©　The　Author(s).　Voltage　control　of　magnetism　in　multiferroics,　where　the　ferromagnetism　and　ferroelectricity　are　simultaneously　exhibiting,　is　of　great　importance　to　achieve　compact,　fast　and　energy　efficient　voltage　controllable　magnetic/microwave　devices.　Particularly,　these　devices　are　widely　used　in　radar,　aircraft,　cell　phones　and　satellites,　where　volume,　response　time　and　energy　consumption　is　critical.　Researchers　realized　electric　field　tuning　of　magnetic　properties　like　magnetization,　magnetic　anisotropy　and　permeability　in　varied　multiferroic　heterostructures　such　as　bulk,　thin　films　and　nanostructure　by　different　magnetoelectric　(ME)　coupling　mechanism:　strain/stress,　interfacial　charge,　spin-electromagnetic　(EM)　coupling　and　exchange　coupling,　etc.　In　this　review,　we　focus　on　voltage　control　of　ferromagnetic　resonance　(FMR)　in　multiferroics.　ME　coupling-induced　FMR　change　is　critical　in　microwave　devices,　where　the　electric　field　tuning　of　magnetic　effective　anisotropic　field　determines　the　tunability　of　the　performance　of　microwave　devices.　Experimentally,　FMR　measurement　technique　is　also　an　important　method　to　determine　the　small　effective　magnetic　field　change　in　small　amount　of　magnetic　material　precisely　due　to　its　high　sensitivity　and　to　reveal　the　deep　science　of　multiferroics,　especially,　voltage　control　of　magnetism　in　novel　mechanisms　like　interfacial　charge,　spin-EM　coupling　and　exchange　coupling.