NAC4K-DS Renac SINGLE PHASE Solar Grid Inverter Every User Manual
- June 13, 2024
- RENAC
Table of Contents
R1
Moto Series
Macro Series
NAC4K-DS Renac SINGLE PHASE Solar Grid Inverter Every
User Manual
NAC4K – DS | R1 – 8K – DS |
---|---|
NAC5K – DS | R1 – 10K – DS |
NAC6K – DS | R1 – 10K5 – DS |
Introduction
1.1 Introduction
This manual describes solar inverters: NAC4K-DS / NAC5K-DS / NAC6K-DS / R1-8K-
DS / R1-10K-DS / R1-10K5-DS.
These inverters are transformerless based inverter.
Please read the safety instructions in this manual first. Throughout the manual
it is assumed that the reader is familiar with AC and DC installations and
knows the rules and regulations for electrical equipment and for connecting it
to the utility AC grid. It is especially important to be familiar with the
general safety rules for working with electrical equipment.
1.2 Applied designations
Throughout the manual important information is shown at different levels
depending on the character of the information, as shown here:
| Safety information important for human safety. Violation of warnings may
result in injury to persons or death.
---|---
| Danger of high voltage and electric shock!
| Signals danger due to electrical shock and indicates the time (5 minutes) to
allow after the inverter has been turned off and disconnected to ensure safety
in any installation operation.
| Danger of hot surface!
| Product should not be disposed as normal household waste.
| CE Mark
| ROHS Mark
| Information important for the protection of property. Violation of this type
of information may cause damage and loss of property.
| Useful additional information or “Tips and Tricks” on specific subjects.
1.3 Important safety information
Read this before installing, operating or maintaining the inverter.
Before installation:
Check for damage to inverter and packaging. If you are in doubt, please
contact your supplier before installing the inverter. Check the voltages of
the solar modules and make sure they are within the limits of the inverter
specifications before connecting them to the inverter.
Installation:
Only trained and authorized personnel familiar with local electrical codes may
install the inverter. For optimum safety, please follow the steps described in
this manual. Keep in mind that the inverter has two voltage carrying sides,
the PV input and the AC grid.
Disconnecting the inverter:
Always disconnect the AC line first! Afterwards disconnect the PV lines. Note
that the inverter can still be charged with very high voltages at hazardous
levels even when it is disconnected from grid and solar modules. Wait at least
5 min. before proceeding, after having disconnected from grid and PV panels.
Operating the inverter:
Before connecting the AC grid to the inverter, make sure that the installation
cover is mounted again. The inverter must not be open during operation.
Maintenance and modification:
Only authorized personnel are allowed to repair or modify the inverter. To
ensure optimum safety for user and environment, only the original spare parts
available from your supplier should be used.
Functional safety parameters:
Unauthorized changes of functional safety parameters may cause injury or
accidents to people or inverter. Additionally it will lead to the cancelling
of all inverter operating approval certificates.
1.4 System sizing
When dimensioning a photovoltaic system, it must be ensured that the open
circuit voltage of the PV string never exceeds the maximum permissible input
voltage of 600V DC. The PV string open circuit voltage during parallel string
operation is 550V. Higher voltages may result in permanent damage to the
inverter.
The selection of PV string output should be based on the optimum utilization
of the invested capital compared to the expected annual energy yield from the
system. This optimization depends on local weather conditions and should be
considered in each individual case.
The inverter incorporates an input power limiting device, which automatically
keeps the power at levels that are safe for the inverter.
The limitation depends mainly on internal and ambient temperatures. The
limitation is calculated continuously and always allows the maximum possible
amount of energy to be produced.
Please use the tool supplied by Renac Power when dimensioning a photovoltaic
system.
Technical description of inverters
2.1 Mechanical design
Figure 2-1 shows the outline dimensions of NAC4K-DS / NAC5K-DS / NAC6K-DS / R1
-8K-DS / R1-10K-DS / R1-10K5-DS.Figure
2-2 shows the electrical terminals of NAC4K-DS / NAC5K-DS / NAC6K-DS / R1-8K-
DS / R1-10K-DS / R1-10K5-DS.
1 | DC (PV terminal) |
---|---|
2 | DC Switch |
3 | I/O Port |
4 | Communication port |
5 | AC terminal |
6 | LCD |
7 | LED (Run/Fault) |
8 | Key |
2.2 Electrical system design
For safety reasons, the use of a DC switch is recommended. Between the PV modules and the power modules may be mandatory in some countrie.
Please refer to chapter 3 for the detail connecting and install methods.
2.3 Technical data
DC Input Data
Max. Recommended PV Power| 5200W| 6500W| 7800W
Max.DC Input Voltage| 600V
MPPT voltage Range| 100-550V
Rated input voltage| 360V
Start-up Voltage| 120V
No. of MPP Trackers| 2
No. of Input Strings per Tracker| 1 / 1| 2 / 1
Max. DC Input Current| 16A / 16A| 16A / 16A| 16A / 16A
DC Switch| Optional
AC Output Data|
Rated AC Power| 4000W| 5000 W| 6000W
Max.output power| 4400VA| 5500VA| 6600VA
Max. AC Current| 19.2A| 24A| 28.7A
Rated AC Voltage /Range| 220V/230V; 160-290V
Grid frequency / range| 50Hz/60Hz; ±5Hz
Adjustable Power Factor [cos φ]| 0.8leading ~ 0.8lagging
Output THDi (@Rated Output)| ≤ 2%
Efficiency
Max.Efficiency| 97.8%| 97.8%| 97.8%
Euro Efficiency| 97.2%| 97.2%| 97.2%
MPPT Efficiency| 99.9%| 99.9%| 99.9%
Protection
DC Insulation Monitoring| Integrated
Input Reverse Polarity Protection| Integrated
Anti-island Protection| Integrated
Residual Current Monitoring| Integrated
Over-heat Protection| Integrated
AC Overcurrent Protection| Integrated
AC Short-circuit Protection| Integrated
AC Overvoltage Protection| Integrated
DC Surge Protection| Integrated (Type III)
AC Surge Protection| Integrated (Type III)
General Data
Size(WidthHeightDepth)| 395 x 330 x 185mm
Weight| 12KG
User Interface| LCD
Communication| RS485 (Standard), Wifi or GPRS
Ambient Temperature Range| -25 ℃ ~ 60 ℃
Relative Humidity| 0-100%
Operating Altitude| ≤ 4000m
Standby Self Consumption| < 0.2W
Topology| Transformerless
Cooling| Natural Convection
Protection Grades| IP65
Noise| < 30dB
Warranty| 5 / 7 / 10 years
Certifications & Standards
Grid Regulation| VDE 0126-1-1, C10/11, G99, PEA, MEA, AS4777, EN50549,
CEI0-21, EC61727, IEC62116,IEC60068, IEC61683, ABNT NBR 16150
Safety Regulation| IEC 62109-1, IEC 62109-2
EMC| EN 61000-3-2, EN 61000-3-3, EN 61000-3-11, EN 61000-3-12, EN 61000-6-2,
**** EN 61000-6-3, IEC 61000-4-16, IEC 61000-4-18, 4-29
Model
DC Input Data
Max. Recommended PV Power| 12000W| 15000W| 16000W
Max.DC Input Voltage| 600V
MPPT voltage Range| 100-550V
Rated input voltage| 360V
Start-up Voltage| 120V
No. of MPP Trackers| 2
No. of Input Strings per Tracker| 2 / 1| 2 / 2
Max. DC Input Current| 26A / 20A| 26A / 26A| 26A / 26A
DC Switch| Optional
AC Output Data
Rated AC Power| 8000 W| 10000 W| 10440 W
Max.output power| 8800VA| 10000VA| 9570VA@220V 10005VA@230V 10440VA@240V
Max. AC Current| 36.4A| 43.5A| 43.5A
Rated AC Voltage / Range| 220V/230V/240V; 160-290V
Grid frequency / range| 50Hz/60Hz; ±5Hz
Adjustable Power Factor [cos φ]| 0.8leading ~ 0.8lagging
Output THDi (@Rated Output)| ≤ 2%
Efficiency
Max.Efficiency| 97.8%| 98.1%| 98.1%
Euro Efficiency| 97.2%| 97.5%| 97.5%
MPPT Efficiency| 99.9%| 99.9%| 99.9%
Protection
DC Insulation Monitoring| Integrated
Input Reverse Polarity Protection| Integrated
Anti-island Protection| Integrated
Residual Current Monitoring| Integrated
Over-heat Protection| Integrated
AC Overcurrent Protection| Integrated
AC Short-circuit Protection| Integrated
AC Overvoltage Protection| Integrated
DC Surge Protection| Integrated (Type III)
---|---
AC Surge Protection| Integrated (Type III)
General Data|
Size (WidthHeightDepth)| 395 x 330 x 185mm
Weight| 16KG
User Interface| LCD
Communication| RS485 (Standard), Wifi or GPRS
Ambient Temperature Range| -25 ℃ ~ 60 ℃
Relative Humidity| 0-100%
Operating Altitude| ≤ 4000m
Standby Self Consumption| < 0.2W
Topology| Transformerless
Cooling| Natural| Fan| Fan
Protection Grades| IP65
Noise| < 30dB| < 40dB
Warranty| 5 / 7 / 10 years
Certifications & Standards|
Grid Regulation| EC61727, IEC62116, IEC60068, IEC61683, ABNT NBR 16150
Safety Regulation| IEC 62109-1, IEC 62109-2
EMC| EN 61000-3-2, EN 61000-3-3, EN 61000-3-11, EN 61000-3-12, EN 61000-6-2,EN
61000-6-3, IEC61000-4-16, IEC61000-4-18, IEC61000-4-29
2.4 Grid codes
No. | National/Regional Grid Code | Description |
---|---|---|
1 | VDE4105-DE | Germany power Grid, meet Grid standards “VDE-AR-N-4105”. |
2 | CEI0-21 | Italy power Grid. |
3 | AS4777 | Australia power Grid. |
4 | RD1699 | Spain power Grid. |
5 | EN50549-TR | Turkey power Grid. |
6 | EN50549-DK | Denmark power Grid. |
7 | Greece | Greece power Grid. |
8 | EN50549-NL | Netherland power Grid, meet Grid standards “EN50438”. |
No. | National/Regional Grid Code | Description |
--- | --- | --- |
9 | C10/11 | Belgium power Grid. |
10 | G59 | UK power Grid. |
11 | China | China power Grid, meet Grid standards “CN-NBT”. |
12 | VDE0126-FR | France power Grid, meet Grid standards “VDE 0126”. |
13 | EN50549-PL | Poland power Grid. |
14 | BDEW-DE | Germany power Grid, meet Grid standards “BDEW-MV”. |
15 | VDE0126-DE | Germany power Grid, meet Grid standards “VDE 0126”. |
16 | CEI0-16 | Italy power Grid, meet Grid standards “CEI 0-16”. |
17 | G83 | UK power Grid. |
18 | Greece Island | Greece Island power Grid. |
19 | EN50549-CZ | Czech Republic power Grid, meet Grid standards |
“EN50438Y2007-CZ”.
20| IEC61727| India power Grid.
21| Korea| Korea power Grid.
22| EN50549-SW| Sweden power Grid.
23| China-W| China power Grid, Grid voltage range:160-290V
Grid frequency range:47-53HZ.
24| China-H| China power Grid, meet standards“CQC ”.
25| IEC61727-IN| India power Grid, meet Grid standards “IEC61727”.
26| Brazil| Brazil power Grid , meet Grid standards “NBT 16150”.
27| IEC61727-SL| Sri Lanka power Grid, meet Grid standards “IEC61727”.
28| Mexico| Mexico power Grid, meet Grid standards “IEC61727 60HZ”.
29| NZ4777| New Zealand power Grid, meet Grid standards “NZ4777”.
30| Philippines| Philippines power Grid, meet Grid standards “IEC61727 60HZ
spec”.
31| IEC61727-SL-W| Sri Lanka power Grid, Grid voltage range:160-290V, Grid
frequency range:47-53HZ.
32| PEA| Thailand power Grid.
33| PEA-W| Thailand power Grid, Grid voltage range:160-290V, Grid frequency
range:47-53HZ.
34| IEC61627-VN| Vietnam power Grid.
35| IEC61627-VN-W| Vietnam power Grid, Grid voltage range:160-290V, Grid
frequency range:47-53HZ.
36| MEA| Thailand power Grid.
37| MEA-W| Thailand power Grid, Grid voltage range:160-290V, Grid frequency
range:47-53HZ.
38| Tunisia| Tunisia power Grid.
39| Tunisia-W| Tunisia power Grid, Grid voltage range:160-290V, Grid frequency
range:47-53HZ.
Installation and startup
**| Warning!
Before installation and maintenance, AC and DC side doesn’t carry electricity,
but if DC side is
just disconnected, capacitance still contains electricity, so please wait for
at least 5 minutes
to ensure the capacitors completely release the energy and inverter is not
electrified.
---|---
| Note!**
Inverters must be installed by qualified person.
3.1 Package information
① There are 2 PV+
connectors for 4/5/6K-DS , 3 PV+ connectors for 7/8K-DS and 4 PV+ connectors
for 9/10/10.5K-DS
② There are 2 PV- connectors for 4/5/6K-DS , 3 PV- connectors for 7/8K-DS
and 4 PV- connectors for 9/10/10.5K-DS
Figure 3-1 package information
3.2 Installation environment
- In order to achieve optimal performance, the ambient temperature should be kept lower than 45 °C.
- For the convenience of checking the LCD display and possible maintenance activities, please install the inverter at eye level.
- Inverters should NOT be installed near inflammable or explosive items. Any strong electro-magnetic equipment should be kept away from installation site.
- Product label and warning symbol shall be clear to read after installation.
- Please do not install inverter under direct sunlight, rain and snow.
3.3 Installation position
| 1) The installation method and mounting location must be suitable for the
inverter’s weight and dimensions.
2) Mount on a solid surface.
3) Select a well-ventilated place sheltered from direct sun radiation.
---|---
In consideration of heat
dissipation and convenient dismantlement, the minimum clearances around the
inverter should be no less than the following value: 3.4 Mounting procedure
Step1: Drill 4 Fix Ø11 holes in the wall according to the dimensions.
Step2: Fix the wall mounting bracket on the wall with 4 expansion bolts in
accessory bag.
Step3: Place the inverter on the wall-mounted bracket and install the fix screw
. 3.5 Electrical
connection
3.5.1 Connection to the grid (AC output)
****| 1) Add breaker or fuse to AC side, the specification should be more than
1.25 times of rated AC output current.
2) The PE line of inverter should be connected to the earth, make sure the
impedance of neutral wire and earth wire less than 10 ohm.
3) Disconnect the breaker or fuse between the inverter and the utility.
4) All inverters incorporate a certified internal Residual Current Device (RCD)
in order to protect against
possible electrocution and fire hazard in case of a malfunction in the PV
array, cables or inverter.
There are 2 trip thresholds for the RCD as required for certification (IEC
62109-2:2011). The default value for electrocution protection is 30mA, and for
slow rising current is 300mA.
---|---
Connect the inverter to the grid as follows:
- Strip off L/N/PE cables as figure 3-6:
No.| Description| Remark
---|---|---
A| Protective layer| Diameter ranges :9-16mm
B| Length of stripped off| 12mm
C| Insulate layer| 50mm
D| Cross section of ac cables| 6-10mm²
Figure 3-6 Strip off PE/N/L cables
- Tighten the nut clockwise & Tighten L/N/PE cable screws to the terminals according to markings.
| Fix (Torque: 2~2.5 N.m) the connector of AC cable to the corresponding terminals
---|---
- Plug Grid side connector into AC connector of inverter end, rotate and tighten clockwise.
3.5.2 Connection to PV string (DC input)
- **** Before connecting PV string, make sure DC switch is turned off.
- Make sure PV string polarity confirms with DC connector, otherwise, it will cause damage to inverter.
- Make sure the maximum open circuit voltage (Voc) of each PV string does not exceed the inverter input voltage Vmax under any condition.
- Do not connect positive or negative pole of PV string to earth wire. Otherwise, it will cause damage to inverter.
3.5.3 Communication
Overview of communication ports: 3.5.3.1 WIFI/GPRS Communication (optional)
Connect the WIFI/GPRS module produced by Renac to the COM port of inverter.
After successful connection, information such as power generation and running
state of the inverter can be viewed via the App on the phone. The details
please refer to the module user manual.
The block diagram of the WIFI/GPRS communication system is as follows: 3.5.3.2 CT Connection
(Optional)
The inverter is equipped with the feed-in power limit function, and the
communication port on inverter is “CT” (figure 3-9), below is the method of
connecting the CT in system. 3.5.3.3 DRM
connection
The inverter supports the demand response modes as specified in the standard
AS/NZS4777. The inverter has integrated a terminal for connecting to a DRED.
The details please refer to figure 3-9, and for CEI standard, DRM S0 is the DI
port .
3.5.3.4 Relay connection
The relay can be set to fault alarm output, and user can configure it to be a
normal open contact (COM&NO) or a normal close contact (COM&NC).The relay is
initially at the NC terminal, and it will trip to another contact when a fault
occurs.
Use LED indicators or other equipment to indicate whether the inverter is in
the faulty state. The following figures show the typical applications of normal
open contact and normal close contact: 3.6
Starting the inverter
Before turn on the inverter, please confirm:
- Three AC wires (PE/L/N) cable correctly connected to the inverter AC side through AC circuit breaker;
- The DC cable connected correctly to the inverter DC side through DC circuit breaker, please be attention to the cable connected to the two string correctly and it’s polarity;
- The unused terminals are covered.
Starting the inverter:
- Close the DC and AC circuit breaker;
- If the solar panels provide enough energy, the power module will work and the LCD panel will be lit;
- In case you are starting the inverter for the first time, the inverter needs to be commissioned. Commissioning is described on page 19,chapter 4.3.
- Then the inverter will turn into self-check mode and the LCD panel will display the remaining time of connect simultaneously;
- After the inverter turn into normal mode, it feed electrical energy into grid, and LCD panel will display the generated electrical energy.
As long as the inverter works, it will automatically track the maximum power
point to absorb the maximum energy from solar.When night comes, the irradiance
is not strong enough to provide energy, the inverter will power off
automatically.
When the next day comes, the input voltage reaches the start value, it will
start again automatically.
User interface
4.1 Led and key
No. | Object | Description |
---|---|---|
1 | Run (Green LED) | On = Normal operation |
Flashing = Waiting, checking or starting up
1| Fault (Red LED)| On = Failure
Flashing = Temporary failure
2| Pushbutton| Pressing < 1 s: Next
Pressing > 2 s: Enter
4.2 LCD display
Menu structure: 4.3 Factory setting
- Press pushbutton long in order to enter the “Factory setting” menu.
- Press pushbutton long to enter the “language setting” menu.
- Press pushbutton less than 1 sec. to the langue menu you want and Press pushbutton long to select.
- Press pushbutton less than 1 sec. to the country menu you want and Press pushbutton long to select.
4.4 Setting language
- Press pushbutton less than 1 sec. several times until you reach the “Setting” menu.
- Press pushbutton long in order to enter the “setting” menu.
- Press pushbutton less than 1 sec. several times until you reach the “language setting” menu.
- Press pushbutton less than 1 sec. to the langue menu you want and Press pushbutton long to select.
4.5 Setting modbus address
- Press pushbutton less than 1 sec. several times until you reach the “Setting” menu.
- Press pushbutton long in order to enter the “setting” menu.
- Press pushbutton less than 1 sec. several times until you reach the “module add” menu.
- Press pushbutton less than 1 sec. to the modbus address number you want and Press pushbutton long to set.
4.6 Setting export power (CT)
- Press pushbutton less than 1 sec. several times until you reach the “Setting” menu.
- Press pushbutton long in order to enter the “setting” menu.
- Press pushbutton less than 1 sec. several times until you reach the “Export power” menu.
- Press pushbutton long to enter onto “Export power”.
- Set “Export power” as “1”, press pushbutton long to save the value.
4.7 Self-Test in accordance with CEI 0-21 (Applies to Italy only)
The self-test is only required for inverters, which are commissioned in Italy.
The Italian standard requires that all inverters feeding into the utility grid
are equipped with a self-test function in accordance with CEI 0-21. During the
self-test, the inverter will consecutively check the protection reaction times
and values for overvoltage, under voltage, over frequency and under frequency.
Self-test function is available at any time. It also allows end user get test
reports shown on LCD display.
There are two ways to execute the self-test:
Auto-Test from screen:
- Press pushbutton less than 1 sec. several times until you reach the “Setting” menu.
- Press pushbutton long in order to enter the “setting” menu.
- Press pushbutton less than 1 sec. several times until you reach the “AutoTest-Italy” menu (You need to set the inverter country to CEI 0-21 before testing).
- Press pushbutton long to execute the auto-test.
- The inverter will automatically run the test until the screen shows “Test end”, if the test passes, it will show “test ok”, if the test is failed, it will show “test failed”.
Auto-Test from Solar Admin:
- Download and install “Solar Admin” on laptop.
- Connect inverter to laptop via RS485 port.
- When the inverter and “solar admin” are successfully connected. Click “Sys.setting” – “Other” – “AUTOTEST” enter into Auto-Test” interface.
- Click “Execute” to start the test.
- The inverter will automatically run the test until the screen shows “Test end”.
- Click “Read” to read the test value, and click “Export” to export the test report.
- After click “Read” button, interface will show the test results, if the test passes, it will show “PASS”, if the test is failed, it will show “FAIL”.
Warranty
The standard warranty period for the inverter is 60 months from the date of
installation and no more than 66 months (5.5 years) from the date of shipment
from factory.
5.1 Warranty claim procedure
Please report defective device with a brief error description and SN code to
our service mail or service hotline for registration.
Alternatively, please contact your specific dealer or installer if your unit is
defective or faulty.
To claim the warranty under the warranty terms of factory, you need to supply
us with the following information and documentation regarding the faulty unit:
- Product Model No (e.g. R1-8K-DS) and the serial Number (e.g. 8700831201211006).
- Copy of the invoice and warranty certificate for the inverter.
- Error message on LCD screen and additional information regarding the fault/error.
- Detailed information about the entire system (modules, circuits, etc.).
- Documentation of previous claim/exchanges ( if applicable).
In the case of an exchange, the remainder of the warranty entitlement will be transferred to the replacement device. In this event, you will not receive a new certificate, as this replacement will be noted by factory.5.2 Service after warranty expiration For products which are out of warranty, factory charges an on-site service fee, parts, labor cost and logistic fee to end-userwhich can be any/all of:
- On-site attendance fee: Cost of travel and time for the technician in attending on-site;
- Parts: Cost of replacement parts (including any shipping/admin fee that may apply);
- Labor: Labor time fee charged for the technician, who is repairing, maintaining, and installing (hardware or software) and debugging the faulty product;
- Logistic fee: Cost of delivery, tariff and other derived expense when defective products are sent from user to factory or / and repaired products are sent from factory to user;
Troubleshooting and Maintenance
6.1 Troubleshooting
Once a fault occurs in the inverter, the fault information can be displayed on
screen or the App interface. Fault codes and check methods are as follows:
Fault | LCD display | Possible actions |
---|
Clearable Fault
| Isolation Fault1 Isolation Fault2| 1.Check whether the inverter is earthed
and test impedance between PV (+) & (-) and the impedance must exceed 3MΩ;
2.Check whether the AC-side has contacts with earth.
Grid Faults: 10min OVR Fault OVR Fault UVR Fault OFR Fault UFR| 1.Wait for 5
minutes, if the grid returns to normal, PV inverter automatically restarts.
2. Make sure grid voltage and frequency meet the local specifications.
No utility| 1Grid is not connected.
2. Check grid connection cables.
3.Check grid usability.
4.If grid is ok and the problem exists still, maybe the fuse in the inverter
is open, please call service.
Low Temp Over Temp| 1.The internal temperature of inverter is higher or lower
than specified normal value.
2. Find a way to reduce or increase the ambient temperature.
3. if the problem remains, please call local service
PV over Voltage: PV1OVFault PV2OVFault| 1.Check the open PV DC voltage, and
see if it is greater than or too close to 550VDC
2. If PV DC voltage is less than 550VDC, and the problem still occurs, please
call local service.
Fault| LCD display| Remark
---|---|---
Permanent Fault| Consistent Faults: Consist VGrid Consist Freq Consist GFCI
Consist DCI|
1.Disconnect all PV (+) or PV (-) from solar panels
2.Wait for a few seconds.
3. After the LCD switches off, reconnect and check again.
4.If the problem remains, please call local service.
RelayFail
EEPROM R/W Fail
Sci Comm lose
Spi Comm lose
BusHFault
GFCIDeviceFault
IGridDevice
PLLFault
AutoTestFail
PV Config fault
Fan error
DCI out range
OCPV1
OCPV2
OCIGrid
| Risk of inverter damage or personal injury due to incorrect service!
• Always keep in mind that the inverter is powered by dual sources: PV strings
and utility grid.
Before any service work, observe the following procedure.
• Disconnect the AC circuit breaker and then set the DC load-break switch of
the inverter to OFF.
• Wait at least 5 minutes for inner capacitors to discharge completely.
• Verify that there is no voltage or current before pulling any connector.
---|---
| NOTICE
Restart the inverter only after removing the fault that impairs safety
performance. As the
inverter contains no component parts that can be maintained, never arbitrarily
replace any
internal components. For any maintenance need, please contact Renac Power.
Otherwise,
Renac Power shall not be held liable for any damage caused.
6.2.1 Routine Maintenance’
Item | LCD display | Period |
---|---|---|
System clean | Check the temperature and dust of the inverter. Clean the |
inverter enclosure if necessary. Check if the air inlet and outlet are normal. Clean the air inlet and outlet,
if necessary.
| Six months to a year (- depend on the dust contents in air.)
Fans| Check whether there is any abnormal noise when the fan is turning. Clean
or replace the fans if necessary (see the following section).| Once a year
Cable entry| Check whether the cable entry is insufficiently sealed or the gap
is excessively large, and reseal the entry when necessary.| Once a year
Electrical Connection| Check whether all cable are firmly in place. Check
whether a cable is damaged, especially the part contacting
the metal enclosure.
| Six months to a year
Maintenance Instruction
Cleaning Air Inlet and Outlet
A huge amount of heat is generated in the process of running the inverter. The
inverter adopts a controlled forced-air cooling method. In order to maintain
good ventilation, please check to make sure the air inlet and outlet are not
blocked.
Clean the air inlet and outlet with soft brush or vacuum cleaner if necessary.
Fan Maintenance
| • Stop the inverter and disconnect it from all power supplies before
maintenance.
• Lethal voltage still exists in the inverter. Please wait for at least 5
minutes and then perform maintenance work.
• Only qualified electricians can maintain the fans.
---|---
Fans inside the inverter are used to cool the inverter during operation. If
the fans do not operate normally, the inverter maynot be cooled down and
inverter efficiency may decrease. Therefore, it is necessary to clean the
dirty fans and replace the broken fans in time. The operation procedure is as
follows:
Step 1 Stop the inverter (turns off DC and AC both for inverter, wait for at
least 5 minutes).
Step 2 Loosen the 4 screws of the 2 fan modules.
Step 3 Loosen the 4 screws for each fan module.
Step 5 Reinstall the fan back to the inverter in reverse order and restart the
inverter.
Step 4 Disconnect the fan cables and then pull out the fan modules, clean the
fans with soft brush or vacuum cleaner, and replace them when necessary.
SMART ENERGY FOR BETTER
LIFE
‘RENA CPOWE RTECHNOLOGY CO ., LT D .
Add: Block 6, No.2, West Jinzhi Road, Suzhou National Hi-Tech District,
Suzhou, China
Tel:+86-0512-66677278
info@renacpower.com
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