Table of Contents
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Chapter 1 Introduction.........................................................................................................................1
1.1 Applicable product........................................................................................................................ 1
1.2 Applicable personnel....................................................................................................................1
1.3 Definition of symbols....................................................................................................................1
1.4 Revision history............................................................................................................................ 1
Chapter 2 Safety Precautions............................................................................................................ 2
2.1 General safety..............................................................................................................................2
2.2 Safety of photovoltaic module................................................................................................... 2
2.3 Safety of inverter..........................................................................................................................3
2.4 Battery safety............................................................................................................................... 4
2.5 Personnel requirements............................................................................................................. 4
2.6 EU compliance statement.......................................................................................................... 4
Chapter 3 Product Description..........................................................................................................6
3.1 Product description..................................................................................................................... 6
3.2 Application scenarios.................................................................................................................. 6
3.3 Operating modes......................................................................................................................... 7
3.4 Operation status of inverter....................................................................................................... 9
3.5 External dimensions................................................................................................................. 10
Chapter 4 Inverter Storage and Inspection..................................................................................14
4.1 Arrival inspection....................................................................................................................... 14
4.2 Packing list of EAHI-6000-SL-S..............................................................................................14
4.3 Packing list of 5KWH+household energy storage battery.................................................. 16
4.4 Base of 5KWH+household energy storage battery............................................................. 16
Chapter 5 Installation.........................................................................................................................17
5.1 Preparation before installation................................................................................................ 17
5.2 System installation.................................................................................................................... 21
Chapter 6 Electrical Connection.....................................................................................................27
6.1 Connection of ground wire.......................................................................................................29
6.2 PV end connection....................................................................................................................30
6.3 AC end connection....................................................................................................................31
6.4 Connection of kilowatt-hour meter..........................................................................................37
6.5 Communication end connection............................................................................................. 41
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Related Manuals for East EAHI-6000-SL-S
Summary of Contents for East EAHI-6000-SL-S
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Page 1: Table Of Contents
3.4 Operation status of inverter....................... 9 3.5 External dimensions......................... 10 Chapter 4 Inverter Storage and Inspection..................14 4.1 Arrival inspection........................14 4.2 Packing list of EAHI-6000-SL-S....................14 4.3 Packing list of 5KWH+household energy storage battery..........16 4.4 Base of 5KWH+household energy storage battery............. 16 Chapter 5 Installation.........................17 5.1 Preparation before installation.................... - Page 2 Chapter 7 Light bar display......................45 7.1 Display panel..........................45 7.2 Description of signal indicator light..................45 7.3 LED status display definition....................46 7.4 LED Fault display........................46 Chapter 8 System Maintenance...................... 48 8.1 Daily maintenance of inverter....................48 8.2 Maintenance of inverter unused for long term..............48 8.3 Powering off inverter........................48 8.4 Battery maintenance........................49 Chapter 9 Troubleshooting.......................50...
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Page 3: Chapter 1 Introduction
1.1 Applicable product This document is applicable to the following models: EAHI-6000-SL-S 1.2 Applicable personnel This document is only applicable to the professionals who know local regulations and standards and electrical systems well, and have specialized knowledge related to this product after being trained professionally. -
Page 4: Chapter 2 Safety Precautions
Chapter 2 Safety Precautions Make sure to always follow the safety precautions specified herein during operation of the inverter. NOTE The inverter has been designed and tested in strict accordance with safety regulations. However, for any electrical equipment, the relevant safety instructions should be followed before any operation on the inverter as any improper operation may lead to serious injury or property damage. -
Page 5: Safety Of Inverter
the voltage is within the allowable range. Do not connect the same PV string to multiple inverters in series; otherwise the inverter may be damaged. The photovoltaic module used with the inverter must comply with Class A standard of ... -
Page 6: Battery Safety
2.4 Battery safety CAUTION The battery used with the inverter shall be approved by the inverter manufacturer, and the list of approved batteries is available from the official website. Before installing the inverter, please carefully read the user manual of the battery to ... - Page 7 Waste Electrical and Electronic Equipment 2012/19/EU Registration, Evaluation, Authorization and Restriction of Chemicals (EC) No 1907/2006 Please contact the suppliers for more EU compliance statements (REACH) ~ 5 ~...
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Page 8: Chapter 3 Product Description
Chapter 3 Product Description 3.1 Product description EAHI-6000-SL-S inverter is used to control and optimize the energy flow in the photovoltaic system through an integrated energy management system. With the inverter, the power energy generated in the photovoltaic system can be supplied for the load, stored in the battery, and outputted to the grid. -
Page 9: Operating Modes
load, do not use the loads requiring high starting current as much as possible, such as high-power water pumps. The supported load sizes are as follows: Total power of inductive load and capacitive load ≤ 1 x rated output power of inverter ... - Page 10 PV gives priority to supply the power for the backup load, followed by supplying the power for the domestic load and the grid , and charge the batter by excess energy ; Grid-first If the power from the PV is less than the power of the backup mode load, the battery supplies the power for the backup load and the PV does not supply the power to the grid.
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Page 11: Operation Status Of Inverter
Forced During the normal operation of the gird, force to operate in the off-grid off-grid mode mode PV gives priority to supply the power for the backup load, followed by charging the battery. Off--grid mode (no grid) If the power from the PV is unavailable or extremely low, PV and the battery supply the power for the load. -
Page 12: External Dimensions
In case of grid fault, the inverter enters the off-grid mode, and continuously supplies the power for the load by BACK-UP port. If a fault is detected, the inverter enters the fault mode. Off-grid If the grid fails to meet the grid-tied requirements and the off-grid ... - Page 13 Description of side interfaces of power supply: Identification Purpose GPRS/WIFI Remote communication CT or kilo-watt-hour meter signal input provided externally on the inverter Firmware upgrade PV1+ PV1+ input PV1- PV1- input No identification Buzzer hole VENT VALVE Discharge the growing air from housing RS485 RS485 communication with the upper computer DRMS...
- Page 14 Description of battery terminal at bottom: Name Name PACK- 485-B PACK- 485-A PACK- PACK- PACK+ PACK+ PACK+ 485-B reserved 485-A reserved ~ 12 ~...
- Page 15 3.5.2 Nameplate description A user may identify the inverter by the nameplate provided on the side of the inverter. The nameplate indicates inverter information, such as model, important parameters, certification marks and place of production, etc., and must not be damaged or covered. Fig.
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Page 16: Chapter 4 Inverter Storage And Inspection
Check the inverter model. If incorrect, do not open the packing, and contact the distributor. Check the type, quantity and appearance of the inverter and its components and accessories. If damaged, contact the distributor. 4.2 Packing list of EAHI-6000-SL-S Name Specification Quantity... - Page 17 Socket,3-core waterproof female AC output socket (client) + crimped 5.2-6mm2 terminal cable EN040-2203-101 Waterproof plug for LAN port LAN port communication cable (kilowatt-hour connector meter communication cable *1, standby *1) User manual EAHI-6000-SL-S, English neutral ~ 15 ~...
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Page 18: Packing List Of 5Kwh+Household Energy Storage Battery
WiFi data LSW-5A7153, 5-12Vdc collector Key for side wiring location door 4.3 Packing list of 5KWH+household energy storage battery Name Specification Quantity Picture 5KWH+household energy storage Battery battery Cross outer hexagon double Angle iron fixing washer combination screw, screw M4*8mm Waterproof Silicone, black, matt finish connector jacket... -
Page 19: Chapter 5 Installation
Chapter 5 Installation 5.1 Preparation before installation 5.1.1 Installation environment requirements The ambient temperature should be between -25℃ and +60℃, and the relative humidity should be between 0% and 90% (no condensation). The inverter can be installed indoors or outdoors dry and well ventilated environment ... - Page 20 Kept away from wet and soggy environment Kept away from lightning stroke The equipment adopts self-cooling heat Install the equipment on solid and flat surface dissipation mode, and should be installed in vertical to the ground. well-ventilated environment in order to ensure good performance.
- Page 21 5.1.2 Requirements for installation tools 5.1.3 Selection of installation location The equipment should be installed on the solid and flat surface which can support the equipment weight. Model EAHI-6000-SL-S-5 EAHI-6000-SL-S-10 EAHI-6000-SL-S-15 Cell quantity Weight (kg) Dimension 600*778*305 600*998*305 600*1218*305 (W*H*T), mm...
- Page 22 Frontward or backward tilting is not allowed in vertical installation. The gap around the power supply must not be less than the following value. Front Back Left (wiring location) Right 800mm 1000mm 35mm 600mm 300mm ~ 20 ~...
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Page 23: System Installation
5.2 System installation 5.2.1 Handling of inverter and battery NOTE Transport, handling, installation and other operations of the inverter should meet the national and local laws and regulations and relevant standards of the installation location. Before installation, move the inverter to the installation location, avoid personnel injury or ... - Page 24 equipment, and fix the Y Axis of the level on 521mm from the ground. Locate the fixing the left side of the equipment, and make the screw holes of the hanging support at 211mm line A vertical to the ground. and 334mm above the line B from the line A.
- Page 25 5.2.2.2 Drilling Tools: electric drills (drill size: φ6mm), hammers and expansion pipes and bolts (M6*50mm) Drill the holes at the marked location by the Install the expansion tube into the holes by the φ6mm electric drill. hammer. 5.2.2.3 Installation of base support Tools: screwdrivers and screws(M4*8mm) Before installation, take down the upper During installation, recommend to inversely...
- Page 26 Respectively tighten 4 screws by the After confirming the location, respectively screwdriver. tighten the screws. Check the base support and the battery for proper and firm installation. 5.2.2.4 Installation of single battery Tools: rulers, screwdrivers, screws(M4*8mm), angle irons(L50*30*22mm), expansion pipes and bolts (M6*50mm) and expansion screw gasket (SUS304 gasket) Make a mark at 35mm of the wall, align the Align the angle iron with the screw holes on...
- Page 27 5.2.2.5 Stacking of multiple batteries Tools: rulers, screwdrivers, open-end wrenches(7mm), angle iron screws(M4*8mm), foundation bolt (L50*30*22mm), expansion pipes and bolts (M6*50mm), handled screws(M4*30mm), waterproof connector jackets and Expansion screw gasket (SUS304 gasket). Fix the battery by the handled screws on its two Orderly install the waterproof connector sides after installation of each battery.
- Page 28 Pass the expansion screws through the gasket, fix the handing support fasteners on the wall, and adjust and tighten the expansion screws. Install the handing support on the power supply and tighten the hanging support screws, align with the hanging support fastener, and connect the power supply with the battery, fix the battery and the power supply by the handled screws, and finally check the above steps to complete the installation.
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Page 29: Chapter 6 Electrical Connection
2KW. Component Description PV String The PV string consists of PV component string Inverter Support EAHI-6000-SL-S series inverter Battery The battery matching with the inverter Battery Breaker Stacking type with the energy storage switch AC Circuit For same model, the circuit breaker of the BACK-UP load ... - Page 30 Specification of AC circuit breaker single-pole double-throw switch: EAHI-6000-SL-S: rated current ≥35A, rated voltage ≥230V AC Circuit Determine the specification according to actual load Breaker Supplied with the inverter, or purchased from the inverter Smart Meter manufacturer, Yada DDS3366D/ DDS3366D-J is recommended Note: it is necessary to add the DC switch (rated current ≥20A and rated voltage ≥550V) at PV...
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Page 31: Connection Of Ground Wire
6.1 Connection of ground wire Tools: screwdrivers, ground wire screws (φ6mm), wire strippers, ground wire soldering lugs, wire clamps, tape measures, ground wires. Measure the distance between the equipment Remove 4mm insulating layer from the and the distribution box by the tape measure, ground wire by the wire stripper for installing and select the ground wire with suitable the ground wire terminal, and install press... -
Page 32: Pv End Connection
Disconnect all circuit breakers. Check the positive and negative polarity of the photovoltaic array. Make sure that the maximum operating voltage of EAHI-6000-SL-S inverter does not exceed 540V (the number of components must be determined based on the local minimum temperature, and the maximum open-circuit voltage of the components must not exceed the maximum allowable operating voltage of the inverter, 540V). -
Page 33: Ac End Connection
Wiring of DC side Strip off 8mm insulation layer of the DC cable to expose the copper conductor. Insert the copper conductor into the metal core of the connector and tighten it with the press pliers (as shown below). Remove the terminal cover and route the cable through the terminal cover. Insert the die into the wiring slot until you hear the sound of connection in place. - Page 34 the inverter is in grid-tied mode, the built-in ON-GRID relay is in closed state. After the inverter is powered on, there is current at the BACK-UP AC port. If it is required to maintain the BACK-UP load, power off the inverter; otherwise, electric shocks may be caused.
- Page 35 6.3.2 N and PE cables in the Main Panel shall be wired separately For other countries, the following diagram is an example for grid systems without special requirement on wiring connection. Description ≤63A/230V/400V AC breaker 32A/230V/400V AC breaker Depends on loads Depends on household loads and inverter capacity 300mA RCD (Recommended) 30mA RCD (Recommended)
- Page 36 Description ≤63A/230V/400V AC breaker 32A/230V/400V AC breaker Depends on loads Depends on household loads and inverter capacity 300mA RCD (Recommended) 30mA RCD (Recommended) Note 1: If the battery is integrated with a readily accessible internal DC breaker, no additional DC breaker is required. Note 2: The recommended values in the table are for reference only.
- Page 37 inverter will disconnect immediately from the mains power once a fault current with a value exceeding the limit is detected. However if an external residual current device (RCD) (type A is recommended) is mandatory. The switch must be triggered at a residual current of 300 mA (recommended). RCD of other specifications can also be used according to local standard.
- Page 38 Insert the terminal into the load interface, and rotate, and tighten the terminal end onto the equipment. Check the installation. 6.3.5 Connection of grid end Tools: inner hexagon screwdrivers (φ2mm), cable terminals (three-adapter), wire strippers, tape measures and cables (L, N, PE) Make sure that the grid breaker is closed, measure the distance from the distribution box by the tape measure, and select the...
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Page 39: Connection Of Kilowatt-Hour Meter
6.4 Connection of kilowatt-hour meter 6.4.1 Installation of kilowatt-hour meter Tools: screwdrivers (small cross), fiber-optic cables, fiber-optic cable pliers, wire strippers, tape measures, kilowatt-hour meter rails, markers, hammers, electric drills, expansion screws Determine the installation location of the kilowatt-hour meter, and mark the hole location according to the screw hole of the Open the buckle below the kilowatt-hour kilowatt-hour meter rail. - Page 40 Thread the network cable into each part of the connector as shown in the diagram. Insert the crystal head into the matching RJ45 connector, and after inserting it, you can hear a very clear "click bang" sound. Gently press the crystal head buckle to insert the body into the crystal head and make contact with the RJ45 connector.
- Page 41 As shown in the picture, use a cable stripper to strip off the network cable, pass the network cable through the components as shown in the figure, fit and press the network cable into the RJ45 connector according to the cable color order of 1 to 8. For the other end of the network cable, strip off the insulation layer of line 5 (blue and white) and line 4 (blue) by10 mm.
- Page 42 HIGHNO.6:HA210510 Modbus-RTU address setting:002 LOWNO.6:LA 300002 Press "▲" "▼" in the parameter interface to Press "▲" to adjust the number size, press "▼" to switch the number, and set HA to switch to" ". 210510 . Press "SET" to enter the Modbus-RTU Press “SET”...
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Page 43: Communication End Connection
Press ▲ and ▼ on the parameter screen to switch to " " and press " SET " to return to the main interface. NOTE When the meter is disconnected from the power supply and stops working for more than one month, you need to confirm the meter parameters again. - Page 44 DRMS: use of safety regulation (only for Australia users). Definition DRM1/5 DRM2/6 DRM3/7 DRM4/8 DRM_REF(R) DRM_COM(C) The inverter provides a terminal block for connecting to a demand response enabling device (DRED). The DRED asserts demand response modes (DRMS). The inverter detects and initiates a response to all supported demand response commands within 2s.The following table lists the DRMS supported by the inverter.
- Page 45 Asserted by Shorting Terminals Mode Switch Operation on External DRED on Inverter DRM0 R & C Close S1 and S5 DRM1 D1/5&C Close S1 DRM2 D2/6&C Close S2 DRM3 D3/7&C Close S3 DRM4 D4/8&C Close S4 DRM5 D1/5&R Close S5 DRM6 D2/6&R Close S6...
- Page 46 Definiti RS3_4 RS3_4 RS3_4 RS3_4 RS3_4 RS3_4 RS3_4 RS3_4 CT: communication port for external CT and kilo-watt-hour (connect CT white wire to pin 6 (or 7, 8) of the RJ45 registered jack, CT black wire to the pin 1 (or 2, 3)), (connect the communication + of the kilo-watt-hour mete to the pin 5 of the RJ45, communication - to the pin 4 of the RJ45).
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Page 47: Chapter 7 Light Bar Display
Chapter 7 Light bar display 7.1 Display panel The display panel is a LED light bar. 7.2 Description of signal indicator light Icon Name Function WIFI module communication connection WIFI connection success: green long bright Bluetooth connection Bluetooth connection success: green long bright Upper computer Computer computer communication connection connection... -
Page 48: Led Status Display Definition
7.3 LED status display definition LED explicit declaration: The battery power percentage is displayed through the 33 LED light bars; When the power quantity is less than 3% (including 0%), the LED lamp always keeps displaying one grid; When the power quantity is greater than 20%, the green light displays; When the power quantity is less than 20%, the orange light shows it;... - Page 49 Schematic Alert signal level definition buzzer lighting Diagram recovery condition Default The LED lights Urgent buzzer is are always on Debugging ringing the red The LED lights Important Quiet Debugging flash in red The LED lights less After 60S, it was Quiet are always on important...
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Page 50: Chapter 8 System Maintenance
Chapter 8 System Maintenance NOTE Make sure that the inverter has been powered off before the maintenance. During operation on the inverter, use the personal protective device. 8.1 Daily maintenance of inverter Content Method Frequency System Check the heat sink and air inlet/outlet for foreign Once/half a year ~once/ cleanness bodies and dust. -
Page 51: Battery Maintenance
8.4 Battery maintenance WARNING Battery maintenance should be performed or supervised by personnel with knowledge of batteries and necessary precautions are taken. The battery may cause the danger of electric shock and high short-circuit current. The battery may explode if thrown into a fire. ... -
Page 52: Chapter 9 Troubleshooting
Chapter 9 Troubleshooting 9.1 Fault grade list Fault classification Fault Name Warning Level GRID Over VOLT 1 Level 2 alarm GRID Low VOLT 1 Level 2 alarm GRID Over FREQ 1 Level 2 alarm GRID Low FREQ 1 Level 2 alarm GRID Over VOLT 2 Level 2 alarm Power grid failure... - Page 53 Fault classification Fault Name Warning Level BUS FAST Over VOLT Level 1 alarm BUS Hardware Over VOLT Level 1 alarm BUS Over VOLT Level 1 alarm Dc bus anomaly BUS Low VOLT Level 1 alarm BUS Fast Low VOLT Level 1 alarm BUS Short Fault conk out GRID Relay Fault...
- Page 54 Fault classification Fault Name Warning Level BATT DOD Level 2 alarm CHG VOLT Low Level 1 alarm LLC Over CURR STOP Level 1 alarm Buck-Boost Over CURR STOP Level 1 alarm Buck-Boost Inductor CURR Limit Level 2 alarm Middle BUS Fast Low VOLT Level 1 alarm BATT Disconnected Level 2 alarm...
- Page 55 Fault classification Fault Name Warning Level BATT CHG Over CURR Alarm Level 2 alarm BATT DHG Over CURR Alarm Level 1 alarm BATT Ambient TEMP OVER TEMP Alarm Level 1 alarm BATT Ambient TEMP OVER TEMP Alarm Level 2 alarm BATT CHG Over TEMP Alarm Level 2 alarm BATT DHG Over TEMP Alarm...
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Page 56: Fault List
9.2 Fault list The user can troubleshoot faults and take corresponding measures according to the fault information of the inverter. Fault information Possible cause Action GRID Over VOLT 1 1. Check the grid voltage or frequency. If the GRID Over VOLT 2 grid voltage frequency... - Page 57 Fault information Possible cause Action OUT RMS Over instance output of specifications. After failure recovery, CURR inverter after sudden inverter automatically recovers to normal change or short current operation. OUT Over FREQ on grid 2. If the alarm is repeated, please contact the OUT Low FREQ distributor or after-sales service center.
- Page 58 Fault information Possible cause Action sunlight, if yes, please do appropriate shading. 4. If there are no such problems, and the failure persists, please contact the distributor or after-sales service center. 1. Check the output load and reduce the load INV 105% Over Load power.
- Page 59 Fault information Possible cause Action BYPASS 105% Over 1. Check the output load and reduce the load Output overload Load power. protection during 2. If the failure is repeated, contact the BYPASS 125% Over off-grid to grid-tied distributor or after-sales service center. Load BYPASS 150% Over 1.
- Page 60 Fault information Possible cause Action Buck-Boost FAST Sudden change of Over CURR After failure recovery, inverter external conditions Middle BUS FAST automatically recovers to normal operation. leads to internal circuit Over VOLT 2. If the alarm is repeated, please contact the protection in the distributor or after-sales service center.
- Page 61 Fault information Possible cause Action properly connected. 3. If the failure persists, please contact the distributor or after-sales service center. 1. The battery is 1. Check whether the battery cable is securely incorrectly connected. connected and the battery voltage is normal. BATT Disconnected 2.
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Page 62: Chapter 10 Technical Data
5-SL 30-SL Number of battery modules Battery capacity 5.12kWh 10.24kWh 15.36kWh 20.48kWh 25.6kWh 30.72kWh Battery system 5KWH model Number of inverter Inverter mode EAHI-6000-SL-S Rated power 6000W Demission 600x778 600x998 600x121 600x143 600x1658 600x1878 (W*H*D)mm x305 x305 8x305 8x305 x305... - Page 63 Battery input parameter Battery type Lithium battery Battery voltage range 42~58Vdc Maximum charging current 100A Maximum discharge current 120A Charging curve 3 Stages / Equalization Lithium battery charging strategy BMS self-adaption AC input parameters (grid side) Grid type Single phase Input voltage range 184~276Vac Input frequency range...
- Page 64 output over-current protection, output short-circuit protection, surge protection Output over-voltage protection DC Type II/AC Type III Standard Safety regulation IEC/EN 62109-1/-2, AS62109 EN 61000-6-1/-2/-3/-4 CEI 0-21, DIN VDE V 0124-100:2020, VDE-AR-N Grid-tied 4105:2018,AS4777.2, NRS097-2-1, EN 50549-1 Other Topology High frequency isolation (to batteries) IP protection grade IP66 Operating temperature range...
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Page 65: Chapter 11 Appendixes
Chapter 11 Appendixes Explanation of term Name Description ANTI-TIED The inverter is not allowed to supply the power to the grid The inverter is allowed to supply the power to the grid, as opposed to GRID-TIED ANTI-TIED The inverter is allowed to receive the power from the grid for charging the AC CHA. - Page 66 ~ 64 ~...
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