High Frequency Solar Inverter 2000HF-US-3000HF-US

High Frequency Solar Inverter 2000HF-US-3000HF-US System 1

High Frequency Solar Inverter 2000HF-US-3000HF-US

Ref Price:

Loading Port:: Shekou

Payment Terms:: TT OR LC

Min Order Qty:: 10 watt

Supply Capability:: 10000 watt/month

Inquire Now

Chat Online

Add to My Favorites

OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

Specifications

>Maximum efficiency of 96% >DC switch optional
>High frequency transformer topology
>MTL-String
>Bluetooth technology

2000HF-US 2500HF-US 3000HF-US

Leading - edge Technology

>Maximum efficiency of 96% and wide input voltage range
>DC switch optional
>High frequency transformer topology
>MTL-String
>Bluetooth technology
>Sound control
>Fanless cooling concept
>Easy installation
>High reliability

High Frequency Solar Inverter 2000HF-US-3000HF-US

Input data (DC side)
Model	2000 HF-US	2500 HF-US	3000HF-US
Specifications
Input data
Max. DC power	2200W	2700W	3200W
Max. DC voltage	600V	600V	600V
Start voltage	150V	150V	150V
DC nominal voltage	370V	370V	370V
PV voltage range	100V-600V	100V-600V	100V-600V
MPP voltage range	195V~480V	195V~480V	250V-480V
Number of MPP trackers/strings per MPP tracker	1/2	1/2	1/2
Max. input current /per string	12A/12A	15A/15A	15A/15A
Output (AC)
Nominal AC output power	2000W@208Vac
2000W@240 Vac	2500W@208Vac
2500W@240 Vac	2800W@208Vac
3000W@240Vac
Max. AC power	2000W	2500W	2800W@208Vac
3000W@240Vac
Nominal output current	9.6A/8.3A	12A/10.4A	13.4A/12.5A
Max. output current	10.7A/9.5A	13.4A/11.8A	15A/14.2A
AC nominal voltage; range	208V/240V; 183V~228V@208Vac
211V~264V@240Vac	208V/240V; 183V~228V@208Vac
211V~264V@240Vac	208V/240V; 183V~228V@208Vac
211V~264V@240Vac
AC grid frequency; range	60Hz; 59.3--60.5Hz	60Hz; 59.3--60.5Hz	60Hz; 59.3--60.5Hz
Phase shift (cosφ)	>0.99	>0.99	>0.99
THDI	<3%< td="">	<3%< td="">	<3%< td="">
AC connection	Single phase	Single phase	Single phase
Efficiency
Max. efficiency	96%	96%	96%
CEC.effciency	95%	95%	95%
MPPT efficieny	99.50%	99.50%	99.50%
Protection devices
DC reverse polarity protection	yes	yes	yes
AC short - circuit protection	yes	yes	yes
Ground fault monitoring	yes	yes	yes
Grid monitoring	yes	yes	yes
Integrated all - pole sensitive
leakage current monitoring unit	yes	yes	yes
General Data
Dimensions (W / H / D) in mm	575/455/160	575/455/160	575/455/160
Weight	14.6KG	15.1 KG	15.9 KG
Operating temperature
range	–25°C ... +60°C	–25°C...+60 °C	–25°C ... +60°C
Continuous full output power
temperature range	–25°C…+45°C	–25°C…+45°C	–25°C…+45°C
Noise emission (typical)	≤ 25 dB(A)	≤ 25 dB(A)	≤ 25 dB(A)
Altitude	Up to 2000m without power derating
Consumption: operating
(standby) / night	<5W / < 0.5 W	<5W / < 0.5 W	<5 W / < 0.5 W
Topology	HF transformer	HF transformer	HF transformer
Cooling concept	No fan	No fan	No fan
ENCLOSURE	Type 3R	Type 3R	Type 3R
Installation: Indoors /Outdoors	yes /yes	yes /yes	yes /yes
Features
DC connection: Terminals	yes	yes	yes
AC connection: Terminals	yes	yes	yes
LCD display	yes	yes	yes
Interfaces: Bluetooth /
RS485/RS232	opt/yes/yes	opt/yes/yes	opt/yes/yes
Warranty: 10 years / 15 years	yes /opt	yes /opt	yes /opt
Certificates and approvals	UI1741,IEEE1547,CSA C22.2 No.107.1,
FCC Part15(Class B)

Q:How does a solar inverter handle sudden changes in solar irradiation?: A solar inverter handles sudden changes in solar irradiation by constantly monitoring the incoming solar power and adjusting its output accordingly. It has built-in technology and algorithms that enable it to quickly adapt to changes in solar irradiation levels. The inverter can efficiently convert and regulate the fluctuating DC power from the solar panels into a stable AC power output, ensuring a smooth and consistent energy supply to the connected load or grid.

Q:How does a solar inverter handle variations in solar panel cleanliness?: A solar inverter can handle variations in solar panel cleanliness by continuously monitoring the output power and adjusting the operating parameters accordingly. If the panels are dirty, the inverter will detect a decrease in the output power and adjust the voltage and current to maintain optimal performance. However, if the panels are excessively dirty, it can significantly impact the overall energy production and may require manual cleaning to ensure maximum efficiency.

Q:How does a solar inverter handle voltage sags and swells?: A solar inverter handles voltage sags and swells by continuously monitoring the input voltage. When it detects a sag or swell, it adjusts its internal voltage control mechanism to compensate for the variation. This ensures that the output voltage from the inverter remains stable and within the desired range, protecting the connected solar panels and electrical systems from potential damage.

Q:How does a solar inverter handle voltage stability in the grid?: A solar inverter manages voltage stability in the grid by regulating the voltage levels of the electricity generated from the solar panels. It ensures that the voltage produced by the solar panels matches the voltage required by the grid, thus maintaining a stable and consistent voltage throughout the system. Additionally, solar inverters may also have features like reactive power control and voltage regulation capabilities, which further contribute to maintaining voltage stability in the grid.

Q:Can a solar inverter be used with micro-inverters?: Yes, a solar inverter can be used with micro-inverters. Micro-inverters are typically used in small-scale solar installations to optimize the performance of individual solar panels. They convert the DC power generated by each solar panel into AC power, which can then be combined and synchronized by a central solar inverter. This allows for greater flexibility, efficiency, and monitoring capabilities in the overall solar system.

Q:How does a solar inverter handle variations in grid voltage?: A solar inverter handles variations in grid voltage by continuously monitoring the voltage levels and adjusting its output accordingly. It has built-in voltage regulation and control mechanisms that help maintain a stable and consistent output voltage, even when there are fluctuations in the grid voltage. This ensures that the solar inverter can efficiently convert the DC power generated by the solar panels into AC power that is synchronized with the grid, regardless of any voltage variations in the grid.

Q:What are the key features to consider when choosing a solar inverter?: When choosing a solar inverter, there are several key features to consider. Firstly, the power rating or capacity of the inverter should match the size of your solar panel system to ensure efficient energy conversion. Additionally, the efficiency rating of the inverter is important as it determines how much energy is lost during the conversion process. It is also crucial to look for an inverter with reliable and durable components to ensure long-term performance and minimize maintenance costs. Other important features include the presence of monitoring capabilities, such as data logging and remote monitoring, which allow you to track the performance of your solar system. Finally, considering the warranty and customer support offered by the manufacturer is essential to ensure adequate support and protection for your investment.

Q:Can a solar inverter be used with a portable solar panel system?: Yes, a solar inverter can be used with a portable solar panel system. The solar inverter is responsible for converting the direct current (DC) energy produced by the solar panels into alternating current (AC) that can be used to power electronic devices. A portable solar panel system typically includes a solar panel, a charge controller, and a battery, and the solar inverter can be connected to this system to convert the DC energy stored in the battery into AC energy for powering appliances or charging electronic devices.

Q:Can a solar inverter be used with thin-film solar panels?: Yes, a solar inverter can be used with thin-film solar panels. Thin-film solar panels have a different structure and composition compared to traditional crystalline silicon panels, but they still generate DC electricity that needs to be converted into AC for use in homes or businesses. A solar inverter is responsible for this conversion process, regardless of the type of solar panels used.

Q:How does shade affect the performance of a solar inverter?: Shade has a significant impact on the performance of a solar inverter. When a solar panel is partially shaded, it reduces the amount of sunlight reaching the panel, resulting in a decrease in power generation. This leads to a decrease in the overall performance of the solar system, as the inverter's efficiency is directly linked to the amount of power it receives from the panels. Additionally, shade can also cause voltage fluctuations and imbalances, potentially damaging the inverter. Therefore, avoiding shade and ensuring unobstructed sunlight is crucial for optimal performance of a solar inverter.

1. Manufacturer Overview
Location
Year Established
Annual Output Value
Main Markets
Company Certifications

2. Manufacturer Certificates
a) Certification Name
Range
Reference
Validity Period

3. Manufacturer Capability
a)Trade Capacity
Nearest Port
Export Percentage
No.of Employees in Trade Department
Language Spoken:
b)Factory Information
Factory Size:
No. of Production Lines
Contract Manufacturing
Product Price Range