PV inverter experimental data
The increase in power electronic based generation sources require accurate modeling of inverters. Accurate modeling requires experimental data over wider operation range. We used 20 kW off-the-shelf grid following PV inverter in the experiments. We used controllable AC supply and controllable DC supply to emulate AC and DC side characteristics. The experiments were performed at NREL's Energy Systems Integration Facility. Due to the limitations of the DC supply used, inverter is tested under 75%, 50%, 25% load conditions (This dataset does not contain 100% load condition). In the first dataset, for each operating condition, controllable AC source voltage is varied from 0.88 to 1.09 per unit (p.u) with a step value of 0.025 p.u while keeping the frequency at 60 Hz. In the second dataset, under similar load conditions (75%, 50%, 25% ), the frequency of the controllable AC source voltage was varied from 59.4 Hz to 60.45 Hz with a step value of 0.2 Hz. Voltage and frequency range is chosen based on inverter protection. Voltages and currents on DC and AC side are included in the dataset.
Citation Formats
Power Systems Engineering. (2023). PV inverter experimental data [data set]. Retrieved from ba87249d-a761-4ef4-851f-77e0759f5d3a.
Prabakar, , Ganguly, , Velaga, , and Vaidhynathan, . PV inverter experimental data. United States: N.p., 06 Jan, 2023. Web. ba87249d-a761-4ef4-851f-77e0759f5d3a.
Prabakar, , Ganguly, , Velaga, , & Vaidhynathan, . PV inverter experimental data. United States. ba87249d-a761-4ef4-851f-77e0759f5d3a
Prabakar, , Ganguly, , Velaga, , and Vaidhynathan, . 2023. "PV inverter experimental data". United States. ba87249d-a761-4ef4-851f-77e0759f5d3a.
@div{oedi_6403, title = {PV inverter experimental data}, author = {Prabakar, , Ganguly, , Velaga, , and Vaidhynathan, .}, abstractNote = {The increase in power electronic based generation sources require accurate modeling of inverters. Accurate modeling requires experimental data over wider operation range. We used 20 kW off-the-shelf grid following PV inverter in the experiments. We used controllable AC supply and controllable DC supply to emulate AC and DC side characteristics. The experiments were performed at NREL's Energy Systems Integration Facility. Due to the limitations of the DC supply used, inverter is tested under 75%, 50%, 25% load conditions (This dataset does not contain 100% load condition). In the first dataset, for each operating condition, controllable AC source voltage is varied from 0.88 to 1.09 per unit (p.u) with a step value of 0.025 p.u while keeping the frequency at 60 Hz. In the second dataset, under similar load conditions (75%, 50%, 25% ), the frequency of the controllable AC source voltage was varied from 59.4 Hz to 60.45 Hz with a step value of 0.2 Hz. Voltage and frequency range is chosen based on inverter protection. Voltages and currents on DC and AC side are included in the dataset.}, doi = {}, url = {ba87249d-a761-4ef4-851f-77e0759f5d3a}, journal = {}, number = , volume = , place = {United States}, year = {2023}, month = {01}}
Details
Data from Jan 6, 2023
Last updated Dec 18, 2024
Submitted Jan 6, 2023
Organization
Power Systems Engineering
Contact
Kumaraguru Prabakar
Authors
Original Source
ba87249d-a761-4ef4-851f-77e0759f5d3aResearch Areas
Keywords
data analysis, data visualizations, database for artificial intelligence training, database for inverter characterization, database for model validation, artificial intelligence, machine learning, reinforcement learning, tensorflow, pytorch, scikit-learn, PV inverterDOE Project Details
Project Name Scalable Multi-Timescale Analysis Platform Based on System Transient and Dynamic Models
Project Number CPS agreement number - 38455
