Multi-layer ceramic electronic component

What is claimed is: 1. A multilayer ceramic electronic component, comprising: a ceramic body having fifth and sixth surfaces opposing each other in a first direction, third and fourth surfaces opposing each other in a second direction, first and second surfaces opposing each other in a third direction, the ceramic body including: a capacitance forming portion including a dielectric layer and first and second internal electrodes disposed with the dielectric layer interposed therebetween to be stacked in the third direction, margin portions disposed on both sides of the capacitance forming portion in the second direction, and cover portions disposed on both sides of the capacitance forming portion in the third direction; and first and second external electrodes disposed on the fifth surface and the sixth surface of the ceramic body, respectively, wherein the first and second external electrodes include first and second base electrodes disposed on the fifth surface and the sixth surface of the ceramic body, respectively, a first conductive layer disposed on edges of the first electrode and extending toward a central of the fifth surface, so as to cover the uppermost and lowermost first internal electrodes in the third direction among the first internal electrodes, and a second conductive layer disposed on edges of the second base electrode and extending toward a central of the sixth surface, so as to cover the uppermost and lowermost second internal electrodes in the third direction among the second internal electrodes, and first and second terminal electrodes covering the first and second base electrodes and the first and second conductive layers, respectively, a ratio A 1 /A 2 of an area A 1 of the first conductive layer or the second conductive layer, disposed on the first base electrode or the second base electrode and corresponding to an end surface of the ceramic body parallel to the second direction and the third direction, to an area A 2 of the end surface of the ceramic body parallel to the second direction and the third direction, is within a range of 0.1 to 0.3. 2. The multilayer ceramic electronic component of claim 1 , wherein the first conductive layer is disposed on the first base electrode, disposed on the fifth surface of the ceramic body, and the first conductive layer extends onto an extending portion of the first base electrode extending on the first surface to the fourth surface, in contact with the fifth surface, and the second conductive layer is disposed on the second base electrode, disposed on the sixth surface of the ceramic body, and the second conductive layer extends onto an extending portion of the second base electrode extending on the first surface to the fourth surface, in contact with the sixth surface. 3. The multilayer ceramic electronic component of claim 2 , wherein end portions of the extending portions of the first base electrode and the second base electrode, disposed on the first to fourth surfaces and facing each other in the first direction, are in contact with the first and second terminal electrodes, respectively. 4. The multilayer ceramic electronic component of claim 1 , wherein, when the ceramic body is viewed in the first direction, ends of the first and second conductive layers are disposed on the capacitance forming portion. 5. The multilayer ceramic electronic component of claim 1 , wherein a region, in which the first and second base electrodes are in contact with the first and second terminal electrodes, respectively, in the first direction of the ceramic body, is included in an end surface of the capacitance forming portion parallel to the second direction and the third direction. 6. The multilayer ceramic electronic component of claim 1 , wherein the first and second conductive layers have a quadrangular-shaped opening on the first and second base electrodes in the first direction, respectively. 7. The multilayer ceramic electronic component of claim 1 , wherein the first and second conductive layers have a circular-shaped opening on the first and second base electrodes in the first direction, respectively. 8. The multilayer ceramic electronic component of claim 1 , wherein the first conductive layer, the second conductive layer, the first base electrode, and the second base electrode include the same conductive metal. 9. The multilayer ceramic electronic component of claim 1 , wherein an average particle diameter of conductive metals included in the first and second base electrodes is smaller than an average particle diameter of conductive metals included in the first and second conductive layers. 10. The multilayer ceramic electronic component of claim 1 , wherein copper is the conductive metal included in the first conductive layer, the second conductive layer, the first base electrode, and the second base electrode. 11. The multilayer ceramic electronic component of claim 1 , wherein the first base electrode, the second base electrode, the first conductive layer, and the second conductive layer include a conductive metal and glass. 12. A multilayer ceramic electronic component, comprising: a ceramic body having fifth and sixth surfaces opposing each other in a first direction, third and fourth surfaces opposing each other in a second direction, first and second surfaces opposing each other in a third direction, the ceramic body including: a capacitance forming portion including a dielectric layer and first and second internal electrodes disposed with the dielectric layer interposed therebetween to be stacked in the third direction, margin portions disposed on both sides of the capacitance forming portion in the second direction, and cover portions disposed on both sides of the capacitance forming portion in the third direction; and first and second external electrodes disposed on the fifth surface and the sixth surface of the ceramic body, respectively, wherein the first and second external electrodes include first and second base electrodes disposed on the fifth surface and the sixth surface of the ceramic body, respectively, a first conductive layer disposed on edges of the first electrode and extending toward a central of the fifth surface, so as to cover the uppermost and lowermost first internal electrodes in the third direction among the first internal electrodes, and a second conductive layer disposed on edges of the second base electrodes and extending toward a central of the sixth surface, so as to cover the uppermost and lowermost second internal electrodes in the third direction among the second internal electrodes, and first and second terminal electrodes covering the first and second base electrodes and the first and second conductive layers, respectively, the first conductive layer has an opening on a portion of the first base electrode disposed on the fifth surface, and covers a portion of the capacitance forming portion in the first direction and edges of the ceramic body where the fifth surface meets the first to fourth surface, the second conductive layer has an opening on a portion of the second base electrode disposed on the sixth surface, and covers another portion of the capacitance forming portion in the first direction and edges of the ceramic body where the sixth surface meets the first to fourth surface, end portions of extending portions of the first base electrode and the second base electrode, disposed on the first to fourth surfaces and facing each other in the first direction, are in contact with the first and second terminal electrodes, respectively. 13. The multilayer ceramic electronic component of claim 12 , wherein each of the first conductive layer and th