We　propose　an　effective　scheme　for　realizing　a　Jaynes-Cummings　model　with　the　collective　nitrogen-vacancycenter　ensemble　(NVE)　bosonic　modes　in　a　hybrid　system.　Specifically,　the　controllable　transmon　qubit　can　alternatively　interact　with　one　of　the　two　NVEs,　which　results　in　the　production　of　N-particle　entangled　states.　Arbitrary　N-particle　entangled　states,　NOON　states,　N-dimensional　entangled　states,　and　entangled　coherent　states　are　demonstrated.　Realistic　imperfections　and　decoherence　effects　are　analyzed　via　numerical　simulation.　Since　no　cavity　photons　or　excited　levels　of　the　NV　center　are　populated　during　the　whole　process,　our　scheme　is　insensitive　to　cavity　decay　and　the　spin　dephasing　effect　of　the　NVE.　The　idea　provides　a　scalable　way　to　realize　NVE-circuit　cavity　quantum　information　processing　with　current　technology.