Suppressing DC Current Injection in Transformerless Grid-Connected Inverter Using A Customized Current Sensor

Transformerless grid-connected inverters are widely applied due to their low cost and small volume. But the DC current injection (DCI) is one of the main problems that need to be solved. It is difficult to measure milliamperes DC current mixed in large (10A peak) AC current, which causes it difficult to suppress the DCI. To solve this problem, a novel current sensor (CS) is proposed. It uses a current transformer (CT), a power amplifier, and an additional winding to cancel AC magnetic field in a commercial current sensor (CCS). Under this circumstance, the CCS is used to detect remaining DC magnetic fields. Due to the range of CCS does not need to be large, the measurement error is significantly reduced. Meanwhile, the CT can measure AC current and provide feedback to control the inverter. In this way, the CS can replace the original CS instead of adding a new CS to the inverter, which relatively reduces cost. The volume of CT is relatively small, hence, the CT can be integrated with CCS, which achieves a relatively small volume of the sensor. A DC current suppression experiment using a 1.5-kVA transformerless grid-connected inverter verified the effectiveness of the proposed technique.