CIRCUIT SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME

Abstract

A method for manufacturing a circuit substrate according to the present disclosure is a method for manufacturing a circuit substrate including an insulation substrate formed with a plurality of via holes passing through a first main surface and a second main surface and a metal with which the via holes are filled, the first and second main surfaces being opposing main surfaces. The method for manufacturing a circuit substrate according to the present disclosure includes: forming, in the insulation substrate, the via hole or a non-through hole opening only on the second main surface; filling the via hole or the non-through hole with the metal; polishing the metal of at least one of the main surfaces to form a step between the metal and the insulation substrate; coating a polished surface of the metal by plating; and polishing the metal on the first main surface and the second main surface.

Description

Claims

1. A method for manufacturing a circuit substrate comprising an insulation substrate formed with a plurality of via holes passing through a first main surface and a second main surface, and a metal with which the plurality of via holes are filled, the first main surface and the second main surface being opposing main surfaces, the method comprising: forming, in the insulation substrate, a via hole having openings on the first main surface and the second main surface or a non-through hole having an opening only on the second main surface;filling the via hole or the non-through hole with the metal;polishing the metal exposed on at least one of the first main surface and the second main surface to lower a polished surface of the metal in the insulation substrate and to form a step between the polished surface of the metal and the at least one of the first main surface and the second main surface;coating the polished surface of the metal by plating; andpolishing the first main surface and the second main surface to provide a via hole of the plurality of via holes that passes through the first main surface and the second main surface.

2. The method according to claim 1, wherein in the filling of the via hole or the non-through hole, the metal is formed by plating.

3. The method according to claim 2, wherein the forming the via hole or the non-through hole comprises forming the via hole having openings on the first main surface and the second main surface,the method further comprising forming a seed layer on the first main surface, and blocking the via hole on the first main surface side with the metal by electroplating, andwherein the filling of the via hole is performed by electroplating.

4. The method according to claim 2, wherein the forming the via hole or the non-through hole comprises forming the non-through hole, andthe method further comprising forming a seed layer on an inner wall of the non-through hole, andwherein the filling of the non-through hole is performed by electroplating.

5. The method according to claim 1, wherein the insulation substrate is made of ceramic or a single crystal.

6. The method according to claim 1, wherein the step between the polished surface of the metal and the at least one of the first main surface and the second main surface is greater than a step between the main surface and the polished surface of the metal after the polishing of the metal on the first main surface and the second main surface.

7. A circuit substrate comprising: an insulation substrate formed with a plurality of via holes passing through a first main surface and a second main surface, the first main surface and the second main surface being opposing main surfaces;a second metal layer with which the plurality of via holes are filled; anda third metal layer coating an entire surface of the second metal layer.

8. The circuit substrate according to claim 7, wherein a thickness of the third metal layer is equal to greater than 0.1 µm.

9. The circuit substrate according to claim 7, wherein the third metal layer is denser and harder than the second metal layer.

10. The circuit substrate according to claim 7, wherein a step between at least one of the opposing main surfaces and a surface of the third metal layer is equal to or less than 1 µm.

11. The circuit substrate according to claim 7, wherein a first arithmetic average roughness Ra of at least one of the opposing main surfaces and a second arithmetic average roughness Ra of a surface of the third metal layer are equal to or less than 0.3 µm, and a difference between the first arithmetic average roughness Ra and the second arithmetic average roughness Ra is equal to or less than 0.2 µm.

12. The circuit substrate according to claim 7, wherein a width of roll-off of a connecting portion between at least one of the opposing main surfaces and each via hole of the plurality of via holes is equal to or less than 1 µm.