Transformer and LLC resonant converter having the same

What is claimed is: 1. An LLC resonant converter comprising: a switching part configured to supply power according to a switching control signal; a transformer configured to be connected in series with a resonance capacitor connected to the switching part; and a rectifier configured to be connected to the transformer, wherein the transformer includes: first and second cores configured to include a pair of outer foots and a middle foot positioned between the outer foots, and to induce a magnetic field formation; first and second winding parts configured to include a conductor surrounding a circumference of each of the pair of outer foots of the first core, and to be connected in series with each other; and third and fourth winding parts configured to include a conductor surrounding a circumference of each of the pair of outer foots of the second core, wherein the pair of outer foots of the first core face the pair of outer foots of the second core, the middle foot of the first core faces the middle foot of the second core, the pair of outer foots of the first core face and the pair of outer foots of the second core are disposed to be spaced apart from each other and the first core and the second core are disposed to be spaced apart from each other, and wherein a first distance between one of the pair of outer foots of the first core and one of the pair of outer foots of the second core is different from a second distance between the middle foot of the first core and the middle foot of the second core, wherein the first distance is smaller than the second distance. 2. The LLC resonant converter as claimed in claim 1 , wherein the switching part is configured in a half-bridge or a full-bridge. 3. The LLC resonant converter as claimed in claim 1 , wherein sectional areas of the pair of outer foots of the first core are smaller than a sectional area of the middle foot of the first core. 4. The LLC resonant converter as claimed in claim 1 , wherein sectional areas of the pair of outer foots of the second core are smaller than a sectional area of the middle foot of the second core. 5. The LLC resonant converter as claimed in claim 1 , wherein when a current is applied to the first and second winding parts, the first and second winding parts generate a middle foot inductance by magnetic fluxes formed in the middle foots of the first and second cores, and generate first and second outer foot inductances by magnetic fluxes formed in the outer foots of the first and second cores. 6. The LLC resonant converter as claimed in claim 5 , wherein when a voltage is applied to the first and second winding parts and the second outer foot inductance and the middle foot inductance operate resonance inductors, the first outer foot inductance operates a magnetized inductor, and when the voltage is not applied to the first and second winding parts and the first outer foot inductance and the middle foot inductance operate the resonance inductors, the second outer foot inductance operates the magnetized inductor. 7. The LLC resonant converter as claimed in claim 6 , wherein a number of turns of the first and second winding parts are equal to each other, and wherein the middle foot inductance is determined by the first distance, a cross section area of the middle foot, and the number of turns of the first and second winding parts. 8. The LLC resonant converter as claimed in claim 5 , wherein a number of turns of the first winding part and a number of turns of the second winding part are equal to each other.