In　wireless　charging　for　consumer　electronics,　enhancing　misalignment　tolerance　ability　can　improve　user　experience.　To　achieve　this　goal,　this　paper　proposes　a　novel　dual-frequency　hybrid　wireless　charging　system,　which　combines　the　series-series　(S-S)　and　double-sided　inductor　capacitor　capacitor　(LCC-LCC)　topologies　at　two　different　frequencies.　The　S-S　and　LCC-LCC　topologies　have　opposite　trends　against　misalignment　and　combining　them　can　help　achieve　misalignment-tolerance　characteristics.　The　S　and　LCC　compensations　are　paralleled　at　the　primary　side　and　integrated　at　the　secondary　side.　Thus,　there　are　two　transmitting　coils,　which　are　stacked　for　cross-coupling　elimination,　and　only　one　receiving　coil　to　reduce　the　size　and　weight　of　consumer　electronics.　The　mathematical　models　are　built　and　the　misalignment　tolerance　mechanism　is　analyzed.　The　magnetic　coupler　and　the　design　flow　chart　are　presented.　Finally,　an　experimental　prototype　is　established　to　verify　the　feasibility　of　the　proposed　system.　Both　the　misalignment-tolerance　performance　and　the　constant-current　(CC)　output　are　tested.　The　experimental　results　are　well　aligned　with　calculated　ones,　indicating　that　the　proposed　scheme　has　good　misalignment　tolerance　performance　and　CC　output,　which　is　suitable　for　mobile　desktop　charging.　©　2025　IEEE.