GOODWE XS Series Grid-Tied PV Inverter User Manual
- June 8, 2024
- GOODWE
Table of Contents
XS Series Grid-Tied PV Inverter
GoodWe Technologies Co., Ltd.
No. 90 Zijin Rd., New District, Suzhou, 215011, China www.goodwe.com
service@goodwe.com
User Manual
Grid-Tied PV Inverter
XS Series 0.7-3.3kW
V2.9-2022-09-20
1 Symbols ……………………………………………………………………………………………………………… 01
2 Safety Measures & Warning …………………………………………………………….. 02
3 Product Introduction ……………………………………………………………………………. 04
3.1 Inverter Overview ………………………………………………………………………………………………………. 04 3.2 Package
……………………………………………………………………………………………………………………… 05
4 Installation ……………………………………………………………………………………………………… 06
4.1 Mounting Instructions ………………………………………………………………………………………………… 06 4.2
Equipment Installation ………………………………………………………………………………………………. 06 4.3 Electrical
Connection …………………………………………………………………………………………………. 08 4.4 Communication
Connection ……………………………………………………………………………………… 12
5 System Operation …………………………………………………………………………………….. 18
5.1 LCD Panel …………………………………………………………………………………………………………………… 18 5.2 User
Interface And System Configuration …………………………………………………………………… 18 5.3 Error
Message ……………………………………………………………………………………………………………… 25 5.4 Wi-Fi Reset & Wi-Fi
Reload ………………………………………………………………………………………….. 25 5.5 Precaution For Initial
Startup …………………………………………………………………………………….. 26 5.6 Special Adjustable Setpoints
……………………………………………………………………………………… 26
6 Troubleshooting ………………………………………………………………………………………… 29
7 Maintenace …………………………………………………………………………………………………….. 31
8 Technical Parameters …………………………………………………………………………. 32
9 Power off the inverter …………………………………………………………………………. 42
1 Symbols
Failure to observe a warning indicated in this manual may result in injury.
Recyclable materials
Danger of high voltage & electric shock
This side up – The package must always have the arrows point up
Don’t touch, hot surface!
8
No more than eight (8) identical packages be stacked on each other.
Special disposal instructions
Fragile
Keep Dry
Refer to operation instructions
Wait at least 5 minutes after disconnecting the inverter before touching
internal parts 5min
CE mark.
01
2 Safety Measures & Warning
The XS-Series strictly conforms and has been tested according to international
safety regulations. GOODWE strongly advises installers to follow the local
safety regulations during the commissioning, operation and maintenance of the
XS-Series inverter. An improper operation may result in electric shocks or
damage to equipment and property. · The installation, maintenance and
connection of the inverters must be performed by qualified personnel, in
compliance with local electrical standards, regulations and following the
regulations of the local power suppliers, companies and related authorities. ·
To avoid electric shocks, the DC input and AC output port of the inverters
must be disconnected and wait at least 5 minutes before performing any
installation or maintenance. · The temperature of some components of the
inverters may exceed 60 during operation. To avoid being burnt, do not touch
the inverter during operation. Let it cool before touching it. · Keep children
away from the inverter. · Touching or changing inverter components without
following the GOODWE’s manual instructions may cause personal injury, damage
the inverters and ultimately be a reason for warranty invalidation. · The
electronic components of the inverter may be damaged by static electricity.
Appropriate methods must be adopted to prevent such damage, otherwise the
GOODWE’s warranty may be void. · Make sure that the output voltage of the
proposed PV array is lower than the maximum rated input voltage of the
inverter; otherwise the inverter may be damaged and the warranty may be void.
· When exposed to sunlight, the PV array generate dangerous high DC voltage;
we strongly operators to strictly follow the GOODWE’s instructions and avoid
actions that put lives at risk. The PV modules should have as a minimum an
IEC61730 class A rating protection. · If the equipment is used in a way not
authorized by the GOODWE, the equipment built-in protections may be damaged. ·
In order to achieve a complete isolation of the equipment: Turn off the DC
switch, disconnect the DC terminal, the AC terminal and the AC breaker · Do
not insert or pull the AC or DC terminals when the inverter is in operation. ·
An earthing photovoltaic system requires the installation of an Arc Fault
Detector on the DC side. The below bullet points are not understandable.
Urgently review! · The inverter can exclude the possibility of DC residual
currents to 6mA in the system, · Where an external RCD is required in addition
to the built-in RCMU, type A RCD must be used to avoid tripping.
02
· The PV is not grounded as default configuration.
· Inverters should not be used in multiple inverter combinations.
· The inverters are not suitable for power limitation for multiple inverters.
To ensure that the IP65 protection is maintained, please make sure that the
inverter is rigorously packed and its component sealed properly. The GOODWE
strongly suggests to install the inverter at most one day after it has been
unpacked. If this is not the case and the installation takes longer, please
re-seal all the unused terminals and ensure that the inverter and its
components are not exposed to water or dust.
To our inverter product, GOODWE provides standard manufacture warranty which
comes with the product and prepaid warranty extension solution to our
customer. You can find the details about the terms and solution from below
linkage. https://en.goodwe.com/warranty.asp
3 Product Introduction
3.1 Inverter Overview
XS series inverter illustration.
With DC Switch 1 2 345
Without DC Switch
6
2 345
7
1. DC Switch (Optional)
2. PV Input Terminals
3. WiFi/LAN Module Port (Optional)
4. CT & DRED/Remote Shutdown
/RS485 Port (Optional)
5. AC Output Terminal
6. LCD
8
7. Indicator Light
8. Button
Item Name
1
DC Switch
2
PV Input Terminal
WiFi/LAN Module Port 3
(Optional)
CT & DRED/Remote
4
Shutdown/RS485
Communication Port
5
AC Output Terminal
6
LCD
7
Indicator Light
8
Button
Description
During normal operation it is in “on” state, it can shut down the inverter
after it is disconnected from the grid by the AC breaker. For Australia and
New Zealand: With DC Switch .
For PV string connection
For WiFi/LAN communication
For CT and DRED & Remote Shutdown & RS485 Communication
For AC cable connection Inverter operation data viewing and parameter
configuration. Display the state of the inverter For configuration and viewing
parameters.
03
04
3.2 Package
The unit is thoroughly tested and strictly inspected before delivery. Damage
may still occur during shipping. 1. Check the package for any visible damage
upon receiving. 2. Check the inner contents for damage after unpacking. 3.
Check the package list below.
Inverter
Wall-mounted Bracket
Expansion Bolts
Positive DC Plug
Negative DC Plug
or AC Terminal
Terminal[1]
Allen Wrench (VACONN AC Plug Only)
PE Terminal
Grounding Screw
Keep away
Keep it clear
from sunlight
Keep dry
of snow
Sun
Rain
Accmulated snow
4.2 Equipment Installation
4.2.1 Select installation location
Please take the following points into consideration when you are selecting a
proper location to install inverter. · Please choose appropriate mounting
methods and installation location in terms of weight and dimension of
inverter. · The location must be well ventilated and sheltered from direct
sunlight. · Install inverter vertically or with a backward tilt within 15
degrees. No lateral tilt is allowed. The inverter should not be tilted
sideways. The area of the connectors should point downwards.
Max 15°
Text Information
Communication Module
Bluetooth Module (optional)
[1] The terminal is used for CT/Remote Shutdown/RS485 function.
4 Installation
4.1 Mounting Instructions
1. In order to achieve optimal performance, the ambient temperature should be
lower than 45. 2. For easy maintenance, we suggest to install the inverter at
eye level. 3.Mounting Support Requirements: · The mounting support shall be
nonflammable and fireproof. · Make sure that the support surface is solid
enough to bear the product weight load. · Do not install the product on the
support with poor sound insulation to avoid the noise generated by the working
product, which may annoy the residents nearby. 4. Product label and warning
symbols should be placed at a location that is easy to read by the
users. 5. Make sure to install the inverter at a place where it is protected
from direct sunlight, rain and
snow.
05
To allow for a dissipation of the heat and in order to facilitate dismantling,
the space around the inverter should allow for some clear spaces. The spacing
around inverter should met the requirements as illustrated in below figures
for the sake of heat dissipation and demounting.
300mm
200mm
200mm 300mm
Upward————– 300mm Downward———- 500mm Front —————– 300mm Both sides ———- 200mm
500mm
06
4.2.2 Mounting procedure
1. Use the wall-mount bracket as a template and drill holes with 10mm in
diameter and 80 mm in depth on the wall.
2. Fix the wall-mount bracket on the wall with the expansion bolts in the
accessories bag. 3. Hold the inverter by the side groove. 4. Mount the
inverter onto the wall-mount bracket.
Mounting Bracket
Expansion Pipe
20mm
85mm 170mm
Self-tapping Screws
4.3 Electrical Connection
4.3.1 Connection To The Grid (AC Side Connection) 1. When connecting the
inverter make sure to adjust the voltage and the frequency in compliance
with the grid regulations and the specifications of the GOODWE. 2. Add a
breaker or fuse to the AC side. Please note that the specification should be
more than 1.25
times of rated AC output current. 3. The PE line of the inverter should be
connected to earth. Make sure the impedance of neutral
wire and earth wire is less than 10ohm. 4. Disconnect the breaker or fuse
between the inverter and the utility. 5. Please note that there are two AC
connector brands compatible with the inverters: VACONN and
Exceedconn. Choose one of the to connect the inverter to the grid. 6. When
laying the AC line make sure that the protective earthing conductor is not
strained.
07
Where an external RCD (Residual Current Device) is required in addition to the built-in RCMU (Residual Current Monitoring Unit), and a type A RCD must be used to avoid tripping.
Inverter model GW700-XS GW1000-XS GW1500-XS GW2000-XS GW2500-XS GW3000-XS
GW2500N-XS GW3000N-XS GW700-XS-11 GW1000-XS-11 GW1500-XS-11 GW2000-XS-11
GW2500-XS-11 GW3000-XS-11 GW3000-XS-B11
Recommended RCD specifications 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA 300mA
Inverter are compatible with two brands of AC connector: VACONN and Exceedconn
VACONN Series
VACONN AC connectors installation instruction
Tighten screw clockwise
8-10mm
Exceedconn
Inverter
Material (Annealed copper wire)
Tighten screw clockwise
Tighten three screws and ensure no screw head exceeds the surface
Exceedconn connectors installation instruction
When unplugging the AC terminals, press the button and hold it to unlock
7-9mm
unlock
lock Torque 0.7~0.9N.m Make sure the terminal is rotated to the lock position
before the inverter is started
08
AC cable specification
A
B
C
Grade Description
Value
A
O.D.
10~12mm
B
Conductor Material Sectional Area
2.5~4mm2
Annealed copper wire
C
Bare Wire Length
10mm around
- Neutral wire is blue, live wire is brown (preferred) or black and protective earth wire is yellow-green. * Rotate (tightening torque: 0.6N.m) the connector of AC cable into the corresponding terminal.
4.3.2 AC circuit breaker and leakage current protection device
Please install an independent two pole circuit breaker to protect the inverter
and make sure it is safe to disconnect it from the grid.
In addition to the built-in RCMU, an external RCD is required to ensure that
the inverter system does not carry DC residual currents. To avoid tripping,
the types A can be used.
Inverter Model
Recommended Circuit Breaker Specifications
GW700-XS/GW1000-XS/GW1500-XS/ 16A
GW700-XS-11/GW1000-XS-11/GW1500-XS-11
GW2000-XS/GW2500-XS/GW3000-XS/
GW2500N-XS/GW3000N-XS/GW3300-XS/
25A
GW3KB-XS/GW2000-XS-11/GW2500-XS-11/
GW3000-XS-11/GW3000-XS-B11
Note: it is not recommended that multiple inverters share a single circuit
breaker.
The integrated leakage current detection device of the inverter can detect
external leakage current in real time. When the detected leakage current
exceeds the limit value, inverter will quickly disconnect with the grid, if
the leakage current protection device is installed externally, the tripping
current should be 300mA or higher.
4.3.3 DC Side Connection
1. Before connecting the PV strings, please ensure the plug connectors have
the correct polarity. Incorrect polarity has the potential to cause permanent
damage to the unit.
2. The open circuit voltage of the PV strings cannot exceed the maximum input
voltage of the inverter.
3. Only the GOODWE supplied DC connectors are suitable for use.
4. The positive and negative pole should not be connected to the PE wire
(ground wire). Not following this instruction may cause damage to the
inverter.
5. Do not connect the positive or negative poles of the PV string to the PE
wire. Not following this instruction may cause damage to the inverter.
6. Red represents positive, black represents negative.
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7. For the XS series the minimum insulation resistance to the ground of the
PV panels must exceed 16.7k (R=500/30mA). There is risk of shock hazard if
this minimum resistance requirement is not me.
There are four types of DC connectors, DEVALAN, MC4, AMPHENDL H4 and QC4.10
series.
DEVALAN SERIES
MC4 SERIES
AMPHENOL SERIES
QC4.10 SERIES
Note: The actual DC connector used is as shown in the accessory box. DC cable specification:
A
B
C
Please use solar PV cable in DC connection. (4mm PV1-F wire recommended)
Label Description A External diameter of wire stock B Cross-sectional area of conductor material C Length of bare wire
Value 4~5mm 2.5~4mm2 About 7mm
The installation method of DC connector.
Positive connector
Inverter side
MC4 & QC4.10
Negative connector DEVALAN & AMPHENOL
Do not crimp wire into the limit buckle.
Please use special tools to do crimping
10
4.3.4 Earth Terminal Connection The inverter is equipped with earth terminal
according to the requirement of EN 50178. All non-current carrying exposed
metal parts of the equipment and other enclosures in the PV power system must
be grounded. Please follow the steps below to connect “PE” cable to ground.
Step 1 Strip the wire insulation sheet of a suitable length with a wire
stripper.
L1
L2 = L1 + (1~2mm)
Step 2 Insert the stripped wire into the terminal and compress it tightly by
crimping pliers.
Step 3 Fix the earth wire on the machine.
In order to improve the corrosion resistance of the terminal, it is recommended to apply silica gel on the earth terminal for corrosion protection after the grounding cable assembly is completed.
NO. Name
Explanation
A Cold-pressed terminal
B Screw
M5*14 (1~1.5Nm)
C Green & Yellow Cable 4mm2 / 10AWG
A B C
11
4.4 Communication Connection
This port is used for connection of Wi-Fi or LAN module only. No connection to
USB is allowed. Do not connect PC or other devices to this port. 4.4.1 Wi-Fi
Communication Wi-Fi communication option is only applicable to Wi-Fi version
inverter and Wi-Fi communication module is required. Please refer to “Wi-Fi
Configuration Instruction” in the accessory box for detailed instruction. The
WiFi module installation of XS series are shown as below.
After the installation, confirm whether the indicator on the module is on. If
the indicator is off, the module needs to be unplugged and installed again.
Unlocking tool
4.4.2 LAN Communication LAN Communication is only application to LAN version
inverter and LAN Communication module is required.
12
4.4.3 RS485 Communication RS 485 communication option is only applicable to
RS485 version inverter and RS485 communication function is required. RS485
communication connection of XS series are shown as below.
Step 1 Dismount the terminal in the accessory box.
Step 2: Dismantle the resistor or shortcircuit cable.
Step 3: Put the cable through the connector and connect to the terminal.
For single inverter connection Please connect RS485 cables to ‘RS485-‘ port (3
or 7) and ‘RS485+’ port (6 or 8).
NO. Function 3 RS4857 6 RS485+ 8
2
3
1
5
4
8
6
7
RS485
2
3
1
5
4
8
6
7
RS485
For multiple inverter connection Please connect RS485 cables to ‘RS485-‘ port
(3 or 7) and ‘RS485+’ port (6 or 8).
Note: When in multi-machine parallel, please ensure that terminals at both
ends of the 2-pin cable are connected with the same polarity.
NO. Function 3 RS4857 6 RS485+ 8
2
3
1
5
4
8
6
7
RS485
2
3
1
5
4
8
6
7
RS485
Step 4: Connect the terminal to the right position onto the inverter.
13
14
4.4.4 Export Power Limit Connection Diagram The methods of connecting the Power Limiting device CT is shown below. CT90-5 or CT90-30 is recommended.
Inverter
CT+ white Wire
L K
Black Wire L CT-
N Switch Board
Router
Note: Correct direction of CT: House (K)Grid(L). Incorrect connection or
direction will cause incorrect data.
4.4.5 DRED / Remote Shutdown / CT(Power Limit Device) Connection DRED (Demand
response enabling device) is only for Australian and New Zealand
installations, in compliance with Australian and New Zealand safety
requirements. Contat the after-sales service to get the DRED terminal if you
need to use DRED function. DRED function is off by default. Start this
function via SolarGo App if it’s needed. Remote shutdown is only for Europe
installations, in compliance with European safety requirements. And Remote
shutdown device is not provided by GOODWE. Remote shutdown function is off by
default. Start this function via SolarGo App if it’s needed. Detailed
operation is shown as below:
Step 1 Dismantle the resistor or shortcircuit cable.
15
Step 2: Put the cable through the plate. Different cable and connection method should be applied for different functions. Please follow the connection steps in accordance to the function in need.
CT and DRED Please connect the cables in order as shown in the right table.
6.5mm 25mm
2
3
1
5
4
8
6
7
6.5mm
25mm
Table 1 Power Limiting
NO. Function
1
CT –
2
CT +
Table 2 DRED
NO. Function
3
DRM1/5
4
DRM2/6
5
DRM3/7
6
DRM4/8
7
REFGEN
8
COM/DRM0
Remote Shutdown Please connect the cables in order as shown in the right table.
6.5mm 25mm
2
3
1
5
4
8
6
7
Table 1 Remote Shutdown
NO. Function
4
Content +
5
Content –
CT and Remote Shutdown Please connect the cables in order as shown in the
right table.
6.5mm
25mm
2
3
1
5
4
8
6
7
Table 1 CT
NO. Function
1
CT –
2
CT +
Table 2 Remote Shutdown
NO. Function
4
Content +
5
Content –
16
Step 3: Connect the terminal to the right position onto the inverter.
Note:
1. Compatible DRED commands are DRM0, DRM5, DRM6, DRM7, DRM8.
2. Please set up power limit function at local setting page once all
connection steps are done.
3. CT is directional. Please make sure CT+ is properly connected to white &
black wire and CT- to black wire. Please make sure the limit buckle is
connected to the output live wire (L) of inverter.
4. If CT is not well connected, it will display “CT disconnected” on the
inverter. If CT is reversely connected, it will display “CT Reverse” on the
inverter when connected to grid.
4.4.6 Earth Fault Alarm
In compliance with the section 13.9 of IEC62109-2, the XS series inverter is
equipped with an earth fault alarm. When earth fault occurs, the fault
indicator at the front LED screen will light up. On inverters with Wi-Fi
communication, the system sends an email with the fault notification to the
customer. For inverters without Wi-Fi, the buzzer of the inverter will keep
ringing for one minute and ring again after half an hour until the fault is
resolved. (This function is only available in Australia and New Zealand).
4.4.7 SEMS Portal
SEMS Portal is an online monitoring system. After completing the installation
of communication connection, you can access www.semsportal.com or download the
App by scanning the QR code to monitor your PV plant and device.
Please contact the after-sales for more operation of SEMS Protal.
SEMS Portal App
5 System Operation
5.1 Power on the inverter
Check Items Before Switching Power on.
No.
Check Item
1 The product is firmly installed at a clean place that is well-ventilated and easy to operate.
2
The PE, DC input, AC output, and communication cables are connected correctly and securely.
3 Cable ties are intact, routed properly and evenly. 4 Unused ports and terminals are sealed.
5
The voltage and frequency at the connection point meet the inverter grid connection requirements.
Step 1: Turn on the AC switch between the inverter and the utility grid. Step 2: (optional) Turn on the DC switch between the inverter and the PV string. Step 3: Turn on the DC switch of the inverter.
5.2 LCD Panel
Button
Indicator lights in Yellow/Green/Red correspondently refer to:
Indicator
Power Run Fault
Status
Explanation ON = WiFi connected/active BLINK 1 = WiFi system resetting BLINK 2 = Not connect to router BLINK 3 = WiFi server problem BLINK = RS485 connected OFF = WiFi not active On = Inverter is feeding power OFF = Inverter is not feeding power at the moment On = Fault occurred OFF = No fault
17
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5.3 User Interface And Syetem Configuration
5.3.1 Operation Method There are 2 modes of button operation: Short press the
button and long press the button. In all levels of menu, if no action is
taken, the backlight of the LCD will switch off, the LCD will automatically
revert to the first item of the first level menu, and any modifications made
to the data will be stored into internal memory.
5.3.2 Set Safety Country After powering on for the first time, the inverter
prompts Select Country/Region, please short press until “GW1000-XS
Pac=.0W” is displayed, and then set the safety region. The inverter cannot
be connected to the grid before the safety-related area is set. If display
shows “GW1000-XS Pac=.0W”, then long press the button to enter the second
level menu. Short press to browse the countries available. Please wait after
choosing the suitable country’s safety setting, the display will show
“setting…” and skip to “Set OK” or “Set Fail”. NOTE: For the Australian
market, to comply with AS/NZS 4777.2:2020, please select from Australia Region
A/B/C, please contact your local electricity grid operator on which Region to
select. After the safety area setting is completed, some parameters in the
inverter system will take effect according to the corresponding safety
regulations, such as PU curve, QU curve, trip protection, etc. If you need to
change the configuration parameters, please refer to the SolarGo APP user
manual.
5.3.3 LCD
A schematic of the display screen is shown as below:
Normal Pac=XXXX.XW
Display area is divided as follows: Line Line
5.3.4 Display Area Line 1 — Working status information Line 2—Diaplays of the
real-time power generated by the inverter. · This area displays the status
information. “Waiting” indicates the inverter is standing by for power
generation; “Checking **S” (checking time is based on safety, and varies from
country to country) indicates is self-checking, counting down and preparing
for power generation. “Normal” indicates the inverter is generating power. If
any condition of the system is abnormal, the screen will display an error
message. · Through button operation, the screen can display different
information such as operation
parameters and power generation status is in this area. There are two levels
of menus, and the flow chart of first level menu is shown below:
5.3.5 Use Of The LCD The display allows accessing the configuration of the
basic parameters. All the language, time and country settings can be
configured by buttons. The menu, shown in the LCD displays area has two
19
levels of menu. Short or long press the button will take you between menus and through each menu. Items in the first level menu that have no second level are locked. For these items, when the button is pressed for two seconds, the LCD will display the word “Lock” followed by data relating to the first level menu item. The locked menu can only be unlocked under system mode switching, fault occurrence or button operation.
5.3.6 Menu Introduction · When the PV panel is feeding power to the inverter,
the LCD displays the first-level menu.
· The initial display is the first item to the first level menu, and the
interface displays the current status of the system. It shows “Waiting” in the
initial state; its display “Normal” during power generation mode; if there is
something wrong with the system, an error message is displayed. Please refer
to “5.3 Error message”.
View PV voltage, PV current, grid voltage, current and frequency:
· Short press the button to enter the “E-total” menu which displays the total
power generation for today.
· Short press the button to enter the “E-total” menu which displays the total
power generation until today. · Short press the button to enter the “Vpv” menu
which displays the PV voltage in “V”.
Normal Pac = xxx W
Short Press
E-Today =xxx .xx KWh Pac = xxx W Short Press
E-Total =xxx .xx KWh Pac = xxx W Short Press
Vpv =xxx .xx V Pac = xxx W
Short Press
Ipv =xxx .xx A Pac = xxx W
Short Press
Long Press Long Press Long Press Long Press Long Press
50Hz Grid Default Lock
Vac= xxx/xxx/xxx V
Short Press
Long Press
Iac= xx.x/xx.x/xx.x
Long Press
Short Press
Fac =xx.xx Hz Pac = xxx W
Long Press
Short Press Error History
Pac = xxx W
Short Press
Long Press
No Error
UtilityLoss 190520 05:21
Model Pac = xxx W
Short Press
Long Press
Long Press
Password: 1111
Password: 1111
Long Press
Long Press
Password: 1111
Short Press to select number 0 ~ 9 Short Press to select number 0 ~ 9 Short Press to select number 0 ~ 9
Initial Password: 1111
Set OK
Short Press to select number 0 ~ 9 Password: 1111
wait for 10s
Ver:V1.XX.XX Pac=xxx W
Short Press
Set Fail Short Press
Setting…
New Zealand
Short press and wait for 10s
Set Language Pac=xxx W
Short Press
Long Press
Next page
English
Short Press
Angielski
Wait
Setting
Set OK Set Fail
20
Previous page
Long Press
Set Time Pac = xxx W
Long Press
Short Press
Long Press
Long Press
2000-00-00 00:00
2000-00-00 00:00
Short Press to select number 0 ~ 9
Short Press to select number 0 ~ 9
······
Wait
PF Adjust Pac = xxx W
W/L Reset Pac = xxx W
Long Press
W/L Resetting
Wait W/L Reset OK
Long Press
2000-00-00 00:00
Short Press to select number 0 ~ 9
Setting
Set OK Set Fail
W/L Reset Fail
W/L Reload Pac = xxx W
Long Press
W/L Reloading
Wait W/L Reload OK
W/L Reload Fail
Long Press
Disable
Long Press
Short Press
Long Press
Long Press
Lagging 0.95
Lagging 0.95
Short press short press to
Short Press to select
select”Leading” or “Lagging” number 8 or 9
Lagging 0.95
Short Press to select number 0 ~ 9
Wait Setting
Set OK Set Fail
Shadow MPPT OFF
Or Shadow MPPT ON
Pac = xxx W
Long Press
Pac = xxx W
Short Press
Short Press
Power Limit OFF Pac=xxx W
Or Long Press
Power Limit ON Pac=xxx W
Short Press
Set Power Limit XXX%
Long Press
Short Press
Long Press
Long Press
Set Power Limit XXX%
Short press to select number 0 ~1
Long Press
Set Power Limit XXX%
Set Power Limit XXX%
Short press to select number 0 ~9
Short press to select number 0 ~9
Set Calibrate Addr Pac=xxx W
Long Press
Set Addr: XXX
Long Press
Short press to select number 0 ~ 2
Wait
Set OK
Setting
Set Fail
Long Press
Set Addr: XXX
Long Press
Short press to select number 0 ~9
Set Addr: XXX
Short press to select number 0 ~9
Wait
Set OK
Setting
Set Fail
21
· Short press the button to enter the “Ipc” menu which displays the PV current
in “A”. · Short Press the button to enter the “Vac” menu which displays the
grid voltage in “V”. · Short Press the button to once more to enter the “Iac”
menu which display the grid current in “A”. · Short Press the button to once
more to enter the “Frequency” menu which displays the grid
frequency in “Hz”. · View error code Short press the button once more to enter
the “Error Code history” menu. Long press the button to enter the second level
menu of error detection. The newest three inverter records will be shown by
short pressing the button in this second level menu. The records include error
codes (EXX) and error times (110316 15:30). · View model name and reconfigure
safety country: From the error code history item in the first level menu,
short press the button to see model name. If you want to change the safety
country, please long press the button, then LCD will enter the second level
menu. In the second level menu, short pressing the button can change the
safety country. After choosing the suitable safety country, the inverter will
store the chosen safety country if there is no input for 20 seconds. If there
is no exact proper country code, please choose “50Hz Grid Default” or “60Hz
Grid Default” accordingly. · View software version From the model name item in
the first level menu, short press the button to see the software version. The
current software version can be shown in this menu.
5.3.7 Basic Setting · Set language Short press the button to enter the “Set
Language” menu. Long press the button to enter the second level menu. Short
press the button to browse the languages available. · Set time From the first
level “Set Language” menu, short press the button to enter the “Set Time”
menu. Long press the button to enter the second level menu. The initial
display is “2000-00-00 00:00”, in which the first four numbers represent the
year (e.g. 2000~2099); the fifth and sixth numbers represent the month (e.g.
01~12); the seventh and the eighth numbers represent the date (e.g. 01~31).
The remaining numbers represent the time. Short press the button to increase
the number in current location, and press to move the cursor to next position.
· Set protocol: The function is only used for service personnel, setting a
wrong protocol could lead to communication failure. From the first level “Set
Time” menu, short press the button to enter
22
“Set Protocol Display” menu. Long press the button to enter sub menu. The
circulatory sub menu including two protocols can be found. The protocol can be
chosen by short pressing the button.
· MPPT function for shadow:
The default setting for shadow optimizer is disabled.
Please enable shadow optimizer when there is shadow on PV panel. The function
could help the system generate more power under shadow condition. Please do
not enable the function when there’s no shadows being casted onto the panel.
Otherwise it could lead to lesser generated power. Press the button until it
enters the shadow optimize menu. When LCD displays “Shadow MPPT OFF”, it means
the MPPT function for shadow is switched off. Long press the button to enable
the function. If LCD displays “Shadow MPPT ON” it means the shadow optimizer
is on. Long press the button to disable the function.
· 70% rated power limit
The function is only available for inverters in Germany. It can only be used
by network operators. Otherwise it will cause a loss of power generated from
the PV plant.
Press the button till LCD displays the 70% rated power menu. If LCD displays
70% rated enable it means the function to limit the inverter working under 70%
of rated output is switched off. Long press the button will switch this
function on. If LCD displays recover rated power it means the inverter is
working under 70% of rated output power. Long press the button to recover
inverter to 100% of its rated output power.
5.3.8 Power Limiting Function Setting
· Enter Password:
Please enter the password (valid for 10 minutes) before changing the power
limiting state (the default is OFF) and the power limiting setting (the
default is 2% rated power): Long press the button to enter password input
menu. The initial display “1111” is the default password. Short press the
button to increase the number in current location and long press to move to
the cursor to next position. The operations are shown as below.
Short Press
Shadow MPPT ON Pac=XXXX.XW
Short Press
Shadow Limit ON Pac=XXXX.XW
Short Press
Set Power Limit XXX% Prated
Long Press
Password: 1111
Short Press
Password: 1111
Short Press
Password: 1111
Short Press
Password: 1111
Short press to select number 0 ~ 9
Short press to select number 0 ~ 9
Short press to select number 0 ~ 9
Short press to select number 0 ~ 9
Long Press
23
· Modify Password:
Long press the button to enter password change menu. Short press to increase the number in current location, long press to move the cursor to next position. If the old password is right, the new password will be stored after 20 seconds without any input.
Note: You can only enter the new password if the login is within the effective time period (10 minutes).
The operation are shown as below.
Short Press
Shadow MPPT ON Pac=XXXX.XW
Short Press
Shadow Limit ON Pac=XXXX.XW
Short Press
Set Power Limit XXX% Prated
Long Press
· Power limiting function setting
Old Passworld: 1111 New Password:1111 Short Press
Old Passworld: 1111 New Password:1111 Short Press
……
Short Press Old Passworld: 1111 New Password:1111
Short press to select number 0 ~ 9
Short press to select number 0 ~ 9
Short press to select number 0 ~ 9
Short press to select number 0 ~ 9
Long Press
If the power limiting function is ON, the maximum output power of the inverter will be limited at the power limit setting value while the inverter is without power limiting device (such as a CT/Meter) or when the power limiting device is out of order.
5.3.9 Auto-Test
The default setting of this function is disabled which can only be available in Italy safety. Short press the button until LCD displays “Auto Test”, and long press the button to start this function.
if auto test is finished, short press the button until LCD displays “Auto Test Result”, and long press the button to check the result.
First Level Menu
Auto Test Pac=XXXX.XW
Long Press
Second Level Menu Auto Testing
Wait
…
Short Press To Check The Value
First Level Menu Normal
Pac=XXXX.XW
First Level Menu Auto Test Result
Pac=XXXX.XW
Short Press
Auto test types will be chosen by “Remote” and “Local” before starting the
test. “Remote” default setting is 1, unable to be modified. “Local” default
setting is 0, which can be set to 0 or 1 by calibrating the software. If set
“Local” to 1, testing order will be 59.S1, 59.S2, 27.S1, 81>S1, 81<S1.
Otherwise, testing order will be 59.S1, 59.S2, 27.S1, 81>S2, 81<S2.
Connect AC, auto tests will begin after the inverter relays close
successfully: output power is zero and LCD will show the information about
testing.
24
If sub test finishes and LCD displays “Test ***** Ok”, inverter relay breaks
off and reconnect to grid automatically according to CEI 0-21 requirement.
Then the next test starts.
Vac Fail Test 59.S1 OK
If sub test fails, inverter relay breaks off and enter wait mode. To retry,
the inverter needs to be totally powered off and be restarted.
5.3.10 Operation Of Display When Commissioning
When the input voltage reaches the inverter’s turn-on voltage, the LCD starts
to work, the yellow lights is turned on and the LCD displays “Waiting”. More
information will be displayed within a few seconds. If the inverter is
connected to the grid, “Checking 30” will be displayed and a countdown of 30
seconds will commence. When the countdown reaches “00S” you will hear the
relay trigger 4 times. The LCD will then display “Normal”. The instant power
output will be shown at the left bottom of the LCD.
5.4 Error Message
An error message will be displayed on the LCD is a fault occurs.
Error code Error message
Description
03
Fac Fail
Grid frequency out of permissible range
14
Isolation Fail
Ground insulation impedance is too low
15
Vac Failure
Grid voltage out of permissible range
17
PV Over Voltage
Overvoltage at DC input
19
Over Temperature
Over Temperature on the case
23
Utility Loss
Utility is unavailable
24
AFCI Fail
Abnormal recognition of arc fault signal
5.5 Wi-Fi Reset & Wi-Fi Reload
These functions are only available for Wi-Fi model inverters.
Wi-Fi reload function is used to change the Wi-Fi configuration to default value. Please configure the Wi-Fi again after using the function.
Short press the button until the LCD displays “Wi-Fi Reset”, then long press the button until the LCD displays “Wi-Fi Resetting”. Stop pressing and wait for the screen to display “Wi-Fi Reset OK” or “Wi-Fi Reset Failed”.
First Level Menu
WiFi Reset Pac=2595.5W
Long Press
Second Level Menu WiFi Resetting
Wait
WiFi Reset OK WiFi Reset Fail
25
Short press the button until the LCD displays “Wi-Fi Reload”, then long press the button until the LCD displays “Wi-Fi Reloading”. Stop pressing and wait for the screen to display “Wi-Fi Reload OK” or “Wi-Fi Reload Failed”.
First Level Menu
WiFi Reload Pac=2595.5W
Long Press
Second Level Menu WiFi Reloading
Wait
WiFi Reload OK WiFi Reload Fail
5.6 Precaution For Initial Startup
1. Make sure the AC circuit is connected and AC breaker is turned off. 2.
Make sure the DC cable between inverter and PV string is connected, and the PV
voltage is
normal. 3. Turn on the DC switch, and set safety country according to the
local regulation. 4. Turn on the AC breaker. Check the inverter work normal.
5.7 Special Adjustable Setpoints
The inverter has a field in which the user can set functions, such as trip
points, trip times, reconnect times, active and inactive QU curves and PU
curves. It is adjustable through special software. If needed, please contact
after-sales. To obtain software manuals, you can download them from the
official website or contact after-sales.
5.7.1 PF Power Curve Mode PF power curve mode can be modified by Calibrate
communication method, according to the set range to set the corresponding
value.
cos
0.95
LEADING
25%
B
1.0
A
50%
75%
100%
Power, (%P/P ) rated
LAGGING 0%
0.95 LEGEND:
C
cos
26
VAR/RATED, VA (%) 200 210 220 230 240 250 260 270
VAR/RATED, VA (%) 200 210 220 230 240 250 260 270
Function PF curve mode enable or disable B %P/Prated C Power factor
PF Power Curve Mode
Default value (Australia)
Default value (New Zealand)
0
0
50 (50%)
50 (50%)
0.9
0.9
Setting range “0”or”1″
30%~80% 0.8~1
5.7.2 PU Curve Mode
The PU curve mode can be modified by Calibrate communication method, according
to the set range to set the corresponding value.
V1
V2
100%
V3
V4
V1
V2
100%
V3 V4
80%
80%
POWER, P/Prated% POWER, P/Prated%
60%
60%
40%
40%
20%
20%
0%
200
210
220
230
240
250
260
270
Example curve for a volt-watt response mode (Australia)
0%
200
210
220
230
240
250
260
270
Example curve for a volt-watt response mode (New Zealand)
Function PU curve mode enable or disable V1 voltage ratio P1 power ratio V2 voltage ratio P2 power ratio V3 voltage ratio P3 power ratio V4 voltage ratio P4 power ratio
PU curve Mode
Default value (Australia) Default value (New Zealand)
1
1
207V 100c100%*Pn
207V 100c100%*Pn
220V 100c100%*Pn
220V 100c100%*Pn
250V 100c100%*Pn
244V 100c100%*Pn
265V 20c20%*Pn
255V 20c20%*Pn
Setting range “”0″or”1” Not applicable
0~120 216V~230V
0~120 235V~255V
0~120 244V~265V
0~120
5.7.3 QU Curve Mode
QU curve mode can be modified by Calibrate communication, according to the set
range to set the corresponding value.
LEADING LEADING
V1
V2
40%
V3
V4
30%
20%
10%
0%
10%
20%
30%
40% INVERTER VOLTAGE, V
LEGEND: var characteristic curve
V1
40% 30% 20% 10%
0% 10% 20% 30% 40%
V2
V3
V4
INVERTER VOLTAGE, V
LEGEND: var characteristic curve
LEADING LEADING
Function QU curve mode enable or disable V1 voltage ratio Q1 reactive power ratio V2 voltage ratio Q2 reactive power ratio V3 voltage ratio Q3 reactive power ratio V4 voltage ratio Q4 reactive power ratio
QU curve Mode
Default value (Australia) Default value (New Zealand)
0
0
207V 30c30%*Pn
207V 30c30%*Pn
220V 0c0%*Pn
220V 0c0%*Pn
250V 0c0%*Pn
244V 0c0%*Pn
265V 30c30%*Pn
255V 30c30%*Pn
Setting range “0”or”1″ Not applicable
0~60 216V~230V
0 235V~255V
0 244V~265V
0~60
5.7.4 Power Recovery Rate
The power recovery rate can be modified by Calibrate communication, according to the set range to set the corresponding value.
Function Power recovery rate Settings
The default value (Australia & New Zealand) 16c16%Pn/min
Setting range 5~100
If you need to change the above Settings, please contact our after-sales service.
27
28
6 Troubleshooting
If the Inverter is not able to work properly, please refer to the following
instructions before contacting your local service. If any problems arise, the
red (FAULT) LED indicator on the front panel will light up and the LCD screen
will display relevant information. Please refer to the following table for a
list of error message and associated solutions.
Type of fault
Troubleshooting
Isolation Failure
1. Disconnect DC switch, take off DC connector, check the impedance between
PV (+) & PV(-) to earth.
2. If impedance is less than 100 k, please check the insulation of PV string
wiring to earth.
3. If impedance is large than 100 k, please contact local service office. 4.
Take off AC connector, measure the impedance between neutral
Ground I Failure
System Failure
Vac Failure
Fac Failure
1. The ground current is too high. 2. Unplug the inputs from the PV generator
and check the peripheral AC
system. 3. When the problem is cleared, reconnect the PV panel and check the
Inverter
status. 4. Contact local service office for help if the problem still persist.
1. The PV Inverter will automatically restart within 5 minutes if the grid
returns to normal.
2. Make sure grid voltage conforms with the specification. 3. Make sure
neutral (N) wire and PE wire are connected well. 4. Contact local service
office for help if the problem still persist.
1. Grid is not connected. 2. Check grid connection cables. 3. Check
availability of grid.
Utility Loss
1. Not connect to the grid. 2. Check if the power grid is connected to cable. 3. Check the availability of power grid.
PV Over Voltage
1. Check if the PV open circuit voltage is higher or too close to the maximum
input voltage or not.
2. If the problem still persist when PV voltage is less than the maximum
input voltage, contact local service office for help.
Over Temperature
1. The internal temperature is higher than normal value specified. 2. Reduce ambient temperature. 3. Move the inverter to a cool place. 4. If the problem still exists, contact local service office for help.
29
Type of fault
Relay-Check Failure
DCI Injection High
EEPROM R/W Failure
SCI Failure
SPI Failure
DC BUS High
BUS Unbalance
Inverter Failure
GFCI Failure Ifan Fault
Efan Fault
Afan Fault
AFCI Fail
Troubleshooting
1. Turn off DC switch of the inverter. 2. Wait till the inverter’s LCD light
is off. 3. Turn on DC switch and make sure it is connected. 4. If the problem
still exists, contact local service office for help.
No display
1. Turn off DC switch, take off DC connector, measure the voltage of PV
array. 2. Plug in DC connector, and turn on DC switch. 3. If PV array voltage
is lower than 250V , please check configuration of inverter
module. 4. If voltage is higher than 250V , please contact local office.
Others
Wi-Fi module fail to connect to network
1. If the Wi-Fi module fail to connect to network after choosing the right
router hotspot and entering the right passwordsit’s possible that there are
special characters not supported by module in the hotspot passwords. Please
modify the password to consist of only Arabic numerals or uppercase /
lowercase letters.
2. If the problem still exists, contact local service office for help.
Note:
When sunlight is insufficient, the PV inverter may continuously start up and
shut down automatically due to insufficient power generation from the PV
panels, which would not lead to inverter damage.
30
7 Maintenace
Regular maintenance of the inverter ensures its service life and optimal
efficiency. Note: Disconnect the AC circuit breaker, then turn off the DC
switch. Wait for 5 minutes to release
residual voltage before maintenance.
7.1 DC Switch Check
The DC switch does not need extra maintenance if it’s in use. Just check
whether it can work properly. Keep the inverter shutdown before checking. Turn
the DC switch on and off 10 times continually once a year. Turn the switch
regularly can clean up the device and extend its service life. Boot order: 1.
Set the circuit breaker on the AC side to ON. 2. Set the DC switch to ON.
Caution: Skip this step if no DC switch. 3. Set the circuit breaker on the DC
side to ON. Shutdown order 1. Set the circuit breaker on the AC side to OFF.
2. Set the DC switch to OFF. Caution: Skip this step if no DC switch. 3. Set
the circuit breaker on the DC side to OFF.
7.2 Electrical connection check
Maintenance period: once a half year. 1. Check whether the cables are securely
connected. 2. Check whether the PE cables are reliably grounded 3. Check
whether the waterproof covers for ports are locked.
31
8 Technical Parameters
Technical Data Input Max. Input Power (W) Max. Input Voltage (V) MPPT Operating Voltage Range (V) MPPT Voltage Range at Nominal Power (V) Start-up Voltage (V) Nominal Input Voltage (V) Max. Input Current per MPPT (A) Max. Short Circuit Current per MPPT (A) Max. Backfeed Current to The Array (A) Number of MPP Trackers Number of Strings per MPPT Output Nominal Output Power (W) Nominal Output Apparent Power (VA) Max. AC Active Power (W)1 Max. AC Apparent Power (VA)2 Nominal Power at 40 (W) Only for Brazil Max Power at 40 (Including AC Overload) (W) Only for Brazil Nominal Output Voltage (V) Nominal AC Grid Frequency (Hz) Max. Output Current (A) Max. Output Fault Current (Peak and Duration) (A/ms) Inrush Current (Peak and Duration) (A/us) Nominal Output Current (A) Power Factor Max. Total Harmonic Distortion Maximum Output Overcurrent Protection (A)
GW700-XS
GW1000-XS
GW1500-XS
GW2000-XS
910 500 40~450 80~450 40 360 12.5 15.6
0 1 1
1,300 500 40~450 85~450 40 360 12.5 15.6
0 1 1
1,950 500 50~450 125~450 50 360 12.5 15.6
0 1 1
2,600 500 50~450 165~450 50 360 12.5 15.6
0 1 1
700
1,000
700
1,000
800
1,100
800
1,100
700
1,000
1,500 1,500 1,650 1,650
1,500
2,000 2,000 2,200 2,200
2,000
700
1,000
1,500
2,000
230 50/60
3.5
230 50/60
4.8
230 50/60
7.2
230 50/60
9.6
25@5ms
25@5ms
25@5ms
25@5ms
50@2us 3.0
50@2us
50@2us
50@2us
4.3
6.5
8.7
~1 (Adjustable from 0.8 leading to 0.8 lagging)
<3%
24
24
24
24
Protection PV Insulation Resistance Detection Residual Current Monitoring
97.2% 96.0%
97.2% 96.4%
97.3% 96.6%
Integrated Integrated
97.5% 97.0%
32
PV Reverse Polarity Protection Anti-islanding Protection AC Overcurrent
Protection AC Short Circuit Protection AC Overvoltage Protection DC Switch DC
Surge Protection AC Surge Protection General Data Operating Temperature Range
() Relative Humidity Max. Operating Altitude (m)*3 Cooling Method User
Interface Communication Communication Protocols Weight (kg) Dimension (W×H×D
mm) Noise Emission (dB) Topology Self-consumption at Night (W) Ingress
Protection Rating DC Connector AC Connector Environmental Category Pollution
Degree Overvoltage Category Protective Class The Decisive Voltage Class (DVC)
Active Anti-islanding Method Country of Manufacture (Only for Australia)
Technical Data Input Max. Input Power (W) Max. Input Voltage (V) MPPT
Operating Voltage Range (V) MPPT Voltage Range at Nominal Power (V)
Integrated Integrated Integrated Integrated Integrated Integrated
Type III Type III
-25~+60(60 °C for outdoor unconditioned with solar effects.) 0~100% 4000
Natural Convection LED, LCD (Optional)WLAN+APP
WiFi, LAN or RS485(Optional) Modbus-RTU (SunSpec Compliant)
5.8 295×230×113
25 Non-isolated
<1 IP65 MC4 (2.54mm²) Plug and Play Connector 4K4H
III DC II / AC III
I PVC ACC ComA
AFDPF + AQDPF *4
China
GW2500-XS
3,250 500 50~450 240450
GW3000-XS
3,900 500 50~450 280450
33
Start-up Voltage (V) Nominal Input Voltage (V) Max. Input Current per MPPT (A) Max. Short Circuit Current per MPPT (A) Max. Backfeed Current to The Array (A) Number of MPP Trackers Number of Strings per MPPT Output Nominal Output Power (W) Nominal Output Apparent Power (VA) Max. AC Active Power (W)1 Max. AC Apparent Power (VA)2 Nominal Power at 40 (W) Only for Brazil Max Power at 40 (Including AC Overload) (W) Only for Brazil Nominal Output Voltage (V) Nominal AC Grid Frequency (Hz) Max. Output Current (A) Max. Output Fault Current (Peak and Duration) (A/ ms) Inrush Current (Peak and Duration) (A/us) Nominal Output Current (A) Power Factor Max. Total Harmonic Distortion Maximum Output Overcurrent Protection (A)
50
50
360
360
12.5
12.5
15.6
15.6
0
0
1
1
1
1
2,500 2,500 2,750 2,750 2,500
3,000 3,000 3,300 3,300 3,000
2,500
3,000
230 50/60 12.0
230 50/60 14.3
30@5ms
30@5ms
50@2us
50@2us
10.9
13.0
~1 (Adjustable from 0.8 leading to 0.8 lagging)
<3%
32
32
Protection PV Insulation Resistance Detection Residual Current Monitoring PV Reverse Polarity Protection Anti-islanding Protection AC Overcurrent Protection AC Short Circuit Protection AC Overvoltage Protection DC Switch DC Surge Protection AC Surge Protection General Data Operating Temperature Range ()
97.6% 97.2%
97.6% 97.2%
Integrated Integrated Integrated Integrated Integrated Integrated Integrated
Integrated
Type III Type III
-25~+60(60 °C for outdoor unconditioned with solar effects.)
34
Relative Humidity Max. Operating Altitude (m)*3 Cooling Method User Interface Communication Communication Protocols Weight (kg) Dimension (W×H×D mm) Noise Emission (dB) Topology Self-consumption at Night (W) Ingress Protection Rating DC Connector AC Connector Environmental Category Pollution Degree Overvoltage Category Protective Class The Decisive Voltage Class (DVC) Active Anti- islanding Method Country of Manufacture (Only for Australia)
0~100% 4000
Natural Convection LED, LCD (Optional)WLAN+APP
WiFi, LAN or RS485(Optional) Modbus-RTU (SunSpec Compliant)
5.8 295×230×113
42 Non-isolated
<1 IP65 MC4 (2.54mm²) Plug and Play Connector 4K4H
III DC II / AC III
I PVC ACC ComA
AFDPF + AQDPF *4 China
Technical Data Input Max. Input Power (W) Max. Input Voltage (V) MPPT Operating Voltage Range (V) MPPT Voltage Range at Nominal Power (V) Start-up Voltage (V) Nominal Input Voltage (V) Max. Input Current per MPPT (A) Max. Short Circuit Current per MPPT (A) Max. Backfeed Current to The Array (A) Number of MPP Trackers Number of Strings per MPPT Output Nominal Output Power (W) Nominal Output Apparent Power (VA) Max. AC Active Power (W)1 Max. AC Apparent Power (VA)2
GW2500N-XS
3,250 600 50550 205450 50 360 13.0 16.3
0 1 1
2,500 2,500 2,750 2,750
GW3000N-XS
3,900 600 50550 245450 50 360 13.0 16.3
0 1 1
3,000 3,000 3,300 3,300
35
GW3KB-XS
3,900 600 50550 240~450 50 360 13.0 16.3
0 1 1
3,000 3,000 3,300 3,300
GW3300-XS
3,900 500 50~450 275~450 50 360 12.5 15.6
0 1 1
3,300 3,300 3,300 3,300
Nominal Power at 40 (W) Only for Brazil
Max Power at 40 (Including AC Overload) (W) Only for Brazil
Nominal Output Voltage (V)
Nominal AC Grid Frequency (Hz)
Max. Output Current (A)
Max. Output Fault Current (Peak and Duration) (A/ms)
Inrush Current (Peak and Duration) (A/us)
Nominal Output Current (A)
Power Factor
Max. Total Harmonic Distortion
Maximum Output Overcurrent Protection (A)
2,500
3,000
3,000
3,300
2,500
3,000
3,000
3,300
220/230
220/230
220
50/60
50/60
60
12.0
14.3
14.3
230 50/60 14.3
30@5ms
30@5ms
30@5ms
30@5ms
50@2us 11.4/10.9
50@2us
50@2us
50@2us
13.6/13.0
13.6/13.0
14.3
~1 (Adjustable from 0.8 leading to 0.8 lagging)
<3%
32
32
32
32
Protection PV Insulation Resistance Detection Residual Current Monitoring PV Reverse Polarity Protection Anti-islanding Protection AC Overcurrent Protection AC Short Circuit Protection AC Overvoltage Protection DC Switch DC Surge Protection AC Surge Protection AFCI General Data Operating Temperature Range () Relative Humidity Max. Operating Altitude (m)*3 Cooling Method User Interface Communication Communication Protocols Weight (kg) Dimension (W×H×D mm) Noise Emission (dB)
97.6% 97.2%
97.6% 97.2%
97.6% 97.2%
97.6% 97.2%
Integrated Integrated Integrated Integrated Integrated Integrated Integrated
Integrated Type III (Type II Optional)
Type III Optional
Type III
-25~+60(60 °C for outdoor unconditioned with solar effects.) 0~100% 4000
Natural Convection LED, LCD (Optional)WLAN+APP
WiFi, LAN or RS485(Optional) Modbus-RTU (SunSpec Compliant)
5.8 295×230×113
42
36
Topology Self-consumption at Night (W) Ingress Protection Rating DC Connector AC Connector Environmental Category Pollution Degree Overvoltage Category Protective Class The Decisive Voltage Class (DVC) Active Anti-islanding Method Country of Manufacture (Only for Australia)
Non-isolated <1 IP65
MC4 (2.54mm²) Plug and Play Connector
4K4H III
DC II / AC III I
PVC ACC ComA AFDPF + AQDPF *4
China
1: For Belgium Max. AC Active Power (W): GW700-XS is 700, GW1000-XS is 1000, GW1500-XS
is 1500, GW2000-XS is 2000, GW2500-XS is 2500, GW2500N-XS is 2500, GW3000-XS
is 3000, GW3000N-XS is 3000
2: For Belgium Max. Output Apparent Power(VA) :GW700-XS is 700, GW1000-XS is 1000,
GW1500-XS is 1500, GW2000-XS is 2000, GW2500-XS is 2500, GW2500N-XS is 2500,
GW3000-XS is 3000, GW3000N-XS is 3000 3For Australia Max. Operating Altitude
(m) is 3000; 4AFDPF: Active Frequency Drift with Positive Feedback, AQDPF:
Active Q Drift with Positive Feedback.
Technical Data Input Max. Input Power (W)1 Max. Input Voltage (V) MPPT Operating Voltage Range (V) MPPT Voltage Range at Nominal Power (V) Start-up Voltage (V) Nominal Input Voltage (V) Max. Input Current per MPPT (A) Max. Short Circuit Current per MPPT (A) Max. Backfeed Current to The Array (A) Number of MPP Trackers Number of Strings per MPPT Output Nominal Output Power (W) Nominal Output Apparent Power (VA) Max. AC Active Power (W)2 Max. AC Apparent Power (VA)*2
GW700-XS-11 GW1000-XS-11 GW1500-XS-11 GW2000-XS-11
910 500 40~450 65~450 40 360 15 18.75
0 1 1
1300 500 40~450 85~450 40 360 15 18.75
0 1 1
1950 500 50~450 125~450 50 360 15 18.75
0 1 1
2600 500 50~450 165~450 50 360 15 18.75
0 1 1
700
1000
1500
2000
700
1000
1500
2000
800
1100
1650
2200
800
1100
1650
2200
37
Nominal Power at 40 (W) Only for Brazil Max Power at 40 (Including AC Overload) (W) Only for Brazil Nominal Output Voltage (V) Output Voltage Range (V) Nominal AC Grid Frequency (Hz) AC Grid Frequency Range (Hz) Max. Output Current (A) Max. Output Fault Current (Peak and Duration) (A/ms) Inrush Current (Peak and Duration) (A/us) Nominal Output Current (A) Power Factor Max. Total Harmonic Distortion Maximum Output Overcurrent Protection (A)
700
1000
1500
2000
700
1000
1500
2000
230 154~288
50/60 45~55/57~63
3.5
230 154~288
50/60 45~55/57~63
4.8
230 154~288
50/60 45~55/57~63
7.2
230 154~288
50/60 45~55/57~63
9.6
25@5ms
25@5ms
25@5ms
25@5ms
50@2us
50@2us
50@2us
50@2us
3.0
4.3
6.5
8.7
~1 (Adjustable from 0.8 leading to 0.8 lagging)
<3%
22.3
22.3
22.3
22.3
Protection PV Insulation Resistance Detection Residual Current Monitoring
Anti-islanding Protection AC Overcurrent Protection AC Short Circuit
Protection AC Overvoltage Protection DC Switch DC Surge Protection AC Surge
Protection AFCI
Remote Shutdown Remote Shutdown General Data Operating Temperature Range ()
Relative Humidity Max. Operating Altitude (m) Cooling Method User Interface
Communication Weight (kg)
97.2% 96.0%
97.2% 96.4%
97.3% 96.6%
97.5% 97.0%
Integrated Integrated Integrated Integrated Integrated Integrated Integrated
Type III (Type II Optional)
Type III Optional Optional Optional Optional
-25~+60(60 °C for outdoor unconditioned with solar effects.) 0~100% 3000
Natural Convection LED, LCD WLAN+APP WiFi or LAN or RS485(Optional)
5.8
38 37
Dimension (W×H×D mm) Noise Emission (dB) Topology Self-consumption at Night
(W) Ingress Protection Rating DC Connector AC Connector Environmental Category
Pollution Degree Overvoltage Category Protective Class The Decisive Voltage
Class (DVC) Active Anti-islanding Method Country of Manufacture (Only for
Australia)
Technical Data Input Max. Input Power (W)1 Max. Input Voltage (V) MPPT
Operating Voltage Range (V) MPPT Voltage Range at Nominal Power (V) Start-up
Voltage (V) Nominal Input Voltage (V) Max. Input Current per MPPT (A) Max.
Short Circuit Current per MPPT (A) Max. Backfeed Current to The Array (A)
Number of MPP Trackers Number of Strings per MPPT Output Nominal Output Power
(W) Nominal Output Apparent Power (VA) Max. AC Active Power (W)2 Max. AC
Apparent Power (VA)*2 Nominal Power at 40 (W) Only for Brazil Max Power at 40
(Including AC Overload) (W) Only for Brazil Nominal Output Voltage (V) Output
Voltage Range (V) Nominal AC Grid Frequency (Hz) AC Grid Frequency Range (Hz)
295×230×113 25
Non-isolated <1 IP65
MC4 (2.54mm²) plug and play connector
4K4H III
DC II / AC III I
PVC ACC ComA AFDPF + AQDPF *3 China
GW2500-XS-11
GW3000-XS-11
GW3000-XS-B11
3250 600 50~550 200~450 50 360 15 18.75
0 1 1
3900 600 50~550 240~450 50 360 15 18.75
0 1 1
3900 600 50~550 240~450 50 360 15 18.75
0 1 1
2500 2500 2750 2750 2500
2500
220/230 154~288
50/60 45~55/57~63
3000 3000 3300 3300 3000
3000
220/230 154~288
50/60 45~55/57~63
3000 3000 3300 3300 3000
3000
220 154~288
60 57~63
39
Max. Output Current (A) Max. Output Fault Current (Peak and Duration) (A/ms)
Inrush Current (Peak and Duration) (A/us) Nominal Output Current (A) Power
Factor Max. Total Harmonic Distortion Maximum Output Overcurrent Protection
(A)
Protection PV Insulation Resistance Detection Residual Current Monitoring
Anti-islanding Protection AC Overcurrent Protection AC Short Circuit
Protection AC Overvoltage Protection DC Switch DC Surge Protection AC Surge
Protection AFCI
Remote Shutdown Remote Shutdown General Data Operating Temperature Range ()
Relative Humidity Max. Operating Altitude (m) Cooling Method User Interface
Communication Weight (kg) Dimension (W×H×D mm) Noise Emission (dB) Topology
Self-consumption at Night (W) Ingress Protection Rating DC Connector
12
14.3
14.3
25@5ms
30@5ms
30@5ms
50@2us
50@2us
50@2us
11.4/10.9
13.6/13.0
13.6
~1 (Adjustable from 0.8 leading to 0.8 lagging)
<3%
31.5
31.5
31.5
97.6% 97.2%
97.6% 97.2%
97.6% 97.2%
Integrated Integrated Integrated Integrated Integrated Integrated Integrated
Type III (Type II Optional)
Type III Optional Optional Optional Optional
Type III
-25~+60(60 °C for outdoor unconditioned with solar effects.) 0~100% 3000
Natural Convection LED, LCD WLAN+APP WiFi or LAN or RS485(Optional)
5.8 295×230×113
25 Non-isolated
<1 IP65 MC4 (2.54mm²)
40
AC Connector Environmental Category Pollution Degree Overvoltage Category Protective Class The Decisive Voltage Class (DVC) Active Anti-islanding Method Country of Manufacture (Only for Australia)
plug and play connector 4K4H III
DC II / AC III I
PVC ACC ComA AFDPF + AQDPF *3 China
1For Australia Max. Input Power (W)GW700-XS-11 is 945GW1000-XS-11 is 1350 GW1500-XS-11 is 2025GW2000-XS-11 is 2700GW2500-XS-11 is 3375 GW3000-XS-11 is
4050 2For Belgium Max. Output Apparent Power (VA) and Max. AC Active Power
(W) GW700-XS-11 is 700GW1000-XS-11 is 1000GW1500-XS-11 is 1500GW2000-XS-11 is
2000GW2500-XS-11 is 2500GW3000-XS-11 is 3000 *3AFDPF: Active Frequency Drift
with Positive Feedback, AQDPF: Active Q Drift with Positive Feedback.
Note
Overvoltage Category Definition
Category I: applies to equipment connected to a circuit where measures have
been taken to reduce transient overvoltage to a low level.
Category II: applies to equipment not permanently connected to the
installation. For example, appliances, portable tools and other plug-connected
equipment;
Category III: applies to fixed downstream equipment, including the main
distribution board. For example,switchgear and other equipment in an
industrial installation;
Category IV: applies to equipment permanently connected at the origin of an
installation (upstream of the main distribution board). For example,
electricity meters, primary overcurrent protection equipment and other
equipment connected directly to outdoor open lines.
Moisture Location Category Definition
Moisture parameters
Temperature Range Humidity Range
3K3 0~+40 5%85%
Level 4K2 -33~+40 15%100%
4K4H -20~+55 4%100%
Environment Category Definition
Outdoor : the ambient air temperature is -20~50. Relative humidity range is
from 4% to 100%, applied to PD3.
Indoor unconditioned: the ambient air temperature is -20~50 . Relative
humidity range is from 5% to 95%, applied to PD3.
Indoor conditioned: the ambient air temperature is 0~40 . Relative humidity
range is from 5% to 85%, applied to PD2.
Pollution Degree Definition
Pollution degree 1: No pollution or only dry, non-conductive pollution occurs.
The pollution has no influence.
Pollution degree 2: Normally only non-conductive pollution occurs. However, a
temporary conductivity occasionally caused by condensation must be expected.
Pollution degree 3: Conductive pollution occurs. Or dry, non-conductive
pollution becomes conductive due to condensation, which is expected.
Pollution degree 4: Persistent conductive pollution occurs. For example, the
pollution cause by conductive dust, rain and snow.
9 Power off the inverter
When operating and maintaining the inverter, please power off the inverter.
Operating the equipment with power on may cause damage to the inverter or risk
of electric shock. After the inverter is powered off, there is a delay in the
discharge of internal components. Please wait until the equipment is
completely discharged according to the required label time.
Step 1: (Optional) Issue a shutdown command to the inverter.
Step 2: Turn off the AC switch between the inverter and the utility grid.
Step 3: Turn off the DC switch of the inverter.
Step 4: (Optional) Turn off the DC switch between the inverter and the PV
string.
41
42
References
- GoodWe Warranty
- GOODWE SEMS PORTAL
- GoodWe: Smart Energy Innovator
- GoodWe: Smart Energy Innovator
- GoodWe Warranty
- GoodWe Warranty
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