To　facilitate　needed　active　and　reactive　power　flow　between　utility　and　microgrid,　this　research　presents　an　enhanced　power　flow　control　of　back-to-back　interfacing　converters　between　microgrid　and　utility.　The　system　can　operate　to　distribute　real　and　reactive　power　equally　between　the　utility　and　the　microgrid　based　on　the　microgrid　load　power　requirement.　The　open-loop　power　control　proposed　by　Ritwik　Majumder　et　al.　relies　on　knowing　the　point　of　common　coupling　(PCC)　voltage　amplitude　(VP),　angle　(dP),　and　reactance　(XG).　These　parameters　may　not　be　available　due　to　the　considerable　distance　between　the　PCC　bus　and　the　back-to-back　interfacing　converters.　These　flaws　are　addressed　in　the　method　of　control　used　in　this　paper.　Besides,　a　harmonic　compensation　strategy　is　incorporated　in　the　power　control　of　a　back-to-back　interfacing　converters　to　improve　the　microgrid　PCC　voltage　quality,　which　has　been　deteriorated　by　nonlinear　loads　connected　to　the　PCC　bus.　In　microgrid　DGs　inverters,　traditional　droop　control　is　used　to　provide　power　sharing　for　the　remaining　load　demand.　To　lessen　the　voltage　dip　in　the　grid,　a　low-voltage　grid　support,　also　known　as　dynamic　grid　voltage　support,　is　incorporated　in　the　grid　side　converter　of　back-to-back　converters.　The　grid　voltage　dip　is　reduced　by　the　reactive　power　injection.　The　control　techniques　are　verified　using　simulation　in　PSCAD　software.　©　2021　IEEE.