Seatback drive system spring down, power up

What is claimed is: 1. A seatback drive assembly comprising: a lower bracket having a first bracket side and a second bracket side; a seatback frame pivotally mounted to the first bracket side the lower bracket; a lock member pivotally mounted to the seatback frame, the lock member holding the seatback frame in an upright position when the lock member engages the lower bracket; a biasing spring that moves the seatback frame to a folded position when the lock member is disengaged from the lower bracket; a sector gear pivotally mounted to the lower bracket, the sector gear having a first gear side, a second gear side, a set of gear teeth positioned along a portion of an outer edge of the sector gear, a first pin, and a second pin, the first pin and the second pin extending from the first gear side, the sector gear being mounted to the lower bracket at the second bracket side; and a pinion having peripheral teeth that engage the set of gear teeth, the pinion positioning the seatback frame in the folded position by rotation about a first direction such that the first pin contacts the lock member causing the lock member to pivot and disengage the lower bracket thereby initiating the seatback frame to move to the folded position, the pinion positioning the seatback frame in the upright position by rotating in a second direction such that the second pin contacts the seatback frame causing the seatback frame to pivot to the upright position. 2. The seatback drive assembly of claim 1 , wherein the lock member is a lock cam. 3. The seatback drive assembly of claim 2 wherein the first pin is at a distance from 0 to 3 inches from the lock cam when the seatback frame is positioned in the upright position. 4. The seatback drive assembly of claim 1 further comprising an electric motor that rotates the pinion. 5. The seatback drive assembly of claim 1 further comprising a seat bottom frame that is biased by the biasing spring such that the seatback frame moves to the folded position by force applied from the biasing spring. 6. The seatback drive assembly of claim 1 wherein the first direction is opposite to the second direction in a clockwise/counter clockwise sense. 7. The seatback drive assembly of claim 1 wherein the first pin is positioned proximate to a first end of the set of gear teeth and the second pin is positioned near a second end of the set of gear teeth. 8. The seatback drive assembly of claim 1 wherein the sector gear is positioned at a ready position when the seatback frame is positioned in the upright position. 9. The seatback drive assembly of claim 1 wherein when the seatback frame is to be positioned in the folded position, rotation of the pinion causes the sector gear to move is a direction that is opposite to the first direction in a clockwise/counter clockwise sense. 10. The seatback drive assembly of claim 9 wherein the first pin contacts the lock cam lock member causing the lock cam lock member to pivot and disengage the lower bracket. 11. The seatback drive assembly of claim 10 wherein after the lock member disengages the lower bracket, the seatback frame moves to the folded position due to a force provided by the biasing spring. 12. The seatback drive assembly of claim 9 wherein when the seatback frame is to be positioned in the upright position, rotation of the pinion causes the sector gear to move in a direction that is opposite to the second direction in a clockwise/counter clockwise sense. 13. The seatback drive assembly of claim 12 wherein when the seatback frame is to be positioned in the upright position from the folded position, the pinion rotates about a second direction which is opposite to the first direction in a clockwise/counterclockwise sense. 14. The seatback drive assembly of claim 12 wherein rotation of the pinion about the second direction causes the sector gear to rotate in an opposite direction in a clockwise/counterclockwise sense such that the second pin contacts and pushes the seatback frame to the upright position. 15. The seatback drive assembly of claim 14 wherein the pinion continues to rotate along the second direction until the sector gear is positioned at a ready position. 16. A seatback drive assembly comprising: a lower bracket having a first bracket side and a second bracket side; a seatback frame pivotally mounted to the first bracket side; a seat bottom frame pivotally mounted to the lower bracket; a lock cam pivotally mounted to the seatback frame, the lock cam holding the seatback frame in an upright position when the lock cam engages the lower bracket; a biasing spring that moves the seat bottom frame forward such that the seatback frame moves to a folded position when the lock cam is disengaged from the lower bracket; a sector gear having a first gear side and a second gear side, the sector gear being pivotally mounted to the lower bracket at the second bracket side, the sector gear having a set of gear teeth along a portion of an outer edge, a first pin, and a second pin, the first pin and the second pin extending from the first gear side; and a pinion having peripheral teeth that engages the set of gear teeth; and an electric motor that rotates the pinion, the pinion positioning the seatback frame in the folded position by rotation of the pinion about a first direction which causes the sector gear to move in an opposite direction to the first direction such that the first pin contacts the lock cam causing the lock cam to pivot and disengage the lower bracket thereby initiating the seatback frame to move to the folded position, the pinion positioning the seatback frame in the upright position by rotation of the pinion in a second direction which causes the sector gear to rotate in an opposite direction to the second direction such that the second pin contacts the seatback frame causing the seatback frame to pivot to the upright position. 17. The seatback drive assembly of claim 16 wherein the first pin is positioned proximate to a first end of the set of gear teeth and the second pin is positioned near a second end of the set of gear teeth. 18. The seatback drive assembly of claim 16 wherein the sector gear is positioned at a ready position when the seatback frame is positioned in the upright position. 19. The seatback drive assembly of claim 16 wherein when the pinion is rotating in the first direction, the first pin contacts the lock cam causing the lock cam to pivot and disengage the lower bracket thereby causing the seatback frame to move to the folded position due to a force provided by the biasing spring. 20. The seatback drive assembly of claim 16 wherein rotation of the pinion about the second direction causes the second pin to contact and push the seatback frame to the upright position.