Hardware in the Loop Testing of Battery-less Hybrid Systems for Off-grid Power Supply

Abstract

In this paper the operation and control of battery-less hybrid systems for off-grid power supply is investigated. The load demand of the system is covered by a diesel-driven generator (DDG) and photovoltaic (PV) arrays. First, an overview of the features and operation of such systems is provided. Primary control of the system is investigated where the PV inverter curtails its active power in order to respect the minimum load ratio of the DDG and contribute to frequency control. Secondary control of the system is applied using the Hardware in the Loop (HIL) technique, where parts of the real-time simulation are replaced with actual physical components. Hardware controllable loads are activated by a hardware controller in order to respect the minimum load ratio of the DDG. An alternative method is applied where instead of controllable loads a hardware PV inverter curtails its active power production. The HIL simulation results show that both methods are effective to reduce the frequency deviation of the system and maintain the power output of the DDG above the predefined minimum requirement. The tests were performed with a combination of Controller HIL and Power HIL simulation leading to more realistic testing than Controller HIL simulation or pure digital simulation.