Hybrid　W　entangled　states　are　essential　in　quantum　information　processing,　quantum　communication,　and　quantum　technology.　In　this　Letter,　we　propose　a　simple　method　to　prepare　hybrid　W　entangled　states　between　n　superconducting　(SC)　qubits　and　n　microwave　resonators　(MRs)　in　circuit　QED.　Only　two　basic　operations　are　needed　for　the　preparation　of　hybrid　W　states.　The　operational　time　decreases　as　the　number　of　qubits　increases.　Since　no　ancillary　cavity　is　required,　the　hardware　resources　for　the　state　preparation　are　minimized.　Because　the　state　preparation　does　not　involve　any　measurements,　the　hybrid　W　entangled　states　are　generated　in　a　deterministic　way.　Moreover,　during　the　entire　preparation,　the　high-energy　levels　of　the　SC　qutrits　remain　unexcited,　which　greatly　reduces　decoherence　of　the　SC　qutrits.　As　an　example,　our　numerical　simulation　demonstrates　that　high-fidelity　preparation　of　the　hybrid　W　entangled　state　of　three　SC　qubits　and　three　MRs　is　feasible　within　the　current　circuit　QED　technique.　This　method　is　universal　and　can　be　applied　to　generate　hybrid　W　states　of　n　matter　qubits　(e.g.,　atomic　qubits,　NV　center　qubits,　quantum　dot　qubits,　and　magnon　qubits)　and　n　photonic　qubits　in　various　physical　systems.