Optical coupling device

The invention claimed is: 1. An optical coupling device comprising: a primary conductive plate; a light-emitting part that is disposed on a surface of the primary conductive plate, converts an electrical signal to light, and emits the light; a secondary conductive plate spaced apart from the surface of the primary conductive plate to face the surface of the primary conductive plate and disposed at a side facing the light-emitting part; a light-receiving part that is disposed on the secondary conductive plate to face the light-emitting part, and converts the light from the light-emitting part to an electrical signal; and a first conductive part disposed at the secondary conductive plate, the first conductive part facing the light-emitting part, wherein an electric field generated by a potential difference between the primary conductive plate and the secondary conductive plate is concentrated to the first conductive part, and the primary conductive plate has a first end and a second end opposite to the first end with respect to the light-emitting element disposed on the surface of the primary conductive plate, the first end of the primary conductive plate is closer to the first conductive part than the second end of the primary conductive plate, and a width of the first end of the primary conductive plate is larger than a width of the second end of the primary conductive plate. 2. The optical coupling device of claim 1 , wherein the secondary conductive plate and the first conductive part are integrated. 3. The optical coupling device of claim 1 , wherein the first conductive part has a first surface that faces the secondary conductive plate, the first conductive part has a second surface at a side opposite to the first surface, and the second surface is at a distance of 0.3 mm or more and 1.0 mm or less from the light-receiving part. 4. The optical coupling device of claim 1 , further including a second conductive part projecting toward the light-emitting part from an end of first conductive part separated from the light-receiving part. 5. The optical coupling device of claim 4 , further including a third conductive part projecting from an end of the second conductive part near the light-emitting part in a direction away from the light-receiving part. 6. The optical coupling device of claim 5 , wherein a surface of the third conductive part facing the light-emitting part is closer to the light-emitting part than a light-receiving surface of the light-receiving part is. 7. The optical coupling device of claim 1 , wherein a gap is provided between the secondary conductive plate and the first conductive part. 8. The optical coupling device of claim 7 , further comprising a coupling part coupling the secondary conductive plate and the first conductive part. 9. The optical coupling device of claim 8 , wherein a surface of the first conductive part facing the light-emitting part is closer to the light-emitting part than a light-receiving surface of the light-receiving part is. 10. The optical coupling device of claim 7 , further comprising a bonding wire coupling the secondary conductive plate and the first conductive part. 11. The optical coupling device of claim 1 , wherein the first conductive part has a first surface facing the secondary conductive plate, and has a second surface at a side opposite to the first surface, and the second surface has a slit. 12. The optical coupling device of claim 1 , wherein the secondary conductive plate has a first surface facing the first conductive plate, and at least a surface of the secondary conductive plate except the first surface includes a recess. 13. The optical coupling device of claim 1 , wherein the first conductive part is electrically connected to a specific potential point. 14. The optical coupling device of claim 13 , wherein the specific potential point has a potential equal to a potential of a potential point to which the secondary conductive plate is electrically connected. 15. The optical coupling device of claim 1 , further comprising: a processing circuit that is electrically connected to the light-receiving part and processes an electrical signal output from the light-receiving part; and an encapsulating member encapsulating the light-emitting part and the light-receiving part. 16. The optical coupling device of claim 1 , further comprising: an input terminal electrically connected to the light-emitting part, the input terminal being connected to the first end of the primary conductive plate; and an output terminal electrically connected to the light-receiving part, the output terminal being connected to the secondary conductive plate, wherein the output terminal extends from the secondary conductive plate in a direction from the first end of the primary conductive plate to the second end of the primary conductive plate. 17. The optical coupling device of claim 1 , further comprising: a light-coupling part provided on the surface of the primary conductive plate, the light-coupling part being made of a resin material having a light-transmitting property and covering the light-emitting part, wherein the light-emitting part is apart from the first conductive part, the secondary conductive plate, and the light-receiving part via a gap, and the light-emitting part overlaps the first conductive part viewed in a direction in which the secondary conductive plate faces the primary conductive plate.