solis S5-EH1P-L Hybrid Inverter Instruction Manual
- June 14, 2024
- solis
Table of Contents
- S5-EH1P-L Hybrid Inverter
- Product Information
- Specifications
- 1. Introduction
- 1.1 Product Description
- 1.2 Packaging
- 2.1 Safety
- 2.2 General Safety Instructions
- 2.3 Notice For Use
- 3.1 Screen
- 3.2 Keypad
- 3.3 Terminal Connection
- 4.1 Select a Location for the Inverter
- 4.2 Mounting the Inverter
- 4.3 PE Cable Installation
- 4.4 PV Input Cable Installation
- 4.5 Battery Power Cable Installation
- 4.12 Earth Fault Alarm
- 4.13 LED Indicates
- Q: What should I do if I encounter a problem with the
S5-EH1P-L Hybrid Inverter
Product Information
Specifications
-
Product Name: Solis S5-EH1P-L Hybrid Inverter
-
Manufacturer: Ginlong Technologies Co., Ltd.
-
Address: No. 57 Jintong Road, Binhai Industrial Park,
Xiangshan, Ningbo, Zhejiang, 315712, P.R.China -
Contact: Tel: +86 (0)574 6578 1806, Fax: +86 (0)574 6578
1606 -
Version: Ver1.0
1. Introduction
1.1 Product Description
The Solis S5-EH1P-L Hybrid Inverter is a high-quality product
designed for use in Australia. It is manufactured by Ginlong
Technologies Co., Ltd.
1.2 Packaging
The inverter comes in a secure and durable packaging to ensure
safe delivery. Please check the contents of the package upon
receipt to ensure that all components are present.
2. Safety & Warning
2.1 Safety
Safety is of utmost importance when operating the Solis
S5-EH1P-L Hybrid Inverter. Please read and understand all safety
instructions provided in this manual before using the product.
2.2 General Safety Instructions
Follow these general safety instructions while using the
inverter:
-
Do not operate the inverter in wet or humid conditions.
-
Avoid exposing the inverter to extreme temperatures.
-
Ensure proper ventilation around the inverter to prevent
overheating. -
Do not open the inverter casing as it contains high-voltage
components. -
Keep children and unauthorized personnel away from the
inverter.
2.3 Notice For Use
If you encounter any issues with the inverter, please find the
inverter’s serial number and contact Ginlong Technologies Co., Ltd.
for assistance. They will try to respond to your question as soon
as possible.
3. Overview
3.1 Screen
The inverter features a user-friendly screen that displays
important information and settings.
3.2 Keypad
The keypad allows you to navigate through the inverter’s menu
and make adjustments to its settings.
3.3 Terminal Connection
The inverter has terminal connections for easy installation and
connection to other components.
4. Installation
4.1 Select a Location for the Inverter
Choose a suitable location for installing the inverter. Ensure
that it is well-ventilated and protected from direct sunlight and
moisture.
4.2 Mounting the Inverter
Follow the provided instructions to securely mount the inverter
on a stable surface or wall.
4.3 PE Cable Installation
Connect the PE cable according to the provided guidelines to
ensure proper grounding of the inverter.
4.4 PV Input Cable Installation
Install the PV input cables following the recommended wiring
diagrams and guidelines provided by Ginlong Technologies Co.,
Ltd.
4.5 Battery Power Cable Installation
If applicable, connect the battery power cable to the inverter
as per the instructions provided.
4.12 Earth Fault Alarm
The inverter is equipped with an earth fault alarm system.
Follow the instructions in the manual to troubleshoot any earth
fault alarms.
4.13 LED Indicates
The inverter’s LED indicators provide important information
about its status. Refer to the manual for a detailed explanation of
the LED indications.
FAQ
Q: What should I do if I encounter a problem with the
inverter?
A: If you experience any issues with the inverter, please
contact Ginlong Technologies Co., Ltd. with the inverter’s serial
number for assistance.
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 S5-EH1P-L Hybrid Inverter
Instruction Manual
(ForAustralia) Ver1.0
Ginlong Technologies Co., Ltd.
Contents
1. Introduction ………………………………………………………………………………………………………………………………
1.1 Product Description ……………………………………………………………………………………………………………… 1.2
Packaging …………………………………………………………………………………………………………………………………
2. Safety & Warning ………………………………………………………………………………………………………………
2.1 Safety ………………………………………………………………………………………………………………………………………… 2.2 General
Safety Instructions …………………………………………………………………………………………………
2.3 Notice For Use …………………………………………………………………………………………………………………………
3. Overview ……………………………………………………………………………………………………………………………………
3.1 Screen ………………………………………………………………………………………………………………………………………… 3.2 Keypad
………………………………………………………………………………………………………………………………………
3.3 Terminal Connection ………………………………………………………………………………………………………………
4. Installation …………………………………………………………………………………………………………………………………
4.1 Select a Location for the Inverter …………………………………………………………………………………… 4.2
Mounting the Inverter …………………………………………………………………………………………………………
4.3 PE Cable Installation ………………………………………………………………………………………………………… 4.4 PV
Input Cable Installation ……………………………………………………………………………………………… 4.5 Battery
Power Cable Installation ……………………………………………………………………………………
4.6 AC Cable Installation …………………………………………………………………………………………………………… 4.7
Communication Cable Installation ………………………………………………………………………………… 4.8 Meter
Installation …………………………………………………………………………………………………………………… 4.9 External
Residual Current Device(RCD) ………………………………………………………………… 4.10 Inverter
monitoring connection ………………………………………………………………………………… 4.11 Max over current
protection device (OCPD) …………………………………………………………
4.12 Earth Fault Alarm ……………………………………………………………………………………………………………… 4.13 LED
Indicates ………………………………………………………………………………………………………………………
5. Commissioning & Shutdown …………………………………………………………………………………
5.1 Preparation of Commissioning ……………………………………………………………………………………… 5.2
Commissioning Procedure ……………………………………………………………………………………………… 5.3 Shutdown
procedure …………………………………………………………………………………………………………
6. Operation …………………………………………………………………………………………………………………………………
6.1 Initial Display ……………………………………………………………………………………………………………………………
6.2 Main Menu ……………………………………………………………………………………………………………………………… 6.3 Information
……………………………………………………………………………………………………………………………… 6.4 Settings
……………………………………………………………………………………………………………………………………
6.5 Advanced Info ………………………………………………………………………………………………………………………… 6.6 Advanced
Settings – Technicians Only …………………………………………………………………………
7. Maintenance ………………………………………………………………………………………………………………………… 8.
Troubleshooting ………………………………………………………………………………………………………………… 9. Specifications
……………………………………………………………………………………………………………………… 10. Appendix
…………………………………………………………………………………………………………………………………
01 01 02 03 03 03 05 06 06 06 06 07 07 09 11 12 15 20 22 27 33 33 34 34 35 36 36 36 45 46 46 48 48 51 53 58 81 82 88 97
1. Introduction
1.1 Product Description
The Solis S5-EH1P-L 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 S5-EH1P-L Series has 5 different
models: S5-EH1P3K-L, S5-EH1P3.6K-L, S5-EH1P4.6K-L, S5-EH1P5K-L, S5-EH1P6K-L
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 x3
AC grid terminal x1
Reminder light Display
Key
Figure 1.1 Front side view
AC backup terminal x1
DC connector x2
RJ45 connector x1
Battery Cable x2
CAN cable x1
RS485 Meter cable x1 (For Eastron Meter)
Eastron Meter x1
CT x1
Terminal cover x1
Connector x1
Battery Temperature Sensor x1 (Optional )
If anything is missing, please contact your local Solis distributor.
Manual User manual x1
Figure 1.2 Bottom side view
.01.
.02.
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.
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.
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.
.03.
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 Port of S5-EH1P-L Series is not allowed to connect to the
grid.
.04.
2. Safety & Warning
WARNING: The S5-EH1P-L Series does not support parallel (three- and single-
phase) operation on the AC-BACKUP port. Connecting multiple units in parallel
will void the warranty.
×××
3 Phase LOAD
××
1 Phase LOAD
×
Generator
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.
.05.
3. Overview
3.1 Screen
Solis S5-EH1P-L Series adopts 7 inch color 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 S5-EH1P-L Series inverter is different from normal on-grid inverter,
please refer to the instructions below before start connection.
Dry Contact Port (reserved)
DRM Connection
COM Port
Figure 3.3 Front Panel Display
WARNING: Please refer to the specification of the battery before
configuration.
.06.
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 104/40.
4. Installation
Install on a wall or strong structure capable of bearing the weight of the
machine (18.3kg). 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 300mm should be kept between inverters or objects and 500mm
clearance between the bottom of the machine and the ground.
300mm
300mm
300mm
300mm
300mm
500mm
500mm
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. The
mounting structure where the inverter is installed must be fireproof.
.07.
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.
NOTE: This inverter complies with IEC 62109-2 clause 13.9 for earth fault
alarm monitoring. If an Earth Fault Alarm occurs, the fault code “PV-ISO PRO
01/02” will be displayed on the inverter screen / the LED indicator “Alarm”
will light up.
.08.
4. Installation
4.2 Mounting the Inverter
Dimensions of mounting bracket:
102
21
6.8
70
140
318
333
11.8 6.8
140
31
31
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 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.
.09.
4. Installation
Suitable fixing screws Bracket
Locking screw Figure 4.4 Fix bracket on the wall WARNING: The inverter must be
mounted vertically. 2.Lift up the inverter (be careful to avoid injury), 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 4.5 Wall Mount Bracket .10.
4. Installation
4.3 PE Cable Installation
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 2Nm.
Figure 4.6 Connect the external grounding conductor
4.4 PV Input Cable Installation
4. Installation
Before connecting inverter, please make sure the PV array open circuit voltage
is within the limit of the inverter.
Before connection, please make sure the polarity of the output voltage of PV
array matches the”DC+”and”DC-“symbols.
Please use approved DC cable for PV system.
1. Select a suitable DC cable and strip the wires out by 7±0.5mm. Please refer to the table below for specific specifications.
7±0.5mm
Cable type
Industry generic PV cable model:PV1-F
Cross sectionmm²
Range
Recommended value
4.0~6.0 12~10AWG
4.012AWG
Figure 4.7
2. Take the DC terminal out of the accessory bag, turn the screw cap to disassemble it, and take out the waterproof rubber ring.
Positive terminal
Negative terminal Nut
Figure 4.8
Waterproof collar
.11.
.12.
4. Installation
3. Pass the stripped DC cable through the nut and waterproof rubber ring. Positive terminal Negative terminal
Figure 4.9
4. Connect the wire part of the DC cable to the metal DC terminal and crimp
it with a special DC terminal crimping tool.
Positive terminal Negative terminal
Squeeze
Figure 4.10
5. Insert the crimped DC cable into the DC terminal firmly, then insert the waterproof rubber ring into the DC terminal and tighten the nut.
Positive terminal Negative terminal
After you hear a “click”, pull gently to check for a firm engagement. Click
Tighten
Figure 4.11 .13.
4. Installation
6. Measure PV voltage of DC input with multimeter, verify DC input cable
polarity.
- –
Figure 4.12 7. Connect the wired DC terminal to the inverter as shown in the figure, and a slight “click” is heard to prove the connection is correct.
Click
Figure 4.13
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.
.14.
4. Installation
4.5 Battery Power Cable Installation
4.5.1 Normal battery cable installation
NOTE: External battery switch must be installed between the battery and
inverter for safe maintenance purpose if the battery does not have built-in DC
breaker. The battery switch must have a rated current greater than or equal to
80A/125A (80A for 3K~3.6K Models, 125A for 4.6K~6K Models). Connect the
Battery cable to the inverter and make sure the positive and negative poles
are correct. A “Click” sound means fully connection and fasten the cables with
the terminal protection cover as indicated in Figure 4.14.
Figure 4.14 Installation of Terminal Protection Cover To remove the battery
connection, please ensure the system is powered off and then remove the
terminal protection cover. When disconnect the battery cables, please press
the button as indicated in the figure while pulling out the cable.
Button
Figure 4.15 NOTE: Before connecting the battery, please carefully read the
user manual of the battery and perform the installation exactly as the battery
manufacturer requests.
.15.
4. Installation
4.5.2 Extended battery cable installation
If the battery cable size is required to be changed by the battery
manufactuer, please refer to following content for the cable preparation.
Otherwise, you may skip these steps.
A A-1 A-2
B C-1 C-2
D
Figure 4.16
A:Connector Body A-1: Barrel sealing (Not included when no sealing
requirement) A-2: O-Ring (Not included when no sealing require ment)
B: Barrel(Only for cable size 16mm² ) C: Grommet(Not included when no sealing
requirement)
C-1: For 16mm²
C-2: For 25mm² D: Back Shell
Step 1: Wire cutting and stripping (Apply for 10mm² & 16mm² Cable) Stripping conductor: 18±1mm
Conductor
Insulation Figure 4.17
.16.
4. Installation
Step 2: Un-assemble Grommet and Back shell over the cable as shown.
Grommet
Back shell
Correct direction: The chamfer in the rear position
Wrong direction: The chamfer at the front position
Figure 4.18 Step 3: Put the barrel and the cable conductor into the lug.
When 16mm² cable apply, assembly barrelinto lug firstly as shown
Then put the conductor into the lug
Tie closely in here Figure 4.19
.17.
4. Installation
Step 4: Crimping the lug as shown. Crimping heigth is 7.5+0/-0.2mm
Gap is 1.0 mm Ref. Crimping length is 7.5 ± 0.5 mm
Figure 4.20
Cable size 16mm² 25mm²
Cable range 8.10±0.20mm 10.20±0.20mm
Crimping heigth 7.5+0/-0.2mm
Table 4.1
Cable pullout force 1000N Min. 1200N Min.
Recommended crimping tool: Manual hydraulic crimping Die:25 mm²
Figure 4.21
.18.
4. Installation
Step 5: Install grommet and back shel. Assemble the grommet onto the connector
body firstly
No gap
Then assemble back shell onto the connector body and tighten
Figure 4.22
4. Installation
4.6 AC Cable Installation
There are two AC terminals and the assembly steps for both are the same.
TakeouttheACconnectorpartsfromthepackaging.
Describe Cable diameter Traverse cross sectional area Exposure Length
Numerical value 10~14mm 6~8mm² 9mm
Table 4.2
1. Disassemble the AC connector. Strip the AC wires about 9mm.
22mm
9mm
2. Set the parts on the cable. A
Figure 4.23
27mm
B CD E
Figure 4.24 3. Crimp wires screw twisting torque 0.8+/-0.1N·m.
9mm
A: Locker B: Body C: Seal body D: Claw E: Nut
Figure 4.25
.19.
.20.
4. Installation
4. Push Housing into Body.
Click
Figure 4.26 5. Insert Seal and Clamp Finger into socket ,then tighten the nut
, torque 4+/-0.5N·m.
Figure 4.27 6. The same installation for both cable end plug and socket
connectors. 7. Mating plug andsocket: Push the plug into the socket
completely, then rotate the locker according to the direction instructed by
the marks on thelocker.
Figure 4.28 NOTE: Before mating the plug and socket, please double check both
AC Grid and AC Backup connectors. Do not connect the grid cables to the AC
Backup port or connect the backup load cables to the AC Grid Port. Otherwise,
it may leads to malfunction or damage. .21.
4. Installation
4.7 Communication Cable Installation
4.7.1 Communication Port Definition
Picture
Port
CAN Port
RS-485 Meter Port
DRM Port
COM Port
Function
1. Used for CAN communication between inverter and lithium battery BMS. 2.
(Optional) Used for battery temperature sensor connection when lead-acid
battery is used.
1. Used for RS485 communication between inverter and the compatible smart
meter. It is necessary to realize the normal hybrid control logics.
1. (Optional) To realize Demand Response or Logic interface function, this
function may be required in UK and Australia.
1. (Optional) Used for Solis Data Logger Connection. 2. (Optional) Used for
Modbus RTU communication with a 3rd party external device.
Table 4.3
4.7.2 CAN Port Connection 4.7.2.1 CAN Communication with Lithium Battery
1. A 3m length pre-made CAN cable is provided in the accessory package with
one end marked with “To CAN” and the other end marked with “To Battery”.
To CAN
To Battery
Figure 4.29 2. Insert the RJ45 terminal on the end of the CAN cable (Marked
with “To CAN”) to the CAN port at the bottom of the inverter and fasten the
swivel nut. 3. Connect the other end marked with “To Battery” to the battery.
.22.
4. Installation
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. Pin definition of the inverter CAN Port is following
RJ45terminal
EIA/TIA 568B.
12345678
CAN-H on Pin 4: Blue CAN-L on Pin 5: Blue/White
CAN-L CAN-H
4.7.2.2 Battery Temperature Sensor Connection for Lead-acid Battery (Optional)
NOTE: Battery temperature sensor can be optionally used with lead-acid battery
for inverters to accurately detect the battery ambient temperature and adjust
voltage compensation based on the customer-defined coefficient. It is an
optional accessory which may not be provided with the inverter package. If
lead-acid battery is used and battery temperature sensor is needed, please
contact your distributor or Solis sales to purchase individually.
1. Insert the RJ45 terminal end to the CAN port at the bottom of the inverter
and fasten the swivel nut. (Cable length: 1 meter)
2. Fasten the temperature sensor ring onto the battery module. If no suitable
fastening terminal can be found on the battery module, the sensor ring can be
attached to the positive or negative pole of the battery module.
Figure 4.30
.23.
4. Installation
4.7.3 RS485 Meter Port Connection
4.7.3.1 RS485 Meter Connector Assemble Steps
A 2-pin connector with 5m RS485 cable for meter communication can be found in
the package. If extending the RS485 cable, please ensure the distance is
within 100m and twisted shielded RS485 cable should be used to prevent signal
interference. Red wire is RS485A Black wire is RS485B
A. Connection Part B. Rotatory Ring C. Main Body D. Sealing Ring E. Fasten Nut Figure 4.31
RS485A
RS485B
Figure 4.32
4.7.3.2 Compatible Smart Meter RS485 Connection
Compatible Smart Meter Model SDM120CT (Default) SDM120M SDM630MCT SDM630
ACR10R16DTE
ACR10R16DTE4
Meter RS485 Pin Definition Pin 9 RS485B, Pin 10 RS485A Pin 9 RS485B, Pin
10 RS485A Pin 13 RS485B, Pin 14 RS485A
B RS485B, A RS485A RJ45 Port on the meter Pin 7 RS485B, Pin 8 RS485A
Pin 21 RS485A, Pin 22 RS485B
Table 4.4
.24.
4. Installation
4.7.4 DRM Port Connection (Optional)
4.7.4.1 For Remote Shutdown Function
Solis inverters support remote shutdown function to remotely control the
inverter to power on and off through logic signals. The DRM port is provided
with an RJ45 terminal and its Pin5 and Pin6 can be used for remote shutdown
function.
Signal Short Pin5 and Pin6 Open Pin5 and Pin6
Table 4.5
Function Inverter Generates Inverter Shutdown in 5s
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 4.33 Strip the insulation layer and connect to RJ45 plug
4.7.4.2 For DRED Control Function (For AU and NZ Only)
DRED means demand response enable device. The AS/NZS 4777.2:2020 required
inverter need to support demand response mode(DRM). This function is for
inverter that comply with AS/NZS 4777.2:2020 standard. A RJ45 terminal is used
for DRM connection.
Pin
Assignment for inverters capable of both charging and discharging
Pin
Assignment for inverters capable of both charging and discharging
1
DRM 1/5
5
RefGen
2
DRM 2/6
6
Com/DRM0
3
DRM 3/7
7
V+
4
DRM 4/8
8
V-
Table 4.6
.25.
4. Installation
NOTE: Solis hybrid inverter is designed to provide 12V power for DRED.
RJ45 plug 1–8
RJ45terminal 12345678
12345678
Correspondence between the cables and the stitches of plug Pin 1: white and orange ; Pin 2: orange Pin 3: white and green Pin 4: blue Pin 5: white and blue Pin 6: green Pin 7: white and brown Pin 8: brown
Figure 4.34 Strip the insulation layer and connect to RJ45 plug
4.7.5 COM Port Connection (Optional)
COM Port can be used for either Solis Data Logger connection or 3rd party
monitoring/control device with Modbus RTU communication.
4.7.5.1 Solis Data Logger Installation
1. Remove the watertight cap from the COM port. 2. Insert the Solis Data
Logger to the COM port to match the joint.
Match the joint Figure 4.35
3. Rotate the black ring on the Solis Data Logger in clockwise to secure the
connection. NOTE: Do not rotate the main body of the Solis Data Logger. It may
damage the logger and the inverter COM port.
.26.
4. Installation
Figure 4.36
4.7.5.2 Third party monitoring/control device connection
If a third party monitoring/control device need to be connected directly to
the inverter, the COM port can be used with a special connector to extend the
RS485A and RS485B pins, please contact Solis local service team or Solis sales
for this special connector.
Figure 4.37 Modbus RTU protocol is supported by Solis inverters. To acquire
latest protocol document, please contact Solis local service team or Solis
sales.
4.8 Meter Installation
CAUTION: Make sure the AC cable is totally isolated from AC power before
connecting the Smart Meter and CT. A Smart Meter with the CT in product box is
compulsory for hybrid system installation. It can beused to detect the grid
voltages and current directions, provide the operating condition of the
hybridinverter via RS485 communications.
.27.
4. Installation
NOTE:
1. The Smart Meter with CT is already configured ; please do not change any
settings on the Smart Meter.
2. One Smart Meter can be used with only one hybrid inverter.
The Solis S5-EH1P-L Series inverter is able to connected Acrel meters or Eastron meters to fuilfill the control logic of the self-consumption mode, export power control, monitoring, etc. Acrel 1ph meter (With CT): ACR10R-D16TE (Optional) Acrel 3ph meter (With CT): ACR10R-D16TE4 (Optional) Eastron 1ph meter (Direct Insert): SDM120M (Optional) Eastron 1ph meter (With CT): SDM120CT Eastron 3ph meter (Direct Insert): SDM630 (Optional) Eastron 3ph meter (With CT): SDM630MCT (Optional) Below 4.8.1 section describes the connection diagram of 1ph meter Eastron SDM120CT and Acrel ACR10R-D16TE. Below 4.8.2 section describes the connection diagram of 3ph meter Eastron SDM630MCT and Acrel ACR10R-D16TE4.
NOTE:
Please note that the CT orientation must be correct, otherwise the system will
not work properly.
Grid side K L
Compatible Smart Meter Model SDM120CT (Default) SDM120M SDM630MCT SDM630
ACR10R16DTE
ACR10R16DTE4
Meter RS485 Pin Definition Pin 9 RS485B, Pin 10 RS485A Pin 9 RS485B, Pin
10 RS485A Pin 13 RS485B, Pin 14 RS485A
B RS485B, A RS485A RJ45 Port on the meter Pin 7 RS485B, Pin 8 RS485A
Pin 21 RS485A, Pin 22 RS485B
Table 4.7
.28.
4. Installation
4.8.1 Single phase meter installation
.29.
RS485 Meter COM
PV strings CB CB
Battery
RS485 Meter
S5-EH1P-L
Back-up L N PE
L N PE Grid
Distribution box CB
RCD CB
RCD
Power cable
PE N L Load_a
Note: If the CT is installed in the wrong direction, the Hybrid Inverter can’t work normally.
Pin 9 RS485A – Black Pin 10 RS485B – Red
Critical Load
L N PE
34
8 9 10 SDM120M
567 12 1:White 2:Black
L N GRID PE
Grid side K L
CT direction towards to grid
Figure 4.38 (Eastron SDM120CT)
RS485 Meter COM
PV strings CB CB
Battery
S5-EH1P-L S5-EH1P-L
Back-up L N PE
L N PE Grid
Distribution box CB RCD
CB
RCD
Critical Load
L N PE
Power cable
PE N L
Note: If the CT is installed in the wrong direction, the Hybrid Inverter can’t work normally.
Load_a
Figure 4.39 (Acrel ACR10R-16DTE)
N L
RJ45 Port
1 2 3 41312 Meter
5 6 7 8 9 10212223 White Black
CT
L
N GRID
PE
Grid side K L
CT direction towards to grid
4. Installation
.30.
4. Installation
4.8.2 Three phase meter installation
.31.
PV strings CB CB
Battery
RS485 Meter
S5-EH1P-L
Back-up L N PE
L N PE Grid
Distribution box CB
RCD
CB
RS485
RCD
Critical Load
L N PE
Power cable
PE N L Load_a
Note: If the CT is installed in the wrong direction, the Hybrid Inverter can’t work normally.
Figure 4.40 (Eastron SDM630MCT)
BA
CT Wires Left: Black Right: White
9 10 11 12 13 14 15 16 17 18 19 20
Meter
Voltage Sampling
Power
1 2 3 4 5 6 7 8
CT3 CT2
CT1
L3 L2 L1 GRID N
PE
Grid side K L
CT direction towards to grid
PV strings S5-EH1P-L
Battery
Back-up L N PE
La N PE Grid
Distribution box RCD
RS485
RCD
Critical Load:3kw
L N PE
N
Lc Lb
N
La
La
1 2 3 4 1312
Meter
A B 5 6 7 8 9 10 212223
RS485
CTc
Lc
CTb
Lb
CTa
La GRID
N
PE
RCD
RCD
PE N L
Power cable
Load_a
PE
N La Lb Lc
Load_b
Note: If the CT is installed in the wrong direction, the Hybrid Inverter can’t
work normally.
Figure 4.41 (Acrel ACR10R-16DTE4)
PE N Lc Load_c
Grid side K L
CT direction towards to grid
4. Installation
.32.
4. Installation
4.9 External Residual Current Device(RCD)
All series of Solis inverters are integrated with an internal residual current
device to protect against any potential d.c component and a.c component of
residual current. Therefore, all Solis inverters, due to the design, are not
able to feed in DC fault current to the system which fully complies with
IEC60364-7-712. If an external RCD is required to be installed by local
regulations, Solis recommends installing a Type-A RCD with a threshold current
higher than 100mA.
4.10 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
Wi-Fi monitoring
Wi-Fi box
Internet
Web server
PC monitoring
Figure 4.42 Wi-Fi orGPRScommunication function
4. Installation
4.11 Max. over current protection device (OCPD)
To protect the inverter’s AC grid connection conductors, Solis recommends
installing AC breakers that will protect againt overcurrent. The following
table defines OCPD ratings for these inverters.
Inverter S5-EH1P3K-L S5-EH1P3.6K-L S5-EH1P4.6K-L S5-EH1P5K-L S5-EH1P6K-L
Rated voltage(V)
230 230 230 230 230
Rated output current (Amps)
13.1 15.7 20.0 21.7 26.1
Table 4.8 Rating of grid OCPD
Current for protection device (A)
20 20 30 30 40
4.12 Earth Fault Alarm
Solis inverters fully comply with IEC62109-2 in terms of earth fault alarm (PV
insulation detection and protection). When the earth fault on PV side happens,
the yellow alarm indicator will flash and the alarm code “PVISO-PRO” will show
up on the LCD screen.
Inverter should be installed in a high traffic area to ensure the alarm to be
noticed. The inverter can’t start to generate until the earth fault is
resolved. Please refer to the troubleshooting section of this manual to
resolve the earth fault or contact Solis service team for help. For the earth
fault happened on battery inputs, customer shall install external alarm and
monitoring device to comply AS/NZS 5139.
.33.
.34.
4. Installation
4.13 LED Indicators
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
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 4.9 Status Indicator Lights
5. Commissioning
5.1 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.
5.2 Commissioning Procedure
5.2.1 Recommended Installation
1. Measure DC voltage of PV strings and battery and ensure the polarity is
correct.
- –
2. Measure AC voltage and frequency and ensure they are within local standard.
3. Switch on the external AC breaker to power on the LCD of the inverter.
.35.
.36.
5. Commissioning
4. Enter advanced settings (do not repeat this step for all subsequent operations).
0.00kW 0.00kW
0.00kW
2.526 KWH
0.00kW
SMeettninugs
Information
2015-02-23 19 35
Settings
Advanced Information
Advanced Settings
SPeatstsinwgosrd
Step 1
2015-02-23 19 35
Please Input The Current Password
0
0
1
0
Step 2
YES=
ESC
UP
DOWN
ENT
Step 3
5. Select the local grid standard code.
Advanced Settings
Select Standard ON/OFF Calibrate
Reset Password Restart HMI
Storage Energy Set
2015-02-23 19 35
Export Power Set HMIUpdate DSPUpdate
BaudRate RS485 Special Settings
ESC
UP
DOWN
ENT
Step 1
SetleticntgSs tandard
Select Standard: 4777_A
2015-02-23 19 35
YES=
Step 2
5. Commissioning
Region Standard Code Name OV-G-V1 OVGV1-T OV-G-V2 OVGV2-T UN-G-V1 UNGV1-T UN-G-V2 UNGV2-T OV-G-F1 OVGF1-T OV-G-F2 OVGF2-T UN-G-F1 UNGF1-T UN-G-F2 UNGF2-T Startup-T Restore-T Recover-VH Recover-VL Recover-FH Recover-FL Start- VH Start-VL Start-FH Start-FL
Australia A
4777-A
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 52HZ 0.1S 52HZ 0.1S 47HZ 1.5S 47HZ 1.5S
60S 60S 253V 205V 50.15Hz 47.5Hz 253V 205V 50.15Hz 47.5Hz
Australia B
4777-B
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 52HZ 0.1S 52HZ 0.1S 47HZ 1.5S 47HZ 1.5S
60S 60S 253V 205V 50.15Hz 47.5Hz 253V 205V 50.15Hz 47.5Hz
Australia C New Zealand
4777-C
4777-N Setting Range
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 55HZ 0.1S 55HZ 0.1S 45HZ
5S 45HZ
5S 60S 60S 253V 205V 50.15Hz 47.5Hz 253V 205V 50.15Hz 47.5Hz
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 55HZ 0.1S 55HZ 0.1S 45HZ 1.5S 45HZ 1.5S 60S 60S 253V 196V 50.15Hz 47.5Hz 253V 196V 50.15Hz 47.5Hz
230-276V 1-2S
230-276V 0.1-2S 38-230V 10-11S 38-230V 1-2S
50-55HZ 0.1-2S
50-55HZ 0.1-2S 45-50HZ 1-6S 45-50HZ 1-6S 10-600S 10-600S
230-276V 115-230V 50-52Hz 47-50Hz 230-276V 115-230V 50-52Hz 47-50Hz
Table 5.1
.37.
.38.
5. Commissioning
6. Check the backup supply settings. If you don’t have a backup circuit on the backup port, disable it. Otherwise, keep it as enable and refer to section 4.6 for the installation process of AC backup connector.
Advanced Settings
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Steotrtiangges Energy Set
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Select Standard ON/OFF Calibrate
Reset Password Restart HMI
Storage Energy Set
Export Power Set HMIUpdate DSPUpdate
BaudRate RS485 Special Settings
Control Parameter Battery Select Meter Set
Storage Mode Select Battery Wakeup
ESC
UP
DOWN
ENT
Step 1
CSeotntitnroglsParameter
2015-02-23 19 35
Backup Supply Backup Votage
Current Direction Battery Current Charge Limitation
Disable Floating Charge 055.0V
230.0V Equalizing Charge 000.0V
Charge Batter y Overoltage 060.0V
000.0A Battery Undervoltage042.0V
000.0A Voltage Droop
Disable
Discharge Limitation000.0A
Step 2
SET=
ESC
UP
DOWN
ENT
Step 3
5. Commissioning
7. Select the battery option and set battery SOC The default setting for overdischarge SOC is 20%, force charging SOC is 10%, force charge current limit is 100A. If other setting is needed please follow 6.6.6.2 for detail. PS. If you don’t have battery connected, set it to “No Battery”.
Advanced Settings
Select Standard ON/OFF Calibrate
Reset Password Restart HMI
Storage Energy Set
2015-02-23 19 35
Export Power Set HMIUpdate DSPUpdate
BaudRate RS485 Special Settings
Steotrtiangges Energy Set
Control Parameter Battery Select Meter Set
Storage Mode Select Battery Wakeup
2015-02-23 19 35
ESC
UP
DOWN
ENT
Step 1
Step 2
BSaetteinrgysSelect
2015-02-23 19 35
Battery Module: B-BOX LV
OverDischg SOC 020%
BSaetteinrgysSelect
Step 3
2015-02-23 19 35
ForceCharge SOC 004% ForceChg PLmt 300.0W Power limit On From Gird
YES=
ESC
UP
DOWN
ENT
Step 5
YES=
ESC
UP
DOWN
ENT
Step 4
.39.
.40.
5. Commissioning
Brand BYD
Model Box Pro 2.5-13.8
Setting Select “B-BOX”
LG Energy RESU 3.3/6.5/10/13 (CEI 0-21) Solution
Select “LG Chem”
Pylontech Dyness
US2000(CEI 0-21)/US3000(CEI 0-21)/ ForceL1(CEI 0-21)/ForceL2(CEI 0-21)/
Phantom-S/US2000C/US3000C/UP5000
Powerdepot/Powerbox/B4850
Select “Pylon” Select “Dyness”
Puredrive AOBOET WECO Green Soluna Highstar Freedom KODAK FOX UZ Energy GSL
48V-100Ah AOBOET Uhome-LFP 6.8kWh 5K3-R20 Home E11 4K PACK HSD5870 Freedom Won Lite FL5.2 LV5200 L051100-A 48V-100Ah
Select “Puredrive” Select “AoBo” Select “WECO” Select “Green” Select “Soluna” Select “Highstar” Select “Freedom” Select “KODAK” Select “FOX” Select “CATL” Select “GSL”
ZETARA POWER
51.2V-100Ah
Select “ZETARA”
Battery Select
NOTE: Only battery models in the list can be selected.
NOTE: For the latest compatible battery list, please refer to Solis company website.
.41.
5. Commissioning
8. Select the storage work mode. Recommended settings – Self-Use Mode. This mode can maximize the use of photovoltaic power generation directly for household electricity, or store it in batteries and use it for household electricity.If the other mode need to be used, please follow 6.6.6.4.
Advanced Settings
Select Standard ON/OFF Calibrate
Reset Password Restart HMI
Storage Energy Set
2015-02-23 19 35
Export Power Set HMIUpdate DSPUpdate
BaudRate RS485 Special Settings
Steotrtiangges Energy Set
Control Parameter Battery Select Meter Set
Storage Mode Select Battery Wakeup
2015-02-23 19 35
ESC
UP
DOWN
ENT
Step 1
Steotrtiangges Mode Select
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Mode:
Self Use
SeltftiUngsse Mode
Step 2
ON OFF
2015-02-23 19 35
Step 3
TSiemtteinogfsuse for Self use
2015-02-23 19 35
Optimal Income: Stop
Charge Limit:
050.0A
Discharge Limit: 050.0A
HH MM HH MM
Charge Time: Discharge Time: Charge Time: Discharge Time: Charge Time: Discharge Time:
22:00—-08:00 08:00—-22:00 00:00—-00:00 00:00—-00:00 00:00—-00:00 00:00—-00:00
HH MM
Total Time: 10:00 Total Time: 14:00 Total Time: 00:00 Total Time: 00:00 Total
Time: 00:00 Total Time: 00:00
NEXT=
ESC
UP
DOWN
ENT
Step 5
YES=
ESC
UP
DOWN
ENT
Step 4
CSehtatirngginsg from gird for Self use
2015-02-23 19 35
Allow Not Allow
YES=
ESC
UP
DOWN
ENT
Step 6
NOTE: See step 6, if “Charge from grid for self use” is set to “Not Allow”,
the inverter will not force charge the battery and the battery could
potentially go to sleep mode.
.42.
5. Commissioning
8. Please check in the accessory package and confirm the meter type first. If the default meter is Acrel ACR10R16DTE, please select the meter type as “1PH Meter”. If the default meter is Eastron SDM120CT, please select the meter type as “Eastron 1PH Meter”. If another meter is used, please refer to section 6.6.6.3.1 to select the meter type. Please set the “meter placement” as “Grid”. If other configuration is used, please refer to section 6.6.6.3.2.
Advanced Settings
Select Standard ON/OFF Calibrate
Reset Password Restart HMI
Storage Energy Set
2015-02-23 19 35
Export Power Set HMIUpdate DSPUpdate
BaudRate RS485 Special Settings
Steotrtiangges Energy Set
Control Parameter Battery Select Meter Set
Storage Mode Select Battery Wakeup
2015-02-23 19 35
ESC
SMeettteinr gSset
UP
DOWN
ENT
Step 1
2015-02-23 19 35
SMeettteinr gSselect
Step 2
2015-02-23 19 35
Meter Select Meter Placement
Meter Type:
1Ph Meter
ESC
SMeettteinr gSselect
YES=
UP
DOWN
ENT
Step 3
2015-02-23 19 35
Meter Type:
Eastron 1Ph Meter
YES=
ESC
UP
DOWN
ENT
Step 4
SMeettteinr gPslacement
2015-02-23 19 35
Install on:
Grid
YES=
ESC
UP
DOWN
ENT
Step 5
YES=
ESC
UP
DOWN
ENT
Step 6
5. Commissioning
9. Switch on the inverter DC switch. 10. Switch on battery breaker. 11.
Verify the readings in “Information” pages.
MSeettninugs
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0.00kW
2.526 KWH
0.00kW
Information
2015-02-23 19 35
Settings
Advanced Information Advanced Settings
Step 1
SInefottrinmgastion
2015-02-23 19 35
Solar Power 00000W
Solar Voltage1 000.0V
Solar Voltage2 000.0V
Grid Voltage 000.0V
Battery Voltage 000.0V
Backup Voltage 000.0V
DRM NO.
08
Solar Current1 000.0A
Solar Current2 000.0A
Grid Power
+00000W
Grid Frequency 00Hz
Charg Power +00000W
ESC
1/4
UP
DOWN
ENT
Step 3
SInefottrinmgastion
BMS Information
Module Type No Battery
Battery Voltage 00.00V
Battery Current 000.0A
Charge Limit 000.0A
Discharge Limit 000.0A
SOC Value
000%
SOH Value 000%
BMS Status Normal
ESC
3/4
UP
DOWN
Step 5
2015-02-23 19 35
ENT
Step 2
Information
2015-02-23 19 35
Total Energy0000000kWh Device StatusGenerating
This Year 0000000kWh Battery StatusNormal
Last Year 0000000kWh Backup StatusNormal
This Month 0000kWh
Grid Status OffGridMode
Last Month 0000kWh
Today
0000.0kWh
Yesterday 00000.0kWh
Inverter SN FFFFFFFFFFFFFFF
ESC
2/4
UP
DOWN
ENT
Step 4
ISnefottrimngastion
2015-02-23 19 35
Grid Meter
PV Inverter Meter
Meter Voltage 000.0V
Meter Voltage 000.0V
Meter+ Current00.00A
Meter+ Current00.00A
Meter Power +000000W Meter Power +000000W
Meter Energy 0000.00kWh Meter Energy 0000.00kWh
Input Energy 0000.00kWh Input Energy 0000.00kWh
Output Energy 0000.00kWh Output Energy 0000.00kWh
ESC
4/4
UP
DOWN
ENT
Step 6
.43.
.44.
5. Commissioning
5.3 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.
.45.
6. 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 6.1 Operation Overview
6.1 Initial Display
When powering up the inverter for the first time, it is required to set the
language. Press “ENT” to select.
SettLinagnsguage
2015-02-23 19 35
English
YES=
ESC
UP
DOWN
ENT
Figure 6.2 Set Language
.46.
6. Operation
After setting the language, press “ESC” to access the main page.
0.00kW 0.00kW
0.00kW
2.526 KWH
0.00kW
Figure 6.3 Main Page
On the main page, Press “ESC” : View the yield data on a monthly bar charts.
Then use “UP” and “DOWN” to change the date and “ENT” to move the cursor.
Press “UP” or “DOWN”: View different status on the top left of the main page.
Press “ENT”: Enter the main menu.
Solar Power: When solar power is generatedan arrow indicates the direction of
the power flow and the value is shown above the arrow.
Battery: When the battery is connected successfully, it will display “CAN
OK”,meanwhile,battery SOC, arrow and value of power flow is shown. Otherwise,
it will display “CAN Fail”.
Non-Critical Loads: Loads connected to the AC Grid port which will shutdown if
the grid is in malfunction.
Smart Meter: When the smart meter is connected successfully,
2.526
KWH
it will display “RS485 OK”, otherwise “RS485 Fail”.
Critical Loads: Loads connected to the AC Backup port which will be supported by battery and solar even if the grid is in malfunction.
Grid: The arrow and value indicate the export/import power of the hybrid system.
.47.
6.2 Main Menu
There are four submenu in the Main Menu: 1. Information 2. Settings 3.
Advanced Information 4. Advanced Settings
MSeettninugs
Information
6. Operation
2015-02-23 19 35
Settings
Advanced Information
Advanced Settings
ESC
UP
DOWN
ENT
Figure 6.4 Main Menu
6.3 Information
In the “Information” section, operating data and information can be viewed.
Three pages of information can be checked by press “UP” or “DOWN”. The example
display is shown in the following Figure 6.5, 6.6 and 6.7. Values are for
reference only.
ISnefottrimngastion
2015-02-23 19 35
Solar Power 00000W
Solar Voltage1 000.0V
Solar Voltage2 000.0V
Grid Voltage 000.0V
Battery Voltage 000.0V
Backup Voltage 000.0V
DRM NO.
08
Solar Current1 000.0A
Solar Current2 000.0A
Grid Power
+00000W
Grid Frequency 00Hz
Charg Power +00000W
ESC
1/4
UP
DOWN
ENT
Figure 6.5 Information Page 1
.48.
6. Operation
Information
2015-02-23 19 35
Total Energy0000000kWh Device StatusGenerating
This Year 0000000kWh Battery StatusNormal
Last Year 0000000kWh Backup StatusNormal
This Month 0000kWh
Grid Status OffGridMode
Last Month 0000kWh
Today
0000.0kWh
Yesterday 00000.0kWh
Inverter SN FFFFFFFFFFFFFFF
ESC
2/4
UP
DOWN
ENT
Figure 6.6 Information Page 2
ISnefottrimngastion
BMS Information
Module Type No Battery
Battery Voltage 00.00V
Battery Current 000.0A
Charge Limit 000.0A
Discharge Limit 000.0A
SOC Value
000%
SOH Value 000%
BMS Status Normal
ESC
3/4
UP
2015-02-23 19 35
DOWN
ENT
Figure 6.7 Information Page 3
.49.
6. Operation
ISnefottrimngastion
2015-02-23 19 35
Grid Meter
PV Inverter Meter
Meter Voltage 000.0V
Meter Voltage 000.0V
Meter+ Current00.00A
Meter+ Current00.00A
Meter Power +000000W Meter Power +000000W
Meter Energy 0000.00kWh Meter Energy 0000.00kWh
Input Energy 0000.00kWh Input Energy 0000.00kWh
Output Energy 0000.00kWh Output Energy 0000.00kWh
ESC
4/4
UP
DOWN
ENT
Figure 6.8 Information Page 4
NOTE: Meter Power/Grid Power: Positive value indicates exporting power to the grid, negative value indicates importing power from the grid Charge Power: Positive value indicates charging, negative value indicates discharging.
NOTE: Information for “PV Inverter Meter” is only available when two Eastron meters are used and Meter Placement is selected as “Grid+PV Meter”. Details please consult Solis service department.
.50.
6. Operation
6.4 Settings
In the “Settings” section, Time/Date, Slave address and language can be
modified.
Settings
2015-02-23 19 35
Set Time/Date Set Address Set Language
Figure 6.9 Setting
6.4.1 Set Time/Date
Set the time and date on the inverter. Must set this according to local time
as it affects the daily yield calculation. (If Solis monitoring system is
used, must set the correct time zone of the system, otherwise datalogger will
update the inverter time based on the time zone of the system.) Press “UP” and
“DOWN” to change the value. Press “ENT” to mover the cursor. Press “ESC” to
save the change.
Set Time/Date
2015-02-23 19 35
YY
MM
DD
2015 –
2
– 23
HH
MM
20 :
53
NEXT=
ESC
UP
DOWN
ENT
Figure 6.10 Set Time
.51.
6. Operation
6.4.2 Set Address
Set the slave address of the inverter. The default address is 01.
SettAindgdsress
2015-02-23 19 35
Slave Address01
YES=
ESC
UP
DOWN
ENT
Figure 6.11 Set Address
6.4.3 Set Language
Set system language. Chinese and English are available.
SettLinagnsguage
2015-02-23 19 35
English
YES=
ESC
UP
DOWN
ENT
Figure 6.12 Set Language
.52.
6. Operation
6.5 Advanced Information
Detailed information can be viewed in this section: 1. Alarm Message 2.
Running Message 3. Version 4. Communication Data. 5. Daily Energy 6. Monthly
Energy 7. Yearly Energy 8. Total Energy. 9. Warning Message 10. Inspection
ASdevttainngcsed Information
2015-02-23 19 35
Alarm Message Running Message
Version Communication Data
Daily Energy Monthly Energy
Yearly Energy Total Energy Warning Message
Inspection
Figure 6.13 Advanced Information
6.5.1 Alarm Message
40 pages of latest alarm messages (5 per page). Alarm message shows the alarm
that will lead to inverter shutdown.
Alarm Message
Message
NO-Grid NO-Grid NO-Grid NO-Grid NO-Grid
Date/Time
02-23 19:35 02-23 19:34 02-23 19:34 02-23 19:24 02-23 18:22
01/40
2015-02-23 19 35
Date
0000 0000 0000 0000 0000
.53.
ESC
UP
DOWN
ENT
Figure 6.14 Alarm Message
6. Operation
6.5.2 Running Message
This function is for maintenance person to get running message such as
internal temperature, Standard NO. etc.(Values are for reference only).
RSeutntinnignsg Message
DC Bus Voltage
410.7V
Reactive Power Ratio +1.00
Output Power Limit 100%
Control Word Status 0000H
Inverter Temperature +0031.6degC
Standard
G59/3
Grid Filter NO.
00
Ground Voltage
000.0V
Battery Enable
Disable
2015-02-23 19 35
ESC
Figure 6.15 Running Message
6.5.3 Version
Inverter model number and software version can be viewed in this section.
Values are for reference only..
Version
Model
F8
Software Ver.140000
2015-02-23 19 35
2015-02-23 19 35
ESC
Figure 6.16 Model Version and Software Version
.54.
6. Operation
6.5.4 Communication Data
Internal communication data can be viewed in this section. For maintenance
person only. Values are for reference only.
Communication Data
01-10 86 61 A1 00 01 50 8A 06 1E 00 11-20 D5 05 1E 00 00 00 00 00 00 00 21-30
00 00 00 00 00 00 00 00 00 00 31-40 09 02 00 00 00 00 B8 10 C0 00 41-50 20 5C
80 01 00 00 43 00 07 02 51-60 01 00 04 00 6D 04 E6 05 01 00 61-70 DC 05 1E 00
59 06 1E 00 D4 03 71-80 10 27 00 00 00 00 00 00 00 00 81-90 00 00 00 00 00 00
60 00 00 00
2015-02-23 19 35
ESC
Figure 6.17 Communication Data
6.5.5 Daily Energy
The screen shows the daily energy detail of the inverter.
Daily Energy
Daily Energy[kW]
60 50 40 30 20 10 00
00:00
03:00
ESC
06:00
09:00
UP
12:00
15:00
2015-02-23
DOWN
2015-02-23 19 35
18:00
21:00
00:00
ENT
Figure 6.18 Daily Energy
6. Operation
6.5.6 Monthly Energy
The screen shows the inverter monthly energy detail of different month.
MSeotntitnhglys Energy
2015-02-23 19 35
600
Monthly Energy[kWh]
500 400 300
200
100
000 05
ESC
10
15
20
25
2015-02-23 : 071.2kWh
UP
DOWN
ENT
Figure 6.19 Monthly Energy
6.5.7 Yearly Energy
The screen shows the inverter yearly energy detail of different year.
YSeattrilnygEsnergy
Yearly Energy[MWh]
3.0 2.5 2.0 1.5 1.0 0.5 0.0
01
00.51
02
03
ESC
2015-02-23 19 35
04
05
06
07
08
09
10
11
12
2015
UP
DOWN
ENT
Figure 6.20 Yearly Energy
.55.
.56.
6. Operation
6.5.8 Total Energy
The screen shows the inverter total energy detail.
TSoettatilnEgnsergy
2015-02-23 19 35
3.0
2.5
Totally Energy[MWh]
2.0
1.5
1.0
0.5
0.0
00.01
2006
2007
2008
2009
2010
2 0 11
2012
2013
2014
2015
Figure 6.21 Total Energy
6.5.9 Warning Message
10 pages of latest warning messages (5 per page). Warning message shows the
warning that is abnormal but will not lead to inverter shutdown.
WSeatrtnininggs Message Message
Date/Time NO message.
2015-02-23 19 35
Data
ESC
UP
DOWN
ENT
Figure 6.22 Warning Message
.57.
6. Operation
6.6 Advanced Settings – Technicians Only
NOTE: This function is for authorised technicians only. Improper access and
operation may result in abnormal results and damage to the inverter. Password
required restricted access authorised technicians only Un-authorised
access may void the warranty. (Password”0010″)
Select Advanced Settings from main menu, the LCD screen show the password is needed:
PSaesttsinwgosrd
2015-02-23 19 35
Please Input The Current Password
0
0
1
0
YES=
ESC
UP
DOWN
ENT
Figure 6.23 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. Select Standard 2. ON/OFF 3. Calibrate 4. Reset Password 5. Restar HMI 6.
Storage Energy Set 7. Export Power Set 8. HMI Update 9. DSP Update 10.
BaudRate RS485 11. Special Settings
.58.
6. Operation
Advanced Settings
Select Standard ON/OFF Calibrate
Reset Password Restart HMI
Storage Energy Set
2015-02-23 19 35
Export Power Set HMIUpdate DSPUpdate
BaudRate RS485 Special Settings
Figure 6.24 Advanced Settings
6.6.1 Select Standard
This function is used to select corresponding grid standards.
SelteticntgSs tandard
2015-02-23 19 35
Select Standard:
4777_A
YES=
Figure 6.25 Select Standard Press the UP/DOWN keys to select the standard
“4777_A”, “4777_B”,” 4777_C” and “4777_N” for compliance with
AS/NZS4777.2:2020. The standard “AS4777-15” is for AS/NZS4777.2:2015.
NOTE: To check the firmware version, select the standard and you will find
‘firmware version’ parameter. A2 is the current version that comply with
AS/NZS 4777.2:2020.
.59.
6. Operation
The default protection settings and setting range for different regions are showing below:
Region Standard Code Name OV-G-V1 OVGV1-T OV-G-V2 OVGV2-T UN-G-V1 UNGV1-T UN-G-V2 UNGV2-T OV-G-F1 OVGF1-T OV-G-F2 OVGF2-T UN-G-F1 UNGF1-T UN-G-F2 UNGF2-T Startup-T Restore-T Recover-VH Recover-VL Recover-FH Recover-FL Start- VH Start-VL Start-FH Start-FL
Australia A
4777-A
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 52HZ 0.1S 52HZ 0.1S 47HZ 1.5S 47HZ 1.5S
60S 60S 253V 205V 50.15Hz 47.5Hz 253V 205V 50.15Hz 47.5Hz
Australia B
4777-B
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 52HZ 0.1S 52HZ 0.1S 47HZ 1.5S 47HZ 1.5S
60S 60S 253V 205V 50.15Hz 47.5Hz 253V 205V 50.15Hz 47.5Hz
Australia C New Zealand
4777-C
4777-N Setting Range
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 55HZ 0.1S 55HZ 0.1S 45HZ
5S 45HZ
5S 60S 60S 253V 205V 50.15Hz 47.5Hz 253V 205V 50.15Hz 47.5Hz
265V 1.5S 275V 0.1S 180V 10S 70V 1.5S 55HZ 0.1S 55HZ 0.1S 45HZ 1.5S 45HZ 1.5S 60S 60S 253V 196V 50.15Hz 47.5Hz 253V 196V 50.15Hz 47.5Hz
230-276V 1-2S
230-276V 0.1-2S 38-230V 10-11S 38-230V 1-2S
50-55HZ 0.1-2S
50-55HZ 0.1-2S 45-50HZ 1-6S 45-50HZ 1-6S 10-600S 10-600S
230-276V 115-230V 50-52Hz 47-50Hz 230-276V 115-230V 50-52Hz 47-50Hz
Table 5.1
.60.
6. Operation
6.6.2 ON/OFF
This function is used to start or stop the generation of the inverter.
OSeNt/tiOngFsF
2015-02-23 19 35
ON OFF STOP
YES=
ESC
UP
DOWN
ENT
6.6.3 Calibrate
Figure 6.26 Set ON/OFF
Warranty or maintenance may result in resetting total generating data, this
function allow the maintenance personnel to amend the total generating data of
replacement inverter to the original one.
By using our data monitoring hardware, the data on monitoring website can
automatically synchronize with the preset total generating power of inverter.
Calibrate
2015-02-23 19 35
Total Energy Power Parameter
YES=
Figure 6.27 Calibrate
.61.
6. Operation
TotalEnergy ATdojtuasl tEingertgoyt:al0g0e0n00er5a6tkinWghpower
2015-02-23 19 35
YES=
ESC
UP
DOWN
ENT
Figure 6.28 Total Energy
PowerParameter APdojwusetrinPgartao:tal1g.0e0n0erating power
2015-02-23 19 35
YES=
ESC
UP
DOWN
ENT
Figure 6.29 Power Parameter
.62.
6. Operation
6.6.4 Reset Password
Reset Password: In this page, user can reset the inverter password, but the
admin password is always valid.
RSetsteintgPsassword
2015-02-23 19 35
Please Input New Password
X
X
X
X
YES=
ESC
UP
DOWN
ENT
Figure 6.30 Reset Password
6.6.5 Restart HMI
This function is to reboot the LCD screen.
6.6.6 Storage Energy Set
This section contains working mode setting, battery control setting, etc.
Steotrtiangges Energy Set
2015-02-23 19 35
Control Parameter Battery Select
Meter Set
Storage Mode Select
Battery Wakeup
Figure 6.31 StorageEnergyset
.63.
6. Operation
6.6.6.1 Control Parameter
Enter the Control Parameter menu as shown below: Don’t change the settings
without the permission of technicians.
CSeotntitnroglsParameter
2015-02-23 19 35
Backup Supply Backup Votage
Current Direction Battery Current
Disable Floating Charge 055.0V 230.0V Equalizing Charge 000.0V Charge Batter y Overoltage 060.0V 000.0A Battery Undervoltage042.0V
Charge Limitation 000.0A Voltage Droop
Disable
Discharge Limitation000.0A
SET=
ESC
UP
DOWN
ENT
Figure 6.32 Control Parameter
6.6.6.2 Battery Select
This product is compatible with multiple battery models. Please refer to the
latest compatible battery list on Solis company website.
WARNING: Inverter must be installed with compatible battery models. Any defect, damage or collateral loss due to using a non-compatible battery is not in the scope of inverter warranty or compensation. Please refer to the battery compatible list on Solis company website for information on latest compatible battery models.
For above compatible battery modules, Only three 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. ForceCharge SOC
(5%~OverDischg SOC, default 10%) –To prevent the battery going into sleep
mode, when the ForceCharge SOC is reached, inverter will charge the battery
using the power from either PV or Grid. * ForceChg Limit (0A~100A, default
100A) –Determine the battery charge current limit when inverter operates in
force charge status.
.64.
6. Operation
Battery Module:
B-BOX LV
Figure 6.33 Battery Select
BSaettienrgysSelect
2015-02-23 19 35
OverDischg SOC 020%
YES=
ESC
UP
DOWN
ENT
Figure 6.34 Over Discharge SOC.
BSaettienrgysSelect
2015-02-23 19 35
ForceCharge SOC 004% ForceChg PLmt 300.0W Power limit On From Grid
.65.
YES=
ESC
UP
DOWN
ENT
Figure 6.35 ForceCharge SOC
6. Operation
NOTE: 5G products support lead-acid battery. Select “Lead-Acid” in the “Battery Select” and configure the following parameters according to different lead-acid batteries.
LSeeattdinAgcsid Battery
2015-02-23 19 35
Battery Capacity: 100Ah Equalizing Voltage: 56.4V Floating Voltage: 53.5V Overdischg Voltage: 44.5V Floating Current: 04.0A Force Charg Voltage: 43.8V
I_Max Discharge: 060.0A ForceChg PLmt:
300.0W
I_Max Charge: 010.0A Temp.Compensation: 072mV/degC
AMB.Temp.Lower: +05degC
AMB.Temp.Upper: +45degC
Power Limit On:
From Gird
SET=
ESC
UP
DOWN
ENT
Lead Acid Battery (Values are examples Only)
1. Battery Capacity: Define the capacity of the battery. 2. Equalizing
Voltage: Define the voltage for Equalizing/Absorption charge. 3. Floating
Voltage: Define the voltage for floating charge. 4. Floating Current: Define
the current for floating charge. 5. Overdischg Voltage: Define the voltage
that stops discharging the battery. 6. Force Charg Voltage: Define the voltage
that forces to charge the battery
to prevent a dead battery. 7. ForceChg Limit:Define the battery charge current
limit in force charge
status. 8. I_Max Discharge: Define the max discharge current for the battery.
9. I_Max Charge: Define the max charge current for the battery. 10.
Temp.Compensation: Define the temperature compensation parameter
for the battery. 11. AMB.Temp.Lower/Upper: Define the temperature range when
the
temperature compensation is effective.
After configuration, save and send. If battery temperature sensor is connected, select “Warm”. If battery temperature sensor is not connected, select based on actual condition for fixed compensation Cold: 5 degC Warm: 25 degC Hot: 40 degC
.66.
6. Operation
LSeeattdinAgcsid Battery
2015-02-23 19 35
Environment Temp:
Warm
YES=
ESC
UP
DOWN
ENT
WARNING: Lead-acid battery is not recommended for general customers as it requires experienced installers and technicians who can fully understand the battery parameters and configure the settings and installations correctly. Due to the inconformity between battery cells, damages will be less likely to be avoided. Solis is not responsible for any potential damages caused by the use of lead-acid batteries.
.67.
6. Operation
6.6.6.3 Meter Set
These settings are used to select the meter types and meter installed locations based on the actual configuration.
MSeettteinr gSset
2015-02-23 19 35
Meter Select
Meter Placement
ESC
6.6.6.3.1 Meter Select
MSeettteinr gSselect
YES=
UP
DOWN
ENT
Figure 6.36 Meter Set
Meter Type:
1Ph Meter
2015-02-23 19 35
YES=
ESC
UP
DOWN
Figure 6.37 Meter Select Meter Model Acrel 1ph meter (With CT): ACR10R-D16TE (Optional)
Acrel 3ph meter (With CT): ACR10R-D16TE4 (Optional) Eastron 1ph meter (Direct Insert): SDM120M (Optional) Eastron 1ph meter (With CT): SDM120CT
Eastron 3ph meter (Direct Insert): SDM630 (Optional) Eastron 3ph meter (With CT): SDM630MCT (Optional) No meter is connected
ENT
Meter Type Options “1ph meter” “Acrel 3ph meter” “Eastron 1ph meter” “Eastron
1ph meter” “Eastron 3ph meter” “Eastron 3ph meter” “No Meter”
.68.
6. Operation
6.6.6.3.2 Meter Placement
Grid: Meter is installed at the grid connection point. Load: Meter is
installed at the load branch circuit. Grid+PV Inverter: One meter is connected
at the grid connection point, the other meter is connected at the AC output
port of an extra PV inverter. (Eastron Meter supported).
MSeettteinr gPslacement
2015-02-23 19 35
Install on:
Grid
YES=
ESC
UP
DOWN
ENT
Figure 6.38 Meter Placement
6.6.6.4 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
Steotrtiangges Mode Select
Mode:
Self Use
2015-02-23 19 35
Figure 6.39 Storage Mode Select .69.
6. Operation
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->Storage
Mode Select-> Self-Use Mode->ON->Time of use for Self use
TSiemtteinogfsuse for Self use
2015-02-23 19 35
Optimal Income: Stop
Charge Limit:
050.0A
Discharge Limit: 050.0A
HH MM HH MM
Charge Time:
22:00—-08:00
Discharge Time: 08:00—-22:00
Charge Time:
00:00—-00:00
Discharge Time: 00:00—-00:00
Charge Time:
00:00—-00:00
Discharge Time: 00:00—-00:00
HH MM
Total Time: 10:00 Total Time: 14:00 Total Time: 00:00 Total Time: 00:00 Total
Time: 00:00 Total Time: 00:00
NEXT=
ESC
UP
DOWN
ENT
Figure 6.40
Charging from gird self use Path: Advanced Settings->Storage Energy
Set->Storage Mode Select-> Self-Use Mode->ON->Charging from gird for Self use
CSehtatirngginsg from gird for Self use
2015-02-23 19 35
Allow Not Allow
YES=
ESC
UP
DOWN
Figure 6.41
ENT
.70.
6. 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->Storage Mode Select-> Feed in Priority Mode->ON->Time of use for Feed for
priority
TSiemtteinogfsuse for Feed for priority
2015-02-23 19 35
Optimal Income: Stop
Charge Limit:
050.0A
Discharge Limit: 050.0A
HH MM HH MM
Charge Time: Discharge Time: Charge Time: Discharge Time: Charge Time: Discharge Time:
22:00—-08:00 08:00—-22:00 00:00—-00:00 00:00—-00:00 00:00—-00:00 00:00—-00:00
HH MM
Total Time: 10:00 Total Time: 14:00 Total Time: 00:00 Total Time: 00:00 Total
Time: 00:00 Total Time: 00:00
NEXT=
ESC
UP
DOWN
ENT
Figure 6.42
Charging from gird for Feed for priority Path: Advanced Settings->Storage
Energy Set->Storage Mode Select-> Feed in Priority Mode->ON->Charging from
gird for Feed for priority
CSehtatirngginsg from gird for Feed for priority
2015-02-23 19 35
Allow Not Allow
.71.
YES=
Figure 6.43
6. Operation
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->Storage Mode Select->Backup
Mode->
ON->Backup SOC->Charging from gird for Backup mode
CSehtatirngginsg from gird for Backup mode
2015-02-23 19 35
Allow Not Allow
YES=
ESC
UP
DOWN
ENT
Figure 6.44
.72.
6. 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->Storage Mode Select ->Off-Grid Mode-> ON->Off Grid Mode
SOeffttGinrgids Mode
2015-02-23 19 35
OverDischg SOC for Off Grid: 030%
YES=
ESC
UP
DOWN
ENT
Figure 6.45
6.6.6.5 Battery Wakeup
This function should be activated only after the installation.In the case of a
low battery voltage shutdown, the inverter will shut-down. This setting can be
enabled, so when the inverter detects PV or grid it wakes up the battery. This
function conflicts with the battery reverse polarity protection( If the
installer connects cables with wrong polarity,the inverter can protect itself
from damage).To avoid the possible damage during installation,do not active
battery wakeup function before finishing the first commissioning.
.73.
6. Operation
6.6.7 Export power Set
This function is to set the export power control. 1. ON/OFF. 2.Backflow Power.
3.Failsafe ON/OFF Setting 2&3 are only valid when Setting 1 is set to “ON”
“ON/OFF” is to enable/disable the export power control function
“Backflow Power” is to set the max allowed export power at the meter location
“Failsafe ON/OFF” is a protection method to prevent excess export power when
meter communication fails
ESxepttoinrgt spower Set
2015-02-23 19 35
ON/OFF BackflowPower FailSafe ON/OFF
ESC
UP
DOWN
ENT
Figure 6.46 Export power Set
NOTE: The export power control function comply with Section 6.3 of AS/NZS4777.2:2020. Inverter doesn’t have the generation control limit function as in Section 6.2 of AS/NZS4777.2:2020.
6.6.7.1 ON/OFF
Enable/Disable the function.
ON/OFF
2015-02-23 19 35
ON OFF
YES=
Figure 6.47 ON/OFF .74.
6. Operation
6.6.7.2 Backflow Power
Determine the allowed backfeed power. (System export to the grid)
BSaetctkinflgosw Power
2015-02-23 19 35
Backflow Power 0W
YES=
ESC
UP
DOWN
ENT
Figure 6.48 Backflow Power
6.6.7.3 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 exceeding the
limit.
FSaeitltSinagfes ON/OFF
2015-02-23 19 35
ON OFF
YES=
Figure 6.49 FailSafe ON/OFF
.75.
6.6.8 HMI Update
This function is used to update HMI software. Values are for reference only.
HMIUpdate
6. Operation
2015-02-23 19 35
The Current Version:F0
CANCE=
ESC
UP
DOWN
ENT
Figure 6.50 HMI Update
6.6.9 DSP Update
This function is used to update DSP software. Values are for reference only.
DSPUpdate
2015-02-23 19 35
The Current Version:00
CANCE=
ESC
UP
DOWN
ENT
Figure 6.51 DSP Update
.76.
6. Operation
6.6.10 BaudRate RS485
This function is to change the internal communication Baudrate.
BSaeuttdinRgaste RS485
2015-02-23 19 35
Baud Rate Parity Data bits Stop bits
9600 None
8 1
YES=
ESC
UP
DOWN
ENT
Figure 6.52 BaudRate RS485
WARNING: This function is for maintenance personnel only, wrong operation will prevent the inverter from working properly.
6.6.11 Special Setting
There are two special settings: 1. AFCI Set 2. EPS Mode
SpeettciniaglsSetting
AFCI Set EPS Mode
2015-02-23 19 35
YES=
Figure 6.53 Special Setting .77.
6. Operation
6.6.11.1 AFCI Set
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.
AFCI Set
2015-02-23 19 35
AFCI ON/OFF OFF AFCI Level. 00
2015-02-23 19 35
ESC
UP
DOWN
ENT
Figure 6.54 AFCI Set
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.
.78.
6. Operation
During the normal operation, if an DC arc is detected, the inverter will shut down and give out the following alarm:
ARC-FAULT
2015-02-23 19 35
Restart Press ESC 3s
Figure 6.55 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.
6. Operation
6.6.11.2 EPS Mode
EPS Mode needs to work with external Solis NPS switching box to achieve ATS
switching function. When grid is available, only the Grid Port is enabled and
load is supported through NPS box by the grid. When grid is lost, Grid Port
will be disabled and after the “Switching Time”, the Backup Port will be
enabled and then load is supported through NPS box by the Backup Port. *It
gives up the UPS function of the backup port and manually set the switching
time. This mode must work with the Solis NPS switching Box. Otherwise it may
cause some unexpected control mistakes.
ESPetStinMgosde
EPS En/Disable: Enable Switcing Time: 01.00s EPS OvDis SOC: 020%
2015-02-23 19 35
SET=
ESC
UP
DOWN
ENT
Figure 6.56 EPS Mode
.79.
.80.
7. Maintenance
Solis S5-EH1P-L 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 5.2) 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.
.81.
8. Troubleshooting
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 8.1:
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.
MSeettninugs
2015-02-23 19 35
Information
Settings
Advanced Information
Advanced Settings
ESC
UP
DOWN
ENT
Step3: Press DOWN to select Alarm Message, then press ENTER.
SAdevttainngcsed Information
2015-02-23 19 35
Alarm Message Running Message
Version Communication Data
Daily Energy Monthly Energy
Yearly Energy Total Energy Warning Message
Inspection
.82.
8. Troubleshooting
Message Name Off
LmtByEPM
LmtByDRM LmtByTemp LmtByFreq
LmtByVg
LmtByVar
LmtByUnFr Standby StandbySynoch GridToLoad
Information Description Control device to shutdown
The device’s output is under controlled
DRM Function ON Over temperature power limited Frequency power limited
Troubleshooting Suggestion
1. Turn on the device in the ON/OFF Setting.
1. Confirm whether the inverter is connected to an external EPM/meter to
prevent reverse current.
2. Confirm whether the inverter is controlled by an external third-party
device.
3. Confirm whether the power setting of the inverter power control is
limited.
4. Verify settings in section 6.6.7 and check your meter readings.
1. No need to deal with it.
1. No need to deal with it, the device is in normal operation.
The device is in the Volt-Watt mode
1. Due to the requirements of local safety regulations, when the grid voltage
is high, the Volt-watt working mode is triggered, which generally does not
need to be dealt with.
2. Inverter factory test errors causing this mode to open, if you need to
close, you can close this mode in LCD, set the process: Main menu Advanced
Settings Password 0010 STD mode settings Working Mode Working mode: NULL Save
and exit.
The device is in the Volt-Var mode of operation
1. Due to the requirements of local safety regulations, when the grid voltage
is high, the Volt-watt working mode is triggered, which generally does not
need to be dealt with.
2. Inverter factory test errors causing this mode to open, if you need to
close, you can close this mode in LCD, set the process: Main menu Advanced
Settings Password 0010 STD mode settings Working Mode Working mode: NULL Save
and exit.
Under frequency limit
Bypass run Off grid status to On grid status Grid to load
1. No need to deal with it.
.83.
8. Troubleshooting
Message Name
Information Description
Troubleshooting Suggestion
Surge Alarm
OV-G-V01 UN-G-V01 OV-G-F01 UN-G-F01 G-PHASE G-F-GLU NO-Grid OV-G-V02 OV-G-V03
IGFOL-F OV-G-V05 OV-G-V04 UN-G-V02 OV-G-F02 UN-G-F02
NO-Battery
OV-Vbackup
Over-Load
On-site grid surge
Grid voltage exceeds the upper voltage range Grid voltage exceeds the lower
voltage range Grid frequency exceeds the upper frequency range Grid frequency
exceeds the lower frequency range Unbalanced grid voltage Grid voltage
frequency fluctuation No grid
Grid transient overvoltage
Grid transient overvoltage
Grid current tracking failure Grid voltage RMS instantaneous overvoltage fault
Grid voltage exceeds the upper voltage range Grid voltage exceeds the lower
voltage range Grid frequency exceeds the upper frequency range Grid frequency
exceeds the lower frequency range
Battery is not connected
Inverting overvoltage
Load overload fault
1. Grid side fault, restart the device. If it is still not eliminated, please
contact the manufacturer’s customer service.
1. Confirm whether the power grid is abnormal. 2. Confirm that the AC cable
is properly
connected. 3. Restart the system and check if the fault
persists.
1. Restart the system, confirm if that the fault continues.
1. Confirm whether the power grid is abnormal. 2. Confirm that the AC cable
is properly
connected. 3. Restart the system and check if the fault
persists.
1. Check on information page 1 Verify the battery voltage is within
standards.
2. Measure battery voltage at plug. 1. Check whether the backup port wiring
is normal 2. Restart the system, confirm that the fault continues. 1. Backup
load power is too large, or some inductive load startup power is too large,
need to remove some backup load, or remove the inductive load on the backup.
.84.
8. Troubleshooting
Message Name BatName-FAIL CAN Fail
OV-Vbatt
Information Description
Troubleshooting Suggestion
Wrong battery brand selection CAN Fail
1. Confirm whether the battery model selection is consistent with the actual
one.
1. Can failure is a failure of communication between inverter and battery.
Check cable conditions. Check to ensure you have it plugged in on the CAN port
of the battery and inverter. Check that you are using the right cable. Some
batteries require a special battery from the battery manufacturer.
Battery undervoltage detected
1. Verify battery voltage is within standards. Measure battery voltage at inverter connection point. Contact your battery manufacturer for further service.
UN-Vbatt
Battery overvoltage detected
1. Restart the system and check if the fault persists.If it is still not eliminated, please contact the manufacturer’s customer service.
Fan Alarm
Fan alarm
OV-DC01 (1020 DATA:0001)
OV-DC02 (1020 DATA:0002)
OV-BUS (1021 DATA:0000)
UN-BUS01 (1023 DATA:0001)
UNB-BUS (1022 DATA:0000)
UN-BUS02 (1023 DATA:0002)
DC-INTF. (1027 DATA:0000)
DC 1 input overvoltage
DC 2 input overvoltage
DC bus overvoltage
DC bus undervoltage
DC bus unbalanced voltage Abnormal detection of DC bus voltage DC hardware
overcurrent (1, 2, 3, 4)
OV-G-I
A phase RMS value
(1018 DATA:0000) overcurrent
OV-DCA-I (1025 DATA:0000)
OV-DCB-I (1026 DATA:0000)
GRID-INTF. (1030 DATA:0000)
DC 1 average overcurrent
DC 2 average overcurrent AC hardware overcurrent (abc phase)
1. Check if the internal fan is working correctly or jammed.
1. Check if the PV voltage is abnormal 2. Restart the system, confirm that
the fault
continues
1. Restart the system, confirm that the fault continues.
1. Check if the DC wires are connected correctly without loose connection. 1.
Confirm that the grid is abnormal. 2. Confirm that the AC cable connection is
not
abnormal. 3. Restart the system, confirm that the fault
continues.
1. Restart the system, confirm that the fault continues.
.85.
8. Troubleshooting
Message Name
Information Description
DCInj-FAULT
The current DC component
(1037 DATA:0000) exceeds the limit
IGBT-OV-I (1048 DATA:0000)
IGBT overcurrent
OV-TEM (1032 DATA:0000)
Module over temperature
RelayChk-FAIL (1035 DATA:0000)
Relay failure
UN-TEM (103A DATA:0000)
Low temperature protection
PV ISO-PRO01 (1033 DATA:0001)
PV ISO-PRO02 (1033 DATA:0002)
12Power-FAULT (1038 DATA:0000)
ILeak-PRO01 (1034 DATA:0001)
ILeak-PRO02 (1034 DATA:0002)
ILeak-PRO03 (1034 DATA:0003)
ILeak-PRO04 (1034 DATA:0004)
ILeak_Check (1039 DATA:0000)
PV negative ground fault
PV positive ground fault
12V undervoltage failure
Leakage current failure 01 (30mA) Leakage current failure 02 (60mA) Leakage
current failure 03 (150mA)
Leakage current failure 04
Leakage current sensor failure
GRID-INTF02 (1046 DATA:0000)
Power grid disturbance 02
Troubleshooting Suggestion 1. Confirm that the grid is abnormal. 2. Confirm
that the AC cable connection is not
abnormal. 3. Restart the system, confirm that the fault
continues. 1. Restart the system, confirm that the fault continues. 1. Check
whether the surrounding environment
of the inverter has poor heat dissipation. 2. Confirm whether the product
installation
meets the requirements. 1. Restart the system, confirm that the fault
continues. 1. Check the working environment temperature of the inverter. 2.
Restart the system to confirm if the fault continues.
1. Check whether the PV strings have insulation problems. 2. Check whether
the PV cable is damaged.
1. Check current leakage to ground. Verify your grounding. Verify all wires
are in good condition and not leaking current to ground.
1. Confirm whether the grid is seriously distorted. 2. Check whether the AC
cable is connected
reliably.
OV-Vbatt-H/ OV-BUS-H (1051 DATA:0000)
Battery overvoltage hardware failure / VBUS
1. Check if the battery circuit breaker is tripping. 2. Check if the battery is damaged.
.86.
8. Troubleshooting
Message Name Information Description
Troubleshooting Suggestion
OV-ILLC (1052 DATA:0000)
LLC hardware overcurrent
INI-FAULT (1031 DATA:0000)
DSP-B-FAULT (1036 DATA:0000)
AFCI-Check (1040 DATA:0000)
AD zero drift overlink
The master-slave DSP communication is abnormal
AFCI self-test failure
ARC- FAULT (1041 DATA:0000)
AFCI failure
1. Check whether the backup load is overloaded. 2. Restart the system,
confirm that the fault
continues.
1. Restart the system, confirm that the fault continues.
1. Verify connections are tight within your PV system. Arc fault settings can
be changed in advanced settings if further adjustment is necessary.
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 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.
.87.
9. 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 Max. inverter backfeed current to the array MPPT number/Max input strings number Battery Battery Type Battery Voltage range Battery Capacity Maximum Charging Power Maximum Charge/discharge current Communication Output AC(Back-up) Rated output power Max. apparent output power Back-up switch time Rated output voltage Rated frequency Rated output current THDv(@linear load) Input AC (Grid side) Input voltage range Max. input current Frequency range
S5-EH1P3K-L
S5-EH1P3.6K-L
4800W 100-520V
600V 330V 120V 90-520V
15.0A/15.0A 22.5A/22.5A
0A 2/2
5700W 120-520V
Li-ion / Lead-acid 42 – 58V
50 – 2000Ah 3kW 62.5A CAN
3kW 4.5 kVA, 10SEC
<20ms 1/N/PE, 230 V
50Hz 13.5 A <2%
20.5 A
187-265V 45-55 Hz
25.0 A
.88.
9. Specifications
Technical Data Output AC(Grid side) Rated output power Rated apparent output power Max. apparent output power Operation phase Rated grid voltage The grid voltage range Rated grid frequency AC grid frequency range Rated grid output current Inrush current Max. output fault current Max. output overcurrent protection Power Factor THDi Efficiency Max efficiency EU efficiency Protection DC reverse polarity protection Short circuit protection Output over current protection Surge protection Ground fault monitoring Integrated AFCI (DC arc-fault circuit protection) Protection class / Over voltage category Integrated DC switch
S5-EH1P3K-L
S5-EH1P3.6K-L
3kW
3.6kW
3kVA
3.6kVA
3kVA
3.6kVA
1/N/PE
230 V
187-265 V
50 Hz
45-55 Hz
15.0 A
18.5 A
65A 10us
65A 10us
16.0A
20.0A
0.99 (0.8 leading – 0.8 lagging)
<2%
97.1% >96.5%
Yes Yes Yes DC Type / AC Type Yes Yes (Activation required) I / II(PV), II(battery), III(AC) Yes
.89.
Technical Data General data Dimensions(W/H/D) Weight Topology Operation
temperature range Ingress protection Noise emission Cooling concept
Max.operation altitude Active anti-islanding method
Grid connection standard
Safty/EMC standard Features DC connection AC connection Display Communication
Warranty
9. Specifications
S5-EH1P3K-L
S5-EH1P3.6K-L
333505249mm 18.3kg
non-isolated
-25+60 IP65
<20 dB (A)
Natural convection 3000m
Active frequency shifting 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/EN 62109-1/-2, EN 61000-6-2/-3
MC4 connector Quick connection plug 7.0″LCD color screen display RS485, Optional:Wi-Fi, GPRS 5 years standard (extand to 20 years)
.90.
9. 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 Max. inverter backfeed current to the array MPPT number/Max input strings number Battery Battery Type Battery Voltage range Battery Capacity Maximum Charging Power Maximum Charge/discharge current Communication Output AC(Back-up) Rated output power Max. apparent output power Back-up switch time Rated output voltage Rated frequency Rated output current THDv(@linear load) Input AC (Grid side) Input voltage range Max. input current Frequency range
S5-EH1P4.6K-L
S5-EH1P5K-L
8000W 155-520V
600V 330V 120V 90-520V
15.0A/15.0A 22.5A/22.5A
0A 2/2
8000W 170-520V
Li-ion / Lead-acid 42 – 58V
50 – 2000Ah 5kW 100A CAN
5kW 7 kVA, 10SEC
<20ms 1/N/PE, 230 V
50Hz 22.0 A <2%
31.5 A
187-265V 45-55 Hz
34.5 A
.91.
9. Specifications
Technical Data Output AC(Grid side) Rated output power Rated apparent output power Max. apparent output power Operation phase Rated grid voltage The grid voltage range Rated grid frequency AC grid frequency range Rated grid output current Inrush current Max. output fault current Max. output overcurrent protection Power Factor THDi Efficiency Max efficiency EU efficiency Protection DC reverse polarity protection Short circuit protection Output over current protection Surge protection Ground fault monitoring Integrated AFCI (DC arc-fault circuit protection) Protection class / Over voltage category Integrated DC switch
S5-EH1P4.6K-L
S5-EH1P5K-L
4.6kW
5kW
4.6kVA
5kVA
4.6kVA
5kVA
1/N/PE
230 V
187-265 V
50 Hz
45-55 Hz
21.0 A
25.0 A
65A 10us
65A 10us
22.0A
26.0A
0.99 (0.8 leading – 0.8 lagging)
<2%
97.1% >96.5%
Yes Yes Yes DC Type / AC Type Yes Yes (Activation required) I / II(PV), II(battery), III(AC) Yes
.92.
9. Specifications
Technical Data General data Dimensions(W/H/D) Weight Topology Operation
temperature range Ingress protection Noise emission Cooling concept
Max.operation altitude Active anti-islanding method
Grid connection standard
Safty/EMC standard Features DC connection AC connection Display Communication
Warranty
S5-EH1P4.6K-L
S5-EH1P5K-L
333505249mm 18.3kg
non-isolated
-25+60 IP65
<20 dB (A)
Natural convection 3000m
Active frequency shifting 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/EN 62109-1/-2, EN 61000-6-2/-3
MC4 connector Quick connection plug 7.0″LCD color screen display RS485, Optional:Wi-Fi, GPRS 5 years standard (extand to 20 years)
.93.
9. 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 Max. inverter backfeed current to the array MPPT number/Max input strings number Battery Battery Type Battery Voltage range Battery Capacity Maximum Charging Power Maximum Charge/discharge current Communication Output AC(Back-up) Rated output power Max. apparent output power Back-up switch time Rated output voltage Rated frequency Rated output current THDv(@linear load) Input AC (Grid side) Input voltage range Max. input current Frequency range
S5-EH1P6K-L
8000W 600V 330V 120V 90-520V 200-520V 15.0A/15.0A 22.5A/22.5A
0A 2/2
Li-ion / Lead-acid 42 – 58V
50 – 2000Ah 5kW 100A CAN
5kW 7 kVA, 10SEC
<20ms 1/N/PE, 230 V
50Hz 22.0 A <2%
187-265V 34.5 A
45-55 Hz
.94.
9. Specifications
Technical Data Output AC(Grid side) Rated output power Rated apparent output power Max. apparent output power Operation phase Rated grid voltage The grid voltage range Rated grid frequency AC grid frequency range Rated grid output current Inrush current Max. output fault current Max. output overcurrent protection Power Factor THDi Efficiency Max efficiency EU efficiency Protection DC reverse polarity protection Short circuit protection Output over current protection Surge protection Ground fault monitoring Integrated AFCI (DC arc-fault circuit protection) Protection class / Over voltage category Integrated DC switch
S5-EH1P6K-L
6kW 6kVA 6kVA 1/N/PE 230 V 187-265 V 50 Hz 45-55 Hz 30.0 A 65A 10us 65A 10us
31.0A >0.99 (0.8 leading – 0.8 lagging) <2%
97.1% >96.5%
Yes Yes Yes DC Type / AC Type Yes Yes (Activation required) I / II(PV), II(battery), III(AC) Yes
.95.
Technical Data General data Dimensions(W/H/D) Weight Topology Operation
temperature range Ingress protection Noise emission Cooling concept
Max.operation altitude Active anti-islanding method
Grid connection standard
Safty/EMC standard Features DC connection AC connection Display Communication
Warranty
9. Specifications
S5-EH1P6K-L
333505249mm 18.3kg
non-isolated -25+60
IP65 <20 dB (A) Natural convection
3000m Active frequency shifting 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/EN 62109-1/-2, EN
61000-6-2/-3
MC4 connector Quick connection plug 7.0″LCD color screen display RS485,
Optional:Wi-Fi, GPRS 5 years standard (extand to 20 years)
.96.
10. Appendix
10.1 Advanced Settings
NOTE: The following sections have restricted access. Only authorized personnel
are allowed to modify the settings. Please contact Solis service team for XXXX
password.
NOTE: The standard code selection “4777_A”, “4777_B”, “4777_C” and “4777-N”
already have preset default settings as required by AS/NZS 4777.2:2020. Unless
specially required, customers do not need to gain access to the following
sections or modify any settings inside.
Setting Path: Advanced Setting -> Password: XXXX -> STD.Mode Settings There
are several grid code related settings under STD.Mode Settings.
10.1.1 Working Mode Set
Solis AU version inverters have the following working mode settings: 1. NULL
2. P Mode Settings 3.Q Mode Settings 1. NULL Description: Inverter will not be
under any working mode. 2. P Mode Settings This P Mode Settings include 1
working mode: Volt-Watt 2.1 Volt-Watt Description: Inverter will change the
active output power based on grid voltage.
.97.
10. Appendix
Maximum Power Level,P/S rated(%)
120 100
80
60 40 20
0
Inverter Voltage,V
Vw1 Vw2
Status: Enable/Disable (Note: This is used to enable or disable the Volt-Watt
mode) Voltage 1: 207V P-Limit 1: 100% Voltage 2: 220V P-Limit 2: 100% Voltage
3 (Vw1): 235-255V (Default: 4777-A(253V);
4777-B(250V);4777-C(253V);4777-N(242V)) P-Limit 3: 100% Voltage 4 (Vw2):
240-265V (Default: 4777-A(260V); 4777-B(260V);4777-C(260V);4777-N(250V))
P-Limit 4: 0%-20% (Default: 20% for 4777-A; 4777-B; 4777-C; 4777-N)
3. Q Mode Settings This Q Mode Settings include 5 working modes: Disable,
Volt-Var, Fixed-PF, Reac-Power, P-factor 3.1 Disable Description: This mode
will disable the reactive power response working modes 3.2 Volt-Var
Description: Inverter will change the reactive output power based on grid
voltage.
.98.
10. Appendix
Reactive Power Level, Q/S rated(%)
Supplying
60
50
40 30
20
10
0
Vv1
Vv2
-10
Vv3
Vv4
-20
-30
-40
-50
-60 Absorbing
Inverter Voltage, V
Voltage 1 (Vv1): 180-230V (Default: 4777-A(207V); 4777-B(205V);4777-C(215V);4777-N(207V)) Voltage 2(Vv2) : 180-230V (Default: 4777-A(220V); 4777-B(220V);4777-C(230V);4777-N(220V)) Voltage 3(Vv3) : 230-265V (Default: 4777-A(240V); 4777-B(235V);4777-C(240V);4777-N(235V)) Voltage 4(Vv4) : 230-265V (Default: 4777-A(258V); 4777-B(255V);4777-C(255V);4777-N(244V)) Leading(Supplying) : +30~+60% (Default: 4777-A(+44%); 4777-B(+30%);4777-C(+44%);4777-N(+60%)) Lagging(Absorbing) : -30%~-60% (Default: 4777-A(-60%); 4777-B(-40%);4777-C(-60%);4777-N(-60%))
.99.
10. Appendix
3.3 Fixed PF Description: This mode is to set a fixed power factor output
Range: -0.8~+0.8 Default: 1
3.4 Reac-Power Description: This mode is to set a fixed reactive power output
Range:-60%~+60% Default: 0%
3.5 Power-PF Description: This mode is not required in Australia.
10.1.2 Power Rate Limit
To set the power rate limits for increase and decrease in power level per
minute. Wgra+: 5-100%, Default:16% Wgra-: 5-100%, Default:16%
10.1.3 Freq Derate Set
To set the frequency response limits for response to a decrease/increase in
frequency. OVF_Start(F_ULCO): 50.1Hz~50.5Hz (Default: 4777-A(50.25Hz),
4777-B(50.15Hz), 4777-C(50.5Hz), 4777-N(50.2Hz)) OVF_Stop(F_Pmin): 51Hz~53Hz
(Default: 4777-A(52Hz), 4777-B(52Hz), 4777-C(53Hz), 4777-N(52Hz))
UNF_Start(F_LLCO): 49.5Hz~49.9Hz (Default: 4777-A(49.75Hz), 4777-B(49.85Hz),
4777-C(49.5Hz), 4777-N(49.8Hz)) UNF_Stop(F_Pmax): 47Hz~49Hz (Default:
4777-A(48Hz), 4777-B(48Hz), 4777-C(47Hz), 4777-N(48Hz))
10.1.4 10mins Voltage Set
To set the 10mins average protection limit. Range: 244V to 258V Default:
4777-A (258V); 4777-B(258V); 4777-C(258V); 4777-N(249V)
10.1.5 DRM Settings
“DRM ON/OFF” is used to enabled or disable the functionality of the DRM port.
“DRM3” and “DRM7” are used to define the reactive power absorption for DRM3
and DRM7. Range: 0~- 60%
.100.
10. Appendix
10.2 Built-In DC Isolator Specification
A DC-PV2 switch , complied to AS60947.3:2018 ,within the inverter, is used as isolating device. Please check below ratings.
DC switch brand Model PV category Ue Ie Ui Uimp Icw Icm I(make)/Ic(break) Complied standard
Beijing People GHX5-32P DC-PV2 1100V 30A 1500V 8000V 700A 1400A 120A AS 60947.3
.101.
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