Solis RHI-3P3K Hybrid Inverter Instruction Manual

RHI-3P3K Hybrid Inverter

Specifications

• Manufacturer: Ginlong Technologies Co., Ltd.

• Model: Solis RHI Series Hybrid Inverter
  (RHI-3P(3-10)K-HVES-5G)

• Designed for: Residential hybrid systems

• Operational Modes: Off-grid and On-grid

• Models in Series: RHI-3P3K-HVES-5G, RHI-3P4K-HVES-5G,
  RHI-3P5K-HVES-5G, RHI-3P6K-HVES-5G, RHI-3P8K-HVES-5G,
  RHI-3P10K-HVES-5G

Product Description

The Solis RHI series is designed for residential hybrid systems,
enabling optimization of self-consumption by working with
batteries. It can function in both off-grid and on-grid modes.

Packaging

Items included in the packaging:

• Inverter x1
• Back plate x1
• Fastening screw x2
• AC grid terminal x1
• AC backup terminal x1
• DC connector x4
• Battery connector x1
• Dust cover x2
• DC Switch
• Meter RS485 cable x1
• Acrel Meter x1 (For Europe)
• Eastron Meter x1 (For Italy)
• RJ45 connector x1 (UK and AUS are x2)
• Wifi antenna x1
• User manual x1
• CT x3

Safety & Warning

Safety Instructions

The safety instructions in this manual are classified as
follows:

• DANGER: Indicates a hazardous situation that
  could result in death or serious injury.

• WARNING: Indicates a hazardous situation that
  could result in death or serious injury if not avoided.

• CAUTION: Indicates a hazardous situation that
  could result in minor or moderate injury if not avoided.

• NOTE: Provides valuable tips for optimal
  product operation.

General Safety Instructions

WARNING: Only devices compliant with SELV (EN
69050) should be connected to the RS485 and USB interfaces.

WARNING: Do not connect PV array positive (+)
or negative (-) to ground to prevent serious damage to the
inverter.

Product Usage Instructions

Installation

Follow these steps for installing the Solis RHI Series Hybrid
Inverter:

1. Select a suitable location for the inverter.
2. Mount the inverter securely.
3. Assemble the PV input terminals.
4. Connect the battery terminals.
5. Install the AC connector.
6. Install the meter.
7. Assemble the communication cables.
8. Create an external ground connection.
9. Connect to the logic interface.
10. Understand LED indicators for monitoring.
11. Establish inverter monitoring connections.

Operation

The operation of the Solis RHI Series involves navigating
through various menus and settings:

• Main Menu: Access main functions and settings.
• Information: View system information.
• Settings: Configure operating settings.
• Advanced Information: Access advanced system details.
• Advanced Settings: Configure advanced system settings.
• AFCI Function: Learn about the AFCI functionality.

Commissioning

To commission the inverter:

1. Prepare for commissioning.
2. Follow the commissioning procedure outlined in the manual.

Troubleshooting

If you encounter issues with the inverter, refer to the
troubleshooting section of the manual for guidance on resolving
common problems.

Maintenance

Regular maintenance of the inverter is essential for optimal
performance. Follow maintenance instructions provided in the
manual.

Appendix

The appendix section contains additional information that may be
useful for operating and troubleshooting the inverter.

Frequently Asked Questions (FAQ)

Q: What should I do if I encounter a problem with the

inverter?

A: If you encounter any issues, locate the inverter S/N and
contact our support team for assistance. We aim to respond to your
queries promptly.

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.

Solis RHI Series Hybrid Inverter
(RHI-3P(3-10)K-HVES-5G) Instruction Manual
Ver 1.7
Ginlong Technologies Co., Ltd.

Contents

1. Introduction

2

1.1 Product Description

2

1.2 Packaging

3

2. Safety & Warning

4

2.1 Safety

4

4 2.2 General Safety Instructions

6 2.3 Notice For Use

3. Overview

7

3.1 Screen

7

3.2 Keypad

7

3.3 Terminal Connection

7

4. Installation 8

8 4.1 Select a Location for the Inverter

10 4.2 Mounting the Inverter

4.3 PV Input Terminal Assembly

1 1

12 4.4 Battery Terminal Components

13 4.5 Assembling the AC Connector

4.6 Meter Installation

1 5

16 4.7 Communication Cable Assembly 17 4.8 External Ground Connection

17 4.9 Logic Interface Connection

18 4.10 LED Indicates 19 4.11 Inverter Monitoring Connection 5. Operation 20

20 5.1 Main Menu

21 5.2 Information

25 5.3 Settings

26 5.4 Advanced Information

29 5.5 Advanced Settings

5.6 AFCI function

3 6

6. Commissioning

3 7

6.1 Preparation of Commissioning

3 8

6.2 Commissioning Procedure

3 8

7. Troubleshooting

3 9

8. Maintenance

4 4

9. Appendix 53

1. Introduction
1.1 Product Description
The Solis RHI series is designed for residential hybrid systems, which can work with batteries to optimize self-consumption. The unit can operate in both off- and on-grid modes. The Solis RHI series has 6 different models: RHI-3P3K- HVES-5G, RHI-3P4K-HVES-5G, RHI-3P5K-HVES-5G, RHI-3P6K-HVES-5G, RHI-3P8K-HVES- 5G, RHI-3P10K-HVES-5G

Keys

LED Indicators Display

1. Introduction
1.2 Packaging
Please ensure that the following items are included in the packaging with your machine:

Inverter x1

Back plate x1

Fastening screw x2

AC grid terminal x1

AC backup terminal x1

DC connector x4

Battery connector x1

Dust cover x2

DC Switch

Figure 1.1 Front side view

Figure 1.2 Bottom side view .2.

Meter RS485 cable x1

Acrel Meter x1(For the Europe)

Eastron Meter x1(Only for the Italy)

Manual

RJ45 connector x1 ( UK and AUS are x2)

Wifi antenna x1

User manual x1

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

CT x3

.3.

2. Safety & Warning
2.1 Safety
The following types of safety instructions and general information appear in this document as describedbelow:
DANGER: “Danger” indicates a hazardous situation which if not avoided, will result in death or serious injury. WARNING: “Warning” indicates a hazardous situation which if not avoided, could result in death or serious injury. CAUTION: “Caution” indicates a hazardous situation which if not avoided, could result in minor or moderate injury.
NOTE: “Note” provides tips that are valuable for the optimal operation of your product.
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.
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.
.4.

2. Safety & Warning
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 isolators that comply with the NEC Article 690, Part II. All Solis single phase inverters feature an integrated DC switch. CAUTION: Risk of electric shock, do not remove cover. There is no user serviceable parts inside, refer servicing to qualified and accredited service technicians.
CAUTION: The PV array supplies a DC voltage when they are exposed to sunlight.
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 authorization . CAUTION: The surface temperature of the inverter can reach up to 75 (167 F). To avoid risk of burns, do not touch the surface of the inverter while it’s operating. Inverter must be installed out of the reach of children.
NOTE: PV module used with inverter must have an IEC 61730 Class A rating.
WARNING: Operations below must be accomplished by licensed technician or Solis authorized person.
WARNING: Operator must put on the technicians’ gloves during the whole process in case of any electrical hazards.
WARNING: AC-BACKUP of RHI series is forbidden to connect to the grid.
.5.

2. Safety & Warning
WARNING: The RHI series does not support parallel (three- and single-phase) operation on the AC-BACKUP port. Parallel operation of the unit will void the warranty.

×

×

3 Phase LOAD

WARNING: Please refer to the specification of the battery before configuration.
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: 1. Permanent installation is required. 2. The electrical installation must meet all the applicable regulations and standards. 3. The inverter must be installed according to the instructions stated in this manual. 4. The inverter must be installed according to the correct technical specifications. 5. The content of substance hazardous of the inverter meets the requirements of the
RoHS directive (2011/65/EU). 6. Inverter has no DC protection system against electric arcs.

.6.

3. Overview
3.1 Screen
Solis RHI series adopts LCD screen, it displays the status, operating information and settings of the inverter.
3.2 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 and modify the settings (the ESC and ENTER keys).
Figure 3.2 Keypad
3.3 Terminal Connection
Solis RHI series inverter is different from normal on-grid inverter, please refer to the instructions below before start connection.
DRM Connection (Only for UK) WiFi Connection
COM Port
Figure 3.3 Front Panel Display
WARNING: Please refer to the specification of the battery before configuration.
.7.

4. Installation
4.1 Select a Location for the Inverter
To select a location for the inverter, the following criteria should be considered: Exposure to direct sunlight may cause output power derating. It is recommended to avoid installing the inverter in direct sunlight. It is recommended that the inverter is installed in a cooler ambient which doesn’t exceed 104F/40C.
Figure 4.1 Recommended Installation locations 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.
.8.

4. Installation
Install on a wall or strong structure capable of bearing the weight of the machine (24kg). Install vertically with a maximum incline of +/- 5 degrees, exceeding this may cause output power derating. To avoid overheating, always make sure the flow of air around the inverter is not blocked. A minimum clearance of 500mm should be kept between inverters or objects and 500mm clearance between the bottom of the machine and the ground.
500mm

500mm

1000mm

500mm

500mm
Figure 4.2 Inverter Mounting clearance Visibility of the LEDs and LCD should be considered. Adequate ventilation must be provided.
NOTE: Nothing should be stored on or placed against the inverter.

.9.

4. Installation
4.2 Mounting the Inverter
Dimensions of mounting bracket:

4. Installation
2.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)

Figure 4.3 Inverter wall mounting Once a suitable location has be found accordingly to 4.1 using figure 4.3 and figure 4.4 mount the wall bracket to the wall. The inverter shall be mounted vertically. The steps to mount the inverter are listed below: 1. 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 Fix bracket on the wall
WARNING: The inverter must be mounted vertically.
.10.

Figure 4.5 Wall Mount Bracket
4.3 PV Input Terminal Assembly
Please ensure the following before connecting the inverter: Make sure the voltage of the PV string will not exceed the max DC input voltage (1000Vdc). Violating this condition will void the warranty.
Make sure the polarity of the PV connectors are correct. Make sure the DC- switch, battery, AC-BACKUP, and AC-Grid are all in their off-states. Make sure the PV resistance to ground is higher than 20K ohms. The Solis RHI series inverter uses the MC4 connectors. Please follow the picture below to assemble the MC4 connectors. PV wire cross-sectional area requirements:2.5~4mm².
positive terminal

negative terminal
Figure 4.6

Inverter terminal Use appropriate crimping tools for crimping
.11.

4. Installation
4.4 Battery Terminal Components
Quick connector is used for battery connection. The connector is suitable for tin-plated cables with a conductor cross section of 2.5-6mm2 (AWG14-10). Battery cable outside diameter range: 5.5mm – 8.0mm.
NOTE: A bladed screwdriver with a 3-mm wide blade is required to perform the connection.
Step 1. Strip 15mm off the conductor using a suitable stripping tool for this. Step 2. Open the spring using a screwdriver as below. (see figure 4.7) Step 3. Insert the stripped wire with twisted litz wires all the way in.
The wire ends have to be visible in the spring. And then close the spring. (see figure 4.8) Step 4. Push the insert into the sleeve and tighten the cable gland with 2N.m torque. (see figure 4.9) Step 5. Fit the connectors to the battery ports at the bottom of the inverter with correct polarity
and a “click” sound. (see figure 4.10)

4. Installation
4.5 Assembling the AC Connector
There are two AC terminals and the assembly steps for both are the same. Take out the AC connector parts from the packaging.
1. Make sure you use a cable within the correct specifications as shown in the image below.

Describe Wire diameter Traverse cross sectional area Exposure Length
Table 4.1

Numerical value 13~25mm
6~13mm² (10-6AWG) 13mm

Internal of AC connector signs “L1″,”L2″,”L3″,”N” and “PE ” five connection ports (see Figure 4.13). Three live wires are connected the “L1”, “L2″and “L3” terminals respectively; ground wire connects “PE “; neutral wire connects “N” terminal:

Figure 4.7 Figure 4.9 .12.

Figure 4.8 Figure 4.10

A

B

C

D

E

F

Figure 4.11 AC connector

Outside-diameters 13~25mm
70mm

Cross-section 6~13mm²

68mm

PE

L1

L2

L3

x

N

x=13mm

Figure 4.12 Stripped and bared wire

L2

L3

L1

N PE

Figure 4.13 Internal structure of AC connector

.13.

4. Installation
A) Stripped the insulation sleeve of cable for 70mm, so that bared copper- cored connector reaches for 13mm. Cable through nut and sleeve of socket element, insert corresponding terminals and tighten with allen wrench (see figure 4.14). Torque is 1.5-2.5Nm.

4. Installation
4.6 Meter Installation
Solis RHI-(3-10)K-HVES-5G series inverter integrated export power control function, this function need connect a 3-Phase power meter for export power controlling.
4.6.1 Three Phase Meter Installation
Please follow below picture to install the 3-phase power meter and CT.

Figure 4.14 Connected cable Tighten cable with 3 mm allen wrench( focus in dotted box, see figure 4.14). Allen screw is easy to drop off, don’t screw out completely. B) Clip plastic fixture (Auxiliary tighten) in socket element , tighten adapter in socket element, then tighten swivel nut with 2.5-4Nm torque (see figure 4.15).
Figure 4.15 Assembly AC terminal C) Connect AC connector with inverter, then tighten AC connector for clockwise, until hearing a slight clicking sound indicates connection succeed.(see figure 4.16)

Note: If the CT is installed in the wrong direction, the Hybrid Inverter can’t work normally.
Figure 4.17 Acrel Meter

Figure 4.16 AC connector to inverter .14.

Note: If the CT is installed in the wrong direction, the Hybrid Inverter can’t work normally.
Figure 4.18 Eastron Meter .15.

4. Installation
4.7 Communication Cable Assembly
The RHI series inverter uses RS485 cable to communicate with the Meter and CAN to communicate with the battery’s BMS. The image below shows the assembly of the RS485/CAN communication cables.
CAN

Figure 4.19

NOTE: The CAN cable enables the communication between the inverter and the Li- ion battery, please check for latest model compatibility before installation.

Procedure for connecting the CAN cable:
1. Take out the CAN cable (terminal marks `CAN’ on one end and ‘to Meter’ on the other end). 2. Unscrew the swivel nut from CAN port. 3. Insert the RJ45 terminal with CAN label into the CAN port, then fasten the swivel nut. 4. Connect the other end to the battery.

NOTE:

Before connecting CAN cable with the battery, please check whether the

communication pin sequence of the inverter and the battery match;

If it does not match, you need to cut off the RJ45 connector at one end of the

CAN cable and adjust the pin sequence according to the pin definitions of

both inverter and battery.

RJ45terminal

Pin definition of the inverter CAN Port is following EIA/TIA 568B.

12345678

CAN-H on Pin 4: Blue CAN-L on Pin 5: Blue/White

CAN-L CAN-H

.16.

4. Installation
Procedure for connecting the RS485 cable:
1. Take out the RS485 cable (terminal marks `RS485′ on one end and ‘to Battery’ on the other end). 2. Unscrew the swivel nut from RS485 port. 3. Insert the Two-pin terminal with RS485 label into the RS485 port, then fasten the swivel nut. 4. Connect the other end to the Meter.
4.8 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 4.20 Connect the external grounding conductor
4.9 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 4.21 RJ45 communication connection terminals .17.

4. Installation

2.Use the network wire stripper to strip the insulation layer of the communication cable. According to the standard line sequence of figure 4.22 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

12345678

and the stitches of plug, Pin5 and Pin6 of RJ45 terminal is used for the logic

interface, other Pins are reserved.

12345678

Pin 1: Reserved; Pin 2: Reserved

Switch_input1 Switch_input2 Pin 3: Reserved; Pin 4: Reserved

DRM(logic interface)

Pin 5: Switch_input1; Pin 6: Switch_input2 Pin 7: Reserved; Pin 8: Reserved

Figure 4.22 Strip the insulation layer and connect to RJ45 plug 3.Connect RJ45 to DRM (logic interface) .

NOTE: To use this function, please contact the manufacturer.

4.10 LED Indicates
There are three LED indicators on the RHI inverter (Red, Green, and Orange) which indicate the working status of the inverter.

Light POWER OPERATION
ALARM .18.

Status

Description

ON

The inverter can detect DC power.

OFF

No DC power.

ON

The inverter is fully operational.

OFF

The inverter has stopped operating.

FLASHING

The inverter is initializing.

ON

Fault condition is detected.

OFF

No fault condition detected.

FLASHING

Either the grid or solar cannot be detected.

Table 4.2 Status Indicator Lights

4. Installation
4.11 Inverter Monitoring Connection
The inverter can be monitored via Wi-Fi or GPRS. All Solis communication devices are optional. For connection instructions, please refer to the Solis Monitoring Device installation manuals.

Smart phone monitoring

GPRS monitoring

Wi-Fi monitoring

Router

Internet

Web server

Wi-Fi monitoring

Wi-Fi box

PC monitoring

Figure 4.23 Wi-Fi or GPRS communication function

.19.

5. Operation

Pressing the ESC key calls back
the previous menu

Monthly Energy

ESC ESC

Main interface

Pressing the ENTER key to switch
to the submenu

ENTER

main menu Information UP/DOWN
Settings UP/DOWN Advanced Info. UP/DOWN Advanced Settings

Figure 5.1 Operation Overview
5.1 Main Menu
There are four submenu in the Main Menu (see Figure 5.1): 1. Information 2. Settings 3. Advanced Info. 4. Advanced Settings

.20.

5. Operation
5.2 Information
In the information section, operating data and information data can be viewed. Sub-sections include: 1.General Info 2.System Info 3.Energy Records 4.PVEnergy Records 5.BMS Info 6.Meter Info The example displays are shown in the following figures. Values are for reference only.

Display
Inverter SN: FFFFFFFFFFFFFFF
Device: Waiting
Battery: Waiting
Backup: Waiting
Grid: Waiting
DRMNO. :
08
Model. :
00
SoftVer. :
000000

Duration

Description

10 sec Shows the inverter serial number.

10 sec Shows the status of the device.

10 sec Shows the status of the battery.

10 sec Shows the status of the backup circuit.

10 sec 10 sec 10 sec

Shows the status of the AC grid.
Shows the DRM operating mode (Effective for UK/AUS).
Shows the model number of the device.

10 sec Shows the firmware version of the device. Figure 5.2 General Information

.21.

5. Operation

Display

V_DC1: I_DC1:

000.0V 000.0A

V_DC2: I_DC2:

000.0V 000.0A

V_A: I_A:

000.0V 000.0A

V_B: I_B:

000.0V 000.0A

V_C: I_C:

000.0V 000.0A

Grid Frequency 00.00Hz

Battery V: Battery I:

000.0V 000.0A

Backup V: Backup P:

000.0V 00.0kW

Charge P:

00.0kW

DisCharge P: 00.0kW

Duration 10 sec

Description
V_DC1: Shows input 01 voltage value. I_DC1: Shows input 01 current value.

10 sec 10 sec 10 sec 10 sec

V_DC2: Shows input 02 voltage value. I_DC2: Shows input 02 current value.
V_A: Shows the grid’s voltage value. I_A: Shows the grid’s current value.
V_B: Shows the grid’s voltage value. I_B: Shows the grid’s current value.
V_C: Shows the grid’s voltage value. I_C: Shows the grid’s current value.

10 sec Shows the grid’s frequency value.

10 sec 10 sec 10 sec

Battery V: Shows the battery voltage. Battery I: Shows the battery current.
Backup V: Shows the voltage of the backup port Backup P: Shows the power of the backup port.
Charge P: Shows the battery charging power. Discharge P: Shows the battery discharging power.

Figure 5.3 System Information

5. Operation

Display
BattChgE Total: 0000000kWh
BattChgE Today: 000.0kWh
BattChgE Lastday: 000.0kWh

Duration

Description

10 sec

Shows the total battery charged energy.

10 sec

Shows today’s battery charged energy.

10 sec

Shows yesterday’s battery charged energy.

Figure 5.4 Energy Records

Display
PV E Total: 0000000kWh
PV E Today: 000.0kWh
PV E Lastday: 000.0kWh
PV E ThisMonth: 0000000kWh
PV E LastMonth: 0000000kWh
PV E Thisyear: 0000000kWh
PV E Lastyear: 0000000kWh

Duration 10 sec

Description Shows the total PV generation.

10 sec

Shows today’s PV generation.

10 sec

Shows yesterday’s PV generation.

10 sec

Shows PV generation of this month.

10 sec

Shows PV generation of last month.

10 sec

Shows PV generation of this year.

10 sec

Shows PV generation of last year.

Figure 5.5 PVEnergy Records

.22.

.23.

5. Operation

Display

Battery V: Battery I:

000.0V +00.0A

ChargeILmt: 000.0A DischargeILmt: 000.0A

Duration 10 sec 10 sec

Description
Battery V: Shows battery voltage(From BMS). Battery I: Shows battery current(From BMS).
ChargeILmt: Shows battery charge current limit(From BMS). DischargeILmt: Shows battery discharge current limit(From BMS).

ChargeVLmt: 000.0V DischargeVLmt:000.0V

SOC Value: SOH Value:

000.0% 000.0%

10 sec 10 sec

ChargeVLmt: Shows battery charge voltage limit(From BMS) DischargeVLmt: Shows battery discharge voltage limit(From BMS).
SOC value: Shows battery state of charge. SOH value: Shows battery state of health..

BMS Status: CAN Fail

10 sec Shows that Battery BMS communication status.

Figure 5.6 BMS Information

Display
PhaseA Power: +000000W
PhaseB Power: +000000W
PhaseC Power: +000000W
Meter Energy: 0000000.00kWh
Output Energy: 0000000.00kWh
Input Energy: 0000000.00kWh
Meter Status: RS485 Fail

Duration

Description

10 sec Shows phase A power on the meter.

10 sec Shows phase B power on the meter.

10 sec Shows phase C power on the meter.

10 sec Shows the energy record on the meter.

10 sec Shows the export energy record on the meter.

10 sec

Shows the import energy record on the meter.

10 sec Shows meter communication status. Figure 5.7 Meter Information

.24.

5. Operation
5.3 Settings
The following submenus are displayed when the Settings menu is selected: 1.Set Time/Date 2.Set Address
5.3.1 Set Time/Date
This function allows time and date setting. When this function is selected, the LCD will display a screen as shown in Figure 5.8.
NEXT= OK= 01-01-2020 00:00 Figure 5.8 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.
5.3.2 Set Address
This function is used to set the address when muti inverters are connected to three monitor. The address number can be assigned from “01”to “99”. The default address is “01”.
YES= NO= Set Address: 01
Figure 5.9 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.
.25.

5. Operation
5.4 Advanced Information
NOTE: To access to this area is for fully qualified and accredited technicians only. Enter menu “Advanced Info.”(Password “0010”).
Select “Advanced Info.” from the Main Menu. The screen will require the password as below:
Input Password X X X X
Figure 5.10 Enter password 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.Warning Message 3. Running Status 4.Communication Data 5. Yield Profile The screen can be scrolled manually by pressing the UP/DOWN keys. Pressing the ENTER key gives access to a submenu. Press the ESC key to return to the Main Menu.
5.4.1 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.
Alm000: MET_Comm-FAIL T: 00-00 00:00 D:0000
Figure 5.11 Alarm Message
.26.

5. Operation
5.4.2 Warning Message
The display shows the 100 latest warn messages. 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 5.12 Warning Message
5.4.3 Running Status
This function is for maintenance person to get running message such as internal temperature, Standard NO. etc.(Values are for reference only).
General Status Advanced Status
Figure 5.13 Running Status

Display
DC Bus Voltage: 000.0V
Power Factor: +00.0
Power Limit%: 000%
Inverter Temp: +000.0degC
Grid Standard:
Flash State: 00000000

Duration 10 sec

Description Shows DC bus voltage.

10 sec 10 sec 10 sec

Shows power factor of the inverter.
Shows the power output percentage of the inverter.
Shows internal IGBT temperature of the inverter.

10 sec

Shows current effective grid standard.

10 sec

Reserved for Solis Technicians

Figure 5.14 General Status

NOTE: The advanced status is reserved for Solis technicians.
.27.

5. Operation
5.4.4 Communication Data
The screen shows the internal data of the Inverter, which is for service technicians only. 01-05: 00 00 00 00 00 06-10: 00 00 00 00 00
Figure 5.15 Communication Data
5.4.5 Yield Profile
The yield profile includes: Energy Battery, Energy Grid and Energy Backup. All the historical energy generation records can be easily viewed in this section.
Energy Battery Energy Grid Figure 5.16 Communication Data
.28.

5.5 Advanced Settings

5. Operation

NOTE: To access to this area is for fully qualified and accredited technicians only. Enter menu “Advanced settings” (Password “0010”).
Select “Advanced Settings.” from the Main Menu. The screen will require the password as below:

Input Password X X X X
Figure 5.17 Enter password
Select Advanced Settings from the Main Menu to access the following options:

1. Select Standard 2. Grid Switches 3. Battery Control 4. Backup Control 5. Storage Energy Set 6. STD. Mode Settings 7. Software Update 8. Export Power Set 9.Reset Password 10. Restart HMI 11. Self Test CEI 0-21 12. Compensation Set
   5.5.1 Selecting Standard
   This function is used to select the grid’s reference standard.

YES= NO= Standard:G98
Figure 5.18
Press the UP/DOWN keys to select the standard (G98, G99, VDE4015, EN50549L, CEI021, AS4777-15, NRS097, User-Def, etc). Press the ENTER key to confirm the setting. Press the ESC key to cancel changes and returns to previous menu.
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.
.29.

5. Operation
5.5.2 Grid Switches
This function is used to start or stop the generation of the inverter.
Grid ON Grid OFF
Figure 5.19 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.
5.5.3 Battery Control
This section is used to select the corresponding battery and set the battery wakeup function.
Battery Select

Figure 5.20 Battery Control

5.5.3.1 Battery Select
This product is compatible with the following battery modules:

Brand

Model

Setting

Pylontech

H48074(CEI 0-21)/H48050(CEI 0-21)/

Select “Pylon”

Force H1(CEI 0-21)/Force H2(CEI 0-21)

AOBOET Soluna

Uhome-LFP 2400/ 5000 Battery Soluna 10K Pack HV/Soluna 15K Pack HV

Select “AoBo” Select “Soluna”

If hybrid inverter is not connected to a battery, then select “No Battery” to avoid alarms. For above compatible battery modules, Only two parameters need to be defined: * OverDischg SOC (10%~40%, default 20%) –Inverter will not discharge the battery when the OverDischg SOC is reached.
Battery self-discharge is unavoidable,SOC may go lower than the limit if the battery can’t get charged for a long period of time.

Battery Select: PYLON
Figure 5.21 Battery Select
.30.

5. Operation
Overdischg SOC: 020%
Figure 5.22 Overdischg SOC
5.5.4 Backup Control
This section is used to set the configuration of the backup port.
Backup ON/OFF Backup Settings Figure 5.23 Backup Control
5.5.4.1 Backup ON/OFF
This switch can enable/disable the electrical connection of the backup port.
Set Backup: OFF
Figure 5.24 Backup ON/OFF
5.5.4.2 Backup Settings
This section shows the parameter of the backup port.
Backup Voltage: 230.0V
Figure 5.25 Backup Settings
5.5.5 Storage Energy Set
There are two settings available in this section: Meter select and Storage Mode Select.
Meter Select Stg Mode Select Figure 5.26 Storage Energy Set
.31.

5. Operation
5.5.5.1 Meter Select
The setting is used to select the meter type based on the actual configuration.

Meter Type: 3Ph Meter
Figure 5.27 Meter Type

5.5.5.2 Storage Mode Select
There are 4 working modes available. 1. Self Use Mode 2. Feed in Priority Mode 3. Backup Mode 4. Off Grid Mode Path: Advanced Settings->Storage Energy Set->Stg Mode Select

Staroge Energy Set STD. Mode Settings

Meter Set Stg Mode Select

Figure 5.28 Storage Mode Select

Mode 1: Self-Use Mode Logic(Maximize the usage of PV) PV Power Using Priority: Load>Battery>Grid Load Support Priority: PV>Battery>Grid Battery Charging Power comes from PV. (If “Charging From Grid” is allowed, it can also come from Grid) If “Time of Use” is “Run”, the logic will follow the charging/discharging settings and time settings as defined in “Time of Use”. For those undefined period of time, it will still follow the Self-Use logic. Time of use for Self use Path: Advanced Settings->Storage Energy Set->Stg Mode Select-> Self use->ON->Time-of-Use
Charging from gird self use Path: Advanced Settings->Storage Energy Set->Stg Mode Select-> Self-Use Mode->ON->Charging from gird for Self use

Mode: Self use

Time-of-Use Charging from grid

Figure 5.29 Self Use Mode

.32.

5. Operation

Mode 2: Feed In Priority Mode Logic(Feed the excess PV to Grid in order to gain subsidies) PV Power Using Priority: Load>Grid>Battery Load Support Priority: PV>Battery>Grid Battery Charging Power comes from PV. (If “Charging From Grid” is allowed, it can also come from Grid) If “Time of Use” is “Run”, the logic will follow the charging/discharging settings and time settings as defined in “Time of Use”. For those undefined period of time, it will still follow the Feed in Priority logic.
Time of use for Feed for priority Path: Advanced Settings->Storage Energy Set->Stg Mode Select-> Feed in Priority->ON->Time-of-Use
Charging from gird for Feed for priority Path: Advanced Settings->Storage Energy Set->Stg Mode Select-> Feed in priority->ON->Charging from gird for Feed for priority

Mode: Feed in priority

Time-of-Use Charging from grid

Figure 5.30 Feed in priority Mode

Mode 3: Backup Mode Logic(Keep the Battery at a certain SOC and only use it during power outage) Backup Mode Logic: Keep the Battery at a certain SOC and only use it during power outage. Backup SOC Setting Range: From Battery “Overdischarge SOC” to 100% PV Power Using Priority: Battery>Load>Grid Load Support Priority: PV>Grid>Battery Battery Charging Power comes from PV. (If “Charging From Grid” is allowed, it can also come from Grid) * The “Backup Mode” is not applicable for Lead-acid batteries.
Charging from gird for Backup mode Path: Advanced Settings->Storage Energy Set->Stg Mode Select->
Backup->ON->Battery Backup Soc->Charging from gird

Mode: Backup

Battery Backup Soc: 080%
Figure 5.31 Backup Mode

Charging from grid: Allow
.33.

5. Operation

Mode 4: Off Grid Mode Logic(For Off-grid use and AC-Grid Port Disconnected) OverDischg SOC for Off-Grid Setting Range: From Battery “Forcecharge SOC” to 100% PV Power Using Priority: Load>Battery Load Support Priority: PV>Battery Battery Charging Power comes from PV.
Off Grid Mode Path: Advanced Settings->Storage Energy Set->Stg Mode Select->
Off grid->ON->Off Grid Soc

Mode: Off grid

Off Grid Soc: 020%

Figure 5.32 Off Grid Mode

5.5.6 STD.Mode Settings
These settings are reserved for maintenance personnel and technicians. Do not change anything without instructions. Selecting “STD Mode. Settings” displays the sub-menu shown below:
1. Working Mode Set 2. Power Rate Limit 3. Freq. Derate Set 4. 10mins Voltage Set 5. 3Tau Settings 6. Initial Settings

Working Mode Set Power Rate Limit Figure 5.33 STD.Mode Settings
5.5.7 Software Update
The software update includes the HMI and DSP. Corresponding firmware version can be checked in this setting. Press “ENT” to enter the upgrading mode.
HMI Update DSP Update
Figure 5.34 Software Update
.34.

5. Operation
5.5.8 Export power Set
This function is to set the export power control. 1.EPM ON/OFF 2. Backflow Power 3.Failsafe ON/OFF Setting 2 and 3 are only valid when Setting 1 is set to “ON”.
5.5.8.1 EPM ON/OFF
Enable/Disable the function.
EPM ON/OFF OFF
Figure 5.35 EPM ON/OFF
5.5.8.2 Backflow Power
Determine the allowed backfeed power. (System export to the grid)
Backflow Power +0000W
Figure 5.36 Backflow Power
5.5.8.3 FailSafe ON/OFF
When this Failsafe function is ON, the inverter will shutdown once it loses communication with the meter in case of any backflow power exceeds the limit.
FailSafe ON/OFF ON
Figure 5.37 FailSafe ON/OFF
5.5.9 Reset Password
Reset Password: In this menu, user can reset the inverter password, but the admin password is always valid.
Input New Password X X X X
Figure 5.38 Reset Password
.35.

5. Operation
5.5.10 Restart HMI
This function is to reboot the LCD screen.
5.5.11 Self Test CEI 0-21
This function is only available when Italian standard CEI021 is selected.
5.5.12 Compensation Set
This function is used to calibrate inverter output energy and voltage. Two sections are included: Power Parameter and Voltage Parameter.
Power Parameter Voltage Parameter Figure 5.39 Compensation Set
YES= NO= Power Para.:1.000 Figure 5.40 Power Parameter
Vg-A-Zero:+0.0 Vg-B-Zero:+0.0 Figure 5.41 Voltage Parameter
.36.

5. Operation
5.6 AFCI function
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.
5.6.1 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 5.42 Enable AFCI function

NOTE: If you find your inverters’s user interface is different from what’s in the fast installation guide, please contact after-sales engineer or technical support.
WARNING: The “AFCI Level” is reserved for technicians ONLY. Do not change the sensitivity otherwise it will lead to frequent false alarms or malfunctions. Manufacturer is not responsible for any further damages caused by unauthorized modifications.
WARNING: The setting corresponds to the current status as well which can be used to inspect the ON/OFF state of the AFCI function.
5.6.2 AFCI function
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 5.43 Arc Fault
Installer needs to thoroughly inspect the DC circuit to ensure all the cables arecorrectly 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.
.37.

6. Commissioning
6.1 Preparation of Commissioning
Ensure all the devices are accessible for operation, maintenance and service. Check and confirm that the inverter is firmly installed. Space for ventilation is sufficient for one inverter or multiple inverters. Nothing is left on the top of the inverter or battery module. Inverter and accessories are correctly connected. Cables are routed in safe place or protected against mechanical damage. Warning signs and labels are suitably affixed and durable.
6.2 Commissioning Procedure
If all the items mentioned above meet the requirements, proceed as follows to start up the inverter for the first time. 1. Turn on inverter DC switch 2. Turn on battery breaker or battery switch button on the battery. 3. Select the grid standard code. 4. Configure the parameters. 5. Switch on AC backup and AC grid. 6. Verify inverter initializing.
6.3 Shutdown procedure
1. Turn off the AC isolator at the grid connection point. 2. Turn off the DC switch of the inverter. 3. Turn off the DC switch between inverter and battery. 4. Waiting for the LCD of inverter to turn off and the system shutdown is completed.

7. Troubleshooting
Solis RHI Series inverter does not require any regular maintenance. However, cleaning the heatsink will help inverter dissipating heat and increase the lifetime of inverter. The dirt on the inverter can be cleaned with a soft brush.
CAUTION: Do not touch the surface when the inverter is operating. Some parts may be hot and cause burns. Turn OFF the inverter (refer to Section 6.2) and let it cool down before you do any maintenance or cleaning of inverter.
The LCD and the LED status indicator lights can be cleaned with cloth if they are too dirty to be read.
Note: Never use any solvents, abrasives or corrosive materials to clean the inverter.
The 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 test to ensure its optimal operation and reliability. In case of a failure the LCD screen will display an alarm message. In this case the inverter may stop feeding energy into the grid. The alarm descriptions and their corresponding alarm messages are listed in Table 7.1:

.38.

.39.

7. Troubleshooting

When faults occur, the “Fault” state will be shown on the main screen. Follow the steps below to check what fault occurs. Steps: Enter Down Advanced Information Enter Alarm Message.
Step1: Press ENTER. Step2: Press DOWN to select Advanced Information, then press ENTER.

Step3: Enter password.

Advanced Info. Advanced Settings
Figure 7.1

Input Password X X X X Figure 7.2
Step3: Press DOWN to select Alarm Message, then press ENTER.
Alm000: MET_Comm-FAIL T: 00-00 00:00 D:0000 Figure 7.3

.40.

7. Troubleshooting

Alarm Message ARC-FAULT AFCI Check FAULT DCinj-FAULT D S P – B – FA U LT
DC-INTF

Failure description ARC detected in DC circuit AFCI module self check fault

Solution
1. Check if there’s arc in PV connection and restart inverter.
1. Restart inverter or contact installer.

High DC injection current Comm. failure between main and slave DSP
DC input overcurrent

1. Restart inverter or contact installer.
1. Restart inverter or contact installer.
1. Restart inverter. 2. Identify and remove the string to the fault MPPT. 3. Change power board.

G-IMP

High grid impedance

1. Use user define function to adjust the protection limit if it’s allowed by electrical company.

GRID-INTF01/02
IGBT-OV-I
IGFOL-F
IG-AD ILeak-PRO 01/02/03/04 I N I – FA U LT

Grid interference Over IGBT current Grid current tracking fail Grid current sampling fail leakage current protection Initialization system fault

LCD show initializing all the time

Can not start-up

NO-Battery

Unconnected battery

No power
NO-GRID OV-BUS

Inverter no power on LCD
No grid voltage
Over DC bus voltage

1. Restart inverter. 2. Change power board.
1. Restart inverter or contact installer.
1. Check AC and DC connection. 2. Check inverter inside cable connection.
1. Restart inverter or contact installer.
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. Check the wire of battery power is connected correctly or not.
2. Check the output voltage of battery is correctly or not.
1. Check PV input connections. 2. Check DC input voltage
(single phase >120V, three phase >350V). 3. Check if PV+/- is reversed. 1. Check connections and grid switch. 2. Check the grid voltage inside inverter
terminal. 1. Check inverter inductor connection. 2. Check driver connection.

.41.

7. Troubleshooting

Alarm Message OV-DC01/02/03/04

Failure description Over DC voltage

OV-DCA-I

DC input overcurrent

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

OV-G-I OV-G-F01/02

Over grid current Over grid frequency

Solution
1. Reduce the module number in series.
1. Restart inverter. 2. Identify and remove the string to the fault MPPT. 3. Change power board.
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. Restart inverter. 2. Change power board.
1. Use user define function to adjust the protection limit if it’s allowed by electrical company.

OV-IgTr

AC side transient overcurrent

OV-ILLC OV-VBackup

LLC hardware overcurrent Bypass overvoltage fault

1. Restart inverter. 2. Return-factory repair.

OV-TEM OV-Vbatt1 OV-Vbatt-H Over-Load

Over Temperature
The detection of battery overvoltage
Battery overvoltage hardware fault
Bypass overload fault

PV ISO-PRO01/02 PV isolation protection

RelayChk-FAIL

Relay check fail

1. Check inverter surrounding ventilation. 2. Check if there’s sunshine direct on
inverter in hot weather.
1. Check the protect point for over voltage sets correctly or not.
2. Restart inverter.
1. Check the circle whether the circuit for battery power jumps.
2. Restart inverter.
1. Check the load of Backup port is over rating output power or not.
2. Reduce the load of Backup port, then restart inverter.
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.
1. Restart inverter or contact installer.

.42.

7. Troubleshooting

Alarm Message UN-BUS01/02 UN-G-F01/02 UN-G-V01/02 1 2 P o w e r – FA U LT

Failure description Under DC bus voltage Under grid frequency Under grid voltage

Solution
1. Check inverter inductor connection. 2. Check driver connection.
1. Use user define function to adjust the protection limit if it’s allowed by electrical company.

12V power supply fault

1. Restart inverter or contact installer.

Table 7.1 Fault message and description

NOTE: If the inverter displays any alarm message as listed in Table 7.1; please turn off the inverter and wait for 5 minutes before restarting it . 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.

.43.

8. Specifications

Technical Data Input DC (PV side) Recommended max. PV power Max. input voltage Rated voltage Start-up voltage MPPT voltage range Full load MPPT voltage range Max. input current Max. short circuit current MPPT number/Max input strings number Battery Battery Type Communication Battery Voltage range Maximum charging Power Maximum Charge/discharge current Output AC(Grid-side) Rated output power Max. apparent output power Operation phase Rated grid voltage The grid voltage range Rating grid frequency AC grid frequency range Rating grid output current Max. output current Power factor THDi

RHI-3P3K-HVES-5G*

RHI-3P4K-HVES-5G*

4800W 200-850V

1000V 600V 160V 200-850V
13A/13A 16.5A/16.5A
2/2

6400W 200-850V

3kW

Li-ion CAN/RS485 160 – 600Vdc
25A

4kW

3kW 3.3kVA

4kW 4.4kVA

3/N/PE

380V/400V

320-480V

50 Hz/60 Hz

45-55 Hz/ 55-65Hz

4.5A/4.3A 5.1A/4.8A

6.1A/5.8A 6.8A/6.4A

0.99 ( 0.8 leading to 0.8 lagging) 2%

.44.

Technical Data Output AC(Back-up) Rated output power Peak apparent output power Back-up switch time Rated output voltage Rated frequency Rated output current THDv(@linear load) Efficiency Max.efficiency of Solar Inverting EU efficiency of Solar Inverting MPPT efficiency Battery charge/discharge efficiency Protection Anti-islanding protection Insulation Resistor detection Residual current monitoring unit Output over current protection Output short protection Output over voltage protection DC switch DC reverse polarity protection PV overvoltage protection Battery reverse protection

8. Specifications

RHI-3P3K-HVES-5G*

RHI-3P4K-HVES-5G*

3kW

4kW

10000VA, 60 sec

10000VA, 60 sec

< 40ms

3/N/PE, 380V/400V

50 Hz/60 Hz

4.5A/4.3A

6.1A/5.8A

<2%

98.4% 97.7% 99.9% 97.5%

Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

.45.

8. Specifications

Technical Data General data Dimensions(W/H/D) Weight Topology Self consumption (Night) Operation temperature range Relative humidity Ingress protection Noise emission Cooling concept Max.operation altitude

RHI-3P3K-HVES-5G*

RHI-3P4K-HVES-5G*

535455181mm 25.1kg
Transformerless <7 W
-25+60 0-100% IP65
<30 dB (A) Natural convection
4000m

Grid connection standard

G98 or G99, VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15/VFR:2019, 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

Safty/EMC standard Features DC connection AC connection Display Communication Warranty

IEC 62109-1/-2 ,EN 61000-6-1/-3
MC4 connector Quick Connection plug
LCD2X20 Z RS485, Optional:Wi-Fi, GPRS
5 years (extand to 20 years)

*RHI-3P3K-HVES-5G and RHI-3P4K-HVES-5G are not available in Belgium.

8. Specifications

Technical Data Input DC (PV side) Recommended max. PV power Max. input voltage Rated voltage Start-up voltage MPPT voltage range Full load MPPT voltage range Max. input current Max. short circuit current MPPT number/Max input strings number Battery Battery Type Communication Battery Voltage range Maximum charging Power Maximum Charge/discharge current Output AC(Grid-side) Rated output power Max. apparent output power Operation phase Rated grid voltage The grid voltage range Rating grid frequency AC grid frequency range Rating grid output current Max. output current Power factor THDi

RHI-3P5K-HVES-5G

RHI-3P6K-HVES-5G

8000W 200-850V

1000V 600V 160V 200-850V
13A/13A 16.5A/16.5A
2/2

9600W 240-850V

5kW

Li-ion CAN/RS485 160 – 600Vdc
25A

6kW

5kW 5.5kVA (5kVA for Belgium)

6kW 6.6kVA (6kVA for Belgium)

3/N/PE

380V/400V

320-480V

50 Hz/60 Hz

45-55 Hz/ 55-65Hz

7.6A/7.2A 8.4A/8.0A

9.1A/8.7A 10.0A/9.6A

0.99 ( 0.8 leading to 0.8 lagging) 2%

.46.

.47.

8. Specifications

Technical Data Output AC(Back-up) Rated output power Peak apparent output power Back-up switch time Rated output voltage Rated frequency Rated output current THDv(@linear load) Efficiency Max.efficiency of Solar Inverting EU efficiency of Solar Inverting MPPT efficiency Battery charge/discharge efficiency Protection Anti-islanding protection Insulation Resistor detection Residual current monitoring unit Output over current protection Output short protection Output over voltage protection DC switch DC reverse polarity protection PV overvoltage protection Battery reverse protection

RHI-3P5K-HVES-5G

RHI-3P6K-HVES-5G

5kW

6kW

10000VA, 60 sec

12000VA, 60 sec

< 40ms

3/N/PE, 380V/400V

50 Hz/60 Hz

7.6A/7.2A

9.1A/8.7A

<2%

98.4% 97.7% 99.9% 97.5%

Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Technical Data General data Dimensions(W/H/D) Weight Topology Self consumption (Night) Operation temperature range Relative humidity Ingress protection Noise emission Cooling concept Max.operation altitude
Grid connection standard
Safty/EMC standard Features DC connection AC connection Display Communication Warranty

8. Specifications

RHI-3P5K-HVES-5G

RHI-3P6K-HVES-5G

535455181mm 25.1kg
Transformerless <7 W
-25+60 0-100% IP65
<30 dB (A) Natural convection
4000m
G98 or G99, VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15/VFR:2019, 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 62109-1/-2 ,EN 61000-6-1/-3

MC4 connector Quick Connection plug
LCD2X20 Z RS485, Optional:Wi-Fi, GPRS
5 years (extand to 20 years)

.48.

.49.

8. Specifications

Technical Data Input DC (PV side) Recommended max. PV power Max. input voltage Rated voltage Start-up voltage MPPT voltage range Full load MPPT voltage range Max. input current Max. short circuit current MPPT number/Max input strings number Battery Battery Type Communication Battery Voltage range Maximum charging Power Maximum Charge/discharge current Output AC(Grid-side) Rated output power Max. apparent output power Operation phase Rated grid voltage The grid voltage range Rating grid frequency AC grid frequency range Rating grid output current Max. output current Power factor THDi

RHI-3P8K-HVES-5G

RHI-3P10K-HVES-5G

12800W
210-850V 26A/13A 32.5A/16.5A
2/3

1000V 600V 160V 200-850V

16000W
200-850V 26A/26A 32.5A/32.5A
2/4

8kW

Li-ion CAN/RS485 160 – 600Vdc
25A

10kW

8kW 8.8kVA (8kVA for Belgium)

10kW 10kVA

3/N/PE

380V/400V

320-480V

50 Hz/60 Hz

45-55 Hz/ 55-65Hz

12.2A/11.5A 13.4A/12.8A

15.2A/14.4A 15.2A/14.4A

0.99 ( 0.8 leading to 0.8 lagging) 2%

.50.

Technical Data Output AC(Back-up) Rated output power Peak apparent output power Back-up switch time Rated output voltage Rated frequency Rated output current THDv(@linear load) Efficiency Max.efficiency of Solar Inverting EU efficiency of Solar Inverting MPPT efficiency Battery charge/discharge efficiency Protection Anti-islanding protection Insulation Resistor detection Residual current monitoring unit Output over current protection Output short protection Output over voltage protection DC switch DC reverse polarity protection PV overvoltage protection Battery reverse protection

8. Specifications

RHI-3P8K-HVES-5G

RHI-3P10K-HVES-5G

8kW

10kW

16000VA, 60 sec

< 40ms

3/N/PE, 380V/400V

50 Hz/60 Hz

12.2A/11.5A

15.2A/14.4A

<2%

98.4% 97.7% 99.9% 97.5%

Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

.51.

8. Specifications

Technical Data General data Dimensions(W/H/D) Weight Topology Self consumption (Night) Operation temperature range Relative humidity Ingress protection Noise emission Cooling concept Max.operation altitude
Grid connection standard
Safty/EMC standard Features DC connection AC connection Display Communication Warranty

RHI-3P8K-HVES-5G

RHI-3P10K-HVES-5G

535455181mm 25.1kg
Transformerless <7 W
-25+60 0-100% IP65
<30 dB (A) Natural convection
4000m
G98 or G99, VDE-AR-N 4105 / VDE V 0124, EN 50549-1, VDE 0126 / UTE C 15/VFR:2019, 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 62109-1/-2 ,EN 61000-6-1/-3

MC4 connector Quick Connection plug
LCD2X20 Z RS485, Optional:Wi-Fi, GPRS
5 years (extand to 20 years)

.52.

9.1 Grid standard selection guide

9. Appendix

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

C 1 0 / 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

.53.

9. 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 L

–

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

.54.

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