SUN-4K-G05P1-EU-AM2 - Solar installation Deye - Free user manual and instructions
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| Product Type | Grid-Tie Solar Inverter |
| Model | SUN-4K-G05P1-EU-AM2 |
| Brand | Deye |
| Rated Power | 4000 W |
| Maximum PV Input Power | 5200 W |
| Maximum PV Input Voltage | 600 V |
| MPPT Range | 120-500 V |
| Number of MPPT Trackers | 2 |
| Maximum Input Current per MPPT | 18 A |
| Nominal Output Voltage | 230 V (Single Phase) |
| Output Frequency | 50/60 Hz |
| Maximum Efficiency | 97.6% |
| European Efficiency | 97.0% |
| Protection Class | IP65 |
| Operating Temperature Range | -25°C to +60°C |
| Dimensions (W x H x D) | 430 x 530 x 200 mm |
| Weight | 24 kg |
| Noise Level | < 30 dB |
| Cooling Method | Natural Convection (Fanless) |
| Display | LCD with Touch Buttons |
| Communication Interfaces | WiFi / RS485 / USB |
| Safety Certifications | VDE-AR-N 4105, IEC 62109, CE |
| Warranty | 5 Years (Standard), 10 Years (Optional) |
| Maintenance | Periodic cleaning of heat sink and fan; check connections annually |
| Spare Parts Availability | Fan, communication board, LCD assembly, terminal blocks |
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USER MANUAL SUN-4K-G05P1-EU-AM2 Deye
Grid-connected PV Inverter
SUN-3.6K-G05P1-EU-AM2
SUN-4K-G05P1-EU-AM2
SUN-4.2K-G05P1-EU-AM2
SUN-4.6K-G05P1-EU-AM2
SUN-5K-G05P1-EU-AM2
SUN-5.2K-G05P1-EU-AM2
SUN-6K-G05P1-EU-AM2
SUN-6.2K-G05P1-EU-AM2
User Manual

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Front view of a Roxy Air Conditioner device with control panel and buttons (no readable text or symbols)Contents
1. Introduction ......-1.-
1.1 Appearance Introduction ....-1.-
1.2 Labels description ......-2 -
1.3 Parts list ......-2-
1.4 Product handling requirements ....3 -
2. Safety warnings and instructions ....4 -
2.1 Safety signs ....4 -
2.2 Safety instructions ....-4 -
2.3 Notes for using 5 -
3. Operation Interface ....6 -
3.1 Interface View ....-6.-
3.2 Status Indicator ......-6-
3.3 Buttons ....-7 -
3.4 LCD Display ....7 -
4. Product installation ....8.-
4.1 Select installation location ....-8 -
4.2 Installations Tools ....-10 -
4.3 Inverter Installation ....11 -
5. Electrical Connection - 13 - ......
5.1 PV Module Selection - 13 -
5.2 DC input terminal connection - 13 -
5.3 AC input terminal connection - 15 -
5.4 The connection of the ground line - 16 -
5.5 Max. over current protection device - 17 -......
5.6 Inverter monitoring connection - 17 -
5.7Monitoring Platform - 18 - ......
5.8 How to connect the Single-phase inverter to the router via web - 19 -......
5.9 How to connect in APP - 23 -
5.10 USER MANUAL for SOLARMAN Smart APP ....25 -
6. Startup and Shutdown ......-27 -
6.1 Start up the inverter 27 -
6.2 Inverter Shutdown -27-
6.3 Anti-PID Function(optional) -28 -
7. Zero-export function via energy meter ......- 29 -
7.1.Use.of.zero-export function-.38-
7.2 Sensor Clamp(optional) - 38 -......
7.3 Use of limiter function ....-40 -
7.4 Notes while using limiter function ......- 41 -
7.5 How to browse the load power of your PV grid-tieplant on monitoring platform? - 41 -
8. General Operation - 43 - ......
8.1 The initial interface - 44 -
8.2 Submenus in the Main Menu - 45 -
8.3 System param setting - 47 -
8.4 Running param setting - 48 -
- 52 - 8.5 Protect
8.6 Comm. param setting - 54 -
9. Repair and Maintenance - 55 - ......
10. Error information and processing - 55 -......
- Specification - 59 -
- EU Declaration of Conformity 62 -
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
Photovoltaic Grid-connected System

flowchart
graph LR
A["Solar Panel"] --> B["Inverter Metering PV array Power grid"]
C["Household Load"] --> D["Transmission Tower"]
B --> E["Central Hub"]
D --> E
style A fill:#f9f,stroke:#333
style C fill:#f9f,stroke:#333
style B fill:#ccf,stroke:#333
style D fill:#ccf,stroke:#333
style E fill:#cfc,stroke:#333
1. Introduction
1.1 Appearance Introduction
Single Phase String Power 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-3.6K-G05P1-EU-AM2, SUN-4K-G05P1-EU-AM2, SUN-4.2K-G05P1-EU-AM2, SUN-4.6K-G05P1-EU-AM2, SUN-5K-G05P1-EU-AM2, SUN-5.2K-G05P1-EU-AM2, SUN-6K-G05P1-EU-AM2, SUN-6.2K-G05P1-EU-AM2.
The following is collectively referred to as "inverter".

Pic 1.1 Front view Pic 1.2 Bottom view
1.2 Labels description
| Label | Description |
![]() | Caution, risk of electric shock symbol indicates important safety instructions, which if not correctly followed, could result in electric shock. |
![]() | The DC input terminals of the inverter must not be grounded. |
![]() | CE mark of conformity |
![]() | Please read the instructions carefully before use. |
![]() | Symbol for the marking of electrical and electronics devices according to Directive 2002/96/EC. Indicates that the device, accessories and the packaging must not be disposed as unsorted municipal waste and must be collected separately at the end of the usage. Please follow Local Ordinances or Regulations for disposal or contact an authorized representative of the manufacturer for information concerning the decommissioning of equipment. |
1.3 Parts list
Please check the following table, to see whether all the parts are included in the package :







Solar Photovoltaic Connector Special Spanner x1


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Simple line drawing of a mechanical component with no text or symbolsSensor Clamp(optional) x1Meter(op
1.4 Product handling requirements
Lift the inverter out of the packaging box and transport it to the designated installation location.

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Diagram of a mechanical device with a handle and arrow indicating upward motion (no text or symbols)transport

CAUTION:
Improper handling may cause personal injury!
☒ Arrange an appropriate number of personnel to carry the inverter according to its weight, and installation personnel should wear protective equipment such as anti-impact shoes and gloves.
☒ Placing the inverter directly on a hard ground may cause damage to its metal enclosure. Protective materials such as sponge pad or foam cushion should be placed underneath the inverter.
☒ Move the inverter by one or two people or by using a proper transport tool.
☒ Move the inverter by holding the handles on it. Do not move the inverter by holding the terminals.
2. 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.
2.1 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.
2.2 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 5 mins until the inverter discharge the remnant electricity.

High Temperature Hazard:
Local temperature of inverter may exceed 80^ C while under operating. Please do not touch the inverter case.
2.3 Notes for using
The single 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 5 mins to avoid getting shocked.
- Local temperature of the inverter may exceed 80^ C while under operating. Do not touch to avoid getting injured.
-
All electrical installation must be in accord with local electrical standards, and after obtaining the permission of the local power supply department, the professionals can connect the inverter to the grid.
-
Please take appropriate anti-static measure.
-
Please install where children can not touch.
-
The steps to start the inverter: 1) switch on the AC side circuit breaker, 2) Switch on the DC side circuit breaker of the PV panel. 3) Turn on the DC switch of the inverter.
The steps to stop the inverter: 1) switch off the AC side circuit breaker, 2) switch off the DC side circuit breaker of the PV panel. 3) Turn off the DC switch of the inverter.
-
Don't insert or remove AC and DC terminals when the inverter is in normal operation.
-
The DC input voltage of the inverter must not exceed the maximum value of the model.
3. Operation Interface
3.1 Interface View

Pic 3.1 Front panel display
3.2 Status Indicator
There are four LED status indicator lights in the front panel of the inverter. Please see table 3.1 for details.
| Indicator status | Explanation | |
| DC | on | Inverter detects DC input |
| off | Low DC input voltage | |
| AC | on | Grid Connected |
| off | Grid Unavailable | |
| NORMAL | on | Under normal operating |
| off | Stop operating | |
| ALARM | on | Detected faults or report faults |
| off | Under normal operating | |
Table 3.1 Status indicator lights
3.3 Buttons
There are four keys in the front panel of the Inverter(from left to right): Esc, Up, Down and Enter keys. The keypad is used for:
- Scrolling through the displayed options (the Up and Down keys);
- Access to modify the adjustable settings (the Esc and Enter keys).

Esc Up Down Enter


3.4 LCD Display
The two-line Liquid Crystal Display (LCD) is located on the front panel of the Inverter, which shows the following information:
- Inverter operation status and data;
• Service messages for operator; - Alarm messages and fault indications.
4. Product installation
4.1 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 104° F/40°C.

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Simple line drawing of a house with a sun and roof, no text or symbols present×

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Simple line drawing of a house under rain with cloud and raindrops (no text or symbols)×

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Simple line drawing of a house with cloud and snowflake patterns above (no text or symbols)×

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Simple line drawing of a house with sun and roof, no text or symbols present√

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Simple line drawing of a house under rain with cloud and raindrops (no text or symbols)√

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Simple line drawing of a house with cloud and snowflakes above (no text or symbols)√
Pic 4.1 Recommended installation place
- Install on a wall or strong structure capable of bearing the weight.
- Install vertically with a maximum incline of +15^ . 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 500mm gap between each inverter. And two adjacent inverters are also separated by at least 500 mm. And must install the inverter at the place where children cannot touch. Please see picture 4.3.
- 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.

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Technical line drawing of a mechanical component with hatched background (no text or symbols)

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Simple line drawing of a cylindrical object resting on a surface, with no text or symbols present.

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Simple line drawing of a spray bottle mounted on a wall, no text or symbols present

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Simple line drawing of a vertical cylindrical object mounted on a wall, with no text or symbols present.


Pic 4.2 Installation Angle

Pic 4.3 Installation Gap
4.2 Installations Tools
Installation tools can refer to the following recommended ones. Also, use other auxiliary tools on site.
table 4-1 Tool specification

4.3 Inverter Installation
The inverter is designed according to the wall mounted type installation, please use the wall mounted (the brick wall of the expansion bolt) when installing.

Pic 4.4 Inverter Installation
Procedure shows below:
- Locate on the appropriate wall according to the bolt position on the mounting bracket, then mark the hole. On the brick wall, the installation must be suitable for the expansion bolt installation.


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Diagram of a brick wall with two metal rods and directional arrows indicating force or movement (no text or symbols)Pic 4.5 Inverter hanging plate installation
- Ensure that the position of the installation holes on the wall is in accordance with the mounting plate, and the mounting rack is vertically placed.
- Hang the inverter to the top of the mounting rack and then use the M4 screw in the accessory to lock inverter heat sink to the hanging plate, to ensure that the inverter will not move.

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Technical diagram of a heat exchanger or cooling unit with blue directional arrows indicating flow or movement (no text or symbols present)Pic 4.6 Inverter installation
5. Electrical Connection
5.1 PV Module Selection:
When selecting proper PV modules, please be sure to consider below parameters:
1) Open circuit Voltage (Voc) of PV modules not exceeds max. PV array open circuit voltage of inverter.
2) Open circuit Voltage (Voc) of PV modules should be higher than min. start voltage.
3) The PV modules used to connected to this inverter shall be Class A rating certified according to IEC 61730.
| Inverter Model | 3.6K 4 | K 4.2K 4. | 6K 5K 5.2 | K 6K 6.2 | K | |||
| Start-up DC Input Voltage(V) 80V | ||||||||
| Max.DC Input Voltage(V) | 550V | |||||||
| PV Array MPPT Voltage Range | 70V-500V | |||||||
| No. of MPP Trackers | 2 | |||||||
| No. of Strings MPP Tracker | 1+1 | |||||||
5.2 DC input terminal connection
- Switch the Grid Supply Main Switch(AC)OFF.
- Switch the DC Isolator 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 550V of the inverter.


Pic 5.1 DC+ male connector


Pic 5.2 DC- female connector

Safety Hint:
Please use approved DC cable for PV system.
| Cable type | Cross section (mm2) | |
| Range Recommended | ded value | |
| Industry generic PV cable(model: PV1-F) | 2.5-4(12-10AWG) | 2.5(12AWG) |
Table 5.1 DC Cable Specifications
The steps to assemble the DC connectors are listed as follows:
a) Strip off the DC wire about 7mm, disassemble the connector cap nut (see picture 5.3).

Pic 5.3 Disassemble the connector cap nut
b) Crimping metal terminals with crimping pliers as shown in picture 5.4.

Pic 5.4 Crimp the contact pin to the wire
c) Insert the contact pin to the top part of the connector and screw up the cap nut to the top part of the connector. (as shown in picture 5.5).

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Technical line drawing of a mechanical assembly with rollers and shafts (no text or symbols)Pic 5.5 connector with cap nut screwed on
d) Finally insert the DC connector into the positive and negative input of the inverter, shown as picture 5.6.

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Technical line drawings of four mechanical components with shafts and housing (no text or symbols)Pic 5.6 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 life-threatening 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 20A. if exceeds, it may damage the inverter and it is not covered by Deye warranty.
5.3 AC input terminal connection
Do not close the DC switch immediately after the DC terminal has been connected. Connect the AC wires to the AC terminals on the AC side of the inverter. Flexible wires are recommended for easy installation, as shown in Table 5.2.

Warning:
Prohibit using a single circuit breaker for multiple inverters, prohibit the connection of load between inverter circuit breakers.
| Model | Cable CSA | AWG Breaker | Max cable length |
| SUN-3.6K-G05P1-EU-AM2 2.5mm | ☒ | 12 32A/400V | Outside cable (L+N+PE)20m |
| SUN-4K-G05P1-EU-AM2 2.5mm | ☒ | 12 32A/400V | |
| SUN-4.2K-G05P1-EU-AM2 | 12 32A/400V2.5mm | ||
| SUN-4.6K-G05P1-EU-AM2 2.5mm | ☒ | 12 32A/400V | |
| SUN-5K-G05P1-EU-AM2 2.5mm | ☒ | 12 32A/400V | |
| SUN-5.2K-G05P1-EU-AM2 4.0mm | ☒ | 10 32A/400V | |
| SUN-6K-G05P1-EU-AM2 4.0mm | ☒ | 10 40A/400V | Outside cable (L+N+PE)20m |
| SUN-6.2K-G05P1-EU-AM2 4.0mm | ☒ | 10 40A/400V |
Table 5.2 Cable information
5.4 The connection of the ground line
Good grounding is good for resisting surge voltage shock and improving EMI performance. Therefore, before connecting AC, DC and communication cables, you need to ground the cable firstly. 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 equipotential connection. The installation of the shell ground wire is shown as picture 5.11. The external protective earthing conductor is made of the same metal as the phase conductor.

Pic 5.11 The installation of the shell ground wire
| Model | Wire Size | Cable( mm^2 ) | Torque value(max) |
| 3.6/4/4.2/4.6/5KW 8.5Nm | 12AWG | 2.5mm^2 | |
| 5.2/6/6.2KW | 10AWG | 4.0mm^2 | 8.5Nm |

Warning:
Inverter has built-in leakage current detection circuit, The type A RCD can be connected to the inverter for protection according to the local laws and regulations. If an external leakage current protection device is connected, its operating current must be equal to 300 mA or higher, otherwise inverter may not work properly.
5.5 Max. over current protection device
In order to protect the inverter AC connection, it is recommended to install a circuit breaker to prevent overcurrent. See table 5.3 below.
| Inverter | Rated output voltage(V) | Rated output current(A) | Current for protection device(A) |
| SUN-3.6K-G05P1-EU-AM2 | 220/230 | 16.4/15.7A | 32 |
| SUN-4K-G05P1-EU-AM2 | 220/230 | 18.2/17.4A | 32 |
| SUN-4.2K-G05P1-EU-AM2 | 220/230 19.1/18.3A 32 | ||
| SUN-4.6K-G05P1-EU-AM2 | 220/230 21.0/20.0A 32 | ||
| SUN-5K-G05P1-EU-AM2 | 220/230 22.8/21.8A | 32 | |
| SUN-5.2K-G05P1-EU-AM2 | 220/230 | 23.7/22.7A | 32 |
| SUN-6K-G05P1-EU-AM2 | 220/230 4027.3/26.1A | ||
| SUN-6.2K-G05P1-EU-AM2 | 220/230 4028.2/27.0A |
Table 5.3 Recommended current protector specifications
5.6 Inverter monitoring connection
Inverter has the function of wireless remote monitoring. Inverter has built-in WIFI modular which is able to connect router directly.
WiFi information
Frequency range: 2.412GHz-2.472GHz
WiFi maximum transmitting power: 802.11b:+17±1.5dBm(@11Mbps)
802.11g:+15±1.5dBm(@54Mbps) 802.11n:+14±1.5dBm(@HT20,MCS7)
Antenna: External Antenna
Antenna Gain: 2dBi

flowchart
graph TD
A["GPRS"] --> B["Router"]
C["WIFI"] --> B
D["Smart Phone"] <--> E["Internet"]
F["PC"] <--> E
E --> G["Web Server"]
style A fill:#f9f,stroke:#333
style C fill:#f9f,stroke:#333
style D fill:#ccf,stroke:#333
style F fill:#ccf,stroke:#333
style G fill:#cfc,stroke:#333
5.7 Monitoring Platform
This series Single-phase inverter has built-in WIFI modular which is able to connect router directly. For WIFI configuration, please check the manual of “Built-in WIFI modular Single-phase inverter WIFI configuration Manual”.
Web monitoring address: https://pro.solarmanpv.com; (for Solarman distributor account) https://home.solarmanpv.com (for Solarman end user account)
For mobile phone monitoring system, scan the QR code to download the APP.
Also you can find it by searching “solarman business” in App store or Google Play store, and this App is for distributor/installer.
Find it by searching “solarman smart” in App store or Google Play store and choose “solarman smart”, this app is for plant owner.

SOLARMAN Smart for end user

SOLARMAN Business for distributor/installer
5.8 How to connect the Single-phase inverter to the router via web
- Turn on the wireless network of your PC or smartphone.
- The default password of the AP network is 12345678 if there’s no nameplate that includes PWD: XXXXXXXX on the inverter body. If there’s nameplate that includes PWD: XXXXXXXX on the inverter body then the AP network password is the “XXXXX XXX”: for example, the default password of AP network is “5c4db4d8” of the inverter SN:2302202012.


Single-phase inverter SN: 2302202012 Built-in datalogger:3907047089
Also, the default password can be changed. If forgetting the modified password, please contact service@deye.com.cn for help.
- Open a browser and enter 10.10.100.254. Both username and password are "admin". (Recommended browser: IE 8+, Chrome 15+, Firefox 10 +).

- Browser jumps to “Status” page, the basic information is listed there.
| Status |
| Wizard |
| Quick Set |
| Advanced |
| Upgrade |
| Restart |
| Reset |
| Help |
| The device can be used as a wireless access point(AP mode) to facilitate users to configure the device, or it can also be used as a wireless information terminal (STA mode) to connect the remote server via wireless router. |
| Status of remote serverNot connected: Connection to server failed last time.If under such status, please check the issues as follows:(1)check the device information to see whether IP address is obtained or not;(2)check if the router is connected if to internet or not;(3)check if a firewall is set on the router or not;Connected: connection to server successful last time;Unknown: No connection to server.Please check again in 5 minutes. |
- Turn to "Wizard" page, click "Refresh" to search the wireless network. Select the target network and click "Next".

6. Enter the password and click Next.

7. Users can select any options below to enhance the security and click Next.

8. If the setup is successful, the following page will pop up and click OK to reboot the Single-phase inverter.

- Connect to loggeer AP network again, then log in to 10.10.100.254 by Browser, and check the system info of "Status" page. After the network setting is done, the remote server A or B should be "connected".

- When it shows "connected" which means this Single-phase inverter has connected solarman platform successfully. Generally speaking, it will be online after 10-15min after configuration successfully at the first time.
5.9 How to connect in APP
1. Registration
Open the app of SOLARMAN Smart and register an account.
Click "Register" and create your account here.


2. Create a Plant
Click "Add Now" to create your plant.
Please fill in plant basic info and other info here.


3. Add a Logger
Optional 1: Enter the logger SN manually.
Optional 2: Click the icon in the right and scan the QR code to enter logger SN.
You can find logger SN on the carton packaging or on the logger body.


4. Network Configuration
After the logger is added, please configure the network to ensure normal operation. Go to "Plant Details"-"Device List", find the target SN and click "Device Networking". If showing"online" which means the datalogger of the inverter connects the solarman platform successfully. Then you will be able to check the plant info on the platform.

5.10 USER MANUAL for SOLARMAN Smart APP
1.Add a Logger
Method 1: Enter logger SN manually.
Method 2: Click the icon in the right and scan to enter logger SN
You can find logger SN in the external packaging or on the logger body.


2. Network Configuration
Step 1: Click “Go to Configure” to set the network. (Please make sure Bluetooth and WiFi are ON.)


Step 2: Please wait for a few minute. Then click "Done" and view plant data.


| NOTE |
| 5G WiFi is not supported. |
| REMARQUE |
| Le Wi-Fi 5G n’ est pas pris en charge. |
6. Startup and Shutdown
Before starting the inverter, make sure that the inverter can meet the following conditions, otherwise it may result in fire or damage to the inverter. In this case, we do 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 photovoltaic modules.
a). The maximum open circuit voltage of each set of photovoltaic modules shall not exceed 550Vdc under any conditions.
b). Each input of the inverter better use the same type of photovoltaic module in series.
c). Total output power of PV shall not exceed the maximum input power of inverter, each photovoltaic modules shall not exceed the rated power of each channel.
6.1 Start up the inverter
When starting up the Single Phase String Power 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.
6.2 Inverter Shutdown
Must follow below steps while shutting down the inverter:
- Switch off the AC breaker.
- Wait for 30 seconds, turn off the DC switch (if any). The inverter will close the LCD and all indicators within two minutes.
6.3 Anti-PID Function(option)

flowchart
graph LR
A["Input Device"] --> B["Inverter"]
C["Input Device"] --> B
D["Input Device"] --> B
B --> E["PID"]
E --> F["L"]
E --> G["N"]
H["AC Source"] --> I["Waveform"]
The Anti-PID module repairs the PID effect of the PV module at night. The PID module always runs when connected to AC.
If maintenance is required and turn off the AC switch can disable the Anti-PID function.

WARNING:
The PID functionality is automatic. When the DC bus voltage is below 50VDC, the PID module will create 450VDC between the PV and ground. No control and equipment are required.

WARNING:
If you need to maintain the inverter, Please turn off the AC switch first, then turn off the DC switch, and wait 5 minutes before you do other operations.
7. Zero-export function via energy meter
When you are reading this, we believe that you have completed the connection according to the requirements of chapter 5, 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 5 minutes until the inverter completely discharged. Please follow below Pic 7.1 & Pic 7.18 to connect the energy meter.
For system wiring diagram, the red line refers to L line (L), the blue line refers to the neutral line (N), green line refers to ground wire (PE). Connecting energy meter RS485 cable to inverter's RS485 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.
The AC switch we recommend to connect to the inverter output can refer to Table 5.2. 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.
System connection diagram for the Eastron meter

EASTRON SDM230
Grid Input

Grid Output

RS 485

GND

Pic 7.1 EASTRON meter

flowchart
graph TD
A["Solar Panel array"] --> B["Inverter"]
B --> C["RS 485 connector"]
C --> D["AC Breaker"]
D --> E["meter"]
E --> F["Grid"]
G["Limiter"] --> H["485_A"]
G --> I["485_B"]
J["Family load"] --> K["meter"]
L["GND"] --> M["Grid"]
Pic 7.2 Connection diagram of EASTRON meter
Motor
SN12
Power
OW
Pic 7.3 Parameter setting
When the EASTRON meter connected successfully, it will shows SN: 2

Safety Hint:
Ensuring grid input cables connect 1&3 port of energy meter, and inverter AC output cables connect 2&4 port of energy meter when connecting.

Warning:
In final installation, breaker certified according to IEC 60947-1 and IEC 60947-2 shall be installed with the equipment.

SDM120CTM-40mA (ESCT-TA16 120A/40mA)


RS 485 GND
Grid voltage sample



Pic 7.4 EASTRON meter

flowchart
graph TD
A["Solar Panel array"] --> B["Inverter"]
B --> C["RS 485 connector"]
C --> D["AC Breaker"]
D --> E["Family load"]
E --> F["Grid"]
F --> G["S black"]
F --> H["S white"]
G --> I["Limiter"]
H --> J["L"]
style A fill:#f9f,stroke:#333
style B fill:#ccf,stroke:#333
style C fill:#cfc,stroke:#333
style D fill:#fcc,stroke:#333
style E fill:#cff,stroke:#333
style F fill:#ffc,stroke:#333
style G fill:#cfc,stroke:#333
style H fill:#cfc,stroke:#333
Pic 7.5 Connection diagram of EASTRON meter
System connection diagram for the CHNT meter

CHNT DDSU666

Pic 7.6 CHNT meter

flowchart
graph TD
A["Solar Panel array"] --> B["Inverter"]
B --> C["RS 485 connector"]
C --> D["AC Breaker"]
D --> E["meter"]
E --> F["Grid"]
G["Limiter"] --> H["485_A"]
H --> I["485_B"]
J["Family load"] --> K["AC Breaker"]
L["Grid"] --> M["AC Breaker"]
Pic 7.7 Connection diagram of CHNT meter
Hoter
Power
SN1
OW
Pic 7.8 Parameter setting
When the CHNT meter connected successfully, it will shows SN: 1

DDSU666-CT (CTF16-2K5-100A)



Grid voltage sample

Pic 7.9 CHNT meter

flowchart
graph TD
A["Solar Panel array"] --> B["Inverter"]
B --> C["RS 485 connector"]
C --> D["AC Breaker"]
D --> E["meter"]
E --> F["Grid"]
F --> G["Arrow pointing to inverter"]
H["Limiter"] --> I["485_A"]
H --> J["485_B"]
K["Family load"] --> L["N"]
L --> M["L"]
M --> N["Grid"]
O["Blue white"] --> P["Line 1"]
Q["Line 2"] --> R["Line 3"]
S["Line 4"] --> T["Line 5"]
U["Line 6"] --> V["Line 7"]
W["Line 8"] --> X["Line 9"]
Pic 7.10 Connection diagram of CHNT meter
System connection diagram for the Eastron meter

EASTRON SDM230

Load/Inverter



Pic 7.11 EASTRON meter

Pic 7.12 Eastron Connection diagram(The pass-through table)

SDM120CTM-40mA (ESCT-TA16 120A/40mA)


RS 485 GND
Grid voltage sample



Pic 7.13 EASTRON meter

Pic 7.14 Eastron Connection diagram(The pass-through table)

CHNT DDSU666

Pic 7.15 CHNT meter

flowchart
graph TD
A["Solar Panel array"] --> B["Master(Mst)"]
C["Solar Panel array"] --> D["Slave1(Slv1)"]
E["Solar Panel array"] --> F["Slave2(Slv2)"]
G["Ground"] --> H["AC Breaker"]
I["Load"] --> J["AC Breaker"]
K["Grid"] --> L["AC Breaker"]
M["Shunt QTY"] --> N["3 <<"]
O["Shunt"] --> P["SLV"]
Q["ShuntQTY"] --> R["3 <<"]
S["Shunt"] --> T["SLV"]
U["ShuntQTY"] --> V["3 <<"]
Pic 7.16 CHNT Connection diagram(The pass-through table)

DDSU666-CT
(CTF16-2K5-100A)




Grid voltage sample

Pic 7.17 CHNT meter

flowchart
graph TD
A["Solar Panel array"] --> B["Master(Mst)"]
C["Solar Panel array"] --> D["Slave1(Slv1)"]
C --> E["Slave2(Slv2)"]
D --> F["AC Breaker"]
E --> G["AC Breaker"]
F --> H["Ground"]
G --> H
I["Load"] --> J["AC Breaker"]
K["Grid"] --> L["Shunt"]
K --> M["ShuntQTY"]
N["Master(Mst)"] --> O["GND"]
N --> P["Limiter"]
Q["Slave1(Slv1)"] --> R["485_A"]
Q --> S["485_B"]
T["Slave2(Slv2)"] --> U["485_B"]
T --> V["Limiter"]
W["Shunt"] --> X["3 <<"]
Y["ShuntQTY"] --> Z["3 <<"]
AA["Shunt"] --> AB["3 <<"]
AC["ShuntQTY"] --> AD["3 <<"]
Pic 7.18 CHNT Connection diagram(The pass-through table)
7.1 Use of zero-export function
When the connection is completed, the following steps should be referred to use this function:
- Turn on the AC switch.
- Turn on the DC switch, waiting for the inverter's LCD is turned on.
- 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 [running parameters] as shown in picture 7.19, at this time please input the default password 1234 through pressing the button [up down, enter], enter the operation parameter setting interface, shown as picture 7.20.


Pic 7.20 Meter switch Pic 7.19 Parameter s
- Operate the button [up down], move setting cursor to energy meter and press the button [enter]. At this time you can turn on or turn off 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 7.21.

Pic 7.21 Zero-export function via energy meter turn on
- Meter power XXW 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.
- 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.
7.2 Sensor Clamp(optional)
The inverter has integrated export limitation function. The function is to adjust the output of inverter quickly according to the power of the user and solar panels, prevent the output of the inverter from being fed to the power grid. This limiter function is optional. If you buy the inverter with limiter, a current sensor will be included in the package which is necessary for limiter function.
7.2.1 Zero-export function via CT
When you are reading this, we believe that you have completed the connection according to the requirements of chapter 5, if you has been running your inverter at this time, and you want to use the limiter function, please turn off AC and DC switch of the inverter, and wait for 5 minutes until the inverter completely discharged. Then connect the current sensor to the inverter limiter interface. Make sure they are reliably connected, and the current sensor should clamp to the live wire of the incoming line. In order to make it easier for you to use the built-in limiter function of the inverter, we have specifically given the wiring diagram, as shown in Picture 7.23, the red lines connected to the utility grid said wire (L), blue line shows the zero line (N), yellow green line shows the ground wire (PE). We recommend installing a AC switch between the inverter outlet and the utility grid, the specs of the AC switch is determined according to the load capacity. The AC switch we recommend to connect to the inverter output can refer to Table 5.1. If there is no integrated DC switch inside the inverter you purchased, were commend you to connect the DC switch. The voltage and current of the switch depends on the PV array you access.

natural_image
Technical line drawing of a mechanical component with no visible text or symbolsPic 7.22 Sensor Clamp
(The arrow of current sensor points to the grid)

flowchart
graph TD
A["Solar Panel array"] --> B["Sensor"]
C["Grid Load"] --> D["Limiter"]
B --> E["Sensor"]
D --> F["Limiter"]
style A fill:#f9f,stroke:#333
style C fill:#f9f,stroke:#333
style B fill:#ccf,stroke:#333
style D fill:#cfc,stroke:#333
style E fill:#fff,stroke:#333
style F fill:#fff,stroke:#333
Pic7.23 Connection diagram of Sensor Clamp
7.3 Use of limiter function
When the connection is completed, the following steps should be referred to use this function:
- Turn on the AC switch.
- Turn on the DC switch, waiting for the inverter's LCD is turned on.
- 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 [running parameters] as shown in picture 7.24, at this time please input the default password 1234 through pressing the button [up down, enter], enter the operation parameter setting interface, shown as picture 7.25.


Pic 7.25 Limit switchPic 7.24 Parameter set
- Operate the button [up down], move setting cursor to limit function and press the button [enter]. At this time you can turn on or turn off the limit function by choosing [up down] button, please press [enter] button to confirm when setting done.
- Move the cursor to [confirm], 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 displayed as [utility power], the limiter function settings will be completed. Shown as picture 7.26.


\* This item is not available for some FW verison
Pic 7.26 Limiter function turn on
- [utility power] showing positive means grid power is consuming energy, and there is no backflow. If [utility power] shows negative, which means there's excess PV energy flows to grid or current transformer arrow direction is in wrong direction. Please read more on chapter 7.
- After properly connection is done, wait for inverter starting. If the power of the PV array meets the current power consumption, the inverter will maintain a certain output to counteract the power of the grid without backflow.
7.4 Notes while using zero export function
For your safety and the operation of limiter function of the inverter, we put forward the following suggestions and precautions:

Safety Hint:
Under zero export mode we strongly recommend that the two PV arrays are formed by the same number of PV panels of the same size, which will make the inverter more responsive to limit the power.

Safety Hint:
While the utility power is negative and inverter has no output power, that means the orientation of the current sensor is wrong, please turn off the inverter and change orientation of the current sensor.
(when using limiter, the arrow of current sensor points to the grid)
7.5 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 Pic 7.12. 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”

And then choose your system type as "Self-consumption"
Edit Plant
Cand


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

Flow Graph Production Consumption Grid

flowchart
graph LR
A["Production Power 9.52 kW\nCapacity 30 kWp"] --> B["Central Unit"]
C["Consumption Power 2.6kW"] --> B
D["Grid Power 6.87 kW"] --> B
8. 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.

flowchart
graph TD
A["Start"] --> B["LCD Main menu"]
A --> C["Total DC Power"]
A --> D["PV1 and Power"]
A --> E["Grid and Freq"]
A --> F["E-Day and E-Total"]
F --> G["Time"]
G --> H["*Meter"]
G --> I["*ImpEp"]
G --> J["*ExpEp"]
G --> K["*Load"]
G --> L["*LoadEp"]
B --> M["Device Information"]
C --> M
D --> M
E --> M
F --> N["Fault Record"]
F --> O["ON/OFF"]
F --> P["Setup"]
F --> Q["*PV VA"]
M --> R["System Param"]
M --> S["Run Param"]
M --> T["Protect Param"]
M --> U["Comm. Param"]
*Note: These parameters will be available after the meter is connected successfully. Otherwise, it won't show.
Pic 8.1 LCD operation flow chart
8.1 The initial interface
From the initial interface, you can check PV power, PV voltage, grid voltage, inverter ID, model and other information.



Pic 8.2 The initial interface
Press UP or Down, you can check inverter DC voltage, DC current, AC voltage, AC current and inverter radiator temperature(Temperature can only be seen by long pressing the button [ESC]. [enter]).


Pic 8.3 PV input voltage and current information


Pic 8.4 AC running state information


Pic 8.5 Time Pic 8.6 Meter power

ImpEp: Daily energy purchased from grid; Total: Total energy purchased from grid.
Pic 8.7 Electrical energy
EXPEP: 0,000.00
Total: 0.1 million
ExpEp: Daily energy sold to grid;
Total: Total energy sold to grid.
Pic 8.8 Electrical energy

Pic 8.9 Load power

LoadEp: Daily consumption; Total: Total energy consumption.
Pic 8.10 Load consumption

E-Day: Daily generation; E-Total: Total generation.
Pic 8.11 PV generation
8.2 Submenus in the Main Menu
There are five submenus in the Main Menu.
8.2.1 Device information




Pic 8.12 Device information
You can see the LCD software Lcd0238 and Control Software Version Inv1400. In this interface, there are parameters such as rated power communication addresses.
8.2.2 Fault Record
It can keep eight fault records in the menu including time, customer can deal with it depends on the error code.


Pic 8.13 Fault Record
8.2.3 ON/OFF setting




Pic 8.14 ON/OFF setting
When "Turn OFF" is selected and press "OK" to be checked, it will stop working immediately. And, it will be in Off status. When the "turn on" is ticked again, it will go to self-test program again. If it passed the selfcheck, it will start to work again.
8.2.4 Parameter setting
There are four submenus in the setup. Setting includes system param, run param, protect param, comm.param. All of these information for maintenance reference.

Pic 8.15 Submenus of the parameter setup
8.3 System param setting
System Param includes time set, language set, display set and factory reset.

Pic 8.16 System Param
202015.2.2 11:
09:11:21 Cancel
Golish
[Non-Text]
Polski
Pic 8.17 Time
POCK
< =
Nederland
Bright Kepp
C
Delay time 05s
Pic 8.18 Language
Daily time is
OK < Cancel
Pic 8.19 LCD Screen settings
Confirin Peral
[Non-Text]
Cancel
Pic 8.20 Delay time set
I confirm
[Non-Text]
Canal
Pic 8.21 Reset to factory setting
Password required-- only for access-authorized engineer. Un-authorized access may avoid the warranty. The initial password is 1234.

Warning:
The "--"symbol at the bottom right corner indicates that the machine does not have this function.
Password
* * * *
Pic 8.23 Password
8.4.1 ActiveP setting

Pic 8.24
ActiveP: Adjust the output active power in %

Pic 8.25
ReactiveP: Adjust reactive power output in %

Pic 8.26
PF:Power Fator Fun_ISO: Insulation resistance detection

Pic 8.27
Fun_RCD: Residual current detection Self-check: Inverter's self-check time. The default value 60s

Pic 8.28
Island: Anti-islanding protection Meter: Energy meter. If inverter will connect meter, then set here to ON






Pic 8.29 Meter

Feed_In %: it is used to deploy how much power can be feed into grid.
For example, Feed_in=50% of the 6W model, which means Max. 3KW power can be feed into grid.And, this parameter is valid only after connectinga meter and the meter function is "ON".

Pic 8.30














Pic 8.31 WindTurbine

Pic 8.32 Arc-Fault Detection

OFDerate: Over Frequency Derate UFUprate: Under Frequency Uprate




Pic 8.33 active power droop


8.5 Protect Param setting

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 8.4 Running param
Page Word

Criststandard
Advanced
Back
Pic 8.34 Password
Brazil
EN20549-1-FL
EN504988
10041727 1:4
E CUSTOM
UDE 4105
VODE-0125
Spain
0.01 0.21
0984
099
NBT:2009-8
Australia
Australia-B
Australian-C
May Zealand ×
MEA
PEA
Norway
Switzerland
R25
OK Cancel ×
Pic 8.35 GirdStanderd
| OverVolt | Lv3 |
| Point | 240.0V << |
| OverVolt | Lu2 |
| Point | 240.0V |
| OverVolt | Lvl |
| Point | 240.0V |
| Under-Link | Lvl |
| Point | 235.04 |
| UnderVolt | Lw2 |
| Point | 235.0V |
| UnderLight | Lu3 |
| Point | 235,0V < |
| OverFreq | Lv3 |
| Point | 52.00Hz |
| OverFreq | Lv2 |
| Point | 52,00Hz |
| OverFreq | Lvd |
| Point | 52.00Hz |
| UnderFree Lvl |
| Point 48.00Hz < |
| OverVolt | Lv3 |
| Delay | 1000ms << |
| Over-Week | Lys2 |
| Delay | 100ms < |
| OverVolt | Lvl |
| Delay | 1000ms << |
| Underwrite | Lvl |
| to be done | has it all |
| UnderVolt | Lv2 |
| Delay | 1000ms |
| UnderWell | Lw |
| Delay | 100ms |
| OverFreq | Lvs |
| Delay | 1000ms |
| OverFreq | Lv2 |
| Delay | 1000ms |
| OverFreq | Lvl |
| Delay | 1000ms |
| UnderPareg Ltd | |
| Delay 1000ms < |












Pic 8.36 Advanced
8.6 Comm. param setting


Pic 8.38 The currently detected meter
Pic 8.37 Data Logger Modbus Address

Warning:
Engineer only.
9. 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.
10. 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.
10.1 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 10.1.
| Error code | Description Ongrid - Single | Phase |
| F01 DC input polarity reverse fault Check the PV input polarity. | ||
| F02 | DC insulation impedance permanent fault | Check the grounding cable of inverter. |
| F03 DC leakage current fault Hardly appear the code. Never ever happened so far. | ||
| F04 | Ground fault GFDI Check the solar panel output connection. | |
| F05 | Read the memory error | Failure in reading memory (EEPROM). Restart the inverter if the fault still exists, contact your installer or Deye service. |
| F06 | Write the memory error | Failure in writing memory (EEPROM). Restart the inverter if the fault still exists, contact your installer or Deye service. |
| F07 GFDI blown fuse Hardly appear the code. Never ever happened so far. | ||
| F08 GFDI grounding touch failure Hardly appear the code. Never ever happened so far. | ||
| F09 | IGBT damaged by excessive drop voltage | Hardly appear the code. Never ever happened so far. |
| F10 | Auxiliary switch power supply failure | Hardly appear the code. Never ever happened so far. |
| F11 Ac main contactor errors Hardly appear the code. Never ever happened so far. | ||
| F12 AC auxiliary contactor errors Hardly appear the code. Never ever happened so far. | ||
| F13 | Working mode changed/Grid mode changed | Hardly appear the code. Never ever happened so far. |
| F14 DC firmware over current Hardly appear the code. Never ever happened so far. | ||
| F15 | AC firmware over current | 1. The internal AC sensor or detection circuit on control board or connection wire may loose.2. Restart the inverter, if the error still exists, please contact your installer or Deye service. |
| F16 | GFCI(RCD) Ac leakage current fault | 1. This fault means the average leakage current is over 300mA. Check whether DC power supply or solar panels is ok, then check 'Test data'->'diL' value is about 120; Then check the leakage current sensor or circuit( the following picture). Checking test data needs using big LCD.2. Restart the inverter, if the error still exists, please contact your installer or Deye service. |
| F17 | Three phase current, over-current fault | Hardly appear the code. Never ever happened so far. |
| F18 | AC over current fault of hardware | 1. Check AC sensor or detection circuit on control board or connection wire.2. Restart the inverter or factory reset, if the error still exists, please contact your installer or Deye service. |
| F19 | All hardware failure synthesis | 1. When inverter is running, wifi plug plugin, will occur F19.2. Restart the inverter or factory reset, if the error still exists, please contact your installer or Deye service. |
| F20 | DC over current fault of the hardware | Not available. |
| F21 | Hardly appear the code. Never ever happened so far.DC leakage flow fault | |
| F22 | Crash stop (if there is a stop button) | Contact your installer for help. |
| F23 | AC leakage current is transient over current | 1. This fault means the leakage current is above 30mA suddenly. Check whether DC power supply or solar panels is ok, then check 'Test data'->'diL' value is about 120; Then check the leakage current sensor or circuit. Check test data needs using big LCD.2. Restart the inverter, if the fault still exists, contact your installer or Deye service. |
| F24 | DC insulation impedance failure | 1. Check Vpe resistance on main board or detection on control board. Check PV panels is OK. Many times this issue is the PV problem.2. Check whether the PV panel (aluminum frame) is grounded well and inverter is grounded well. Open the cover of inverter and then check the inside ground cable is fixed well on the shell.3. Check if the AC/DC cable, terminal block are shorted to ground or the insulation is damaged.4. Restart the inverter, if the fault still exists, contact your installer or Deye service. |
| F25 DC feedback fault Hardly appear the code. Never ever happened so far. | ||
| F26 | The DC busbar is unbalanced Hardly appear the code. Never ever happened so far. | |
| F27 | DC end insulation error Hardly appear the code. Never ever happened so far. | |
| F28 | Inverter 1 DC high fault Hardly appear the code. Never ever happened so far. | |
| F29 | AC load switch failure Hardly appear the code. Never ever happened so far. | |
| F30 | AC main contactor failure | 1. Check relays and AC voltage of relays.2. Check relays driver circuit.3. Check if the software is not suitable for this inverter. (Old inverter not have relays detection function)4. restart the inverter, if the fault still exists, contact your installer or Deye service. |
| F31 | Dc boost soft start Not available. | |
| F32 | Inverter 2 dc high fault Hardly appear the code. Never ever happened so far. | |
| F33 | AC over current | AC current sensor or its circuit have issue. Check if the inverter type is not right. |
| F34 | AC current over load Hardly appear the code. Never ever happened so far. | |
| F35 | No AC grid | 1. Check AC grid voltage. Check AC voltage detection circuit. Check if the AC connector in good condition. Check whether the AC grid is normal in voltage.2. Restart the inverter, if the fault still exists, contact your installer or Deye service. |
| F36 | AC grid phase error Hardly appear the code. Never ever happened so far. | |
| F37 | AC three-phase voltage unbalance failure | Hardly appear the code. Never ever happened so far. |
| F38 | AC three-phase current unbalance failure | Hardly appear the code. Never ever happened so far. |
| F39 | AC over current(one cycle) | 1. Check AC current sensor and its circuit.2. Restart the inverter, if the fault still exists, contact your installer or Deye service. |
| F40 | DC over current Hardly appear the code. Never ever happened so far. | |
| F41 | AC Line W,U over voltage | Check the AC voltage protection setting. And Check if the AC cable is too thin.Check the voltage difference between LCD and meter. |
| F42 | AC Line W,U low voltage | Check the AC voltage protection setting. Check the voltage difference between LCD and meter. Also need to check whether AC cables are all firmly and correctly connected. |
| F43 | AC Line V,W over voltage Not available. | |
| F44 | AC Line V,W low voltage Not available. | |
| F45 | AC Line U,V over voltage Not available. | |
| F46 | AC Line U,V low voltage Not available. | |
| F47 | AC Over frequency Check the frequency protection setting. | |
| F48 | AC lower frequency Check the frequency protection setting. | |
| F49 | U phase grid current DC component over current | Hardly appear the code. Never ever happened so far. |
| F50 | V phase grid current DC component over current | Hardly appear the code. Never ever happened so far. |
| Error code | Description Ongrid - Single Phase | |
| F51 | W phase grid current DC component over current | Hardly appear the code. Never ever happened so far. |
| F52 | AC inductor A, phase current DC current high | Hardly appear the code. Never ever happened so far. |
| F53 | AC inductor B, phase current DC current high | Hardly appear the code. Never ever happened so far. |
| F54 | AC inductor C, phase current DC current high | Hardly appear the code. Never ever happened so far. |
| F55 | DC busbar voltage is too high | 1. Check PV voltage and Ubus voltage and its detection circuit. If the PV input voltage exceeds the limit, please reduce the number of solar panels in series.2. For Ubus voltage, please check the LCD display. |
| F56 | DC busbar voltage is too low | 1. It tells the PV input voltage is low and it always happens in the early morning.2. Check PV voltage and Ubus voltage. When inverter is running, then showing F56, maybe Loss of driver or need update firmware.3. Restart the inverter, if the fault still exists, contact your installer or Deye service. |
| F57 AC reverse irrigation AC reverse irrigation. | ||
| F58 AC grid U over current Hardly appear the code. Never ever happened so far. | ||
| F59 AC grid V over current Hardly appear the code. Never ever happened so far. | ||
| F60 AC grid W over current Hardly appear the code. Never ever happened so far. | ||
| F61 Reactor A phase over current Hardly appear the code. Never ever happened so far. | ||
| F62 | Reactor B phase over current Hardly appear the code. Never ever happened so far. | |
| F63 | ARC fault | 1. Check PV module cable connection and clear the fault;2. Seek help from us, if can not go back to normal state. |
| F64 | IGBT heat sink high temperature | 1. Check temperature sensor. Check if firmware is suitable for the hardware. Check if the inverter is its right model.2. Restart the inverter, if the fault still exists, contact your installer or Deye service. |
Table10.1 Error codes and their solutions

Safety Hint:
If your string inverter has any of the fault information shown in Table 10-1, 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 status indicator lights);
-
Your contact details.
-
Specification
| Model | SUN-3.6K-G05P1-EU-AM2 | SUN-4K-G05P1-EU-AM2 | SUN-4.2K-G05P1-EU-AM2 | SUN-4.6K-G05P1-EU-AM2 |
| PV String Input Data | ||||
| Max. PV Input Power(kW) | 5.4 6 6.96.3 | |||
| Max. PV Input Voltage(V) | 550 | |||
| Start-up Voltage(V) | 80 | |||
| PV Input Voltage Range(V) | 80-550 | |||
| MPPT Voltage Range(V) | 70-500 | |||
| Rated PV Input Voltage(V) | 360 | |||
| Full Load MPPT Voltage Range(V) | 130-500 | 145-500 | 150-500 | 165-500 |
| Max. Input Short Circuit Current (A) | 27+27 | |||
| Max. Operating PV Input Current(A) | 18+18 | |||
| No. of MPP Trackers/No. of Strings MPP Tracker | 2/1+1 | |||
| Max. Inverter Backfeed Current To the Array | 0 | |||
| AC Output Data | ||||
| Rated AC Output Active Power(kW) | 3.6 | 4 | 4.2 | 4.6 |
| Max.AC Output Apparent Power(kVA) | 3.96 | 4.4 | 4.62 | 5.06 |
| Rated AC Output current (A) | 16.4/15.7 | 18.2/17.4 | 19.1/18.3 | 21.0/20.0 |
| Max.AC Output Current(A) | 18.0/17.3 | 20.0/19.2 | 21.0/20.1 | 23.0/22.0 |
| Max. Output Fault Current(A) | 36.6 4031.4 34.8 | |||
| Max. Output Overcurrent Protection (A) | 75 | |||
| Rated Output voltage/range (V) | 220/230V 0.85Un-1.1Un | |||
| Grid Connection Form | L+N+PE | |||
| Rated Output Grid Frequency/range(Hz) | 50Hz/45Hz-55Hz, 60Hz/55Hz-65Hz | |||
| Power Factor Adjustment Range | 0.8 leading-0.8lagging | |||
| Total Current Harmonic Distortion THDi | <3% | |||
| DC Injection Current | <0.5%ln | |||
| Efficiency | ||||
| Max.Efficiency | 97.3% | 97.5% | ||
| Euro Efficiency | 96.9% | 97.0% | ||
| MPPT Efficiency >99% | ||||
| Equipment Protection | ||||
| DC Polarity Reverse Connection Protection | yes | |||
| AC Output Overcurrent Protection | yes | |||
| AC Output Overvoltage Protection | yes | |||
| AC Output Short Circuit Protection | yes | |||
| Thermal Protection | yes | |||
| DC Terminal Insulation Impedance Monitoring | yes | |||
| DC component monitoring | yes | |||
| Ground fault current monitoring | yes | |||
| Arc fault circuit interrupter (AFCI) Optional | ||||
| Power Network Monitoring | yes | |||
| Island protection monitoring | yes | |||
| yesEarth Fault Detection | ||||
| yesDC Input Switch | ||||
| Overvoltage Load Drop Protection yes | ||||
| Residual Current (RCD) Detection | yes | |||
| Surge Protection Level | TYPE II(DC),TYPE II(AC) | |||
| Interface | |
| Communication Interface | RS485 |
| Monitor Mode | GPRS/Bluetooth/4G/WIFI |
| Display | LCD+LED |
| General Data | |
| Operating Temperature Range (°C) | -25 to +60°C,>45°C derating |
| Permissible Ambient Humidity | 0-100% |
| Permissible Altitude (m) | 3000m |
| Noise (dB) | ≤ 35dB |
| Ingress Protection(IP) Rating | IP 65 |
| Inverter Topology | Non-Isolated |
| Over Voltage Category | OVC II(DC),OVC III(AC) |
| Cabinet Size (W*H*D) [mm] | 305×280×180 (Excluding connectors and brackets) |
| Weight [kg] | 7.7 |
| Warranty [year] | Standard 5 years, extended warranty |
| Natural coolingType Of Cooling | |
| Grid Regulation | IEC 61727, IEC 62116, CEI 0-21, EN 50549, NRS 097, RD 140, UNE 217002, G99, VDE-AR-N 4105 |
| Safety EMC/Standard | IEC/EN 61000-6-1/2/3/4, IEC/EN 62109-1, IEC/EN 62109-2 |
| Model | SUN-5K-G05P1-EU-AM2 | SUN-5.2K-G05P1-EU-AM2 | SUN-6K-G05P1-EU-AM2 | SUN-6.2K-G05P1-EU-AM2 |
| PV String Input Data | ||||
| Max. PV Input Power(kW) | 7.5 7.8 9.39 | |||
| Max. PV Input Voltage(V) | 550 | |||
| Start-up Voltage(V) | 80 | |||
| PV Input Voltage Range(V) | 80-550 | |||
| MPPT Voltage Range(V) | 70-500 | |||
| Rated PV Input Voltage(V) | 360 | |||
| Full Load MPPT Voltage Range(V) | 180-500 | 190-500 | 215-500 | 225-500 |
| Max. Input Short Circuit Current (A) | 27+27 | |||
| Max. Operating PV Input Current(A) | 18+18 | |||
| No. of MPP Trackers/No. of Strings MPP Tracker | 2/1+1 | |||
| Max. Inverter Backfeed Current To the Array | 0 | |||
| AC Output Data | ||||
| Rated AC Output Active Power(kW) | 5 | 5.2 | 6 | 6.2 |
| Max.AC Output Apparent Power(kVA) | 5.5 | 5.72 | 6.6 | 6.82 |
| Rated AC Output current (A) | 22.8/21.8 | 23.7/22.7 | 27.3/26.1 | 28.2/27.0 |
| Max.AC Output Current(A) | 25.0/24.0 | 26.0/24.9 | 30.0/28.7 | 31.0/29.7 |
| Max. Output Fault Current(A) | 43.6 | 45.4 | 52.2 | 54 |
| Max. Output Overcurrent Protection (A) | 75 | |||
| Rated Output voltage/range (V) | 220/230V 0.85Un-1.1Un | |||
| Grid Connection Form | L+N+PE | |||
| Rated Output Grid Frequency/range(Hz) | 50Hz/45Hz-55Hz, 60Hz/55Hz-65Hz | |||
| Power Factor Adjustment Range | 0.8 leading-0.8lagging | |||
| Total Current Harmonic Distortion THDi | <3% | |||
| DC Injection Current | <0.5%ln | |||
| Efficiency | ||||
| Max.Efficiency | 97.5% | |||
| Euro Efficiency | 97.0% | |||
| MPPT Efficiency | >99% | |||
| Equipment Protection | ||||
| DC Polarity Reverse Connection Protection | yes | |||
| AC Output Overcurrent Protection | yes | |||
| AC Output Overvoltage Protection | yes | |||
| AC Output Short Circuit Protection | yes | |||
| Thermal Protection | yes | |||
| DC Terminal Insulation Impedance Monitoring | yes | |||
| DC component monitoring | yes | |||
| Ground fault current monitoring | yes | |||
| Arc fault circuit interrupter (AFCI) Optional | ||||
| Power Network Monitoring | yes | |||
| Island protection monitoring | yes | |||
| yesEarth Fault Detection | ||||
| yesDC Input Switch | ||||
| Overvoltage Load Drop Protection yes | ||||
| Residual Current (RCD) Detection | yes | |||
| Surge Protection Level | TYPE II(DC),TYPE II(AC) | |||
| Interface | |
| RS485Communication Interface | |
| Monitor Mode | GPRS/Bluetooth/4G/WIFI |
| Display | LCD+LED |
| General Data | |
| Operating Temperature Range (°C) | -25 to +60°C,>45°C derating |
| Permissible Ambient Humidity | 0-100% |
| Permissible Altitude (m) | 3000m |
| Noise (dB) | ≤ 35dB |
| Ingress Protection(IP) Rating | IP 65 |
| Inverter Topology | Non-Isolated |
| Over Voltage Category | OVC II(DC),OVC III(AC) |
| Cabinet Size (W*H*D) [mm] | 305×280×180 (Excluding connectors and brackets) |
| Weight [kg] | 7.7 |
| Warranty [year] | Standard 5 years, extended warranty |
| Natural coolingType Of Cooling | |
| Grid Regulation | IEC 61727, IEC 62116, CEI 0-21, EN 50549, NRS 097, RD 140, UNE 217002, G99, VDE-AR-N 4105 |
| Safety EMC/Standard | IEC/EN 61000-6-1/2/3/4, IEC/EN 62109-1, IEC/EN 62109-2 |
12. EU Declaration of Conformity
within the scope of the EU directives
• Radio Equipment Directive 2014/53/EU (RED)
- Restriction of the use of certain hazardous substances 2011/65/EU)(RoHS)
CE
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.
EU Declaration of Conformity
Product: Grid-connected PV Inverter
Models: SUN-3.6K-G05P1-EU-AM2:SUN-4K-G05P1-EU-AM2:SUN-4.2K-G05P1-EU-AM2:SUN-4.6K-G05P1-EU-AM2:SUN-5K-G05P1-EU-AM2:SUN-5.2K-G05P1-EU-AM2:SUN-6K-G05P1-EU-AM2:SUN-6.2K-G05P1-EU-AM2:
Name and address of the manufacturer: Ningbo Deye Inverter Technology Co., Ltd.
No. 26 South Yongliang 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 restriction of the use of certain hazardous substances (RoHS) Directive 2011/65/EU and the Radio Equipment Directive (RED) 2014/53/EU.
References to the relevant harmonized standards used or references to the other technical specifications in relation to which conformity is declared:
| EN 62109-1:2010 | ● |
| EN 62109-2:2011 | ● |
| EN 300328 V 2.2.2:2019 | ● |
| EN 301489-1 V 2.2.3:2019 | ● |
| EN 301489-17 V 3.2.4:2020 | ● |
| EN 55011:2016+A1+A11+A2 | ● |
| EN 62920:2017+A11+A1 | ● |
| EN IEC 61000-6-1:2019 | ● |
| EN IEC 61000-6-2:2019 | ● |
| EN IEC 61000-6-3:2021 | ● |
| EN IEC 61000-6-4:2019 | ● |
| EN IEC 62311:2020 | ● |
| CISPR 11:2015+A1+A2 | ● |
No. 26 South YongJiang Road, Daqi, Beilun, NingBo, China
NINGBO DEYE INVERTER TECHNOLOGY CO., LTD.
Add.: No.26 South YongJiang Road, Daqi, Beilun, NingBo, China.
Tel.: +86 (0) 574 8622 8957
Fax.: +86 (0) 574 8622 8852
E-mail : service@deye.com.cn
Web.: www.deyeinverter.com




