A Voltage Balancing Method for Series-Connected Power Devices in an LLC Resonant Converter

This letter proposes a voltage balancing method for series-connected power devices in an LLC resonant converter. Series connection of power devices can allow an LLC resonant converter to operate in high-voltage applications. One key problem of series-connected power devices is the voltage imbalance due to device parameter deviations and gate drive delays. To achieve voltage balancing, an auxiliary module (AM) is connected in parallel with each power device. Each AM consists of a capacitor and an auxiliary switch with an antiparallel diode. The AM operates as a clamping circuit and voltage among the series-connected power devices can be shared evenly if the AM capacitor voltages are well-balanced. The AM capacitors are charged during the asynchronous period of the series-connected power devices. The excess energy of AM capacitors can be released by the freewheeling current during dead time in an LLC converter. By assigning a pulsing gate signal to AMs with higher voltages in every switching cycle, the AM capacitor voltages can be balanced. The proposed method will not induce additional power loss and does not affect the normal operation of power devices. Experimental results are provided to verify the effectiveness and feasibility of the proposed method.