IT6600PV series solar array simulator
The IT6000PV series is a solar array simulator with I-V/P-V curve simulation capabilities. It can simulate the IV output characteristics of various solar panels under different environmental conditions (including temperature, light, shading attenuation, and aging).
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- Product Description
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- Commodity name: IT6600PV series solar array simulator
The IT6000PV series is a solar array simulator with I-V/P-V curve simulation capabilities. It can simulate the IV output characteristics of various solar panels under different environmental conditions (including temperature, light, shading attenuation, and aging).
IT6000PV Solar Array SimulatorThe IT6000PV series is a solar array simulator with I-V/P-V curve simulation capabilities. It can simulate the IV output characteristics of various solar panels under different environmental conditions (including temperature, illumination, shadow attenuation, and aging). This series features a 1500V high-voltage output and fast MPPT tracking speed. It comes standard with photovoltaic curve simulation software and can control up to 20 IT6000PV sources, enabling multi-channel MPPT tracking tests. It is widely used in testing and verification of grid-tied inverters, string inverters, integrated solar-storage systems, and energy storage converters, providing users with a highly efficient testing solution.Product ModelModel Voltage Current Power Resolution Accuracy Interface Dimensions 
Product Features
♦ Voltage range: 0-1500V output, high power density, 3U up to 18KW
♦ Bidirectional energy feedback design, with both Source and Sink functions, feedback efficiency up to 95%
♦ Supports control of 20 solar cell power supplies for multi-channel MPPT testing
♦ Simulates the output characteristics (Fill Factor) of various solar cells (monocrystalline silicon cells, polycrystalline silicon cells, thin-film cells)
♦ Simulates I-V curves under different temperatures and illuminations
♦ Simulates I-V curves of solar panels under shading (cloud cover)
♦ Tests Static & Dynamic MPPT performance
♦ Built-in EN50530, Sandia, NB/T32004, CGC/GF004, CGC/GF035 five types of regulatory test procedures, and report generation
♦ Graphical software operating interface, real-time testing and display of the photovoltaic inverter's MPPT status
♦ Automatic programming control of 100 I-V curves via Vm, Pm, FF, material, and regulatory parameters
♦ Features 100 curves * 128 points and 4096 points of programming control
♦ Supports four-point online switching function and professional LIST Mode
♦ Standard USB/LAN/CAN/digital IO interfaces, optional GPIB/analog & RS232
Product Functions and Advantages
Bidirectional Energy Seamless Transfer
The IT6000PV series is a solar array simulator developed using third-generation SiC technology, with bidirectional energy flow capabilities. This series can not only be used as a high-speed photovoltaic array simulator, simulating IV curves under different lighting conditions, but also as a battery simulator, enabling fast, continuous, and seamless switching between output and absorption current. Widely used in the testing and verification of photovoltaic inverters, energy storage converters, and integrated solar-storage systems, it provides strong support for photovoltaic and energy storage-related manufacturing companies to reduce costs and improve efficiency.
Simulates the output characteristics (FILL FACTOR) of various solar cells
Since the utilization rate of solar cells is not only related to their internal characteristics but is also affected by factors such as weather, season, temperature, illuminance, cloud cover, rain, and snow, they will have different I-V characteristics at different times. Therefore, photovoltaic inverters must have coping strategies to adjust the operating point of solar cells in real time, so that they always work near the maximum power point. This process is called Maximum Power Point Tracking (MPPT). The IT6000PV series' standard solar cell matrix simulation software can directly simulate solar cell arrays under various real-world conditions in a laboratory test environment to test the static and dynamic maximum power point tracking performance of photovoltaic inverters.
Static & Dynamic Maximum Power Point Tracking Performance Test
MPPT tracking performance is a very important specification for photovoltaic inverters. Photovoltaic inverters need a built-in MPPT mechanism to track the maximum output power of solar cells in real time. Therefore, some organizations in the industry have also defined some "standard" test forms to compare different inverters according to the same standard, for testing and improving MPPT performance. The IT6000PV's standard multi-channel solar cell matrix simulation software has built-in regulatory MPPT test procedures for EN50530, SANDIA, NB/T32004, NB/T32004, and CGC/GF004. Users can directly select the appropriate regulations, set the corresponding Vmp, Pmp, material parameters, test run time, and the percentage of maximum power operation. The screen will display the I-V curve and real-time tracking process, verifying the maximum power point tracking mechanism (MPPT) performance of the photovoltaic inverter, and recording the data of the test tracking process to generate a report.
Shading I-V Curve Simulation (Shadow Mode)
The IT6000PV series' standard multi-channel solar cell matrix simulation software allows users to simulate the output of solar cell matrices under different cloud cover conditions, testing and real-time tracking of the maximum power and efficiency of photovoltaic inverters in string connection scenarios. Various modules are available from different suppliers, and users can also create their own PV modules. The illuminance and temperature parameters of cloud cover can be customized, and the number of series and parallel connections of battery panels, the dynamic shading change movement direction, initialization time, total run time, and the time to change the moving cloud can be set.
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