Deye SUN-K-G-LV Grid Connected PV Inverter User Manual

June 15, 2024
Deye

SUN-K-G-LV Grid Connected PV Inverter

Specifications

  • Product Name: Grid-connected PV Inverter
  • Model: SUN-K-G-LV

Product Usage Instructions

Introduction

The Grid-connected PV Inverter SUN-K-G-LV is a device that
converts the DC power generated by PV modules into AC power for use
in grid-connected systems.

Appearance Introduction

The inverter has a compact design with a sleek and modern
appearance. It is equipped with an LCD display, buttons for
operation, and various indicators to provide status
information.

Parts List

Before installation, make sure you have all the necessary parts
and components included in the package. Refer to the user manual
for a detailed list of parts.

Safety Warnings and Instructions

Read and follow all safety warnings and instructions provided in
the user manual to ensure safe installation and operation of the
inverter.

Safety Signs

The inverter is equipped with safety signs to indicate potential
hazards or safety precautions. Familiarize yourself with these
signs before installation.

Safety Instructions

Follow the safety instructions provided in the user manual to
prevent electrical shock, fire, or other hazards during
installation and operation.

Notes for Using

Take note of important considerations and guidelines for using
the inverter effectively and safely. These notes include tips on
maintenance, troubleshooting, and system compatibility.

Operation Interface

The operation interface of the inverter includes an LCD display
and buttons for navigation and settings. Familiarize yourself with
the interface to effectively operate the inverter.

Interface View

The interface view provides a visual representation of the
inverter’s LCD display, indicating various parameters and status
information.

Status Indicator

The status indicator on the inverter provides visual feedback on
the current operating status, such as power generation, fault
detection, or system shutdown.

Buttons

The buttons on the inverter allow you to navigate through the
menu options, select settings, and perform various operations.

LCD Display

The LCD display on the inverter provides real-time information
about the system’s performance, including power output, voltage,
current, and other relevant parameters.

Product Installation

Select Installation Location

Choose an appropriate location for installing the inverter,
considering factors such as ventilation, access to sunlight, and
proximity to the PV modules and electrical connection points.

Mounting Bracket of Inverter

Use the provided mounting bracket to securely mount the inverter
on a suitable surface. Ensure that the mounting surface is sturdy
enough to support the weight of the inverter.

Inverter Installation

Follow the step-by-step instructions in the user manual to
install the inverter properly. This includes connecting the
mounting bracket, attaching the inverter to the bracket, and
ensuring proper alignment and stability.

Electrical Connection

Connect the DC input terminals of the inverter to the PV modules
using appropriate cables and connectors. Similarly, connect the AC
input terminals to the grid power supply. Follow the wiring diagram
provided in the user manual for correct connections.

PV Module Selection

Select compatible PV modules that meet the specifications and
requirements of the inverter. Ensure that the total power of the PV
modules does not exceed the maximum input power capacity of the
inverter.

Startup and Shutdown

Learn how to start up and shut down the inverter properly to
ensure safe and efficient operation. Follow the instructions
provided in the user manual for the specific steps required.

Zero-Export Function via Energy Meter

If your system supports zero-export functionality, follow the
instructions provided in the user manual to connect an energy meter
and enable zero-export mode. This feature allows you to limit the
export of excess power to the grid.

Multiple Strings and Parallel Connection Meters

If your system involves multiple strings or parallel connection
meters, refer to the user manual for detailed instructions on how
to configure and connect these components.

How to Browse the Load Power of Your PV Grid-Tie Plant on

Monitoring Platform?

Refer to the user manual for instructions on how to access and
browse the load power of your PV grid-tie plant using the provided
monitoring platform. This feature allows you to monitor and analyze
the performance of your system.

General Operation

The Initial Interface

Upon startup, the inverter will display an initial interface
providing basic information about the system’s status. Familiarize
yourself with this interface for easy monitoring.

Statistics Information

The inverter provides statistics information such as total power
generated, energy yield, and other performance indicators. Access
this information through the menu options on the LCD display.

Fault Record

In case of any faults or errors, the inverter records and
displays relevant information for troubleshooting purposes. Learn
how to access and interpret the fault record for effective
maintenance and repairs.

ON/OFF Setting

Configure the ON/OFF settings of the inverter according to your
requirements. This includes options for automatic shutdown, sleep
mode, or manual control.

Parameter Setting

Adjust various parameters and settings of the inverter to
optimize its performance and compatibility with your system. Refer
to the user manual for detailed instructions on parameter
setting.

Repair and Maintenance

Follow the recommended maintenance procedures provided in the
user manual to ensure the longevity and efficiency of the inverter.
Regularly inspect and clean the inverter, and promptly address any
issues or faults.

Error Information and Processing

Error Code

In case of any errors or malfunctions, the inverter displays
specific error codes to assist in troubleshooting and resolution.
Refer to the error code section in the user manual for detailed
information on each code and its corresponding solution.

FAQ

Q: How do I select the appropriate PV modules for my SUN-K-G-LV

inverter?

A: To select compatible PV modules, ensure that their total
power output does not exceed the maximum input power capacity of
the inverter specified in the user manual. Additionally, consider
factors such as voltage and current ratings to ensure proper
matching with the inverter.

Q: Can I install the inverter outdoors?

A: The SUN-K-G-LV inverter is designed for indoor installation.
If you need to install it outdoors, make sure it is protected from
direct exposure to sunlight, rain, dust, and extreme temperatures.
Use appropriate weatherproof enclosures if necessary.

Q: How often should I perform maintenance on the inverter?

A: Regular maintenance is recommended to ensure optimal
performance. Depending on the operating conditions and environment,
perform visual inspections and cleaning at least once every six
months. Refer to the user manual for specific maintenance
guidelines.

Q: What should I do if the inverter displays an error

code?

A: When an error code is displayed, consult the user manual for
the corresponding error code and its recommended solution. Follow
the troubleshooting steps provided to identify and resolve the
issue. If the problem persists, contact the authorized service
center for further assistance.

R

Grid-connected PV Inverter

SUN-K-G-LV

SUN-K-G-LV

SUN-K-G-LV

SUN-K-G-LV

User Manual

. Introduction

………………………………………………………… – –

. Appearance Introduction …………………………………………………… – –

. Parts list

……………………………………………………………… – –

. Safety warnings and instructions ……………………………………… – –

. Safety signs

………………………………………………… – –

. Safety instructions

………………………………………………… – –

. Notes for using

…………………………………………………… – –

. Operation Interface

……………………………………………… – –

. Interface View

………………………………………………………… – –

. Status Indicator

……………………………………………………… – –

. Buttons

…………………………………………… – –

. LCD Display

……………………………………………… – –

. Product installation …………………………………………………………… – –

. Select installation location ………………………………………………… – –

. Mounting bracket of inverter ………………………………………………… – –

. Inverter Installation

………………………………………………… – –

. Electrical Connection ……………………………………………………… – –

. PV Module Selection

……………………………………………… – –

. DC input terminal connection ……………………………………………… – –

. AC input terminal connection ……………………………………………… – –

. The connection of the ground line ………………………………………… – . Startup and Shutdown …………………………………………………… – –

. Start up the inverter

………………………………………………… – –

. Inverter Shutdown

………………………………………………………… – –

. Zero-export function via energy meter …………………………… – –

. Multiple strings and parallel connection meters ……………………… – . How to browse the load power of your PV grid-tieplant on monitoring platform? – –

. General Operation

…………………………………………… – –

. The initial interface . Statistics information

…………………………………………… – ……………………………………………… – –

. Fault Record

……………………………………………… – –

. ON/OFF setting

……………………………………………… – –

. Parameter setting

…………………………………………………… – –

. Repair and Maintenance ……………………………………………… – –

. Error information and processing……………………………………… – –

. Error code

………………………………………………………… – –

. Specification ……………………………………………………………… – –

. EU Declaration of Conformity

…………………………………… – –

About This Manual
The manual mainly describes the product information, guidelines for installation, operation and maintenance. The manual cannot include complete information about the photovoltaic (PV) system.
How to Use This Manual
Read the manual and other related documents before performing any operation on the inverter. Documents must be stored carefully and be available at all times. Contents may be periodically updated or revised due to product development. The information in this manual is subject to change without notice. The latest manual can be acquired via service@deye.com.cn
. Introduction
. Appearance Introduction
On-grid inverter can convert solar panel DC power into AC power which can directly input to the grid. Its appearance is shown below. These models contain SUN-K-G-LV, SUN-K-G-LV, SUN-K-G-LV, SUN-K-G-LV. The following is collectively referred to as “inverter”.

DC

AC

Normal

Alarm

Up

Esc

Enter

Down

Pic . Front view

WIFI

RS485 Meter

limiter1 limiter2

Pic . Bottom view – –

. Parts list
Please check the following table, to see whether all the parts are included in the package

DC

AC

Normal

Alarm

Up

Esc

Enter

Down

Grid-tied PV String Inverter x

Wall mounting bracket x

Mounting stainless steel screws M× x

Wrench x

DC+/DC- Plug connectors including metal terminal
x N pairs

Stainless steel anti-collision bolt M× x

User manual
User manual x

Datalogger (optional) x

Installation screws M× x

*Sensor Clamp (optional)x

5ISFF1IBTF4NBSU.FUFS 4&5 &4$
Meter(optional) x
– –

. Safety warnings and instructions
Improper use may result in potential electric shock hazards or burns. This manual contains important instructions that should be followed during installation and maintenance. Please read these instructions carefully before use and keep them for future reference. . Safety signs Safety symbols used in this manual, which highlight potential safety risks and important safety information, are listed as follows:
Warning: Warning symbol indicates important safety instructions, which if not correctly followed, could result in serious injury or death.
Shock Hazard: Caution, risk of electric shock symbol indicates important safety instructions, which if not correctly followed, could result in electric shock.
Safety Hint: Note symbol indicates important safety instructions, which if not correctly followed, could result in some damage or the destruction of the inverter.
High Temperature Hazard: Caution, hot surface symbol indicates safety instructions, which if not correctly followed, could result in burns.
. Safety instructions
Warning: Electrical installation of the inverter must conform to the safety operation rules of the country or local area.
Warning: Inverter adopts non-isolated topology structure, hence must insure DC input and AC output are electrical isolated before operating the inverter.
Shock Hazard: Prohibit disassembling inverter case, there existing shock hazard,which may cause serious injury or death, please ask qualified person to repair.
– –

Shock Hazard: When PV module is exposed to sunlight, the output will generate DC voltage. Prohibit touching to avoid shock hazard. Shock Hazard: While disconnect the input and output of the inverter for maintenance, please waits for at least mins until the inverter discharge the remnant electricity. High Temperature Hazard: Local temperature of inverter may exceed while under operating. Please do not touch the inverter case.
. Notes for using The three phase string power inverter is designed and tested under related safety regulations. It can ensure the personal safety of the user. But as a electric device, it may cause shock or injury by incorrect operation. Please operate the unit under below requirements: . Inverter should be installed and maintained by qualified person under local standard
regulations. . Must disconnect the AC side first, then disconnect DC side while doing installation and
maintenance, after that, please wait at least mins to avoid getting shocked. . Local temperature of the inverter may exceed while under operating.Do not touch
to avoid getting injured. . All electrical installation must be in accordance with local electrical standards, and
achieved permission of local power company. . Please take appropriate anti- static measure. . Please install where children can not touch.
– –

. Operation Interface
. Interface View

Pic . Front panel display

. Status Indicator

The inverter panel has indicators, the left one is dc output indicators, green indicates normal DC input. Beside is the AC indicator, green indicating normal ac connection. Beside the AC indicator is the operating indicator, green indicating normal output. The right indicator is alarm. red indicates alarming.

Indicator ° ° ° °

status on off on off on off on off

Explanation Inverter detects DC input Low DC input voltage Grid Connected Grid Unavailable Under normal operating Stop operating Detected faults or report faults Under normal operating

Table . Status indicator lights

– –

. Buttons There are four buttons on the inverter panelAbove is Up and increase button(UP), Below is down and decrease button(DOWN), Left is ESC button(ESC), Right is Enter button(ENTER). Achieving below functions by the four buttons Page turning (use UP and DOWN button Modify adjustable parameters (use ESC and ENTER button . LCD Display Three phase string inverter use * dot formation display, Display below content Inverter operation status and information; Operating information; Warning message and malfunction display.
– –

. Product installation . Select installation location
To select a location for the inverter, the following criteria should be considered: WARNING: Risk of fire Do not install the inverter in areas containing highly flammable materials or gases. Do not install the inverter in potentially explosive atmospheres. Do not install in small closed spaces where air can not circulate freely. To avoid overheating,
always make sure the flow of air around the inverter is not blocked. Exposure to direct sunlight will increase the operational temperature of the inverter and
may cause output power limiting. It is recommended that inverter installed to avoid direct sunlight or raining. To avoid overheating ambient air temperature must be considered when choosing the inverter installation location. It is recommended that using a sun shade minimizing direct sunlight when the ambient air temperature around the unit exceeds °F/.
Pic . Recommended installation place
– –

Install on a wall or strong structure capable of bearing the weight. Install vertically with a maximum incline of +/-°. If the mounted inverter is tilted to an angle greater than the maximum noted, heat dissipation can be inhibited, and may result in less than expected output power. If install more than one inverter, must leave at least mm gap between each inverter. And each inverter must be at least mm above and below.And must install the inverter at the place where children cannot touch. Please see picture .. Consider whether the installation environment is helpful to see the inverter LCD display and indicator status clearly. Must offer a ventilate environment if inverter installed in the airtight house.
Safety Hint: Do not place or store any items next to the inverter.
15¢
Pic . Installation Angle
– –

500mm
500mm
Pic . Installation Gap
. Mounting bracket of inverter
Pic . Mounting bracket dimensions – –

. Inverter Installation
The inverter should be mounted in a vertical position. The steps of mounting are as follows . For brick walls, the position of the holes should be suitable for the expansion bolts. . Make sure the bracket is horizontal and the mounting holes are in the correct points. Drilling the holes on the wall according the marks. . Using the expansion bolts to fix the bracket to the wall.
Anchoring Mounting bracket
Stainless steel screws Inverter
Pic . Inverter Installation
– –

. Electrical Connection
. DC input terminal connection
. Switch the Grid Supply Main Switch(AC)OFF. . Switch the DC lsolator OFF. . Assemble PV input connector to the inverter.
Warning: When using PV modules, please ensure the PV+ & PV- of solar panel is not connected to the system ground bar.
Safety Hint: Before connection, please make sure the polarity of the output voltage of PV array matches the “DC+” and “DC-” symbols.
Warning: Before connecting inverter, please make sure the PV array open circuit voltage is within the V of the inverter.

Pic . DC+ male connector

Pic . DC- female connector

Safety Hint: Please use approved DC cable for PV system.

Cable type
Industry generic PV cable (model: PV-F)

Cross sectionmm

Range

Recommended value

.~. (~AWG)

.(AWG)

Table . DC Cable Specifications

– –

The steps to assemble the DC connectors are listed as follows: a) Strip off the DC wire about mm, disassemble the connector cap nut (see picture .).
NN NN
Pic . Disassemble the connector cap nut b) Crimping metal terminals with crimping pliers as shown in picture ..
Pic . Crimp the contact pin to the wire c) Insert the contact pin to the top part of the connector and screw up the cap nut to the top
part of the connector. (as shown in picture .).
Pic . connector with cap nut screwed on
– –

d) Finally insert the DC connector into the positive and negative input of the inverter, shown as picture .

Pic . DC input connection

Warning: Sunlight shines on the panel will generate voltage, high voltage in series may cause danger to life. Therefore, before connecting the DC input line, the solar panel needs to be blocked by the opaque material and the DC switch should be ‘OFF’, otherwise, the high voltage of the inverter may lead to lifethreatening conditions.

Warning: Please use its own DC power connector from the inverter accessories. Do not interconnect the connectors of different manufacturers.Max. DC input current should be A. if exceeds, it may damage the inverter and it is not covered by Deye warranty.

. AC terminal connection

Model SUN-K-G-LV SUN-/K-G-LV SUN-K-G-LV

Wire Size AWG AWG AWG

Cable(mm²) mm² mm² .mm²

Torque value(max) .Nm .Nm .Nm

Max cable length
Outside cable (L+N)m

Table . Recommened cable specifications

Warning: The AC cable line L is connected to socket ; L is connected to socket ; L is connected to socket , the PE line is connected to the earth , the N wire is connected to the socket of N.

– –

AC wire installation method: ) Remove the fixing screws on the AC junction box of the inverter as shown in Pic .. After removing the junction box, you can see the terminals of the inverter. The default is digits as shown in Pic ..

Pic . AC junction box

Pic . AC terminal

) Connect the cable through the junction box, waterproof jacket, and insert into the terminal (The picture Pic . shows the connection mode of three phase lines connected to the junction box, ground wire screwed on the inverter shell) , and use hexagon screwdriver to presses the wiring harness to the connect terminal as shown in Pic ..

N L1 L2 L3 PE
Pic . AC cable connected t o the terminal

Pic . Tightening the AC connection cable

– –

) Screw the AC connection cover back to the shell and tighten all the screws to tighten the waterproof protection connector, as shown in Pic .

Pic . Tighten the AC junction box .. Recommended current protector specifications

Inverter
SUN-K-G-LV SUN-K-G-LV SUN-K-G-LV SUN-K-G-LV

Rated voltage

Rated output powerKW Current protection deviceA

Table . Recommended current protector specifications

– –

. Connection of the ground line
Good grounded is important for resist the surge voltage shock and improve EMI’s performance. So before the connection of AC, DC, communication connections, inverter needs to ground first. For a single system, just ground the PE cable; For multiple machine systems, all PE cables of the inverter need to be connected to the same grounding copper platoon to ensure the equipotent connection. The installation of the shell ground wire is shown as Pic ..The external protective earthing conductor is made of the same metal as the phase conductor.

WIFI

RS485 Meter

limiter1 limiter2

85 Meter

limiter1 limiter2

Pic . The installation of the shell ground wire

Model SUN-K-G-LV SUN-/K-G-LV SUN-K-G-LV

Wire Size AWG AWG AWG

Cable(mm²) .mm² mm² .mm²

Torque value(max) .Nm .Nm .Nm

Warning: Inverter has built-in leakage current detection circuit, If an external leakage current protection device is connected, its operating current must be greater than mA or higher, otherwise inverter may not work properly.
. Inverter monitoring connection
Inverter has the function of wireless remote monitoring inverter. The inverter has Wifi function and Wifi Plug in the accessories is used to realize the connection between the inverter and the network. The operation, installation, networking, APP download are detailed in the WIFI PLUG instructions. Figure . is the Internet monitoring solution.

GPRS

Phone

WIFI

Router

Web Server

Pic . Internet monitoring solution
.. Installation of datalogger
When installing the WiFi stick, tear off the sealing strip on the inverter. Insert the datalogger into the interface and fix it with a screw. The configuration of the datalogger needs to be performed after various electrical connections have been completed and the inverter DC power on. When the inverter is on the DC power, it is determined whether the datalogger is normally electrified (The LED light shines out of the shell).

WIFI

RS485 Meter

limiter1 limiter2

Pic . datalogger installation diagram – –

.. Configuration of datalogger For the configuration of datalogger, please refer to illustrations of the datalogger. . Start up and Shut off Ensure that the inverter meets the following conditions before starting the inverter, otherwise it may cause fire or damage to the inverter without quality assurance, at the same time the situation on our company does not undertake any responsibility. At the same time, to optimize the system configuration, it is recommended that the two inputs be connected to the same number of PV modules.
a). The maximum open circuit voltage of each set of PV modules shall not exceed Vdc under any conditions.
b). Each input of the inverter better use the same type of PV module in series. c). Total output power of PV shall not exceed the maximum input power of inverter, each PV
modules shall not exceed the rated power of each channel. . Start up the inverter When starting up the inverter, should fellow steps below
. Starting switch on the AC breaker. . Turn on the DC switch of the PV module, and if the panel provides sufficient starting voltage
and power, the inverter will start. . The inverter will first check the internal parameters and the grid parameters, while the liquid
crystal will show that the inverter is self-checking. . If the parameter is within acceptable range, the inverter will generate energy.
NORMAL indicator light is on. . Shut off the inverter Must follow below steps while Shutting down the inverter:
. Switch off the AC breaker. . Wait for seconds, turn off the dc switch (if any), or simply disconnect the dc input
connector. The inverter will close the LCD and all led within two minutes.
– –

. Zero-export function via energy meter
There’re four kinds of energy meters for this series inverter. First type is Eastron SDM-Modbus V which is able to measure the Max. A current directly. More details please refer to Pic . & .. For the Eastron SDM MCT mA, it needs external CT to measure the current. The CT power range is from A-A. More details about the Eastron SDM MCT, please refer to Pic . & .. Also, the CHNT meter DTSU is supported, it can measure the Max. A current directly. More details about the DTSU, please refer to Pic . – .. When you are reading this, we believe that you have completed the connection according to the requirements of chapter , if you have been running your inverter at this time, and you want to use the zero-export function, please turn off AC and DC switch of the inverter, and wait for minutes until the inverter completely discharged. For system wiring diagram, the red line refers to L line (L, L, L), the black line refers to the neutral line (N). Connecting energy meter RS cable to inverter’s RS port. It’s recommended to install an AC switch between the inverter and the utility grid, the specs of the AC switch are determined by the power of load. If there is no integrated DC switch inside the inverter you purchased, we commend you to connect the DC switch. The voltage and current of the switch depend on the PV array you access.
– –

&BTUSPO

1234 5678

(,,,)

5 6 7 8
Eastron SDM-Modbus V

RS

B A G
RS B RS A GND

Pic . Eastron meter

Solar Panel array

Inverter
WIFI

RS485 Meter

limiter1 limiter2

(,,,)
AC Breaker for grid port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

VCC_V GND

AC Breaker
RS Male connector

L L L N

_B RS Female connector
_A

N L L L

Home load

L L L N

meter

_A

_B

RS Communication

GND

5 6 7 8
L L L N

L L L N

Pic . Connection diagram of Eastron meter

Grid

Warning: In final installation, breaker certified according to IEC – and IEC – shall be installed with the equipment.

– –

&BTUSPO

1234 5678

(,,,)

5 6 7 8
Eastron SDM-Modbus V

RS

B A G
RS B RS A GND

Pic . Eastron meter

Solar Panel array

Inverter
WIFI

RS485 Meter

limiter1 limiter2

(,,,)
AC Breaker for gen port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

VCC_V GND

AC Breaker
RS Male connector

L L L N

_B RS Female connector
_A

N L L L

Home load

L L L N

meter

_A

_B

RS Communication

GND

5 6 7 8
L L L N

L L L N

Pic . Connection diagram of Eastron meter

Generator

– –

P HASE W IR E

9 10 11 12 13 14 15 16 17 18 19 20

&BTUSPO

6* &4$
.

P2 P1

P2 P1 S2

S1

P2 P1 S2

S1

S2

S1

L1 L2 L3 N

1

&
1 2 3 4 5 6 7 8

1 2 3 4 5 6 15 16 17 18 19 20

Grid voltage Auxiliary sampling power supply

Current inputs

RS

Eastron SDMMCT
Pic . Eastron meter

RS A RS B GND

N L L L

Solar Panel array
VCC_V GND

Inverter
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker RS Male connector

AC Breaker for grid port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

_B RS Female connector
_A

6* &4$
. 1
&

black line White line
black line White line

CT3

black line White line

CT2

CT1

Home load
Note: the arrow direction towards the inverter

12345678
N L L L LA NA

GND B A S2 S1 S2 S1 S2 S1
9 10 11 12 13 14 15 16 17 18 19 20

Eastron

_A

_B

RS Communication

GND

meter

L L L N

Grid
Pic . Connection diagram of Eastron meter

– –

P HASE W IR E

9 10 11 12 13 14 15 16 17 18 19 20

&BTUSPO

6* &4$
.

P2 P1

P2 P1 S2

S1

P2 P1 S2

S1

S2

S1

L1 L2 L3 N

1

&
1 2 3 4 5 6 7 8

1 2 3 4 5 6 15 16 17 18 19 20

Grid voltage Auxiliary sampling power supply

Current inputs

RS

Eastron SDMMCT
Pic . Eastron meter

RS A RS B GND

N L L L

Solar Panel array
VCC_V GND

Inverter
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker RS Male connector

AC Breaker for gen port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

_B RS Female connector
_A

6* &4$
. 1
&

black line White line
black line White line

CT3

black line White line

CT2

CT1

Home load
Note: the arrow direction towards the inverter

12345678
N L L L LA NA

GND B A S2 S1 S2 S1 S2 S1
9 10 11 12 13 14 15 16 17 18 19 20

Eastron

_A

_B

RS Communication

GND

meter

L L L N

Generator
Pic . Connection diagram of Eastron meter

– –

5ISFF1IBTF4NBSU.FUFS
4&5 &4$

CHNT DTSU

(,,,) RS Pic . CHNT meter

(,,,)

Solar Panel array

Inverter
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker
RS Male connector

AC Breaker for grid port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

N L L L

VCC_V GND

_B
RS Female connector
_A

_A

_B

RS Communication

L L L N

meter

5ISFF1IBTF4NBSU.FUFS
4&5 &4$

L L L N

Home load

Grid Pic . Connection diagram of CHNT meter

– –

5ISFF1IBTF4NBSU.FUFS
4&5 &4$

CHNT DTSU

(,,,) RS Pic . CHNT meter

(,,,)

Solar Panel array

Inverter
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker
RS Male connector

AC Breaker for gen port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

N L L L

VCC_V GND

_B
RS Female connector
_A

_A

_B

RS Communication

L L L N

meter

5ISFF1IBTF4NBSU.FUFS
4&5 &4$

L L L N

Home load

Generator

Pic . Connection diagram of CHNT meter

– –

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

CHNT DTSU
x/V A/mA

3 6 9 10131416171921
L1 L2 L3

24 25
AB RS485
Phase C current =.A
Pic . CHINT meter

Phase A current =5.000A Phase B current =5.001A

Solar Panel array
VCC_V GND

Inverter
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker RS Male connector

AC Breaker for grid port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

_B
RS Female connector _A

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

L L L N

Home load

N L L L

_A

_B

RS Communication

Black line White line
Black line White line Black line White line
L L L N

Note: the arrow direction towards the inverter

Grid
Pic . Connection diagram of CHNT meter

– –

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

CHNT DTSU x/V

3 6 9 10131416171921
L1 L2 L3

24 25
AB RS485
Phase C current =.A
Pic . CHINT meter

Phase A current =.A Phase B current =.A

N L3 L2 L1

Solar Panel array
VCC_V GND

Inverter
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker RS Male connector

AC Breaker for gen port SUN-K-G:A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker SUN-K-G: A AC breaker

_B
RS Female connector _A

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

L1 L2 L3 N

Home load

_A

_B

RS Communication

Black line White line
Black line White line Black line White line
L1 L2 L3 N

Note: the arrow direction towards the inverter

Generator
Pic . Connection diagram of CHNT meter
Safety Hint: Ensuring grid input cables connect /// port of energy meter, and inverter AC output cables connect /// port of energy meter when connecting.
– –

. Press Enter button on the LCD panel in the main interface into the menu options, select [parameter setting] to enter setup submenu, and then select [run param], at this time please input the default password through pressing the button [up down, enter], enter the operation parameter setting interface, shown as picture ..

MENUvSetupvRun Param

ActiveP % QMode QU

ReactP PF

.% .

Fun_ISO ON Fun_RCD ON

OK

SelfCheck S

Island

OFF

Meter

ON

Limiter

OFF

Feed_In % MPPT Num

Cancel

Pic . Zero-export function via meter setting interface
. Operate the button [up down], move setting cursor to energy meter and press the button [enter]. At this time you can turn on the energy meter by choosing [up down] button, please press [enter] button to confirm when setting done.
. Move the cursor to [OK], press [enter] to save the settings and exit the running parameters page, otherwise the settings are invalid.
. If set up successfully, you can return to the menu interface, and display the LCD to [home page] by press the [up down] button. If it displays [meter power XXW], the zero-export function setting is completed. Shown as picture ..

PARAMETR

Meter

SN:

Meter Power:

W

Load Power:

.kW

Day

Total

ImpEp : .kWh

.MWh

ExpEp : .kWh

.KWh

LoadEp : .kWh

.MWh

Pic . Zero-export function via energy meter turn on
. Meter power W shows positive means grid is supplying the load, and no power fed into grid. if meter power shows negative, it means PV energy is being sold to grid or energy meter wiring conncetion has problem.
. After properly connection is done, wait for inverter starting. If the power of the PV array meets the current power consumption, the inverter will keep a certain output to counteract the power of the grid without backflow .
– –

. Multiple strings and parallel connection meters
This application is that when the string inverters work in parallel, there is only one power grid and one load, and only one meter can be connected to prevent reverse current, so only this many-to-one anti-reverse current connection can be connected.
If there’re several inverters parallelling operation in a plant, also it can use pcs meter to realize zero export function.For example, if there’re pcs inverters parallelling operation in the system with pcs meter.We need to setup pcs inverteras the master and others setup as slaves. And, all of them need to connect to the meter via RS.Below is the system diagram and configuration of the system.

MENU Setting

Exp_Mode AVG

CT_Ratio

MFR

AUTO

FeedIn .KW

Shunt

OFF

ShuntQTY

Back

Generator ON

G.CT

G.MFR

AUTO

G.Pout %

G.Cap . KW

Pic . Meter function

– –

Name
Exp_Mode
CT_Ratio MFR Feedin Shunt

Description
AVG: Average power of three phase is zero exported. MIN: Phase with minimum load power is zero exported, while the other two phase may be in purchase mode.

Range AVG/MIN

CT ratio of power grid side meter when extern CT is applied.

Manufacturer of the grid side meter. Modbus Address of it should be set as .
Percentage of the Feed in power exported to the grid.
Parallel mode. Set one inverter as Master, others are Slave. ONLY need to set the master, Slave will follow the settings in the master.

AUTO/CHNT/ EASTRON
-%
OFF/Master/ Slave

ShuntQTY Generator G.CT
G.MFR G.Pout G.Cap

Number of inverters in parallel
DG side meter function Enable/Disable CT ratio of power DG side meter when extern CT is applied.
Manufacturer of the DG side meter. Modbus Address of it should be set as .
Output power percentage of the DG. Capacity of the DG.

– ON/OFF

AUTO/CHNT/ EASTRON -% -kW

Note: Select Meter option in Run Param and long press ENTER button to enter this
Meter Setting page.

– –

&BTUSPO

1234 5678

(,,,)

B A G

5 6 7 8

RS 485
RS485B RS485A GND

Eastron SDM-Modbus V Pic . Eastron meter

(5,6,7,8)

Grid meter
GND (as short as possible)
_A (as short as possible)
_B (as short as possible)
GND (as short as possible)
_A (as short as possible)
_B (as short as possible)

Master(Mst) R S

485_B

485_A

GND

Solar Panel array Solar Panel array Solar Panel array

VCC_V GND

_B
RS Female connector
_A

Slave(Slv)
R S

Slave(Slv) R S

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

L L L N load AC Breaker L L L N
AC Breaker L L L N
AC Breaker
L L L N

AC Breaker

Grid L L L N
5 6 7 8
L1 L2 L N

Pic . Eastron Connection diagram(The pass-through table)

– –

&BTUSPO

1234 5678

(,,,)

B A G

5 6 7 8

RS 485
RS485B RS485A GND

Eastron SDM-Modbus V Pic . Eastron meter

(5,6,7,8)

Generator meter
GND (as short as possible)
_A (as short as possible)
_B (as short as possible)
GND (as short as possible)
_A (as short as possible)
_B (as short as possible)

Master(Mst) R S

485_B

485_A

GND

Solar Panel array Solar Panel array Solar Panel array

VCC_V GND

_B
RS Female connector
_A

Slave(Slv)
R S

Slave(Slv) R S

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

L L L N load AC Breaker L L L N
AC Breaker L L L N
AC Breaker
L L L N

AC Breaker

Generator L L L N
5 6 7 8
L1 L2 L N

Pic . Eastron Connection diagram(The pass-through table)

– –

3 PHASE 4 WIRE

9 10 11 12 13 14 15 16 17 18 19 20

&BTUSPO

6* &4$
. 1
&

1 2 3 4 5 6 7 8

Eastron SDMMCT

P2 P1

P2 P1 S2

S1

P2 P1 S2

S1

S2

S1

L1 L2 L3 N

1 2 3 4 5 6 15 16 17 18 19 20

Grid voltage Auxiliary sampling power supply

Current inputs

RS Pic . Eastron meter

RSA RSB GND

Solar Panel array Solar Panel array Solar Panel array

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker
L L L N
AC Breaker
L L L N
AC Breaker
L L L N

L L L N load

AC Breaker

VCC_V GND

_B
RS Female connector
_A

Note: the arrow direction towards the inverter

black line White line
black line White line
black line White line

CT3 CT2 CT1

L L L N

6* &4$
. 1
&

12345678
N L L L LA NA

GND B A S S S S S S
9 10 11 12 13 14 15 16 17 18 19 20

&BTUSPO

Master(Mst) R S

_B

_A

GND

Grid meter

Grid

GND (as short as possible)
_A (as short as possible)
_B (as short as possible)
GND (as short as possible)
_A (as short as possible)
_B (as short as possible)

Slave(Slv)
R S

Slave(Slv) R S

Pic . Connection diagram(Three-phase electricity )

– –

3 PHASE 4 WIRE

9 10 11 12 13 14 15 16 17 18 19 20

&BTUSPO

6* &4$
. 1
&

1 2 3 4 5 6 7 8

Eastron SDMMCT

P2 P1

P2 P1 S2

S1

P2 P1 S2

S1

S2

S1

L1 L2 L3 N

1 2 3 4 5 6 15 16 17 18 19 20

Grid voltage Auxiliary sampling power supply

Current inputs

RS Pic . Eastron meter

RSA RSB GND

Solar Panel array Solar Panel array Solar Panel array

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker
L L L N
AC Breaker
L L L N
AC Breaker
L L L N

L L L N load

AC Breaker

VCC_V GND

_B
RS Female connector
_A

Note: the arrow direction towards the inverter

black line White line
black line White line
black line White line

CT3 CT2 CT1

L L L N

6* &4$
. 1
&

12345678
N L L L LA NA

GND B A S S S S S S
9 10 11 12 13 14 15 16 17 18 19 20

&BTUSPO

Master(Mst) R S

_B

_A

GND

Generator meter

Generator

GND (as short as possible)
_A (as short as possible)
_B (as short as possible)
GND (as short as possible)
_A (as short as possible)
_B (as short as possible)

Slave(Slv)
R S

Slave(Slv) R S

Pic . Connection diagram(Three-phase electricity )

– –

5ISFF1IBTF4NBSU.FUFS

(,,,)

4&5 &4$

CHNT DTSU

RS Pic . CHNT meter

(,,,)

Solar Panel array Solar Panel array Solar Panel array

Master(Mst)

WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

AC Breaker
L L L N
AC Breaker
L L L N
AC Breaker
L L L N

VCC_V GND

_B

L1 L2 L3 N load

RS Female connector

_A

AC Breaker

Master(Mst) R S

_B

_A

GND

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

_A (as short as possible)
_B (as short as possible)
_A (as short as possible)
_B (as short as possible)

L1 L2 L3 N

Slave(Slv)
R S

Slave(Slv) R S

Grid

Pic . CHNT Connection diagram(The pass-through table)

– –

5ISFF1IBTF4NBSU.FUFS

(,,,)

4&5 &4$

CHNT DTSU

RS Pic . CHNT meter

(,,,)

Solar Panel array Solar Panel array Solar Panel array

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

VCC_V GND

AC Breaker
L L L N
AC Breaker
L L L N
AC Breaker
L L L N

_B

L1 L2 L3 N load

RS Female connector

_A

AC Breaker

_A (as short as possible)
_B (as short as possible)
_A (as short as possible)
_B (as short as possible)

Master(Mst) R S

_B

_A

GND

5ISFF1IBTF4NBSU.FUFS
4&5 &4$

L1 L2 L3 N

Slave(Slv)
R S

Slave(Slv) R S

Generator

Pic . CHNT Connection diagram(The pass-through table)

– –

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

CHNT DTSU x/V

3 6 9 10131416171921
L1 L2 L3

24 25
AB RS485
Phase C current =5.002A
Pic . CHINT meter

Phase A current =5.000A Phase B current =5.001A

Solar Panel array Solar Panel array Solar Panel array

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

VCC_V GND

AC Breaker
L L L N
AC Breaker
L L L N
AC Breaker
L L L N

_B

L1 L2 L3 N load

RS Female connector

_A

AC Breaker

Master(Mst) R S

485_B

485_A

GND

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

L1 L2 L3 N

Black line
White line Black line White line Black line
White line

_A (as short as possible)
_B (as short as possible)
_A (as short as possible)
_B (as short as possible)

L1 L2 L3 N

Slave(Slv)
R S

Slave(Slv) R S

Grid

Pic . CHNT Connection diagram(The pass-through table)

– –

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

CHNT DTSU x/V

3 6 9 10131416171921
L1 L2 L3

24 25
AB RS485
Phase C current =5.002A
Pic . CHINT meter

Phase A current =5.000A Phase B current =5.001A

Solar Panel array Solar Panel array Solar Panel array

Master(Mst)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

Slave(Slv)
WIFI

RS485 Meter

limiter1 limiter2

VCC_V GND

AC Breaker
L L L N
AC Breaker
L L L N
AC Breaker
L L L N

_B

L1 L2 L3 N load

RS Female connector

_A

AC Breaker

Master(Mst) R S

485_B

485_A

GND

7
_”N” )[

5ISFF1IBTF4NBSU.FUFS 4&5 &4$

L1 L2 L3 N

Black line
White line Black line White line Black line
White line

_A (as short as possible)
_B (as short as possible)
_A (as short as possible)
_B (as short as possible)

L1 L2 L3 N

Slave(Slv)
R S

Slave(Slv) R S

Generator

Pic . CHNT Connection diagram(The pass-through table)

– –

. How to browse the load power of your PV grid-tie plant on monitoring platform?
If you want to browse load power of the system and how much energy (KWH) does it export to grid(inverter output power is used to power the load firstly and then the surplus energy will feed into grid). You also need to connect the meter according to above diagram. After the connection completed successfully, the inverter will show the load power on the LCD. But please don’t setup “Meter ON”. Also, you will be able to browse the load power on the monitoring platform. The plant setting method as below description. Firstly, go to the solarman platform(https://pro.solarmanpv.com, this link is for solarman distributor account; or https://home.solarmanpv.com, this link is for solarman end user account;) plant home page and click “edit”

Back to Plants list String inverter Solar Sta…
Dashboard Devices Alerts About Authorizations Layout Work Order Plan Maintenance Record

String inverter Solar Station ID

Partially Offline Edit Tags

No Alerts

Cover

Address Plant Type System Type Phone

YongJiang Road,Beilun,Ning… Residential
Self-consumption

Flow Graph Production Consumption Grid
Production Power . kW 32% Capacity kWp

Consumption Power .kW

Grid Power . kW

Compare

Add

Edit

More

Last update // :: UTC+:

Updated: // ::

/ Sunny m/s :

:

MON

TUE /

WED /

THU /

FRI /

And then choose your system type as “Self-consumption”

Edit Plant

Basic Info System Info

  • Address : YongJiang Road, Beilum,NingBo, , China

Yield Info

  • Coordinates :

Owner Info

Longitude

`

.

” Latitude

`

. ”

Time Zone : (UTC+:) Beijing,Chongqing,Hong Kong,Urumqi

Creation Time : //

System Info Plant Type :
Residential * Capacity(kWp):
30

System Type : Self-consumption
Azimuth( ): ~

Cancel

Done

Collapse

– –

Secondly, go to plant page, if it shows the PV power, load power and grid power, which means the configuration is correct.

Back to Plants list String inverter Solar Sta…
Dashboard Devices Alerts About Authorizations Layout Work Order Plan Maintenance Record

String inverter Solar Station ID

Partially Offline Edit Tags

No Alerts

Cover

Address Plant Type System Type Phone

YongJiang Road,Beilun,Ning… Residential
Self-consumption

Flow Graph Production Consumption Grid
Production Power . kW 32% Capacity kWp

Consumption Power .kW

Grid Power . kW

Compare

Add

Edit

More

Last update // :: UTC+:

Updated: // ::

/ Sunny

m/s

:

:

MON

TUE /

WED /

THU /

FRI /

Flow Graph Production Consumption Grid
Production Power . kW 32% Capacity kWp

Grid Power . kW

Consumption Power .kW

– –

. General Operation

During normal operation, the LCD shows the current status of the inverter, including the

current power, total generation, a bar chart of power operation and inverter ID, etc. Press

the Up key and the Down key to see the current DC voltage, DC current, AC voltage, AC

current, inverter radiator temperature, software version number and Wifi connection state

of the inverter.

E-Day

E-Month

LCD main menu

Statistics

E-Year E-History

Test Data

Start

DC input data AC output data

Fault record

ON/OFF

Turn ON Turn OFF

Interface

Setup

System param

Run param

Protect param

Setup

System param

Comm. param

Time Set Language Set Display Set Factory data reset

English polski Brightness Keep
Delay time S Confirm to reset Cancel

Setting Restore

Confirm to restore Cancel

– –

Setup

Running param

ActiveP Q-Mode ReactP PF Fun- ISO Fun RCD SelfCheck Island Meter Limiter Feed- in MPPT Num ARC OF-Derate UF-Uprate PU WGRa WGraStr VRef PowerLim VoltageRT DRM Sunspec OK Cancel

P-P

QP

Q-Q

Back
PFP start

Cut-In Cut-Out P-P PF-PF

QU

stop

Time

RmpTime

PtUsed PF
Curve

PER

OFF

AVG

Exp_Mode

MIN

CT_Ratio MFR FeedIn Shunt

AUTO ACREL
EASTRON
CHNT

ShuntQTY

Generator

G.CT

AUTO

G.MFR

ACREL

G.FeedIn EASTRON

G.Cap

CHNT

OFF SLV MST

CLR ON OFF
ON OFF

HYS ON OFF

V-V P-P

HardLim P_H SoftLim P_S
HVRT LVRT Vstart Vstop

– –

Protect Param

GridStanderd Advanced Back

Setup

INMETRO

EN

EN

IEC

CUSTOM

VDE_

UTE_C

RD

CEI__

G_G

AS(.)

NB/T

MEA

PEA OV-OV

.V

Tov-Tov UV-UV Tuv-Tuv OF-OF

ms .V ms .HZ

Tof-Tof UF-UF Tuf-Tuf Vrc_H

ms .HZ ms

Vrc_L Frc_H

Frc_L

VGrid /V

OVMin

Uov

Comm. param

Address: Meter:Unkonw BaudRate:

– –

. The initial interface
From the initial interface, you can check power, daily generation, gross generation, invertert ID , model and time.

.Kw
Power: Day : Total : State : Standby

SN-

P – Kw .Kw

kWh

MWh

::

ID: PF:.

Flash

Pic . The initial interface
Press UP or Down you can check inverter DC voltage, DC current, AC voltage, AC current, inverter temperature, software version information.

RUN

Input

PV V : .V I : .A P : .KW PV V : .V I : .A P : .KW

Pic . PV input and DC current information You can check the PV information, the number of strings input, MPPT voltage and MPPT current.

– –

RUN Ua : .V

Grid Ia : .A

Grid Freq : .Hz PF : .

Pic . AC running state information You can check the three phase voltage, current, and grid frequency.
RUN

Total DC Power: .W

Lcd Inv

Pic . Inverter firmware version

You can check the inverter LCD software Ver and Control Software Version Ver. There are two black spot in the bottom right corner. The first flash means inverter is communicating with LCD. The second flash means LCD is communicating with wifi plug.

1″3″.&53.FUFS

4/

Meter Power:

W

Load Power:

W

Day

Total

ImpEp : .kWh

.kWh

ExpEp : .kWh

.kWh

LoadEp : .kWh

.kWh

Pic . Meter power and load power – –

.. Main Menu There are four submenu in the Main Menu.

MENU

Statistics u
Fault Record ON/OFF Setup

Pic . Main Menu

. Statistics information There are five submenu in the statistics.

MENUStatistics E-Day E-Month E-Year

E-History Test Data

Into each submenu through cursor.

Pic . Statistics

– –

MENUStatisticsE-Day <–>
MWh
Pic . E-Day
MENUStatisticsE-Month – – <>
MWh
Pic . E-Month
MENUStatisticsE-Year <>
KWh
Pic . E-Year
– –

MENUStatisticsE-History <->
KWh

Pic . E-History This information is for technician’s reference.

PV :
PV :
HV : GFD DiL AVL k : : :

k :
k : k :
k : vHV
BSn : ofA : ofB : : :

ofC :
: : : : : : :

Pic . Test Data
. Fault Record
Only can keep four fault record in the menu include time, customer can deal with it depends on the error code.

MENUFault Record

Fault :

F– :

History : F– : F– :

F– :

F– :

Pic . Fault Record – –

. ON/OFF setting MENUON/OFF
Turn ON Turn OFF

Pic . ON/OFF setting Into each submenu through cursor.
MENUON/OFFTurn ON

Turn ON

OK

Cancel

Pic . ON set
MENUON/OFFTurn OFF

Turn OFF

OK

Cancel

Pic . OFF set – –

. Parameter setting Setting includes system param, run param, protect param, comm.. param. All of these information for maintenance reference.
MENUSetup
System Param Run Param Protect Param Comm. Param

.. System Param

Pic . Setting

MENUSetup System Param

Time Set Language Set

Display Set Factory data reset Setting Restore

Pic .. System Param Setting

– –

… Time Set Time Set
— ::

OK

Cancel

… Language Set

Pic . System Param

Lauguage Set

English

Polski

… Display Set

Pic . Lauguage set

Display Set

Brightness Keep Delay time S

OK

Cancel

Pic . Display set – –

… Factory data reset Factory data reset Confirm to reset Cancel

… Setting Restore

Pic . Factory data reset set

Setting Restore

Confirm to restore

Cancel

Pic . Factory data reset set
Warning: Password required– only for access-authorized engineer. Un-authorized access may avoid the warranty. The initial password is .

– –

.. Run Param

PassWord


Pic . Password

MENUSetupRun Param

ActiveP % QMode OFF

ReactP .%

PF

.

Fun_ISO OFF Fun_RCD OFF

OK

SelfCheck S

Island

OFF

Meter

ON

Limiter

OFF

Feed_In % MPPT Num

Cancel

– –

Name
“DUJWF1 2.PEF 3FBDU1 1′ ‘VO@40 ‘VO@3$% 4FMGDIFDL TMBOE
.FUFS

Description
“EKVTUUIFPVUQVUBDUJWFQPXFSJO .VMUJQMFSFBDUJWFQPXFSDPOUSPMNPEFT “EKVTUSFBDUJWFQPXFSPVUQVUJO 1PXFS’BUPS OTVMBUJPOSFTJTUBODFEFUFDUJPO 3FTJEVBMDVSSFOUEFUFDUJPO OWFSUFSTTFMGDIFDLUJNF5IFEFGBVMUWBMVFT “OUJJTMBOEJOHQSPUFDUJPO &OFSHZNFUFS*GJOWFSUFSXJMMDPOOFDUNFUFS
UIFO TFUIFSFUP0/

Range
0”2 1
1’ 1
2 6
1’1&3 _
0/0” 0/0”
T
0/0”
0/0”

‘FFE@*/

*UJTVTFEUPEFQMPZIPXNVDIQPXFSDBOCF GFFEJOUPHSJEXIFOUIFJOWFSUFSXPSLTVOEFS [FSPFYQPSUNPEF ‘PSFYBNQMF
‘FFE@JOPG UIF,8NPEFMBOEMPBEQPXFSJT,8XIJDI NFBOT.BY,8QPXFSDBOCFGFFEJOUPHSJE BGUFSJOWFSUFSQSPWJEJOH,XUPUIFMPBEGJSTUMZ

Warning: Engineer Only. We will set the param depends on the safety requirements, so customers don’t need to reset it. The password is same as . Running param

– –

MENUSetupRun Param

ARC
OFDerate UFUprate PU WGra WGraStr

OFF
OFF OFF OFF .% .%

Vref

.V

PowerLimit

VoltageRT

DRM

OFF

Sunspec OFF

OK

Cancel

Name

Description

Range

“3$

“SDGBVMUEFUFDUJPOGVODUJPO

0’%FSBUF 6’6QSBUF 16 8(SB 8(SB4US 7SFG 1PXFS-JNJU

“DUJWFQPXFSSFTQPOTFUPPWFSGSFRVFODZ “DUJWFQPXFSSFTQPOTFUPVOEFSGSFRVFODZ
QPXFSSFTQPOTFUPHSJEWPMUBHFEFWJBUJPO “DUJWFQPXFSSBNQSBUF 1OPN4FD
“DUJWFQPXFSSBNQSBUFBUGJSTUTUBSU 1OPN4FD
(SJESFGFSFODFWPMUBHFGPSGVODUJPOTJODMVEJOH 2 6

1’ 1

1 6
FUD )BSETPGUFYQPSUMJNJUDPOUSPM

7PMUBHF35

WPMUBHFSJEFUISPVHIGVODUJPO

%3.

%FNBOE3FTQPOTF.PEFT

4VOTQFD

4VOTQFD’VODUJPO

Pic . Run Param

0/0”$MFBS 1NBY)[ 1NBY)[ 0/0” _ 7 0/0” 0/0” 0/0” 0/0”

– –

MENUSetupRun Param

ARC
OFDerate UFUprate PU WGra Sunspec

OFF
OFF OFF ON .% OFF

Vref

.V

PowerLimit

VoltageRT

DRM

OFF

Sunspec

OFF

OK

Cancel

Voltage Ride Through

HVRT
Vstart Vstop

OFF LVRT
.% Vstart .% Vstop
ZVRT

OFF
.% .% OFF

OK

Cancel

Pic . Voltage Ride Through

– –

… Over-frequency Response
This series inverter provides “over-frequency response” function. Long pressing the “OFD Derate” to enter the “over-frequency response” setting menu.

MENUSetupRun Param

ARC

OFF

OFDerate ON UFUprate OFF

PU WGra

OFF .%

Sunspec OFF

OK

Vref

.V

PowerLimit

VoltageRT

DRM

OFF

Sunspec OFF

Cancel

Definition of Over-frequency Response Parameters

Parameter
StartPoint StopPoint RecoverPoint
RecoverGradient

Range
45HZ-65HZ 45HZ-65HZ 45HZ-65HZ
0.3%¬300% P/min

Description
The Start frequency value for over-frequency response.
The Stop frequency value for over-frequency response. In hysteresis mode, power is restored only when it is below this frequency
Ramp rate of power recovery

RecoverDelay ResponseDelay

0-1000s 0-2000S

Time Delay of power recovery in hysteresis mode
Response delay time after entering active power frequency mode

For example, StartPoint: .Hz, StopPoint: .Hz, RecoverPoint: .Hz, when the grid frequency increases beyond StartPoint: .Hz, the inverter will linearly reduce the power output with a gradient of % Pmax/Hz until it reaches StopPoint: .Hz.

OverFrequenceDerate

StartPoint StopPoint RecoverPoint RecoverGradient
RecoverDelay ResponseDelay
Back

.Hz .Hz .Hz .%
S .S

Rated Output Power(kW)

RecoverPoint

StartPoint

Hysteresis mode

StopPoint

. . . . . . . . . . . . . . . . . . . . . Grid Frequency(Hz)

Frq-Watt Mode for Over-frequency Conditions

– –

When the frequency exceeds StopPoint: .Hz, the inverter output should stop (ie W). When the frequency is lower than StopPoint: . Hz, the inverter will linearly increase the power output with a gradient of % Pmax/Hz until it reaches StopPoint: . Hz. In the hysteresis mode, when the frequency is lower than StopPoint: . Hz, the inverter will not increase the power output until it is lower than RecoverPoint: . Hz.

MENUSetupRun Param

ActiveP % QMode QU

ReactP PF

.% .

Fun_ISO ON Fun_RCD ON

OK

SelfCheck S

Island

OFF

Meter

ON

Limiter

OFF

Feed_In % MPPT Num

Cancel

The inverter provides a reactive power regulation function. Tap Reactive Power Regulation Mode to select proper regulation mode and set the corresponding parameters.
“OFF” Mode The reactive power regulation function is disabled. The PF is fixed at +.
ReactiveP Adjust reactive power output in %.
“PF” Mode
The power factor (PF) is fixed and the reactive power is regulated by the parameter PF. The PF ranges from . leading to . lagging.
·Leading: the inverter is sourcing reactive power to the grid. ·Lagging: the inverter is injecting reactive power into the grid. “Q(U)” Mode
The reactive power output of the inverter varies in response to the grid voltage.
“Q(P)” Mode
The reactive power output by the inverter is controlled by the active power of the inverter.

– –

“Q(U)” Mode

QU Setting

Start

.%

RmpTime s

Curve UrfTime

Stop PtUsed Uref

.% OFF

Back

QU Setting

V

.%

V

.%

V

.%

V

.%

V

.%

V

.%

Back

Q

-.%

Q

.%

Q

.%

Q

.%

Q

.%

Q

.%

Upper Q/Pn lnd

(U,Q)

(U,Q)

(U,Q)

(U,Q)

Grid Voltage

(U,Q)

Lower Q/Pn Cap

(U,Q)

Pic . Reactive Power Regulation Curve in Q(U) Curve

– –

Parameter
Start Stop RMpTime PtUsed Curve Q1 V1 Q2 V2 Q3 V3 Q4 V4 Q5 V5 Q6
V6

Range
0%-130% Rate out power 0%-130% Rate out power 0-1000s 2-6

Description
The QU mode starts when the active power is greater than this value
The QU mode stops when the active power is less than this value Increase or decrease the time required for the reactive power to reach the specified value of the curve.
Point number used in QU Curve

-60% -60% Q/Pn 0-110% VRated -60% -60% Q/Pn 0-110% VRated -60% -60% Q/Pn 0-110% VRated -60% -60% Q/Pn 0-110% VRated -60% -60% Q/Pn 0-110% VRated -60% -60% Q/Pn
0-110% VRated

QU Curve
Value of Q/Pn at point (U1,Q1) on the Q(U) mode curve
Grid voltage limit at point (U1,Q1) on the Q(U) mode curve
Value of Q/Pn at point (U2,Q2) on the Q(U) mode curve
Grid voltage limit at point (U2,Q2) on the Q(U) mode curve
Value of Q/Pn at point (U3,Q3) on the Q(U) mode curve Grid voltage limit at point (U3,Q3) on the Q(U) mode curve
Value of Q/Pn at point (U4,Q4) on the Q(U) mode curve
Grid voltage limit at point (U4,Q4) on the Q(U) mode curve
Value of Q/Pn at point (U5,Q5) on the Q(U) mode curve
Grid voltage limit at point (U5,Q5) on the Q(U) mode curve
Value of Q/Pn at point (U6,Q6) on the Q(U) mode curve
Grid voltage limit at point (U6,Q6) on the Q(U) mode curve

“Q(U)” Mode Parameters Explanation

– –

“Q(P)” Mode

The reactive power output by the inverter is controlled by the active power of the inverter.

Upper Q/Pn lnd

(P,Q)

P(P,Q)

P(P,Q)

P(P,Q)

P/Pn

P(P,Q)

Lower
Q/Pn Cap

P(P,Q)

Pic . Reactive Power Regulation Curve in Q(P) Mode

MENUSetupRun Param

ActiveP % QMode QP

ReactP PF

.% .

Fun_ISO ON Fun_RCD ON

OK

SelfCheck S

Island

OFF

Meter

ON

Limiter

OFF

Feed_In % MPPT Num

Cancel

QP Setting

P

.%

P

.%

P

.%

P

.%

P

.%

P

.%

Back

Q

-.%

Q

.%

Q

.%

Q

.%

Q

.%

Q

.%

– –

Parameter
P1 Q1 P2 Q2 P3 Q3 P4 Q4 P5 Q5 P6 Q6

Range
0%-100% Pn -60% -60% Q/Pn 0%-100% Pn -60% -60% Q/Pn 0%-100% Pn -60% -60% Q/Pn 0%-100% Pn -60% -60% Q/Pn 0%-100% Pn -60% -60% Q/Pn 0%-100% Pn -60% -60% Q/Pn

Descrption
Value of Q/Pn at point (P1,Q1) on the Q(P) mode curve
Reactive power value at point (P1,Q1) on the Q(P) mode curve
Value of Q/Pn at point (P2,Q2) on the Q(P) mode curve Reactive power value at point (P2,Q2) on the Q(P) mode curve
Value of Q/Pn at point (P3,Q3) on the Q(P) mode curve
Reactive power value at point (P3,Q3) on the Q(P) mode curve
Value of Q/Pn at point (P4,Q4) on the Q(P) mode curve
Reactive power value at point (P4,Q4) on the Q(P) mode curve
Value of Q/Pn at point (P5,Q5) on the Q(P) mode curve
Reactive power value at point (P5,Q5) on the Q(P) mode curve
Value of Q/Pn at point (P6,Q6) on the Q(P) mode curve
Reactive power value at point (P6,Q6) on the Q(P) mode curve

“Q(P)” Mode Parameters Explanation
“PU” Mode
The active power output of the inverter varies in response to the grid voltage

MENUSetupRun Param

ARC
OFDerate UFUprate PU WGra Sunspec

OFF
OFF OFF ON .% OFF

Vref

.V

PowerLimit VoltageRT

DRM

OFF

Sunspec

OFF

OK

Cancel

– –

PU Setting

U

.%

P

U

.%

P

U

.%

P

U

.%

P

RmpTime S

Back

.% .% .% .%

U/Vref

(U,P)

(U,P) (U,P) (U,P)

P/Pn

Pic . Active Power Regulation Curve in PU Curve

Parameter
P1 U1 P2 U2 P3 U3 P4 U4

Range
0%-110% Pn 0% -150% Vref 0%-110% Pn 0% -150% Vref 0%-110% Pn 0% -150% Vref 0%-110% Pn 0% -150% Vref

Description
Value of P/Pn at point (P1,U1) on the PU mode curve
Grid voltage limit at point (P1,U1) on the PU mode curve
Value of P/Pn at point (P2,U2) on the PU mode curve Grid voltage limit at point (P2,U2) on the PU mode curve
Value of P/Pn at point (P3,U3) on the PU mode curve
Grid voltage limit at point (P3,U3) on the PU mode curve
Value of P/Pn at point (P4,U4) on the PU mode curve
Grid voltage limit at point (P4,U4) on the PU mode curve

“PU” Mode Parameters Explanation

– –

“PF(P)” Mode

PFP Setting

Cut_in

.%

P

.%

P

.%

P

.%

P

.%

P

.%

Back

PFP Setting

P Time

.% s

Cut_out PF PF PF PF PF

.% -. -. -. -. -.

PF

-.

Back

PF lagging

P(P,PF)

P(P,PF)

P(P,PF)

P(P,PF)

P(P,PF)

P/Pn

PF leading

P(P,PF)

Pic . Power factor Regulation Curve in PF(P) Mode

– –

Parameter P1 PF1 P2 PF2 P3 PF3 P4 PF4 P5 PF5 P6 PF6
RMpTime

Range 0-110% Pn 0.8 leading – 0.8 lagging 0-110% Pn 0.8 leading – 0.8 lagging 0-110% Pn 0.8 leading – 0.8 lagging 0-110% Pn 0.8 leading – 0.8 lagging 0-110% Pn 0.8 leading – 0.8 lagging 0-110% Pn 0.8 leading – 0.8 lagging
0-1000s

Description
Power value at point (PF1,P1) on the PF(P) Curve
PF value at point (PF1,P1) on the PF(P) Curve
Power value at point (PF2,P2) on the PF(P) Curve
PF value at point (P2,PF2) on the PF(P) Curve
Power value at point (P3,PF3) on the PF(P) Curve
PF value at point (P3,PF3) on the PF(P) Curve
Power value at point (P4,PF4) on the PF(P) Curve
PF value at point (P4,PF4) on the PF(P) Curve
Power value at point (P5,PF5) on the PF(P) Curve
PF value at point (P5,PF5) on the PF(P) Curve
Power value at point (P6,PF6) on the PF(P) Curve
PF value at point (P6,PF6) on the PF(P) Curve
The time of the PFF Curve in seconds (time to accomplish a change of 95%).

“PF(P)” Mode Parameters Explanation

– –

.. Protect Param
MENUSetupProtect Param GridStandard Advanced

OK

Cancel

Warning: Engineer only.

Pic . Protect Param

Standard
Brazil EN–PL EN- IEC Custom VDE
OK

Cancel

Standard

VDE

Spain

CEI

G

G

NBT-B

OK

Cancel

– –

Standard Australia-A Australia-B Australia-C New Zealand MEA PEA OK
Standard Norway Switerland R CEI-

Cancel

OK

Cancel

Pic . “Standard”

– VoltageTriping

OV OV OV_

.V .V .V

UV UV UV_

.V .V .V

OK

Tov Tov Tov Tuv Tuv Tuv
Cancel

ms ms ms ms ms ms

– –

– FrequencyTriping

OF OF OF_

.Hz .Hz .Hz

UF UF UF_

.Hz .Hz .Hz

OK

Tof Tof Tof Tuf Tuf Tuf
Cancel

ms ms ms ms ms ms

– Miscellaneous

Vrc_H Vrc_L Frc_H

.V .V .Hz

Frc_L .Hz VGrid /V OVMin OFF

OK

Uov

.%

Cancel

Pic . “Advanced”

.. Comm. Param

MENUSetupComm.Param

WIFI-SET

-SET

Address : Address :

Func :

Baud :

Pic . Communication param

– –

. Repair and Maintenance
String type inverter doesn’t need regular maintenance. However, debris or dust will affect heat sink’s thermal performance. It is better to clean it with a soft brush. If the surface is too dirty and affect the reading of LCD and LED lamp, you can use wet cloth to clean it up.
High Temperature Hazard: When the device is running, the local temperature is too high and the touch can cause burns. Turn off the inverter and wait for it cooling, then you can clean and maintain. Safety Hint: No solvent, abrasive materials or corrosive materials can be used for cleaning any parts of the inverter.
.Error information and processing
Inverter has been designed in accordance with international grid tied standards for safety, and electromagnetic compatibility requirements. Before delivering to the customer the inverter has been subjected to several tests to ensure its optimal operation and reliability.
. Error code
If there is any failure,the LCD screen will display an alarm message. In this case, the inverter may stop feeding energy into the grid. The alarm description and their corresponding alarm messages are listed Table ..
– –

Error code

Description

Ongrid – Three Phase

F

%$JOQVUQPMBSJUZSFWFSTFGBVMU

$IFDLUIF17JOQVUQPMBSJUZ

F

%$JOTVMBUJPOJNQFEBODF QFSNBOFOUGBVMU

$IFDLUIFHSPVOEJOHDBCMFPGJOWFSUFS

F

%$MFBLBHFDVSSFOUGBVMU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

(SPVOEGBVMU(‘%*

$IFDLUIFTPMBSQBOFMPVUQVUDPOOFDUJPO

F

3FBEUIFNFNPSZFSSPS

F

8SJUFUIFNFNPSZFSSPS

‘BJMVSFJOSFBEJOHNFNPSZ &&130.
3FTUBSUUIFJOWFSUFSJGUIF GBVMUTUJMMFYJTUT
DPOUBDUZPVSJOTUBMMFSPS%FZFTFSWJDF ‘BJMVSFJOXSJUJOHNFNPSZ &&130.
3FTUBSUUIFJOWFSUFSJGUIF GBVMUTUJMMFYJTUT
DPOUBDUZPVSJOTUBMMFSPS%FZFTFSWJDF

F

(‘%*CMPXOGVTF

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

(‘%*HSPVOEJOHUPVDIGBJMVSF

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F09

IGBT damaged by excessive drop voltage

Hardly appear the code. Never ever happened so far.

F

“VYJMJBSZTXJUDIQPXFSTVQQMZ GBJMVSF

*UUFMMTUIF%$7JTOPUFYJTUFE 3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
QMFBTFDPOUBDU ZPVSJOTUBMMFS

F

“$NBJODPOUBDUPSFSSPST

F

“$BVYJMJBSZDPOUBDUPSFSSPST

F

SFTFSWFE

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS -PTTPGPOFQIBTFPS”$WPMUBHFEFUFDUJPOQBSUGBJMVSFPS SFMBZTOPUDMPTFE 3FTUBSUUIFJOWFSUFS
JGUIFFSSPSTUJMMFYJTUT
QMFBTFDPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF

F

%$GJSNXBSFPWFSDVSSFOU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

“$GJSNXBSFPWFSDVSSFOU

5IFJOUFSOBM”$TFOTPSPSEFUFDUJPODJSDVJUPODPOUSPMCPBSE PSDPOOFDUJPOXJSFNBZMPPTF 3FTUBSUUIFJOWFSUFS
JGUIFFSSPSTUJMMFYJTUT
QMFBTFDPOUBDU ZPVSJOTUBMMFSPS%FZFTFSWJDF

5IJTGBVMUNFBOTUIFBWFSBHFMFBLBHFDVSSFOUJTPWFSN”

$IFDLXIFUIFS%$QPXFSTVQQMZPSTPMBSQBOFMTJTPL
UIFO

F

(‘$* 3$%
“DMFBLBHFDVSSFOU GBVMU

DIFDL5FTUEBUBEJ-WBMVFJTBCPVU5IFODIFDLUIF MFBLBHFDVSSFOUTFOTPSPSDJSDVJU UIFGPMMPXJOHQJDUVSF
$IFDLJOHUFTUEBUBOFFETVTJOHCJH-$%

3FTUBSUUIFJOWFSUFS
JGUIFFSSPSTUJMMFYJTUT
QMFBTFDPOUBDUZPVS

JOTUBMMFSPS%FZFTFSWJDF

F

5ISFFQIBTFDVSSFOU
PWFSDVSSFOUGBVMU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

$IFDL”$TFOTPSPSEFUFDUJPODJSDVJUPODPOUSPMCPBSEPS

F

“$PWFSDVSSFOUGBVMUPGIBSEXBSF

DPOOFDUJPOXJSF 3FTUBSUUIFJOWFSUFSPSGBDUPSZSFTFU
JGUIFFSSPSTUJMMFYJTUT

QMFBTFDPOUBDUZPVSJOTUBMMFSPS%FZFTFSWJDF

F

“MMIBSEXBSFGBJMVSFTZOUIFTJT

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

%$PWFSDVSSFOUGBVMUPGUIF IBSEXBSF

$IFDLXIFUIFSTPMBSQBOFMPVUQVUDVSSFOUJTXJUIJOUIF BMMPXFESBOHF $IFDL%$DVSSFOUTFOTPSBOEJUTEFUFDUJPODJSDVJU $IFDLJGUIFJOWFSUFS’8WFSTJPOJTTVJUBCMFGPSUIFIBSEXBSF 3FTUBSUUIFJOWFSUFS
JGUIFFSSPSTUJMMFYJTUT
QMFBTFDPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF

– –

Error code

Description

Ongrid – Three Phase

F

%$MFBLBHFGMPXGBVMU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

$SBTITUPQ JGUIFSFJTBTUPQ CVUUPO

$POUBDUZPVSJOTUBMMFSGPSIFMQ

5IJTGBVMUNFBOTUIFMFBLBHFDVSSFOUJTBCPWFN”TVEEFOMZ

$IFDLXIFUIFS%$QPXFSTVQQMZPSTPMBSQBOFMTJTPL
UIFO

F

“$MFBLBHFDVSSFOUJTUSBOTJFOU PWFSDVSSFOU

DIFDL5FTUEBUBEJ-WBMVFJTBCPVU5IFODIFDLUIF MFBLBHFDVSSFOUTFOTPSPSDJSDVJU$IFDLUFTUEBUBOFFET VTJOHCJH-$%

3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVSJOTUBMMFS

PS%FZFTFSWJDF

$IFDL7QFSFTJTUBODFPONBJOCPBSEPSEFUFDUJPOPODPOUSPM

CPBSE$IFDL17QBOFMTJT0,.BOZUJNFTUIJTJTTVFJTUIF17

QSPCMFN

$IFDLXIFUIFSUIF17QBOFM BMVNJOVNGSBNF
JTHSPVOEFE

F

%$JOTVMBUJPOJNQFEBODFGBJMVSF

XFMMBOEJOWFSUFSJTHSPVOEFEXFMM0QFOUIFDPWFSPGJOWFSUFS BOEUIFODIFDLUIFJOTJEFHSPVOEDBCMFJTGJYFEXFMMPOUIFTIFMM

$IFDLJGUIF”$%$DBCMF
UFSNJOBMCMPDLBSFTIPSUFEUPHSPVOE

PSUIFJOTVMBUJPOJTEBNBHFE

3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVSJOTUBMMFS

PS%FZFTFSWJDF

F

%$GFFECBDLGBVMU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

$IFDLXIFUIFSUIF#64/DBCMFPSESJWFSCPBSEQPXFSTVQQMZ

F

5IF%$CVTCBSJTVOCBMBODFE

DBCMFJTMPPTF 3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS

JOTUBMMFSPS%FZFTFSWJDF

F

%$FOEJOTVMBUJPOFSSPS

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

*OWFSUFS%$IJHIGBVMU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

“$MPBETXJUDIGBJMVSF

F

“$NBJODPOUBDUPSGBJMVSF

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS $IFDLSFMBZTBOE”$WPMUBHFPGSFMBZT $IFDLSFMBZTESJWFSDJSDVJU$IFDLJGUIFTPGUXBSFJTOPUTVJUBCMF GPSUIJTJOWFSUFS 0MEJOWFSUFSOPUIBWFSFMBZTEFUFDUJPO GVODUJPO
3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF

F

3FMBZPQFODJSDVJUGBVMU

“UMFBTUPOF3FMBZDBOUCFDMPTFE$IFDLSFMBZTBOEJUTESJWFS TJHOBM 0MEJOWFSUFSOPUIBWFSFMBZTEFUFDUJPOGVODUJPO
3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF

F

*OWFSUFSEDIJHIGBVMU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

“$PWFSDVSSFOU

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

“$DVSSFOUPWFSMPBE

F

/P”$HSJE

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS $IFDL”$HSJEWPMUBHF$IFDL”$WPMUBHFEFUFDUJPODJSDVJU $IFDLJGUIF”$DPOOFDUPSJOHPPEDPOEJUJPO$IFDLXIFUIFS UIF”$HSJEJTOPSNBMJOWPMUBHF 3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF

F

“$HSJEQIBTFFSSPS

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

“$UISFFQIBTFWPMUBHFVOCBMBODF GBJMVSF

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

F

“$UISFFQIBTFDVSSFOUVOCBMBODF GBJMVSF

)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

– –

Error code

Description

F

“$PWFSDVSSFOU POFDZDMF

F

%$PWFSDVSSFOU

F

“$-JOF8
6PWFSWPMUBHF

F

“$-JOF8
6MPXWPMUBHF

F

“$-JOF7
8PWFSWPMUBHF

F

“$-JOF7
8MPXWPMUBHF

F

“$-JOF6
7PWFSWPMUBHF

F

“$-JOF6
7MPXWPMUBHF

F

“$0WFSGSFRVFODZ

F

“$MPXFSGSFRVFODZ

F

6QIBTFHSJEDVSSFOU%$ DPNQPOFOUPWFSDVSSFOU

F

7QIBTFHSJEDVSSFOU%$ DPNQPOFOUPWFSDVSSFOU

F

8QIBTFHSJEDVSSFOU%$ DPNQPOFOUPWFSDVSSFOU

F

“$JOEVDUPS”
QIBTFDVSSFOU %$DVSSFOUIJHI

F

“$JOEVDUPS#
QIBTFDVSSFOU %$DVSSFOUIJHI

F

“$JOEVDUPS$
QIBTFDVSSFOU %$DVSSFOUIJHI

F

%$CVTCBSWPMUBHFJTUPPIJHI

F

%$CVTCBSWPMUBHFJTUPPMPX

F

“$SFWFSTFJSSJHBUJPO

F

“$HSJE6PWFSDVSSFOU

Ongrid – Three Phase
$IFDL”$DVSSFOUTFOTPSBOEJUTDJSDVJU 3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS $IFDLUIF”$WPMUBHFQSPUFDUJPOTFUUJOH”OE$IFDLJGUIF”$ DBCMFJTUPPUIJO$IFDLUIFWPMUBHFEJGGFSFODFCFUXFFO-$%BOE NFUFS $IFDLUIF”$WPMUBHFQSPUFDUJPOTFUUJOH$IFDLUIFWPMUBHF EJGGFSFODFCFUXFFO-$%BOENFUFS”MTPOFFEUPDIFDLXIFUIFS “$DBCMFTBSFBMMGJSNMZBOEDPSSFDUMZDPOOFDUFE $IFDLUIF”$WPMUBHFQSPUFDUJPOTFUUJOH”OE$IFDLJGUIF”$ DBCMFJTUPPUIJO$IFDLUIFWPMUBHFEJGGFSFODFCFUXFFO-$%BOE NFUFS $IFDLUIF”$WPMUBHFQSPUFDUJPOTFUUJOH$IFDLUIFWPMUBHF EJGGFSFODFCFUXFFO-$%BOENFUFS”MTPOFFEUPDIFDLXIFUIFS “$DBCMFTBSFBMMGJSNMZBOEDPSSFDUMZDPOOFDUFE $IFDLUIF”$WPMUBHFQSPUFDUJPOTFUUJOH”OE$IFDLJGUIF”$ DBCMFJTUPPUIJO$IFDLUIFWPMUBHFEJGGFSFODFCFUXFFO-$%BOE NFUFS $IFDLUIF”$WPMUBHFQSPUFDUJPOTFUUJOH $IFDLUIFGSFRVFODZQSPUFDUJPOTFUUJOH $IFDLUIFGSFRVFODZQSPUFDUJPOTFUUJOH )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS $IFDL17WPMUBHFBOE6CVTWPMUBHFBOEJUTEFUFDUJPODJSDVJU GUIF17JOQVUWPMUBHFFYDFFETUIFMJNJU
QMFBTFSFEVDFUIF OVNCFSPGTPMBSQBOFMTJOTFSJFT ‘PS6CVTWPMUBHF
QMFBTFDIFDLUIF-$%EJTQMBZ
UUFMMTUIF17JOQVUWPMUBHFJTMPXBOEJUBMXBZTIBQQFOTJOUIF FBSMZNPSOJOH $IFDL17WPMUBHFBOE6CVTWPMUBHF8IFOJOWFSUFSJTSVOOJOH
UIFOTIPXJOH’
NBZCF-PTTPGESJWFSPSOFFEVQEBUF GJSNXBSF 3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS JOTUBMMFSPS%FZFTFSWJDF “$SFWFSTFJSSJHBUJPO )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS

– –

Error code

Description

F

“$HSJE7PWFSDVSSFOU

F

“$HSJE8PWFSDVSSFOU

F

3FBDUPS”QIBTFPWFSDVSSFOU

F

3FBDUPS#QIBTFPWFSDVSSFOU

F

“3$GBVMU

Ongrid – Three Phase
)BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS )BSEMZBQQFBSUIFDPEF/FWFSFWFSIBQQFOFETPGBS $IFDL17NPEVMFDBCMFDPOOFDUJPOBOEDMFBSUIFGBVMU 4FFLIFMQGSPNVT
JGDBOOPUHPCBDLUPOPSNBMTUBUF

$IFDLUFNQFSBUVSFTFOTPS$IFDLJGGJSNXBSFJTTVJUBCMFGPS

F

*(#5IFBUTJOLIJHIUFNQFSBUVSF

UIFIBSEXBSF$IFDLJGUIFJOWFSUFSJTJUTSJHIUNPEFM 3FTUBSUUIFJOWFSUFS
JGUIFGBVMUTUJMMFYJTUT
DPOUBDUZPVS

JOTUBMMFS

Table. Error codes and their solutions

Safety Hint: If your string inverter has any of the fault information shown in Table -, and when you reset the machine and still don’t solve the problem, please contact our distributor and provide the below details:

. Serial number of the inverter; . The distributor/dealer of the inverter(if available); . Installation date; . The discription of problem(include LCD’error code and LED starus indicator lights); . Your contact details.

– –

.Specification

Model

SUN-K-G-LV SUN-K-G-LV SUN-K-G-LV SUN-K-G-LV

Input Side

Max.DC Power(kW)

.kW

kW

.kW

kW

Max.DC Input Voltage(V)

V

Start-up DC Input Voltage(V)

V

MPPT Operating Range(V) Rated DC input voltage(V) MPPT Full Power Voltage Range(V) Max.DC Input Current(A)

V-V

V-V

V

V-V

V-V

A+A+A+A

V-V

Max. Short Circuit Current (A)

A+A+A+A

Number of MPPT/Strings per MPPT /+++

/+++

/+++

/+++

MAX inverter backfeed current (A)

Output Side

Rated Output Power(kW)

kW

kW

kW

kW

Max.Active Power(kW)

kW

kW

kW

kW

Rated AC Grid Voltage(V)

L/N/PE /V, /V, V/V

AC Grid Voltage Range(V)

.Un-.Un (this may vary with grid standards)

Rated Grid Frequency(Hz)

/ (Optional)

Operating Phase

Three phase

Rated AC Grid Output Current(A) ././. .//. ././. ././.

Max.AC Output Current(A)
Maximum output fault current (a.c. A, peak ) Maximum output overcurrent protection (a.c. A,peak)
Output Power Factor

././. .//. ././. ././.

.A

.A

.A

.A

.A

.A

.A

.A

. leading to . lagging

Grid Current THD DC Injection Current Grid Frequency Range Efficiency

<% <.% – or – (Optional)

Max.Efficiency Euro Efficiency

.%

.% .%

MPPT Efficiency General Data

%

Cabinet Size(WHD) [mm]

×× (Excluding connectors and brackets)

Weight(kg)

Topology

Transformerless

Internal consumption Operating temperature

<W (Night) – to +,> derating

Ingress protection

IP

Noise Emission(Typical) Type Of Cooling

dB

dB Smart cooling

Permissible Altitude (m)

m

Warranty [year]

Standard years, extended warranty

Grid Connection Standard

NBR ,NBR EN ,RD

Operation surrounding humidity Safety EMC / Standard

-% IEC/EN –///, IEC/EN -, IEC/EN –

– –

General Data Display Interface Protective Class Over Voltage Category Inverter Topology
Pollution degree

LCD × RS/RS/Wifi/LAN
Class I III (AC), II (DC) Non-is olated PD(Inside), PD(Outside)

12. EU Declaraon of Conformity
within the scope of the EU directives · Electromagnetic compatibility //EU (EMC) · Low Voltage Directive //EU (LVD) · Restriction of the use of certain hazardous substances //EU(RoHS)

NINGBO DEYE INVERTER TECHNOLOGY CO.,LTD. confirms herewith that the products described in this document are in compliance with the fundamental requirements and other relevant provisions of the above mentioned directives. The entire EU Declaration of Conformity and certificate can be found at https://www.deyeinverter.com/download/#string-inverter.

– –

231014004 www.deyeinverter.com
EU Declaration of Conformity

Product: Grid-connected PV Inverter Models: SUN-60K-G;SUN-70K-G;SUN-75K-G;SUN- 80K-G;SUN-33K-G-LV;SUN-35K-G-LV;
SUN-40K-G-LV;SUN-45K-G-LV;SUN-50K-G-LV; Name and address of the manufacturer: Ningbo Deye Inverter Technology Co., Ltd. No. 26 South YongJiang Road, Daqi, Beilun, NingBo, China

This declaration of conformity is issued under the sole responsibility of the manufacturer. Also this product is under manufacturer’s warranty. This declaration of conformity is not valid any longer: if the product is modified, supplemented or changed in any other way, as well as in case the product is used or installed improperly.

The object of the declaration described above is in conformity with the relevant Union harmonization legislation: The Low Voltage Directive (LVD) 2014/35/EU;the Electromagnetic Compatibility (EMC) Directive 2014/30/EU;the restriction of the use of certain hazardous substances (RoHS) Directive 2011/65/EU.

References to the relevant harmonized standards used or references to the other technical specifications in relation to which conformity is declared:

LVD:

EN 62109-1:2010

EN 62109-2:2011

EMC:

EN 61000-6-4:2007+A1:2011

EN 61000-6-2:2005

Nom et Titre / Name and Title:
Au nom de / On behalf of: Date / Date (yyyy-mm-dd): A / Place

Bard Dai Senior Standard and Certification Engineer
Ningbo Deye Inverter Technology Co., Ltd. 2023-10-14 Ningbo, China

EU DoC ­ v1

Ningbo Deye Inverter Technology Co., Ltd. No. 26 South YongJiang Road, Daqi, Beilun, NingBo, China

– –

— Ver: .

Add. : No. South YongJiang Road, Daqi, Beilun, NingBo, China. Tel. : + () Fax. : + () E-mail. : service@deye.com.cn Web. : www.deyeinverter.com

References

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