초록 ▼

An integrated circuit (50) has a wire bond pad (53). The wire bond pad (53) is formed on a passivation layer (18) over active circuitry (26) and/or electrical interconnect layers (24) of the integrated circuit (50). The wire bond pad (53) is connected to a plurality of final metal layer portions (51

An integrated circuit (50) has a wire bond pad (53). The wire bond pad (53) is formed on a passivation layer (18) over active circuitry (26) and/or electrical interconnect layers (24) of the integrated circuit (50). The wire bond pad (53) is connected to a plurality of final metal layer portions (51, 52). The plurality of final metal layer portions (51, 52) are formed in a final interconnect layer of the interconnect layers (24). In one embodiment, the bond pad (53) is formed from aluminum and the final metal layer pads are formed from copper. The wire bond pad (53) allows routing of conductors in a final metal layer (21) directly underlying the bond pad (53), thus allowing the surface area of the semiconductor die to be reduced.

대표청구항 ▼

1. An integrated circuit, comprising: a substrate having active circuitry; a plurality of copper interconnect layers formed over the substrate; a passivation layer formed over the plurality of interconnect layers; and an aluminum wire bond pad formed over the passivation layer and connected to

1. An integrated circuit, comprising: a substrate having active circuitry; a plurality of copper interconnect layers formed over the substrate; a passivation layer formed over the plurality of interconnect layers; and an aluminum wire bond pad formed over the passivation layer and connected to a first electrical conductor of an interconnect layer of the plurality of interconnect layers by conformally filling one or more openings in the passivation layer that expose the first electrical conductor, wherein a second electrical conductor is formed in a final copper layer of the plurality of copper interconnect layers that directly underlies the aluminum wire bond pad and is electrically isolated from the aluminum wire bond pad only by the passivation layer, and wherein the second electrical conductor is not directly connected to wire bond pad. 2. The integrated circuit of claim 1, wherein a portion of the final interconnect layer of the plurality of interconnect layers that is directly under the wire bond pad is for routing a power supply voltage to electrical circuits on the integrated circuit. 3. The integrated circuit of claim 1, wherein the wire bond pad is connected to one of the plurality of interconnect layers using one or more conformally filled vias through the passivation layer to a contact in the final interconnect layer. 4. The integrated circuit of claim 1, wherein the final interconnect layer of the plurality of interconnect layers includes a third electrical conductor for routing a power supply voltage directly under the wire bond pad and the third electrical conductor is not directly connected to the wire bond pad. 5. A method for forming an integrated circuit comprising the steps of: providing a substrate having active circuitry; forming a plurality of copper interconnect layers formed over the substrate; depositing a passivation layer over the plurality of copper interconnect layers; forming one or more openings in the passivation layer for exposing a first electrical conductor of the plurality of copper interconnect layers; forming an aluminum wire bond pad over the one or more openings in the passivation layer, the aluminum wire bond pad conformally filling the one or more openings to electrically connect the aluminum wire bond pad to the first electrical conductor, and wherein the aluminum wire bond pad is formed directly over a second electrical conductor formed in a final copper layer of the plurality of copper interconnect layers, the second electrical conductor electrically isolated from the aluminum wire bond pad only by the passivation layer, and wherein the electrical conductor is not directly connected to wire bond pad. 6. The method of claim 5, wherein the step of forming the wire bond pad comprises forming the wire bond pad between about 0.5 to 2.0 microns thick. 7. The method of claim 5, wherein the electrical conductor is for routing a power supply voltage to electrical circuits on the integrated circuit. 8. The method of claim 5, further comprising the step of connecting the wire bond pad to one of the plurality of copper interconnect layers using one or more vias through the passivation layer. 9. The method of claim 5, wherein a third conductor is formed in the final copper layer for routing a power supply voltage directly under the wire bond pad and the third conductor is not directly connected to the wire bond pad.