Solis S6 Mini Single Phase Inverter User Manual

S6 Mini Single Phase Inverter

Solis S6 Mini Single Phase Inverter
S6-GR1P(0.7-3.6)K-M Installation and Operation Manual
Ver1.2

Ginlong Technologies Co., Ltd. No. 57 Jintong Road, Binhai Industrial Park, Xiangshan, Ningbo, Zhejiang, 315712, P.R.China. Tel: +86 (0)574 6578 1806 Fax: +86 (0)574 6578 1606
Please adhere to the actual products in case of any discrepancies in this user manual. If you encounter any problem on the inverter, please find out the inverter S/N and contact us, we will try to respond to your question ASAP.

Ginlong Technologies Co., Ltd.

Contents

1. Introduction

2 ……………………………………………………………………………………………………………………………

1.1 Product Description

2 …………………………………………………………………………………………………………

1.2 Packaging

3 …………………………………………………………………………………………………………………………

4 1.3 Product Storage ………………………………………………………………………………………………………………………… 2. Safety Instructions 5 ……………………………………………………………………………………………………………

2.1 Safety Symbols

5 …………………………………………………………………………………………………………………

2.2 General Safety Instructions

5 ……………………………………………………………………………………………

2.3 Notice For Use

7 …………………………………………………………………………………………………………………

7 2.4 Notice for Disposal ………………………………………………………………………………………………………………

3. Overview

8 ………………………………………………………………………………………………………………………………

3.1 Front Panel Display

8 ………………………………………………………………………………………………………

3.2 LED Status Indicator Lights

8 ……………………………………………………………………………………………

3.3 Keypad

8 ……………………………………………………………………………………………………………………………

3.4 LCD

8 ……………………………………………………………………………………………………………………………………

4. Installation

9 ………………………………………………………………………………………………………………………

9 4.1 Select Location for the Inverter ………………………………………………………………………………………

4.2 Mounting the Inverter

11 ……………………………………………………………………………………………………

4.3 Electrical Connections

1 3 ……………………………………………………………………………………………………

5. Start & Stop

2 5 …………………………………………………………………………………………………………………………

6.1 Start the Inverter

2 5 ………………………………………………………………………………………………………………

6.2 Stop the Inverter

2 5 ………………………………………………………………………………………………………………

6. Operation

2 6 ………………………………………………………………………………………………………………………………

6.1 Main Menu

2 6 …………………………………………………………………………………………………………………………

6.2 Information

2 6 …………………………………………………………………………………………………………………………

6.3 Settings

2 8 ………………………………………………………………………………………………………………………………

29 6.4 Advanced Info. ………………………………………………………………………………………………………………………

32 6.5 Advanced Settings ………………………………………………………………………………………………………………

42 6.6 AFCI function …………………………………………………………………………………………………………………………

7. Maintenance

4 4 …………………………………………………………………………………………………………………………

8. Troubleshooting

4 4 …………………………………………………………………………………………………………………

9. Specifications

4 7 ……………………………………………………………………………………………………………………

10. Appendix

5 5 ………………………………………………………………………………………………………………………………

1. Introduction
1.1 Product Description
Solis S6 Mini Single Phase Inverter integrate DRM and backflow power control function, that could suitable for smart grid requirement. This manual covers the S6 Mini Single Phase Inverter model listed below: S6-GR1P0.7K-M, S6-GR1P1K-M, S6-GR1P1.5K-M, S6-GR1P2K-M, S6-GR1P2.5K-M, S6-GR1P3K-M, S6-GR1P3.6K-M The following one model is specially supplied for Germany market: S6-GR1P0.6K-M
LED lights
LCD display
4 buttons

Figure 1.1 Front view

CT or Meter input

DC Switch(optional) DRM

DC input

RS 485

AC output

Figure 1.2 Bottom view

.2.

1. Introduction
1.2 Packaging
When you receive the inverter, please ensure that all the parts listed below are included:

Inverter x1

Back plate x1

Fastening screw x2

DC connector x1 (2 pairs for S6-GP1P3.6K-M)

AC connector x1

RJ45 connector x1

Manual

WiFi/GPRS Stickx1 Optional

User manual x1

If anything is missing, please contact your local Solis distributor.

.3.

1. Introduction
1.3 Product Storage
If the inverter is not to be installed immediately, storage instructions and environmental conditions are below:
Use the original box to repackage the inverter, seal with adhesive tape with the desiccant inside the box. Store the inverter(s) in a clean and dry place, free of dust and dirt. Storage temperature must be between -40 and 70 and the humidity should be between 0 and 95% non-condensing. Stacknomorethanfour(4)invertershigh. Keep box(es) away from corrosive materials to avoid damage to the inverter enclosure. Inspect packaging regularly. If packaging is damaged(wet, pest damage, etc), repackage the inverter immediately. Store the inverter(s) on a flat, hard surface – not inclined or upside down. After long-term storage, the inverter needs to be fully examined and tested by qualified service or technical personnel before using. Restarting after a long period of non-use requires the equipment to be inspected and, in some cases, the removal of oxidation and dust that has settled inside the equipment will be required.
.4.

2. Safety Instructions
2.1 Safety Symbols
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.
NOTE: NOTE symbol indicates important safety instructions, which if not correctly followed, could result in some damage or the destruction of the inverter.
CAUTION: CAUTION, RISK OF ELECTRIC SHOCK symbol indicates important safety instructions, which if not correctly followed, could result in electric shock.
CAUTION: CAUTION, HOT SURFACE symbol indicates safety instructions, which if not correctly followed, could result in burns.
2.2 General Safety Instructions
WARNING: Only devices in compliance with SELV (EN 69050) may be connected to the RS485 and USB interfaces.
WARNING: Please don’t connect PV array positive(+) or negative(-) to ground, it could cause serious damage to the inverter.
NOTE: PV module used with inverter must have an IEC 61730 Class A rating.
.5.

2. Safety Instructions
WARNING: Electrical installations must be done in accordance with the local and national electrical safety standards.
WARNING: Do not touch any inner live parts until 5 minutes after disconnection from the utility grid and the PV input.
CAUTION: Risk of electric shock. Do not remove cover. There is no user serviceable parts inside. Refer servicing to qualified and accredited service technicians.
WARNING: To reduce the risk of fire, over-current protective devices (OCPD) are required for circuits connected to the Inverter. The DC OCPD shall be installed per local requirements. All photovoltaic source and output circuit conductors shall have disconnects that comply with the NEC Article 690, Part II. All Solis S6 Mini Single Phase Inverters feature an integrated DC switch.
CAUTION: The PV array (Solar panels) supplies a DC voltage when they are exposed to sunlight.
CAUTION: The surface temperature of the inverter can exceed 75 (167F). To avoid risk of burns, DO NOT touch the surface when inverter is operating. The inverter must be installed out of reach of children.
CAUTION: Risk of electric shock from energy stored in capacitors of the Inverter. Do not remove cover for 5 minutes after disconnecting all power sources (service technician only). Warranty may be voided if the cover is removed without unauthorized. .6.

2. Safety Instructions
2.3 Notice For Use
The inverter has been constructed according to the applicable safety and technical guidelines. Use the inverter in installations that meet the following specifications only:
Permanent installation is required. The electrical installation must meet all the applicable regulations and standards. The inverter must be installed according to the instructions stated in this manual. The inverter must be installed according to the correct technical specifications. To startup the inverter, the Grid Supply Main Switch (AC) must be switched on, before the solar panel’s DC isolator shall be switched on. To stop the inverter, the Grid Supply Main Switch (AC) must be switched off before the solar panel’s DC isolator shall be switched off.
2.4 Notice for Disposal
This product shall not be disposed of with household waste. They should be segregated and brought to an appropriate collection point to enable recycling and avoid potential impacts on the environment and human health. Local rules in waste management shall be respected .
.7.

3. Overview
3.1 Front Panel Display

Figure 3.1 Front Panel Display
3.2 LED Status Indicator Lights

Light

Status

Description

ON

The inverter can detect DC power.

1

POWER

OFF

No DC power or low DC power.

ON

The inverter is operating properly.

2

OPERATION

OFF

The inverter has stopped to supply power.

FLASHING The inverter is initializing.

ON

Alarm or fault condition is detected.

3

ALARM

OFF

The inverter is operating without fault or alarm.

Table 3.1 Status Indicator Lights

3.3 Keypad
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).

3.4 LCD
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; Alarm messages and fault indications.

Service messages for operator;

.8.

4. Installation
4.1 Select a Location for the Inverter
To select a location for the inverter, the following criteria should be considered: WARNING: Risk of fire Despite careful construction, electrical devices can cause fires. Do not install the inverter in areas containing highly flammable materials or gases. Do not install the inverter in potentially explosive atmospheres. The mounting structure where the inverter is installed must be fireproof.
Do not install in small closed spaces where air cannot 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. Recommends inverter installed to avoid direct sunlight or raining. To avoid over heating ambient air temperature must be considered when choosing the inverter installation location. Recommends using a sun shade minimizing direct sunlight when the ambient air temperature around the unit exceeds 104°F/40°C.
Figure 4.1 Recommended Installation locations
.9.

4. Installation
Install on a wall or strong structure capable of bearing the weight.
Install vertically with a maximum incline of +/- 5°.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. When 1 or more inverters are installed in one location, a minimum 12inchs clearance should be kept between each inverter or other object. The bottom of the inverter should be 20inchs clearance to the ground.

300mm

300mm

300mm

300mm

300mm

500mm

500mm

Figure 4.2 Inverter Mounting clearance
Visibility of the LED status indicator lights and the LCD located at the front panel of the inverter should be considered. Adequate ventilation must be provided if the inverter is to be installed in a confined space.
NOTE: Nothing should be stored on or placed against the inverter.

.10.

4.2 Mounting the Inverter
Dimensions of mounting bracket:

4. Installation

Figure 4.3 Inverter wall mounting Please see Figure 4.4 and Figure 4.5 for instruction on mounting the inverter.. The inverter shall be mounted vertically. The steps to mount the inverter are listed below.
1. According to the figure 4.2, select the mounting height of the bracket and mark the mounting holes. For brick walls, the position of the holes should be suitable for the expansion bolts.
Bracket
Suitable fixing screws Figure 4.4 Inverter wall mounting 2. Make sure the bracket is horizontal. And the mounting holes (in Figure 4.4) are marked correctly. Drill the holes into wall at your marks. 3. Use the suitable expansion screws to fix the bracket on the wall.
.11.

4. Installation
WARNING: The inverter must be mounted vertically. 4. Lift up the inverter (be careful to avoid body strain), and align the back bracket on the inverter with the convex section of the mounting bracket. Hang the inverter on the mounting bracket and make sure the inverter is secure (see Figure 4.5). Locking screws
Figure 4.5 Wall Mount Bracket 5. Use M4*9 screws in accessory to lock the inverter to the mount bracket.
.12.

4. Installation
4.3 Electrical Connections
Inverter designs quick-connect terminal, so top cover needn’t open during electrical connection. The sign meaning located the bottom of inverter, as shown below in table 4.1. All electrical connections are suit for the local or national standard.

+ DC 1 DC 2 DC SWITCH COM GRID

Positive DC input terminal Negative DC input terminal DC input terminal DC input terminal Switch of DC input terminals RJ45 and terminal block for RS485 communication port Connecting terminal of the Grid
Table 4.1 Electrical connection symbols

4.3.1 Connect PV side of inverter
The electrical connection of the inverter must follow the steps listed below:

1. Switch the Grid Supply Main Switch (AC) OFF. 2. Switch the DC Isolator OFF.
2. Assemble PV input connector to the Inverter.
   Before connecting inverter, please make sure the PV array open circuit voltage is within the limit of the inverter.
   Maximum 600Vdc for S6-GR1P0.6K-M, S6-GR1P0.7K-M, S6-GR1P1K-M, S6-GR1P1.5K-M,
   S6-GR1P2K-M, S6-GR1P2.5K-M, S6-GR1P3K-M, S6-GR1P3.6K-M

NOTE: Before connection, please make sure the polarity of the output voltage of PV array matches the”DC+”and”DC-“symbols.

WARNING: Please don’t connect PV array positive or negative pole to the ground, it could cause serious damages to the inverter.
.13.

4. Installation

4. Installation

Figure 4.6 DC+ Connector

Figure 4.7 DC- Connector

Please use approved DC cable for PV system.

Cable type
Industry generic PV cable model:PV1-F

Cross sectionmm²

Range

Recommended value

4.0~6.0 12~10AWG

4.012AWG

The steps to assemble the DC connectors are listed as follows: 1. Strip off the DC wire for about 7mm, Disassemble the connector cap nut. (see Figure 4.8)
2. Insert the wire into the connector cap nut and contact pin. (see Figure 4.9) 3. Crimp the contact pin to the wire using a proper wire crimper. (see Figure 4.10) 4. Insert the contact pin to the top part of the connector and screw up the cap nut to the top part of the connector .(see figure 4.11). 5. Then connect the DC connectors to the inverter. Small click will confirm connection. (see figure 4.12)

Figure 4.8 Disassemble the Connector Cap nut
.14.

Figure 4.9 Insert the Wire into the Connector Cap nut and contact pin

Crimping plier
Figure 4.10 Crimp the contact pin to the wire

Figure 4.11 Connector with Cap nut Screwed on

Figure 4.12 Connect the DC Connectors to the Inverter
CAUTION: If DC inputs are accidently reversely connected or inverter is faulty or not working properly, it is NOT allowed to turn off the DC switch. Otherwise it may cause DC arc and damage the inverter or even lead to a fire disaster. The correct actions are: Use a clip-on ammeter to measure the DC string current. If it is above 0.5A, please wait for the solar irradiance reduces until the current decreases to below 0.5A. Only after the current is below 0.5A, you are allowed to turn off the DC switches and disconnect the PV strings. In order to completely eliminate the possibility of failure, please disconnect the PV strings after turning off the DC switch to aviod secondary failures due to continuous PV energy on the next day. Please note that any damages due to wrong operations are not covered in the device warranty.
.15.

4. Installation
4.3.2 Connect grid side of inverter
For all AC connections, 2.5- 6mm2 105 cable is required to be used. Please make sure the resistance of cable is lower than 1 ohm. If the wire is longer than 20m, it’s recommended to use 6mm2 cable.
There are”L”,”N”,”PE”symbols marked inside the connector, the Line wire of grid must be connected to”L”terminal, the Neutral wire of grid must be connected to “N” terminal and Earth wire must be connected to “PE”.

Cable type
Industry generic PV cable

Cross sectionmm²

Range

Recommended value

2.5~6.0

6.0

Table 4.2 Grid cable size

Figure 4.13 AC Grid Terminal Connector Inside

Each Solis S6 Mini Single Phase Inverter is supplied with an AC grid terminal connector.

Body

Claw Seal body

Nut

Code end terminal

Figure 4.14 AC Grid Terminal Connector .16.

4. Installation
The steps to assemble the AC grid terminal connectors are listed as follows:

1. Disassemble the AC connector. Strip the AC wires about 7mm.

Figure 4.15 Stripped AC Wires
2. Fix the wires into the correct postion. Torque 0.8N.m Please try to pull out the wire to make sure the it’s well connected.

Locker

Housing

Figure 4.16 Connect Wires to the Terminal 3. Insert Seal and Clamp Finger into body ,then tighten the nut, torque 2.5+/-0.5N·m.

Figure 4.17 Tighten up the Cap on the Terminal

.17.

4. Installation
4. Mating plug and socket: Push the locker onto the socket housing completely, then rotate the locker according to the direction instructed by the marks on the locker.(Warning:hold the body)
Figure 4.18 Connect the AC Connector to the Inverter NOTE: Connection for Split phase grid. When connect to 208/220/240V split phase, please connect L1 to “L” terminal, L2 to “N” terminal. Also connect earth to ground terminal.
4.3.3 External ground connection
An external ground connection is provided at the right side of inverter. Prepare OT terminals: M4. Use proper tooling to crimp the lug to the terminal. Connect the OT terminal with ground cable to the right side of inverter. The torque is 2N.m.
Figure 4.19 Connect the external grounding conductor .18.

4. Installation

4.3.4 Max. over current protection device (OCPD)
To protect the inverter’s AC grid connection conductors, Solis recommends installing breakers that will protect against overcurrent. The following table defines OCPD ratings for the Solis S6 Mini Single Phase Inverters.

Inverter

Rated output Rated output Current for protection

voltage(V)

current (A)

device (A)

S6-GR1P0.7K-M

220/230

3.2/3.0

10

S6-GR1P1K-M

220/230

4.5/4.3

10

S6-GR1P1.5K-M

220/230

6.8/6.5

10

S6-GR1P2K-M

220/230

9.1/8.7

15

S6-GR1P2.5K-M

220/230

11.4/10.9

15

S6-GR1P3K-M

220/230

13.6/13.0

20

S6-GR1P3.6K-M

220/230

16.0

20

S6-GR1P0.6K-M (For Germany)

230

2.6

10

Table 4.3 Rating of grid OCPD

4.3.5 Inverter monitoring connection
The inverter can be monitored via Wi-Fi or GPRS. All Solis communication devices are optional (Figure 4.20). For connection instructions, please refer to the Solis Monitoring Device installation manuals.

GPRS monitoring Router
Wi-Fi monitoring

Smart phone monitoring

Internet

Web server

Wi-Fi monitoring

Wi-Fi box

PC monitoring

Figure 4.20 Communication function

.19.

4. Installation

4.3.6 Electrical connection diagram
Refer to figure 4.21, which is a simple guidance for installing a solar system with PV inverter. A DC isolator is required to be installed in the system between PV panels with inverter.

Main

switch

Consumers mains

1

(to grid)

MAIN SWITCHBOARD 2

Solar supply main switch
1

Isolation device
Inverter with integral grid Protection device

Solar (PV) array

Isolation switch

Circuits not Circuits Protected

protected by

by RCDs

RCDs

Figure 4.21 Guidance for a Simple Installation of an Inverter Solar Energy System

1. The RCD should be in parallel connection between the consumers mains and the solar supply. 2. More than one RCD may be used. Each RCD can protect one or more circuits.
4.3.7 Meter Connection(optional)
The inverter can work with a single phase smart meter to achieve Export Power Management function and/or 24hour consumption monitoring function.

NOTE: Inverters are classified as “Meter Model” and “CT Model” due to hardware difference. Meter Model can only connect a smart meter. CT Model can only connect a smart sensor. Please consult Solis Sales Rep before placing the order.

NOTE: To achieve Export Power Management function, the smart meter can be installed on either grid side or load side. To achieve 24hour consumption monitoring function, the smart meter can only be installed on grid side.
Two types of meters are supported: Direct Insert Type Meter – Max input current 60A (Model:DDSD1352-C) External CT Type Meter – 120A/40mA CT is supplied (Model: ACR10RD16TE) Customer can place the order for a suitable meter from Solis Sales Reps. Below are the connection diagrams of different meters connecting to different locations. Detailed settings please refer to Section 6.5.12.
.20.

4. Installation

Pre-made Cable in Meter Package

AB 5 67 8

2-Pin Connector

Load L N PE
INV L INV N INV PE

L L’ N N’
Grid L Grid N Grid PE

Figure 4.22 Direct Insert Type Meter – “Meter in Grid”

2-Pin Connector

INV L INV N INV PE

Pre-made Cable in Meter Package

AB 56 78

Grid L Grid N Grid PE

L L’ N N’

Load L N PE
Figure 4.23 Direct Insert Type Meter – “Meter in Load”
.21.

4. Installation

1 2 3 4 13 12

Pre-made Cable in Meter Package RJ45 Connector

5 6 7 8 9 10 21 22 23

2-Pin Connector

Load L N PE
INV L INV N INV PE

White +

Black –
CT Arrow

Grid Grid L Grid N Grid PE

Figure 4.24 External CT Type Meter – “Meter in Grid”

INV L INV N INV PE
2-Pin Connector Pre-made Cable in Meter Package
1 2 3 4 13 12

Grid L Grid N Grid PE

CT Arrow Grid

RJ45 Connector 5 6 7 8 9 10 21 22 23

White Black

–

Load L N PE

Figure 4.25 External CT Type Meter – “Meter in Load”

.22.

4. Installation
4.3.8 CT connections(optional)
The inverter can work with a smart sensor to achieve Export Power Management function.
NOTE: Inverters are classified as “Meter Model” and “CT Model” due to hardware difference. Meter Model can only connect a smart meter. CT Model can only connect a smart sensor. Please consult Solis Sales Rep before placing the order.
NOTE: To achieve Export Power Management function, the smart sensor must be installed on the grid side.
Below is the connection diagram of the smart sensor. Detailed settings please refer to Section 6.5.12.
Pre-made Cable in CT Package

2-Pin Connector

INV L INV N INV PE

CT Arrow Grid

Grid L Grid N Grid PE

Load L N PE
Figure 4.26 Smart Sensor

.23.

4. Installation
4.3.9 Logic interface connection
Logic interface is required by some local regulations that can be operated by a simple switch or contactor(Not available in South Africa). When the switch is closed the inverter can operated normally. When the switch is opened, the inverter will reduce it’s output power to zero within 5s. Pin5 and Pin6 of RJ45 terminal is used for the logic interface connection.
Please follow below steps to assemble RJ45 connector. 1.Insert the network cable into the communication connection terminal of RJ45.

Figure 4.27 RJ45 communication connection terminals
2.Use the network wire stripper to strip the insulation layer of the communication cable. According to the standard line sequence of figure 4.28 connect the wire to the plug of RJ45, and then use a network cable crimping tool to make it tight.

Rj45 plug

1–8

Rj45terminal

Correspondence between the cables and the stitches of plug, Pin5 and Pin6

12345678

of RJ45 terminal is used for the logic interface, other Pins are reserved.

Pin 1: Reserved; Pin 2: Reserved

12345678

Pin 3: Reserved; Pin 4: Reserved

Switch_input1 Switch_input2 Pin 5: Switch_input1; Pin 6: Switch_input2

DRM(logic interface)

Pin 7: Reserved; Pin 8: Reserved

Figure 4.28 Strip the insulation layer and connect to RJ45 plug
3.Connect RJ45 to DRM (logic interface) . After wire connection, please refer chapter 6.5.9.1 to enable the logic interface function.

5. Start & Stop
5.1 Start the Inverter
To start up the Inverter, it is important that the following steps are strictly followed: 1. Switch the grid supply main Switch (AC) ON first. 2. Switch the DC switch ON. If the voltage of PV arrays are higher than start up voltage, the inverter will turn on. The red LED power will light. 3. When both the DC and the AC sides supply to the inverter, it will be ready to generate power. Initially, the inverter will check both its internal parameters and the parameters of the AC grid, to ensure that they are within the acceptable limits. At the same time, the green LED will flash and the LCD displays the information of INITIALIZING. 4. After 30-300 seconds (depending on local requirement), the inverter will start to generate power. The green LED will be on continually and the LCD displays GENERATING.
WARNING: Do not touch the surface when the inverter is operating. It may be hot and cause burns.
5.2 Stop the Inverter
To stop the inverter, it is mandatory that the steps below are followed in the exact order outlined. 1. Select “Grid Off” in the Advanced Setting of Inverter LCD. 2. Turn off the AC Switch between Solis inverter and Grid. 3. Wait approximately 30 seconds (during this time, the AC side capacitors are dissipating energy). If the inverter has DC voltage above the start-up threshold, the red POWER LED will be lit. Switch the DC switch OFF. 4. Confirm all LED’s switch OFF (~one (1) minute).
CAUTION Although the inverter DC disconnect switch is in the OFF position and all the LED’s are OFF, operators must wait five (5) minutes after the DC power source has been disconnected before opening the inverter cabinet. DC side capacitors can take up to five (5) minutes to dissipate all stored energy.

.24.

.25.

6. Operation

During normal operation, the display alternately shows the power and the operation status with each screen lasting for 10 seconds (see Figure 6.1). Screens can also be scrolled manually by pressing the UP and DOWN keys. Press the ENTER key to access to the Main Menu.

Pressing the ESC key
calls back the previous menu.

Power

3424W

01-01-2020 00:00

5 sec Start

UP/DOWN or auto-scroll (10 sec)
Status: Generating 01-01-2020 00:00

Main Menu Information UP/DOWN
Settings UP/DOWN Advanced Info. UP/DOWN

Pressing the ENTER key gives access to the main menu.

Advanced settings

Figure 6.1 Operation Overview

6.1 Main Menu
There are four submenus in the Main Menu (see Figure 6.1): 1. Information 2. Settings 3. Advanced Info. 4. Advanced Settings
6.2 Information
The Solis S6 Mini Single Phase Inverter main menu provides access to operational data and information. The information is displayed by selecting “Information” from the menu and then by scrolling up or down.

.26.

6. Operation

Display
V_DC1 350.8V I_DC1 5.1A
V_DC2 350.8V I_DC2 5.1A
V_Grid 230.4V I_Grid 8.1A
Status: Generating Power: 1488W
Grid Frequency F_Grid 60.06Hz

Duration 10 sec 10 sec 10 sec 10 sec

Description
V_DC1: Shows input 01 voltage value. I_DC1: Shows input 01 current value.
V_DC2: Shows input 02 voltage value. I_DC2: Shows input 02 current value.
V_Grid: Shows the grid’s voltage value I_Grid: Shows the grid’s current value.
Status: Shows instant status of the Inverter. Power: Shows instant output power value.

10 sec F_Grid: Shows the grid’s frequency value.

Total Energy 0258458 kwh
This Month: 0123kwh Last Month: 0123kwh
Today: 15.1kwh Yesterday: 13.5kwh

Inverter SN 00000000000000

Export_P: +0000W

Export_I:

00.0A

Work Mode: NULL DRM Number: 08

Meter EnergyP 0000000.00kWh

10 sec

Total generated energy value.

10 sec 10 sec

This Month: Total energy generated this month. Last Month: Total energy generated last month.
Today: Total energy generated today. Yesterday: Total energy generated yesterday.

10 sec

Display series number of the inverter.

10 sec 10 sec

Power of ERM. Current of EPM.
Work Mode:The work mode of inverter. DRM Number:Show the number 01-08.

10 sec

Meter EnergyP:The active power.

Table 6.1 Information list

.27.

6. Operation
6.2.1 Lock screen
Pressing the ESC key returns to the Main Menu. Pressing the ENTER key locks (Figure 6.2(a)) or unlocks (Figure 6.2 (b)) the screen.

5.2 Stop the Inverter

(a)

(b)

Figure 6.2 Locks and Unlocks the Screen of LCD

6.3 Settings
The following submenus are displayed when the Settings menu is selected: 1.Set Time 2.Set Address
6.3.1 Set Time
This function allows time and date setting. When this function is selected, the LCD will display a screen as shown in Figure 6.3.

NEXT= OK= 01-01-2020 00:00
Figure 6.3 Set Time
Press the UP/DOWN keys to set time and data. Press the ENTER key to move from one digit to the next (from left to right). Press the ESC key to save the settings and return to the previous menu.
6.3.2 Set Address
This function is used to set the address when muti inverters are connected to single monitor. The address number can be assigned from “01”to “99”. The default address number of Solis S6 Mini Single Phase Inverter is “01”.

YES= NO= Set Address: 01
Figure 6.4 Set Address
Press the UP/DOWN keys to set the address. Press the ENTER key to save the settings. Press the ESC key to cancel the change and return to the previous menu.

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6. Operation
6.4 Advanced Info – Technicians Only
NOTE: To access to this area is for fully qualified and accredited technicians only. Enter menu “Advanced Info.” and “Advanced settings” (need password).
Select “Advanced Info.” from the Main Menu. The screen will require the password as below:
YES= NO= Password:0000
Figure 6.5 Enter password
The default password is “0010”. Please press “down” to move the cursor, press “up” to select the number. After enter the correct password the Main Menu will display a screen and be able to access to the following information. 1.Alarm Message 2. Running message 3.Version 4. Daily Energy 5. Monthly Energy 6. Yearly Energy 7. Daily Record 8.Communication Data 9.Warning Message
6.4.1 Alarm Message
The display shows the 100 latest alarm messages. Screens can be scrolled manually by pressing the UP/ DOWN keys. Press the ESC key to return to the previous menu.
Alarm001: OV-G-V Time: 00-00 Data: 7171
Figure 6.6 Alarm Message
6.4.2 Running Message
This function is for maintaince person to get running message such as internal temperature, Standard No.etc. Screens can be scrolled manually by pressing the UP/DOWN keys.
.29.

6. Operation
6.4.3 Version
The screen shows the model version and the software version of the Inverter
Model: 08 Software Version: D20001
Figure 6.7 Model Version and Software Version
6.4.4 Daily Energy
The function is for checking the energy generation for selected day.
YES= NO= Select: 2020-01-01
Figure 6.8 Select date for daily energy
Press DOWN key to move the cursor to day, month and year, press UP key to change the digit. Press Enter after the date is fixed.
2020-01-01: 051.3kWh 2020-01-01: 061.5kWh
Figure 6.9 Daily energy Press UP/DOWN key to move one date from another.
6.4.5 Monthly Energy
The function is for checking the energy generation for selected month.
YES= NO= Select: 2020-01
Figure 6.10 Select month for monthly energy
Press DOWN key to move the cursor to day and month, press UP key to change the digit. Press Enter after the date is fixed.
2020-02: 0510kWh 2020-01: 0610kWh
Figure 6.11 Month energy
Press UP/DOWN key to move one date from another. .30.

6. Operation
6.4.6 Yearly Energy
The function is for checking the energy generation for selected year.
YES= NO= Select: 2020
Figure 6.12 Select year for yearly energy
Press DOWN key to move the cursor to day and year, press UP key to change the digit. Press Enter after the date is fixed.
2020: 0017513kWh 2019: 0165879kWh
Figure 6.13 Yearly energy Press UP/DOWN key to move one date from another.
6.4.7 Daily record
The screen shows history of changing settings. Only for maintance personel.
6.4.8 Communication Data
The screen shows the internal data of the Inverter (see Figure 6.14), which is for service technicians only.
01-05: 01 25 E4 9D AA 06-10: C2 B5 E4 9D 55 Figure 6.14 Communication Data
6.4.9 Warning Message
The display shows the 100 latest warn messages (see Figure 6.15). Screens can be scrolled manually by pressing the UP/ DOWN keys. Press the ESC key to return to the previous menu.
Msg000: T: 00-00 00:00 D:0000 Figure 6.15 Warning Message
.31.

6. Operation
6.5 Advanced Settings – Technicians Only
NOTE: To access to this area is for fully qualified and accredited technicians only. Please follow 6.4 to enter password to access this menu.
Select Advanced Settings from the Main Menu to access the following options:

1. Select Standard 2. Grid ON/OFF 3. 24H Switch 4. Clear Energy 5. Reset Password 6. Power Control 7. Calibrate Energy 8. Special Settings 9. STD. Mode Settings 10. Restore Settings 11. HMI Update 12. Internal EPM Set 13. External EPM Set 14. Restart HMI 15. Debug Parameter 16. DSP Update 17. Power Parameter
   6.5.1 Selecting Standard
   This function is used to select the grid’s reference standard (see Figure 6.16).
   YES= NO= Standard:AS4777-02
   Figure 6.16
   Press the UP/DOWN keys to select the standard (AS4777-02,AS4777-15, VDE4105, VDE0126, UL-240V-A, UL-208V-A, UL-240V, UL-208V, MEX-CFE, G83/2 (for 1-3.6kW models), G59/3 (for 4-5kW models), C10/11, EN50438 DK, EN50438 IE, EN50438 NL and “User-Def” function).
   NOTE: This function is for technicians use only.
   .32.

6. Operation

NOTE: For different countries, the grid standard needs to be set as different according to local requirements. If there is any doubt, please consult Solis service technicians for details.
Selecting the “User-Def” menu will access to the following submenu (see Figure 6.17),

OV-G-V1: 260V OV-G-V1-T: 1S
Figure 6.17

NOTE: The ” User-Def” function can be only used by the service engineer and must be allowed by the local energy supplier.

Below is the setting range for “User-Def”. Using this function, the limits can be changed manually.

OV-G-V1: 176—290V OV-G-V1-T: 0.01—600S OV-G-V2: 176—290V OV-G-V2-T: 0.01—600S UN-G-V1: 110—220V UN-G-V1-T: 0.01—600S UN-G-V2: 110—220V UN-G-V2-T: 0.01—600S Startup-T: 10-600S

OV-G-F1: 50.1-65Hz OV-G-F1-T: 0.01—600S OV-G-F2: 50.1-65Hz OV-G-F2-T: 0.01—600S UN-G-F1: 45-59.9Hz UN-G-F1-T: 0.01—600S UN-G-F2: 45-59.9Hz UN-G-F2-T: 0.01—600S Restore-T: 10-600S

Table 6.2 Setting ranges for User-Def (L-N)

6.5.2 Grid ON/OFF
This function is used to start up or stop the power generation of Solis Single Phase Inverter.

Grid ON Grid OFF
Figure 6.18 Set Grid ON/OFF
Screens can be scrolled manually by pressing the UP/DOWN keys. Press the ENTER key to save the setting. Press the ESC key to return to the previous menu.
.33.

6. Operation
6.5.3 24H Switch
This function controls the 24H hours consumption function enable or disable.
Enable Disable
Figure 6.19 Set 24H ON/OFF
NOTE: When this is enabled, the inverter LCD will still be alive at night with the power LED light on. If the grid is in malfunction at night, the system can’t recover even after the grid is back to normal but the consumption data will still be recorded in the meter. Until the sunrise, the system will start to work again while the meter data can be uploaded to the Solis monitoring system to calibrate the load consumption data.
6.5.4 Clear Energy
Clear Energy can reset the history yield of inverter.
These two functions are applicable by maintenance personnel only, wrong operation will prevent the inverter from working properly.
6.5.5 Reset Password
This function is used to set the new password for menu “Advanced info.” and “Advanced information” (see Figure 6.20).
YES= NO= Password: 0000
Figure 6.20 Set new password
Enter the right password before set new password. Press the DOWN key to move the cursor, Press the UP key to revise the value. Press the ENTER key to execute the setting. Press the ESC key to return to the previous menu.

6. Operation
6.5.6 Power control
Active and reactive power can be set through power setting button. There are 5 item for this sub menu: 1. Set output power 2. Set Reactive Power 3. Out_P With Restore 4. Rea_P With Restore 5. Select PF Curve
This function is applicable by maintenance personnel only, wrong operation will prevent the inverter from reaching maximum power.
6.5.7 Calibrate Energy
Maintenance or replacement could clear or cause a different value of total energy. Use this function could allow user to revise the value of total energy to the same value as before. If the monitoring website is used the data will be synchronous with this setting automatically.
YES= NO= Energy:0000000kWh
Figure 6.21 Calibrate energy
Press the DOWN key to move the cursor, Press the UP key to revise the value. Press the ENTER key to execute the setting. Press the ESC key to return to the previous menu.
6.5.8 Special Settings
This function is applicable by maintenance personnel only, wrong operation will prevent the inverter from working properly.

.34.

.35.

6. Operation
6.5.9 STD Mode settings
There are 5 setting under STD. Mode settings. 1. Working mode 2. Power Rate limit 3. Freq. Derate set 4. 10mins OV-G-V set. 5. Initial Settings
This function is applicable by maintenance personnel only, wrong operation will prevent the inverter from reaching maximum power.
Please follow below settings to enable the DRM. DRM default setting is “OFF” , if DRM set “ON”, but the logic interface un-connected to the switch or the switch is open, the inverter HMI will display “Limit by DRM” and the inverter output power will be limited to zero. 1. Select Initial Settings 2. Select DRM and set it “ON”
6.5.10 Restore Settings
Restore setting could set all item in 6.5.8 special setting to default. Thescreenshowsasbelow:
Are you sure? YES= NO= Figure 6.22 Restore Settings
PresstheEnterkeytosavethesettingaftersettinggridoff. PresstheESCkeytoreturnthepreviousmean.
6.5.11 HMI Update
This function is used for updating the LCD program.
This function is applicable by maintenance personnel only, wrong operation will prevent the inverter from reaching maximum power.
.36.

6.5.12 Internal EPM Set

6. Operation

NOTE: This section includes two functions related to the smart meter or smart sensor. Please refer to section 4.3.7 or 4.3.8 for detailed connection diagrams.
Function 1: Internal Export Power Management Function Inverters can work with a smart meter OR a smart sensor to dynamically limit the export power of the system. Zero injection can be achieved. Smart meter can be installed either on the grid side OR the load side. Smart sensor can only be installed on the grid side.
Function 2: 24 Hour Consumption Monitoring Function Only applicable if Solis monitoring system is used. Inverters can work with a smart meter to monitor the load consumption data for the whole day and the data will be displayed on the Solis monitoring system. Smart meter can only be installed on the grid side.

NOTE:
Please refer to below instructions for different user scenarios. Scenario 1. Only Function 1 is required Using a Smart Meter: Step 1: Refer to Section 4.3.7 to connect the smart meter on the grid side or
load side. Step 2: Select the corresponding meter model in Section 6.5.12.4 Step 3: Select the Section 6.5.12.1 Mode Select as Option 2(Meter in Load)
or Option 3 (Meter in Grid) accordingly. Step 4: Configure the Section 6.5.12.2 to set the allowed backflow power. Step 5: Configure the Section 6.5.12.3 to enable the failsafe function (If necessary).
Using a Smart Sensor: Step 1: Refer to Section 4.3.8 to connect the smart sensor on the grid side. Step 2: Select the Section 6.5.12.1 Mode Select as Option 5(Current Sensor). Step 3: Configure the “CT Sampling Ratio” and “CT Link Test” if necessary. Step 4: Configure the Section 6.5.12.2 to set the allowed backflow power. Step 5: Configure the Section 6.5.12.3 to enable the failsafe function (If necessary).

.37.

6. Operation
Scenario 2. Both Function 1 and 2 are required Using a Smart Meter: Step 1: Refer to Section 4.3.7 to connect the smart meter on the grid side. Step 2: Select the corresponding meter model in Section 6.5.12.4 Step 3: Select the Section 6.5.11.1 Mode Select as Option 3(Meter in Grid). Step 4: Select the Section 6.5.3 24H Switch as “Enable”. Step 5: Configure the Section 6.5.11.2 to set the allowed backflow power. Step 6: Configure the Section 6.5.11.3 to enable the failsafe function (If necessary). Step 7: Configure the Solis monitoring system (Please refer to the manual of
monitoring device) If customer does not want to enable the export power control function, please change the “backflow power” to the max output power of the inverter in Step 5 OR simply select the mode as “consumption monitor” in Step 3 and skip Step 5-6.
Select EPM Settings from the Main Menu to access the following options: 1. Mode Select 2. Set Backflow Power 3. Fail safe ON/OFF 4. Meter Select
6.5.12.1 Mode Select
There are 5 settings in this menu as below: 1. EPM OFF 2. Meter in Load 3. Meter in Grid 4.Consumption Monitor 5. Current sensor EPM OFF: Functions are disabled Meter in Load: Solis Smart Meter is connected in the load branch circuit. Meter in Grid: Solis Smart Meter is connected in the grid connection point (The backflow power is default as 0W). Consumption Monitor: Solis Smart Meter is connected in the grid connection point (The backflow power setting is not applicable). Current sensor: Solis Smart Sensor is connected in the grid connection poin.
.38.

6. Operation

NOTE: For option 5 (Current sensor), there are several sub-settings available
when “Current sensor” is selected.

·CT Sampling Ratio This setting is used to define the CT sampling ratio if customer didn’t use the default CT supplied by Solis. The default CT is 100A:33.33mA (Default ratio is 3000:1)

-> CT Sampling Ratio

YES= NO= Ratio:3000:1

·CT Link Test This setting is used to check the direction of the CT (Not complusory) The result is only valid if the following conditions are met. 1. Load power is over 500W. 2. Inverter is set as “Grid OFF” in the LCD. 3. CT is connected to the inverter CT port and the CT is placed at the grid side.

CT Link State Correct

NOTE: There are 3 states in the CT Link Test “Error” means the CT is installed in the wrong direction, please change it. “Can not judge” means the load power is too small and the result is not credible. “Correct” means the CT is installed correctly.

Inverter CT Input L N
× CT × CT
L N Load

CT

L N Grid

.39.

6. Operation
6.5.12.2 Backflow Power
The setting is used to define the allowed export power into the grid.

->Set Backflow Power

YES= NO= Power:-00000W

Figure 6.23 Set the backflow power

NOTE: Positive values indicate the amount of power is allowed to export to the grid. Negative values indicate a more strict control to limit the export power in advance thus ensuring exact no power is feeding into the grid.

6.5.12.3 Fail safe ON/OFF
This setting is used to give out an alarm (stop inverter generation as well) when the CT/Meter connection is lost during operation. It can prevent potential backflow power into the grid when the system loses control.

YES= NO= Fail Safe Set:ON
Figure 6.24 Set the Fail Safe ON/OFF
It is only mandatory to turn on this function when the inverter is installed in UK due to the G100 regulation. For other regions,customers can enable or disable the function as they desire.
NOTE: When the failsafe function is ON and CT/Meter is disconnected somehow, the inverter will stop generation and give “Failsafe” alarm on the LCD. When the failsafe function is OFF and CT/Meter is disconnected somehow, the inverter will keep the output power as the last moment when the CT/Meter is still connected. After a restart, the inverter will output at full power without limit.

.40.

6. Operation
6.5.12.4 Meter Select
The setting is used to define the correct meter that is connected to the inverter.

->1PH Meter 3PH Meter

->DDSD1352-C ACR10RD16TE

Figure 6.25 Meter Select

For Solis single phase inverters, please select “1PH Meter” and then select the corresponding meter model.
6.5.13 External EPM Set
This setting should only be turned on when Solis external EPM device is used. Two options are available5G-EPM and Others-EPM.

->5G-EPM Others-EPM
Figure 6.26
5G-EPM Failsafe Option should be turned ON when 5G series EPM device is used Others-EPM Failsafe Option should be turned ON when 2G series EPM device is used Only one option can be activated each time.
6.5.14 Restart HMI
ThefunctionisusedforrestarttheHMI.

This function is applicable by maintenance personnel only, wrong operation will prevent the inverter from reaching maximum power.

6.5.15 Debug Parameter
This function is used for manufacturer maintenance personnel only.
6.5.16 DSP Update
The function is used for update the DSP.

This function is applicable by maintenance personnel only, wrong operation will prevent the inverter from reaching maximum power.

.41.

6. Operation
6.5.17 Power Parameter
This function is used for calibrate inverter output energy. It will not impact the energy count for inverter with RGM. The screen shows:
YES= NO= Power para:1.000
Figure 6.27 Power Rate Limit
Press the Down key to move the cursor. Press the Up key to change the digit. Please press the Enter to save the setting and press the ESC key to return to the previous menu.
This setting is used for grid operator, don’t change setting under this manual.

6.6 AFCI function
Solis inverters have the built-in AFCI function which can detect the arc fault on the DC circuit and shut down the inverter to prevent a fire disaster.
6.6.1 Enable the AFCI function
The AFCI function can be enabled in the following. Path: Advanced Setting -> Password: 0010 ->Special Settings -> AFCI Set -> AFCI ON/OFF -> ON

AFCI ON/OFF AFCI Level

ON OFF

Figure 6.28 Set AFCI

6. Operation
Warning: The “AFCI Level” is reserved for Solis technicians ONLY. Do not change the sensitivity otherwise it will lead to frequent false alarms or malfunctions. Solis is not responsible for any further damages caused by unauthorized modifications.
NOTE: The setting corresponds to the current status as well which can be used to inspect the ON/OFF state of the AFCI function.
6.6.2 Arc Fault
During the normal operation, if an DC arc is detected, the inverter will shut down and give out the following alarm:
ARC-FAULT Restart Press ESC 3s
Figure 6.29 Arc Fault
Installer needs to thoroughly inspect the DC circuit to ensure all the cables are correctly fastened. Once the DC circuit issue has been fixed or it is confirmed to be OK, press “ESC” for 3s and wait for the inverter to restart.

.42.

.43.

7. Maintenance
Solis S6 Mini Single Phase Inverter does not require any regular maintenance. However, cleaning the dust on heat-sink will help the inverter to dissipate the heat and increase its life time. The dust can be removed with a soft brush.
CAUTION: Do not touch the inverter’s surface when it is operating. Some parts of the inverter may be hot and cause burns. Turn off the inverter (refer to Section 5.2) and wait for a cool-down period before any maintenance or cleaning operation.
The LCD and the LED status indicator lights can be cleaned with a damp cloth if they are too dirty to be read.
NOTE: Never use any solvents, abrasives or corrosive materials to clean the inverter.
8. Troubleshooting
The inverter is designed in accordance with the most important international grid-tied standards and 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. In case of failure, the LCD screen will display an alarm message. In this case, the inverter may stop feeding into the grid. The failure descriptions and their corresponding alarm messages are listed in Table 8.1:
.44.

8. Troubleshooting

Alarm Message No power

Failure description
Inverter no power on LCD

LCD show initializing all the time

can not start-up

OV-G-V01/02/03/04 Over grid voltage

UN-G-V01/02 OV-G-F01/02 UN-G-F01/02 Reverse-GRID Reverse-DC

Under grid voltage Over grid frequency Under grid frequency Wrong AC polarity Reverse DC polarity

NO-GRID

No grid voltage

OV-DC01/02/03/04 OV-BUS UN-BUS01/02 GRID-INTF01/02 OV-G-I IGBT-OV-I
DC-INTF OV-DCA-I
IGFOL-F
IG-AD

Over DC voltage Over DC bus voltage Under DC bus voltage Grid interference Over grid current Over IGBT current
DC input overcurrent
Grid current tracking fail Grid current sampling fail

OV-TEM

Over Temperature

INI-FAULT DSP-B-FAULT 12Power-FAULT

Initialization system fault
Comm. failure between main and slave DSP
12V power supply fault

PV ISO-PRO 01/02

PV isolation protection

Solution 1.Check PV input connections 2.Check DC input voltage
(single phase >120V, three phase >350V) 3.Check if PV+/- is reversed
1.Check if the connector on main board or power board are fixed.
2.Check if the DSP connector to power board are fixed.
1.Resistant of AC cable is too high. Change bigger size grid cable
2.Adjust the protection limit if it’s allowed by electrical company.
1.Use user define function to adjust the protection limit if it’s allowed by electrical company.
1. Check the polarity of AC connector. 1. Check the polarity of DC connector. 1.Check connections and grid switch. 2.Check the grid voltage inside inverter
terminal. 1.Reduce the module number in series
1.Check inverter inductor connection 2.Check driver connection
1.Restart inverter 2.Change power board
1.Restart inverter 2.Identify and remove the string to the fault MPPT 2.Change power board
1.Restart inverter or contact installer.
1.Check inverter surrounding ventilation. 2.Check if there’s sunshine direct on
inverter in hot weather.
1.Restart inverter or contact installer.
1.Remove all DC input, reconnect and restart inverter one by one.
2.Identify which string cause the fault and check the isolation of the string.
.45.

8. Troubleshooting

Alarm Message ILeak-PRO 01/02/03/04 RelayChk-FAIL DCinj-FAULT
Screen OFF with DC applied

Failure description Leakage current protection Relay check fail High DC injection current
Inverter internally damaged

Solution
1.Check AC and DC connection 2.Check inverter inside cable connection.
1.Restart inverter or contact installer.
1.Restart inverter or contact installer.
1.Do not turn off the DC switches as it will damage the inverter.
2.Please wait for the solar irradiance reduces and confirm the string current is less than 0.5A with a clip-on ammeter and then turn off the DC switches.
3.Please note that any damages due to wrong operations are not covered in the device warranty.

AFCI self-detection (model with AFCI module)
Arcing protection (model with AFCI module)

AFCI module self-detect fault 1.Restart inverter or connect technician.

Detect arc in DC circuit

1. Check inverter connection whether arc exists and restart inverter.

Table 8.1 Fault message and description

NOTE: If the inverter displays any alarm message as listed in Table 8.1; please turn off the inverter (refer to Section 5.2 to stop your inverter) and wait for 5 minutes before restarting it (refer to Section 5.1 to start your inverter). If the failure persists, please contact your local distributor or the service center. Please keep ready with you the following information before contacting us.
1. Serial number of Solis Single Phase Inverter; 2. The distributor/dealer of Solis Single Phase Inverter (if available); 3. Installation date. 4. The description of problem (i.e. the alarm message displayed on the LCD and the status
of the LED status indicator lights. Other readings obtained from the Information submenu (refer to Section 6.2) will also be helpful.); 5. The PV array configuration (e.g. number of panels, capacity of panels, number of strings , etc.); 6. Your contact details.

.46.

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market

S6-GR1P0.7K-M 600 200 60
50…500 14 22 1/1 700 770 770
1/N/PE, 220/230 3.2/3.0 4.4

0.99 (0.8 leading – 0.8 lagging) <3% 50/60
45…55 or 55…65 96.6% 95.3%
310W373H160D (mm) 7.4kg
Transformerless 1 W
– 2 5. . . + 6 0 0~100% IP66 <20 dBA
Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)
.47.

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market
.48.

S6-GR1P1K-M 600 200 60
50…500 14 22 1/1
1000 1100 1100 1/N/PE, 220/230 4.5/4.3 5.2 >0.99 (0.8 leading – 0.8 lagging)
<3% 50/60 45…55 or 55…65 96.6% 95.3% 310W373H160D (mm) 7.4kg
Transformerless 1 W
– 2 5. . . + 6 0 0~100% IP66 <20 dBA
Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market

S6-GR1P1.5K-M 600 200 60
50…500 14 22 1/1
1500 1650 1650 1/N/PE, 220/230 6.8/6.5
8.1 >0.99 (0.8 leading – 0.8 lagging)
<3% 50/60 45…55 or 55…65 96.6% 95.4% 310W373H160D (mm)
7.4kg Transformerless
1 W – 2 5. . . + 6 0
0~100% IP66
<20 dBA Natural convection
4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)
.49.

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market
.50.

S6-GR1P2K-M 600 330 90
80…500 14 22 1/1
2000 2200 2200 1/N/PE, 220/230 9.1/8.7 10.5 >0.99 (0.8 leading – 0.8 lagging)
<3% 50/60 45…55 or 55…65 97.1% 96.6% 310W373H160D (mm) 7.4kg
Transformerless 1 W
– 2 5. . . + 6 0 0~100% IP66 <20 dBA
Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market

S6-GR1P2.5K-M 600 330 90
80…500 14 22 1/1
2500 2750 2750 1/N/PE, 220/230 11.4/10.9 13.3 >0.99 (0.8 leading – 0.8 lagging) <3% 50/60 45…55 or 55…65 97.1% 96.7% 310W373H160D (mm) 7.7kg Transformerless 1 W – 2 5. . . + 6 0 0~100% IP66 <20 dBA Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)
.51.

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market
.52.

S6-GR1P3K-M 600 330 90
80…500 14 22 1/1
3000 3300 3300 1/N/PE, 220/230 13.6/13.0 15.7 >0.99 (0.8 leading – 0.8 lagging)
<3% 50/60 45…55 or 55…65 97.1% 96.7% 310W373H160D (mm) 7.7kg
Transformerless 1 W
– 2 5. . . + 6 0 0~100% IP66 <20 dBA
Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms Optional USB* :only for the brazilian market

S6-GR1P3.6K-M 600 330 90
80…500 19 24 1/2
3600 3600 3600 1/N/PE, 220/230 16.0 16.0 >0.99 (0.8 leading – 0.8 lagging) <3% 50/60 45…55 or 55…65 97.3% 96.8% 310W373H160D (mm) 7.7kg Transformerless 1 W – 2 5. . . + 6 0 0~100% IP66 <20 dBA Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS, USB* 5 Years (Extend to 20 Years)
.53.

9. Specifications

Model Max. DC input voltage (Volts) Rated DC voltage (Volts) Startup voltage (Volts) MPPT voltage range (Volts) Max. input current (Amps) Max short circuit input current (Amps) MPPT number/Max input strings number Rated output power (Watts) Max. output power (Watts) Max. apparent output power (VA) Rated grid voltage (Volts) Rated output current (Amps) Max. output current (Amps) Power Factor (at rated output power) THDi (at rated output power) Rated grid frequency (Hertz) Operating frequency range (Hertz) Max.efficiency EU efficiency Dimensions Weight Topology Self consumption (night) Operating ambient temperature range Relative humidity Ingress protection Noise emission (typical) Cooling concept Max.operation altitude
Grid connection standard
Safety/EMC standard DC connection AC connection Display Communication connections Warranty Terms

S6-GR1P0.6K-M(For Germany) 600 200 60
50…500 14 22 1/1 600 600 600
1/N/PE, 230 2.6 2.6

0.99 (0.8 leading – 0.8 lagging)
<3% 50/60 45…55 or 55…65 96.6% 95.3% 310W373H160D (mm) 7.4kg
Transformerless 1 W
– 2 5. . . + 6 0 0~100% IP66 <20 dBA
Natural convection 4000m
VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15 / VFR:2019, G98 or G99, RD 1699 / RD 244 / UNE 206006 / UNE 206007-1,
CEI 0-21, C10/11, NRS 097-2-1, TOR, EIFS 2018.2, IEC 62116, IEC 61727, IEC 60068,
IEC 61683, EN 50530, MEA, PEA
IEC/EN 62109-1/-2, IEC/EN 61000-6-1/-2/-3/-4 MC4 connector
Quick connection plug LCD, 2×20 Z.
RS485, Optional: Wi-Fi, GPRS 5 Years (Extend to 20 Years)

.54.

10. Appendix
10.1 Grid standard selection guide
NOTE: Please check if the grid code setting comply with local requirement.

For different countries and regions, corresponding grid code needs to be selected in the inverter LCD to meet the requirements of local network provider. This instruction indicates how to change the grid code and what code should be selected in different places.
This following list illustrates the grid standard options in the inverter which are subject to change. It is for your reference only. If customer has any doubts or uncertainty, please consult Solis service department for confirmation.
To set the correct grid code, please enter the following path: Advanced Settings -> Password:0010 -> Select Standard
Detailed protection limits can be viewed when choosing the code. Please select “Save&Send” to enforce the code.

NO. Code in LCD Country/Region

1

VDE4015

Germany

2 EN50549 PO

Poland

3 EN50549 NL

Netherland

Comments For German Low Voltage Grid.
For Polish Low Voltage Grid For Dutch Low Voltage Grid

4

EN50438 L

General EN50438 Requirement.

–

Possible to be used in Austria, Cyprus, Finland,

Czech Republic, Slovenia, etc.

5

EIFS- SW

6

France

7

C10/11

8

NRS097

9

CEI0-21

10

EN50549L (EN50549-1)

11

G98

12

G99

Sweden France Belgium South Africa
Italy
–
UK UK

For Swedish Low Voltage Grid For French Low Voltage Grid For Belgian Low Voltage Grid For South African Low Voltage Grid For Italian Low Voltage Grid
General EN50549-1 requirement which meets local requirements of most European countries
For UK Low Voltage Grid <16A For UK Low Voltage Grid >16A

.55.

10. Appendix

NO. Code in LCD Country/Region

Comments

13

G98 NI

North Ireland

For North Ireland Low Voltage Grid <16A

14

G99 NI

North Ireland

For North Ireland Low Voltage Grid >16A

15 User-define

–

Customized Protection Limits

16

Gen50

–

Generator Connected, Frequency-Derating, 50Hz

17

Gen 60

–

Generator Connected, Frequency-Derating, 60Hz

18

DK1

East Denmark

For East Danish low voltage grid

19

DK2

West Denmark

For West Danish low voltage grid

20

50438IE

Ireland

For Irish low voltage grid

21

RD1699

Spain

For Spanish low voltage grid

22

EN50549

–

General EN50549 Requirement. Possible to be used in Cyprus, Finland,
Czech Republic, Slovenia,Jamaica

.56.

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