Solplanet ASW05kH-T2 User Manual
Three phase hybrid inverter
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Summary of Contents for Solplanet ASW05kH-T2
- Page 1 ASW05kH/06kH/08kH/10kH/12kH-T2 ASW05kH/06kH/08kH/10kH/12kH-T2-O ASW08kH/10kH/12kH-T3 ASW08kH/10kH/12kH-T3-O Three phase hybrid inverter User Manual...
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Page 2: Table Of Contents
Contents 1 General information..............1.1 About this document................1.2 Product Validity..................1.3 Target group..................... 1.4 Symbols....................Safety..................2.1 Intended use.................... 2.2 Important safety instructions..............2.3 Symbols on the label................Unpacking and storage............. 3.1 Scope of delivery..................3.2 Product storage..................Inverter overview..............4.1 Product description................. - Page 3 6.8.2 Communication cable connection..........6.8.3 Current Transformer connection........... 6.8.4 Smart meter connection..............7 Commissioning................7.1 Inspection before commissioning............. 7.2 Commissioning procedure................ 8 Solplanet app................8.1 Brief introduction..................8.2 Download and install................8.3 Create an account..................8.4 Create a plant................... 8.5 Setting parameters...................
- Page 4 8.5.4 Active power reduction at overvoltage P(U)........8.5.5 Cosφ(P) curve configuration............8.5.6 Q(U) curve configuration............... 9 Decommissioning the product........... 9.1 Disconnecting the inverter from voltage sources........9.2 Dismantling the inverter................10 Technical data................10.1 ASW05kH/06kH/08kH/10kH/12kH-T2..........10.2 ASW05kH/06kH/08kH/10kH/12kH-T2-O..........10.3 ASW08kH/10kH/12kH-T3..............10.4 ASW08kH/10kH/12kH-T3-O..............10.5 General data...................
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Page 5: 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 6: 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. -
Page 7: Safety
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. The product also can convert the direct current supplied by the battery into grid-compliant three-phase current. -
Page 8: Important Safety Instructions
• Knowledge of all applicable laws, standards and directives. • Knowledge of and compliance with this document and all safety information. • The type label must be permanently attached to the product and must be in a legible condition. • This document does not replace any regional, state, provincial, federal or national laws, regulations or standards that apply to the installation, electrical safety and use of the product. - Page 9 DANGER Danger to life due to electric shock when touching live com- ponents in backup mode! Even if the AC breaker and the PV switch of the inverter are disconnected, the parts of the system may still be live when the battery is switched on due to backup mode. •...
- Page 10 DANGER Danger to life due to electric shock when touching live sys- tem components in case of a ground fault! If a ground fault occurs, parts of the system may still be live. Touching live parts and cables may result in death or lethal injuries due to electric shock. •...
- Page 11 CAUTION Risk of injury due to weight of product Injuries may result if the product is lifted incorrectly or dropped while being transported or mounted. • Transport and lift the product carefully. Take the weight of the product into account. •...
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Page 12: Symbols On The Label
Symbols on the label . eware o a danger one! This symbol indicates that the roduct must be additionally grounded i additional grounding or e ui otential bonding is re uired at the installation site. eware o high voltage and o erating current! The roduct o erates at a high voltage and current. -
Page 13: Unpacking And Storage
• • • • UM0035_ASW05-12kH-T2-T3_EN_V01_0523... -
Page 14: Inverter Overview
Name Labels Unit:mm (Lumbar foramen) φ UM0035_ASW05-12kH-T2-T3_EN_V01_0523... -
Page 15: Led Indicator
4.3 LED indicator Function Description The product operates normally and the solar energy is Glowing available. SOLAR The product is self-checking automatically, or the firm- Flashing ware is updating. The solar energy is not available. The product operates normally and the battery energy Glowing is available. -
Page 16: Supported Grid Types
TN-S TN-C TN-C-S transformer transformer transformer transformer Inverter Inverter Inverter Inverter 4.5 Interfaces and functions UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 17 RJ45-3 port (see section 6.7.1): This RS485 interface used to connect the product to the third-par- ty monitor device. If you don’t want to use Ai-Dongle, the third-party monitor device can be used. Terminal block 2 (see section 6.7.1): This RS485 interface (Pin1 and Pin2) used to connect the external smart meter.
- Page 18 The product is delivered with the current transformers as standard. The current transformers can be used to measure the export active power. The communication of the current transformers can be connected to the product through RS485 (see section 6.7.1, Terminal 2). And the current transformer also can be replaced by the smart meter.
- Page 19 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. UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 20: Basic System Solution
UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 21 Item Smart meter communication. It is not recommended to use both communi cation methods at the same time. Router Internet Internet. the monitor information. UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 22 The system diagram o this roduct as ollow or Australia and ew ealand, the neutral cable o n grid side and ack u side must be connected together according to the wiring rules AS therwise the back u unction will not work. CT C eter Grid...
- Page 23 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 24: Energy Management
. Energy management The energy management mode de ends on P energy and user s re erence. There are our energy management mode can be chosen. Sel Consum tion mode The hotovoltaic energy is re erentially used by local load to im rove the sel consum tion rate and sel su ciency rate. - Page 25 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 29: Parallel System
UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 30 BATTERY GRID Terminal-1 Terminal-2 COM0 Terminal-3 LOAD Terminal-4 BATTERY GRID Terminal-1 Terminal-2 COM0 Terminal-3 LOAD Terminal-4 BATTERY GRID Terminal-1 Terminal-2 COM0 Terminal-3 LOAD Terminal-4 Normal Loads Smart household load Grid UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 31: Mounting
5.1 Requirements for mounting ! DANGER ! • • • • • The mounting location must be inaccessible to children. • • × × × √ √ √ UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 32 • >75° × × × √ √ √ × • • >500mm >500mm >500mm >500mm • • UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 33: Taking Out And Moving The Product
! CAUTION • • Step 1: Φ10 mm ° ! CAUTION • UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 34 Step 2: Step 3: 10mm 5N·m Step 4: UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 35 Step 5: · UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 36: Electrical Connection
Electrical connection Connection port description BATTERY GRID COM0 LOAD ! Object Description Battery Port DC-switch 指示逆变器当前的工作状态 LED指示灯 PV Input Ai-Dongle Communication ports AC connector EPS connector Additional grounding screw UM0035_ASW05-12kH-T2-T3_EN_V01_0523... -
Page 37: Connecting Additional Grounding
6.2 Connecting additional grounding The inverter is equipped with a grounding conductor monitoring device. This grounding conduc- tor 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 addition- al grounding or equipotential bonding when operating. -
Page 38: Grid Cable Connection
Step 2: and lock the terminal using a wrench. · Step 3: Apply paint to the grounding terminal to ensure corrosion resistance. 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. - Page 39 Item Description Value 12.5…17.5mm External diameter Copper cable conductor cross-section 2.5…6mm² Insulation stripping length 10mm Sheath stripping length 40mm Residual current protection The product is equipped with an integrated universal current-sensitive residual current monitor- ing unit inside. Hence the product does not require an external residual-current device when operating.
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Page 40: Assembling The Grid Connectors
Grounding conductor monitoring The inverter is equipped with a grounding conductor monitoring device. This grounding conduc- tor monitoring device detects when there is no grounding conductor connected and disconnects the inverter from the utility grid if this is the case. Depending on the installation site and grid configuration, it may be advisable to deactivate the grounding conductor monitoring. - Page 41 Split grid connector. Step 2: Crimp the terminals with crimping pliers. Step 3: Set the parts on the cable, insert the terminal holes in sequence. Crimp the wire with an Step 4: inner hexagon screwdriver and screw the torque 1.2+/-0.1N·m. 1.2±0.1N ·...
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Page 42: Connecting The Grid Connectors
Insert the main body into the rubber core and hear the “click” sound. Step 5: click Tighten the nut with an open-ended wrench (torque 2.5±0.5N·m . Step 6: Complete the installation. 6.3.3 Connecting the grid connectors Remove the dust cover. Step 1:... -
Page 43: Backup Load Cable Connection
The installation arrow indicates insertion the female connector, and hear the “click” Step 2: sound. click Complete the installation. 6.4 Backup Load cable connection 6.4.1 Requirements for the Backup Load connection For Backup Load connection requirements, refer to “6.3.1 Requirements for the grid connec- tion”... - Page 44 Crimp the terminals with crimping pliers. Step 3: Set the parts on the cable, insert the terminal holes in sequence. Crimp the wire with an Step 4: inner hexagon screwdriver and screw the torque 1.2+/-0.1N·m. 1.2±0.1N · m Insert the main body into the rubber core and hear the “click” sound. Step 5:...
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Page 45: Connecting The Back Load Connectors
Tighten the nut with an open-ended wrench (torque 2.5±0.5N·m . Step 6: Complete the installation. 6.4.3 Connecting the Back Load connectors Remove the dust cover. Step 1: The installation arrow indicates insertion the female connector, and hear the “click” Step 2: sound. -
Page 46: Dc Connection
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. • All PV modules should be aligned and tilted identically. • On the coldest day based on statistical records, the open-circuit voltage of the PV array must never exceed the maximum input voltage of the inverter. - Page 47 or connection to the inverter, all P module connection cable must be fitted with the DC connectors rovided. There may be two di erent ty e DC connector shi ed randomly. Assemble the DC connectors as described in the following. Type 1 DC connector: Assemble the DC connectors as described below.
- Page 48 Insert the stripped cable into the DC connector up to the stop. Press the clamping Step 2: bracket down until it audibly snaps into place. The stranded wire can be seen inside the clamping bracket chamber. Click If the stranded wire is not visible in the chamber, the cable is not correctly inserted and the connector must be reassembled.
- Page 49 3:Push the swivel nut u to the thread and tighten the swivel nut. SW , Tor ue Step Value Complete the installation. Type 2 DC connector: Value Assemble the DC connectors as described in the following. Assemble the DC connectors as described below. Be sure to observe the correct polarity. The DC connectors are marked with the symbols Cable requirements: Item...
- Page 50 Proceed as follows to assemble each DC connector. 1:Strip 12 mm off the cable insulation. Step 2.5-6mm Φ - 5 8mm 2:Assemble the cable ends with the crimping pliers. Step Lead the cable through cable gland, and insert into the insulator until it snaps into place. Step 3:...
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Page 51: Connecting The Pv Array
6.5.3 Connecting the PV array ! 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. •... - Page 52 Check whether the DC connector has the correct polarity. Step 4: If the DC connector is equipped with a DC cable having the wrong polarity, the DC connector must be reassembled. The DC cable must always have the same polarity as the DC connector.
- Page 53 • Insert the DC connectors with sealing plugs into the corresponding DC inputs on the invert- Type 2 DC connector: • Connect the assembled DC connectors to the inverter. • Don’t pull out dustproof caps from unused DC input connectors. UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 54: Battery Connection
Check the ositive and negative olarity o the P strings, and connect the P connectors to corresponding terminals only after ensuring polarity correctness. (The graph uses the type 2 connector as an e am le only. × √ Ensure that all DC connectors and the DC connectors with sealing plugs are securely in Step 7:... -
Page 55: Ai-Dongle Connection
Connect the assembled DC connectors to the inverter. Step 3: Complete the installation. 6.7 Ai-Dongle connection otate the nut, take out the sealing ring, hold the locking structure, and take out the Step 1: wiring terminal. UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 56 Lock the communication cable to the wiring terminal according to the sequence shown Step 2: in the ollowing figure. Insert the wiring terminal into the sealing head, ad ust the communication cable, insert Step 3: the sealing ring, and lock nut. Remove the dust and waterproof cover of the Ai-Dongle on the inverter and retain it.
- Page 57 Attach the Ai-Dongle to the connection port in place and tighten it into the port by hand Step 5: with the nut in the modular. ake sure the modular is securely connected and the label on the modular can be seen. NOTICE Rotating the communication modular will damage the com- munication modular!
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Page 58: Communication Equipment Connection
6.8 Communication equipment connection 6.8.1 Communication interface description The inverter is e ui ed with a communication inter ace, which is used to connect communica- tion cables such as lithium battery, electricity meter and arallel machine. The inter ace configu- ration o the communication inter ace is shown in the ollowing figure. - Page 59 PI Definition Object Description Terminal ulti unction elay ulti unction elay Terminal-1 4pin DO1/DO2 PT100 Temperture Sensor Smart eter UFR Device Terminal-2 6pin Negative Negative RS485A RS485B Positive Positive Ripple Control Receiver Device S Device 6pin Terminal-3 DI*4/DR 0 Current Transformer 1 Current Transformer 2 Current Transformer 3 Terminal-4...
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Page 60: Communication Cable Connection
6. .2 Communication cable connection Remove the communication cover. Step 1: Route the communication cable through the communication cover and crimp the wiring Step 2: terminal. The se uence o the crim ing wires o the wiring terminals is shown in the ollowing figure 1 2 3 4 5 6 7 8 Φ4-8mm UM0035_ASW05-12kH-T2-T3_EN_V01_0523... - Page 61 Connect the communication cable crimped to the corresponding communication port. Step 3: Install the communication cover on the inverter. Step 4: 1.6N · Tighten the cable gland nuts. Step 5: Complete the installation. UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 62: Current Transformer Connection
6. .3 Current Transformer connection BATTERY RJ45-1 RJ45-3 RJ45-5 GRID Terminal-1 Terminal-2 COM0 Terminal-3 LOAD RJ45-2 RJ45-4 RJ45-6 Terminal-4 1 2 3 4 5 6 Arrow pointing to inverter Grid UM0035_ASW05-12kH-T2-T3_EN_V01_0523... -
Page 63: Smart Meter Connection
6. .4 Smart meter connection BATTERY RJ45-1 RJ45-3 RJ45-5 GRID Terminal-1 Terminal-2 COM0 Terminal-3 LOAD RJ45-2 RJ45-4 RJ45-6 Terminal-4 RS485B RS485A Smart Inverter L1 L2 L3 N eter Grid L1 L2 L3 N Grid UM0035_ASW05-12kH-T2-T3_EN_V01_0523... -
Page 64: Commissioning
Commissioning 7.1 Inspection before commissioning CAUTION Danger to life due to high voltages on DC conductors! When exposed to sunlight, the PV array generates dangerous DC voltage which is present in the DC conductors. Touching the DC and AC conductors can lead to lethal electric shocks. •... -
Page 65: Commissioning Procedure
Turn the DC switch of the inverter to “ON” position. Set initial protection parameters via the Solplanet App. For details, please refer to “8.4 Create a plant”. Switch on the AC circuit breaker. If the irradiation and grid conditions meet requirements, the inverter will operate normally. -
Page 66: Solplanet App
8.3 Create an account If you do not have an account, you need to register a new account first. Procedure: Open Solplanet App to enter the login screen, and tap “Do not have an account” to enter Step 1: the next screen. - Page 67 The end user and the business user have the different permissions for setting parameters. The end user only can set the parameter during commissioning. The business user has more permissions, but they need submit more identity authentication documents. Enter the right mobile phone number (Via SMS) or E-mail address (Via mail). And tap the Step 3:...
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Page 68: Create A Plant
Step 4 Step 5 8.4 Create a plant Open Solplanet App to enter the login screen, enter the account name and password, Step 1: and tap “Log in” to enter the next screen. Tap the symbol “+” to enter the next screen, and tap “Create or modify a plant”, then the Step 2:... - Page 69 The grid code should be chosen at this step. And the parameters also should be set if the grid company has the different requirements. 7: The Energy Management shall be set here. Tap “Energy storage settings” to the next Step page, then tap “Battery settings”...
- Page 70 Step 1 Step 2 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 71 Step 3 Step 4 Step 5 Step 6 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 72 Step 7 Step 8 Step 9 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 73 Step 10 Step 11 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 75: 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 76: Grid Code Settings
Configure the parameters of the P(U) curve. Configure the Active power parameters of the P(f) curve. Configure the parameters of ➃ settings the active power limited. Configure the parameters of the active power increasing and decreasing speed. Choose the reactive power control mode. Configure the Reactive parameters of the Q (U) curve. -
Page 77: Active Power Reduction At Overfrequency P(F)
AS/NZS4777.2:2015 EN50549-1 AU AS/NZS4777.2:2020 A AU AS/NZS4777.2:2020 B AU AS/NZS4777.2:2020 C NZ AS/NZS4777.2:2020 Austria TOR Erzeuger Typ A V1.1 Belgium C10/11:2019 Brazil BR PORTARIA No. 140 BR NBR 16149:2013 Step 1 Step 2 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... - Page 78 Step 1 Step 2 ➄ ➀ ➁ ➅ ➂ ➃ ➆ ➇ ➈ ➈ ➈ Step 3 Step 4 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 79 Active power can increase at a Active power can increase at a specific gradient once the specific gradient once the voltage has returned to f voltage has returned to f reset reset ∆P ∆P f[Hz] f[Hz] stop stop reset reset Act.
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Page 80: Active Power Reduction At Overvoltage P(U)
The threshold frequency for deactivating the active power Deactivation ➅ response to overfrequency or disconnecting the inverter threshold f stop from the grid. The threshold frequency for deactivating the active Reset frequency power response to overfrequency after the frequency ➆ reset reducing. - Page 81 Step 1 Step 2 ➅ ➀ ➁ ➆ ➂ ➃ ➇ ➄ ➈ ➈ ➈ ➈ Step 3 Step 4 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 82 Active power can increase at a Active power can increase at a specific gradient once the specific gradient once the voltage has returned to U voltage has returned to U reset reset ∆P ∆P U[v] U[v] stop reset start stop reset start Act.
- Page 83 Table description Parameter 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 ➀ percentage of Ustart to U stop , Linear...
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Page 84: Cosφ(P) Curve Configuration
The threshold voltage for deactivating the active power Stop voltage response to overvoltage or disconnecting the inverter ➆ stop from the grid. The threshold voltage for deactivating the active power response to overvoltage after the voltage reducing. Reset voltage ➇ Reset voltage does not work in the mode “Act. - Page 85 Step 1 Step 2 ➀ ➁ ➂ ➃ ➄ Step 3 Step 4 UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 86 Cosφ ,Cosφ ,Cosφ ,Cosφ ,Cosφ Cosφ Cosφ(P) Curve Table description Parameter Description The active power as a percentage of P P/Pn ➀ The displacement factor that is cosine of the phase angle between the fundamental ➁ Cosφ components of the line to neutral point voltage and the respective current.
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Page 87: Q(U) Curve Configuration
8.5.6 Q(U) curve configuration The voltage related control mode Q(U) controls the reactive power output as a function of the voltage. There are four coordinate points that can be configured. The coordinate points are the voltage as a percentage of Un and the reactive power as a percentage of P Procedure: 1:Tap “Reactive power settings”... - Page 88 ➀ ➁ ➂ ➃ ➄ Step 3 Step 4 Q(U)Curve UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
- Page 89 Table description Parameter Description ➀ The voltage as a percentage of U The reactive power as a percentage of Pn. ➁ ➂ Phase Choose the over-excited or under-excited. The lock-in active power value that enables the Activating power automatic reactive power delivery mode. ➃...
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Page 90: Decommissioning The Product
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. - Page 91 ! DANGER Danger to life due to electric shock when touching exposed DC conductors or DC plug contacts if the DC connectors are damaged or loose! The DC connectors can break or become damaged, become free of the DC cables, or no longer be connected correctly if the DC connectors are released and disconnected incorrect- ly.
- Page 92 6:Ensure that no voltage is present between the positive terminal and negative terminal Step at the DC inputs using a suitable measuring device. Loosen and remove the Grid connector. Step 7: Unlock instructions ① ② Remove the female end of the cable to se the at head screwdriver installa tion icon unlock the account.
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Page 93: Dismantling The Inverter
Remove the communication cover. Remove the communication cable in reverse order by Step 9: referring to 6.7 Communication equipment connection. Hold down the buckle on the side of the Ai-Dongle and pull out the Ai-Dongle terminal. Step 10: 9.2 Dismantling the inverter After disconnecting all electrical connections as described in Section 9.1, the inverter can be removed as follows. -
Page 94: Technical Data
Technical data 10.1 ASW05 kH/06kH/08kH/10kH/12kH-T2 ASW05KH ASW06KH ASW12KH ASW08KH ASW10KH Type DC Input Maximum power of PV 7500Wp 9000Wp 12000Wp 15000Wp 18000Wp array Maximum input voltage 1100V Rated input voltage 630V Minimum input voltage Initial input voltage 180V MPP voltage range 150-950V 150-950V 200-950V... - Page 95 ASW05kH ASW06kH ASW12kH ASW08kH ASW10kH Type AC Input and Output Rated output power 5000W 6000W 8000W 10000W 12000W at 230V Rated apparent power 5000VA 6000VA 8000VA 10000VA 12000VA at cosφ = 1 Maximum apparent 5000VA 6000VA 8000VA 10000VA 120 00VA power at cos φ...
- Page 96 ASW05kH ASW06kH ASW10kH ASW12kH ASW08kH Type Short circuit current continuous [ms] (max 8.0A 9.6A 12.8A 16.0A 19.2A output fault current) Recommended rated current of AC circuit 20.0A 25.0A 32.0A 32.0A 40.0A breaker Total harmonic distortion of the output current with total harmonic distortion of <3%(of nominal power) the AC voltage <2%,...
- Page 97 ASW05kH ASW06kH ASW10kH ASW12kH ASW08kH Type Backup Data Rated apparent power 5000W 6000W 8000W 10000W 12000W at 230V Max. continuous 5000VA 6000VA 8000VA 10000VA 12000VA apparent power at 230V Max. apparent power at 10000VA 12000VA 16000VA 20000VA 24000VA 230V <10s Nominal AC voltage 230V / 400V [3/N/PE] AC grid frequency...
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Page 98: Asw05Kh/06Kh/08Kh/10Kh/12Kh-T2-O
10.2 ASW05kH/06kH/08kH/10kH/12kH-T2-O ASW05kH ASW12kH ASW06kH ASW10kH ASW08kH Type -T2-O -T2-O -T2-O -T2-O -T2-O DC Input Maximum power of PV 7500Wp 9000Wp 12000Wp 15000Wp 18000Wp array Maximum input voltage 1100V Rated input voltage 630V Minimum input voltage Initial input voltage 180V MPP voltage range 150-950V 150-950V... - Page 99 ASW05kH ASW06kH ASW10kH ASW12kH ASW08kH Type -T2-O -T2-O -T2-O -T2-O -T2-O Maximum apparent 5000VA 6000VA 8000VA 10000VA 12000VA power at cos φ = 1 220V / 380V [3/N/PE] Rated grid voltage 230V / 400V [3/N/PE] 240V / 415V [3/N/PE] Grid voltage range 270-480V(Phase to Phase) Rated grid frequency 50Hz/60Hz...
- Page 100 ASW05kH ASW06kH ASW12kH ASW10kH ASW08kH Type -T2-O -T2-O -T2-O -T2-O -T2-O Total harmonic distortion of the output current with total harmonic distortion of <3%(of nominal power) the AC voltage <2%, and AC power >50% of the rated power Adjustable displacement 0.8 leading to 0.8 lagging power factor Overvoltage category in...
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Page 101: Asw08Kh/10Kh/12Kh-T3
10.3 ASW08kH/10kH/12kH-T3 ASW10kH ASW12kH ASW08kH Type DC Input Maximum power of PV 12000Wp 15000Wp 18000Wp array Maximum input voltage 1100V Rated input voltage 630V Minimum input voltage Initial input voltage 180V MPP voltage range 200-950V 200-950V 200-950V MPP voltage range at 250-850V 320-850V 380-850V... - Page 102 ASW12kH ASW10kH ASW08kH Type Maximum apparent 8000VA 10000VA 12000VA power at cos φ = 1 220V / 380V [3/N/PE] Rated grid voltage 230V / 400V [3/N/PE] 240V / 415V [3/N/PE] Grid voltage range 270-480V(Phase to Phase) Rated grid frequency 50Hz/60Hz Grid frequency range 45-55Hz/55-65Hz Rated output current...
- Page 103 ASW12kH ASW10kH ASW08kH Type Total harmonic distortion of the output current with total harmonic distortion of <3%(of nominal power) the AC voltage <2%, and AC power >50% of the rated power Adjustable displacement 0.8 leading to 0.8 lagging power factor Overvoltage category in accordance with IEC 60664-1...
- Page 104 ASW10kH ASW12kH ASW08kH Type Backup Data Rated apparent power 8000W 10000W 12000W at 230V Max. continuous 8000VA 10000VA 12000VA apparent power at 230V Max. apparent power at 16000VA 20000VA 24000VA 230V <10s Nominal AC voltage 230V / 400V [3/N/PE] AC grid frequency 50Hz/60Hz Max.
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Page 105: Asw08Kh/10Kh/12Kh-T3-O
10.4 ASW08kH/10kH/12kH-T3-O ASW10kH ASW12kH ASW08kH Type -T3-O -T3-O -T3-O DC Input Maximum power of PV 12000Wp 15000Wp 18000Wp array Maximum input voltage 1100V Rated input voltage 630V Minimum input voltage Initial input voltage 180V MPP voltage range 200-950V 200-950V 200-950V MPP voltage range at 250-850V 320-850V... - Page 106 ASW12kH ASW10kH ASW08kH Type -T3-O -T3-O -T3-O Maximum apparent 8000VA 10000VA 12000VA power at cos φ = 1 220V / 380V [3/N/PE] Rated grid voltage 230V / 400V [3/N/PE] 240V / 415V [3/N/PE] Grid voltage range 270-480V(Phase to Phase) Rated grid frequency 50Hz/60Hz Grid frequency range 45-55Hz/55-65Hz...
- Page 107 ASW10kH ASW12kH ASW08kH Type -T3-O -T3-O -T3-O Total harmonic distortion of the output current with total harmonic distortion of <3%(of nominal power) the AC voltage <2%, and AC power >50% of the rated power Adjustable displacement 0.8 leading to 0.8 lagging power factor Overvoltage category in accordance with IEC...
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Page 108: General Data
10.5 General data ASW05kH/06kH/08kH/10kH/12kH-T2 ASW05kH/06kH/08kH/10kH/12kH-T2-O General data ASW08kH/10kH/12kH-T3 ASW08kH/10kH/12kH-T3-O 545mm × 465mm ×205mm Width × height × depth 26kg Weight Non-isolated Topology Operating temperature -25℃…+60℃ range Allowable relative humidity 0% ... 100% range (non-condensing) Degree of protection for electronics in accordance IP66 with IEC 60529 Climatic category in... -
Page 109: Protective Device
Interfaces 2 x RS485 port, 1 x WiFi stick port ModBus RTU and CAN Communication Mounting information Wall mounting bracket WLAN 802.11 b/g/n Radio technology 2.4GHz Radio spectrum Maximum transmission 100mW power 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 DC reverse polarity Integrated... -
Page 110: Troubleshooting
Troubleshooting The inverter is easy to maintain. When you encounter the following problems, please refer to the Solutions below, and contact the local distributor if the problem remains unsolved. The following table lists some of the basic problems that may occur during the actual operation as well as their corresponding basic solutions. - Page 111 • Check the fuse and the triggering of the circuit breaker in the distribution box. • Check the grid voltage, grid usability. Grid loss • Check the AC cable, grid connection on the inve- rter. If this fault is still being shown, contact the service. •...
- Page 112 • Check the grid voltage at the point of connection of inverter. If the grid voltage is outside the permissible 10 minutes range due to local grid conditions, try to modi- average over fy the values of the monitored operational limi- voltage fault ts after informing the electric utility company first.
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Page 113: Maintenance
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 114 Step 2: Disconnect the DC switch, rotate the DC switch handle from the “ON” position to the “OFF” position. Step 3: Clean the air inlet and outlet of the inverter with a soft brush. UM0035_ASW05-12kH-T2-T3_EN_V01_0523...
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Page 115: Recycling And Disposal
AISWEI Technology Co., Ltd. confirms herewith that the inverters described in this manual are in compliance with the fundamental requirements and other relevant provisions of the above mentioned directives. The entire EU Declaration of Conformity can be found at www.solplanet.net. UM0035_ASW05-12kH-T2-T3_EN_V01_0523... -
Page 116: Service And Warranty
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 117: Contact
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 118 AISWEI Technology Co., Ltd.
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