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Solplanet ASW A-S Series User Manual

Single phase all-in-one hybrid energy storage system
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Summary of Contents for Solplanet ASW A-S Series

  • Page 2: Table Of Contents

    7.2 Commissioning procedure ......37 7.3 Checking the operating status ....37 7.4 Configure the parameter on the screen ..38 Solplanet APP ..........40 8.1 Brief introduction ........40 8.2 Download and install ......... 40 8.3 Create an account ........40 8.4 Create a plant ..........

  • Page 3: General Information

    All-in-one hybrid energy storage system (HESA). You will find the latest version of this document and further information on the HESA in PDF format at www.solplanet.net. It is recommended that this document be readily accessible 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

     standards and directives. Any other application may cause personal injury or damage to property. The product must only be used in countries for which it is approved by solplanet and the grid operator.  The type label must be permanently attached to the product and must be in a legible condition.

  • Page 6: Symbols On The Label

    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 range higher than the grid voltage.
  • Page 7 CE marking The product complies with the requirements of the applicable EU directives. Certification mark The product has been tested by TÜ V and obtained the quality certification mark. CE marking The product complies with the requirements of the applicable EU directives. Capacitor discharge Danger to life due to high voltages in the inverter.

  • Page 8: 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 All-in-one system DC connector External CT AC connector Document 3.2 Product storage...

  • Page 9: Inverter Overview

    4 Inverter overview 4.1 Product description Figure shown here is for reference only. The actual product received may differ Object Description Display screen Button area Wiring area Battery button Secondary grounding wire screw Ai-Dongle QR code Labels 4.2 Dimensions Unit mm UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 10: Display

    4.3 Display The information provided here includes the operating parameters of all single phase All-in-one hybrid energy storage system. 4.3.1 Overview of the panel The machine is equipped with 1 display screen and 3 keys. Mark Area NAME Function Alarm, set parameters, and working status display. See below. A DISPLAY Adjust parameter selection or parameter value upward.
  • Page 11 4.3.2 Screen The information provided here includes the operating parameters of all single phase All-in-one hybrid energy storage system. Object Description PV strings model. Output power of PV strings. The SOC information of the battery, 5 cells of charge represents 100% SOC. Battery charging and discharging power values, the arrow up means discharge, and vice versa, charge.

  • Page 12: Interfaces And Functions

    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 two external RS485 interfaces.

  • Page 13: System Solution

    4.5 System solution 4.5.1 System solution The single phase All-in-one hybrid energy storage system is composed of the following parts. Description Object Remark Supports to connect monocrystalline silicon module, polycrystalline silicon module, and thin- PV module film module without grounding. Inveter Energy conversion (HESA).
  • Page 14 Utility grid The product can connect to TN and TT grounding system grid. Load General electrical equipment or EPS. Router The product can connect to router through Wi-Fi signal or Ethernet cable. Internet The monitor information can transfer to Cloud Server through Internet. Cloud server The monitor information is stored at cloud server.
  • Page 15 The connection line diagram of multiple devices with an European grid is shown in Figure 2 (up to three devices in parallel mode). Figure 2 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 16 The three-phase networking diagram of the devices with an European grid is shown in Figure 3. Figure 3 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 17: Energy Management

    4.6 Energy Management Single phase All-in-one hybrid energy storage system has three operating modes, self-consumption, simple mode and custom mode. 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 18 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. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 19 The energy management during night: Case 1: The energy of the battery is available. Case 2: The energy of the battery is not available. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 20 Simple mode In some cases, users don’t need CT sensors and can achieve convenient and economical energy management solutions by simply setting the parameters of the all-in-one machine. The user can set the upper and lower SOC values of the battery through the APP (see the chapter on APP Usage for details) (the default value for the upper SOC is 100%, the lower SOC is 10%), the battery discharge time range (the default value is 18:00 PM to 22:00 PM) and the battery discharge power on the LCD screen.

  • Page 21: 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. Do not mount the HESA on flammable construction materials.  Do not mount the HESA in areas where flammable materials are stored. ...
  • Page 22 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 23: 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 PV Input Communication wiring area Ai-Dongle AC connector 6.2 Connecting additional grounding The HESA is equipped with a grounding conductor monitoring device. This grounding conductor monitoring device detects when there is no grounding conductor connected and disconnects the HESA from the utility grid if this is the case.
  • Page 24 Procedure: Step 1: Strip the grounding cable insulation. Insert the stripped part of the grounding cable into the ring terminal lug and crimp using a crimping tool. 1: Heat shrink tubing 2: OT/DT terminal (M5) Step 2: Remove the screw on the ground terminal, insert the screw through the OT/DT terminal, and lock the terminal using a wrench.

  • Page 25: Ac Connection

    6.3 AC connection 6.3.1 Requirements for the AC 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. Examples of factors influencing cable dimensioning are: nominal AC current, type of cable, routing method, cable bundling, ambient temperature and maximum desired line losses.
  • Page 26 6.3.2 AC cable connection Step 1: Remove the cover before making electrical connection. Subtract the waterproof ring according to the wire diameter. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 27 Step 2: Disconnect the HESA from the power grid and make sure that the HESA is not turned on. Step 3: Pass the AC cord through the waterproof ring. Step 4: Split grid connector. Step 5: Insert the conductor into a suitable ferrule acc. to DIN 46228-4 and crimp the terminals with crimping pliers. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 28 If the L line was connected to PE terminal, the HESA will not function properly. 。 Please ensure that the type of the conductors matches the signs of the terminals on the socket element.  Step 6: Set the parts on the cable, insert the terminal holes in sequence. Crimp the wire with a straight screwdriver and screw the torque 1.0+/-0.1 N·...
  • Page 29 Step 8: Tighten the nut with an open-ended wrench (torque 2.5±0.5 N· m). Complete the installation. 6.3.3 Connecting the AC connectors Step 1: Insert the AC connector into the AC connection jack and tighten when you hear the click” sound. Complete the installation.

  • Page 30: Dc Connection

    6.4 DC connection 6.4.1 Requirements for the DC connection Requirements for the PV modules per input: All PV modules should be of the same type.  All PV modules should be aligned and tilted identically.  On the coldest day based on statistical records, the open-circuit voltage of the PV modules must never exceed the ...
  • Page 31 Procedure: Step 1: Refer to the step 1 of 6.3.1 AC cable connection. Step 2: Pass the DC cord through the waterproof ring. Step 3: Pass the DC cord through the waterproof ring. Step 4: Crimp the contacts with the corresponding cables. Crimping tool:PV-CZM-61100. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 32 Step 5: Insert the contact cable assembly into back of the corresponding DC plug connector. A click” should be heard or felt when the contact cable assembly is seated correctly and tighten the swivel nut. (Torque:2.5 Nm) 6.4.3 Connecting the PV module NOTICE The HESA can be destroyed by overvoltage.
  • Page 33 Step 3: Ensure that the open-circuit voltage of the PV strings does not exceed the maximum DC input voltage of the HESA. Step 4: Connect the assembled DC connectors to the HESA until they audibly snap into place. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 34: Communication Equipment Connection

    6.5 Communication equipment connection 6.5.1 Communication ports Object Description USB port is used for formal updating. Current transformer CAN-1/CAN-2 Communication between each inverter of the three-phase combinations. RS485-1/RS485-2 Parallel operation communication. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 35 6.5.2 Communication cable connection A standard straight network cable of category 5E or higher is required for connection to the RJ45 socket. Step 1: Pass the network cable through the waterproof ring. Crimp the wiring terminal. Step 2: Remove the communication cover. Step 3:...
  • Page 36 Step 4: Connect the communication cable crimped to the corresponding communication port Step 5: Tighten the cable gland nuts. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 37: Commissioning And Operating

    Step 1: Switch on the battery circuit button. Step 2: Set initial protection parameters via the Solplanet App. For details, please refer to “8.4 Create a plant”. Step 3: Switch on the AC circuit breaker. If the irradiation and grid conditions meet requirements, the HESA will operate normally Step 4:...

  • Page 38: Configure The Parameter On The Screen

    Step 3: Third short press the “DOWN” key, the voltage, current and power of Battery is shown on the screen. Step 4: Fourth short press the “DOWN” key, the fault information is shown on the screen. Step 5: Short press the “HOME” key, the screen return to the home page. 7.4 Configure the parameter on the screen The display allows accessing the configuration of the basic parameters.
  • Page 39 Grid Code Work Mode Language UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 40: 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 41: Create A Plant

    8.4 Create a plant Step 2 Step 3 Step 1 Step 4 Step 5 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 42 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 43 Step 1 Step 2 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 44 Step 3 Step 4 Step 5 Step 6 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 45 Step 7 Step 9 Step 8 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 46 Step 10 Step 11 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 47 Step 12 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 48: Setting Parameters

    8.5 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 49 Update the firmware of the inverter and monitor device. Inverter update Update the safety package. 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.
  • Page 50 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:...
  • Page 51 Step 3 Step 4 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 52 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 53 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 54 Step 3 Step 4 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 55 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 The active power reduce from the P...
  • Page 56 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 57 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 58 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. Phase Choose the over-excited or under-excited.
  • Page 59 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 to ‘lock-out’...
  • Page 60 Step 1 Step 2 Step 3 Step 4 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...
  • Page 61 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 62: Decommissioning The Product

    9 Decommissioning the product 9.1 Disconnecting the inverter from voltage sources DANGER Danger to life due to electric shock when touching exposed AC conductors if the AC connectors are damaged or loose! The AC connectors can break or become damaged, become free of the AC cables, or no longer be connected correctly if the AC connectors are released and disconnected incorrectly.
  • Page 63 Step 7: Refer to 6.2.2 Communication cable connection to remove the network cable. UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

  • Page 64: Technical Data

    10 Technical data 10.1 ASW 0400-1000/1250A-S ASW 0400/1250A-S ASW 0600/1250A-S ASW 0800/1250A-S ASW 1000/1250A-S Type DC Input 1600 Wp 1600 Wp Maximum power of PV array 800 Wp 1600 Wp 50 V Maximum input voltage MPP voltage range 16-50 V 30-50 V MPP voltage range at Pnom Rated input voltage...

  • Page 65: Asw 0400-1000/2500A-S

    Feed-in phase Connection phase Overvoltage category in accordance with IEC 60664-1 Efficiency Maximum efficiency 91.0% European weighted efficiency 87.0% Battery data Max charging power 1000 W Max discharging power 1000 W Battery voltage range 37.5~60 V Max charging current 18 A Max discharging current 18 A Rated charging current...
  • Page 66 Strings per MPP input Overvoltage category in accordance with ICE 60664-1 AC Input and Output 400 W 600 W 800 W 1000 W Rated output power at 230 V Rated apparent power at cosφ = 1 400 W 600 W 800 W 1000 W Maximum apparent power at cos φ...

  • Page 67: General Data

    Rated apparent power at 230 V 1000 W Max. Continuous apparent power at 230 V 1000 W Max. apparent power at 230 V <60 s 2000 VA Nominal AC voltage 220/230/240 V AC grid frequency 50 Hz/60 Hz Max. continuous output current 4.4 A Max.

  • Page 68: Protective Device

    10.4 Protective device Type ASW 0400-1000/1250A-S ASW 0400-1000/2500A-S DC reverse polarity Integrated protection 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 Integrated...

  • Page 69: 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 70 The failure will appear when the inverter detects that the system input DC  voltage exceeds the inverter max DC voltage. Remove all the strings from inverter, and use the multimeter to measure the  PV Over Voltage voltage between PV+ and PV- for each string. All the voltage shall not exceed the inverter max DC voltage.

  • Page 71: Maintenance

    12 Maintenance Cleaning air inlet and outlet CAUTION Hot enclosure or heat sink may cause personal injury! When the inverter is working, the temperature of the enclosure or heat sink will be higher than 70℃, and the contact may cause burns. Before cleaning the air outlet, shut down the machine and wait for about 30 minutes until the temperature of the enclosure ...

  • Page 72: Recycling And Disposal

    If these conditions are not met, Solplanet has the right to refuse to provide with the relevant warranty service.

  • Page 73: 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 74 UM0045_ASW04001250A-10002500A-S_EN_V02_0823...

This manual is also suitable for:

Asw0400/1250a-sAsw0600/1250a-sAsw0800/1250a-sAsw1000/1250a-sAsw0400/2500a-sAsw0600/2500a-s ... Show all

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