String Solar Power Inverter 10kw-20kw-US, ETL
- Loading Port:
- Shekou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 5 watt
- Supply Capability:
- 10000 watt/month
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String Solar Power Inverter 10kw-20kw-US, ETL
Specifications
Maximum efficiency of 98%
Multi MPP controller
MTL String
Bluetooth technology&Sound controlPV Inverter 10000UE,12000UE,18000UE,20000UE-US Series
Leading - edge Technology
High efficiency of 97.5% delivery more energy
Dual independent MPP tracking lead to optimal energy harvesting
Integrated DC disconnect switch
Consistent and stable performance across entire input voltage and
output power range
True three-phase transformerless GT topology
Bluetooth / RF technology / Wi-Fi
Sound control, easy installation maintenance procedure
Newest generation IGBTs and advanced MPPT algorithms
Comprehensive protection for IGBTs, overvoltage, islanding,
short-circuit,overload,overheat,etc
Flexible system design with safety fuse module and lightening
proof moduleModel
Specification
10000TL3-US
12000TL-US
18000TL-US
20000TL-US
Input data(DC)
Max. recommended PV power
12500W
15000W
21600W
24000W
Max. DC Power
10500W
12500W
18750W
20850W
Max. DC voltage
600V
600V
600V
600V
Start voltage
120V
120V
120V
120V
DC nominal voltage
375V
375V
375V
375V
PV voltage range
80V-600V
80V-600V
80V-600V
80V-600V
MPP voltage range(Full load)
250V-600V
250V-600V
250V-600V
250V-600V
Max. input current of the MPP tracker A/tracker B
21A/21A
25A/25A
38A/38A
42A/42A
Max. input short circuit current
32A/32A
32A/32A
50A/50A
50A/50A
Number of independent MPP trackers/strings per MPP tracker
2/3
2/3
2/6
2/6
Output data(AC)
Nominal output power
10000W
12000W
18000W
20000W
Nominal AC voltage
480V
480V
480V
480V
AC voltage range
422-528VAC
422-528VAC
422-528VAC
422-528VAC
Nominal AC grid frequency
60 Hz
60 Hz
60 Hz
60 Hz
AC grid frequency range
59.3-60.5 Hz
59.3-60.5 Hz
59.3-60.5 Hz
59.3-60.5 Hz
Max. output current(cos φ=1)
12.0A
14.5A
21.5A
24A
Power factor(cos φ)
>0.99 (0.9 Leading to 0.9 Lagging)
>0.99 (0.9 Leading to 0.9 Lagging)
>0.99 (0.9 Leading to 0.9 Lagging)
>0.99 (0.9 Leading to 0.9 Lagging)
Harmonics
<3%< span="">
<3%< span="">
<3%< span="">
<3%< span="">
Grid connection type
3/N/E
3/N/E
3/N/E
3/N/E
Efficiency
Max. efficiency
97%
97%
97.5%
97.5%
CEC-Weighted efficiency
95.5%
95.5%
96%
96.5%
MPPT efficiency
99.5%
99.5%
99.5%
99.5%
Protection devices
DC reverse-polarity protection
yes
yes
yes
yes
Input over voltage protection -Varistor
yes
yes
yes
yes
DC switch for each MPP tracker
yes
yes
yes
yes
Input over voltage protection -DIN rail surge arrester(Option)
Class II
Class II
Class II
Class II
DC insulation measure
yes
yes
yes
yes
AC short circuit protection
yes
yes
yes
yes
Output over voltage protection -Varistor
yes
yes
yes
yes
Output over voltage protection -DIN rail surge arrester(Option)
Class II
Class II
Class II
Class II
String fuse type/size(Option)
15A/600VDC 10*38mm
15A/600VDC 10*38mm
15A/600VDC 10*38mm
15A/600VDC 10*38mm
General Data
Dimensions(W*H*D)
530*705*247mm 20.8/27.6/9.7inch
530*705*247mm 20.8/27.6/9.7inch
650*740*247mm 25.6/29.1/9.7inch
650*740*247mm 25.6/29.1/9.7inch
Weight
46kg/101.5lb
46kg/101.5lb
63kg/138.9lb
63kg/138.9lb
Operating ambient temperature range
–25°C ... +60°C –13°F ... +140°F (Derating above 40°C/104°F)
–25°C ... +60°C –13°F ... +140°F (Derating above 40°C/104°F)
–25°C ... +60°C –13°F ... +140°F (Derating above 40°C/104°F)
–25°C ... +60°C –13°F ... +140°F (Derating above 40°C/104°F)
Noise emission
≤50dB(A)
≤50dB(A)
≤50dB(A)
≤50dB(A)
Relative Humidity
0~95%
0~95%
0~95%
0~95%
Altitude
≤2000m/6560ft
Self Consumption night
< 3 W
< 3 W
< 3 W
< 3 W
Topology
Transformerless
Transformerless
Transformerless
Transformerless
Cooling concept
Fan Cool
Fan Cool
Fan Cool
Fan Cool
Electronics protection rating /connection area
NEMA 3R
NEMA 3R
NEMA 3R
NEMA 3R
Features
Display
Graphic
Graphic
Graphic
Graphic
Interface:RS232/RS485/ Bluetooth/RF/Zigbee/Wifi
yes/yes/opt/opt /opt/opt
yes/yes/opt/opt /opt/opt
yes/yes/opt/opt /opt/opt
yes/yes/opt/opt /opt/opt
Warranty:10 years /15 years
yes/opt
yes/opt
yes/opt
yes/opt
Certificates and approvals
UL1741,UL1998,IEEE1547,FCC part 15(class B),CSA C22.2 No.107.1
- Q:What is the role of a solar inverter in power factor correction?
- The role of a solar inverter in power factor correction is to adjust the power factor of the solar power system to ensure efficient energy conversion. It helps in balancing the reactive power and real power, leading to improved overall power quality and reduced system losses.
- Q:What is the role of a power factor correction circuit in a solar inverter?
- The role of a power factor correction circuit in a solar inverter is to improve the power quality and efficiency of the inverter by reducing the reactive power and improving the power factor. This circuit ensures that the energy from the solar panels is effectively converted and delivered to the electrical grid, leading to a more stable and efficient operation of the solar inverter system.
- Q:What is the maximum power capacity of a solar inverter?
- The maximum power capacity of a solar inverter can vary depending on the model and specifications, but it is generally in the range of a few kilowatts to several megawatts.
- Q:Can a solar inverter work in low light conditions?
- Yes, a solar inverter can work in low light conditions. While the output power of a solar inverter may decrease in low light conditions, it is still capable of converting the available sunlight into usable electricity. The performance may vary depending on the specific model and technology used, but modern solar inverters are designed to work efficiently even in low light situations.
- Q:Can a solar inverter be used with different solar panel technologies?
- Yes, a solar inverter can be used with different solar panel technologies as long as the inverter is compatible with the specific voltage and power output of the panels. However, it is important to ensure that the inverter is designed to handle the specific characteristics and requirements of each solar panel technology for optimal performance and efficiency.
- Q:Can a solar inverter be used with solar concentrators?
- Yes, a solar inverter can be used with solar concentrators. Solar concentrators are designed to focus sunlight onto a smaller area, increasing its intensity. The concentrated sunlight is then converted into electricity by the solar panels and fed into the solar inverter, which converts the DC power generated by the panels into AC power suitable for use in homes or businesses. Therefore, solar concentrators and solar inverters can work together to maximize the efficiency and output of a solar energy system.
- Q:Can a solar inverter be used in harsh weather conditions?
- Yes, solar inverters can be designed and built to withstand harsh weather conditions. Many modern solar inverters are equipped with protective features such as dust and moisture resistance, temperature tolerance, and surge protection. These features make them suitable for operating in extreme temperatures, high humidity, dusty environments, and even during heavy rain or snow. However, it is important to ensure that the chosen inverter is specifically designed for the intended weather conditions to ensure its durability and performance.
- Q:What is the role of a DC-DC converter in a solar inverter?
- The role of a DC-DC converter in a solar inverter is to convert the direct current (DC) generated by the solar panels into the appropriate voltage and current levels required for the inverter to convert it into alternating current (AC) electricity. The DC-DC converter ensures efficient power transfer and enables the solar inverter to maximize the energy harvested from the solar panels. Additionally, it helps regulate the voltage levels and maintain the stability of the solar power system.
- Q:Can a solar inverter be used in conjunction with a generator?
- Yes, a solar inverter can be used in conjunction with a generator. In fact, it is a common setup in off-grid or hybrid systems. The solar inverter can work alongside the generator to provide electricity when solar power is insufficient, ensuring a continuous and reliable power supply.
- Q:How does a solar inverter interact with the electrical grid?
- A solar inverter interacts with the electrical grid by converting the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity that is compatible with the grid. It synchronizes the generated electricity with the grid's voltage and frequency, allowing excess power to be fed back into the grid for others to use, and drawing additional power from the grid when needed. This interaction ensures efficient utilization of solar energy and seamless integration of solar power into the existing electrical grid infrastructure.
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Send your message to us
String Solar Power Inverter 10kw-20kw-US, ETL
- Loading Port:
- Shekou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 5 watt
- Supply Capability:
- 10000 watt/month
OKorder Service Pledge
OKorder Financial Service
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