Multilayer capacitor having external electrode including conductive resin layer

What is claimed is: 1. A multilayer capacitor comprising: a body including dielectric layers and internal electrodes; and an external electrode on one surface of the body, including; a first electrode layer on the one surface of the body and contacting the internal electrodes; a conductive resin layer on the first electrode layer and including a plurality of metal particles, a conductive connecting part surrounding the plurality of metal particles, a base resin, and an intermetallic compound contacting the first electrode layer and the conductive connecting part; and a second electrode layer on the conductive resin layer and contacting the conductive connecting part, wherein the body includes first and second surfaces opposing each other in a thickness direction, third and fourth surfaces connected to the first and second surfaces and opposing each other in a length direction, and fifth and sixth surfaces connected to the first and second surfaces, connected to the third and fourth surfaces, and opposing each other in a width direction, the internal electrodes are alternately exposed at the third and fourth surfaces of the body, the first electrode layers are formed on the third and fourth surfaces of the body and electrically connected to exposed portions of the internal electrodes, respectively; the external electrodes respectively include connection parts formed on the third and fourth surfaces of the body and each include band parts extended from the respective connection parts to portions of the first and second surfaces of the body, and the relationships t 2 /t 1 ≥0.05 and t 3 /t 1 ≤0.5 are satisfied, in which t 1 is a thickness of a central portion of only the conductive resin layer in the connection part, t 2 is a thickness of only the conductive resin layer in a corner portion, and t 3 is a thickness of a central portion of only the conductive resin layer in the band part. 2. The multilayer capacitor of claim 1 , wherein the first electrode layer includes copper. 3. The multilayer capacitor of claim 1 , wherein the conductive connecting part has a melting point lower than a hardening temperature of the base resin. 4. The multilayer capacitor of claim 3 , wherein the melting point of the conductive connecting part is 300° C. or less. 5. The multilayer capacitor of claim 1 , wherein the metal particles of the conductive resin layer are formed of at least one material selected from a group consisting of copper, nickel, silver, copper coated with silver, and copper coated with tin, and the intermetallic compound is formed of copper-tin. 6. The multilayer capacitor of claim 1 , wherein the conductive connecting part of the conductive resin layer includes Ag 3 Sn. 7. The multilayer capacitor of claim 1 , wherein the metal particles have a size of 0.2 μm to 20 μm. 8. The multilayer capacitor of claim 1 , wherein the intermetallic compound has a form of a plurality of islands. 9. The multilayer capacitor of claim 8 , wherein the plurality of islands have a layer form. 10. The multilayer capacitor of claim 1 , wherein the metal particles of the conductive resin layer are metal particles having spherical shapes, flake-shaped metal particles, or mixtures of metal particles having spherical shapes and flake-shaped metal particles. 11. The multilayer capacitor of claim 1 , wherein a thickness of the intermetallic compound is 2.0 μm to 5.0 μm. 12. A multilayer capacitor comprising: a body including dielectric layers and internal electrodes; and an external electrode disposed on one surface of the body, including: a first electrode layer disposed on one surface of the body and contacting the internal electrodes; a conductive resin layer on the first electrode layer and including a conductive connecting part including a low-melting-point metal, an intermetallic compound contacting the first electrode layer and the conductive connecting part, and a base resin covering the conductive connecting part and the intermetallic compound; and a second electrode layer on the conductive resin layer and contacting the conductive connecting part, wherein the body includes first and second surfaces opposing each other in a thickness direction, third and fourth surfaces connected to the first and second surfaces and opposing each other in a length direction, and fifth and sixth surfaces connected to the first and second surfaces, connected to the third and fourth surfaces, and opposing each other in a width direction, the internal electrodes are alternately exposed at the third and fourth surfaces of the body, the first electrode layers are formed on the third and fourth surfaces of the body and electrically connected to exposed portions of the internal electrodes, respectively; the external electrodes respectively include connection parts formed on the third and fourth surfaces of the body and each include band parts extended from the respective connection parts to portions of the first and second surfaces of the body, and the relationships t 2 /t 1 ≥0.05 and t 3 /t 1 ≤0.5 are satisfied, in which t 1 is a thickness of a central portion of only the conductive resin layer in the connection part, t 2 is a thickness of only the conductive resin layer in a corner portion, and t 3 is a thickness of a central portion of only the conductive resin layer in the band part.