Solplanet ASW05kH-T2 User Manual
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Solplanet ASW05kH-T2 User Manual

Three phase hybrid inverter
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Summary of Contents for Solplanet ASW05kH-T2

  • Page 2: Table Of Contents

    6.6 Battery connection ........49 6.7 Ai-Dongle connection ........51 6.8 Communication equipment connection ..53 Commissioning and operating ......59 7.1 Inspection before commissioning ....59 7.2 Commissioning procedure ......59 Solplanet APP ..........60 8.1 Brief introduction ........60...

  • Page 3: General Information

    You will find the latest version of this document and further information on the product in PDF format at www.solplanet.net. It is recommended that this document is stored in an appropriate location and be available at all times.

  • Page 4: Symbols

    1.4 Symbols DANGER Indicates a hazardous situation which, if not avoided, will result in death or serious injury. WARNING Indicates a hazardous situation which, if not avoided, could result in death or serious injury. CAUTION Indicates a hazardous situation which, if not avoided, could result in minor or moderate injury. NOTICE Indicates a situation which, if not avoided, can result in property damage.

  • Page 5: Safety

    2 Safety 2.1 Intended use The product is a transformerless hybrid inverter with 2 or 3 MPP trackers and a battery connection that feeds the direct  current of the PV array into the connected battery or converts it to grid-compliant three-phase current and then feeds it into the utility grid.
  • Page 6 Do not touch non-insulated cable ends.  Do not touch the DC conductors.  Do not touch any live components of the product.  Do not open the product.  Observe all safety information of the battery manufacturer.  All work on the product must only be carried out by qualified personnel who have read and fully understood all safety information ...
  • Page 7 WARNING Danger to life due to electric shock from destruction of the measuring device due to overvoltage! Overvoltage can damage a measuring device and result in voltage being present in the enclosure of the measuring device. Touching the live enclosure of the measuring device results in death or lethal injuries due to electric shock. Only use measuring devices with the measurement span higher than the DC input voltage range ...

  • Page 8: Symbols On The Label

    2.3 Symbols on the label Beware of a danger zone! This symbol indicates that the product must be additionally grounded if additional grounding or equipotential bonding is required at the installation site. Beware of high voltage and operating current! The product operates at a high voltage and current. Work on the product must only be carried out by skilled and authorized personnel.

  • Page 9: Unpacking And Storage

    3 Unpacking and storage 3.1 Scope of delivery Check the scope of delivery for completeness and any visible external damage. Contact your distributor if the scope of delivery is incomplete or damage. Object Description Quantity Inverter Wall Bracket AC connector Teminal AC connector (10-12kH) Battery connector...

  • Page 10: Product Storage

    ASW05-12kH-T2 ASW05-12kH-T2-O DC connector ASW08-12kH-T3 ASW08-12kH-T3-O Document Smart meter Fastener package External CT Communication terminal package 3.2 Product storage Suitable storage is required if the inverter is not installed immediately: Store the inverter in the original packing case.  The storage temperature must be between -30°C to +70°C, and the storage relative humidity must be between 0 and 100%, ...

  • Page 11: Inverter Overview

    4 Inverter overview 4.1 Product description Figure shown here is for reference only. The actual product received may differ! Object Name Description Mounting ears Two ears hang the inverter onto the mounting-bracket. Two points, used for the fixed connection between the inverter and the Inverter fixed point mounting-bracket.

  • Page 12: Led Indicator

    4.3 LED indicator Function Description Glowing The product operates normally and the solar energy is available. Flashing The product is self-checking automatically, or the firmware is updating. SOLAR The solar energy is not available. Glowing The product operates normally and the battery energy is available. The product is self-checking automatically, or the firmware is updating, or the Flashing SOC of the battery is low.

  • Page 13: Supported Grid Types

    The product is equipped with an Ai-Dongle as standard, which provides a user interface for configuring and monitoring the product. The Ai-Dongle can connect to the Internet via WLAN or the Ethernet cable. If you don’t want to use Ai-Dongle, the Solplanet communication products or the third-party monitor device can be chosen. RS485 Interface The product equipped with several RS485 interfaces.
  • Page 14 RJ45-4 port (see section 6.8.1): This RS485/CAN interface used to connect the BMS (Battery Manage System) of the battery (see section 6.8.1). If the communication interface of the BMS is CAN interface, the pins for CAN interface can be chosen to connect.
  • Page 15 This product complies with IEC 62109-2 clause 13.9 for earth fault alarm monitoring. If an Earth Fault Alarm occurs, the red color LED indicator will light up. At the same time, the error code 38 will be sent to the Solplanet Cloud.

  • Page 16: Basic System Solution

    4.6 Basic system solution The product is a high-quality inverter which can convert solar energy to AC energy and store energy into battery. The product can be used to optimize self-consumption, store in the battery for future use or feed into public grid. The basic application of this product as follow: UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 17 Description Object Remark The product supports to connect the monocrystalline silicon, polycrystalline silicon, and thin- PV String film without grounding. ASW H-T2 and ASW H-T3 series products have an EPS port. ASW H-T2-O and ASW H-T3-O Hybrid inverter series products doesn’t have an EPS port. The smart meter is the central device responsible for energy management.
  • Page 18 The system diagram of this product as follow: For Australia and New Zealand, the neutral cable of On-grid side and EPS side must be connected together according to the wiring rules AS/NZS 3000. Otherwise the EPS function will not work. For other countries, the following diagram is an example for grid systems without special requirement on wiring connection.
  • Page 19 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 20: Energy Management

    4.7 Energy Management The energy management mode depends on PV energy and user’s preference. There are four energy management mode can be chosen. Self-Consumption mode The photovoltaic energy is preferentially used by local load to improve the self- consumption rate and self-sufficiency rate. The energy management during daytime: Case 1: PV power generation is lower than the load power consumption, and the energy of the battery is not available.
  • Page 21 Case 2: PV power generation is lower than the load power consumption, and the energy of the battery is available. Case 3: PV power generation is larger than the load power consumption. UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 22 The energy management during night: Case 1: The energy of the battery is available. Case 2: The energy of the battery is not available. UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 23 Back-up power supply mode The battery is a back-up energy storage device. The battery always charged by PV power if it is not full charged. The battery discharge only when the utility grid loss. Case 1: The energy of the battery is not full charged. Case 2: The energy of the battery is full charged, even at night.
  • Page 24 Case 3: The battery discharge when the utility grid loss. Off-grid mode The product operates as a stand-alone inverter. The product only power supply the EPS port. User defined mode Users can manage the energy according to their own needs, and set the daily regular charging and discharging on the app. Other time follow the Self-Consumption mode.

  • Page 25: Parallel System

    4.8 Parallel System The hybird inverter can operate as a parallel system. The system can even work when the utility grid is loss occasionally. A Master Inverter B Slaver Inverter 1 C Slaver Inverter N D Grid port E EPS load port F Communication cable UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 26 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 27 NOTICE Damage to the inverter due to wiring error. Parallel system wiring must be performed as required, otherwise the product will not work properly or even be damaged. The EPS load phase sequence of all parallel inverters must be completely consistent, and the load lines of multiple inverters are ...

  • Page 28: Mounting

    5 Mounting 5.1 Requirements for mounting DANGER Danger to life due to fire or explosion! Despite careful construction, electrical devices can cause fires. This can result in death or serious injury. Do not mount the product in areas containing highly flammable materials or gases. ...

  • Page 29: Taking Out And Moving The Product

    In case of multiple inverters, reserve specific clearance between the inverters.  The product should be mounted such that the LED signals can be read off without difficulty. The DC load-break switch of the product must always be freely accessible. 5.2 Taking out and moving the product Open the inverter packaging box, take the inverter out of the packaging box, and place the inverter at the designated installation location.
  • Page 30 Step 2: Hammer the plastic expansion pipe slowly into the drilled hole. Step 3: Align the mounting-bracket with the hole position and use the tapping nail to fix the hanging plate. Step 4: Hang the inverter to the mounting-bracket and ensure that the mounting ears perfectly engage with the mounting- bracket.
  • Page 31 Step 5: Fix the inverter with screws. Complete the installation. UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 32: Electrical Connection

    6 Electrical connection 6.1 Connection port description Figure shown here is for reference only. The actual product received may differ! Object Description Battery Port DC-switch PV Input Ai-Dongle Communication ports AC connector EPS Load connector Additional grounding screw UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 33: Connecting Additional Grounding

    6.2 Connecting additional grounding The inverter is equipped with a grounding conductor monitoring device. This grounding conductor monitoring device detects when there is no grounding conductor connected and disconnects the inverter from the utility grid if this is the case. Hence the product does not require an additional grounding or equipotential bonding when operating.

  • Page 34: Grid Cable Connection

    Step 3: Apply paint to the grounding terminal to ensure corrosion resistance. Complete the installation. 6.3 Grid cable connection 6.3.1 Requirements for the Grid connection Cable Requirements The cable must be dimensioned in accordance with the local and national directives for the dimensioning of cables. The requirements for the minimum wire size derive from these directives.
  • Page 35 No consumer load should be applied between AC circuit breaker and the inverter. The selection of the AC circuit breaker rating depends on the wiring design (wire cross-section area), cable type, wiring method, ambient temperature, inverter current rating, etc. Derating of the AC circuit breaker rating may be necessary due to self-heating or if exposed to heat.
  • Page 36 Step 3: Crimp the terminals with crimping pliers. Crimping tool selection and crimping requirements are shown in the following figure: UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 37 Step 4: Set the parts on the cable, insert the terminal holes in sequence. Crimp the wire with an inner hexagon screwdriver and screw the torque 1.2+/-0.1N·m. Step 5: Insert the main body into the rubber core and hear the “click” sound. Step 6:...
  • Page 38 The following figure shows the sequence of the AC connector cable harness. Object icon Connector number Line color brown black grey blue Yellow-green 6.3.3 Connecting the grid connectors Step 1: Remove the dust cover. Step 2: The installation arrow indicates insertion the female connector, and hear the “click” sound. Complete the installation.

  • Page 39: Eps Load Cable Connection

    6.4 EPS Load cable connection 6.4.1 Requirements for the EPS Load connection For EPS Load connection requirements, refer to “6.3.1 EPS Load Connection Requirements” for details. 6.4.2 Assembling the EPS Load connectors Step 1: Switch off the miniature circuit-breaker or the switch of every energy sources and secure it against being inadvertently switched back on.
  • Page 40 Crimping tool selection and crimping requirements are shown in the following figure: Step 4: Set the parts on the cable, insert the terminal holes in sequence. Crimp the wire with an inner hexagon screwdriver and screw the torque 1.2+/-0.1N·m. UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 41 Step 5: Insert the main body into the rubber core and hear the “click” sound. Step 6: Tighten the nut with an open-ended wrench (torque 2.5±0.5N·m). 6.4.3 Connecting the Back Load connectors Step 1: Remove the dust cover. UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 42: Dc Connection

    Step 2: The installation arrow indicates insertion the female connector, and hear the “click” sound. Complete the installation. 6.5 DC connection 6.5.1 Requirements for the DC connection Requirements for the PV modules per input: All PV modules should be of the same type. ...
  • Page 43 For connection to the inverter, all PV module connection cable must be fitted with the DC connectors provided. There may be one of two different type DC connector shipped. Assemble the DC connectors as described in the following. Type 1 DC connector: Assemble the DC connectors as described below.
  • Page 44 If the stranded wire is not visible in the chamber, the cable is not correctly inserted and the connector must be reassembled. To do this, the cable must be removed from the connector. Release the clamping bracket. To do so, insert a screwdriver (blade width: 3.5mm) into the clamping bracket and pry the clamping bracket open.
  • Page 45 Cable requirements: Item Description Value Cable type PV1-F, UL-ZKLA or USE2 External diameter 5-8 mm Conductor cross-section 2.5-6 mm² Number of copper wires At least 7 ≥1100v The rated voltage Procedure: Step 1: Strip 12 mm off the cable insulation. Step 2:...
  • Page 46 6.5.3 Connecting the PV module DANGER Danger to life due to high voltages in the inverter! When exposed to light, the PV modules generate high DC voltage which is present in the DC cables. Touching live DC cables results in death or lethal injuries due to electric shock.. Before connecting the PV array, ensure that the DC switch is switched off and that it cannot be reactivated.
  • Page 47 Type 1 DC connector: Connect the assembled DC connectors to the inverter.  For unused DC connectors, push down the clamping bracket and push the swivel nut up to the thread. Insert the DC  connectors with sealing plugs into the corresponding DC inputs on the inverter. Insert the DC connectors with sealing plugs into the corresponding DC inputs on the inverter.
  • Page 48 Type 2 DC connector: Connect the assembled DC connectors to the inverter.  For unused DC connectors, push down the clamping bracket and push the swivel nut up to the thread. Insert the DC  connectors with sealing plugs into the corresponding DC inputs on the inverter. Check the positive and negative polarity of the PV strings, and connect the PV connectors to corresponding terminals only after ensuring polarity correctness.

  • Page 49: Battery Connection

    6.6 Battery connection 6.6.1 Requirements for the Battery connection Assemble the Battery connectors as described in the following. Assemble the Battery connectors as described below. Be sure to observe the correct polarity. The Battery connectors are marked with the symbols “+” and “−”. Cable requirements: Item Description...
  • Page 50 Step 3: Lead the cable through cable gland, and insert into the insulator until it snaps into place. Gently pull the cable backward to ensure firm connection. Tighten the cable gland and the insulator (Torque 4Nm). Step 4: Ensure that the cable is correctly positioned. 6.6.3 Connecting the Battery connectors Step 1:...

  • Page 51: Ai-Dongle Connection

    6.7 Ai-Dongle connection Procedure: Step 1: Rotate the nut, take out the sealing ring, hold the locking structure, and take out the wiring terminal. Step 2: Lock the communication cable to the wiring terminal according to the sequence shown in the following figure. Step 3:...
  • Page 52 Step 5: Attach the Ai-Dongle to the connection port in place and tighten it into the port by hand with the nut in the modular. Make sure the modular is securely connected and the label on the modular can be seen. NOTICE Rotating the communication modular will damage the communication modular! The communication modular is protected by locking nuts to protect the reliability of the connection.

  • Page 53: Communication Equipment Connection

    6.8 Communication equipment connection 6.8.1 Communication interface description The inverter is equipped with a communication interface, which is used to connect communication cables such as lithium battery, electricity meter and parallel machine. The interface configuration of the communication interface is shown in the following figure.
  • Page 54 PIN definition Description Terminal Object Multifunction Relay 1 Multifunction Relay 2 DO1/DO2 4pin Terminal-1 NS-protection (network Smart Meter PT100 Temperature Sensor and system protection) 6pin Terminal-2 Device RS485A RS485B Positive Negative Positive Negative Ripple Control Receiver Device DRMS Device DI*4/DRM0 6pin COM LOAD/0 Terminal-3...
  • Page 55 6.8.2 Communication cable connection Step 1: Remove the communication cover. Step 2: Route the communication cable through the communication cover and crimp the wiring terminal. The sequence of the crimping wires of the wiring terminals is shown in the following figure: Step 3:...
  • Page 56 Step 4: Install the communication cover on the inverter. Step 5: Tighten the cable gland nuts. Complete the installation. UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 57 6.8.3 Current Transformer connection UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 58 6.8.4 Smart meter connection UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 59: Commissioning And Operating

    Step 1: Turn the DC switch of the inverter to “ON” position and start battery, keep breaker which is between inverter and battery off. Step 2: Set initial protection parameters and battery model via the Solplanet App. For details, please refer to 8.4 Step 3: According to the instructions in the battery quick installation manual, Enable battery output,switch on the battery breaker.

  • Page 60: Solplanet App

    Procedure: Step 1: Open Solplanet App to enter the login screen, and tap “Do not have an account” to enter the next screen. Step 2: The user groups “Business user” and “End user” need be selected according to your identity, and tap “Next step”.
  • Page 61 Step 1 Step 2 Step 3 Step 4 Step 5 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 62: Create A Plant

    8.4 Create a plant Procedure: Step 1: Open Solplanet App to enter the login screen, enter the account name and password, and tap “Log in” to enter the next screen. Step 2: Tap the symbol “+” to enter the next screen, and tap “Create or modify a plant”, then the camera of the mobile automatically turns on, and scan the QR code of the Ai-dongle to enter the next screen, tap “Create new plant”...
  • Page 63 Step 1 Step 2 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 64 Step 3 Step 4 Step 5 Step 6 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 65 Step 7 Step 8 Step 9 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 66 Step 10 Step 11 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 67 Step 12 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 68: Setting Parameters

    8.5.1 Inverter configuration The Solplanet’s products comply with local grid code when leaving the factory. But you still should check the grid code and the parameters according to the requirements of the installation site. Once configuration of the product is completed, the product will start operating automatically...
  • Page 69 ○ Power on/off Remote turn on/off the inverter on the App. ○ Configure the parameters of the Hybrid inverter. Energy storage settings Configure the parameters of the battery. 8.5.2 Grid code settings For the Australia market, the inverter cannot be connected to the grid before the safety related area is set. Please select from Australia Region A/B/C to comply with AS/NZS 4777.2:2020, and contact your local electricity grid operator on which Region to select.
  • Page 70 8.5.3 Active power reduction at overfrequency P(f) There are four modes (Please refer to the following table) can be chosen for this function and many parameters can be configured according to the requirement of the local grid company. Procedure: Step 1: Tap “Active power settings” to enter to the next page. Step 2:...
  • Page 71 Step 3 Step 4 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 72 Table description Name Description Droop is defined as the active power as a percentage of Act. Power as a ○ percentage of P The active power will continuously move up and down Linear the frequency characteristic curve in the frequency range of f1 to f stop Droop is defined as the active power as a percentage of...
  • Page 73 Here, the Droop is different from the Droop S in section 3.7.2 of the standard EN 50549-1. If you want to configure the Droop S, the formula as below should be used to configure. 8.5.4 Active power reduction at overvoltage P(U) There are five modes (Please refer to the following table) can be chosen for this function and many parameters can be configured according to the requirement of the local grid company.
  • Page 74 Step 3 Step 4 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 75 Table description Name Description Droop is defined as the active power as a percentage of The active power will continuously move up and down Act. Power as a ○ the voltage characteristic curve in the voltage range of percentage of Ustart to U stop , Linear...
  • Page 76 power output level reached in response to the increase in voltage between U to U start stop The active power reduce from the P that is the instantaneous active power at the time of exceeding Start voltage U start Droop is defined as the active power as a percentage of The active power will continuously move up and down Act.
  • Page 77 8.5.5 Cosφ(P) curve configuration The power related control mode cosφ(P) controls the cosφ of the output as a function of the active power output. There are four coordinate points that can be configured. The coordinate points are the active power as a percentage of P the displacement factor cosφ.
  • Page 78 Step 3 Step 4 Table description Parameter Description ○ The active power as a percentage of P ○ The displacement factor that is cosine of the phase angle Cosφ between the fundamental components of the line to neutral point voltage and the respective current. ○...
  • Page 79 The lock-in voltage value that enables the automatic ○ Activating reactive power delivery mode. voltage Activation threshold as a percentage of U corresponds to ‘lock-in’ voltage. The lock-out voltage value that disables the automatic ○ Deactivating reactive power delivery mode. voltage Deactivation threshold as a percentage of U corresponds...
  • Page 80 Step 1 Step 2 Step 3 Step 4 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 81 Table description Name Description ○ The voltage as a percentage of U ○ The reactive power as a percentage of P ○ Phase Choose the over-excited or under-excited. The lock-in active power value that enables the Activating power ○ automatic reactive power delivery mode. as a percentage Activation threshold as a percentage of P corresponds to...

  • Page 82: Parallel Parameter Settings

    8.6 Parallel parameter settings The product is shipped according to the single machine configuration parameters. Parallel use requires resetting the parameters. After the parallel system assembly is completed, the steps for setting parameters are as follows: Step 1: Refer to Chapters 8.1-8.5 to download and install the APP, configure the power station, and connect to the Internet. Step 2:...
  • Page 83 Step 2 Step 3 Step 4 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...
  • Page 84 Step 4 Step 5 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

  • Page 85: Decommissioning The Product

    9 Decommissioning the product 9.1 Disconnecting the inverter from voltage sources Prior to performing any work on the product, always disconnect it from all voltage sources as described in this section. Always adhere to the prescribed sequence. WARNING Danger to life due to electric shock from destruction of the measuring device due to overvoltage! Overvoltage can damage a measuring device and result in voltage being present in the enclo- sure of the measuring device.
  • Page 86 Step 6: Ensure that no voltage is present between the positive terminal and negative terminal at the DC inputs using a suitable measuring device. Step 7: Loosen and remove the Grid connector. Unlock instructions ① Rotate the latch as shown. ②...

  • Page 87: Dismantling The Inverter

    Step 10 : Remove the communication cover. Remove the communication cable in reverse order by referring to 6.7 Communication equipment connection. Step 11: Hold down the buckle on the side of the Ai-Dongle and pull out the Ai-Dongle terminal. 9.2 Dismantling the inverter After disconnecting all electrical connections as described in Section 9.1, the inverter can be removed as follows Procedure: Step 1:...

  • Page 88: Technical Data

    10 Technical data 10.1 ASW05 kH/06kH/08kH/10kH/12kH-T2 ASW08KH -T2 ASW10KH -T2 Type ASW05KH -T2 ASW06KH -T2 ASW12KH -T2 DC Input 12000 Wp 15000 Wp 18000 Wp Maximum power of PV array 7500 Wp 9000 Wp 1100 V Maximum input voltage Rated input voltage 600 V 60 V Minimum input voltage...

  • Page 89: Asw05Kh/06Kh/08Kh/10Kh/12Kh-T2-O

    Overvoltage category in accordance with IEC 60664-1 Efficiency Maximum efficiency 98.0% 98.2% 98.4% 98.4% 98.4% European weighted efficiency 97.2% 97.5% 97.9% 97.9% 97.9% Battery data Max charging power 5000 W 6000 W 8000 W 10000 W 12000 W Max discharging power 5000 W 6000 W 8000 W...
  • Page 90 AC Input and Output Rated output power at 230 V 5000 W 6000 W 8000 W 10000 W 12000 W Maximum apparent power at cos φ = 1 Rated apparent power at cosφ = 1 5000 VA 6000 VA 8000 VA 10000 VA 12000 VA 5000 VA...

  • Page 91: Asw08Kh/10Kh/12Kh-T3

    10.3 ASW08kH/10kH/12kH-T3 ASW08KH -T3 ASW10KH -T3 Type ASW12KH -T3 DC Input 12000 Wp 15000 Wp 18000 Wp Maximum power of PV array 1100 V Maximum input voltage Rated input voltage 600 V 60 V Minimum input voltage Initial input voltage 180 V MPP voltage range 200-950 V...

  • Page 92: Asw08Kh/10Kh/12Kh-T3-O

    Efficiency Maximum efficiency 98.4% 98.4% 98.4% European weighted efficiency 97.9% 97.9% 97.9% Battery data Max charging power 8000 W 10000 W 12000 W Max discharging power 8000 W 10000 W 12000 W Battery voltage range 120~600 V Max charging current 30 A Max discharging current 30 A...
  • Page 93 Maximum apparent power at cos φ = 1 8000 VA 10000 VA 12000 VA 220 V / 380 V [3/N/PE] Rated grid voltage 230 V / 400 V [3/N/PE] 240 V / 415 V [3/N/PE] Grid voltage range 270-480 V (Phase to Phase) Rated grid frequency 50Hz/60Hz Grid frequency range...

  • Page 94: General Data

    10.5 General data ASW05kH/06kH/08kH/10kH/12kH-T2 ASW08kH/10kH/12kH-T3 Type ASW05kH/06kH/08kH/10kH/12kH-T2-O ASW08kH/10kH/12kH-T3-O 545 mm × 465 mm ×205 mm Width × height × depth 24.5 kg 26 kg Weight Topology Non-isolated Operating temperature range -25℃ … +60℃ Allowable relative humidity 0% ... 100% range (non-condensing) Degree of protection for electronics in IP66 accordance with IEC 60529...

  • Page 95: Protective Device

    10.6 Protective device ASW05kH/06kH/08kH/10kH/12kH-T2 ASW05kH/06kH/08kH/10kH/12kH-T2-O Protective devices ASW08kH/10kH/12kH-T3 ASW08kH/10kH/12kH-T3-O Integrated DC reverse polarity protection Integrated DC isolator Integrated Ground fault monitoring Integrated AC short- circuit current capability Integrated Active anti-islanding protection Integrated PV string current monitoring Integrated DC current injection monitoring Low voltage ride through Integrated High voltage ride through...

  • Page 96: Troubleshooting

    11 Troubleshooting When the PV system does not operate normally, we recommend the following solutions for quick troubleshooting. If an error or warning occurs, there will have “Event Messages" display in the LCD screen and monitor tools. The corresponding corrective measures are as follows: Error code Message...
  • Page 97 Over Check whether the airflow to the heat sink is obstructed.  temperature Check whether the ambient temperature around the inverter is too high.  fault Disconnect the inverter from the battery,the grid and the PV array and  Self-diagnosis reconnect after 3 minutes.

  • Page 98: Maintenance

    12 Maintenance 12.1 Cleaning the contacts of the DC switch DANGER High voltage of PV string may cause life danger! If the DC connector is disconnected while the PV inverter is working, electric arc may occur, causing electric shock and burns.

  • Page 99: Recycling And Disposal

    When the customer needs warranty service during the warranty period, the customer must pro- vide a copy of the invoice, factory warranty card, and ensure the electrical label of the inverter is legible. If these conditions are not met, Solplanet has the right to refuse to provide with the relevant warranty service.

  • Page 100: Contact

    16 Contact EMEA Service email: service.EMEA@solplanet.net APAC Service email: service.APAC@solplanet.net LATAM Service email: service.LATAM@solplanet.net AISWEI Pty Ltd. Hotline: +61 390 988 674 Add.: Level 40, 140 William Street, Melbourne VIC 3000, Australia AISWEI B.V. Hotline: +31 208 004 844 (Netherlands) +48 134 926 109 (Poland) Add.: Barbara Strozzilaan 101,5e etage,kantoornummer 5.12,1083HN Amsterdam,the Netherlands...
  • Page 101 UM0035_ASW05-12KH-T2-T3_EN_V02_1123...

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