Abstract
Renewable energy needs are steadily on the rise. Bidirectional DC/DC converters are essential in charging and discharging various storage batteries, such as PV/ESS (photovoltaic/energy storage system). A dual active bridge (DAB) converter, in particular, transfers power in both directions by phase shift using a soiled state transformer (SST). To reduce switching inrush current in batteries under high voltages, a soft start-up is demonstrated during the initial switching operation. When a supercapacitor (SC) is used as a battery, the reverse power caused by the inrush current appears under high voltage at the DC-link side. This causes serious electrical damage to the PV/ESS’ boost converter and inverter. To suppress peak overshoot voltage and stabilize soft start-up transients, we propose a three-step soft start-up controller and algorithm for bidirectional DAB converter implementation at virtual ESS and UPS. The step-by-step control strategy by OLDC (open loop duty control), OLPSC (open loop phase shift control), and OLFC (open loop frequency control) provides a stable soft start-up operation. In the initial stage of the OLDC, the duty ratio is gradually increased by the PWM (Pulse width modulation) signal. In the middle stage, a phase difference is seen as per the voltage of the SC. The OLPSC is performed to reduce the phase difference. In the final stage, the OLFC is performed to smoothly control the small phase difference. The overshoot or inrush current is drastically suppressed toward the DC-link and SC module. Consequently, we demonstrate a proposed controller and algorithm with prototype 5 kW DAB converter.
Highlights
The demand for photovoltaic/energy storage system (PV/ESS) has steadily been increasing in recent decades [1]
The proposed circuit was verified by simulation using PSIM
The discharge is started in a state where the initial voltage of the SC is high and the charging is switched when the PV power increases with regards to the reference value
Summary
PV/ESS has many requirements in terms of efficiency, size, and cost. Stable PV/ESS used in homes, buildings, and large power plants is of great importance. The system requires high-power quality and sustainable stability [2]. PV/ESS includes a power conversion system (PCS), which is commonly used to convert PV power into commercial power and battery power. It can provide stable power to batteries and power systems based on various voltage sources, loads, and battery conditions. If this device fails to start or is out of control, it can cause equipment or system damage [3,4,5]
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