Anker SOLIX X1 Manual
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Anker SOLIX X1 Manual

Anker SOLIX X1 Manual

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1. About This Guide
1.1 Purpose
1.2 Product Overview
1.3 Intended Audience
2. Unboxing
2.1 Check Before Installation
2.2 In the Power Module Box
2.3 Optional Accessories and Service Parts
3. At a Glance
4. Pre-Installation
4.1 Select a Location
4.2 Measure the Distance
4.3 Plan Conduit Run
4.4 Prepare Tools and Supplies
Required Tools
Required Supplies
5. Installation
Floor Mounting
Wall Mounting
6. Electrical Connection
6.1 Connect the Power Module and Battery Modules
Connect One Column of Modules
Connect Two Columns of Modules
6.2 Connect the Power Module to the External Ground
6.3 Connect the Power Module to PV Panels
6.4 Connect the Power Module to the Grid and the Backup Loads
6.5 Connect the Power Module to the Power Sensor
6.6 Connect the Power Module to the Internet
6.7 Connect the Power Module to External RCD
6.8 Connect the Power Module to a Power Control Device
Demand Response Enabling Device (DRED)
Ripple Control Receiver (RCR)

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Summary of Contents for Anker SOLIX X1

  • Page 1 1. About This Guide 1.1 Purpose 1.2 Product Overview 1.3 Intended Audience 2. Unboxing 2.1 Check Before Installation 2.2 In the Power Module Box 2.3 Optional Accessories and Service Parts 3. At a Glance 4. Pre-Installation 4.1 Select a Location 4.2 Measure the Distance 4.3 Plan Conduit Run 4.4 Prepare Tools and Supplies...
  • Page 2 6.9 Attach Side Covers and Baffles Floor-Mounted Modules Wall-Mounted Modules 7. Commissioning 7.1 Verify Hardware Installation 7.2 Power On the System 7.3 Use the Anker SOLIX Professional App Download and Install the App Build System Configure Storage Configure System Post Commissioning Manage System 8.

  • Page 3: Product Overview

    1. About This Guide 1.1 Purpose This document provides guidance for installing the Anker SOLIX X1 Power Module X1-H(5~12)K-T series or hybrid three- phase power modules. 1.2 Product Overview The following table lists the Anker SOLIX X1 Power Module models to which this document applies.

  • Page 4: Wall-Mount Kit

    PV Connector (-) 69×18.85 mm Male Dust Cap Black, 10.6×7.6×3.8 mm Female Dust Cap Black, 19.3×25×8.3 mm RJ45 Connector with 2×120Ω Resistors 8 Pins, Black, 2×120Ω Resistors 20-Pin Terminal Block 20 Pins, 41.9×27.1×13.25 mm 3-Pin Terminal Block 3 Pins, 22.5×11.3×7.6 mm AC Connector (Grid) 5 Pins, Black, 94.85×33.2 mm AC Connector (Backup)
  • Page 5 432×117.3×34 mm Right Side Cover For Power Module 432×118×31 mm Left-Side Wire Cover For Power Module 78.9×54×51.6 mm Right-Side Wire Cover For Power Module 225×71×15 mm Wall Mount Bracket 575×65×26 mm Side Cover For Anker SOLIX X1 Battery Module 360×117.4×21.8 mm...
  • Page 6 3. At a Glance Figure: Appearance of Anker SOLIX X1 Power Module X1-H(5~12)K-T . P V 1 - PV1+ P V 2 - PV2+ PROJOY SWITCH AC GRID SWITCH PROJOY POWER AC BACKUP BAT- BAT+ PV power ports (PV1+ / PV1–, PV2+ / PV2–)

  • Page 7: Pre-Installation

    • The maximum operating altitude is 4,000 m. 2. Load-Bearing Requirements The Anker SOLIX X1 Power Module supports up to six Anker SOLIX X1 Battery Modules (Model: X1-B5-H). The power and battery modules can be installed on either the floor or wall.
  • Page 8 2. Installation Space Install the equipment at least 300 mm from the wall on both sides and more than 500 mm from the ceiling. When installing two columns of modules, leave a distance of 300 mm to 600 mm between the two columns. Figure: Installation space for floor-mounted modules.
  • Page 9 3. Stacking Requirements Stack no more than one power module and four battery modules per column. Stacking Battery Module Energy Capacity 5 kWh 10 kWh 15 kWh 20 kWh 25 kWh 30 kWh 4.3 Plan Conduit Run When connecting two columns of modules, it is recommended to follow the instructions below. •...

  • Page 10: Required Tools

    4.4 Prepare Tools and Supplies The following tools and supplies are not included in the package. Ensure that you have them ready before proceeding with the installation and electrical connections. Required Tools Use appropriate personal protective equipment (PPE) and follow safe electrical work practices. Personal Protective Equipment Protective Gloves Insulated Gloves...
  • Page 11 Disassembly Tool RJ45 Crimping Tool Pliers Rubber Mallet Flathead Screwdriver Cable Cutter Solar Crimping Tool Power Drill Drill Bit: 10 mm Tube Terminal Crimper No. 1 Phillips Screwdriver Torque Wrench Cross Socket Bits: PH1 / PZ1 (M4), PH2 / PZ2 (M5) Hex Socket: 10 mm (M6), 13 mm (M8)

  • Page 12: Required Supplies

    Required Supplies You need to prepare necessary cables or conduits for more complicated connection requirements. Make sure the cables or conduits meet the local electrical regulations. All cables are rated minimum 90°C. Function Cable / Conduit Specifications GND Cable 6 mm², Minimum 600 V Rating, Copper Positive DC Power Cable 8 mm², Minimum 600 V Rating, Copper Negative DC Power Cable...
  • Page 13 • If the baseboard is 16-70 mm thick, also fold the positioning card along the top crease and move the battery module case so that the top edge of the card touches the wall at a 90-degree angle. Figure: Mark pilot holes for the first module. T o p B o t t o m T o p...
  • Page 14 2. Repeat the previous step to mark any remaining pilot holes as necessary. Figure: Mark pilot holes for remaining modules. Figure: Dimensions of pilot holes. 508 mm 406 mm 304 mm Power 1,323 mm Module Φ 10 mm Battery Battery 963 mm Module 6 Module 3...
  • Page 15 Step 3: Attach mount brackets to the wall. 1. Drill the marked pilot holes in the wall (Φ10 mm, > 60 mm deep). Make sure the drill bit is aligned with the center of the holes. 2. Insert the expansion bolts (M6×50 mm, included, with screws removed) into the pilot holes. Make sure the bolts are flush with the wall.
  • Page 16 Step 4: Mount modules onto the brackets. 1. To ensure proper alignment, fasten the battery module base to the first battery module before hanging them onto the mount bracket. • When securing the module interlockers, make sure that the inner edges of the battery module base and all the modules are aligned within a tolerance of 1 mm.
  • Page 17 2. Mount the remaining power module and battery modules from bottom to top. After installing a module, tighten the module interlockers using the included screws (M5×14 mm), and then mount the next module. Figure: Mount the remaining battery modules. BAT- BAT+ BAT- BAT+ Figure: Mount the power module.
  • Page 18 Figure: Insert the wedge shim for stability. PV 1- PV1+ PV 2- PV2+ PROJOY SWITCH AC GRID SWITCH PROJOY POWER BAT- BAT+ BAT- BAT+ BAT- BAT+ BAT- BAT+ BAT- BAT+ BAT- BAT+ BAT- BAT+ 3. When adding the second column, attach the top cover to the top battery module using the screws (M5×14 mm, included). Figure: Install the top cover for the second column.

  • Page 19: Wall Mounting

    Wall Mounting Step 1: Install the battery module base and bracket holders on the wall. 1. To secure the battery module base (for wall mounting) and bracket holders, verify the spacing, select a set of screw holes based on the wall conditions and tighten the screws (M4×10 mm, included). If anchoring to a wall with studs, select position A for studs spaced 508 mm apart, position B for studs spaced 406 mm apart, or position C for studs spaced 304 mm apart.
  • Page 20 M4×10 mm 1.2N·m 10 mm >70 mm 90 ︒ Step 2: Mark pilot holes on the wall. 1. Fold the positioning card (included with the power module package) along the crease. 2. Align the card with the top of the battery module base and use a level to ensure it is horizontal. 3.
  • Page 21 Figure: Mark pilot holes on the wall. T o p B o t t o m T o p 90° T o p 90° Figure: Dimensions of pilot holes. 508 mm 406 mm 304 mm Power 1,323 mm Module Φ 10 mm Battery Battery 963 mm...
  • Page 22 Step 3: Attach mount brackets to the wall. 1. Drill the marked pilot holes in the wall (Φ10 mm, > 60 mm deep). Make sure the drill bit is aligned with the center of the holes. 2. Insert the expansion bolts (M6×50 mm, included, with screws removed) into the pilot holes. Make sure the bolts are flush with the wall.
  • Page 23 Step 4: Install conduits between two columns. When installing two columns, run conduits from the back of the first column to the second column. Figure: Install conduits when adding a second column.
  • Page 24 Step 5: Mount modules onto the brackets. 1. Hang the first battery module onto the mount bracket and fasten the module to the battery module base. When securing the module interlockers, make sure that the inner edges of the battery module base and all the modules are aligned within a tolerance of 1 mm.
  • Page 25 BAT- BAT+ BAT- BAT+ Figure: Mount the power module. If necessary, insert the included wedge shim into the power module's mount bracket to ensure stability.
  • Page 26 3. When adding the second column, attach the top cover to the top battery module using the screws (M5×14 mm, included).

  • Page 27: Electrical Connection

    6. Electrical Connection The procedures describe the electrical connection of one power module and six battery modules (power module and three battery modules in the first column; another three battery modules in the second column) as an example. • Before connecting cables, ensure the BAT switch and the PV switch on the power module are set to OFF. PV1- PV1+ •...
  • Page 28 2. Connect the GND cables between the modules. Connect a GND cable (6 mm², yellow/green, included) to the internal ground ports of each two vertically adjacent modules, and secure the cables using the screws (M5×14 mm, included). Figure: Connect GND cables between modules. PROJOY SWITCH SWITCH...
  • Page 29 3. Connect the RJ45 signal cables between the modules. Connect an RJ45 signal cable (black, included) to the BMS ports of each two vertically adjacent modules. To do this, loosen the locking caps, insert the cable into the BMS ports, and rotate the locking caps to secure. Figure: Connect RJ45 signal cables between modules.
  • Page 30 PV1- PV1+ PV2- PV2+ 4. Connect the negative DC power cables between the modules. Connect a negative DC power cable (black, included) to the BAT- ports of each two vertically adjacent modules. Figure: Connect negative DC power cables between modules. PROJOY PV1- PV1+...
  • Page 31 5. Connect the positive DC power cables between the modules. PROJOY SWITCH Connect a positive DC power cable (red, included) to the BAT+ ports of each two vertically adjacent modules. Figure: Connect positive DC power cables between modules. SWITCH PROJOY BAT- BAT+ PV1-...
  • Page 32 6. Seal unused ports. On the bottom battery module, insert an RJ45 connector (with 2×120Ω terminating resistors, included) into the BMS port, a female dustproof cap (included) into the negative DC power port (BAT-), and a male dustproof cap (included) into the positive DC power port (BAT+).
  • Page 33 Connect Two Columns of Modules To connect two columns, which consist of a power module and six battery modules in this example, follow the steps below. 1. Connect cables between vertically adjacent modules. Install the GND, RJ45 signal, and DC power cables. Refer to the “Connect One Column of Modules” section for detailed instructions.
  • Page 34 2. Connect cables between the bottom modules. ① Thread cables through conduits. BAT- BAT+ Floor-Mounted Modules a. Remove the cable knockouts from the battery module base in the first column. BAT- BAT+ b. Insert a cable conduit (DN25, not included) into each opening. c.
  • Page 35 ② Assemble the GND cable and RJ45 signal cable. To assemble the GND cable: a. Strip the insulation layers from both ends. b. Insert the heat shrink tubing (included) and ring terminals (included). c. Crimp the ring terminals onto the GND cable. d.
  • Page 36 BAT- BAT + BAT- BAT + BAT - BAT + BAT - BAT + ④ Assemble the positive and negative DC power cables. a. Strip the insulation layers from both ends. b. Crimp the positive and negative metal terminals (included) onto the corresponding cables. Make sure the terminals are securely attached and cannot be pulled out.
  • Page 37 Figure: Install the DC power cables. BAT - BAT + BAT - BAT + BAT - BAT + BAT - BAT + 3. Seal unused ports. On the top battery module in the second column, insert an RJ45 connector (with 2×120Ω terminating resistor, included) into the BMS port, a female dustproof cap (included) into the negative DC power port (BAT-), and a male dustproof cap (included) into the positive DC power port (BAT+).
  • Page 38 6.2 Connect the Power Module to the External Ground Connect a GND cable from the power module to the external ground point. ① Strip the insulation layer of a GND cable (6 mm², not included). ② Insert a heat shrink tubing (included) and a ring terminal (included) into the GND cable. ③...
  • Page 39 PV1- PV1+ PV2- PV2+ PROJOY SWITCH PROJOY SWITCH SWITCH SWITCH PROJOY PROJOY POWER POWER BAT- BAT+ 2. Strip the insulation layers on the ends of the positive and negative PV cables (not included). Crimp the positive and negative metal terminals (included) onto the corresponding cables. Make sure the terminals are securely attached and cannot be pulled out.
  • Page 40 3. Connect the positive PV connector to a positive PV power port (PV1+ or PV2+) and the negative PV connector to a negative PV power port (PV1– for PV1+, or PV2– for PV2+). Use a disassembly tool (not included) to remove the connected PV cables. Figure: Disconnect the PV cables.
  • Page 41 Wiring colors may vary by country or region. 3. Insert and crimp the wire sleeve terminals (included). Figure: Insert and crimp the wire sleeve terminals. 12 mm 4. Connect the L1, L2, L3, neutral, and PE conductors to the sockets labelled 1, 2, 3, N, and PE respectively. Figure: Connect conductors to the sockets on the housing.
  • Page 42 6. Align the locker and the body, and press the locker into the body until you hear a click. Figure: Reassemble the AC grid connector. 7. Tighten the nut to secure the cable. Figure: Tighten the nut of the AC grid connector. 8.
  • Page 43 Figure: Install AC connectors. AC GRID AC BACKUP 10. Connect the AC grid cable to the main panel, and the AC backup cable to the subpanel. Figure: Connect to the grid and backup loads. AC GRID AC GRID Main Panel Non-Backup Loads Subpanel AC BACKUP...
  • Page 44 Figure: Remove the AC connectors. • The power module uses the AC backup port as the off-grid port, which is separate from the grid-interactive port (AC grid port). • In Australia and New Zealand, an E-N link must be created between the neutral bar and the earth bar in the distribution box.
  • Page 45 6.5 Connect the Power Module to the Power Sensor Backflow Prevention Measures: • The Anker SOLIX X1's anti-reverse flow measures include real-time power monitoring through communication between the power module and the power sensors (Model: DTSU666), with software and hardware interventions to prevent power from feeding back into the grid.
  • Page 46 1. Remove the wiring compartment cover by pressing the clips on both sides. Figure: Remove the wiring compartment cover. DRM1/5 DRM2/6 DRM3/7 DRM4/8 DRM_REF DRM_COM COM1 GND_S COM2 DI1_IN GND_S RSD + RSD - Meter_A Meter_B Ems_A Ems_B EV-CHG_A EV-CHG_B AC GRID AC GRID AC BACKUP...
  • Page 47 Recommended RS485 wires are 0.2-0.5 mm² in conductor cross section. 4. Insert the two wires (labelled Meter_A and Meter_B, with tube terminals) into slots 15 and 16, respectively, of the 20-pin terminal block connector (included). Make sure the wires are fully inserted into the slots and cannot be easily pulled out. Figure: Insert signal wires into slots 15 and 16.
  • Page 48 DRM1/5 DRM2/6 DRM3/7 DRM4/8 DRM_REF DRM_COM COM1 GND_S COM2 DI1_IN GND_S RSD + RSD - Meter_B Meter_A Ems_A Ems_B EV-CHG_A EV-CHG_B AC GRID AC BACKUP To remove the terminal block connector, turn the lever locks to loosen the connector and pull the connector out of the socket.
  • Page 49 • The power sensor provided in the package can measure currents up to 100 A. If the current range exceeds 100 A, use DTSU666 (250 A) instead, which can be ordered from Anker SOLIX. • If you are retrofitting an existing PV system, skip this step and go to the next.

  • Page 50: Main Panel

    Main Panel Grid 9. Insert the outlets of the current transformers into the appropriate terminals on the grid-side power sensor, and tighten the screws. Current Transformer Outlet Terminal on Power Sensor CT Current Input-13-IA* CT1 for L1 CT Current Input-14-IA CT Current Input-16-IB* CT2 for L2 CT Current Input-17-IB...
  • Page 51 L1 L2 L3 10-12 mm 13 14 16 17 19 21 24 25 If you are building a new system, the power sensor connection is complete. If you are retrofitting an existing system, continue with the steps below to connect another power sensor (Model: DTSU666, included). 11.
  • Page 52 Main Panel Existing PV System ⑤ Insert the outlets of the current transformers into the appropriate terminals on the PV-side power sensor, and tighten the screws. Current Transformer Outlet Terminal on Power Sensor CT Current Input-13-IA* CT1 for L1 CT Current Input-14-IA CT Current Input-16-IB* CT2 for L2 CT Current Input-17-IB...
  • Page 53 On the grid side: ① Cut the tube terminals and strip the insulation layers from the other ends of the Meter_A and Meter_B wires connected to the power module. ② Strip the insulation layers from the other ends of the RS485 A and RS485 B wires connected to the PV-side power sensor. ③...
  • Page 54 After the WLAN dongle is connected, configure the system network (Wi-Fi or Ethernet) in the Anker SOLIX Professional app to set up the Internet connection. Figure: Connect to the WLAN dongle. WLAN/4G 5-6 mm 25 mm 6.7 Connect the Power Module to External RCD Residual Current Monitoring Device The power module includes an integrated universal current-sensitive residual current monitoring unit.

  • Page 55: Power Module

    RCD Type Action Current 300 mA Rated Continuous Current ≥ 40 A Rated Voltage 3L+N+PE ≥ 400 Va.c. 6.8 Connect the Power Module to a Power Control Device Connect the power module to a power control device according to the local standard and requirements for grid stability and remote system control by the grid.
  • Page 56 Demand Response Mode Switch State DRM0 Close S1 and S5 DRM1 Close S1 DRM2 Close S2 DRM3 Close S3 DRM4 Close S4 DRM5 Close S5 DRM6 Close S6 DRM7 Close S7 DRM8 Close S8 Ripple Control Receiver (RCR) Figure: Connect the power module and the RCR. Power Module DRM1/5 DRM2/6...
  • Page 57 6.9 Attach Side Covers and Baffles 1. Install the side covers to the battery modules. Align the side cover notches with the protruding parts of the bottom battery module. Push the side covers down to click in place. Continue the installation from the bottom module to the top module. Figure: Install the side covers to the battery modules.
  • Page 58 PROJOY SWITCH SWITCH PROJOY POWER ON 1.2 N·m 3. Attach the baffles to the modules. If you are installing two columns of modules, attach the baffles for a clean aesthetic. ① Attach the top cover baffles to the top battery module in the second column. Make sure the baffle side with the countersunk holes face outward and tighten the screws.
  • Page 59 ② Attach the base baffles to the battery module base in the first column. Make sure the baffle side with the countersunk holes face outward and tighten the screws. Floor-Mounted Modules Figure: Attach the base baffles to battery module base in the first column. BAT- BAT+ BAT-...

  • Page 60: Verify Hardware Installation

    · All switches connected to the energy storage system are off. 7.2 Power On the System Power on the system before commissioning in the Anker SOLIX Professional app. 1. Toggle the BAT switch of the power module to ON. 2. Close the circuit breaker between the power module and the grid.
  • Page 61 Download and Install the App The Anker SOLIX Professional app will guide you through the commissioning process. Step 1: Download the Anker SOLIX Professional app from the App Store (iOS devices) or Google Play (Android devices), or by scanning the QR code. Step 2: Log into the app using the installer's account.
  • Page 62 · Anker Energy Storage: The Anker SOLIX energy storage system is installed without connection to a solar system. · Anker Energy Storage & Anker Solar Inverter: The energy storage system is installed and connected to an Anker SOLIX solar system.

  • Page 63: Configure Storage

    Configure Storage Step 1: Connect Device Connect the power module to the Anker SOLIX Professional app via Bluetooth. Go to 02 Storage Settings. Select the power module from the Bluetooth device list or scan the barcode on the power module's label.
  • Page 64 Step 3: Add Devices Manually input the numbers of the power modules and battery modules. Refresh to search for the devices automatically. Select Next to move on when you see the message "The device is added successfully." If the detected numbers do not match the input numbers, change the input numbers and tap Refresh again.

  • Page 65: Configure System

    Step 5: Configure Meter Configure the meter address, and then check whether the meters are correctly connected and configured onsite. Step 6: Power On System Tap to power on the system, and tap Next. If the system is already on, tap Next directly.
  • Page 66 When the time zone is set to Australia, select the applicable grid code. Please contact your electricity grid operator for which region to use. Grid Code Region AS-NZS 4777.2_A Australia A AS-NZS 4777.2_B Australia B AS-NZS 4777.2_C Australia AS-NZS 4777.2_NZ Australia and New Zealand...

  • Page 67: Post Commissioning

    Step 2: Perform System Test Select Start to perform the system test. If system testing is successful, tap Next to proceed. If system testing fails, follow the on-screen troubleshooting instructions and tap Retry. Post Commissioning Step 1: Delivery 04 Post Commissioning.
  • Page 68 *The Anker SOLIX X1's off-grid mode is incompatible with the Sunlight Backup mode of the Enphase microinverter. It is necessary to disable the Sunlight Backup mode of the Enphase microinverter before using the Anker SOLIX X1's off-grid mode. Set backup reserve by adjusting the slider.

  • Page 69: Manage System

    If necessary, delete a system that has not completed commissioning. After commissioning, please inform the owner that the equipment can only be turned off using the Anker app until grid connection approval is granted. Once approval is complete, the equipment can be turned on and off using the...
  • Page 70 8. Screen and Light Guide 8.1 LED Screen Guide The LED screen of the power module will show you the working status of the system. SOLAR Battery Overall Battery Level Recharging Discharging Home Loads Home Load Power Internet Connected to the Internet Disconnected from the Internet Grid On Grid...

  • Page 71: Status Light Indication

    8.2 Status Light Indication The power module's light bar will indicate the system status. Light Bar Status Flashing white once, and then steady white Powered on Flashing white Configuring or connecting to the Internet Steady white On-Grid mode Steady blue Off-Grid mode Flashing blue Battery low in Off-Grid mode...

  • Page 72: Troubleshooting

    9.3 Troubleshooting Once a system fault is detected, you will receive push notifications via the Anker SOLIX Professional app, Anker SOLIX Professional (O&M Portal), or email. Please refer to the notifications for troubleshooting measures. If you require further assistance, please contact Anker Customer Service.
  • Page 73 Figure: Nameplate (power module X1-H8K-T). Figure: Nameplate (power module X1-H10K-T). Figure: Nameplate (power module X1-H12K-T).

  • Page 74: Specifications

    11.2 Specifications Specifications are subject to change without notice. Product Name Anker SOLIX X1 Power Module Model Name X1-H5K-T X1-H8K-T X1-H10K-T X1-H12K-T PV INPUT MPPT Voltage Range 140 - 950 Vd.c. 140 - 950 Vd.c. 140 - 950 Vd.c. 140 - 950 Vd.c.

  • Page 75: Safety Information

    Rated Output Apparent 5 kVA 8 kVA 10 kVA 12 kVA Power Max. Output Power 5.25 kW 8.4 kW 10.5 kW 12.6 kW Max. Output Apparent Power 5.25 kVA 8.4 kVA 10.5 kVA 12.6 kVA Max. Output Current 7.2 Aa.c. 11.6 Aa.c.

  • Page 76: Personal Safety

    Risk of Electric Shock Indicates components that present risk of electrical shock. Caution, Hot Surface Indicates that equipment surfaces may be hot and pose a burn risk. PE Conductor Terminal Indicates a terminal that allows the electrical connection of conductors for earthing or grounding purposes. General Information SAVE THESE INSTRUCTIONS - This document contains important instructions that must be followed during installation, use, and maintenance.

  • Page 77: Electrical Safety

    • Non-standard and improper operations on the energized equipment may cause fire, electric shocks, or explosion, resulting in property damage, personal injury, or even death. • Before operations, remove conductive objects such as watches, bracelets, bangles, rings, and necklaces to prevent electric shocks.
  • Page 78 12.2 Notice Declaration of Conformity Hereby, Anker Innovations Limited declares that this equipment is in compliance with Directives 2014/30/EU & 2011/65/EU. The full text of the EU declaration of conformity is available at the following internet address: https://support.anker.com/s/ articleRecommend?otherType=Anker_EN_Extemal_Manual_and_Download&secondType=doc.

  • Page 79: Appendix A. System Wiring

    60°C (140°F), sunshine or like, expose to extremely low air pressure or dispose of in fire or water. Replace only with specified batteries. Anker Innovations Limited I Unit 56, 8th Floor, Tower 2, Admiralty Centre, 18 Harcourt Road, Hong Kong 13. Appendices Appendix A.

  • Page 80: Appendix B. Communication Ports And Terminals

    Current Transformer Existing PV System Main Meter Grid Current Transformer PV Panel Main Breaker Non-Backup Loads Main Panel Backup Loads Subpanel Anker SOLIX X1 Appendix B. Communication Ports and Terminals DRM2/6 DRM1/5 DRM4/8 DRM3/7 DRM_REF DRM_COM COM1 GND_S COM2 DI1_IN...
  • Page 81 Terminal/Port Definition DRM1/5 DRM2/6 DRM3/7 DRM Terminals DRM4/8 DRM REF DRM COM COM1 Dry Contacts for Heat Pump 1 GND_S Shield Grounding DI1 IN Emergency Stop Digital Input GND_S Shield Grounding RSD_+ Rapid Shutdown Devices RSD_- Meter_A Communication for Power Sensors Meter_B Ems_A Communication for Energy Management Systems...

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