In this manuscript, a novel and economical scheme for quantum information splitting of an arbitrary N-qubit state (N≥ 1) is investigated.Instead of multi-qubit entangled states, the maximally entangled states, which are made up of a three-qubit GHZ-like entangled state and (N-1) sets of Bell states, are used as quantum information carrier.It is shown that the proposed quantum information splitting scheme can be faithfully realized by performing appropriate Bell state measurements (BSMs), single qubit measurements (SMs)and local unitary operations (LUOs), rather than multi-qubit entanglement or multi-particle joint measurements,which make it more convenient in the practical application than some previous schemes.Furthermore, its intrinsic efficiency for qubits approaches 100%, and the total efficiency really approaches the maximal value, which is higher than those of some previous quantum information splitting schemes.Finally, for the security of this quantum information splitting scheme, it depends on the process of the secure quantum channel by means of the decoy photons technique, we analyse the security from the views of participant attack and outside attack in details.This method of security analysis can be also utilized for security analysis of other quantum communication schemes.Thus our presented scheme is economical, feasible and secure.