IGBTs　are　often　connected　in　series　and　parallel　to　meet　the　requirements　of　high　power　applications.　Unavoidable　differences　in　circuit　parasitic　parameters　and　device　parameters　lead　to　voltage　and　current　imbalance　even　to　the　destruction　of　devices.　In　this　paper,　an　integrated　voltage　and　current　balancing　strategy　of　IGBT　is　proposed,　it　can　suppress　turn-off　overvoltage　meanwhile　balance　the　turn-on　current　of　IGBT.　IGBT　voltage　is　clamped　by　RCD　snubber　circuit,　and　current　of　IGBT　is　controlled　to　follow　a　predefined　I-c.　Both　current　and　voltage　time　delay　are　compensated　by　FPGA.　The　strategy　integrates　the　digital　global　control　into　the　analog　control　circuit,　thus　possess　the　flexibility　of　the　digital　circuit　and　the　high　reliability　and　the　fast　adjustment　speed　of　the　analog　circuit.　Research　aims　at　seeking　IGBT　series　and　parallel　modules　possessing　high　reliability.　Details　about　the　strategy,　and　its　superiority　are　discussed.　Experiment　results　with　four　series-parallel　devices　under　double　pulse　test　validate　the　effectiveness　of　the　proposed　method.