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Solar Grid-Tie Inverter Manufacturers, PV On-Grid Inverter | Deye
User Manual for Deya models including: SUN-5K-SG01HP3-EU-AM2 Hybrid Inverter, SUN-5K-SG01HP3-EU-AM2, Hybrid Inverter, Inverter
22 sept. 2022 — The manual cannot include complete informa on about the photovoltaic (PV) system. How to Use This Manual. Read the manual and other related documents before ...
Invertor Hibrid Trifazat SUN-12K-SG01HP3-EU-AM2 - Putere Maximă!
Sep 22, 2022 · Sunlight shines on the panel will generate voltage, high voltage in series may cause danger to life. Therefore, before connec ng the DC input ...
File Info : application/pdf, 52 Pages, 8.48MB
DocumentDocumentR
Hybrid Inverter
SUN-5K-SG01HP3-EU-AM2 SUN-6K-SG01HP3-EU-AM2 SUN-8K-SG01HP3-EU-AM2 SUN-10K-SG01HP3-EU-AM2 SUN-12K-SG01HP3-EU-AM2 SUN-15K-SG01HP3-EU-AM2 SUN-20K-SG01HP3-EU-AM2
User Manual
05/28/2019 15:34:40
0 8.30 12
KW
ON
25%
0 -2.00 8 KW
0 -3.00 8 KW
0 3.00 8 KW
Contents
1. Safety Introductions lllllllllllllllllll 01
2. Product instructions lllllllllllllllllll 01-04
1SPEVDU0WFSWJFX 1SPEVDU4J[F 1SPEVDU'FBUVSFT #BTJD4ZTUFN"SDIJUFDUVSF
3. Installation 1BSUTMJTU
lllllllllllllllllllllll 05-24
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8JSJOHEJBHSBN
5ZQJDBMBQQMJDBUJPOEJBHSBNPGEJFTFMHFOFSBUPS
QIBTFQBSBMMFMDPOOFDUJPOEJBHSBN
4. OPERATION lllllllllllllllllllllll 26 1PXFS0/0''
0QFSBUJPOBOE%JTQMBZ1BOFM
5. LCD Display Icons llllllllllllllllllll 27-39 .BJO4DSFFO 4PMBS1PXFS$VSWF $VSWF1BHF4PMBS-PBE(SJE 4ZTUFN4FUVQ.FOV #BTJD4FUVQ.FOV #BUUFSZ4FUVQ.FOV 4ZTUFN8PSL.PEF4FUVQ.FOV (SJE4FUVQ.FOV (FOFSBUPS1PSU6TF4FUVQ.FOV "EWBODFE'VODUJPO4FUVQ.FOV %FWJDF*OGP4FUVQ.FOV
6. Mode llllllllllllllllllllllllll 39-40
7. Limitation of Liability llllllllllllllllll 40-44
8. Datasheet llllllllllllllllllllllll 45-46
9. Appendix I lllllllllllllllllllllll 47-48
10. Appendix II lllllllllllllllllllllll 49
About This Manual
The manual mainly describes the product informaon, guidelines for installaon, operaon and maintenance. The manual cannot include complete informaon about the photovoltaic (PV) system.
How to Use This Manual
Read the manual and other related documents before performing any operaon on the inverter. Documents must be stored carefully and be available at all mes. Contents may be periodically updated or revised due to product development. The informaon in this manual is subject to change without noce. The latest manual can be acquired via service@deye.com.cn
1. Safety Introducons
· This chapter contains important safety and operang instrucons. Read and keep this manual for future reference. · Before using the inverter, please read the instrucons and warning signs of the baery and corresponding secons in the instrucon manual. · Do not disassemble the inverter. If you need maintenance or repair, take it to a professional service center. · Improper reassembly may result in electric shock or fire. · To reduce risk of electric shock, disconnect all wires before aempng any maintenance or cleaning. Turning off the unit will not reduce this risk. · Cauon: Only qualified personnel can install this device with baery. · Never charge a frozen baery. · For opmum operaon of this inverter, please follow required specificaon to select appropriate cable size. It is very important to correctly operate this inverter. · Be very cauous when working with metal tools on or around baeries. Dropping a tool may cause a spark or short circuit in baeries or other electrical parts, even cause an explosion. · Please strictly follow installaon procedure when you want to disconnect AC or DC terminals. Please refer to "Installaon" secon of this manual for the details. · Grounding instrucons - this inverter should be connected to a permanent grounded wiring system. Be sure to comply with local requirements and regulaon to install this inverter. · Never cause AC output and DC input short circuited. Do not connect to the mains when DC input short circuits.
2. Product Introducon
This is a mulfunconal inverter, combining funcons of inverter, solar charger and baery charger to offer uninterrupble power support with portable size. Its comprehensive LCD display offers user configurable and easy accessible buon operaon such as baery charging, AC/solar charging, and acceptable input voltage based on different applicaons.
2.1 Product Overview
1
2
3
4
5
8
6
9
7
10
14
11
15
12
13
17 18
16
1: Inverter indicators 2: LCD display 3: Funcon buons 4: DC switch 5: Power on/off buon 6: Meter port
7: Parallel port 8: CAN port 9: DRM port 10: BMS port 11: RS485 port 12: Generator input
13: Load 14: Funcon port 15: Grid 16: PV input with two MPPT 17: Baery input 18: WiFi Interface
2.2 Product Size
Inverter Size Mounng bracket
2.3 Product Features
- 230V/400V Three phase Pure sine wave inverter. - Self-consumpon and feed-in to the grid. - Auto restart while AC is recovering. - Programmable supply priority for baery or grid. - Programmable mulple operaon modes: On grid, off grid and UPS. - Configurable baery charging current/voltage based on applicaons by LCD seng. - Configurable AC/Solar/Generator Charger priority by LCD seng. - Compable with mains voltage or generator power. - Overload/over temperature/short circuit protecon. - Smart baery charger design for opmized baery performance - With limit funcon, prevent excess power overflow to the grid. - Supporng WIFI monitoring and build-in 2 strings for 1 MPP tracker, 1 string for 1 MPP tracker. - Smart seable three stages MPPT charging for opmized baery performance. - Time of use funcon. - Smart Load Funcon.
2.4 Basic System Architecture
The following illustraon shows basic applicaon of this inverter. It also includes following devices to have a complete running system. - Generator or Ulity - PV modules Consult with your system integrator for other possible system architectures depending on your requirements. This inverter can power all kinds of appliances in home or office environment, including motor type appliances such as refrigerator and air condioner.
WiFI GPRS
Cloud services
AC cable DC cable phone
Solar
Backup Load
On-Grid Home Load
Grid CT
Battery
Smart Load
Grid-connected Inverter
Generator ATS
3. Installaon
3.1 Parts List
Check the equipment before installaon. Please make sure nothing is damaged in the package. You should have received the items in the following package:
Hybrid inverter x1
Wall mounng bracket x1
Stainless steel an-collision bolt M6×60 x4
Parallel communicaon cable x1
L-type Hexagon wrench x1
5ISFF1IBTF4NBSU.FUFS 4&5 &4$
Meter(oponal) x 1
User manual
User manual x1
Wi-Fi-Plug x1
Sensor Clamp x 3
Baery Plug connectors including metal terminal
x2(blue)
DC+/DC- Plug connectors including metal terminal
x4(black)
3.2 Mounng instrucons Installaon Precauon
This Hybrid inverter is designed for outdoor use(IP65), Please make sure the installaon site meets below condions: · Not in direct sunlight · Not in areas where highly flammable materials are stored. · Not in potenal explosive areas. · Not in the cool air directly. · Not near the television Antenna or antenna cable. · Not higher than altude of about 2000 meters above sea level. · Not in environment of precipitaon or humidity(>95%) Please AVOID direct sunlight, rain exposure, snow laying up during installaon and operaon. Before connecng all wires, please take off the metal cover by removing screws as shown below:
Considering the following points before selecng where to install:
· Please select a vercal wall with load-bearing capacity for installaon, suitable for installaon on concrete or other non-flammable surfaces,installaon is shown below. · Install this inverter at eye level in order to allow the LCD display to be read at all mes. · The ambient temperature should be between -25~60¥ to ensure opmal operaon. · Be sure to keep other objects and surfaces as shown in the diagram to guarantee sufficient heat dissipaon and have enough space for removing wires.
500mm
500mm
For proper air circulaon to dissipate heat, allow a clearance of approx. 50cm to the side and approx. 50cm above and below the unit. And 100cm to the front.
Mounng the inverter
Remember that this inverter is heavy! Please be careful when liing out from the package. Choose the recommend drill head(as shown in below pic) to drill 4 holes on the wall, 62-70mm deep. 1. Use a proper hammer to fit the expansion bolt into the holes. 2. Carry the inverter and holding it, make sure the hanger aim at the expansion bolt,fix the
inverter on the wall. 3. Fasten the screw head of the expansion bolt to finish the mounng.
Inverter hanging plate installaon
3.3 Baery connecon
For safe operaon and compliance, a separate DC over-current protector or disconnect device is required between the baery and the inverter. In some applicaons, switching devices may not be required but over-current protectors are sll required. Refer to the typical amperage in the table below for the required fuse or circuit breaker size.
#MVF
#MVF
NN
NN
NN
Pic 3.1 DC+ male connector
NN
NN
NN
Pic 3.2 DC- female connector
Safety Hint: Please use approved DC cable for baery system.
Cable type Industry generic PV cable
Cross sectioncNN
Range
Recommended value
6.0~10.0 (10~8AWG)
8.0(8AWG)
Chart 3-2 The steps to assemble the DC connectors are listed as follows: a) Strip off the DC wire about 7mm, disassemble the connector cap nut (see picture 3.3)
NN
NN Pic 3.3 Disassemble the connector cap nut
b) Crimping metal terminals with crimping pliers as shown in picture 3.4.
Pic 3.4 Crimp the contact pin to the wire c) Insert the contact pin to the top part of the connector and screw up the cap nut to the top
part of the connector. (as shown in picture 3.5).
Pic 3.5 connector with cap nut screwed on d) Finally insert the DC connector into the posive and negave input of the inverter, shown as
picture 3.6
Pic 3.6 DC input connecon
3.3.2 Funcon port definion
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Parallel_1: Parallel communicaon
port 1.
Parallel_2: Parallel communicaon
$53
port 2 .
CAN: reserved
$54
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DRM: Logic interface for AS/ NZS 4777.2:2020.
$55
BMS1: BMS port for baery
CN1: CT-R (1,2,7,8): current transformer (CT-R) for"zero
export to CT"mode clamps on L1 when in three phase system.
communicaon port 1. BMS2: BMS port for baery
communicaon port 2. RS485: RS485 port.
CT-S (3,4,9,10): current transformer (CT-S) for"zero
export to CT"mode clamps on L2 when
in three phase system.
CT-T (5,6,11,12): current transformer (CT-T) for"zero
export to CT"mode clamps on L3 when in three phase system.
CN2: G-start (1,2): dry contact signal for startup the
diesel generator. When the "GEN signal" is acve, the open contact (GS) will switch on (no voltage output). DRY-1 (3,4): reserved DRY-2 (5,6): reserved RSD (7,8): When baery is connected and the
inverter is in "ON" status, it will provide 12Vdc.
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3.4 Grid connecon and backup load connecon
· Before connecng to grid, please install a separate AC breaker between inverter and grid. Also, it is recommended that installs an AC breaker between backup load and inverter.This will ensure the inverter can be securely disconnected during maintenance and fully protected from over current. For the 5/6/8/10/12/15/20KW model, the recommended AC breaker for backup load is 100A. For the 5/6/8/10/12/15/20KW model, the recommended AC breaker for grid is 100A.
· There are three terminal blocks with "Grid" "Load"and "GEN" markings. Please do not misconnect input and output connectors.
All wiring must be performed by a qualified personnel.It is very important for system safety and efficient operaon to use appropriate cable for AC input connecon. To reduce risk of injury, please use the proper recommended cable as below.
Model 5/6/8/10/12/15/20KW
backup load connecon
Cross sectioncNN
Range
Recommended value
2.5~10 (12~8AWG)
6(9AWG)
Model 5/6/8/10/12/15/20KW
Grid connecon Cross sectioncNN
Range
Recommended value
2.5~10 (12~8AWG)
6(9AWG)
Chart 3-3 Recommended Size for AC wires
Please follow below steps to implement Grid, load and Gen port connecon:
1. Before making Grid, load and Gen port connecon, be sure to turn off AC breaker or disconnector first.
2. Remove insulaon sleeve 10mm length, insert the wires according to polaries indicated on the terminal block. Make sure the connecon is complete.
N
L1
L3 L2
GRID E-BAR
GEN LOAD
Be sure that AC power source is disconnected before aempng to wire it to the unit.
3. Then, insert AC output wires according to polaries indicated on the terminal block and ghten terminal. Be sure to connect corresponding N wires and PE wires to related terminals as well.
4. Make sure the wires are securely connected. 5. Appliances such as air condioner are required at least 2-3 minutes to restart because it is
required to have enough me to balance refrigerant gas inside of circuit. If a power shortage occurs and recovers in short me, it will cause damage to your connected appliances. To prevent this kind of damage, please check manufacturer of air condioner if it is equipped with me-delay funcon before installaon. Otherwise, this inverter will trigger overload fault and cut off output to protect your appliance but somemes it sll causes internal damage to the air condioner
3.5 PV Connecon
Before connecng to PV modules, please install a separately DC circuit breaker between inverter and PV modules. It is very important for system safety and efficient operaon to use appropriate cable for PV module connecon.
To avoid any malfuncon, do not connect any PV modules with possible leakage current to the inverter. For example, grounded PV modules will cause leakage current to the inverter. When using PV modules, please ensure the PV+ & PVof solar panel is not connected to the system ground bar. It is requested to use PV juncon box with surge protecon. Otherwise, it will cause damage on inverter when lightning occurs on PV modules.
3.5.1 PV Module Selecon:
When selecng proper PV modules, please be sure to consider below parameters: 1) Open circuit Voltage (Voc) of PV modules can not exceed max. PV array open circuit voltage of
inverter. 2) Open circuit Voltage (Voc) of PV modules should be higher than min. start voltage. 3) The PV modules used to connected to this inverter shall be Class A rang cerfied according
to lEC 61730.
Inverter Model
5KW 6KW 8KW 10KW 12KW 15KW 20KW
PV Input Voltage
600V (180V~1000V)
PV Array MPPT Voltage Range
150V-850V
No. of MPP Trackers
2
No. of Strings per MPP Tracker
1+1 Chart 3-5
2+1
2+2
3.5.2 PV Module Wire Connecon:
1. Switch the Grid Supply Main Switch(AC)OFF. 2. Switch the DC lsolator OFF. 3. Assemble PV input connector to the inverter.
Safety Hint: When using PV modules, please ensure the PV+ & PV- of solar panel is not connected to the system ground bar.
Safety Hint: Before connecon, please make sure the polarity of PV array matches the "DC+" and "DC-" symbols.
Safety Hint: Before connecng inverter, please make sure the PV array open circuit voltage is within the 1000V of the inverter.
#MBDL
NN
NN
NN
Pic 5.1 DC+ male connector
#MBDL
NN
NN
NN
Pic 5.2 DC- female connector
Safety Hint: Please use approved DC cable for PV system.
Cable type
Industry generic PV cable (model: PV1-F)
Cross sectioncNN
Range
Recommended value
2.5 (12~9AWG)
4(11AWG)
Chart 3-6
The steps to assemble the DC connectors are listed as follows: a) Strip off the DC wire about 7mm, disassemble the connector cap nut (see picture 5.3)
NN
NN Pic 5.3 Disassemble the connector cap nut b) Crimping metal terminals with crimping pliers as shown in picture 5.4.
Pic 5.4 Crimp the contact pin to the wire c) Insert the contact pin to the top part of the connector and screw up the cap nut to the top
part of the connector. (as shown in picture 5.5).
Pic 5.5 connector with cap nut screwed on d) Finally insert the DC connector into the posive and negave input of the inverter, shown as
picture 5.6
Pic 5.6 DC input connecon
Warning: Sunlight shines on the panel will generate voltage, high voltage in series may cause danger to life. Therefore, before connecng the DC input line, the solar panel needs to be blocked by the opaque material and the DC switch should be 'OFF', otherwise, the high voltage of the inverter may lead to lifethreatening condions. Please do not switch off DC isolator when the DC current when there is high voltage or current.Technicians need to wait unl night to keep safety.
Warning: Use the DC power connector of the accessories. Do not interconnect the connectors of different manufacturers.
3.6 CT Connecon
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*Notewhen the reading of the load power on the LCD is not correct, please reverse the CT arrow.
3.6.1 Meter Connecon
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L3 L2
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L3 L2
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RS485B
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Red line Black line
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Phase A current =5.000A
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Phase B current =5.001A
PIN 1,4,7Red cable of the CT Phase C current =5.002A PIN 3,6,9: Black cable of the CT
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P2 P1 S2
S1
P2 P1 S2
S1
S2
S1
L1 L2 L3 N
1 2 3 4 5 6 15 16 17 18 19 20
Grid voltage Auxiliary sampling power supply
Current inputs
Eastron meter
14 13 12 RS 485
RS485A RS485B GND
Note: When the inverter is in the off-grid state, the N line needs to be connected to the earth. Note: In final installaon,breaker cerfied according to IEC 60947-1 and IEC 60947-2 shall be installed with the equipment. 3.7 Earth Connecon(mandatory) Ground cable shall be connected to ground plate on grid side this prevents electric shock if the original protecve conductor fails.
3.8 WIFI Connecon
For the configuraon of Wi-Fi Plug, please refer to illustraons of the Wi-Fi Plug.
3.9 Wiring System for Inverter
PV
DC Breaker
This diagram is an example for an applicaon that neutral connects with the PE in a distribuon box.
For countries such as Australia, New Zealand, South Africa, etc., please follow local wiring regulaons!
BMS
Battery
DC Breaker
Hybrid Inverter
GEN PORT
N L1 L2 L3
AC Breaker
PE
Inverter case grounding
N L1 L2 L3 PE or
Load
N L1 L2 L3 PE
Grid
AC Breaker
AC Breaker
CT
CT1 CT2 CT3
RCD
RCD
AC Breaker
N L1
L2 Load
L3 PE
N L1
L2 Grid
L3 PE
E-BAR
E-BAR
N L1 L2 L3 PE
Home Loads
3.10 Wiring diagram
This diagram is an example for an applicaon in which neutral is separated from the PE in the distribuon box. For countries such as China, Germany,the Czech Republic, Italy, etc., please follow local wiring reguaons! Note:Backup funcon is oponal in German market.please leave backup side empty if backup funcon is not available in the inverter.
When the inverter is working in backup mode, neutral and PE on the backup side are connected via the internal relay. Also,this internal relay will be open when the inverter is working in grid ed mode.
N PE
BMS
Battery
Hybrid Inverter
Solar Array
Grouding screw hole in the lower right corner
L1 L2 L3 N PE or Backup
L1 L2 L3 N PE On-Grid
CT
E-BAR
Distribution box
RCD
CT1 CT2 CT3
RCD
E-BAR
L1 L2
L3 Backup N Loads
PE
L1 L2
L3 Grid
N PE
L1 L2 L3 N PE
Home Loads
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3.11 Typical applicaon diagram of diesel generator
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G-start (1,2): dry contact signal for startup the diesel generator.
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Max. 10pcs parallel for on-grid and off-grid operaon.
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Advanced Function
Parallel Master Slave
Modbus SN 01
Paral. Set3
Advanced Function
Parallel Master Slave
Modbus SN 02
Paral. Set3
EX_Meter For CT
Meter Select No Meter 0/3
EX_Meter For CT
Meter Select No Meter 0/3
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Advanced Function
Parallel Master Slave
Modbus SN 03
EX_Meter For CT
Meter Select No Meter 0/3
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Paral. Set3
4. OPERATION
4.1 Power ON/OFF
Once the unit has been properly installed and the baeries are connected well, simply press On/Off buon(located on the le side of the case) to turn on the unit. When system without baery connected, but connect with either PV or grid, and ON/OFF buon is switched off, LCD will sll light up(Display will show OFF), In this condion, when switch on ON/OFF buon and select NO baery,system can sll working.
4.2 Operaon and Display Panel
The operaon and display panel, shown in below chart, is on the front panel of the inverter. It includes four indicators, four funcon keys and a LCD display, indicang the operang status and input/output power informaon.
DC AC Normal Alarm
LED Indicator Green led solid light Green led solid light Green led solid light Red led solid light
Messages PV Connecon normal Grid Connecon normal Inverter operang normal Malfuncon or warning
Chart 4-1 LED indicators
Function Key Esc Up
Down Enter
Description To exit seng mode To go to previous selecon To go to next selecon To confirm the selecon
Chart 4-2 Funcon Buons
5. LCD Display Icons 5.1 Main Screen
The LCD is touchscreen, below screen shows the overall informaon of the inverter.
05/28/2019 15:34:40 Thu
0 8.30 15
KW
ON
25%
0 -2.00 8 KW
0 -3.00 8 KW
0 3.00 8 KW
1.The icon in the center of the home screen indicates that the system is Normal operaon. If it turns into "comm./F01~F64" , it means the inverter has communicaon errors or other errors, the error message will display under this icon(F01-F64 errors, detail error info can be viewed in the System Alarms menu).
2.At the top of the screen is the me.
3.System Setup Icon, Press this set buon,you can enter into the system setup screen which including Basic Setup, Baery Setup, Grid Setup, System Work Mode, Generator port use, Advanced funcon and Li-Ba info.
4.The main screen showing the info including Solar, Grid, Load and Baery. Its also displaying the energy flow direcon by arrow. When the power is approximate to high level, the color on the panels will changing from green to red so system info showing vividly on the main screen.
· PV power and Load power always keep posive. · Grid power negave means sell to grid, posive means get from grid. · Baery power negave means charge, posive means discharge.
5.1.1 LCD operaon flow chart
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5.2 Solar Power Curve
Solar
PV1-V: 286V PV2-V: 286V
PV1-I: 5.5A PV2-I: 5.5A
PV1-P: 1559W
PV2-P: 1559W
This is Solar Panel detail page.
Solar Panel Generaon. Voltage, Current, Power for each MPPT. Daily and total PV producon
Power: 1560W
Today=8.0 KWH Total =12.00 KWH
Energy
Press the "Energy "buon will enter into the power curve page.
1166w
221v 229v 225v
0w 1166w
0w
Load
21w
0w
0w
150V -0.41A 27.0C
150V -0.41A 27.0C
Battery
1244w
50Hz
222v
0.8w
-81w
50Hz
222v
0.1A
229v
5.0w 230v
0.1A
229v
0.9w 223v
0.1A
HM:
LD: INV_P:
-10W 5W
28W -30W 1192W -26W
AC_T:
0W
24W -25W 38.8C
Grid
0W 0V 0.0A
Inverter
0W 0V 0.0A
PV
This is Inverter detail page.
Inverter Generaon. Voltage, Current, Power for each Phase. AC-T: mean Heat-sink temperature.
Load
Power: 55W
This is Back-up Load detail page.
Today=0.5 KWH Back-up Power.
Voltage, Power for each Phase.
Total =1.60 KWH
Daily and total backup consumpon .
L1: 220V L2: 220V L3: 220V
P1: 19W
P2: 18W P3: 18W
Press the "Energy " buon will enter into the power curve page.
Energy
Grid
Stand by
0W
0.0Hz
CT10W CT2: 0W CT3: 0W
LD10W
LD20W LD30W
L1: 0V L2: 0V L3: 0V
BUY
Today=2.2KWH
Total =11.60 KWH
SELL
Today=0.0KWH
Total =8.60 KWH
Energy
This is Grid detail page.
Status, Power, Frequency. L: Voltage for each Phase
CT: Power detected by the external current sensors
LD: Power detected using internal sensors on AC grid in/out breaker
BUY: Energy from Grid to Inverter, SELL: Energy from Inverter to grid.
Press the "Energy " buon will enter into the power curve page.
Batt
Battery 1 Stand by
U:170V I:2.04A Power: 101W Temp:25.0C
Energy
This is Baery detail page. if you use Lithium Baery, you can enter BMS page.
5.3 Curve Page-Solar & Load & Grid
Li-BMS
Mean Voltage:170.0V Total Current:37.00A Mean Temp :23.5C
Charging Voltage :180.0V
Discharging Voltage :160.0V Sum
Charging current :30A
Data
Total SOC :38%
Discharging current :25A
Dump Energy:57Ah
Details Data
Li-BMS
Volt Curr Temp
1 150.3V 19.70A 2 150.2V 19.10A 3 150.1V 16.90A 4 0.00V 0.00A 5 0.00V 0.00A 6 0.00V 0.00A 7 0.00V 0.00A 8 0.00V 0.00A 9 0.00V 0.00A 10 0.00V 0.00A 11 0.00V 0.00A 12 0.00V 0.00A 13 0.00V 0.00A 14 0.00V 0.00A 15 0.00V 0.00A
30.6C 31.0C 30.2C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C 0.0C
SOC Energy
52.0% 51.0% 12.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0% 0.0%
26.0Ah 25.5Ah 6.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah 0.0Ah
Charge Fault Volt Curr 0.0V 0.0A 0|0|0 153.2V 25.0A 0|0|0 153.2V 25.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0 0.0V 0.0A 0|0|0
Sum Data
Details Data
Solar Power Production:Day
3000W 100%
80% 60% 40% 20%
2019-5-28
1 3 5 7 9 11 13 15 17 19 21 23
CANCEL
Day
Month
Year
Total
System Solar Power:Month
2000Wh
5-2019
2000
1600
1200
800
400
0 05 10 15 20 25 30
CANCEL
Day
Month
Year
Total
System Solar Power:Year
KWh 200 160 120 80 40
2019
1 2 3 4 5 6 7 8 9 10 11 12
CANCEL
Day
Month
Year
Total
System Solar Power:Total
2000KWh
TOTAL
2000
1600
1200
800
400
0 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48
CANCEL
Day
Month
Year
Total
Solar power curve for daily, monthly, yearly and total can be roughly checked on the LCD, for more accuracy power generaon, pls check on the monitoring system. Click the up and down arrow to check power curve of different period.
5.4 System Setup Menu
System Setup
Battery Setting
Basic Setting
System Work Mode
Grid Setting
Advanced Function
Gen Port Use
Device Info.
This is System Setup page.
5.5 Basic Setup Menu
Basic Setting
Time Syncs
Year
2019
Beep
Month
03
Auto Dim
Day
17
Basic Set
24-Hour
Hour
09
Minute
15
Factory Reset
Lock out all changes
Factory Reset: Reset all parameters of the inverter. Lock out all changes: Enable this menu for seng parameters that require locking and cannot be set up. Before performing a successful factory reset and locking the systems, to keep all changes you need to type in a password to enable the seng. The password for factory sengs is 9999 and for lock out is 7777.
PassWord
X--X--X--X
1
2
4
5
7
8
CANCEL
0
DEL 3 6 9 OK
Factory Reset PassWork: 9999 Lock out all changes PassWork: 7777
5.6 Baery Setup Menu
Battery Setting
Baery capacity: it shows your baery bank size to
Batt Mode
Deye hybrid inverter.
Lithium Use Batt V
Batt Capacity
0Ah
Max A Charge
0A
Use Ba V: Use Baery Voltage for all the sengs (V).
Batt
Mode Use Ba %: Use Baery SOC for all the sengs (%).
Use Batt % No Batt
Max A Discharge 0A
Max. A charge/discharge: Max baery charge/discharge current(0-37A for 5/6/8/10/12/15/20KW model). For AGM and Flooded, we recommend Ah baery
Activate Battery1
Parallel bat1&bat2
size x 20%= Charge/Discharge amps.
Activate Battery2
. For Lithium, we recommend Ah baery size x 50% = Charge/Discharge amps.
. For Gel, follow manufacturer' s instrucons.
No Ba: ck this item if no baery is connected to the system.
Acve baery: This feature will help recover a baery that is over discharged by slowly charging from the solar array or grid.
Battery Setting
Start
30%
A 30A
Gen Charge
Gen Signal
Gen Force
This is Baery Setup page.
Start =30%: Percent S.O.C at 30% system will AutoStart a connected generator to charge the baery bank.
Batt
Set2 A = 30A: Charge rate of 30A from the aached generator in Amps.
Gen Charge: uses the gen input of the system to charge baery bank from an aached generator.
Gen Signal: Normally open relay that closes when the Gen Start signal state is acve.
Gen Force: When the generator is connected, it is forced to start the generator without meeng other condions.
07/08/2021 11:11:10
Thu
This page tells the PV and diesel generator power the load and baery.
0 2.00 15 KW 76%
0 -1.39 15 KW
ON
Signal on
0 0.00 8 KW
0
2.00 KW
8
Generator
Power: 6000W
V_L1: 230V V_L2: 230V V_L3: 230V
Today=10 KWH Total =10 KWH
P_L1: 2KW P_L2: 2KW P_L3: 2KW
This page tells generator output voltage, frequency, power. And, how much energy is used from generator.
Battery Setting
Float V Shutdown Low Batt Restart
00 10% 20% 40%
Lithium Mode: This is BMS protocol.Please reference the document(Approved Baery).
Shutdown 10%: It indicates the inverter will shutdown
Batt Set3
if the SOC below this value.
Low Ba 20%: It indicates the inverter will alarm if the SOC below this value.
Restart 40%: Baery voltage at 40% AC output will resume.
Battery Setting
Float V
160V
Absorption V
160V
Shutdown
20%
Low Batt
35%
Restart
50%
Equalization V 160V Equalization Days 30 days
TEMPCO(mV/C/Cell)
-5
Equalization Hours 3.0 IPVST
Batt Resistance 25mOhms
There are 3 stages of charging the Baery .
This is for professional installers, you can keep it
Batt if you do not know.
Set3
Shutdown 20%:The inverter will shutdown if the SOC is
below this value.
Low Ba 35%: The inverter will alarm if the SOC below this value.
Restart 50%: Baery SOC at 50% AC output will resume.
Recommended baery sengs
Battery Type
Absorption Stage
Float Stage
Torque value (every 30 days 3hr )
Lithium
Follow its BMS voltage parameters
5.7 System Work Mode Setup Menu
System Work Mode
Selling First
12000 Max Solar Power
Zero Export To Load
Solar Sell
Work Mode1
Zero Export To CT
Solar Sell
Max Sell Power 12000 Zero-export Power 20
Energy pattern
BattFirst
LoadFirst
Grid Peak Shaving 8000 Power
Work Mode Selling First: This Mode allows hybrid inverter to sell back any excess power produced by the solar panels to the grid. If me of use is acve, the baery energy also can be sold into grid. The PV energy will be used to power the load and charge the baery and then excess energy will flow to grid. Power source priority for the load is as follows: 1. Solar Panels. 2. Grid. 3. Baeries (unl programable % discharge is reached).
Zero Export To Load: Hybrid inverter will only provide power to the backup load connected. The hybrid inverter will neither provide power to the home load nor sell power to grid. The built-in CT will detect power flowing back to the grid and will reduce the power of the inverter only to supply the local load and charge the baery.
Solar
Backup Load
On-Grid Home Load
Grid
Battery
Zero Export To CT: Hybrid inverter will not only provide power to the backup load connected but also give power to the home load connected. If PV power and baery power is insufficient, it will take grid energy as supplement. The hybrid inverter will not sell power to grid. In this mode, a CT is needed. The installaon method of the CT please refer to chapter 3.6 CT Connecon. The external CT will detect power flowing back to the grid and will reduce the power of the inverter only to supply the local load, charge baery and home load.
Solar
Backup Load
On-Grid Home Load
Grid CT
Battery
Solar Sell: "Solar sell" is for Zero export to load or Zero export to CT: when this item is acve, the surplus energy can be sold back to grid. When it is acve, PV Power source priority usage is as follows: load consumpon and charge baery and feed into grid. Max. sell power: Allowed the maximum output power to flow to grid Zero-export Power: for zero-export mode, it tells the grid output power. Recommend to set it as 20-100W to ensure the hybrid inverter won' t feed power to grid. Energy Paern: PV Power source priority. Ba First: PV power is firstly used to charge the baery and then used to power the load. If PV power is insufficient, grid will make supplement for baery and load simultaneously. Load First: PV power is firstly used to power the load and then used to charge the baery. If PV power is insufficient, Grid will provide power to load. Max Solar Power: allowed the maximum DC input power Grid Peak-shaving: when it is acve, grid output power will be limited within the set value. If the load power exceeds the allowed value, it will take PV energy and baery as supplement. If sll can't meet the load requirement, grid power will increase to meet the load needs.
System Work Mode
Grid Charge Gen
Time Of Use Time Power Batt 01:00 5:00 12000 160V 05:00 9:00 12000 160V 09:00 13:00 12000 160V 13:00 17:00 12000 160V 17:00 21:00 12000 160V 21:00 01:00 12000 160V
Battery Setting
Start
30%
A
37A
Gen Charge
Gen Signal Gen Max Run Time Gen Down Time
0.0 hours 0.5 hours
System Work Mode
Grid Charge Gen
Time Of Use Time Power Batt
01:00 5:00 12000 80%
05:00 8:00 12000 40%
08:00 10:00 12000 40%
10:00 15:00 12000 100%
15:00 18:00 12000 40%
18:00 01:00 12000 35%
Work Mode2
Batt Set2
Time of use: it is used to program when to use grid or generator to charge the baery, and when to discharge the baery to power the load. Only ck "Time Of Use" then the follow items (Grid, charge, me, power etc.) will take effect. Note: when in selling first mode and click me of use, the baery power can be sold into grid. Gen charge: ulize diesel generator to charge the baery in a me period. Time: real me, range of 01:00-24:00. Note: when the grid is present, only the "me of use" is cked, then the baery will discharge. Otherwise, the baery won't discharge even the baery SOC is full. But in the off-grid mode (when grid is not available, inverter will work in the off-grid mode automacally). Power: Max. discharge power of baery allowed. Ba(V or SOC %): baery SOC % or voltage at when the acon is to happen.
Work Mode2
For example During 01:00-05:00, if baery SOC is lower than 80%, it will use grid to charge the baery unl baery SOC reaches 80%. During 05:00-08:00, if baery SOC is higher than 40%, hybrid inverter will discharge the baery unl the SOC reaches 40%. At the same me, if baery SOC is lower than 40%, then grid will charge the baery SOC to 40%. During 08:00-10:00, if baery SOC is higher than 40%, hybrid inverter will discharge the baery unl the SOC reaches 40%. During 10:00-15:00, when baery SOC is higher than 80%, hybrid inverter will discharge the baery unl the SOC reaches 80%. During 15:00-18:00, when baery SOC is higher than 40%, hybrid inverter will discharge the baery unl the SOC reaches 40%. During 18:00-01:00, when baery SOC is higher than 35%, hybrid inverter will discharge the baery unl the SOC reaches 35%.
5.8 Grid Setup Menu
Grid Setting/Grid code selection
Grid Mode
General Standard
0/10
Grid Frequency
50HZ 60HZ
Phase Type 0/120/240 0/240/120
Grid Set1
Grid Mode:General StandardaUL1741 & IEEE1547a CPUC RULE21aSRD-UL-1741aCEI 0-21aAustralia Aa Australia BaAustralia CaEN50549_CZ-PPDS(>16A)a NewZealandaVDE4105aOVE-Direcve R25. Please follow the local grid code and then choose the corresponding grid standard.
Grid Level
LN:220V/LL:380V(AC)
Grid level: there're several voltage levels for the inverter output voltage when it is in off-grid mode.
LN:230VAC LL:400VAC,LN:240VAC LL:420VAC,
IT system-neutral is not grounded
LN:120VAC LL:208VAC, LN:133VAC LL:230VAC.
IT system: For the IT grid system, the Line voltage
(between any two lines in a three-phase circuit) is 230Vac, and the diagram is as follow.If your grid system
is IT system, please enable "IT system" and ck the "Grid level" as 133-3P as below picture shows.
6 7 8
/
7"$ 7"$ 7"$ 3[
Rz: Large resistance ground resistor. Or the system doesn't have Neutral line
Grid Setting/Connect
Normal connect
Normal Ramp rate 10s
Low frequency 48.00Hz High frequency 51.50Hz
Low voltage
185.0V High voltage
265.0V
Reconnect after trip Reconnect Ramp rate 36s Low frequency 48.20Hz High frequency 51.30Hz
Low voltage 187.0V
High voltage
263.0V
Grid Set2
Reconnection Time
60s
PF 1.000
Normal connect: The allowed grid voltage/frequency range when the inverter first me connect to the grid. Reconnect aer trip: The allowed grid voltage /frequency range for the inverter connects the grid aer the inverter trip from the grid. Reconnecon me: the waing me period for the inverter connects the grid again PF: power factor which is used to adjust inverter reacve power
Grid Setting/IP Protection
Over voltage U>(10 min. running mean) 260.0V
HV3 265.0V
HF3 51.50Hz
HV2 265.0V -- 0.10s
HF2 51.50Hz -- 0.10s
HV1 265.0V -- 0.10s
HF1 51.50Hz -- 0.10s
LV1 185.0V -- 0.10s
LF1 48.00Hz -- 0.10s
LV2 185.0V -- 0.10s
LF2 48.00Hz -- 0.10s
LV3 185.0V
LF3 48.00Hz
HV1: Level 1 overvoltage protecon point;
HV2: Level 2 overvoltage protecon point; 010s--Trip me.
HV3: Level 3 overvoltage protecon point.
Grid
LV1: Level 1 undervoltage protecon point;
Set3
LV2: Level 2 undervoltage protecon point;
LV3: Level 3 undervoltage protecon point.
HF1: Level 1 over frequency protecon point; HF2: Level 2 over frequency protecon point; HF3: Level 3 over frequency protecon point.
LF1: Level 1 under frequency protecon point; LF2: Level 2 under frequency protecon point; LF3: Level 3 under frequency protecon point.
Grid Setting/F(W)
F(W) Over frequency
Droop F
Start freq F 50.20Hz Stop freq F
40%P/Hz 51.5Hz
Grid Set4
Start delay F 0.00s
Stop delay F
0.00s
Under frequency Start freq F 49.80Hz
Droop F Stop freq F
40%PE/Hz 49.80Hz
Start delay F 0.00s
Stop delay F
0.00s
FW: this series inverter is able to adjust inverter output power according to grid frequency. Droop F: percentage of nominal power per Hz For example, "Start freq F50.2Hz, Stop freq F51.5, Droop F=40%P/Hz" when the grid frequency reaches 50.2Hz, the inverter will decrease its acve power at Droop F of 40%. And then when grid system frequency is less than 50.1Hz, the inverter will stop decreasing output power. For the detailed setup values, please follow the local grid code.
Grid Setting/V(W) V(Q)
V(W)
V1 108.0% P1 100% V2 110.0% P2 80% V3 112.0% P3 60% V4 114.0% P4 40%
V(Q)
Lock-in/Pn 0.3%
Lock-out/Pn 5.0%
Grid Set5
V1 94.0%
Q1 44%
V2 97.0%
Q2 0%
V3 105.0% Q3 0%
V4 108.0% Q4 -44%
V(W): It is used to adjust the inverter acve power according to the set grid voltage. V(Q): It is used to adjust the inverter reacve power according to the set grid voltage. This funcon is used to adjust inverter output power (acve power and reacve power) when grid voltage changes.
For example: V2=110%, P2=80%. When the grid voltage reaches the 110% mes of rated grid voltage, inverter output power will reduce its acve output power to 80% rated power. For example: V1=94%, Q1=44%. When the grid voltage reaches the 94% mes of rated grid voltage, inverter output power will output 44% reacve output power. For the detailed setup values, please follow the local grid code.
Grid Setting/P(Q) P(PF)
P(Q)
P1 0% P2 2% P3 0% P4 22%
Q1 2% Q2 0% Q3 21% Q4 25%
P(PF)
Lock-in/Pn 0.3%
Lock-out/Pn 5.0%
Grid Set6
P1 0%
PF1 -0.000
P2 0%
PF2 -0.000
P3 0%
PF3 0.000
P4 62% PF4 0.264
P(Q): It is used to adjust the inverter reacve power according to the set acve power. P(PF): It is used to adjust the inverter PF according to the set acve power. For the detailed setup values, please follow the local grid code.
Grid Setting/LVRT
L/HVRT
HV3 0% HV2 0% HV1 0% LV1 0% LV2 0%
HV3_T 30.24s HV2_T 0.04s HV1_T 22.11s LV1_T 22.02s LV2_T 0.04s
Reserved: This funcon is reserved.It is not recommended.
Grid Set7
5.9 Generator Port Use Setup Menu
GEN PORT USE
Mode Generator Input
Rated Power
8000W
GEN connect to Grid input
SmartLoad Output
On Grid always on
AC Couple Fre High
55.00Hz
OFF 151.0V
Micro Inv Input
ON 154.0V
Ml export to Grid cutoff
PORT Set1
Generator input rated power: allowed Max. power from diesel generator. GEN connect to grid input: connect the diesel generator to the grid input port. Smart Load Output: This mode ulizes the Gen input connecon as an output which only receives power when the baery SOC and PV power is above a user programmable threshold. e.g. ON: 100%, OFF: 95%: When the PV power exceeds 500W, and baery bank SOC reaches 100%, Smart Load Port will switch on automacally and power the load connected. When the baery bank SOC < 95% , the Smart Load Port will switch off automacally.
Smart Load OFF Ba · Baery SOC at which the Smart load will switch off. Smart Load ON Ba · Baery SOC at which the Smart load will switch on. simultaneously and then the Smart load will switch on. On Grid always on: When click "on Grid always on" the smart load will switch on when the grid is present. Micro Inv Input: To use the Generator input port as a micro-inverter on grid inverter input (AC coupled), this feature will also work with "Grid-Tied" inverters.
Micro Inv Input OFF: when the baery SOC exceeds seng value, Microinveter or grid-ed inverter will shut down. Micro Inv Input ON: when the baery SOC is lower than seng value, Microinveter or grid-ed inverter will start to
work. AC Couple Fre High: If choosing"Micro Inv input", as the baery SOC reaches gradually seng value (OFF), during the process, the microinverter output power will decrease linear. When the baery SOC equals to the seng value (OFF), the system frequency will become the seng value (AC couple Fre high) and the Microinverter will stop working. MI export to grid cutsoff: Stop exporng power produced by the microinverter to the grid.
Note: Micro Inv Input OFF and On is valid for some certain FW version only.
5.10 Advanced Funcon Setup Menu
Advanced Function
Solar Arc Fault ON:This is only for US.
Solar Arc Fault ON Clear Arc_Fault
System selfcheck
Backup Delay 0s
Gen peak-shaving
System selfcheck: Disable. this is only for factory.
Gen Peak-shaving: Enable When the power of the
Func Set1
generator exceeds the rated value of it, the inverter will
provide the redundant part to ensure that the generator
will not overload.
DRM
20001 CT Ratio
DRM: For AS4777 standard
Signal Island Mode
BMS_Err_Stop
Backup Delay: Reserved
Asymmetric phase feeding
CEI Report
BMS_Err_Stop: When it is acve, if the baery BMS failed to communicate with inverter, the inverter will stop
working and report fault.
Signal island mode: If "Signal island mode" is checked and When inverter is in off-grid mode, the relay on
the Neutral line (load port N line) will switch ON then the N line (load port N line) will bind to inverter ground.
*OWFSUFS
-PBEQPSU
- - - /
4IFMM
(SPVOEDBCMF
3FMBZ Asymmetric phase feeding: The power that the inverter of PV feeds into the grid will be balanced.
Advanced Function
Parallel Master Slave
Modbus SN 00
EX_Meter For CT
Meter Select No Meter 0/3
CHNT Eastron
Ex_Meter For CT: when using zero-export to CT mode, the hybrid inverter can select EX_Meter For CT funcon and use the different meters.e.g.CHNT and Eastron.
Paral.
Set3
5.11 Device Info Setup Menu
LDie-BvMiceSInfo.
Volt Curr TeInmvperteSrOICD: 2E1n0e2rg1y9987C0harge FFlaauslth HMI: Ver 1001-8010 MAIN:Ver2002-V1o0lt46-C17ur0r7
1 2
55A00..33la83rVVm11s99..17C00oAAde3310..06CC
52.0% 51.0%
3 F5103.30GVri1d6_.9M0Aode30_.2cChan1g2e.0d%
4 0.00V 0.00A 0.0C 0.0%
5 F02.300VTz_0.G00FACI_0O.0CC _Fa0u.0l%t
2256..50AAOhh cc50u3.0.r2VrVed205.0.0AA
0|0|0 0|0|0
6.0Ah202513.-20V6-1251.0A130:1|07|0
0.0Ah 0.0V 0.0A 0|0|0
0.0Ah20201.0-V06-10.10A 080:|203|0
DSeuvmice DInaftoa
6 7
F001..30000VVGri00d..00_00MAA ode00.._00CCchan00g..00e%%d
0.0Ah20201.0-V06-10.10A 080:|201|0
0.0Ah 0.0V 0.0A 0|0|0
8 F05.060VDC0_.0V0oAltLo0w.0C_Fau0l.t0% 0.0Ah20201.0-V06-10.00A 130:|005|0
9 0.00V 0.00A 0.0C 10 0.00V 0.00A 0.0C
0.0% 0.0%
0.0Ah 0.0V 0.0A 0|0|0
0.0Ah 0.0V 0.0A 0|0|0 Details
11 0.00V 0.00A 0.0C 0.0% 0.0Ah 0.0V 0.0A 0|0|0 Data
12 0.00V 0.00A 0.0C 0.0% 0.0Ah 0.0V 0.0A 0|0|0
13 0.00V 0.00A 0.0C 0.0% 0.0Ah 0.0V 0.0A 0|0|0
14 0.00V 0.00A 0.0C 0.0% 0.0Ah 0.0V 0.0A 0|0|0
15 0.00V 0.00A 0.0C 0.0% 0.0Ah 0.0V 0.0A 0|0|0
This page show Inverter ID, Inverter version and alarm codes.
HMI: LCD version MAIN: Control board FW version
6. Mode Mode I:Basic
AC cable DC cable COM cable
Solar
Backup Load On-Grid Home Load
Battery
Mode II: With Generator
CT Grid
AC cable DC cable
Solar Battery
Backup Load
On-Grid Home Load
Grid CT Generator
Mode III: With Smart-Load
AC cable DC cable
Solar
Backup Load
On-Grid Home Load
Battery
Mode IV: AC Couple
0O(SJE
"$DPVQMF
CT
Grid
Smart Load
AC cable DC cable
Solar Battery
Backup Load
On-Grid Home Load
CT
Grid
On-Grid Inverter
The 1st priority power of the system is always the PV power, then 2nd and 3rd priority power will be the baery bank or grid according to the sengs. The last power backup will be the Generator if it is available.
7. Limitaon of Liability
In addion to the product warranty described above, the state and local laws and regulaons provide financial compensaon for the product's power connecon (including violaon of implied terms and warranes). The company hereby declares that the terms and condions of the product and the policy cannot and can only legally exclude all liability within a limited scope.
Error code
Description
'
%$@*OWFSTFE@'BJMVSF
Solutions $IFDLUIF17JOQVUQPMBSJUZ 4FFLIFMQGSPNVT
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8IFOUIFCBUUFSZNPEFXBTDIBOHFEUPo/PCBUUFSZp
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-FBLBHFDVSSFOUGBVMU
'
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4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
%$TJEFPWFSDVSSFOUGBVMU
$IFDL17NPEVMFDPOOFDUJPOBOECBUUFSZDPOOFDUJPO
8IFOJOUIFPGGHSJENPEF
UIFJOWFSUFSTUBSUVQXJUICJH
'
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UIFOUVSOPOUIF%$BOE"$TXJUDI
4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
Error code ' '
Description 5[@)7@0WFSDVSS@GBVMU
5[@&NFSH4UPQ@'BVMU
Solutions #64PWFSDVSSFOU
$IFDLUIF17JOQVUDVSSFOUBOECBUUFSZDVSSFOUTFUUJOH 3FTUBSUUIFTZTUFN_UJNFT *GUIFGBVMUTUJMMFYJTUT
QMFBTFDPOUBDUVTGPSIFMQ 3FNPUFMZTIVUEPXO
JUUFMMTUIFJOWFSUFSJTSFNPUFMZDPOUSPMMFE
-FBLBHFDVSSFOUGBVMU
'
5[@('$*@0$@'BVMU
$IFDL17TJEFDBCMFHSPVOEDPOOFDUJPO 3FTUBSUUIFTZTUFN_UJNFT
*GUIFGBVMUTUJMMFYJTUT
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17JTPMBUJPOSFTJTUBODFJTUPPMPX
$IFDLUIFDPOOFDUJPOPG17QBOFMTBOEJOWFSUFSJTGJSNMZBOE
'
%$@*OTVMBUJPO@'BVMU
DPSSFDUMZ $IFDLXIFUIFSUIF1&DBCMFPGJOWFSUFSJTDPOOFDUFE
UPHSPVOE
4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
1MFBTFXBJUGPSBXIJMFBOEDIFDLXIFUIFSJUJTOPSNBM
8IFOUIFMPBEQPXFSPGQIBTFTJTCJHEJGGFSFOU
JUXJMMSFQPSU
'
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3FTUBSUUIFTZTUFN_UJNFT
4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
(SJEGSFRVFODZPVUPGSBOHF
'
"$@6OEFS'SFR@'BVMU
$IFDLUIFGSFRVFODZJTJOUIFSBOHFPGTQFDJGJDBUJPOPSOPU $IFDLXIFUIFS"$DBCMFTBSFGJSNMZBOEDPSSFDUMZDPOOFDUFE
4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
8IFOJOQBSBMMFMNPEF
DIFDLUIFQBSBMMFMDPNNVOJDBUJPO
DBCMFDPOOFDUJPOBOEIZCSJEJOWFSUFSDPNNVOJDBUJPO
BEESFTTTFUUJOH
'
1BSBMMFM@$PNN@'BVMU %VSJOHUIFQBSBMMFMTZTUFNTUBSUVQQFSJPE
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BVUPNBUJDBMMZ
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$IFDLUIFCBDLVQMPBEDPOOFDUJPO
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$IFDLXIFUIFSHSJE"$DBCMFTBSFGJSNMZBOEDPSSFDUMZ DPOOFDUFE
4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
Error code ' ' ' ' '
Description "$@0WFS'SFR@'BVMU "$@6OEFS'SFR@'BVMU %$@7PMU)JHI@'BVMU %$@7PMU-PX@'BVMU #BUUFSZ@DPNN@-PTF
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JGDBOOPUHPCBDLUPOPSNBMTUBUF
(SJEGSFRVFODZPVUPGSBOHF $IFDLUIFGSFRVFODZJTJOUIFSBOHFPGTQFDJGJDBUJPOPSOPU $IFDLXIFUIFS"$DBCMFTBSFGJSNMZBOEDPSSFDUMZDPOOFDUFE 4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF #64WPMUBHFJTUPPIJHI $IFDLXIFUIFSCBUUFSZWPMUBHFJTUPPIJHI DIFDLUIF17JOQVUWPMUBHF
NBLFTVSFJUJTXJUIJOUIFBMMPXFE SBOHF 4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF #BUUFSZWPMUBHFMPX $IFDLXIFUIFSCBUUFSZWPMUBHFJTUPPMPX *GUIFCBUUFSZWPMUBHFJTUPPMPX
VTJOH17PSHSJEUP DIBSHFUIFCBUUFSZ 4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF
JUUFMMTUIFDPNNVOJDBUJPOCFUXFFOIZCSJEJOWFSUFSBOECBUUFSZ #.4EJTDPOOFDUFEXIFOo#.4@&SS4UPQpJTBDUJWFp
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4FFLIFMQGSPNVT
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Chart 7-1 Fault informaon
Under the guidance of our company, customers return our products so that our company can provide service of maintenance or replacement of products of the same value. Customers need to pay the necessary freight and other related costs. Any replacement or repair of the product will cover the remaining warranty period of the product. If any part of the product or product is replaced by the company itself during the warranty period, all rights and interests of the replacement product or component belong to the company. Factory warranty does not include damage due to the following reasons: · Damage during transportaon of equipment · Damage caused by incorrect installaon or commissioning · Damage caused by failure to comply with operaon instrucons, installaon instrucons or maintenance instrucons · Damage caused by aempts to modify, alter or repair products · Damage caused by incorrect use or operaon · Damage caused by insufficient venlaon of equipment · Damage caused by failure to comply with applicable safety standards or regulaons · Damage caused by natural disasters or force majeure (e.g. floods, lightning, overvoltage, storms, fires, etc.) In addion, normal wear or any other failure will not affect the basic operaon of the product. Any external scratches, stains or natural mechanical wear does not represent a defect in the product.
8. Datasheet
Model Battery Input Date
SUN-5KSG01HP3EU-AM2
Baery Type
Baery Voltage Range(V)
Max. Charging Current(A)
Max. Discharging Current(A)
Number of baery input
Charging Strategy for Li-lon Baery
PV String Input Data
Max. DC Input Power(W)
6500
Max. DC Input Voltage (V)
MPPT Range(V)
Start-up Voltage(V)
Full Load DC Voltage Range (V) Rated DC Input Voltage (V)
195-850
PV Input Current(A) Max.PV Isc(A)
20+20 30+30
No. of MPPT Trackers
No. of Strings Per MPPT Tracker
1+1
AC Output Data Rated AC Output and UPS Power(W) 5000
Max. AC Output Power(W)
5500
Peak Power(off grid)
AC Output Rated Current(A)
7.6/7.3
Max. AC Current(A)
8.4/8.0
MOuatxp.uTthCreuerr-epnhtacseAUnbalanced
13
Max. Connuous AC Passthrough(A)
Power Factor
SUN-6KSG01HP3EU-AM2
SUN-8KSG01HP3EU-AM2
SUN-10KSG01HP3EU-AM2
SUN-12KSG01HP3EU-AM2
SUN-15KSG01HP3EU-AM2
SUN-20KSG01HP3EU-AM2
Li-lon 160~700
37 37 1 Self-adapon to BMS
7800
195-850 20+20 30+30 1+1
10400 13000 1000
150-850 180
260-850 325-850 600
20+20 20+20
30+30 30+30
2 1+1 1+1
15600
340-850 26+20 39+30 2+1
19500
420-850 26+20 39+30 2+1
26000
500-850 26+26 39+39 2+2
6000
8000 10000 12000 15000 20000
6600
8800 11000 13200 16500 22000
1.5 me of rated power, 10 S
9.1/8.7 12.2/11.6 15.2/14.5 18.2/17.4 22.8/21.8 30.4/29.0
10/9.6 13.4/12.8 16.7/16 20/19.2 25/24 33.4/31.9
13
18
22
25
30
35
40
80
0.8 leading to 0.8 lagging
Output Frequency and Voltage
50/60Hz; 3L/N/PE 220/380, 230/400Vac
Grid Type
DC injecon current (mA) Efficiency Max. Efficiency Euro Efficiency MPPT Efficiency Protection PV Input Lightning Protecon An-islanding Protecon PV String Input Reverse Polarity Protecon Insulaon Resistor Detecon Residual Current Monitoring Unit Output Over Current Protecon Output Shorted Protecon Output Over Voltage Protecon
Baery Over Current Protecon
Three Phase <0.5%ln
97.60% 97.00% >99%
Integrated Integrated Integrated Integrated Integrated Integrated Integrated DC Type II / AC Type III
Fuses
Certifications and Standards
Grid Regulaon
EMC/Safety Regulaon
General Data Operang Temperature Rande(¥) Cooling Noise(dB) Communicaon with BMS Weight(kg) Size(mm) Protecon Degree Installaon Style Warranty
VDE4105,IEC61727/62116,VDE0126,AS4777.2,CEI 0 21,EN50549-1, G98,G99,C10-11,UNE217002,NBR16149/NBR16150
IEC62109-1/-2, NBT32004-2018, EN61000-6-1,EN61000-6-2, EN61000-6-3, EN61000-6-4
-40~60¥, >45¥ Derang Intelligent air cooling 45 dB RS485; CAN 30.5 408W×638H×237D IP65 Wall-mounted 5 years
9. Appendix I
Definion of RJ45 Port Pin for BMS1
/P
341JO
@#
@"
(/%@
$"/)
$"/-
(/%@
@"
@#
Definion of RJ45 Port Pin for BMS2
/P
341JO
@#
@"
(/%@
$"/)
$"/-
(/%@
@"
@#
BMS1 Port BMS2 Port
Definion of RJ45 Port Pin for Meter
/P
.FUFS1JO
.&5&3@#
.&5&3@"
(/%@$0.
.&5&3@#
.&5&3@"
(/%@$0.
Meter Port
Definion of RJ45 Port Pin for RS485
/P
RS232
/P
341JO .PECVT@# .PECVT@"
(/%@
(/%@ .PECVT@" .PECVT@#
8*'*34
59 39
%(/%
7ED
RS485 Port
8*'*34
This RS232 port is used to connect the wifi datalogger
10. Appendix II
1. Split Core Current Transformer (CT) dimension: (mm) 2. Secondary output cable length is 4m.
Lead Outside
Ver: 2.2, 2022-09-22
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