimizer in a location protected from direct sunlight. For frame-mounted power optimizers follow the instructions supplied with the optimizers, or refer to https://www.solaredge.com/sites/default/files/installing_frame_ mounted_power_optimizers.pdf. 2. If required, mark the mounting hole locations and drill the hole. CAUTION! Drilling vibrations may damage the power optimizer and will void the warranty. -
Page 19: Step 3: Connecting Power Optimizers In Strings
2. To minimize electromagnetic interference (EMI), make sure to minimize the distance between the positive and negative DC cables. For detailed instructions, see: https://www.solaredge.com/sites/default/files/se-emi-performanceapplication-note.pdf WARNING! In case of dual-input power optimizers, seal any unused input connectors with the supplied pair of seals. -
Page 20: Step 4: Verifying Proper Power Optimizer Connection
Make sure the PV modules are exposed to sunlight during this process. The power optimizer will only turn ON if the PV module provides at least 2W. In SolarEdge systems, due to the introduction of power optimizers between the PV modules and the inverter, the short circuit current I and the open circuit voltage V hold different meanings from those in traditional systems. -
Page 21: Step 5: Connecting The Strings To A Combiner Box
Troubleshooting on page 62. Proper power optimizer connection can also be verified in the Designer application. For more information, refer to https://www.solaredge.com/products/installer-tools/designer#/. Step 5: Connecting the Strings to a Combiner Box For connecting the strings to the DC safety Unit with glands using a single input connection use a combiner box. -
Page 22: Chapter 3: Installing The Inverter
Identifying the Inverter Refer to the sticker on the inverter that specifies its Serial Number and its Electrical Ratings. Provide the serial number when contacting SolarEdge support. The serial number is also required when opening a new site in the monitoring platform. - Page 23 Chapter 3: Installing the Inverter 22 Figure 4: Inverter with DC Safety Unit Inverter Interfaces Figure 5 shows the inverter connectors and components, located at the bottom of the inverter. Figure 5: Inverter Interfaces AC output: AC output gland, AC cable external gauge, 19-28mm diameter for connection to the grid DC input: MC4 connector, for connection of the PV installation.
- Page 24 Inverter and DC Safety Unit Interfaces P/ON/OFF switch: Figure 6: ON/OFF/P switch ON (1) - Turning this switch ON (after power optimizer pairing) starts the operation of the power optimizers, enables power production and allows the inverter to begin exporting power to the utility grid. OFF (0) - Turning this switch OFF reduces the power optimizer Voltage to a low safety Voltage and inhibits exportation of power.
- Page 25 /alternating ), different system information, such as errors or performance indications. For more information, refer to https://www.solaredge.com/leds. The main LED indications are: Blue ON - the inverter is communicating with the monitoring platform Green ON - the system is producing...
- Page 26 Inverter and DC Safety Unit Interfaces LED Color OFF/ P Indication Comment Switch Green Blue Position S_OK: ON S_OK: ON communication with Power optimizers not Blinking No S_OK: the monitoring paired platform is established. Pairing Blinking Blinking Blinking Wake-up/ Grid Blinking Blinking ON (1) Monitoring...
- Page 27 Chapter 3: Installing the Inverter 26 ON/ OFF/ P LED Color Indication Switch Comment Green Blue Position Percentage of AC Production: 0 % This indicates power Percentage of AC production as Production: 0 - 33 % ON (1) percentage of rated Percentage of AC peak AC output Production: 33 - 66 %...
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Page 28: Mounting The Inverter
For SolarEdge inverters installed at a distance of 200 m / 655 ft or closer to the shoreline, special brackets purchased separately from SolarEdge and SS304 stainless screws are required. - Page 29 Chapter 3: Installing the Inverter 28 Figure 10: Inverter fan - air flow CAUTION! Do not block the airflow from the inverter. 3. Position the mounting bracket against the wall/pole and mark the drilling hole locations (refer to Mechanical Specifications on page 66 for inverter and mounting bracket dimensions).
- Page 30 Mounting the Inverter Figure 11: Hanging the inverter on the brackets 6. Verify that the inverter is firmly attached to the mounting surface. Installing Inverter with DC Safety Unit 1. Position the mounting bracket against the wall/pole and mark the drilling hole locations (refer to Mechanical Specifications on page 66 for inverter and mounting bracket dimensions).
- Page 31 Chapter 3: Installing the Inverter 30 Figure 12: Hanging the inverter on the brackets 4. Mark the location of the drilling hole required for the screw that secures the bracket of the DC Safety Unit to the wall (See Figure 13 ) and remove the inverter from the wall. Figure 13: Securing the DC Safety Unit to the wall 5.
- Page 32 Mounting the Inverter the inverter and into the bracket. Tighten the screws with a torque of 4.0 N*m / 2.9 lb.*ft. 7. Use a screw to secure the bracket that secures DC Safety Unit to the wall. 8. Verify that the inverter is firmly attached to the mounting surface. Grounding the Inverter In some locations, local regulations requires grounding the chassis of the inverter.
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Page 33: Chapter 4: Connecting Ac And Pv Strings To The Inverter
Grids Supported by SolarEdge Inverters application note at: https://www.solaredge.com/sites/default/files/grids_supported_by_se_ inverters_europe_and_apac.pdf Countries Supported by the SolarEdge Inverters application note to confirm compatibility at: https://www.solaredge.com/sites/default/files/se_inverters_ supported_countries.pdf. Installing without confirmation may void the inverter warranty. For recommended circuit breaker size per model refer to Determining the Circuit Breaker Size application note at https://www.solaredge.com/sites/default/files/determining-the-circuit-breaker-... -
Page 34: Connecting The Ac Grid To The Inverter Or To The Dc Safety Switch
CAUTION! When removing the cover, make sure not to damage internal components. SolarEdge will not be held responsible for any components damaged as a result of incautious cover removal. 3. Expose 10 mm to 11 mm / 0.4 '' of wire insulation ( Figure 15 ). - Page 35 3. Release the four Allen screws and remove the cover of the DC Safety Unit. CAUTION! When removing the cover, make sure not to damage internal components. SolarEdge will not be held responsible for any components damaged as a result of incautious cover removal. Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
- Page 36 Connecting the AC Grid to the Inverter or to the DC Safety Switch Figure 17: AC Cable and Ground Connections to Inverter with DC Safety Unit 4. Connect the Protective Earth Wire of the AC Cable to the PE Terminal. Alternatively, route a Protective Earth Wire through the PE Gland and connect the wire to the PE Terminal.
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Page 37: Connecting The Pv Strings To The Inverter
PV array modules is acceptable. NOTE SolarEdge’s fixed input voltage architecture enables the parallel strings to be of different lengths. Therefore, they do not need to have the same number of power optimizers, as long as the length of each string is within the permitted range. - Page 38 Loosen the four Allen screws and remove the cover of the DC Safety Unit . CAUTION! When removing the cover, make sure not to damage internal components. SolarEdge will not be held responsible for any components damaged as a result of incautious cover removal. Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
- Page 39 Chapter 4: Connecting AC and PV Strings to the Inverter 38 5. Strip 17-19 mm of the DC wire insulation. 6. Insert the wires into the DC input glands of the DC Safety Unit. 7. Connect the DC wires according to the DC+ and DC- labels on the terminal blocks. Use a screwdriver blade that fits freely into the release mechanism opening on the terminal block.
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Page 40: Selecting A Residual Current Device (Rcd)
Device) to protect against possible electrocution in case of a malfunction of the PV array, cables or inverter (DC). The RCD in the SolarEdge inverter can detect leakage on the DC side. There are 2 trip thresholds for the RCD as required by the DIN VDE 0126-1-1 standard. -
Page 41: Chapter 5: Activating, Commissioning And Configuring The System
Chapter 5: Activating, Commissioning and Configuring the System 40 Chapter 5: Activating, Commissioning and Configuring the System You can connect communication options at this stage, as described in Setting Up Communication with the Monitoring Platform on page 46. After completing all connections, activate and commission the system using the inverter SetApp mobile application. -
Page 42: Step 2: Commissioning And Configuring The Installation
Step 2: Commissioning and Configuring the Installation 3. When the activation is complete, do one of the following: Select Connect to Another Device to continue activating additional inverters. Select Start Commissioning for pairing and other system configuration. Step 2: Commissioning and Configuring the Installation This section describes how to use the SetApp menus for commissioning and configuring the inverter settings. -
Page 43: Step 3: Verifying Proper Activation And Commissioning
Select Monitoring Communication to configure communication with the monitoring platform. Select Site Communication to configure communication between multiple SolarEdge devices or external non-SolarEdge devices, such as batteries or loggers. Power Control The Grid Control option may be disabled. Enabling it opens additional options in the menu. -
Page 44: Reporting And Monitoring Installation Data
Reporting and Monitoring Installation Data Monitoring the site requires connecting the inverter to the monitoring platform, using any of the wired or wireless options available from SolarEdge. Refer to Setting Up Communication with the Monitoring Platform on page 46. The Monitoring Platform... - Page 45 You can create a project in Designer and export the site design with the string layout to the monitoring platform. For more information, refer to https://www.solaredge.com/products/installer-tools/designer#/. Mapper Application Use the Mapper smart phone application to scan the power optimizer and inverter 2D bar-codes and create a virtual map of a PV site for enhanced monitoring and easier maintenance.
- Page 46 Once the form is completed, use the Mapper to scan the 2D codes and create the map in the monitoring platform. Optionally, you can send the sticker sheet to SolarEdge Support for physical layout creation. Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
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Page 47: Chapter 6: Setting Up Communication With The Monitoring Platform
Ethernet (LAN) Connection on page 50 RS485 RS485 is used for the connection of multiple SolarEdge devices on the same bus in a leader-follower configuration. RS485 can also be used as an interface to external devices, such as meters and third party data loggers. - Page 48 Wi-Fi This communication option enables using a Wi-Fi connection for connecting to the monitoring platform. It requires an external antenna, available from SolarEdge, which can be purchased separately and assembled during system installation. The Wi-Fi Antenna is provided with a user manual, which should be reviewed prior to connection.
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Page 49: Communication Connectors
Chapter 6: Setting Up Communication with the Monitoring Platform 48 Communication Connectors Two communication glands are used for connection of the various communication options. Each gland has three openings. The table below describes the functionality of each opening. Unused openings should remain sealed. Gland# Opening Functionality... -
Page 50: Removing The Inverter Cover
Figure 21: Accessing the Internal communication connectors CAUTION! When removing the inverter cover, make sure not to damage the internal components. SolarEdge will not be held responsible for any components damaged as a result of incautious cover removal. Removing the DC Safety Unit Cover (if applicable) 1. -
Page 51: Creating An Ethernet (Lan) Connection
50 CAUTION! When removing the DC Safety Unit cover, make sure not to damage the internal components. SolarEdge will not be held responsible for any components damaged as a result of incautious cover removal. Creating an Ethernet (LAN) Connection This communication option enables using an Ethernet connection to connect the inverter to the monitoring platform via LAN. - Page 52 Creating an Ethernet (LAN) Connection CAUTION! The gland includes a rubber waterproof fitting, which should be used to ensure proper sealing. 3. Remove the plastic seal from one of the large opening. 4. Remove the rubber fitting from the gland and insert the CAT6 cable through the gland and through the gland opening in the inverter.
- Page 53 Chapter 6: Setting Up Communication with the Monitoring Platform 52 6. Use a pre-crimped cable to connect via gland #1 to the RJ45 plug on the inverter's communication board or, if using a spool of cable, connect as follows: a. Insert the cable through gland #1. b.
- Page 54 If your network has a firewall, you may need to configure it to enable the connection to the following address: Destination Address: prod2.solaredge.com TCP Port: 22222, 22221, or 80 (for incoming and outgoing data) 10. Verify the connection, as described in Verifying the Connection on page 57.
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Page 55: Creating An Rs485 Bus Connection
If using a cable longer than 10 m/33 ft in areas where there is a risk of induced voltage surges by lightning, it is recommended to use surge protection devices. For details refer to: https://www.solaredge.com/sites/default/files/lightning_surge_ protection.pdf. If grounded metal conduits are used for routing the communication wires, a lightning protection device is not required. - Page 56 Creating an RS485 Bus Connection Figure 25: RS485 terminal block on the communication board 4. Loosen the screws of pins A(+), B(-), and G on the left of the RS485 terminal block (RS485-1 or RS485-2). Figure 26: RS485 terminal block 5.
- Page 57 9. Push the RS485 terminal block firmly all the way into the connector on the right side of the communication board. 10. Terminate the first and last SolarEdge device in the chain by switching a termination DIP-switch inside the inverter to ON (move the left switch up). The DIP-switch is located on the communication board and is marked SW1.
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Page 58: Rs485 Bus Configuration
5. Access SetApp, as described in Communication on page 42. 6. From the Commissioning screen, select Site Communication > RS485-1 > Protocol > SolarEdge > SolarEdge Leader. 7. Return to the RS485-1 screen and select Follower Detect. The system starts automatic detection of the follower inverters connected to the leader inverter. -
Page 59: Signaling Options
Chapter 6: Setting Up Communication with the Monitoring Platform 58 3. Scroll down to the Communication section and check that the communication options are as required. Signaling Options Alternative Power Source Energy-generation systems (such as PV inverters) connected to the grid may consist of different types of energy generating sources. - Page 60 Signaling Options Figure 30: PRI Terminal Block Location on the Communication Board of the Inverter For detailed connection and configuration of the inverter in alternative power source mode, refer to: https://www.solaredge.com/sites/default/files/se-inverter-support-of- voltage-sources.pdf Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
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Page 61: Appendix A: Errors And Troubleshooting
60 Appendix A: Errors and Troubleshooting This chapter describes general system problems, and how to troubleshoot them. For further assistance, contact SolarEdge Support. Identifying Errors Errors may be indicated in various system interfaces: On the inverter bottom panel, a red LED indicates an error. In the monitoring platform and SetApp, errors are displayed with codes. -
Page 62: Troubleshooting Communication
If after follower detection the number of followers displayed for the leader under RS485-1 > Follower Detect is lower than the actual number of followers, refer to the following application note to identify missing followers and troubleshoot connectivity problems: https://www.solaredge.com/sites/default/files/troubleshooting_undetected_RS485_ devices.pdf Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX... -
Page 63: Power Optimizer Troubleshooting
3. Check that the selected communication option is properly configured. 4. Use a method independent of the SolarEdge device to check whether the network and modem are operating properly. For example, connect a laptop to the Ethernet router and connect to the Internet. - Page 64 1V safety voltage. If a malfunctioning power optimizeris located, check its connections, polarity, module, and voltage. 3. Contact SolarEdge Support. Do not continue before finding the problem and replacing the malfunctioning power optimizer. If a malfunction cannot be bypassed or resolved, skip the malfunctioning power optimizer, thus connecting a shorter string.
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Page 65: Appendix B: Adding Optional Components
AC grid lines. The SPD limits the Voltage supplied to the inverter by either blocking or shorting to ground Voltages above a safe threshold. The SPD is installed inside the inverter and communicates with the SolarEdge Monitoring platform for reporting surge protection events and faults. -
Page 66: Appendix C: Safedc
Appendix C: SafeDC™ Appendix C: SafeDC™ The SolarEdge inverters are certified for compliance with the following standards as disconnection devices for PV generators, meaning that they can replace a DC disconnect: IEC 60947-3:1999 + Corrigendum: 1999 + A1:2001 + Corrigendum 1:2001 + A2:2005;... -
Page 67: Appendix D: Mechanical Specifications
Appendix D: Mechanical Specifications 66 Appendix D: Mechanical Specifications Dimensions of Three Phase Inverter Figure 31: Dimensions of Three Phase Inverter Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX... -
Page 68: Dimensions Of Three Phase Inverter With Dc Safety Unit
Dimensions of Three Phase Inverter with DC Safety Unit Dimensions of Three Phase Inverter with DC Safety Unit Figure 32: Dimensions of Three Phase Inverter with DC Safety Unit Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX... -
Page 69: Dimensions Of Inverter Mounting Bracket
Appendix D: Mechanical Specifications 68 Dimensions of Inverter Mounting Bracket Figure 33: Dimensions of Inverter mounting bracket Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX... -
Page 70: Technical Specifications - Three Phase Inverters For Europe & Apac For 220/380V, And 230/400V Grids
Technical Specifications - Three Phase Inverters for Europe & APAC for 220/380V, and 230/400V Grids Technical Specifications - Three Phase Inverters for Europe & APAC for 220/380V, and 230/400V Grids SE25K, SE27.6K, SE30K, SE33.3K SE25K SE27.6K SE30K SE33.3K Unit Applicable to inverters with part SEXXK-XXX0IXXXX ... - Page 71 Technical Specifications - Three Phase Inverters for Europe & APAC for 220/380V, and 230/400V Grids 72 SE25K SE27.6K SE30K SE33.3K Unit Applicable to inverters with part SEXXK-XXX0IXXXX numbers Overvoltage category Input Maximum DC Power (Module STC) 37500 41400 45000 50000 Transformer-less...
- Page 72 Erzeuger Typ A,G99, G99(NI),VFR 2019 IEC61000-6-2, IEC61000-6-3 Class A, Emissions IEC61000-3-11, IEC61000-3-12 WEEE,RoHS Installation Specifications (1) Inverter with rapid shutdown part number: SExxK-xxRxxxxxx (2) For all standards refer to the certifications category in http://www.solaredge.com/groups/support/downloads. Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
- Page 73 (1) Only MC4 connectors manufactured by Stäubli are approved for use (2) Only MC4 connectors manufactured by Stäubli are approved for use (3) See Temperature de-rating - Technical Note at: https://www.solaredge.com/sites/default/files/se-temperature-derating-note.pdf Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
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Page 74: Three Phase Inverter For The 277/480V Grid - Se33.3K, Se40K
Three Phase Inverter for the 277/480V Grid - SE33.3K, SE40K Three Phase Inverter for the 277/480V Grid - SE33.3K, SE40K SE33.3K SE40K Unit Applicable to inverters with SEXXK-XXX8IXXXX part numbers Output Rated AC Active Output Power 33300 40000 Maximum Apparent AC Power 33300 40000... - Page 75 Technical Specifications - Three Phase Inverters for Europe & APAC for 220/380V, and 230/400V Grids 76 SE33.3K SE40K Unit Applicable to inverters with SEXXK-XXX8IXXXX part numbers Input Maximum DC Power (Module 50000 60000 STC) Transformer-less Maximum Input Voltage DC+ 1000 to DC- Nominal Input Voltage DC+ to...
- Page 76 Wire cross section 2.5 - 16mm Dimensions (HxWxD) 558 x 328 x 273 (1) For all standards refer to Certifications category in Downloads page : http://www.solaredge.com/groups/support/downloads (2) Only MC4 connectors manufactured by Stäubli are approved for use Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
- Page 77 (1) See Temperature de-rating - Technical Note at: https://www.solaredge.com/sites/default/files/se-temperature-derating-note.pdf (2) Ip: Short-circuit peak current, in amplitude Ik'': Initial symmetrical short-circuit current , in RMS Ik: Short-circuit steady state current, in RMS Three Phase Inverter with SetApp Configuration PN: SEXXK-XXXXIXXXX...
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Page 78: Support Contact Information
System configuration information, including the type and number of modules connected and the number and length of strings. The communication method to the SolarEdge server, if the site is connected. The product's software version as it appears in the status screen. - Page 79 ...