Modified tooth proportion gear cutter

What is claimed is: 1. A modified tooth proportion gear cutter, comprising: a gear cutter having a plurality of cutting teeth, and each one of the cutting teeth has a pair of cutting edges configured to cut a gear in a blank orientation to provide the gear in a final orientation that has an involute tooth profile including a plurality of cut teeth and a plurality of valleys therebetween; wherein the pair of cutting edges is configured to cut the gear in the blank orientation, such that the gear in the final orientation includes the involute tooth profile having an active profile section and an operating pitch diameter d wI that is spaced apart from the active profile section; and wherein the pair of cutting edges is configured to cut the gear in the blank orientation, such that the operating pitch diameter is disposed entirely radially inward from the active profile section when the gear is disposed in the final orientation. 2. The modified tooth proportion gear cutter of claim 1 wherein each one of the cutting edges is configured to cut a surface of the gear in the blank orientation in a unilateral direction along the surface. 3. The modified tooth proportion gear cutter of claim 1 wherein the pair of cutting edges includes an approach cutting edge and a recede cutting edge that are disposed on opposing sides of each one of the cutting teeth, such that the approach cutting edge is configured to cut the gear in the blank orientation and provide one of two portions of the involute tooth profile in each one of the valleys, and the recede cutting edge is configured to cut the gear in the blank orientation to provide the other of two portions of the involute tooth profile in each one of the valleys. 4. The modified tooth proportion gear cutter of claim 3 , wherein the approach cutting edge and the recede cutting edge are configured to cut the gear in the blank orientation so as to provide the involute tooth profile having a symmetrical involute profile in each one of the valleys when the gear is in the final orientation. 5. The modified tooth proportion gear cutter of claim 3 , wherein the approach cutting edge and the recede cutting edge are configured to cut the gear in the blank orientation, such that the approach cutting edge provides one flank of the involute tooth profile on one side of a centerline in each one of the valleys, and the recede cutting edge provides the other flank of the involute tooth profile on the other side of the centerline in each one of the valleys when the gear is in the final orientation. 6. The modified tooth proportion gear cutter of claim 1 wherein the cutting teeth are configured to cut the gear in the blank orientation in a plurality of passes, such that each one of the cutting teeth provide in part the plurality of valleys of the gear in the final orientation. 7. The modified tooth proportion gear cutter of claim 1 wherein one of the cutting edges on each one of the cutting teeth is configured to cut the gear in the blank orientation in a single direction extending radially outward with respect to a rotational axis of the gear, and the other of the cutting edges is configured to cut the gear in the blank orientation in a single direction extending radially inward with respect to the rotational axis of the gear. 8. The modified tooth proportion gear cutter of claim 1 wherein the pair of cutting edges is configured to cut the gear in the blank orientation to provide the gear in the final orientation for a spur gear having the operating pitch diameter d wI based on a center distance CD w between the gear and the gear cutter, a number of cutting teeth z E , and a number of cut teeth z 1 as follows: d wI = 2 * CD w 1 - ( z E / z I ) . 9. A modified tooth proportion gear cutter, comprising: a gear cutter having a plurality of cutting teeth, and each one of the cutting teeth has a pair of cutting edges configured to cut a gear in a blank orientation to provide the gear in a final orientation that has an involute tooth profile including a plurality of cut teeth and a plurality of valleys therebetween; wherein the pair of cutting edges is configured to cut the gear in the blank orientation, such that the gear in the final orientation includes the involute tooth profile having an active profile section and an operating pitch diameter d wI that is spaced apart from the active profile section; and wherein the pair of cutting edges is configured to cut the gear in the blank orientation, such that a portion of the operating pitch diameter is disposed radially outward from the active profile section of the gear at a mesh region between the cutting teeth and the cut teeth when the gear is disposed in the final orientation. 10. The modified tooth proportion gear cutter of claim 9 wherein one of the cutting edges on each one of the cutting teeth is configured to cut the gear in the blank orientation in a single direction extending radially outward with respect to a rotational axis of the gear, and the other of the cutting edges is configured to cut the gear in the blank orientation in a single direction extending radially inward with respect to the rotational axis of the gear.