Code　index　modulated　multi-carrier　M-ary　differential　chaos　shift　keying　(CIM-MC-M-DCSK)　system　not　only　inherits　low-power　and　low-complexity　advantages　of　the　conventional　DCSK　system,　but　also　significantly　increases　the　transmission　rate.　This　feature　is　of　particular　importance　to　Internet　of　Things　(IoT)　with　trillions　of　low-cost　devices.　In　particular,　for　e-health　IoT　applications,　an　efficient　transmission　scheme　is　designed　to　solve　the　challenge　of　the　limited　battery　capacity　for　numerous　user　equipments　served　by　one　base　station.　In　this　paper,　a　new　multiple-input-single-output　simultaneous　wireless　information　and　power　transfer　(MISO-SWIPT)　scheme　for　CIM-MC-M-DCSK　system　is　proposed　by　utilizing　orthogonal　characteristic　of　chaotic　signals　with　different　initial　values.　The　proposed　system　adopts　power　splitting　mode,　which　is　very　promising　for　simultaneously　providing　energy　and　transmitting　information　of　the　user　equipments　without　any　external　power　supply.　In　particular,　the　new　system　can　achieve　desirable　anti-multipath-fading　capability　without　using　channel　estimator.　Moreover,　the　analytical　bit-error-rate　expression　of　the　proposed　system　is　derived　over　multipath　Rayleigh　fading　channels.　Furthermore,　the　spectral　efficiency　and　energy　efficiency　of　the　proposed　system　are　analyzed.　Simulation　results　not　only　validate　the　analytical　expressions,　but　also　demonstrate　the　superiority　of　the　proposed　system.