Page 1 Residential Smart Inverter Solutions ES 3.0-6.0kW G2 LX A5.0-10 LX A5.0-30 LX U5.4-L LX U5.4-20 LX U5.0-30 User Manual...
Page 2 Trademarks and other GoodWe trademarks are trademarks of GoodWe Company. All other trademarks or registered trademarks mentioned in this manual are owned by GoodWe Company. NOTICE The information in this user manual is subject to change due to product updates or other reasons.
Page 3: Table Of Contents
CONTENT About This Manual ..............................8 1.1 Overview ................................8 1.2 Applicable Model ............................. 8 1.3 Symbol Definition ............................9 Safety Precaution............................... 9 2.1 General Safety ..............................9 2.2 Personnel Requirements ........................... 10 2.3 System Safety ..............................10 2.3. 1 PV String Safety ..........................12 2.3.2 Inverter Safety ............................
Page 4 3.4 System Working Mode ..........................26 Check and Storage ..............................32 4.1 Check before Acceptance ......................... 32 4.2 Deliverables ..............................33 4.2.1 Inverter Deliverables (ES G2) ....................... 33 4.2.2 Battery Deliverables (LX A5.0-10) ..................... 34 4.2.3 Battery Deliverables (LX A5.0-30) ..................... 35 4.2.5 Battery Deliverables (LX U5.0-30) .....................
Page 5 6.2.1 Detailed System Wiring Diagram for Single Inverter System ........58 6.2.2 Detailed System Wiring Diagram for Parallel System........... 60 6.3 Preparing Materials ............................61 6.3.1 Preparing Breakers ..........................62 6.3.2 Preparing Cables ..........................63 6.4 Connecting the PE cable ........................... 65 6.5 Connecting the PV Cable ...........................
Page 6 8.5 Creating Power Plants..........................115 9 System Commissioning ............................117 9.1 SolarGo Overview ............................117 9.1.1 Menu Structure of the App ......................117 9.1.2 Login Page of SolarGo App ......................118 9.1.3 Home Page of SolarGo App ......................119 9.2 Connecting Inverter via SolarGo ......................120 9.3 Quick Settings ..............................
Page 7 11 Maintenance ................................149 11.1 Power OFF the System ........................... 149 11.2 Removing the Equipment ........................150 11.3 Disposing of the Equipment ....................... 151 11.4 Routine Maintenance ..........................151 11.5 Troubleshooting ............................152 11.5.1 System Troubleshooting ......................153 11.5.2 Inverter Troubleshooting ......................154 11.5.3 Battery Fault (LX A5.0-30, LX U5.0-30) ................
Page 8: About This Manual
All the installers and users have to be familiar with the product features, functions, and safety precautions. This manual is subject to update without notice. For more product details and latest documents, visit https://en.goodwe.com/. 1.2 Applicable Model...
Page 9: Symbol Definition
In the single inverter scenario, system operation Wi-Fi Kit information can be uploaded to a monitoring platform WiFi/LAN Kit-20 through WiFi or LAN signals. In parallel system with multi inverters, it is installed on the master inverter to upload the system running Ezlink3000 information to monitoring platform through WiFi or LAN signals.
Page 10: Personnel Requirements
 Strictly follow the installation, operation, and configuration instructions in this manual. The manufacturer shall not be liable for equipment damage or personal injury if you do not follow the instructions. For more warranty details, please visit: https://en.goodwe.com/warranty 2.2 Personnel Requirements Notice Personnel who install or maintain the equipment must be strictly trained, learn about ...
Page 11 be liable for equipment damage if other connectors are used. Ensure all cables are connected tightly, securely, and correctly. Inappropriate wiring may  cause poor contacts or high impedances, and damage the inverter. The PE cables must be connected and secured properly. ...
Page 12: Pv String Safety
2.3.1 PV String Safety WARNING  Ensure the PV module frames and the bracket system are securely grounded.  Ensure the DC cables are connected tightly, securely, and correctly. Inappropriate wiring may cause poor contacts or high impedances, and damage the inverter. ...
Page 13  Keep Power Off before any operations to avoid danger. Strictly follow all safety precautions outlined in this manual and safety labels on the equipment during the operation.  Do not disassemble, modify, or replace any part of the battery or the power control unit without official authorization from the manufacturer.
Page 14: Smart Meter Safety
 Fire  The battery may explode when the ambient temperature exceeds 150℃. Poisonous and hazardous gas may be released if the battery is on fire.  In the event of a fire, please make sure that the carbon dioxide extinguisher or Novec1230 or FM-200 is nearby.
Page 15 Potential risks exist. Wear proper PPE before any operations. High Voltage Hazard. Disconnect all incoming power and turn off the product before working on it. High-temperature hazard. Do not touch the product under operation to avoid being burnt. Operate the equipment properly to avoid explosion. Batteries contain flammable materials, beware of fire.
Page 16: Eu Declaration Of Conformity
2.5 EU Declaration of Conformity 2.5.1 Equipment with Wireless Communication Modules GoodWe Technologies Co., Ltd. hereby declares that the equipment with wireless communication modules sold in the European market meets the requirements of the following directives: Radio Equipment Directive 2014/53/EU (RED) ...
Page 17: Battery
 Registration, Evaluation, Authorization and Restriction of Chemicals (EC) No 1907/2006 (REACH) 2.5.3 Battery GoodWe Technologies Co., Ltd. hereby declares that batteries sold in the European market meets the requirements of the following directives:  Electromagnetic compatibility Directive 2014/30/EU (EMC) ...
Page 18: System Introduction
Battery Compatibility Overview: https://en.goodwe.com/Ftp/EN/Downloads/User%20Manual/GW_Battery%20Compatibility%20 Overview-EN.pdf  Due to product upgrades or other reasons, the document content may be updated irregularly. For the matching relationship between inverters and IoT products, refer to:...
Page 19 GoodWe-inverters-and-IoT-products-EN.pdf  In the parallel system, it is not supported to connect third-party EMS monitoring devices.  When the number of inverters in parallel in the system is ≤ 3, UPS function is supported; When the number of inverters in parallel in the system exceeds 3, UPS function is not supported.
Page 20 BCB-33-WW-0 Cable. (Purchase from  When multiple inverters are used in the system, a GoodWe) busbar needs to be connected. If using batteries from other brands, please consult the corresponding manufacturer for the method of connecting the battery to the busbar.
Page 21 When the charging and discharging current between  battery and inverter is ≥120A, a busbar or busbar box must be used to connect the inverter. (Current ≥ M x rated. (M: the quantity of batteries connected in parallel in the system, I rated: the rated current of the battery).
Page 22 04 or later. (Purchase from  Only one Ezlink3000 and one smart meter need to be GoodWe) installed in the same system. The inverter connected with the Ezlink module and the meter defaults to be the master inverter, while the other inverters are the slave inverters.
Page 23: Product Overview
3.2 Product Overview 3.2.1 Inverter Inverters control and optimize the power in PV systems through an integrated energy management system. The power generated in the PV system can be used, stored in the battery, and output to the Utility Grid, and etc. Nominal output Model Nominal output voltage...
Page 24: Battery
GW6000-SBP-20 220/230/240V *1: 4600 for VDE-AR-N4105 & NRS 097-2-1. 3.2.2 Battery The battery system can store and discharge electricity according to the requirements of the PV energy storage system, and the input and output ports of the energy storage system are both high- voltage direct current.
Page 25: Smart Meter
3.2.3 Smart Meter The smart meter can measure and monitor the data in the photovoltaic energy storage system, such as voltage, current, frequency, power factor, and power. Model Applicable scenarios It is not supported to change the CT to other type, CT ratio: 120A/40mA.
Page 26: Supported Grid Types
end equipment commissioning. Model Signal Applicable scenarios LS4G Kit-CN 4G Kit-CN Single inverter scenario WiFi Wi-Fi Kit WiFi/LAN Kit-20 Bluetooth, WiFi, LAN Ezlink3000 Bluetooth, WiFi, LAN Master inverter of a parallel system 3.3 Supported Grid Types 3.4 System Working Mode Self-Use Mode...
Page 27  Self-use mode is the basic working mode of the system.  The power generated by the PV system supplies the loads in priority, and the excess power will charge the batteries, then the remaining power will be sold to the utility grid. When the power generated in the PV system is insufficient, the battery will supply the loads in priority.
Page 28 TOU Mode...
Page 29 Set different time periods for buying and selling electricity based on the difference in peak and valley electricity prices of the grid under the premise of complying with local laws and regulations. For example, set the battery to the charge mode during Valley period, and set the battery to discharge mode during Peak period to power the load with the battery.
Page 30 Smart Charging Mode  In some countries/regions, the PV power fed into the utility grid is limited.  Set peak limit power, charge the battery using the surplus power when the PV power exceeds the peak limit power, or set charging time during which the PV power can be used to charge the battery.
Page 31 Peakshaving Mode...
Page 32: Check And Storage
 Peakshaving mode is mainly applicable to industrial and commercial scenarios.  When the total power consumption of the loads exceeds the peak shaving limit in short time, the battery discharges to reduce the power consumption exceeding the peak shaving limit. ...
Page 33: Deliverables
equipment damage. Do not unpack the package and contact the supplier as soon as possible if any damage is found. 2. Check the inverter model. If the inverter model is not what you requested, do not unpack the product and contact the supplier. 4.2 Deliverables WARNING Check the deliverables for correct model, complete contents, and intact appearance.
Page 34: Battery Deliverables (Lx A5.0-10)
Smart Meter x 1 Smart Meter x 1 Documents x 1 Lead-acid battery temperature sensor cable Slotted screwdriver x The inverter that supports connection to lead-acid battery will be provided with the cable. 4.2.2 Battery Deliverables (LX A5.0-10) Parts Description Parts Description (25-8) OT terminal...
Page 35: Battery Deliverables (Lx A5.0-30)
4.2.3 Battery Deliverables (LX A5.0-30) Parts Description Parts Description Terminal resistor x 1 When connecting to a third-party busbar, the Battery module x 1 battery needs to be equipped with this terminal resistor  M5 OT terminal x 2: Recommended for connecting 10mm cable ...
Page 36: Battery Deliverables (Lx U5.0-30)
4.2.5 Battery Deliverables (LX U5.0-30) Parts Description Parts Description Battery x 1 Cover x 1 Mounting plate x 1 Expansion bolt x 2  (35-8) OT terminal x 4: Recommended for connecting 25mm or 35mm cable  (50-8) OT terminal x Locking bracket x 2: Recommended for connecting 50mm...
Page 37: Battery Deliverables (Lx U5.4-L, Lx U5.4-20)
Terminal resistor x 4.2.4 Battery Deliverables (LX U5.4-L, LX U5.4-20) Parts Description Parts Description Battery x 1 Cover x 1 Mounting plate x Expansion bolt x Locking bracket x Power connector Grounding M5 Screw x 8 terminal x 4 M10 Expansion Cable harness bolt x 6 fixing plate x 2...
Page 38: Smart Meter Deliverables
(25-8) OT terminal (70-10) OT terminal BCB-22-WW-0 Parts Description Parts Description M6 Expansion bolt x Busbar box x 1 (25-8) OT terminal (70-10) OT terminal BCB-32-WW-0 BCB-33-WW-0 Parts Description Parts Description Busbar box x 1 M6 Expansion bolt x 4 (50-8) OT terminal (70-10) OT terminal 4.2.6 Smart Meter Deliverables...
Page 39 Smart Meter x 1 RS485 GMK110: CT x 1 Communication terminal x 1 GMK110D: CT x 2 Voltage input side PIN terminal x 4 terminal x 1 Screwdriver x1 Documents x 1 GM1000，GM1000D，GM3000 Parts Description Parts Description Smart Meter x 1 GM1000: CT x 1 Screwdriver x1 GM1000D: CT x 2...
Page 40: Smart Dongle
2PIN terminal and RJ45 terminal Documents x 1 adapter cable 4.2.7 Smart Dongle WiFi/LAN Kit-20 Parts Description Parts Description Smart dongle x 1 Documents x 1 Wi-Fi Kit Parts Quantity Parts Quantity Communication Documents x 1 module *1 Unlock tool x 1 Some smart dongle needs to be disassembled with the help of tools.
Page 41: Storage
Unlock tool x 1 Some smart dongle needs to be disassembled with the help of tools. If the Documents x 1 tool is not provided, remove the module by pressing the unlock button on the module. 4.3 Storage  If the equipment is not to be installed or used immediately, please ensure that the storage environment meets the following requirements: ...
Page 42: Installation
Stacking requirements: 1. The height and direction of the stacking inverters should follow the instructions on the packing box. 2. The inverters must be stacked with caution to prevent them from falling. Battery Dis-/Charge Requirements: Storage SOC: 25%-50% SOC. Circle the charge-discharge every 6 months. 5 Installation DANGER Install and connect the equipment using the deliverables included in the package.
Page 43: Installation Requirements
5.2 Installation Requirements 5.2.1 Installation Environment Requirements 1. Do not install the equipment in a place near flammable, explosive, or corrosive materials. 2. The temperature and humidity at the installation site should be within the appropriate range. 3. Do not install the equipment in a place that is easy to touch, especially within children’s reach. 4.
Page 44: Installation Space Requirements
5.2.2 Installation Space Requirements Reserve enough space for operations and heat dissipation when installing the system. When using CAT7 communication cables among inverters, the maximum distance can...
Page 45: Tool Requirements
reach 10 meters. While using CAT5 communication cables, the maximum distance can reach 5 meters. 5.2.3 Tool Requirements Notice The following tools are recommended when installing the equipment. Use other auxiliary tools on site if necessary. Installation Tools Tool Description Tool Description...
Page 46 Diagonal pliers RJ45 crimping tool Wire stripper YQK-70 hydraulic pliers PV connector tool Adjustable wrench PV-CZM-61100 Impact drill (drill bits Torque wrench Φ8mm, 10mm) M4、M5、M6、M8、M10 Rubber hammer Socket wrench set Multimeter Marker Range≤600V Heat shrink tube Heat gun Cable tie Vacuum cleaner Level Personal Protective Equipment...
Page 47: Equipment Handling
Insulation gloves and Dust mask safety gloves Goggles Safety shoes 5.3 Equipment Handling CAUTION Operations such as transportation, turnover, installing and so on must meet the requirements  of the laws and regulations of the country or region where it is located. Move the inverter to the site before installation.
Page 48: Installing The Battery System
5.5 Installing the Battery System WARNING  Ensure that the battery system is installed vertically and securely. When using the locking bracket, the bracket should be vertically attached to the wall and the surface of the battery system.  Cover the equipment with a cardboard to prevent foreign matters when drilling holes. Otherwise, the system may be damaged.
Page 49 LX A5.0-30：Cabinet Installation Notice  It is recommended to install it in a 19-inch standard rack with a length*width of 600*800mm and above, and the height should be determined based on the thickness of the battery (133mm) and above.  For rack-mounted installation, electrical labels and warning labels need to be attached to any position of the front panel of the battery (these labels are shipped as additional accessories).
Page 50 LX A5.0-30：Wall-mounted Installation Step 1: Determine the drilling position with installation positioning cardboard and marker pen. Step 2: Drill holes with hammer drill. Step 3: Install the battery brackets. Step 4: Install the battery on the brackets and use screws to secure the battery. LX A5.0-10：Stacking Installation Notice...
Page 51 Up to 6 batteries can be stacked. LX A5.0-10：Cabinet Installation Notice  It is recommended to use a 19-inch standard rack with physical length and width of 600*800mm and above. The height can be chosen according to the number of batteries in parallel.
Page 52 LX U5.4-L, LX U5.4-20：Floor-mounted Installation Notice If parallel use is required, check and select batteries with similar production dates and numbers to use together. Step 1: Secure the locking bracket to the battery. Step 2: Keep the battery parallel to the wall and ensure that the locking bracket is tightly attached to the wall.
Page 53 LX U5.4-L, LX U5.4-20: Wall-mounted Installation Notice Wall-mounted installation need two people to work together. LX U5.0-30: Floor-mounted Installation...
Page 54: Installing The Smart Meter
LX U5.0-30: Wall-mounted Installation 5.6 Installing the Smart Meter WARNING In areas at risk of lightning, if the meter cable exceeds 10m and the cables are not wired with grounded metal conduits, you are recommended to use an external lightning protection device. GMK110，GMK110D...
Page 55 GM1000，GM1000D，GM3000...
Page 56: System Wirings
6 System Wirings DANGER  All operations, cables and parts specification during the electrical connection shall be in compliance with local laws and regulations.  Disconnect the DC switch and the AC output switch of the inverter to power off the inverter before any electrical connections.
Page 57: System Wiring Diagram
6.1 System Wiring Diagram Notice  N and PE wiring ON-GRID and BACK-UP of the inverter are different based on the regulation requirements of different regions. Refer to the specific requirements of local regulations.  There are built-in relays inside of the inverter’s ON-GRID and BACK-UP AC ports. When the inverter is in the off-grid mode, the built-in ON-GRID relay is open;...
Page 58: Detailed System Wiring Diagram
Notice  Ensure that the grounding of BACK-UP is correctly and tightened. Otherwise, the BACK- UP function may be abnormal in case of grid failure. Other areas except Australia, New Zealand are applicable to the following wirings:  6.2 Detailed System Wiring Diagram 6.2.1 Detailed System Wiring Diagram for Single Inverter System GM330 and other meters that meet the requirements can also be used in single inverter scenarios.
Page 59 With GM1000/GM3000 smart meter...
Page 60: Detailed System Wiring Diagram For Parallel System
6.2.2 Detailed System Wiring Diagram for Parallel System  In parallel scenarios, the inverter connected to Ezlink and smart meter is considered as the master inverter, while all the others are slave inverters. Do not connect any smart dongle to the slave inverters. ...
Page 61: Preparing Materials
6.3 Preparing Materials WARNING Do not connect loads between the inverter and the AC switch directly connected to the  inverter. Install one AC output circuit breaker for each inverter. Multiple inverters cannot share  one AC circuit breaker. An AC circuit breaker shall be installed on the AC side to make sure that the inverter can ...
Page 62: Preparing Breakers
 The power cable between battery and busbar 6.3.1 Preparing Breakers Circuit Recommended specifications Comment Breaker The breaker specifications for the BACK-UP and ON-GRID for one inverter model shall be the same. Specification requirement:  For GW3600M-ES-20: the nominal current is ≥20A and the nominal voltage is ≥230V.
Page 63: Preparing Cables
 LX A5.0-10, LX U5.4-L, LX U5.4-20: Battery PE cable U5.0-30: Supports 4mm²-6mm² purchase from  LX A5.0-30, LX U5.0-30: 10mm² GoodWe  Commonly used outdoor photovoltaic cable Prepared by  Cross-sectional area: 4mm²-6mm² PV DC cable customers  Outer diameter: 5.9mm-8.8mm ...
Page 64  Smart meter RS485 communication cable cable: Supports  Communication cable for inverters purchase from connected in parallel.  EMS communication cable GoodWe Communication cable Copper core twisted pair cable, cross-sectional area: 0.2mm²-0.3mm² Suitable for the following cables: Prepared by ...
Page 65: Connecting The Pe Cable
2.5mm² GW3600-SBP-20 6mm² 3mm² GW5000-SBP-20 10mm² 5mm² GW6000-SBP-20 10mm² 2.5mm² GW3500L-ES-BR20 6mm² 5mm² GW3600-ES-BR20 10mm² 5mm² GW6000-ES-BR20 10mm² 6.4 Connecting the PE cable WARNING  The PE cable connected to the enclosure of the inverter cannot replace the PE cable connected to the AC output port.
Page 66: Connecting The Pv Cable
6.5 Connecting the PV Cable DANGER Do not connect one PV string to more than one inverter at the same time. Otherwise, it may  cause damage to the inverter. Confirm the following information before connecting the PV string to the inverter. Otherwise, ...
Page 67: Connecting The Battery Cable
 Ensure the DC cables are connected tightly, securely, and correctly.  Measure the DC cables with a multimeter to avoid reverse polarity connection. Also, the voltage should be under the permissible range. Notice The two input strings per MPPT should be of the same type, the same number of modules, the same tilt and angle to maximize efficiency.
Page 69 LXA5.0-30: Hand-to-hand connection  The battery system supports a maximum working current of 160A, working power of 8kW, and can be connected to a maximum of 1 inverter and 30 batteries. LXA5.0-30: Connecting method with the busbar BCB-22-WW-0  The battery system supports a maximum working current of 720A, working power of 36kW, and can be connected to a maximum of 6 inverter and 6 batteries.
Page 70 LXA5.0-30: Connecting method with the busbar BCB-32-WW-0  The battery system supports a maximum working current of 720A, working power of 36kW, and can be connected to a maximum of 6 inverter and 15 batteries.
Page 71 LXA5.0-30: Connecting method with the third-party busbar  The complexity of the parallel system increases with the number of parallel inverters. When the number of parallel inverters in the system is ≥ 6, please contact the after-sales service center to confirm the installation and application environment of the inverters to ensure stable operation of the system.
Page 72 LX A5.0-10: Hand-to-hand connection  The nominal charging and discharging current of a single battery is 60A.  The battery system supports a maximum working current of 120A, working power of 6kW, and can be connected to a maximum of 1 inverter and 2 batteries.
Page 73 LX A5.0-10: Connecting method with the busbar BCB-11-WW-0  The nominal charging and discharging current of a single battery is 60A.  The battery system supports a maximum working current of 360A, working power of 18kW, and can be connected to a maximum of 3 inverter and 6 batteries.
Page 74 LX A5.0-10: Connecting method with the busbar BCB-22-WW-0  The nominal charging and discharging current of a single battery is 60A. The battery system supports a maximum working current of 720A, working power of 36kW, and  can be connected to a maximum of 6 inverter and 12 batteries.
Page 75 LX A5.0-10: Connecting method with the third-party busbar  The nominal charging and discharging current of a single battery is 60A.  The complexity of the parallel system increases with the number of parallel inverters. When the number of parallel inverters in the system is ≥ 6, please contact the after-sales service center to confirm the installation and application environment of the inverters to ensure stable operation of the system.
Page 76 LX U5.4-L, LX U5.4-20：  The nominal charging and discharging current of a single battery is 50A.  The battery system supports a maximum working current of 100A, working power of 5kW, and can be connected to a maximum of 1 inverter and 6 batteries. ...
Page 77 LX U5.0-30: Hand-to-hand connection The nominal charging current of a single battery is 60A, and the nominal discharging current is  100A; the maximum charging current is 90A; the maximum discharging current is 100A. A maximum of 30 batteries can be connected in parallel in one system. ...
Page 78 LX U5.0-30: Connecting method with the busbar BCB-33-WW-0  The battery system supports a maximum working current of 720A, working power of 36kW, and can be connected to a maximum of 6 inverter and 15 batteries. When the number of batteries exceeds 8, two 600A fuses need to be connected in parallel.
Page 79 LX U5.0-30: Connecting method with the third-party busbar  When the battery quantity ≤ 8, the batteries can be directly connected to the busbar.
Page 80  When 8<battery quantity ≤ 30, a fuse needs to be connected between the busbar and the inverter. Recommended specifications: nominal voltage>80V, nominal current ≥ 1.6 times the system rated current, and Icu/Ics ≥ 50kA.
Page 81 LX A5.0-30 Communication Port Definition COM1 COM2 Description Reserved Parallel OUT+ Parallel OUT+ Parallel communication port CAN_H CAN_H Connect the inverter communication port or battery parallel communication port CAN_L CAN_L Parallel OUT2+ Parallel OUT2+ Parallel interlock communication port Reserved Parallel OUT- Parallel OUT- Parallel communication port LX A5.0-10 Communication Port Definition...
Page 82: Connecting The Power Cable Between The Inverter And Battery
Reserved CAN_H CAN_H Connect the inverter communication port or battery parallel communication port CAN_L CAN_L Reserved Reserved Reserved LX U5.0-30 Communication Port Definition COM1 COM2 Description RS485_A1 RS485_A1 RS485 Communication RS485_B1 RS485_B1 Parallel OUT+ Parallel OUT+ Parallel communication port CAN_H CAN_H Connect the inverter communication port or battery parallel communication port...
Page 83 it may cause damage to the inverter. Overview of inverter and battery power cable Make the Inverter Power Cable Make the Battery Power Cable (LX A5.0-10 and LX A5.0-30)
Page 84 Make the Battery Power Cable (LX U5.4-L and LX U5.4-20) Make the Battery Power Cable (LX U5.0-30)
Page 85: Connecting The Power Cable Between The Inverter And Battery
6.6.2 Connecting the Communication Cable between an Inverter and Battery Instructions for BMS communication connection between an inverter and battery Connected to the Port Inverter port Description battery port Definition  The inverter communicates with the battery through CAN. If the communication cable ...
Page 86 Notice  When connecting the lead-acid battery temperature sensor cable, it is recommended to connect the temperature sensor cable at a location with poor heat dissipation. For example, when lead-acid batteries are placed side by side, the sensor should be fixed on the lead-acid battery located in the middle. In order to better protect the battery cells, a temperature sampling cable must be ...
Page 87: Connecting The Ac Cable
6.7 Connecting the AC Cable WARNING The residual current monitoring unit (RCMU) is integrated into the inverter to avoid the  residual current exceeds the limit. The inverter will disconnect the utility grid quickly once it found the residual current exceeds the limit. Connect the AC cables to the corresponding terminals such as “BACK- UP”, “ON-GRID”, ...
Page 88: Connecting The Meter Cable
to L1. Ensure that wiring sequences are the same.  Do not connect L and N cables reversely on the Ensure all L and N cables are parallelized ON-GRID port and on the BACK-UP port as well. respectively on the BACK-UP port. For one parallel system, ensure the conductor’s materials, cross-sectional areas and lengths ...
Page 89 device. Wiring of GMK110 Notice  Outer diameter of the AC cable should be smaller than the holes diameter of the CT, so that the AC cable can be routed through the CT.  To ensure accurate current detection, the CT cable is recommended to be shorter than 30m. Do not use network cable as the CT cable, otherwise the smart meter may be damaged due ...
Page 90 Connection steps GM1000 GM1000D...
Page 91 GM3000 Connection steps Installing the CT (Type I) Installing the CT (Type II)
Page 92: Connecting The Inverter Communication Cable
6.9 Connecting the Inverter Communication Cable Notice  The communication functions are optional. Connect the cables based on actual needs.  If you need to use the remote shutdown function, please turn it on in the SolarGo App after wiring is completed. ...
Page 93 Port Function Description  Support connecting dry contact signals to achieve load control and other functions. DO contact capacity is 12V DC@1A, NO/COM normally open contact Load Control  Support SG Ready heat pump connection, to control the heat pump through dry contact signal ...
Page 94 which the heat pump operates in energy-saving mode  Working mode 3 (signal: 0:1): It is recommended to activate. In this mode, the heat pump increases the hot water reserve to store heat while maintaining its current operation Provide signal control ports to remotely shut down the equipment or implement NS protection functions.
Page 95: Connect The Smart Dongle
communication cable is used to connect lead-acid temperature sensors.  When connecting lithium-ion batteries, it is used to connect the BMS communication cable of the battery system and supports CAN signal communication. Meter Support the use of RS485 communication to connect external METER communication smart meters.
Page 96: System Power On
 When 4G communication is selected to upload the operation information of the energy storage system to the monitoring platform, LS4G Kit-CN, 4G Kit-CN, or 4G Kit-CN-G20 can be used. When using LS4G Kit-CN or 4G Kit-CN, you need to use the smart dongle delivered with the inverter to configure the parameters of the energy storage system.
Page 97: Power On
The PE, DC input, AC output, and communication cables are connected correctly and securely. Cable ties are intact, routed properly and evenly. Unused wire holes and ports should be sealed up. The electrical conduit holes are sealed. The voltage and frequency at the connection point meet the inverter grid connection requirements.
Page 98: Indicators
Power On: →❷ →❸ →❹ →❺ ❶ : Install or not based on local laws and regulations. ❸ 7.3 Indicators 7.3.1 Inverter Indicators Indicator Status Description...
Page 99 The inverter is powered on and in the standby mode. The inverter is starting up and in the self-check mode. The inverter is in normal operation under grid-tied or off- grid mode. BACK-UP output overload. A fault has occurred. The inverter is powered off. The grid is abnormal, and the power supply to the BACK- UP port of the inverter is normal.
Page 100: Battery Indicators
0%＜SOC≤25% No battery connected. Indicator light flashes during battery discharging: for example, when the battery SOC is between 25% and 50%, the light at the 50% position flashes. 7.3.2 Battery Indicators LX A5.0-30 Indicator System Status No SOC indicator shows SOC=0% green The first SOC indicator...
Page 101 Check the SOC indicator status to identify the fault type and handle the Red light steady on problem as recommended in the ALM Light Troubleshooting section. LX A5.0-10 Normal status SOC indicator RUN light Battery system status The SOC indicator represents the battery Green flashes 1 The battery system is in system's usable energy.
Page 102 system self-check is complete, the battery system enters an operation or fault mode. Check the SOC indicator status to identify The battery system the fault type and handle the problem as Red light is on has malfunctioned. recommended in the Troubleshooting section.
Page 103 flashes Abnormal Status Button Indicator Battery system Description state Check the SOC indicator status to identify Green light Battery system the fault type and handle the problem as alarm occurs recommended in the Troubleshooting flashes for 3s section. Check the SOC indicator status to identify Red light Battery system the fault type and handle the problem as...
Page 104 rest steady on discharging state. When 5%≤SOC<25%,  SOC 1 flashes When 25% ≤ SOC < 50%,  SOC2 flashes When 50% ≤ SOC < 75%,  SOC3 flashes When 75% ≤ SOC < 95%,  SOC4 flashes.  When 95% ≤ SOC ≤ 100%, SOC5 flashes Abnormal Status Button Indicator...
Page 105: Smart Meter Indicator
The first three SOC 50%＜SOC≤75% indicators are green The four SOC indicators are 75%＜SOC≤100% green The battery system is working Green light is on properly. The battery system is in standby Green flashes 1 time/s mode. Green light flashes 3 time/s The PCS communication is lost RUN light The battery system gives an alarm,...
Page 106: Smart Dongle Indicator
GM330 Type Status Description Power on, no RS485 communication. Power indicator light Power on, RS485 communication works Blinks properly. The smart meter has been powered off. Communication Reserved indicator Press the Reset button for more than 5 Blinks seconds, power light, buying or selling electricity indicator light flash: reset the meter.
Page 107 On: Communication in WiFi mode or LAN mode is normal. Blinks 1 time: The smart dongle Bluetooth has been turned on, and is waiting for connection to the SolarGo App. Blinks 2 times: The smart dongle is not Communication connected to the router. indicator Blinks 4 times: The smart dongle is communicating normally with the router, but...
Page 108 Press and hold for 0.5 to 3 seconds to reset the smart dongle. Press and hold for 6 to 20 seconds to restore the smart dongle to Reload factory settings. Quick double click to turn on the Bluetooth signal (only lasts 5 minutes) Wi-Fi Kit Indicator...
Page 109: Quick System Commissioning
 Long press for 3-10s to restore factory settings. 8 Quick System Commissioning 8.1 Downloading the App Make sure that the mobile phone meets the following requirements:  Mobile phone operating system: Android 4.3 or later, iOS 9.0 or later. ...
Page 110 an upgrade. When using a parallel system, select the Ezlink signal to set the parameters of the main  inverter, and the relevant parameters will be automatically synchronized to the slave inverter. If the parameters of the inverter cannot be kept consistent, please connect the single inverter signal and set the parameters of the single inverter.
Page 111: Communication Settings
8.3 Communication Settings NOTICE The communication configuration interface varies depending on the communication method. Step 1: Tap Home > Settings > Communication Settings > WLAN/LAN, to set the parameters. Step 2: Set the WLAN or LAN parameters based on actual situation. Name/Icon Description Applicable to WLAN.
Page 112 P(U) curve, FP curve, HVRT, LVRT, etc.  The power generation efficiency is different in different working modes. Set the working mode according to the local requirements and situation. Parameters Description Safety Code Select safety country accordingly. In parallel scenarios, set the number of inverters in the parallel system based on Quantity Settings actual situation.
Page 113 Set the working mode based on actual needs. Supports: Peakshaving mode and Working Mode Self-use mode. The app interface is as following when Self-use mode is selected. Enter Advanced Settings to set the detailed working mode and related parameters. Parameters Description Self-use mode: based on the self-use mode, Back-up mode, TOU mode, and Smart charging can be enabled at the same time, and the inverter will automatically select the working mode.
Page 114 Smart Charging Month Set the smart charging months. More than one month can be set. Set the Peak Limiting Power in compliance with local laws and regulations. Peak Limiting Power The Peak Limiting Power shall be lower than the output power limit specified by local requirements.
Page 115: Creating Power Plants
8.5 Creating Power Plants NOTICE Login to the SEMS Portal app using the account and password before creating power plants. If you have any questions, refer to the Plant Monitoring section. Step 1 Enter the Create Plant page. Step 2 Read the instructions and fill in the requested plant information based on actual situation. (* refers to the mandatory items) Step 3 Follow the prompts to add devices and create the plant.
Page 117: System Commissioning
9 System Commissioning 9.1 SolarGo Overview SolarGo App is a mobile application that communicates with the inverter through bluetooth or WiFi modules. Commonly used functions are as follows: Check the operating data, software version, alarms, etc. Set grid parameters, communication parameters, safety countries, power limitation, etc. Equipment maintenance.
Page 118: Login Page Of Solargo App
9.1.2 Login Page of SolarGo App Name/Icon Description Tap the icon to open the page downloading the SEMS Portal app. Tap to read the connection guide. Not found  Check information such as app version, local contacts, etc.  Other settings, such as update date, switch language, set temperature unit, etc.
Page 119: Home Page Of Solargo App
Device 9.1.3 Home Page of SolarGo App Single Inverter Multiple Inverters Name/Icon Description Serial number of the connected inverter or serial number of the master Serial Number inverter in the parallel system. Device Status Indicates the status of the inverter, such as Working, Fault, etc. Energy Flow Chart Indicates the energy flow chart of the PV system.
Page 120: Connecting Inverter Via Solargo
9.2 Connecting Inverter via SolarGo Notice The device name varies depending on the inverter model or smart dongle type:   Wi-Fi Kit: Solar-WiFi***  Bluetooth module: Solar-BLE***  WiFi/LAN Kit-20: WLA-***  Ezlink3000: CCM-BLE***; CCM-*** When using a parallel system, please first connect the single inverter signal and confirm ...
Page 121 Connecting the inverter via WiFi...
Page 122: Quick Settings
9.3 Quick Settings NOTICE  The parameters will be configured automatically after selecting the safety country/region, including overvoltage protection, undervoltage protection, overfrequency protection, underfrequency protection, voltage/frequency connection protection, cosφ curve, Q(U) curve, P(U) curve, FP curve, HVRT, LVRT, etc.  The power generation efficiency is different in different working modes. Set the working mode according to the local requirements and situation.
Page 123 In parallel scenarios, set the number of inverters in the parallel system based on Quantity Settings actual situation. Select the actual mode in which the battery is connected to the inverter. No need BAT Connect Mode to set the battery model and working mode if there is no battery is connected. The system will work in self-use mode by default.
Page 124 The percentage of the charging/discharging power to the rated power of the Rated Power inverter. The battery stop charging/discharging once the battery SOC reaches Charge Charge Cut-off SOC Cut-off SOC. Smart charging Smart Charging Month Set the smart charging months. More than one month can be set. Set the Peak Limiting Power in compliance with local laws and regulations.
Page 125: Communication Settings
9.4 Communication Settings NOTICE The communication configuration page varies depending on the communication method. Step 1: Enter the setting page through "Home" > "Settings" > "Communication Configuration" > "Network Settings". Step 2: Configure the WLAN or LAN network based on the actual situation. Number Name/Icon Description...
Page 126: Setting The Basic Information
 When DHCP is turned off, please configure this parameter Gateway address according to the information of the router or switch. DNS Server 9.5 Setting the Basic Information 9.5.1 Setting Shadow Scan and SPD Step 1 Tap Home > Settings > Basic Settings, to set the parameters. Step 2 Set the functions based on actual needs.
Page 127: Setting Advanced Parameters
9.5.2 Setting Advanced Parameters Step 1: Tap Home > Settings > Advanced Settings to set the parameters. Step 2: Set the parameters based on actual needs. Tap‘√’or Save to save the settings. The parameters are set successfully. Parameters Description AFCI Test Enable or disable AFCI accordingly.
Page 128: Setting The Battery Parameters
Set the value based on the actual maximum power fed into the Export Power (W) utility grid. Set the ratio of the primary current to the secondary current of External CT Ratio the external CT. 9.5.4 Setting the Battery Parameters Lithium battery Step 1 Tap Home >...
Page 129 10kW inverter to 60 means the charging power of the inverter is 10kW*60%=6kW. Optional. This option is displayed on the interface when a battery that supports heating is connected. After the battery heating function is turned on, when the temperature is below the value that starts up the battery, PV power or electricity from the grid will be used to heat the battery.
Page 130 materials of lead-acid battery manufacturers to set the battery parameters. Otherwise, the risks caused thereby shall not be within the scope of the responsibility of the inverter manufacturer. 2. The voltage range of lead-acid batteries needs to match the inverter, and the recommended voltage of lead-acid batteries connected to the inverter is ≤60V, otherwise the inverter may not operate properly.
Page 131: Setting Generator Parameters
Please set it according to the battery technical Max. Discharging parameters. The greater the discharge current is, Current the shorter the working time of the battery is. The maximum charging current in the floating charge state. Please set it according to the battery technical parameters.
Page 132 Number Parameter Description Set the switch control mode and automatic control mode. In the switch control mode, the start and stop of the generator can be remotely controlled. In automatic Dry contact control control mode, the generator automatically starts and mode stops based on preset parameters.
Page 133: Setting Load Control
Maximum charging Set the maximum charge power for the generator battery. power Set the start voltage for generator to charge battery. Starting voltage When the voltage of the battery is lower than the set value, the generator will charge the battery. Set the stop voltage for generator to charge battery.
Page 134: Setting Safety Parameters
9.6 Setting Safety Parameters 9.6.1 Setting the Basic Safety Parameters NOTICE The grid standards of some countries/regions require that inverters shall set functions to meet local requirements. Step 1: Tap Home > Settings > Advanced Settings, to set the parameters. Number Parameter Description...
Page 135 9.6.2.1 Setting the Active Power Mode Setting the P(F) Curve Step 1: Tap Home > Settings > Advanced Settings > Safety Parameters > Active Power Mode Settings to set the parameters. Step 2: Set the parameters based on actual needs. Setting the P(U) Curve Step 1: Tap Home >...
Page 136 9.6.2.2 Setting the Reactive Power Mode Setting the Fix PF Step 1: Tap Home > Settings > Advanced Settings > Safety Parameter Settings > Reactive Power Mode to set the parameters. Step 2: Set the parameter based on actual needs. The power factor remains fixed during the inverter working process.
Page 137 Setting the Q(U) Curve Step 1: Tap Home > Settings > Advanced Settings > Safety Parameter Settings > Reactive Power Mode to set the parameters. Step 2: Enter the parameters. The inverter will adjust the reactive power to the apparent power ratio in real-time according to the actual grid voltage to the rated voltage ratio.
Page 138 Setting Protection Parameters Step 1: Tap Home > Settings > Advanced Settings > Safety Parameters > Protection Parameters to set the parameters. Step 2: Set the parameters based on actual needs. Number Parameter Description Voltage Protection Parameters Set the grid overvoltage protection threshold value, OV Stage n Trip Value n = 1, 2, 3.
Page 139 Set the grid overfrequency protection threshold OF Stage n Trip Value value, n = 1, 2. Set the grid overfrequency protection tripping time, OF Stage n Trip Time n = 1, 2. Set the grid underfrequency protection threshold UF Stage n Trip Value value, n = 1, 2.
Page 140 Number Parameters Description LVRT Ride Through Voltage The inverter will not be disconnected from the Start Point utility grid immediately when the grid voltage is between Ride Through Voltage Start Point and Ride Ride Through Voltage Through Voltage End Point. End Point Indicates the longest duration the inverter can Ride Through Time Start...
Page 141: Monitoring Power Plant
10 Monitoring Power Plant 10.1 SEMS Portal Overview SEMS Portal App is a monitoring platform. Commonly used functions are as follows: Manage the organization or User information; Add and monitor the power plant information; Equipment maintenance. Login Page of SEMS Portal App Number Name Description...
Page 142 Configure WiFi parameters to establish communication Configuration between the inverter and the server and realize remote monitoring and managing. Tap to register an end-user account. Contact the Register manufacturer or the company as prompted if you need a company account. APPs Tap to download SolarGo app.
Page 143: Manage Power Plant Or Equipment
operation status Search for Search for power stations by selecting their name, equipment power plant SN number, email, or on the map. Power Click to switch between today, this month, total generated generation power and cumulative earnings. statistics Home of power plant monitoring. Plants Alarms Check all alarms, happening alarms, and recovered alarms.
Page 144: Power Plant Management
Step 3: Add devices according to the interface prompts to complete the creation of the power plant. 10.2.2 Power plant management Step 1: Enter the power plant monitoring page and delete or modify the power plant information based on actual needs.
Page 145: Managing The Equipment In The Power Plant
10.2.3 Managing the Equipment in the Power Plant Step 1: Click on the power plant in the power plant monitoring interface to enter the power plant details page. Step 2: Click the serial number of the device to enter the device details page, and add, delete, or replace the device based on actual needs.
Page 146: Power Plant Monitoring
10.3 Power Plant Monitoring 10.3.1 Viewing Power Plant Information After logging into SEMS Portal App with the account and password, you will enter the home page of the power plant, where the overall operation status of all power plants under the account will be displayed.
Page 147: Checking Alarms
10.3.2 Checking Alarms Step 1 Tap Alarm tab and enter the Alarm Details page. Step 2 （Optional) Enter the plant name, inverter SN, or owner’s Email address in the search bar to find out the plant which is alarming. Step 3 Tap the alarm name to check the alarm details.
Page 149: Maintenance
11 Maintenance 11.1 Power OFF the System DANGER Power off the equipment before operations and maintenance. Otherwise, the equipment  may be damaged or electric shocks may occur.  Delayed discharge. Wait until the components are discharged after power off. ...
Page 150: Removing The Equipment
→❷ →❸ →❹ →❺ Power Off: ❶ : Install or not based on local laws and regulations. ❸ 11.2 Removing the Equipment DANGER  Make sure that the equipment is powered off. Wear proper personal protective equipment during operations.  Please use standard disassembly tools when removing wiring terminals to avoid ...
Page 151: Disposing Of The Equipment
 Unless otherwise specified, the dismantling process of the equipment is in reverse order to the installation process, and it will not be further elaborated in this document. Step 1: Power off the system. Step 2: Label the cables connected in the system with tags indicating the cable type. Step 3: Disconnect the connecting cables of the inverter, battery, and smart meter in the system, such as DC cables, AC cables, communication cables, and PE cables.
Page 152: Troubleshooting
requirements and whether there is any debris around the device. Check whether the equipment are installed securely and whether the Ensure that the System Once 6-12 screws are installed tightly. equipment is installation months installed securely. Check whether the equipment is damaged or deformed.
Page 153: System Troubleshooting
sheltered or shadowed, etc. It is recommended to provide some photos and videos to assist in analyzing the problem. 3. Utility grid situation. 11.5.1 System Troubleshooting Cause Solutions Please ensure that no other devices are connected to the smart dongle's wireless signal. 2.
Page 154: Inverter Troubleshooting
off. Make sure that the inverter is powered on. The Ezlink indicator is off. Put the router nearer to the Smart Dongle, or add a WiFi Cannot find router relay device to enhance the WiFi signal. SSID Reduce the number of devices connected to router. Restart the inverter After completing all Check if the SSID, encryption method and password on WiFi...
Page 155 grid voltage exceeds the permissible range. Modify the overvoltage protection  threshold, HVRT or disable the overvoltage protection function after obtaining the consent of the local power company if the grid frequency is within the permissible range. 3. Check whether the AC breaker and the output cables are connected securely and correctly if the problem persists.
Page 156 obtaining the consent of the local power company if the grid frequency is within the permissible range. 3. Check whether the AC breaker and the output cables are connected securely and correctly if the problem persists. If the problem occurs occasionally, the utility grid may be abnormal temporarily.
Page 157 frequency is lower inverter will recover automatically after than the requirement detecting that the utility grid is normal. of the local grid If the problem occurs frequently, check standard. whether the grid frequency is within the permissible range. Contact the local power company if the ...
Page 158 utility grid exception inverter will recover automatically after exceeds the set time detecting that the utility grid is normal. of LVRT. 2. If the problem occurs frequently, check whether the grid frequency is within the Utility grid exception. permissible range. If not, contact the local The duration of utility HVRT power company.
Page 159 buzzer sounds every 30 minutes. 2. Add the inverter to the monitoring platform, and set the alarm reminder, the alarm information can be sent to the customer by emails. The PE cable of the inverter is not connected well. Check whether the PE cable of the inverter is 2.
Page 160 Disconnect the AC output switch and DC input GFCI HCT The sampling of the switch, then connect them 5 minutes later. Check GFCI HCT is Contact the dealer or the after-sales service if abnormal abnormal. the problem persists. 1. Relay fault The control circuit Disconnect the AC output switch and DC input is abnormal.
Page 161 the inverter BUS the problem persists. voltage is abnormal. The PV array configuration is not Check the serial connection of the PV array. PV Input correct. Too many PV Make sure that the open circuit voltage of the Overvoltage panels are connected PV string is not higher than the maximum in series in the PV operating voltage of the inverter.
Page 162 faulty. generator has any fault and whether the parameter settings meet the requirements. If 3. The parameter there is no fault with the generator and the settings of the parameter settings do not exceed the generator exceed requirements, but the fault still exists after the requirements restarting the generator, please contact your of the...
Page 163 Check whether the server connection is indicator in correct. error 5. Log in to the website mqtt.goodwe- power.com via a computer to view the resolved IP address and obtain the server connection information. Incorrect communication cable connection or unreliable cable connection cause communication failure.
Page 164: Battery Fault (Lx A5.0-30, Lx U5.0-30)
problem, please try to restart the inverter and get networking again. Check whether the parallel communication cable is connected correctly and firmly. Communication of Parallel IO 2. If the communication cable connection is parallel inverters in check fail normal, it may be an internal communication error failure.
Page 165 Check whether the Charging Current Limit of the inverter is 0 through SolarGo. If yes, please confirm whether the communication Battery cable connection between the battery and overvoltage the inverter is reliable and the protection communication is normal. Battery 2. Power off and wait for 5 minutes, then undervoltage restart to confirm if the fault persists.
Page 166 contact the after-sales service center. Confirm if the battery switch is closed. If the Wire harness battery switch is closed and the problem still exception exists. Please contact the after-sales service center Relay or MOS Power off and wait for 30 minutes. If the over temperature problem persists after restarting, please contact Diverter over...
Page 167: Battery Fault（Lx A5.0-10
1. Confirm whether the type and installation position of the terminal resistor used are correct. Other protections: 2. Confirm whether the communication cable between batteries, the cable between communication batteries and inverters are reliable and the failure communication is normal. 3.
Page 168 sales service. Battery Contact the after-sales service. Undervoltage Power off and wait for 2 hours. If the High Cell problem persists, please contact the after- Temperature sales service. Turn off the device to wait for the Low Charging temperature to return to normal. If the Temperature problem persists after restarting, please contact the after-sales service center.
Page 169: Battery Fault (Lx U5.4-L)
Circuit Fault please contact the after-sales service. Please check if the battery model matches. If Cluster Fault not, please contact the after-sales service center. Check whether the termination resistor is installed properly and restart the battery. Interlock failure Contact the after-sale service if the problem persists.
Page 170 When the battery button indicator light displays green, combine with the SOC indicator light to locate and troubleshoot the alarm. SOC Indicator Fault Solutions Temperature Power off and restart after 2 hours. If the Exception problem persists, please contact after-sales High service.
Page 171: Battery Fault (Lx U5.4-20)
locate and troubleshoot the fault based on the SOC indicator light display status. Fault Solutions Indicator Temp. sensor Restart the battery. If the problem persists, failure please contact after-sales service for help. MOS Failure Circuit-Breaker Turn on the Circuit-Breaker. If the problem persists, please contact after-sales service.
Page 172 with the SOC indicator light to locate and troubleshoot the alarm. SOC indicator Description The alerting is dealt by the battery system itself. For more detailed information, you can check via SolarGo App Fault Status When the battery button indicator light is in steady red, locate and troubleshoot the fault based on the SOC indicator light display status.
Page 173 Temperature Power off for 2 hours. If the problem Exception persists, please contact after-sales service. The cell voltage Power off for 12 hours. If the problem difference is persists, please contact after-sales service. extremely high Harness Abnormal MOS Open- Restart the battery. If the problem persists, Circuit Fault please contact after-sales service for help.
Page 174: Parameters
Microelectronic contact after-sales service for help. Fault 12 Parameters 12.1 Inverter Parameters Technical GW3000 GW360 GW3600 GW5000- GW5000 GW6000- GW6000M-ES-20 Parameters -ES-20 0-ES-20 M-ES-20 ES-20 M-ES-20 ES-20 Battery Input Data Battery Type Ion/Lead Ion/Lea Li-Ion Ion/Lead- Li-Ion Ion/Lead- Li-Ion -acid d-acid acid acid...
Page 175 Max. Input 4,500 5,400 5,400 7,500 7,500 9,000 9,000 Power (W) Max. Input Voltage (V) MPPT Operating 60~550 60~550 60~550 60~550 60~550 60~550 60~550 Voltage Range (V) MPPT Voltage Range at 220~500 150~500 150~500 200~500 200~500 220~500 200~500 Nominal Power (V) Start-up Voltage (V) Nominal...
Page 176 Nominal Apparent Power Output 3,000 3,680 3,680 5,000 5,000 6,000 6,000 to Utility Grid (VA) Max. Apparent Power 3,000 3,680 3,680 5,000 5,000 6,000 6,000 Output to Utility Grid (VA) Nominal Apparent Power from 3,000 3,680 3,680 5,000 5,000 6,000 6,000 Utility Grid (VA)
Page 177 Utility Grid Max. AC Current 27.3 33.5 16.7 43.5 22.7 43.5 27.3 From Utility Grid (A) Nominal AC Current From 13.0 16.0 16.0 21.7 21.7 26.1 26.1 Utility Grid Max. Output Fault 96A@3μ Current 96A@3μs 96A@3μs 96A@3μs 96A@3μs 96A@3μs 96A@3μs (Peak and Duration) Inrush...
Page 178 Overcurrent Protection (A) Type of Voltage (a.c. a.c. a.c. a.c. a.c. a.c. a.c. a.c. or d.c.) AC Output Data (Back-up) Back-up Nominal 3,000 3,680 3,680 5,000 5,000 6,000 6,000 Apparent Power (VA) 3,680(7,3 5,000(10, Max. 3,000(6,0 6,000(10, 60@10se 000@10s Output 00@10se 3,680 5,000...
Page 179 Nominal Output 50/60 50/60 50/60 50/60 50/60 50/60 50/60 Frequency (Hz) Output THDv (@Linear <3% <3% <3% <3% <3% <3% <3% Load) Efficiency Max. 97.6% 97.6% 97.6% 97.6% 97.6% 97.6% 97.6% Efficiency European 96.7% 96.7% 96.7% 96.7% 96.7% 96.7% 96.7% Efficiency CEC Efficiency 96.9%...
Page 180 Integrat Integrate Integrate Integrate Integrate Integrate Overcurrent Integrated Protection AC Short Integrat Integrate Integrate Integrate Integrate Integrate Circuit Integrated Protection Integrat Integrate Integrate Integrate Integrate Integrate Overvoltage Integrated Protection Integrat Integrate Integrate Integrate Integrate Integrate DC Switch Integrated DC Surge Type II Type II Type II...
Page 181 Communicati on with BMS Communicati on with RS485 RS485 RS485 RS485 RS485 RS485 RS485 Meter WiFi / WiFi / WiFi / WiFi / WiFi / WiFi / Communicati WiFi WiFi WiFi WiFi WiFi WiFi WiFi / WiFi +LAN / on with +LAN / +LAN / +LAN /...
Page 182 Overvoltage DC II / DC II / DC II / DC II / AC DC II / AC DC II / AC DC II / AC III Category AC III AC III AC III Protective Class Storage Temperature -40~+85 -40~+85 -40~+85 -40~+85 -40~+85...
Page 183 *3: 4600 for VDE-AR-N4105 & NRS 097-2-1. *4: Not all certifications & standards listed, check the official website for details. Technical Data GW6000-ES-BR20 GW3500L-ES-BR20 GW3600-ES-BR20 Battery Input Data Battery Type Li-Ion/Lead-acid Li-Ion/Lead-acid Li-Ion/Lead-acid Nominal Battery Voltage (V) Battery Voltage Range 40~60 40~60 40~60...
Page 184 Max. Backfeed Current to The Array (A) Number of MPP Trackers Number of Strings per MPPT AC Output Data (On-grid) Nominal Output Power 6000 3500 3680 Max. Output Power (W) 6000 3500 3680 Nominal Apparent Power Output to Utility Grid 6000 3500 3680...
Page 185 Max. AC Current From 43.5 43.5 33.5 Utility Grid (A) Max. Output Fault Current (Peak and 96A@3μs 96A@3μs 96A@3μs Duration) (A) Inrush Current (Peak and 96A@3μs 96A@3μs 96A@2μs Duration) (A) Nominal Output Current 27.3 27.6 16.7 ~1 (Adjustable from ~1 (Adjustable ~1 (Adjustable from 0.8 Power Factor 0.8 leading to 0.8...
Page 186 Nominal Output Voltage (V) Nominal Output Frequency (Hz) Output THDv (@Linear <3% <3% <3% Load) Switching from Grid Connected Mode to <10ms <10ms <10ms Standalone Mode Switching from standalone mode to <10ms <10ms <10ms network connected mode Efficiency Max. Efficiency 97.60% 96.0% 97.60%...
Page 187 Protection DC Switch Integrated Integrated Integrated DC Surge Protection Type II Type II Type II AC Surge Protection Type III Type III Type III AFCI Optional Optional Optional Remote Shutdown Integrated Integrated Integrated General Data Operating Temperature -25~+60 -25~+60 -25~+60 Range (℃) Max.
Page 188: Battery Parameters
Pollution Degree Overvoltage Category DC II / AC III DC II / AC III DC II / AC III Storage Temperature (℃) -40~+85 -40~+85 -40~+85 Battery：A Battery：A Battery：A PV：C PV：C PV：C The Decisive Voltage AC：C AC：C AC：C Class (DVC) Com：A Com：A Com：A Mounting Method...
Page 189 Operating Voltage Range (V) 43.2~58.24 Nominal Charge Current (A) Max. Continuous Charge Current (A) *2*3 Nominal Discharge Current (A) Max. Continuous Discharge Current (A) *2*3 Max. Pulse Discharge Current (A) 200A（30s） Max. Continuous Discharge Power (W) 7200 Communication Ambient Temperature 0＜T≤40℃...
Page 190 related to temperature and SOC. *4: The warranty is due whichever reached first of warranty period or energy throughput. LX U5.0-30 Technical Parameters LXU 5.0-30 Nominal Battery Energy (kWh) 5.12 Usable Energy (kWh) Cell Type LiFePO4 Nominal Voltage (V) 51.2 Operating Voltage Range (V) 43.2~58.24 Nominal Charge Current (A)
Page 191 Fire Suppression Optional, Aerosol Unit Weight (kg) Unit Dimensions（W*H*D mm） 460*580*160 Enclosure Protection Rating IP65 On Grid / On Grid + Backup / off Grid Applications Scalability Wall Mounted / Grounded Mounting Method Round-trip Efficiency ≥96% Cycle Life ＞6000 @25±2℃ 0.5C 70%SOH 90%DOD Safety VDE2510-50、IEC62619、IEC62040、N140、IEC63056 EN IEC61000-6-1, EN IEC61000-6-2, EN IEC61000-6-3,...
Page 192 (kW) Operating Temperature Range (℃) Charge: 0 ~ +50; Discharge: -10 ~ +50 Relative Humidity 0~95% Max. Operating Altitude (m) 3000 Communication Weight (Kg) n×40 Single LX A5.0-10 module: 442×133×420 (without Dimensions (W x H x D mm) handle); 483×133×452 (with handle) Ingress Protection Rating IP21 0 ~ +35 (≤...
Page 193 Cell Type LFP (LiFePO Cell Configuration 16S2P 16S3P 16S4P 16S5P 16S6P Nominal Voltage (V) 51.2 Operating Voltage Range 48~57.6 Nominal Charge/Discharge Current (A) Max. Discharging Power* 5.76 Short-Circuit Current 2.323kA@1.0ms Communication Weight (Kg) Dimensions (W x H x D 505×570×175 (LX U5.4-L) Operating Temperature Charge: 0 ~ +50;...
Page 194 *4: Based on Cell under 0.5C/0.5C @ 25±2℃ test condition and 80% EOL. LX U5.4-20 2* LX U5.4- Technical Parameters LX U5.4-20 3* LX U5.4-20 Usable energy (kWh) 10.8 16.2 Cell Type LFP（LiFePO ） Nominal Voltage (V) 51.2 Cell Configuration 16S1P 16S2P 16S3P...
Page 195 system at beginning life. System Usable Energy may vary with different Inverter. *2: Nominal Dis-/Charge Current and power derating will occur related to Temperature and SOC. *3: Based on Cell under 0.5C/0.5C @ 25±2℃ test condition and 80% EOL. LX U5.4-20 5* LX U5.4- Technical Parameters 4*LX U5.4-20...
Page 196: Smart Meter Technical Data
Transportation UN38.3 *1: Test conditions, Cell Voltage 2.5~3.65V, 0.5C charge & discharge at +25±3 °C for battery system at beginning life. System Usable Energy may vary with different Inverter. *2: Nominal Dis-/Charge Current and power derating will occur related to Temperature and SOC. *3: Based on Cell under 0.5C/0.5C @ 25±2℃...
Page 197 Condensing) Max. Operating Altitude (m) 3000 3000 Technical Parameters GM330 Type of Electrical Supply System Three-phase Nominal Voltage L-N 220/230 Nominal Voltage L-L 380/400 Input Data Voltage Voltage Range 0.88Un-1.1Un Nominal Voltage 50/60 Frequency (Hz) Current CT Ratio nA:5A Communication RS485 Communication distance (m) Communication distance (m)
Page 198 Type of Electrical Supply Single phase Single phase Three-phase System Nominal Voltage 110/230 110/230 110/230 L-N (V) Nominal Voltage 230/400 Voltage L-L (V) Input Data Current Voltage Range (V) 0.88Un-1.1Un 0.88Un-1.1Un 0.88Un-1.1Un Nominal Voltage 50/60 50/60 50/60 Frequency (Hz) CT Ratio 120A:40mA 120A:40mA 120A:40mA...
Page 199: Smart Dongle Technical Data
12.4 Smart Dongle Technical Data Technical Parameters WiFi/LAN Kit-20 Output Voltage (V) ≤2 Power Consumption (W) Communication Interface Ethernet 10M/100Mbps Self-adaption Communication Wireless IEEE 802.11 b/g/n @2.4 GHz Parameters Bluetooth V4.2 BR/EDR and Bluetooth LE Bluetooth standard Dimensions (W x H x 48.3*159.5*32.1 D mm) Weight (g)
Page 200 Weight (gram) Ingress Protection Rating IP65 Power Consumption (W) ≤2W (typical value) Working Mode Wireless Parameters Bluetooth Communication Bluetooth 5.1 WiFi Communication 802.11 b/g/n（2.412GHz-2.484GHz） Environmental Parameters Operating Temperature Range -30 ~ +60 (℃) Storage Temperature Range (℃) -30 ~ +70 Relative Humidity 0-100% (no condensing) Max.
Page 201 Operating Mode AP/STA/AP+STA...
Page 202: Appendix
13 Appendix 13.1 FAQ 13.1.1 How to conduct auxiliary detection for smart meters/CT? Meter detection function, which can detect whether the CT of the meter is connected correctly and the current operation status of the meter and CT. Step 1: Access the detection page through Home > Settings > Electricity Meter/CT Auxiliary Detection.
Page 203: Abbreviations
prompts; otherwise, they will not be able to use the APP. You can complete the upgrade by following the prompts on the interface. 13.2 Abbreviations Abbreviation English Description Battery Voltage Range batt Nominal Battery Voltage batt,r Max. Continuous Charging Current batt,max (C/D) Max.
Page 204 Input Voltage DC Power Supply DC,r Power Supply/AC Power Supply Power Supply/Input Voltage Range AC,r Operating Temperature Range operating Max Output Power TX Power Power Consumption Power Consumption AC,r Frequency (Hz) Max. Input Short Circuit Current SC PV Range of Input Operating Voltage dcmin dcmax Power Supply Input Voltage...
Page 205 Energy Stroage System Power Conversion System Remote Shutdown Emergency Power Off Surge Protection Device Zero Injection/Zero Export Power Limit / Export Power Limit DRED Demand Response Enabling Device Ripple Control Receiver AFCI AFCI GFCI Ground Fault Circuit Interrupter RCMU Residual Current Monitoring Unit Fault Ride Through HVRT High Voltage Ride Through...

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