Manufacturing method for electronic component including electrode formed by removal of insulating layer by laser light

The invention claimed is: 1. A manufacturing method for a discrete electronic component, comprising: forming an insulating layer on an outer electrode body of the discrete electronic component so as to cover the outer electrode body, the outer electrode body being formed on a single chip element which constitutes the discrete electronic component; and removing the insulating layer located in a predetermined region of the outer electrode body of the discrete electronic component so as to expose the predetermined region by applying laser light to the insulating layer in the predetermined region, the insulating layer having a higher absorption coefficient for the laser light than that of a material constituting a surface of the outer electrode body, wherein the predetermined region of the outer electrode body is a region of the outer electrode body having the insulating material removed and where the outer electrode body of the discrete electronic component is configured to be bonded to a mounting subject directly or via a plated layer. 2. The manufacturing method according to claim 1 , wherein the outer electrode body includes an electrode body and a metal plated layer, the electrode body is formed on the chip element and made of an electrically conductive resin material, and the metal plated layer is formed to cover the electrode body. 3. The manufacturing method according to claim 2 , wherein the metal plated layer is a Ni-plated layer. 4. The manufacturing method according to claim 2 , further comprising: forming a Sn-plated layer to cover the region of the outer electrode body which is exposed by removing the insulating layer. 5. The manufacturing method according to claim 1 , wherein the outer electrode body is made of a material which does not contain a resin component. 6. The manufacturing method according to claim 5 , further comprising: forming a coating plated layer to cover the region of the outer electrode body which is exposed by removing the insulating layer. 7. The manufacturing method according to claim 6 , wherein the forming of the coating plated layer includes forming a Ni-plated layer as an underlying layer and forming a Sn-plated layer as an outermost layer. 8. The manufacturing method according to claim 1 , wherein the chip element is constituted by a composite material of a resin material and a metal powder; and the outer electrode body is constituted by a conductive material formed on the chip element and a metal plated layer formed to cover the conductive material. 9. The manufacturing method according to claim 8 , wherein the metal plated layer is a Cu-plated layer. 10. The manufacturing method according to claim 8 , wherein the metal plated layer is constituted by a Cu-plated layer and a Ni-plated layer formed to cover the Cu-plated layer. 11. The manufacturing method according to claim 10 , further comprising: forming a Sn-plated layer to cover the region of the outer electrode body which is exposed by removing the insulating layer. 12. The manufacturing method according to claim 9 , further comprising: forming a Ni-plated layer as an underlying layer and a Sn-plated layer as an outermost layer so as to cover the region of the outer electrode body which is exposed by removing the insulating layer. 13. The manufacturing method according to claim 1 , wherein the outer electrode body is formed on each of both end portions of the chip element, and the laser light is applied to the insulating layer in a plurality of separate portions of each of the outer electrode bodies so as to remove the insulating layer in the plurality of separate portions. 14. The manufacturing method according to claim 1 , wherein a material constituting the insulating layer is a resin material. 15. The manufacturing method according to claim 14 , wherein the laser light has a wavelength of 1.06 μm to 10.6 μm. 16. The manufacturing method according to claim 1 , wherein the outer electrode body includes an electrode body and a metal plated layer. 17. The manufacturing method according to claim 16 , wherein the metal plated layer is a Ni-plated layer; and the method further comprises: forming an Sn-plated layer as the plated layer on the Ni-plated layer in the exposed predetermined region. 18. The manufacturing method according to claim 1 , wherein the plated layer covers the exposed predetermined region of the outer electrode body, directly contacts the insulating layer, and is configured to be directly bonded to a mounting subject. 19. The manufacturing method according to claim 1 , wherein the insulating layer includes portions surrounding the outer electrode body of the chip element except for the exposed predetermined region and an outer surface of the insulating layer is exposed on at least three sides of the electronic component.