Multilayer ceramic electronic component and board having the same

What is claimed is: 1. A multilayer ceramic electronic component comprising: a ceramic body including a capacitance forming part in which a plurality of first and second dielectric layers are alternately disposed; and first and second external electrodes disposed on first and second end surfaces of the ceramic body in a length direction of the ceramic body, respectively, wherein the capacitance forming part includes: first and second internal electrodes disposed to be spaced apart from each other on the plurality of first dielectric layers and exposed to the first and second end surfaces of the ceramic body to thereby be connected to the first and second external electrodes, respectively; first floating electrodes disposed to be spaced apart from the first and second internal electrodes on the plurality of first dielectric layers; and second floating electrodes disposed on the plurality of second dielectric layers and partially overlapping the first and second internal electrodes, wherein the ceramic body further includes a protective part disposed between at least one of upper and lower surfaces of the ceramic body and the capacitance forming part and having a plurality of third dielectric layers on which first and second dummy electrodes exposed to the first and second end surfaces of the ceramic body, respectively, are disposed and a plurality of third dummy electrodes are disposed between the first and second dummy electrodes to be spaced apart from each other. 2. The multilayer ceramic electronic component of claim 1 , wherein the plurality of third dummy electrodes are positioned in a central portion of the ceramic body in the length direction and disposed to be spaced apart from the first and second dummy electrodes. 3. The multilayer ceramic electronic component of claim 1 , wherein the plurality of third dummy electrodes are positioned to correspond to the second floating electrode. 4. The multilayer ceramic electronic component of claim 1 , wherein the capacitance forming part further includes fourth and fifth dummy electrodes disposed on the plurality of second dielectric layers and exposed to the first and second end surfaces of the ceramic body, respectively, and the second floating electrode is positioned in a central portion of the ceramic body in the length direction and disposed to be spaced apart from the fourth and fifth dummy electrodes. 5. The multilayer ceramic electronic component of claim 1 , wherein an interval between the plurality of third dummy electrodes in a thickness direction of the ceramic body is narrower than an interval between the first and second floating electrodes in the thickness direction of the ceramic body. 6. The multilayer ceramic electronic component of claim 1 , wherein 0.01×T2<T1<0.5×T2, where T1 is an interval between the plurality of third dummy electrodes in a thickness direction of the ceramic body and T2 is an interval between the first and second floating electrodes in the thickness direction of the ceramic body. 7. The multilayer ceramic electronic component of claim 1 , wherein the number of third dummy electrodes disposed on a single third dielectric layer among the plurality of third dielectric layers is between 2 and 10. 8. The multilayer ceramic electronic component of claim 1 , wherein 0.1×Tc≦Td<0.99×Tc, where Tc is a thickness of the protective part disposed between at least one of the upper and lower surfaces of the ceramic body and the capacitance forming part and Td is a thickness of a region of the protective part in which the first and second dummy electrodes are disposed. 9. The multilayer ceramic electronic component of claim 1 , wherein the external electrodes extend from the end surfaces of the ceramic body to at least one of the upper and lower surfaces of the ceramic body. 10. The multilayer ceramic electronic component of claim 9 , wherein 1.1×Lc′≦Lp<0.95×Lc, where Lp is a distance between ends of outermost third dummy electrodes in the length direction of the ceramic body, Lc′ is an interval between the external electrodes extended to be disposed on at least one of the upper and lower surfaces of the ceramic body, and Lc is a length of the ceramic body in the length direction. 11. The multilayer ceramic electronic component of claim 9 , wherein Lm≦0.95×Lb, where Lm is an interval from one end surface of the ceramic body to an end of an outermost third dummy electrode adjacent thereto among the plurality of third dummy electrodes and Lb is a length from one end surface of the ceramic body to an edge of the external electrode extended to be disposed on at least one of the upper and lower surfaces of the ceramic body. 12. The multilayer ceramic electronic component of claim 9 , wherein 1.1×Lb≦Lp′, where Lp′ is a length of at least one of the first and second internal electrodes in the length direction and Lb is a length from one end surface of the ceramic body to an edge of the external electrode extended to be disposed on at least one of the upper and lower surfaces of the ceramic body. 13. The multilayer ceramic electronic component of claim 1 , wherein 0.01×Lc<Lm−Ld, where Lm−Ld is a difference between an interval Lm from one end surface of the ceramic body to an end of an outermost third dummy electrode adjacent thereto among the plurality of third dummy electrodes and a length Ld of at least one of the first and second dummy electrodes in the length direction of the ceramic body, and Lc is a length of the ceramic body in the length direction. 14. A board having a multilayer ceramic electronic component comprising: a printed circuit board on which first and second electrode pads are provided; and the multilayer ceramic electronic component of claim 1 , mounted on the printed circuit board.