GOODWE EH Series Hybrid Inverter Instruction Manual
- June 6, 2024
- GOODWE
Table of Contents
EH Series Hybrid Inverter
PV Master APP
SEMS Portal APP SEMS Portal website www.semsportal.com
Company’s offical website
JIANGSU GOODWE POWER SUPPLY TECHNOLOGY CO.,LTD
No.90 Zi Jin Road, SND, Jiangsu, China. www.goodwe.com service@goodwe.com
340-00308-02
EH SERIES USER MANUAL
HYBRID INVERTER
Rev.1.2 2021-01-08
TABLE OF CONTENTS
INTRODUCTION
1.1 OPERATION MODES INTRODUCTION
01
1.2 SAFETY & WARNINGS
02
1.3 PRODUCT OVERVIEW
04
INSTALLATION INSTRUCTIONS
2.1 UNACCEPTABLE INSTALLATIONS
05
2.2 PACKING LIST
05
2.3 MOUNTING
06
2.3.1 SELECT MOUNTING LOCATION
06
2.3.2 MOUNTING
07
2.4 ELECTRICAL WIRING CONNECTION
08
2.4.1 PV CONNECTION
08
2.4.2 BATTERY CONNECTION
09
2.4.3 ON-GRID & BACK-UP CONNECTION
10
2.4.4 SMARTMETER & CT CONNECTION
13
2.5 DRED & EARTH FAULT ALARM
14
2.6 EARTH FAULT CONNECTION
14
MANUAL OPERATION
3.1 WI-FI CONFIGURATION
17
3.2 PV MASTER APP OPERATION
18
3.3 GEI AUTO-TEST INSTRUCTION
18
3.4 BATTERY FUNCTION ACTIVATION
18
OTHERS
4.1 DISCLAIMER
19
4.2 ERROR MESSAGE AND TROUBLESHOOTING
25
4.3 TECHNICAL PARAMETERS AND CERTIFICATES
26
4.4 WARINING QUICK CHECK LIST
28
4.5 CHECKING THE ELECTRICAL CONNECTION
29
INTRODUCTION
01 INTRODUCTION
GoodWe EH series, also called hybrid or bidirecational solar inverters, apply
to solar system with participation of PV, battery, loads and grid system for
energy management. The energy produced by PV system shall be used to optimize
self-consumption, excess power charge battery and the rest power could be
exported to the grids. Battery shall discharge to support loads when PV power
is insufficient to meet self-consumption. If both PV power and battery power
is insufficient, the system will take power form grid to support loads.
In addition, the EH Series includes a Battery-Ready inverter that has no
battery function until it is activated. If your inverter is Battery-Ready and
not activated now, you can ignore the following battery-related content.
01
Note: The introduction describes a general behavior of EH
system. The operation mode can be adjusted on GoodWe
PV Master APP based on the system layout. Below are the
general operation based on the system layout. Below are
the general operation modes for EH system.
1.1 OPERATION MODES INTRODUCTION
EH system normally has the following operation modes based on your
configuration and layout conditions.
Mode
The energy produced by the PV system is used to optimize self-consumption. The
excess energy is used to charge the batteries, then exported to gird.
Mode
When there is no PV, and the battery is sufficient , It can supply the load
with the grid together.
Mode
When grid fails , the system automatically switches to Back-Up mode, the Back-
Up load could be supported by PV and battery.
Mode
Battery could be charged by grid, and charge time/power could be set flexibly
on PV Master APP.
INTRODUCTION
1.2 SAFETY & WARNING The EH series hybrid inverter of Jiangsu GoodWe Power
Supply Technology Co., Ltd. (hereinafter called as GoodWe) strictly comply
with related safety rules for product design and testing. Please read and
follow all the instructions and cautions on the hybrid inverter or user manual
during installation, operation or maintenance, as any improper operation might
cause personal or damage. · SYMBOLS EXPLANATION
Caution! Failing to observe a warning indicated in this manual may result in
injury.
Danger of high voltage and electric shock! 02
Danger of hot surface!
Components of the product can be recycled.
This side up! The package must always be transported, handled and stored in
such a way that the arrows always point upwards.
No more than six (6) identical packages being stacked on each other.
Product should not be disposed as household waste.
The package/product should be handled carefully and never be tipped over or
slung.
Refer to the operating instruc. tions
Keep dry! The package/product must be protected from excessive humidity and
must be stored under cover. Inverter will be touchable or operable after
minimum 5 minutes of being turned off or totally disconnected, in case of any
electrical shock or injury.
CE Mark
INTRODUCTION
· SAFETY WARNING Any installation and operation on hybrid inverter must be performed by qualified electricians, in compliance with standards, wiring rules or requirements of local grid authorities or companies (like AS 4777 and AS/NZS 3000 in Australia).
Prohibit to insert or pull the AC and DC terminals when the inverter is running.
Before any wiring connection or electrical operation on inverter, all battery and AC power must be disconnected from inverter for at least 5 minutes to make sure inverter is totally isolated to avoid electric shock.
The temperature of inverter surface might exceed 60 during working, so please make sure it is cooled down before touching it, and make sure the inverter is untouchable for children
03
Do not open inverter cover or change any components without GoodWe’s authorization,
otherwise the warranty commitment for the inverter will be invalid.
Usage and operation of the inverter must follow instructions in this user manual, otherwise the protection design might be useless and warranty for the inverter will be invalid.
Appropriate methods must be adopted to protect inverter from static damage. Any damage caused by static is not warranted by GoodWe.
PV negative (PV-) and battery negative (BAT-) on inverter side is not grounded as default design. Connecting PV- or BAT- to EARTH are strictly forbidden.
PV modules used on the inverter must have an IEC61730 class A rating, and the total open-circuit voltage of PV string/array is lower than the maximum rated DC input voltage of the inverter. Any damage caused by PV over-voltage is beyond warranty.
The inverter, with built-in RCMU, will exclude possibility of DC residual current to 6mA, thus in the system an external RCD (type A) can be used(30mA).
In Australia, the inverter internal switching does not maintain neutral integrity, which must be addressed by external connection arrangements like in the system connection diagram for Australia on page 16.
In Australia, output of Back-Up side in switchbox should be labeled Main switch UPS supply’, the output of normal load side in switch box should be labeledmain switch inverter supply’.
ON = FAULT HAS OCCURRED
BLINK = OVERLOAD OF BACK-UP OUTPUT / REDUCE LOAD
OFF = NO FAULT
FAULT
OFF = WiFi NOT ACTIVE
BLINK 4 = WiFi SERVER PROBLEM
BLINK 2 = WiFi NOT CONNECT TO ROUTER
WiFi
1.3 PRODUCT OVERVIEW
PV Terminals
BLINK 1 = WiFi SYSTEM RESETTING
Wi-Fi Box Battery Terminals
DC Switch
BMS Communication Cable
To Smart Meter
Smart Meter Communication Cable To Battery
BLINK 1 = SUPPLYING ENERGY TO GRID / ZEROING
BLINK 2 = SUPPLYING ENERGY TO GRID / SELLING
OFF = GRID NOT CONNECTED OR SYSTEM NOT OPERATING
ON=BMS AND METER COMMUNICATION OK
BLINK 1= METER COMMUNICATION OK, BMS COMMUNICATION FAIL BLINK 2= BMS
COMMUNICATION OK, METER COMMUNICATION FAIL OFF= BMS AND METER COMMUNICATION
FAIL
ON = WiFi CONNECTED / ACTIVE
ENERGY COM
DRED
Meter
On-Grid Port Back-Up Port
Reserved RS485
ON = CONSUMING ENERGY FROM GRID / BUYING
BLINK = GRID IS ACTIVE BUT NOT CONNECTED OFF = GRID IS NOT ACTIVE
GRID
ON = GRID IS ACTIVE AND CONNECTED
OFF = BATTERY IS DISCONNECTED / NOT ACTIVE
BLINK 1 = BATTERY IS DISCHARGING BLINK 2 = BATTERY IS LOW / SOC IS LOW
BATTERY
ON = BATTERY IS CHARGING
ON = BACK-UP IS READY / POWER AVAIL ABLE OFF = BACK-UP IS OFF / NO POWER AVAILABLE
BACK-UP
OFF = SYSTEM IS NOT OPERATING
BLINK = SYSTEM IS STARTING UP
SYSTEM
ON = SYSTEM IS READY
EXPLANATION
INDICATOR STATUS
HYBRID LED INDICATORS
SYSTEM BACK-UP BATTERY GRID ENERGY COM WiFi FAULT
INTRODUCTION
04
LED Label
Wi-Fi Reset
INSTALLATION INSTRUCTIONS
02 INSTALLATION INSTRUCTIONS 2.1 UNACCEPTABLE INSTALLATIONS
Back-Up
Back-Up Load
BACK-UP CANNOT CONNECT IN PARALLEL.
PV
PV
SINGLE PV STRING CANNOT CONNECT TO TWO OR MORE INVERTERS.
Smart Meter
05
ONE METER CANNOT CONNECT TO MULTI INVERTERS, AND
DIFFERENT CT CANNOT CONNECT TO A SAME FIER CABLE.
ONE BATTERY BANK CANNOT BE CONNECTED TO MULTI INVERTERS.
Incompatible battery
ON-GRID OR BACK-UP SIDE CANNOT CONNECT TO ANY AC GENERATOR.
INVERTER BATTERY CANNOT CONNECT TO INCOMPATIBLE BATTERIES.
BACK-UP SIDE CANNOT CONNECT TO GRID
2.2 PACKING LIST
On receiving the hybrid inverter, please check to make sure all the components
as below are not missing or broken. Of course, there are no Smart Meter and
Smart Meter User Manual if you buy a Battery-Ready inverter without the Smart
Meter.
Inverter×1
Wall-mounted Bracket×1
Smart Meter & CT × 1
Positive PV Plug×2
Negative PV Plug×2
Positive BAT Plug×1
Negative BAT Plug×1
Back Up AC Plug X1 On Grid AC Plug X1 PE terminal × 1 Expansion bolts×4
User manual×1
Quick Installation Guide×1
INSTALLATION INSTRUCTIONS
2.3 MOUNTING 2.3.1 SELECT MOUNTING LOCATION For inverter’s protection and
convenient maintenance, mounting location for inverter should be selected
carefully based on the following rules:
Any part of this system shouldn’t block the switch and breaker to disconnected
inverter from DC and AC power. Rule 1. Inverter should be installed on a solid
surface, where is suitable for inverter’s
dimensions and weight. Rule 2. Inverter installation should stand vertically
or lie on a slop by max 15° (Pic 1)
15°
Pic 1
Rule 3.Ambient temperature should be lower than 45
Rule 4.The installation of inverter should be protected under shelter from direct sunlight or bad
weather like snow, rain, lightning etc. (Pic 2)
06
No DirectSunlight
No Exposure to Rain
No Exposure to Snow
DirectSunlight
Pic 2
Exposure to Rain
Exposure to Snow
Rule 5.Inverter should be installed at eye level for convenient maintenance. Rule 6.Product label on inverter should be clearly visible after installation. Rule 7.Leave enough space around inverter following the values on pic 3.
300mm
200mm
200mm
300mm
Upward———-300mm Downward——500mm Front————-300mm Both sides——-200mm
500mm
Pic 3
Inverter cannot be installed near flammable, explosive or strong electro- magnetic equipment.[1]
INSTALLATION INSTRUCTIONS
2.3.2 MOUNTING
Remember that this inverter is heavy! Please be careful when lifting out from the package.[3]
The inverter is suitable for mounting on concrete or other non-combustible surface only
Step 1
· Please use the mounting bracket as a template to drill 4 holes on right
positions (10mm in diameter, and 80mm in depth) (Pic 4)
· Use expansion bolts in accessory box and fix the mounting bracket onto the
wall tightly
Wall bracket
Expansion pipe
Note: Bearing capacity of the wall must be higher than 17kg, otherwise may not be able to keep inverter from dropping.
self-tapping screws Pic 4
07
Step 2
Carry the inverter by holding the heating sink on two sides and Place the inverter on the mounting bracket. (Pic 5)
Note: Make sure the heat sink on inverter is right joint with mounting bracket.
Step 3
Ground cable shall be connected to ground plate on grid side (Pic 6)
Step 4
A lock could be used for anti-theft if it is necessary for individual
requirement. (Pic 7)
INSTALLATION INSTRUCTIONS
2.4 ELECTRICAL WIRING CONNECTION 2.4.1 PV WIRING CONNECTION
Before connecting PV panels/strings to inverter, please make sure requirements
are followed as below : · The total short- circuit current of PV string must
not exceed inverter’s max DC current . · The minimum isolation resistance to
ground of the PV string must exceed 19.33 k in case of any shock hazard . · PV
strings could not connect to earth/grounding conductor. Use the right PV plugs
in the accessory box · (BAT plugs are similar with PV plugs, please confrm
before use it.)
NOTE: There will be MC4 or Ampheno/ plugs in accessory box, the detailed connection as below:
Step 1
Step 2
Prepare PV cables and PV plugs (Pic 8)
Connect PV cables to PV connectors (Pic 9)
MC4 series
AMPHENOL series
0
Pic 8
NOTE: · Please use PV plugs and connectors in
GoodWe accessory box · PV cable should be standard, 2.5- 4mm2
PV cable
Pic 9
NOTE: · PV cable must be tightly crimped into the connectors · For Ampheno/
connector, the limit buckle cannot be pressed · There will be a click sound if
connectors are inset correctly into PV plugs
Step 3 Screw the cap on and plug onto inverter side (Pic 10
Pic 10
NOTE: · There will be a click sound if connectors are inset correctly into PV plugs
The polarity of PV strings or on the inverter cannot be connected by reversely, otherwise inverter could be damaged.[3]
INSTALLATION INSTRUCTIONS
INSTALLATION INSTRUCTIONS
2.4.2 BATTERY WIRING CONNECTION
2.4.3 ON-GRID & BACK-UP CONNECTION
If your inverter is Battery-Ready, do not connect the battery to the inverter
before activating the battery function, otherwise it will stop working!
Besides, do not remove the battery plug and save the battery terminals, if
lost, contact GOODWE for sale.
Please be careful against any electric shock or chemical hazard. Make sure
there is an external DC breaker (40A) connected for battery without build-in
DC breaker.
Make sure battery breaker is off and battery nominal voltage meet EH
specification before connecting battery to inverter and make sure inverter is
totally isolated from PV and AC power.[4]
An external AC breaker is needed for On-Grid connection to be isolate from grid when necessary. Below are the requirements of On-Grid AC breaker.
Inverter model GW3600-EH GW5000-EH GW6000-EH
AC breaker specification 50A/230V AC breaker 63A/230V AC breaker 63A/230V AC breaker
Please following Cments and steps bellow strictly. Use improper wire may cause
bad contact and high impedance, which is dangerous to the system.
Use the right BAT plugs in the accessory box. Use the tin-plated cables with a
conductor cross section of 4 to 6 mm² (AWG 10) because the maximum battery
current is 25A. Battery cable requirements are as (Pic 11).
Grade
Description
Value
A
Outside Diameter
5.5-8.0 mm
B
Conduct Core Section
mm
09
Pic 11
C
C
Conduct Wire Length
15 mm
Battery wiring connection process is as below
Step 1 Open the spring using a screwdriver 12
12
Step 2
Carefully insert the stripped wire with twisted litz wires all the way in (A). The litz wire ends have to be visible in the spring. Close the spring. Make sure that the spring is snapped in (B).
A
B
click!
Step 3
13
Push the insert into the sleeve (C).
Tighten the cable gland to 2 Nm (D).
Step 4
Use a suitable and calibrated torque wrench,
size 15. Use an open-jaw wrench, size 16, to Fit the two connectors together until the
hold the connector in place.
connection audibly locks into place.
Check to make sure the connection is securely
D
locked.
15 2 Nm
C
1.Use separate AC breaker for individual inverter(Pic 16)
2. On AC side, the individual breaker should be connected before loads (between inverter and loads)(Pic 17)
AC breaker AC breaker
AC breaker Grid
Pic 16
Grid AC breaker
Loads
10
Pic 17
Requirement of AC cable connected to On-Grid and Back-Up side
Make sure inverter is totally isolated from any DC or AC power before connecting AC cable.[5]
Note 1. The choice of AC cable needs to meet both the outside diameter and conduct core section requirements. Please refer to the table for selecting the AC cable. 2. Neutral cable shall be blue, line cable is black or brown (preferred) and protective earth cable yellow-green. 3. For AC cables, PE cable shall be longer than N&L cables, so that if in any case AC cable slips or taken out, the protecting earth conductor will be the last to take the strain.
On-Grid wiring connection process is as below
Step 1
Prepare the AC cable according to the table.
Grade A B C D
Description Outside Diameter Separated Wire Length Conduct Wire Length Conduct Core Section
Value 13-22mm 10-15mm 12-14mm 8-10 mm
14
15
*For the compatible lithium batteries (Pylon/BYD ) connection, please refer to battery connection part in EH QUICK INSTALLATION INSTRUCTIONS
NoteIf you don’t use the back-up function or use on-grid power to charge the battery,the wiring conduct core section can use 4-6mm2 .
INSTALLATION INSTRUCTIONS
Step 2 I. Prepare the terminals and AC cables 2. Put AC cable through terminal
cover and screw the three cables tightly on the connectors (Pic 18)
Pic 18
NOTE: 1. Please use the terminals in GoodWe components box; 2. Make sure cable
jacket is not locked with conductor
Step 3
Lock terminal cover and screw up the terminal cap
Pic 19
Make sure terminal cover is locked up here.
Note: Make sure the terminal cover is rightly locked onto the terminal (Pic 19)
Step 4
Connect the assambled AC terminals onto inverter
Note: Make sure it is connected to ‘On-Grid’ side (other side connected to public grid) (Pic 20)
Pic 20
Back-Up wiring connection process is as below 11
Step 1
Pic 21
Grade A B C D
Description Outside Diameter Separated Wire Length Conduct Wire Length Conduct Core Section
Value 10-14mm 7-10mm 7-9mm 4 -6mm
NoteThe absence of AC breaker on Back-Up side will lead to inverter damage if
only electrical short-circuit happened on Back-Up side. And Back-Up function
cannot turn off under On-Grid condition. An external AC breaker (32A) is
needed for Back-Up connection to be isolate when necessary.
Step 2
I. Prepare the terminals and AC cables 2. Put AC cable through terminal cover
and screw the three cables tightly on the connectors (Pic 22)
NOTE: I. Please use the terminals in GoodWe components box; 2 Make sure cable jacket is not locked with conductor
Torque 0.7~0.9N.m
Pic 22
MAMUAL OPERATION
Step 3 Lock terminal cover and screw up the terminal cap
Pic 23
Make sure terminal cover is locked up here.
Note: Make sure the terminal cover is rightly locked onto the terminal (Pic 23)
Step 4
Connect the assambled AC terminals onto inverter
Press the button and hold it to unlock when unplugging AC terminals.
Note: Make sure it is connected to ‘Back-Up’ side (other side connected to
public grid) (Pic 24)
Pic 24
Special Adjustable Setting The inverter has filed adjustable setting like tripping point, tripping time, reconnect time, active and invalid of QU/PU curves etc. by special firmware. Please contact GoodWe after sales for the special firmware and adjust methods.
Connection For SPLIT Grid System
In SPLIT grid system, there is a solution allowing inverter to work under On- Grid condition (Pic 25). But the export power
“To Smart Meter”
110V Load
Grid Side
12
and load power might be detected inaccu-
rately as the nominal output power of
220V Load
inverter is 230V and there could be loads of 110V or 220V.
Back-Up Load(230V)
Pic 25
Declaration For Back-Up Function The below statement lays out GoodWe general policies governing the energy storage inverters of the series ES, EM, SBP, ET, EH and BH. 1. For Hybrid inverters (Series ES, EM, EH and ET), the standard PV installation typically consists of the connection of the inverter with both panels and batteries. In case of systems not connected to the batteries, the Back-Up function is strongly not advised to use. GoodWe shall not cover the standard warranty and be liable for any consequences arising from users not following this instruction. 2. Under normal circumstances, the Back-Up switching time is less than 10 ms (the minimal condition to be considered as the UPS level). However, some external factors may cause the system to fail on Back-Up mode. As such, we recommend the users to be aware of conditions and follow the instructions as below: 1) Do not connect loads if they are dependent on a stable energy supply for a reliable operation 2) Do not connect the loads which may in total exceed the maximum Back-Up capacity 3) Try to avoid those loads which may create very high start-up current surges such as Inverter Air-conditioner, high-power pump etc. 4) Due to the condition of battery itself, battery current might be limited by some factors including but not limited to the temperature, weather etc.
INSTALLATION INSTRUCTIONS
Declaration For Back-Up Loads EH series hybrid inverters are able to supply
over load output at its’Back-Up. For details please refer to the technical
parameters of EH series inverter (4.3 section). And the inverter has self-
protection derating at high ambient temperature.
Accepted loads as below: · Inductive Load: 1.5P non-frequency conversion air-
conditioner can be connect to back-up side. Two or more non-frequency
conversion air-conditioner connect to back-up side may cause UPS mode
unstable. · Capacitive Load: Total power <= 0.6 x nominal power of model. (Any
load with high inrush current at start-up is not accepted.) · For complicated
application, please contact GoodWe’s after service.
Note: For a convenient maintenance, an DP3T support could be installed on
Back-Up and On-Grid side. Then it is adjustable to support load by Back-Up or
by grid or just leave it there (Pic 26).
3
Back-up
1:Load is supplied from Back-Up side 2:Load is isolated 3:Load is supplied from grid side
Pic 26
Declaration For Back-Up Overload Protection Inverer will restart itself as overload protection happens. The preparation time for restarting will be longer and longer (max one hour) if overload protection repeats. Take following steps to restart inverter immediately. · Decrease Back-Up load power within max limitation. · On PV Master Adcanced Setting Click”Reset Back-Up Overload History”
2.4.4 SMART METER & CT CONNECTION
Make sure AC cable is totally isolated from AC power before connecting Smart Meter & CT.[6] If you buy a Battery-Ready inverter without the Smart Meter, it is not necessary to view this section. The Smart Meter with CT in GoodWe product box is compulsory for EH system installation, used to detect grid voltage and current direction and magnitude, further to instruct the operation condition of EH inverter via RS485 communication.
1. The Smart Meter and CT is well configured, please do not change any setting on Smart Meter; 2. One Smart Meter can only be used for one EH inverter. 3. CT must be connected on the same direction as the CT indicated.
Smart Meter & CT Connection Diagram (Pic 27)
MAMUAL OPERATION
“To Smart Meter”
Grid
Grid Side
Load
Pic 27
NOTE: 1. Please use the Smart Meter with CT in GoodWe product box. 2.CT cable
is 3m as default, could be extended to max 5m. 3. Smart Meter communication
cable (RJ45) is attached on the inverter (“To Smart Meter ” cable), could be
extended to max 100m, and must use standard RJ45 cable and plug, as below:
Position
Color
1
Orange&white
2
Orange
3
Green&white
4
Blue
5
Blue&white
6
Green
7
Brown&white
8
Brown
BMS Function Smart Meter Function
485_A2
NC
NC
NC
485_B2
485_B1
CAN_H
NC
CAN_L
NC
NC
485_A1
NC
485_B1
NC
485_A1
RS485 485_A 485_B 485_A
NC NC 485_B NC NC
Smart Meter LED Indications
POWER ENERGY
COM
OFF
ON
Blinking
Not working
Working
Importing
Exporting
Blink one time when it transfer data to inverter
POWER ENERGY
COM
2.5 DRED & REMOTE SHUTDOWN CONNECTION
DRED is used for Australia and New Zealand installation (also used as remote
shutdown function in European countries), in compliance with Australia and New
Zealand safety requirements( or European countries). And DRED device is not
provided by GoodWe.
INSTALLATION INSTRUCTIONS
Detailed connection of DRED device is shown below: Step 1 Screw this plate off from inverter (Pic 28).
Note: DRED device should be connected through”DRED port” as the figure shows.
Pic 28
Step 2
1. Plug out the 6-pin terminal and dismantle the resistor on it (Pic 29). 2. Plug the resistor out, leave the 6-pin terminal for next step.
Pic 29
Note: the 6- Pin terminal in the inverter has the same function of DRED device. Please leave it on the inverter if no external device connected.
Step 3-1 For DRED 5
1. Put DRED cable through the plate as shown in Pic 30.
2. Connect DRED cable on the 6-pin terminal.
The function of each connection position as below:
NO
1
2
3
4
5
Function DRM1/5 DRM2/6 DRM3/7 DRM4/8
6 COM/DRMO
Step 3-2 For Remote Shutdown
1. Put the cable through the plate as shown in Pic 31. 2. Wiring from the No. 5 and 6 holes respectively.
Step 4
Connect DRED terminal to the right position onto the inverter (Pic 32).
Screw
The Screw Nut Insulator Cap
RS485 Single hole Cable communication board seal ring
Pic 30
Screw
The Screw Nut Insulator Cap
RS485 Single hole Cable
communication board seal ring
Pic 31
Pic 32
2.6 EARTH FAULT ALARM CONNECTION
GoodWe EH series inverter complies with IEC 62109-2 13.9. Fault indicator LED
on inverter cover will light up and the system will email the fault
information to customer. Inverter should be installed at eye level for
convenient maintenance.
MAMUAL OPERATION
WIRING SYSTEM FOR EH SERIES HYBRID INVERTER Please select Breaker according to the specification below
GW3600-EH GW5000-EH GW6000-EH
40A/600V DC breaker
50A/230V AC breaker 50A/230V AC breaker 63A/230V AC breaker
32A/230V AC breaker 32A/230V AC breaker 32A/230V AC breaker
Depends on household
loads
PV Strings
DC Breaker
40A [1]
To Battery Cable AC Breaker
Smart Meter [4] USB
To Smart Meter CT [2]
Power Meter Grid
AC Breaker
SMART METER Reset
AC Breaker
Grid
House Grid
AC Breaker
On-Grid Load
Battery[3] Back-Up Load
1.For batteries with attached breaker, the external DC breaker is not
necessary. 2.Direction of the CT cannot be connected in reverse, please follow
House (K)Grid (L)
direction to do the connection. 3.For Battery-Ready inverters, there is no
need to route between the battery and the
inverter before activating the battery function. 4.For Battery-Ready inverters
without the Smart Meter, there is no need to route them
before purchasing a Smart Meter. For Spain Grid code, the output max. apparent
power of GW6000-EH is 6KVA and will be less than 5kVA exported to grid limited
by CT controller and power meter. If the generation facility to be connected
to the supply network with more than 5 kVA power in single phase, connection
of the facility to the network shall be three-phase with an imbalance between
phases of less than 5kW.
INSTALLATION INSTRUCTIONS
System Connection Diagrams Note: For Australia safety country, the neutral
cable of On-Grid side and Back-Up side must be connected together, otherwise
Back-Up function will not work.
BMS
L N Battery
GoodWe EH Series Hybrid Inverter
Back-up Meter
Solar Array
The Grounding screw hole at the lower right corner
L N PE
On-Grid
Distribution box
Don’t connect this terminal for Australian and New Zealand grid system !!!
RS485
RCD
Smart Meter
CT
RCD E-BAR
N-BAR
E-N Link
E-BAR
L
N
Back-up Loads
PE
L
N Grid PE
L N PE Normal Loads
17 This diagram is an example for AustraliaSouth Africa and New Zealand grid
system.
BMS
L N Battery
GoodWe EH Series Hybrid Inverter
Back-up Meter
Solar Array
The Grounding screw hole at the lower right corner
L N PE
On-Grid
Distribution box
RCD
RS 485
Smart Meter
CT
RCD E-BAR
E-BAR
L
N
Back-up Loads
PE
L
N Grid PE
L N PE Normal Loads
This diagram is an example for grid systems without special requirement on
electrical wiring connection.
Note:The back-up PE line and rack earth must be grounded properly and
effectively. Otherwise the back-up function may be abnormal when the grid
fail.
Note: After the inverter is installedand worked normal when the grid connected
, please turn off the grid power to check whether the back-up function is
normal, which can avoid the problems in subsequent uses.
MAMUAL OPERATION
03 MAMUAL OPERATION
3.1 WIFI CONFIGURATION
· This part shows configuration on web page · Wi-Fi configuration is
absolutely necessary for online monitoring and after-sales maintenance
PREPARATION: 1. Inverter must be powered up with only PV power 2. Need a
router with available internet access to GoodWe portal
https://www.semsportal.com
Step 1
1.Connect Solar-WiFi to your PC or smart phone( means the last 8 characters
of the inverter serial No.) 2.Open browser and login 10.10.100.253 Admin (U):
admin; Password: admin 3.Then click “OK”
10.10.100.253
Admin( U) Password
Remember the password( R)
OK
CANCEL
Step 2
Step 3
1.Click “Start Setup” to choose your router 2.Then click “Next”
Device information
Fimware verison
1.6.9.3.38.2.1.38
MAC address
60:C5:A8:60:33:E1
Wireless AP mode
Enable
SSID
S olar-WiFi
IP address
10.10.100.253
Wireless STA mode
Disable
Router SSID
WiFi_ Burn-in
Encryption method
WAP/WAP2-PSK
Encryption algorithm Router Password
AES WiFi_ Burn-in
Cannot join the network, may be caused by:
router doesn’t exist, or signal is too week, or password is incorrect Help:Wizard will help you to complete setting within one mimute. Start Setup
Please select your current wireless network:
SSID WIFI Test
Sec mode WAP2-PSK
Enctype AES
Channel 6
RSSI 54%
Note: When RSSIof the slected Wifi Network is lower than 1096,the conneteon may be ustbl, please sletoehe vailable neworkor shorten the distance between the device and the router. ifyour wreles router does not bass, plese cik “Next” and add a wireless network manually.
Back
Next
1. Fill in the password of the router, then click “Next” 2. Click “Complete”
Add wireless network manually
Network name (SSID) Encryption method
WiFi-Test WAP/WAP2-PSK
Encryption algorithm
AES
Please enter the wireless network pass word:
Password (8-63 bytes)
hellogoodwe
show psk
Note: case sensitive for S S ID and password
Please make sure all parameters of wireless network are matched with router, including password
Back
Nex t
Save success!
Click ‘Complete’, the current configuration will take effect after restart.
If you still need to configure the other pages of information, please go to
complete your required configuration.
Configuration is completed, you can log on the Management page to restart
device by Click on ‘OK’ button.
Confirm to complete?
Back Complete
18
Note: 1. Please make sure the password, Encryption Method/Algorithm is right the same with the router’s. 2. If everything is right well, the Wi-Fi LED on inverter will change from double blink to quartic blink then to solid status, which means Wi-Fi is connected to GoodWe icloud successfully. 3. Wi-Fi configuration could also be done on PV Master, details please check on PV Master APP.
MAMUAL OPERATION
· Wi-Fi Reset & Reload Wi-Fi Reset means restarting Wi-Fi module, Wi-Fi
settings will be reprocessed and saved automatically. Wi-Fi Reload means
setting Wi-Fi module back to default factory setting.
Wi-Fi RESET Button
Wi-Fi Reset
Wi-Fi Reload
short press RESET button – Wi-Fi Led will blink for a few seconds
long press RESET button (longer than 3s) – Wi-Fi Led on inverter will double blink until doing Wi-Fi configuration again.
Note: Wi-Fi Reset & Reload function is only used when: 1. Wi-Fi lost connection to internet or cannot connect to PV Master APP successfully. 2. Cannot find “Solar-WiFi signal” or have other Wi-Fi configuration problem. 3. Please do not use this button if Wi-Fi monitoring works well.
3.2 PV MASTER APP OPERATION
PV Master is an external monitoring/ configuration application for GoodWe
hybrid inverters, used on smart phones or pad for both Android and iOS system,
main functions as below: 1. Edit system configuration to make the system work
as customer needs.
19 2. Monitor and check performance of the hybrid system.
3. Wi-Fi configuration.
Please download PV Master OPERATION INSTRUCTIONS from www.goodwe.com
3.3 CEI AUTO-TEST FUNCTION
PV Auto-Test function of CEI is integrated in PV Master APP for Italy safety
country requirement. For detailed instruction of this function please reger to
PV Master Operation Instructions.
3.4 BATTERY FUNCTION ACTIVATION
If your inverter is Battery-Ready and you want to activate the battery
function, you need to contact the dealer to purchase an activation code and
activate the battery function in PV MASTER.
In the Advanced Setting, click on Set, enter the activation code, then go to
the Basic Setting to select the work mode, battery model and test
OTHERS
04 OTHERS
4.1 DISCLAIMER
The EH series hybrid inverters are transported, used and operated under environmental
and electrical conditions. GoodWe has the right not providing after-sales services or
assistance under following conditions:
· Inverter is damaged during transferring.
· Inverter is out of warranty year and extended warranty is not bought.
· Inverter is installed, refitted or operated in improper ways without authority from
GoodWe.
· Inverter is installed or used under improper environment or technical condition
mentioned in this user manual, without authority from GoodWe.
· Installation or configuration of the inverter does not follow requirements mentioned in
this user manual.
· The inverter is installed or operated against the requirements or warnings that are
mentioned in this user manual.
· Inverter is broken or damaged by any force majeure like lightening, earthquake, fire
hazard, storm and volcanic eruption etc.
· Inverter is disassembled, changed or updated on software or hardware without
authority from GoodWe.
· Inverter is installed, used or operated against any related items in international or local
policies or regulations.
1240
· Any non-compatible batteries, loads or other devices connected to EH system.
· Obtain the Battery-Ready inverter activation code through illegal channels.
Note: GoodWe will keep right to explain all the contents in this user manual. To insure IP65, inverter must be sealed well, please install the inverters in one day after unpacking, otherwise please seal all unused terminals/holes, not allowed to keep any terminals/holes open, confirm there is no risk to have water & dust in.
*Maintenance The inverter requires periodically maintenance, details as below: · Make sure inverter is totally isolated from all DC and AC power for at least 5 mins before maintenance. · Heat sink: Please use clean towel to clean up heat sink once a year. · Torque: Please use torque wrench to tighten AC and DC wiring connection once a year. · DC breaker: Check DC breaker regularly, active the DC breaker 10 times in a row once a year. · Operating DC breaker will clean contacts and extend lifespan of DC breaker. · Water-proof covers: Check if water-proof covers of RS485 and other part are fastend once a year.
OTHERS
OTHERS
4.2 ERROR MESSAGE AND TROUBLESHOOTINGS
· ERROR MESSAGE The error message below will be displayed on PV Master APP or reported by Email if the error really happens.
ERROR MESSAGE
EXPLANATION
Utility Loss
Not available of public grid power (power lost or on-grid connection fails)
REASON Inverter does not detect the connection of grid
VAC Failure
Grid voltage is not within permissible range
Inverter detects that AC voltage is beyond the normal range required by the safety country
FAC Failure
Grid Eficiency is not within permissible range Inverter detects that Grid frequency is beyond the normal range required by the safety country
PV/BAT Over Vlotage PV or BAT voltage is too high
The total voltage (opencircuit voltage) of each PV string is higher than the max DC input voltage of the inverter. Or the battery voltage is higher than the max BAT input voltage of the inverter
21
Over Temperature Temperature inside of the inverter is too high Inverter working environment leads to a high temperature condition
Isolation Failure
Ground insulation impedance of PV
string is too low
17
Ground l Failure
Ground leakage current is over-high
lsolation failure could be caused by multi reasons like PV panels are not
grounded well, DC cable is broken, PV panels are aged or surrounding humidity
is comparatively heavy, etc.
Ground I failure could be caused by multi reasons like neutral cable on AC
side is not connected well or surrounding humidity is comparatively heavy,
etc.
SOLUTIONS
1. Check (use multi-meter) ifAC side has voltageMake sure grid power is
available 2. Make sure AC cables are connected tightly and right well 3. If
all is well, please try to turm off AC breaker and turn on again after 5 mins
1. Make sure safety country of the inverter is set right 2. Check (use multi-
meter) if AC voltage (Between L&N or L&L)is within a normal range (Also on AC
breaker side) a. if AC voltage is high, then make sure AC cable complies with
that required on user manual and AC cable is not too long b. if voltage is
low, make sure AC cable is connected well and the jacket of AC cable is not
compressed into AC terminal 3. Make sure the grid voltage of your area is
stable and within normal range.
1. Make sure safety country of the inverter is set right 2. If safety country
is right, then please check on inverter APP if AC frequency (Fac) is within a
normal range 3. If FAC filure only appear a few times and resolved soon, it
should be caused by occasional grid frequency unstability.
Check PV string VOC is lower than Max PV Input Voltage of the inverter If VOC
of PV string is high, please decrease panels to make sure VOC is with the max
DC input voltage of the inverter.
1. Try to decrease surrounding temperature 2. Make sure the installation
complies with the instruction on inverter user manual 3. Try to close inverter
for 15 mins, then start up again.
1. Use multi meter to check if the resistance between earth & inverter frame
is about zero. If it’s not, Please make the connection between earth &
inverter frame well.
2. If the humidity is very high, there maybe Isolation Failure occur. 3.
Check the resistance betwen PV1+/PV2+/BAT+/PV- to earth, if the resistance is
lower than 33.3k, check the system wiring connection. 4. Try to restart the
inverter, check if the fault is still happens, if not, means it is just an
occasional situation, or contact GoodWe.
Check use multi-meter if there is voltage value (normally should be close to
0V) between earth & inverter frame. If there is a voltage, it means the
Neutral & ground cable are not connected well on AC side. If it happened only
at early morning, dawn or on rainy days with high air humidity, and recover
soon, it should be normal.
Relay Check Failure Self checking of relay fails
DC Injection High
EEPROM R/W Failure
SPI Failure
Internal communication fails
DC Bus High
BUS voltage is over-high
Back-Up Over Load Back-up sid is over loaded
Battery License Fault Battery function is not activated
Neutral & ground cable are not connected well on AC side or just occasional
failure.
Inverter detects a higher DC component in AC output Caused by a strong
external magnetic field etc. Caused by a strong external magnetic field etc.
Total Back-Up load power is higher than the nominal backup output power
Connect the battery to the inverter without the battery function activated
Check use multi-meter if there is high voltage (normally should be lower than
10V) between N&PE cable on AC side. If the voltage higher than 10V, it means
the Neutral & ground cable are not connected well on AC side or restart
inverter. Try to restart inverter, check if it still happens, if not, means it
is just an occasional situation or contact GoodWe Try to restart inverter,
check if it still happens, if not, means it is just an occasional situation or
contact GoodWe Try to restart inverter, check if it still happens, if not,
means it is just an occasional situation or contact GoodWe Try to restart
inverter, check if it still happens, if not, means it is just an occasional
situation or contact GoodWe
Decrease Back-Up loads to make sure the total load power is lower than Back-Up
nominal output power (please refer to page 12)
First purchase the activation code and activate the battery function in PV
MASTER, then connect the battery to use.
22
OTHERS
· TROUBLESHOOTINGS Checking Before Turning On AC power
Battery Connection: Confirm the connection between EH and battery : polarity (
+/-)notreversed, refer to Pic 33. PV Input Connection: Confirm the connection
between EHand PV panels : polarity ( +/-)notreversed, refer to Pic 34. On-Grid
& Back-Up Connection: Confirm ON-GRID connected to power grid and Back-up
toloads : polarity (L/N are in sequence)hot reversed, refer to Pic 35. Smart
Meter &CT Connection: Make sure Meter &CTare connected between house loadsand
grid. and follow the Smart Meterdirection sign on CT, refer to Pic 36.
Pic 33
Pic 34
Pic 35
Pic 36
23 Checking as Start EH up and Turn On AC Power
Battery Settings,BMS Communication and Safety Country: After connecting Solar-
WiFi ( meansthe last 8 characters of the inverter serial No.), check on PV
Master APP Param to make sure batterytype is right what you have installed,
and Safety Country is right. If not right, please set it right in “Set”(Pic
32)
Note: For compatible lithium batteries, BMS status is “Communication OK” after selecting the right battery type.
OTHERS
Possible Problems During Operation
No Discharge or Output From EH at Night Without PV or PV Power Lower Than Load
Power: Solution: 1.Communication between EH and Smart meter is OK or not.
2.Make sure load power is higher than 100W.
a. Battery will not discharge continuously unless load power is higher than
100W. b. If battery stil not discharge when Meter power is higher than100W,
then please check Meter &
CT connection and direction. 3. Make sure SOC is higher than 1-DOD. Or if
battery discharged to below 1-DOD, than battery will
only discharge again when SOC charged to (20%+1-DOD)/2 and sOC > 105% -DOD (if
need battery discharge immediately, Inverter should be restarted) 4. Check on
APP if it is set as charge time, during charge time, battery will not
discharge (battery will charge in priority during coincident time of
charge/discharge)
Battery Not Charge When PV Power Higher Than Load Power: Solution:
1.Check if it is during discharge time set on App. 2.Check if battery is fully
charged or not, or battery voltage reach “charge voltage” or not.
High Power Fluctuation on Battery Charge or Discharge: Solution:
24
1.Check if there is a fluctuation on load power. 2.Check if there is a
fluctuation on PV power.
Battery Does Not Charge: Solution:
1.Make sure BMS communication is OK on PV Master (for lithium batteries).
2.Check if CT connected in the right position and to right direction as on the
user manual page 15. 3.Check if the total load power is much higher than PV
power.
Pic 37
OTHERS
About Wi-Fi Configuration Q: Why cannot connect Solar-Wifi signal on my phone?
A: It is the character of the Wi-Fi module that it can connect to only one
device at a time. If the signal is connected to another device at the time for
some reason, then you cannot connect to the signal.
About Battery Operation Q: Why battery does not discharge when grid is not
available, while it discharge normally when grid is available? A: On APP Off-
Grid Output and backup function should be turned on to make battery discharge
under off-grid mode.
Q: Why there is no output on Back-Up side? A: For Back-Up supply, the”Back-Up
Supply” on PV Master App must be turned on. Under off grid mode or grid power
is disconnected, “Off-Grid Output Switch” function must be turmed on as well.
Note: As turn”Off-Grid Output Switch”on don’t restart inverter or battery,
otherwise the function will switch off outomatically.
Q: On Portal, why battery SOC has a sudden jump up to 95%? A: This normally
happens on when BMS communication fail on lithium battery. If battery enter
float charge, SOC will be reset to 95% compulsively. Q: Why battery cannot be
fully charged to 100% A:Battery will stop charge when battery voltage reaches
charge voltage set on PV Master APP
25
Q: Why battery switch always trip when starts it up (Lithium battery)? A: The
switch of lithium battery normally trips for following reasons: 1.BMS
communication fails. 2.Battery SOC is too low, battery trips to protect iself.
3.An electrical short-cut happened on battery connection side. Or other
reasons please contact GoodWe for details. Q: Which battery should I use for
EH? A:For EH series inverter, it could connect Lithium batteries which have
compatibility with EH series inverter. With nominal voltage from 85V to 450V.
Compatible lithium batteries can see on battery list in PV MASTER APP
About PV Meter Operation and Monitoring Q: Why Cannot save settings on PV
Master App? A: This could be caused by losing connection to Solar-WiFi. 1.Make
sure you connected Solar-WiFi (make sure no other devices connected) or router
(if connected Solar-WiFi to router) and on APP home page shows connection
well. 2.Make sure EH under waiting mode (on APP) before you change any sttings
on PV Master APP disconnect grid/load/battery, only leave PV connected and
then restart EH till see work mode as “wait” on APP.
OTHERS
4.4 TECHNICAL PARAMETERS AND CERTIFICATES
Q: On the App, why the data on the homepage and Param page is diferent, like
charge/discharge, ·PVTvEaCluHeN, loICaAdLvaPluAeRoArMgrEidTvEaRluSeO? F HYBRID
CONVERTERS A: As the data on APP is from inverter and on home page and Param
page, the data refresh frequency is diferent, so there will be a data
inconformity between diferent pages on APP as well as between that on portall
and APP.
Q: On App, some columns show NA, like battery SOH, etc. why is that? A: NA
means App does not receive data from inverter or server, normally it is
because communication problem, such as battery communication, and
communication between inverter and the APP:
About Meter and Power Limit Function Q: How to Act Output Power Limit
function? A: For EH system, the function could be realized by: 1. Make sure
Meter connection and communication well; 2. Turn on Export Power Limit
function and Set the max output power to grid on APP; Note: If Out-put Power
Limit set as 0W, then there might still have deviation max 100W exporting to
grid.
Q: Why there is still power exporting to grid after I set power limit as 0W?
A: Export limit could theoretically to minimum 0W, but there will have a
deviation of around 50- 100W for EH system.
Q: Can I use other brand Meter to take over Meter in EH system or change some settings on Meter?
A: Cannot, because there the communication protocol is inset between inverter and Meter,
other brand Meter cannot communicate. Also any manual setting change could cause Meter
26
communication failure.
Q: What is the max current allowed going through CT on Meter? A: The max current forCT is 120A
Other Questions Q: Is there a quick way to make the system work? A: The
shortest way, please refer to EH QUICK INSTALLATION INSTRUCTIONS and PV MASTER
APP INSTRUCTION.
Q: What kind of load can I connect on Back-Up side? A: Please refer to user
manual on page 12
Q: Whether the warranty of the inverter still valid if the installation or
operation does not follow the user manual instructions, for some special
conditions when we cannot 100% follow them?
A: Normally if any problem caused by disobey the instructions on user manual,
we can provide technical support to help to solve the problem, but cannot
guarantee a replacement or returns. So if there is any special condition when
you cannot 100% follow the instructions, please contact GoodWe for
suggestions.
OTHERS
4.3 TECHNICAL PARAMETERS AND CERTIFICATES
TECHNICAL PARAMETERS OF EH INVERTER
Technical Data
GW6000-EH
GW5000-EH
GW3600-EH
Battery Input Data
Battery Type
Li-Ion
Battery Voltage Range(V)
85~460
Start-up Voltage (V)
90
Max. Charging/Discharging Current (A)
25/25
Max. Charging/Discharging Power (W)
6000
5000
3600
Battery Ready Optional Function
YES
YES
YES
PV String Input Data
Max. DC Input Power (W)
8000
6650
4800
Max. DC Input Voltage (V)
580
580
580
MPPT Range (V)
100~550
100~550
100~550
Start-up Voltage (V)
90
Min. Feed-in Voltage (V) *6
100
MPPT Range for Full Load (V)
250~550
210~550
150~550
Nominal DC Input Voltage (V)
380
380
380
Max. Input Current (A)
12.5/12.5
Max. Short Current (A)
15.2/15.2
No. of MPP Trackers
2
No. of Strings per MPP Tracker
1
AC Output/Input Data (On-grid)
Nominal Apparent Power Output to Utility 6000
Grid (VA)*2
5000
3600
Max. Apparent Power Output to Utility Grid(VA)*2
6000/6600*1
5000/5500*1
3600/3960*1
27
Max. Apparent Power from Utility Grid (VA) 12000(Charging
10000(Charging
7200(Charging
6kw,backup output 6kw) 5kw,backup output 5kw) 3.6kw,backup output 3.6kw)
Nominal Output Voltage (V)
230
Nominal Output Freqency (Hz)
50/60
Max. AC Current Output to Utility Grid (A)2 26.1/28.71
21.7/24*1
16/18*1
Max. AC Current From Utility Grid (A)
52.2
43.4
32
Output Power Factor
Adjustable from 0.8 leading to 0.8 lagging
Output THDi (@Nominal Output)
<3%
Back-up Output Data (Back-up)
Max. Output Apparent Power (VA)
6000
5000
3600
Peak Output Apparent Power (VA)
720060sec
600060sec
432060sec
Max. Output Current (A)
26.1
21.7
15.7
Automatic Switch Time (ms)
<10
Nominal Output Voltage (V)
230 (±2%)
Nominal Output Frequency (Hz)
50/60 (±0.2%)
Output THDv (@Linear Load)
<3%
OTHERS
Efficiency
PV Max. Efficiency
97.60%
PV Europe Efficiency
97.00%
PV Max. MPPT Efficiency
99.90%
Battery Charged By PV Max. Efficiency
98.00%
Battery Charge/discharge From/To AC Max. Efficiency
96.60%
Protection
Anti-islanding Protection
Integrated
Battery Input Reverse Polarity Protection
Integrated
Insulation Resistor Detection
Integrated
Residual Current Monitoring Unit
Integrated
Output Over Current Protection
Integrated
Grid Output Short Protection
Integrated
Output Over Voltage Protection
Integrated
General Data
Operating Temperature Range ()
-35~60
Relative Humidity
0~95%
Operating Altitude (m
4000
Cooling
Nature Convection
Noise (dB)
<35
User Interface
LED & APP
Communication with BMS*3
RS485; CAN
Communication with Meter
RS485
Communication with Portal
Wi-Fi/Ethernet(Optional)
Weight (kg)
17
Size (WidthHeightDepth mm
354433147
Mounting
Wall Bracket
Protection Degree
IP65
Standby Self Consumption (W)*4 Topology
<10
28
Battery Non-Isolation
Certifications & Standards*5
Grid Regulation
VDE-AR-N 4105
Safety Regulation
IEC/EN 62109-1&2
IEC/EN 62109-1&2
IEC/EN 62109-1&2
EMC
EN61000-6-1
*1: For CEI 0-21.
*2: The grid feed in power for VDE-AR-N 4105 and NRS097-2-1 is limited 4600VA, for AS/NZS 4777.2 is limited 4950VA & 21.7A.
*3: CAN communication is configured by default. If 485 communication is used, please replace the corresponding communication
line.
*4: No Back-up Output.
*5: Not all certifications & standards listed, check the official website for details.
*6: When there is no battery connected, inverter starts feeding in only if string voltage is higher than 200V.
OTHERS
1: For CEI 0-21. 2: The grid feed in power for VDE-AR-N 4105 and NRS097-2-1 is limited 4600VA, for AS/NZS 4777.2 is limited 4950VA & 21.7A. 3: CAN communication is configured by default. If 485 communication is used, please replace the corresponding communication line. 4: No Back-up Output. *5: Not all certifications & standards listed, check the official website for details.
CERTIFICATES OF ET SERIES
on it d uc er d ot or n i Po m
pe d T y te
t es
t u v – s u d .c o m/ ps- cer t
G100 IEC62109-1 RD1699 VDE0126-1-1
CEI 0-21 VDE-AR-N 4105 NRS 097-2-1
· OTHER TEST · For Australia requirements, in the THDi test, there should add
Zref between inverter and mains.
RA, XA for Line conductor RN, XN for Neutral conductor
Zref:
29 RA=0,24;XA=j0,I5 at 50Hz;
RN=0,I6;XN=j0,10 at 50Hz.
OTHERS
4.4 WARNING QUICK CHECK LIST
[1] Inverter cannot be installed near flammable, explosive or strong electro-
magnetic equipment, page 06 [2] Remember that this inverter is heavy! Please
be careful when lifting out from the package, page 07 [3] The polarity of PV
strings or on the inverter cannot be connected by reversely, otherwise
inverter could be damaged, page 08 [4] Make sure battery breaker is off and
battery nominal voltage meet EH specification before connecting battery to
inverter and make sure inverter is totally isolated from PV and AC power, page
09 [5] Make sure inverter is totally isolated from any DC or AC power before
connecting AC cable, page 11 [6] Make sure AC cable is totally isolated from
AC power before connecting Smart Meter & CT, page 13
Appendix: Protection Category Definition
Overvoltage Category Definition
Category
Applies to equipment connected to a circuit where measures have been taken to reduce transient overvoltage to a low level
Category
Applies to equipment not permanently connected to the installation. Examples are appliances, portables tools and other plug- connected equipment
Category
Applies to a fixed equipment downstream of and including the main distribution board. Examples are switchgear and other equipment in an industrial installation
Applies to equipment permanently connected at the origin of an installation (upstream of the main distribution board). Example
3
Category
are electricity meters, primary over-current 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%
OTHERS
Environment Category Definition
Environment Condition
Ambient Temperature
Outdoor
-20~50
Indoor Unconditioned
-20~50
Indoor Conditioned
0~40
Relative Humidity 4%~100% 5%~95% 5%~85%
Applied to PD3 PD3 PD2
Pollution Degree Definition
Pollution Degree Pollution Degree Pollution Degree
No pollution or only dry, non-conductive pollution occurs. The pollution has
no infuence
Normally only non-conductive pollution occurs. Ooccasionally, however, a
temporary conductivity caused by condensation must be expected.
Conductive pollution occurs, or dry, non-conductive pollution occurs, which
becomes conductive due to condensation, which is expected.
Pollution Degree
Persistent conductive pollution occurs, for example, the pollution caused by conductive dust, rain and snow.
4.5 CHECKING THE ELECTRICAL CONNECTION 31
1. Check if the AC or DC wire is loose. 2. Check if the earth wire is
reliable grounding.
3. Check if the waterproof covers of BMS and Meter port is fasten. 4. Please
use torque wrench to tighten the AC and battery terminal wiring connection
once a year; followed 2.4 torque instruction.
Caution: Maintenance cycle is once half a year.
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