☆ 4.5 Review

Power Hardware-in-the-Loop (PHIL): A Review to Advance Smart Inverter-Based Grid-Edge Solutions

ENERGIES (2023)

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Article Energy & Fuels

Power Hardware-in-the-Loop Test of a Low-Cost Synthetic Inertia Controller for Battery Energy Storage System

Sergio Bruno et al.

Summary: This paper investigates the possibility of improving the control law implemented by a low-cost controller on remotely controllable legacy DERs to provide synthetic inertia (SI) contributions, and tests the capability of the proposed controller to autonomously measure frequency and RoCoF and provide SI actions by controlling an actual battery energy storage system through power hardware-in-the-loop simulations.

ENERGIES (2022)

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Article Energy & Fuels

Power Hardware-In-the-Loop Approach for Autonomous Power Generation System Analysis

Szymon Racewicz et al.

Summary: The article presents a Power Hardware-In-the-Loop (PHIL) dynamic model of a synchronous generator for autonomous power generation system analysis. The model, which is simulated using a power inverter, allows for the design and testing of the system under conditions close to real operating conditions. Experimental research validates the consistency of the model with the actual generator.

ENERGIES (2022)

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Review Energy & Fuels

Grid Forming Inverters: A Review of the State of the Art of Key Elements for Microgrid Operation

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Summary: This paper reviews the role of grid-forming inverters in the power system, including their control strategies, challenges, and applications. It also provides suggestions for future studies and research directions in this field.

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GaN Four-leg Inverter Implementing Novel Common Mode Elimination using a Hardware-in-the-loop System-Level Controller

Caleb Li et al.

Summary: This paper introduces a novel wide bandgap four-leg inverter built using GaN devices and controlled through pulse density modulation, with a common mode elimination method that meets MIL-STD-1399 requirements. Additionally, it meets MIL-STD-461G conducted emission limits for current and voltage without the use of a common mode choke.

2022 IEEE ENERGY CONVERSION CONGRESS AND EXPOSITION (ECCE) (2022)

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Proceedings Paper Energy & Fuels

Improved Accuracy of the Power Hardware-in-the-Loop Modeling using Multirate Discrete Domain

Fargah Ashrafidehkordi et al.

Summary: This paper presents an accurate modeling approach for Power Hardware-in-the-Loop (PHIL) testing, aiming to improve the accuracy in a wide frequency spectrum range. The proposed technique utilizes multirate discrete modeling and considers interface delays and dynamics. Experimental results show that the proposed method performs better in terms of frequency response and step response.

2022 IEEE 13TH INTERNATIONAL SYMPOSIUM ON POWER ELECTRONICS FOR DISTRIBUTED GENERATION SYSTEMS (PEDG) (2022)

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Establishing a Power Hardware-in-the-Loop Environment with a Smart Energy Complex

Frederik Gielnik et al.

Summary: Improving energy efficiency in existing buildings is crucial for achieving future CO2 neutrality. This article presents the conversion of an old building into a smart office building and the integration of future technologies such as power-to-hydrogen and DC microgrids, along with existing approved facilities like a switching matrix system, to create a Smart Energy Complex.

2022 57TH INTERNATIONAL UNIVERSITIES POWER ENGINEERING CONFERENCE (UPEC 2022): BIG DATA AND SMART GRIDS (2022)

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Grid Resilience Assessment during Extreme Fast Charging of Electric Vehicles via Developed Power Hardware-in-the-Loop

Mohsen Hosseinzadehtaher et al.

Summary: This paper presents a resilience assessment of a microgrid during extreme fast charging events of electric vehicles (EVs) via a power hardware-in-the-loop (P-HIL) testbed. The study replicates the system in a real-time digital simulator to model its electrical features. Several case studies are conducted to evaluate the impact of chargers on the grid resilience, considering key performance indicators such as feeder voltages, branch power flow, frequency, and rate of change of frequency (ROCOF).

2022 IEEE/AIAA TRANSPORTATION ELECTRIFICATION CONFERENCE AND ELECTRIC AIRCRAFT TECHNOLOGIES SYMPOSIUM (ITEC+EATS 2022) (2022)

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Power Hardware-in-the-Loop: Response of Power Components in Real-Time Grid Simulation Environment

Moiz Muhammad et al.

Summary: This paper introduces a methodology to test autonomous control strategies for distributed energy resources, utilizing the Power Hardware-in-the-Loop (PHIL) concept to validate robust control algorithms for decentralized grids in a controlled environment. By establishing a test-bench for real-time PHIL simulation, the dynamic behavior of real power components connected to a simulated grid is studied, and a compensation strategy is devised to improve hardware performance. Through hybrid simulation in a single software environment, inaccuracies linked to the power components are examined and a suitable compensation strategy is validated through a simulation scenario.

ENERGIES (2021)

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Article Automation & Control Systems

Improving the Performance of Integrated Power-Hardware-in-the-Loop and Quasi-Static Time-Series Simulations

Kumaraguru Prabakar et al.

Summary: This article introduces a novel multirate cosimulation architecture that overcomes challenges integrating faster real-time, microseconds-scale, power-hardware-in-the-loop (PHIL) with larger scale but slower, real-time, seconds-scale, quasi-static time-series (QSTS) simulation. By using an intermediate reduced-equivalent electromagnetic transient (EMT) model and exchanging multidimensional parameter vectors between QSTS and EMT models, the architecture captures interactions between rich, high-node-count QSTS model with hardware effectively, providing full spatial resolution from QSTS while detailed high-speed transients from EMT. The architecture has been demonstrated successfully in testing a simulated distribution system with an interconnected 500-kVA advanced photovoltaic (PV) inverter in PHIL, capturing PV control interactions with a larger network under varying conditions.

IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS (2021)

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Article Energy & Fuels

State Estimation-Based Distributed Energy Resource Optimization for Distribution Voltage Regulation in Telemetry-Sparse Environments Using a Real-Time Digital Twin

Rachid Darbali-Zamora et al.

Summary: This paper demonstrates the use of real-time digital twin technology to optimize DER operations, showcasing the ProDROMOS technology in both RT simulated environment and field demonstration. The primary contribution is showing how a real-time digital twin can effectively provide state estimation measurements to optimize DER operations for distribution voltage regulation.

ENERGIES (2021)

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Article Automation & Control Systems

Characterization of Time Delay in Power Hardware in the Loop Setups

Efren Guillo-Sansano et al.

Summary: This study conducts a detailed analysis of time delay in PHIL platforms, revealing variability in time delay due to interaction between discrete components. A time delay characterization methodology including time delay variability is proposed, enabling higher precision stability analysis and accurate compensation. The study also examines the implications of time delay variability on stability and accuracy in PHIL simulations, with experimental validation demonstrating the effectiveness of the proposed approach.

IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS (2021)

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Article Energy & Fuels

Development of an integrated platform for hardware-in-the-loop evaluation of to site

Jing Wang et al.

Summary: This paper presents an integrated hardware-in-the-loop (HIL) platform for testing the operation and control of a real-world microgrid system prior to site commissioning. Through comprehensive tests on the Borrego Springs test bed, the platform is validated, test objectives are met, and valuable insights are gained prior to site commissioning.

APPLIED ENERGY (2021)

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Article Energy & Fuels

The Impact of Time Delays for Power Hardware-in-the-Loop Investigations

Jana Ihrens et al.

Summary: Power hardware-in-the-loop (PHiL) simulations offer a powerful environment for testing new components and controllers, with a need to consider time delays in different investigations. The communication interfaces between simulator and amplifier system must be carefully considered to determine the level of dynamic interactions between the simulated system and the hardware under test.

ENERGIES (2021)

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Latency and Simulation Stability in a Remote Power Hardware-in-the-Loop Cosimulation Testbed

Ettore Bompard et al.

Summary: Modern applied research requires multidisciplinary approaches and effective collaboration between universities and industries can enrich it by sharing hardware and software facilities, as well as knowledge and expertise. In the power system field, this collaboration can lead to remote connection and sharing of real-time simulators, with specific challenges related to communication latency and simulation stability.

IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS (2021)

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Accurate and Stable Hardware-in-the-Loop (HIL) Real-Time Simulation of Integrated Power Electronics and Power Systems

Georg Lauss et al.

Summary: Power hardware-in-the-loop (PHIL) technology allows for testing physical equipment in real-time simulation environment, with the power interface (PI) playing an important role. Various hardware-in-the-loop (HIL) test setups with different PIs are proposed and analyzed to verify stability and accuracy of the PHIL simulation systems through detailed interface modeling and system analysis.

IEEE TRANSACTIONS ON POWER ELECTRONICS (2021)

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Power Hardware-in-the-Loop Demonstrator for Electric Vehicle Charging in Distribution Grids

Lode De Herdt et al.

Summary: A simple and low-cost Power Hardware-in-the-Loop (PHIL) demonstrator is developed for studying the impact of EV charging on low voltage distribution grids. An energy-saving power circulating method with potential bi-directional function is proposed, and the structure, performance, and limitations of the test-bed components, communication protocols, and signal processing are discussed.

2021 IEEE TRANSPORTATION ELECTRIFICATION CONFERENCE & EXPO (ITEC) (2021)

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Proceedings Paper Energy & Fuels

Networked HIL Simulation System for Modeling Large-scale Power Systems

Fuhong Xie et al.

Summary: This paper introduces a networked hardware-in-the-loop (HIL) simulation system for modeling large-scale power systems, which integrates individual HIL test systems to create large-scale power grid digital twins. This system not only reduces the need for field tests but also shortens the model development cycle.

2020 52ND NORTH AMERICAN POWER SYMPOSIUM (NAPS) (2021)

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Real-time Power System Simulation with Hardware Devices through DNP3 in Cyber-Physical Testbed

Hao Huang et al.

Summary: This paper presents the integration of new functionality into a cyber-physical power system testbed that supports real-time power system data transfer using DNP3, demonstrated with an industrial real-time automation controller (RTAC). Additionally, it showcases the achievement of power system monitoring and control of a large-scale synthetic electric grid via DNP3 communication.

2021 IEEE TEXAS POWER AND ENERGY CONFERENCE (TPEC) (2021)

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Review Computer Science, Information Systems

A Review of PHIL Testing for Smart Grids-Selection Guide, Classification and Online Database Analysis

Eduardo Garcia-Martinez et al.

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Distributed Power Hardware-in-the-Loop Testing Using a Grid-Forming Converter as Power Interface

Steffen Vogel et al.

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Power System Hardware in the Loop (PSHIL): A Holistic Testing Approach for Smart Grid Technologies

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2020 47TH IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE (PVSC) (2020)

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Method to Interface Grid-Forming Inverters into Power Hardware in the Loop Setups

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2020 THIRTY-FIFTH ANNUAL IEEE APPLIED POWER ELECTRONICS CONFERENCE AND EXPOSITION (APEC 2020) (2020)

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