Solis Energy Storage Inverter App User Manual
- June 1, 2024
- solis
Table of Contents
Solis Energy Storage Inverter App
Commissioning & Shutdown
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.
- Bluetooth Antenna has been connected to the Antenna port of the inverter.
- An Android or IOS mobile phone with Bluetooth function is available.
- Soliscloud APP is installed on the mobile phone.
There are three ways to download and install the latest APP:
- You can visit www.soliscloud.com to download the latest version APP.
- You can search “Soliscloud” in Google Play or App Store.
- You can scan this QR code below to download “Soliscloud”.
Commissioning Procedure
Step 1: Measure DC voltage of PV strings and battery and ensure the polarity is correct.
Step 2: Measure AC voltage and frequency and ensure they are within local standard.
Step 3: Switch on the external AC breaker to power on the inverter control board. (Bluetooth signal available)
Step 4: Turn on Bluetooth switch on your mobile phone and then open the Soliscloud APP. Click “More Tools”->”Local Operation”->”Connect with Bluetooth”
Step 5: Select the Bluetooth signal from the inverter. (Bluetooth Name: Solis-Inverter SN)
Step 6: If you are the installer, please select the account type as Installer. If you are the plant owner, please select the account type as owner. Then set your own initial password for control verification. (The first log-in must be finished by installer in order to do the initial set up)
Step 7: After the log in for the first time, initial settings are required.
Step 7 .1: Set the inverter Date and Time. You can set to follow the time on your mobile phone.
Step 7 .2: Set the battery model. It must be based on the battery model that is actually connected to the inverter. If there is no battery connected for the moment, please select “No Battery” to avoid alarms. The default setting for battery over discharge SOC is 20%, force charge SOC is 10%.
Step 7 .3: Set the meter setting. It must be based on the meter type that is actually connected to the inverter. If there is no meter connected for the moment, please select “No Meter” to avoid alarms. It is suggested to install the meter at the system grid connection point and select “Meter in Grid”.
Step 7.4: Set the grid code setting. Please select the grid code based on the local grid network requirements.
Step 7.5: Set the work mode setting. Recommended setting is Self-Use
Mode.
This mode can maximize the use of PV power generation for household
electricity, or store it in batteries and use it for household electricity. If
need manually control the battery charging and discharging with respect to
time, please use the Time of Use switch and the following set points. The
“Allow Grid Charging” is recommended to be turned on (If turned off, the
inverter will not force charge the battery and battery could potentially go to
sleep).
Step 8: Now the initial settings on the inverter have been set and you
can switch on the inverter DC switch and switch on battery breaker to start up
the system. You can also explore in the APP to check the operating data, alarm
message or other advanced settings.
Step 9: If the Owner forgot the password, please contact the installer.
Installer log in and go to “Setting”->”More”->”Change Password” to reset the
password for owner’s account. If Installer forgot the password, please contact
Solis service team.
Shutdown procedure
Step 1. Turn off the AC breaker at the grid connection point.
Step 2. Turn off the DC switch of the inverter.
Step 3. Turn off the battery breaker.
Step 4. Waiting for the device powered off and the system shutdown is completed.
Troubleshooting
Solis S6 Series inverter does not require any regular maintenance. However, cleaning the heatsink will help the inverter dissipate 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 could cause burns. Turn OFF the inverter (refer to Section 6.2) and let it
cool down before you do any maintenance or cleaning of inverter.
The Screen and the LED status indicator lights can be cleaned with cloth if they are too dirty to be read.
NOTE
Never use any solvents, abrasives, or corrosive materials to clean the
inverter.
The inverter has been designed in accordance with international grid-tied
standards for safety and electromagnetic compatibility requirements. Before
being delivered to the customer the inverter is subjected to several tests to
ensure reliability operation and reliability.
In case of a failure app 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 6.1:
Alarm Message | Failure description | Solution |
---|---|---|
ARC-FAULT | ARC detected in DC circuit | 1. Check if there is an arc in the PV |
connection and restart inverter.
AFCI Check FAULT| AFCI module self check fault| 1. Restart inverter or
contact installer.
DCinj-FAULT| High DC injection current| 1. Restart inverter or contact
installer.
DSP-B-FAULT| Comm. failure between main and slave DSP| 1. Restart inverter or
contact installer.
DC-INTF| DC input overcurrent| 1. Restart inverter.
2. Identify and remove the string related to the faulty MPPT.
3. Change power board.
G-IMP| High grid impedance| 1. User design function allows the protection
limit to be adjusted if it is allowed by electrical company.
GRID-I NTF01/02| Grid interference| 1. Restart inverter.
2. Change power board.
IGBT-OV-I| Over IGBT current
IGFOL-F| Grid current tracking fail| 1. Restart inverter or contact
installer.
IG-AD| Grid current sampling fail
ILeak-PRO 01/02/03/04| leakage current protection| 1. Check AC and DC
connection.
2. Check inverter inside cable connection.
INI-FAULT| Initialization system fault| 1. Restart inverter or contact
installer.
NO-Battery| Unconnected battery| 1. Ensure the battery is connected properly.
2. Verify the output battery voltage is correct.
NO-GRID| No grid voltage| 1. Check connections and grid switch.
2. Verify the grid voltage is correct on the
AC Terminals inside the inverter wiring box.
OV-BUS| Over DC bus voltage| 1. Check inverter inductor connection.
2. Check driver connection.
OV-DC0 1/02/03/04 | Over DC voltage | 1. Reduce the module number in series. |
---|---|---|
OV-DCA-I | DC input overcurrent | 1. Restart inverter. |
2. Identify and remove the string of the faulted MPPT.
3. Change power board.
OV-G-V0 1/02/03
/04/05
| Over grid voltage| 1. Resistance of AC Cable is too high. Increase the gauge of grid cables.
2. Adjust the protection limit if it is permitted by electrical company.
OV-G-I| Over grid current| 1. Restart inverter.
2. Change power board.
OV-G-F0 1/02|
Over grid frequency
| 1. User design function allows the protection limit to be adjusted if it is
permitted by electrical company.
OV-lgTr| AC side transient overcurrent| 1. Restart inverter.
2. Return-factory repair.
OV-ILLC| LLC hardware overcurrent
OV-VBackup| Backup overvoltage fault
OV-TEM| Over Temperature| 1. Check inverter surrounding ventilation.
2. Determine if there is direct sunlight on the inverter during hot weather.
OV-Vbatt1| The detection of battery overvoltage| 1. Verify the protection point for over voltage is set correctly.
2. Restart inverter.
OV-Vbatt-H| Battery overvoltage hardware fault| 1. Check if any part of the battery input circuit is tripped, ie. battery fuses, battery circuit breaker.
2. Restart inverter.
Over-Load| Backup overload fault| 1. Check the load of Backup port is over rating output power or not.
2. Reduce the load of Backup port, then restart inverter.
PV ISO-PRO01/02| PV isolation protection| 1. Remove all DC input, reconnect and restart inverter one by one.
2. Identify which string cause the fault and check the isolation of the string.
RelayChk-FAIL| Relay check fail| 1. Restart inverter or contact installer.
UN-BUS01/02| Under DC bus voltage| 1. Check inverter inductor connection.
2. Check driver connection.
---|---|---
UN-G-F01/02| Under grid frequency| 1. Use user define function to adjust the
protection limit if it’s allowed by electrical company.
UN-G-V01/02| Under grid voltage
12Power-FAULT| 12V power supply fault| 1. Restart inverter or contact
installer.
Table 6.1 Fault message and description
NOTE:
A If the inverter displays any alarm message listed in Table 6.1; 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.
If you have any technical problems with the hybrid system, please contact the
Solis after-sale service. We recommend gathering the following information
before making contact in order to get timely support.
Item | Details | Supplemental Info |
---|---|---|
Inverter SN | SN from nameplate |
Inverter Firmware Version
| | 6 digits of number or letter (Check the inverter user manual for the
path)
DC connections| | Solar modules, numbers, configuration
Detailed description of the problem| |
Battery SN, Firmware version| | Check battery user manual for the path
Is it connected to Solis Monitoring Portal?| | Yes/No
Take pictures showing all the cable connections in the system (Videos
preferred)| | If available
Specifications
Technical Data | S6-EH1P3.8K-H-US | S6-EH1P5K-H-US |
---|
Input DC (PV side)
Recommended max. PV power| 6080W| 8000W
Max. input voltage| 600V
Rated voltage| 380V
Start-up voltage| 80V
MPPT voltage range| 80-550V
Full load MPPT voltage range| 140-450V
Max. input current per string| 16A
Max. short circuit current per string| 25.6A
Number of MPPTs/Number of strings per MPPT| 2/1| 3/1
Energy Storage
Battery type| Lithium-ion
Battery voltage range| 120 – 500V
Maximum charge/discharge current| 25A
Battery Communication| CAN/RS485
Number of batteries per inverter| See Battery Compatibility Sheet
AC Output (Grid)
Rated output power| 3.8kW| 5kW
Max. apparent output power| 3.8kW| 5kW
Rated output voltage| 240V/120V
Rated frequency| 60 Hz
Rated output current| 15.8A| 20.8A
Max. output current| 15.8A| 20.8A
THDi| <3%
AC Input (Grid)
Input voltage range| 211-264V
Max. input current| 23.8A| 31.2A
Frequency range| 59-61 Hz
AC Output (Backup and Off-grid)
Rated output power| 3.8kW| 5kW
Max. apparent output power| 6.1 kVA, 10 sec| 8 kVA, 10 sec
Back-up switch time| < 10 ms
Phase Power| 240V Split-Phase
Rated output voltage(L 1-L2)/(L1/L2-N)| 240 V/120 V
AC output voltage range| 211-264 V/105-132 V
Rated grid frequency| 60 Hz
Frequency range| 55-65Hz
Rated AC output current| 15.8A| 20.8A
Max. output overcurrent protection, 10sec| 25.4A| 33.3A
Max. allowable phase imbalance| 100%
Backup support configurations| Dedicated loads and whole-home (with a Solis
Power Hub)
Power Factor| >0.99 (0.8 leading – 0.8 lagging)
THDv(@linear load)| <3%
Efficiency
PV Max. efficiency| 97.6%
PV CEC efficiency| 97.2%
BAT charged by PV Max. efficiency| 98.5%
BAT charged/discharged to AC Max. efficiency| 97.0%
Protection
Ground fault detection| Yes
Residual (leakage) current detection| Yes
Integrated AFCI (DC arc-fault circuit protection)| Yes
DC reverse-polarity protection| Yes (PV only)
Rapid Shutdown NEC 2017| Integrated SunSpec-certified Transmitter
Compatible RSD Receivers| See MLRSD compatibility sheet
Protection class/Over voltage category| 1/11
General data
Dimansions( H/W/D)| 25.4719.219.00 in (647488228.5 mm)
Weight| 44.1 lbs (20 kg)
Topology| Transformerless
Operation temperature range| -25~ +60 °(/-31~ +140 °F
Ingress protection| NEMA4X(IP66)
Noise emission (Typical)| <30dB(A)
Cooling method| Natural convection
Max.operation altitude| 13120 ft (4000 m)
Complicance
| UL1741SB,UL1741SA,IEEE1547-2018,UL1699B,UL1998,
FCCPart15ClassB,California Rule21,Heco Rule 14H, NEC 690.12-2020,CAN/CSA C22.2107.1-1
Generator support| Yes; up to 25 kW (with a Solis Power Hub)
Features
DC connection
| 1 in. knockouts for conduit (x2) on the side and bottom; Spring clamp terminals
AC connection
| 2 in. knockouts for conduit (x3) on the side and bottom; Spring clamp
terminals
Interface| LED indicator lights, Bluetooth/Phone app
Monitoring Platform
| SolisCloud
(modbus map and API sharing available upon request)
Communication| RS485, Optional: Cellular, Wi-Fi, LAN
Warranty| 10 years standard (Extend to 20 years)
Technical Data| S6-EH1P6K-H-US| S6-EH1P7.6K-H-S-US
---|---|---
Input DC (PV side)
Recommended max. PV power| 9600W| 12160W
Max. input voltage| 600V
Rated voltage| 380V
Start-up voltage| 80V
MPPT voltage range| 80-550V
Full load MPPT voltage range| 155-450V| 175-450V
Max. input current per string| 16A
Max. short circuit current per string| 25.6A
Number of MPPTs/Number of strings per MPPT| 3/1
Energy Storage
Battery type| Lithium-ion
Battery voltage range| 120 – 500V
Maximum charge/discharge current| 25A
Battery Communication| CAN/RS485
Number of batteries per inverter| See Battery Compatibility Sheet
AC Output (Grid)
Rated output power| 6kW| 7.6kW
Max. apparent output power| 6kW| 7.6kW
Rated output voltage| 240 V/120 V
Rated frequency| 60 Hz
Rated output current| 25.0A| 31.7A
Max. output current| 25.0A| 31.7A
THDi| <3%
AC Input (Grid)
Input voltage range| 211-264V
Max. input current| 37.5A| 47.6A
Frequency range| 59-61 Hz
AC Output (Backup and Off-grid)
Rated output power| 6kW| 7.6kW
Max. apparent output power| 9.6 kVA, 10 sec| 12.2 kVA, 10 sec
Back-up switch time| < 10 ms
Phase Power| 240V Split-Phase
Rated output voltage(L 1-L2)/(L1/L2-N)| 240 V/120 V
AC output voltage range| 211-264 V/105-132 V
Rated grid frequency| 60 Hz
Frequency range| 55-65Hz
Rated AC output current| 25.0A| 31.?A
Max. output overcurrent protection, 10sec| 40.0A| 50.?A
Max. allowable phase imbalance| 100%
Backup support configurations| Dedicated loads and whole-home (with a Solis
Power Hub)
Power Factor| >0.99 (0.8 leading – 0.8 lagging)
THDv(@linear load)| <3%
Efficiency
PV Max. efficiency| 97.6%
PV CEC efficiency| 97.2%
BAT charged by PV Max. efficiency| 98.5%
BAT charged/discharged to AC Max. efficiency| 97.0%
Protection
Ground fault detection| Yes
Residual (leakage) current detection| Yes
Integrated AFCI (DC arc-fault circuit protection)| Yes
DC reverse-polarity protection| Yes (PV only)
Rapid Shutdown NEC 2017| Integrated SunSpec-certified Transmitter
Compatible RSD Receivers| See MLRSD compatibility sheet
Protection class/Over voltage category| 1/11
General data
Dimensions( H/W/D)| 25.4719.219.00 in (647488228.5 mm)
Weight| 44.1 lbs (20 kg)
Topology| Transformerless
Operation temperature range| – 25 ~ + 60 °( / – 31 ~ + 14 0 °F
Ingress protection| NEMA4X(IP66)
Noise emission (Typical)| <30 dB (A)
Cooling method| Natural convection
Max.operation altitude| 13120 ft (4000 m)
Complicance
| UL1741SB,UL1741SA,IEEE1547-2018,UL1699B,UL1998,
FCCPart15ClassB,California Rule21,Heco Rule 14H, NEC 690.12-2020,CAN/CSA C22.2107.1-1
Generator support| Yes; up to 25 kW (with a Solis Power Hub)
Features
DC connection
| 1 in. knockouts for conduit (x2) on the side and bottom; Spring clamp terminals
AC connection
| 2 in. knockouts for conduit (x3) on the side and bottom; Spring clamp
terminals
Interface| LED indicator lights, Bluetooth/Phone app
Monitoring Platform
| SolisCloud
(modbus map and API sharing available upon request)
Communication| RS485, Optional: Cellular, Wi-Fi, LAN
Warranty| 10 years standard (Extend to 20 years)
Technical Data| S6-EH1P7.6K-H-L-US| S6-EH1P8K-H-US
---|---|---
Input DC (PV side)
Recommended max. PV power| 12160W| 12800W
Max. input voltage| 600V
Rated voltage| 380V
Start-up voltage| 80V
MPPT voltage range| 80-550V
Full load MPPT voltage range| 175-450V| 185-450V
Max. input current per string| 16A
Max. short circuit current per string| 25.6A
Number of MPPTs/Number of strings per MPPT| 4/1
Energy Storage
Battery type| Lithium-ion
Battery voltage range| 120 – 500V
Maximum charge/discharge current| 50A
Battery Communication| CAN/RS485
Number of batteries per inverter| See Battery Compatibility Sheet
AC Output (Grid)
Rated output power| 7.6kW| 8kW
Max. apparent output power| 7.6kW| 8kW
Rated output voltage| 240V/120V
Rated frequency| 60 Hz
Rated output current| 31.?A| 33.3A
Max. output current| 31.?A| 33.3A
THDi| <3%
AC Input (Grid)
Input voltage range| 211-264V
Max. input current| 47.6A| 49.9A
Frequency range| 59-61 Hz
Input DC (PV side)
Recommended max. PV power| 12160W| 12800W
Max. input voltage| 600V
Rated voltage| 380V
Start-up voltage| 80V
MPPT voltage range| 80-550V
Full load MPPT voltage range| 175-450V| 185-450V
Max. input current per string| 16A
Max. short circuit current per string| 25.6A
Number of MPPTs/Number of strings per MPPT| 4/1
Energy Storage
Battery type| Lithium-ion
Battery voltage range| 120 – 500V
Maximum charge/discharge current| 50A
Battery Communication| CAN/RS485
Number of batteries per inverter| See Battery Compatibility Sheet
AC Output (Grid)
Rated output power| 7.6kW| 8kW
Max. apparent output power| 7.6kW| 8kW
Rated output voltage| 240V/120V
Rated frequency| 60 Hz
Rated output current| 31.?A| 33.3A
Max. output current| 31.?A| 33.3A
THDi| <3%
AC Input (Grid)
Input voltage range| 211-264V
Max. input current| 47.6A| 49.9A
Frequency range| 59-61 Hz
AC Output (Backup and Off-grid)
Rated output power| 7.6kW| 8kW
Max. apparent output power| 12.2 kVA, 10 sec| 12.8 kVA, 10 sec
Back-up switch time| < 10 ms
Phase Power| 240V Split-Phase
Rated output voltage(L1-L2)/(L1/L2-N)| 240 V/120 V
AC output voltage range| 211-264 V/105-132 V
Rated grid frequency| 60 Hz
Frequency range| 55-65Hz
Rated AC output current| 31.7A| 33.3A
Max. output overcurrent protection, 10sec| 50.7A| 53.3A
Max. allowable phase imbalance| 100%
Backup support configurations| Dedicated loads and whole-home (with a Solis
Power Hub)
Power Factor| >0.99 (0.8 leading – 0.8 lagging)
THDv(@linear load)| <3%
Efficiency
PV Max. efficiency| 97.6%
PV CEC efficiency| 97.2%
BAT charged by PV Max. efficiency| 98.5%
BAT charged/discharged to AC Max. efficiency| 97.0%
Protection
Ground fault detection| Yes
Residual (leakage) current detection| Yes
Integrated AFCI (DC arc-fault circuit protection)| Yes
DC reverse-polarity protection| Yes (PV only)
Rapid Shutdown NEC 2017| Integrated SunSpec-certified Transmitter
Compatible RSD Receivers| See MLRSD compatibility sheet
Protection class/Over voltage category| 1/11
General data
Dimansions( H/W/D)| 26.6121.859.39 in (676555238.5 mm)
Weight| 81.04 lbs (36.76 kg)
Topology| Transformerless
Operation temperature range| -25~ +60 °(/-31~ +140 °F
Ingress protection| NEMA4X(IP66)
Noise emission (Typical)| <30dB(A)
Cooling method| Natural convection
Max.operation altitude| 13120 ft (4000 m)
Complicance
| UL1741SB,UL1741SA,IEEE1547-2018,UL1699B,UL1998,
FCCPart15ClassB,California Rule21,Heco Rule 14H, NEC 690.12-2020,CAN/CSA C22.2107.1-1
Generator support| Yes; up to 25 kW (with a Solis Power Hub)
Features
DC connection
| 1 in. knockouts for conduit (x2) on the side and bottom; Spring clamp terminals
AC connection
| 2 in. knockouts for conduit (x3) on the side and bottom; Spring clamp
terminals
Interface| LED indicator lights, Bluetooth/Phone app
Monitoring Platform
| SolisCloud
(modbus map and API sharing available upon request)
Communication| RS485, Optional: Cellular, Wi-Fi, LAN
Warranty| 10 years standard (Extend to 20 years)
Technical Data| S6-EH1P10K-H-US| S6-EH1P11.4K-H-US
---|---|---
Input DC (PV side)
Recommended max. PV power| 16000W| 18240W
Max. input voltage| 600V
Rated voltage| 380V
Start-up voltage| 80V
MPPT voltage range| 80-550V
Full load MPPT voltage range| 230-450V| 245-450V
Max. input current per string| 16A
Max. short circuit current per string| 25.6A
Number of MPPTs/Number of strings per MPPT| 4/1
Energy Storage
Battery type| Lithium-ion
Battery voltage range| 120 – 500V
Maximum charge/discharge current| 50A
Battery Communication| CAN/RS485
Number of batteries per inverter| See Battery Compatibility Sheet
AC Output (Grid)
Rated output power| 10kW| 11.4kW
Max. apparent output power| 10kW| 11.4kW
Rated output voltage| 240 V/120 V
Rated frequency| 60 Hz
Rated output current| 41.?A| 47.5A
Max. output current| 41.?A| 47.5A
THDi| <3%
AC Input (Grid)
Input voltage range| 211-264V
Max. input current| 62.6A| 71.3A
Frequency range| 59-61 Hz
AC Output (Backup and Off-grid)
Rated output power| 10kW| 11.4kW
Max. apparent output power| 16 kVA, 10 sec| 18.2 kVA, 10 sec
Back-up switch time| < 10 ms
Phase Power| 240V Split-Phase
Rated output voltage(L 1-L2)/(L1/L2-N)| 240V/120V
AC output voltage range| 211-264 V/105-132 V
Rated grid frequency| 60 Hz
Frequency range| 55-65Hz
Rated AC output current| 41.7A| 47.SA
Max. output overcurrent protection, 10sec| 66.?A| 76.0A
Max. allowable phase imbalance| 100%
Backup support configurations| Dedicated loads and whole-home (with a Solis
Power Hub)
Power Factor| >0.99 (0.8 leading – 0.8 lagging)
THDv(@linear load)| <3%
Efficiency
PV Max. efficiency| 97.6%
PV CEC efficiency| 97.2%
BAT charged by PV Max. efficiency| 98.5%
BAT charged/discharged to AC Max. efficiency| 97.0%
Protection
Ground fault detection| Yes
Residual (leakage) current detection| Yes
Integrated AFCI (DC arc-fault circuit protection)| Yes
DC reverse-polarity protection| Yes (PV only)
Rapid Shutdown NEC 2017| Integrated SunSpec-certified Transmitter
Compatible RSD Receivers| See MLRSD compatibility sheet
Protection class/Over voltage category| 1/11
General data
Dimansions( H/W/D)| 26.6121.859.39 in (676555238.5 mm)
Weight| 81.04 lbs (36.76 kg)
Topology| Transformerless
Operation temperature range| -25~ +60 °(/-31~ +140 °F
Ingress protection| NEMA4X(IP66)
Noise emission (Typical)| <30dB(A)
Cooling method| Natural convection
Max.operation altitude| 13120 ft (4000 m)
Complicance
| UL1741SB,UL1741SA,IEEE1547-2018,UL1699B,UL1998,
FCCPart15ClassB,California Rule21,Heco Rule 14H, NEC 690.12-2020,CAN/CSA C22.2107.1-1
Generator support| Yes; up to 25 kW (with a Solis Power Hub)
Features
DC connection
| 1 in. knockouts for conduit (x2) on the side and bottom; Spring clamp terminals
AC connection
| 2 in. knockouts for conduit (x3) on the side and bottom; Spring clamp
terminals
Interface| LED indicator lights, Bluetooth/Phone app
Monitoring Platform
| SolisCloud
(modbus map and API sharing available upon request)
Communication| RS485, Optional: Cellular, Wi-Fi, LAN
Warranty| 10 years standard (Extend to 20 years)
Appendix
FCC Certification
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
- This device may not cause harmful interference, and
- this device must accept any interference received, including interference that may cause undesired operation.
FCC WARNING:
Any Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
NOTE:
This equipment has been tested and found to comply with the limits for a Class
B digital device, pursuant to part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications. However,
there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or more
of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body.
Gin long Technologies Co., Ltd.
No. 57 Jintong Road, Binhai Industrial Park, Xiangshan, Ningbo,Zhejiang,
315712, P. R.China.
Tel: +86 (0)57 4 6578 1806
Fax: +86 (0)574 6578 1606
Email:info@ginlong.com
Web : www.ginlong.com
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.
Comply with CA Rule 21/
Certified to UL 1741 SA
Certified to UL Std. No.1741-Second Edition & CSA-C22.2 No.107 .1-16
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